;;; Hey, emacs (1), this is -*- mode:tdl; Coding: utf-8; -*- 2dots_pnct := pnct_fd_le & [ STEM < "fd" > ]. 3dots_pnct := pnct_fs_le & [ STEM < "fs" > ]. a_anequín_x1 := av_i_le & [ STEM < "a_anequín" >, SYNSEM.LKEYS.KEYREL.PRED "_a_anequín_x_rel" ]. a_barlovento_x1 := av_i_le & [ STEM < "a_barlovento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_barlovento_x_rel" ]. a_barrisco_x1 := av_i_le & [ STEM < "a_barrisco" >, SYNSEM.LKEYS.KEYREL.PRED "_a_barrisco_x_rel" ]. a_base_de_bien_x1 := av_i_le & [ STEM < "a_base_de_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_bien_x_rel" ]. a_base_de_p_vmod := p_vmod_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_base_de_p_rel ]. a_base_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_x_subord__rel" ]. a_base_de_sc2 := p_vp_inf_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_x_subord__rel" ]. a_boca_de_cañón_x1 := av_i_le & [ STEM < "a_boca_de_cañón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_boca_de_cañón_x_rel" ]. a_bocajarro_x1 := av_i_le & [ STEM < "a_bocajarro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bocajarro_x_rel" ]. a_bombo_y_platillo_x1 := av_i_le & [ STEM < "a_bombo_y_platillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bombo_y_platillo_x_rel" ]. a_borbollones_x1 := av_i_le & [ STEM < "a_borbollones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_borbollones_x_rel" ]. a_borbotones_x1 := av_i_le & [ STEM < "a_borbotones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_borbotones_x_rel" ]. a_bordo_x1 := av_i_le & [ STEM < "a_bordo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bordo_x_rel" ]. a_bote_pronto_x1 := av_i_le & [ STEM < "a_bote_pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bote_pronto_x_rel" ]. a_brazo_partido_x1 := av_i_le & [ STEM < "a_brazo_partido" >, SYNSEM.LKEYS.KEYREL.PRED "_a_brazo_partido_x_rel" ]. a_bruces_x1 := av_i_le & [ STEM < "a_bruces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bruces_x_rel" ]. a_buen_recaudo_x1 := av_i_le & [ STEM < "a_buen_recaudo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_recaudo_x_rel" ]. a_buen_seguro_x1 := av_i_le & [ STEM < "a_buen_seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_seguro_x_rel" ]. a_buen_tino_x1 := av_i_le & [ STEM < "a_buen_tino" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_tino_x_rel" ]. a_buena_cuenta_x1 := av_i_le & [ STEM < "a_buena_cuenta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_cuenta_x_rel" ]. a_buena_fe_x1 := av_i_le & [ STEM < "a_buena_fe" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_fe_x_rel" ]. a_buena_luz_x1 := av_i_le & [ STEM < "a_buena_luz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_luz_x_rel" ]. a_buena_vista_x1 := av_i_le & [ STEM < "a_buena_vista" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_vista_x_rel" ]. a_buenas_horas_x1 := av_i_le & [ STEM < "a_buenas_horas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buenas_horas_x_rel" ]. a_buenas_noches_x1 := av_i_le & [ STEM < "a_buenas_noches" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buenas_noches_x_rel" ]. a_bulto_x1 := av_i_le & [ STEM < "a_bulto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bulto_x_rel" ]. a_cada_instante_x1 := av_i_le & [ STEM < "a_cada_instante" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_instante_x_rel" ]. a_cada_momento_x1 := av_i_le & [ STEM < "a_cada_momento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_momento_x_rel" ]. a_cada_paso_x1 := av_i_le & [ STEM < "a_cada_paso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_paso_x_rel" ]. a_cada_rato_x1 := av_i_le & [ STEM < "a_cada_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_rato_x_rel" ]. a_cada_trique_x1 := av_i_le & [ STEM < "a_cada_trique" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_trique_x_rel" ]. a_cada_triquitraque_x1 := av_i_le & [ STEM < "a_cada_triquitraque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_triquitraque_x_rel" ]. a_caja_y_espiga_x1 := av_i_le & [ STEM < "a_caja_y_espiga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_caja_y_espiga_x_rel" ]. a_cal_y_canto_x1 := av_i_le & [ STEM < "a_cal_y_canto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cal_y_canto_x_rel" ]. a_caliche_x1 := av_i_le & [ STEM < "a_caliche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_caliche_x_rel" ]. a_cambio_de_p_vmod := p_vmod_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cambio_de_p_rel ]. a_cambio_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_de_x_subord__rel" ]. a_cambio_de_sc2 := p_vp_inf_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_de_x_subord__rel" ]. a_cambio_x1 := av_i_le & [ STEM < "a_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_x_rel" ]. a_campo_raso_x1 := av_i_le & [ STEM < "a_campo_raso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_campo_raso_x_rel" ]. a_campo_traviesa_x1 := av_i_le & [ STEM < "a_campo_traviesa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_campo_traviesa_x_rel" ]. a_cara_de_perro_x1 := av_i_le & [ STEM < "a_cara_de_perro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cara_de_perro_x_rel" ]. a_cara_descubierta_x1 := av_i_le & [ STEM < "a_cara_descubierta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cara_descubierta_x_rel" ]. a_carcajada_limpia_x1 := av_i_le & [ STEM < "a_carcajada_limpia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carcajada_limpia_x_rel" ]. a_cargo_de_p_vmod := p_vmod_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cargo_de_p_rel ]. a_cargo_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cargo_de_x_subord__rel" ]. a_cargo_de_sc2 := p_vp_inf_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cargo_de_x_subord__rel" ]. a_carretadas_x1 := av_i_le & [ STEM < "a_carretadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carretadas_x_rel" ]. a_carta_cabal_x1 := av_i_le & [ STEM < "a_carta_cabal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carta_cabal_x_rel" ]. a_casquete_quitado_x1 := av_i_le & [ STEM < "a_casquete_quitado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_casquete_quitado_x_rel" ]. a_causa_de_p_vmod := p_vmod_le & [ STEM < "a_causa_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_causa_de_p_rel ]. a_centenares_x1 := av_i_le & [ STEM < "a_centenares" >, SYNSEM.LKEYS.KEYREL.PRED "_a_centenares_x_rel" ]. a_cepillo_x1 := av_i_le & [ STEM < "a_cepillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cepillo_x_rel" ]. a_cerca_de_p_vmod := p_vmod_le & [ STEM < "a_cerca_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cerca_de_p_rel ]. a_cercen_x1 := av_i_le & [ STEM < "a_cercen" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cercen_x_rel" ]. a_cercén_x1 := av_i_le & [ STEM < "a_cercén" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cercén_x_rel" ]. a_chorros_x1 := av_i_le & [ STEM < "a_chorros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_chorros_x_rel" ]. a_cielo_descubierto_x1 := av_i_le & [ STEM < "a_cielo_descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cielo_descubierto_x_rel" ]. a_ciencia_cierta_x1 := av_i_le & [ STEM < "a_ciencia_cierta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ciencia_cierta_x_rel" ]. a_codazo_limpio_x1 := av_i_le & [ STEM < "a_codazo_limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_codazo_limpio_x_rel" ]. a_comisión_x1 := av_i_le & [ STEM < "a_comisión" >, SYNSEM.LKEYS.KEYREL.PRED "_a_comisión_x_rel" ]. a_como_de_lugar_x1 := av_i_le & [ STEM < "a_como_de_lugar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_como_de_lugar_x_rel" ]. a_condición_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_condición_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_condición_de_x_subord__rel" ]. a_condición_de_sc2 := p_vp_inf_le & [ STEM < "a_condición_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_condición_de_x_subord__rel" ]. a_consecuencia_de_p_vmod := p_vmod_le & [ STEM < "a_consecuencia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_consecuencia_de_p_rel ]. a_continuación_de_p_vmod := p_vmod_le & [ STEM < "a_continuación_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_continuación_de_p_rel ]. a_contra_reloj_x1 := av_i_le & [ STEM < "a_contra_reloj" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contra_reloj_x_rel" ]. a_contrahílo_x1 := av_i_le & [ STEM < "a_contrahílo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrahílo_x_rel" ]. a_contralecho_x1 := av_i_le & [ STEM < "a_contralecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contralecho_x_rel" ]. a_contramano_x1 := av_i_le & [ STEM < "a_contramano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contramano_x_rel" ]. a_contrapelo_x1 := av_i_le & [ STEM < "a_contrapelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrapelo_x_rel" ]. a_contrapié_x1 := av_i_le & [ STEM < "a_contrapié" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrapié_x_rel" ]. a_corazón_abierto_x1 := av_i_le & [ STEM < "a_corazón_abierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_corazón_abierto_x_rel" ]. a_cordel_x1 := av_i_le & [ STEM < "a_cordel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cordel_x_rel" ]. a_coro_x1 := av_i_le & [ STEM < "a_coro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_coro_x_rel" ]. a_costillas_x1 := av_i_le & [ STEM < "a_costillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_costillas_x_rel" ]. a_coxcojilla_x1 := av_i_le & [ STEM < "a_coxcojilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_coxcojilla_x_rel" ]. a_cruz_y_escuadra_x1 := av_i_le & [ STEM < "a_cruz_y_escuadra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cruz_y_escuadra_x_rel" ]. a_cuatro_patas_x1 := av_i_le & [ STEM < "a_cuatro_patas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuatro_patas_x_rel" ]. a_cuatro_pies_x1 := av_i_le & [ STEM < "a_cuatro_pies" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuatro_pies_x_rel" ]. a_cubos_x1 := av_i_le & [ STEM < "a_cubos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cubos_x_rel" ]. a_cuenta_de_p_vmod := p_vmod_le & [ STEM < "a_cuenta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cuenta_de_p_rel ]. a_cuerpo_de_rey_x1 := av_i_le & [ STEM < "a_cuerpo_de_rey" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuerpo_de_rey_x_rel" ]. a_cuerpo_descubierto_x1 := av_i_le & [ STEM < "a_cuerpo_descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuerpo_descubierto_x_rel" ]. a_cuál_más_x1 := av_i_le & [ STEM < "a_cuál_más" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuál_más_x_rel" ]. a_cántaros_x1 := av_i_le & [ STEM < "a_cántaros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cántaros_x_rel" ]. a_dentelladas_x1 := av_i_le & [ STEM < "a_dentelladas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dentelladas_x_rel" ]. a_dentro_x1 := av_i_le & [ STEM < "a_dentro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dentro_x_rel" ]. a_desmano_x1 := av_i_le & [ STEM < "a_desmano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_desmano_x_rel" ]. a_despecho_de_p_vmod := p_vmod_le & [ STEM < "a_despecho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_despecho_de_p_rel ]. a_despecho_x1 := av_i_le & [ STEM < "a_despecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_despecho_x_rel" ]. a_destajo_x1 := av_i_le & [ STEM < "a_destajo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_destajo_x_rel" ]. a_destiempo_x1 := av_i_le & [ STEM < "a_destiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_destiempo_x_rel" ]. a_diario_x1 := av_i_le & [ STEM < "a_diario" >, SYNSEM.LKEYS.KEYREL.PRED "_a_diario_x_rel" ]. a_dicho_efecto_x1 := av_i_le & [ STEM < "a_dicho_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dicho_efecto_x_rel" ]. a_diferencia_de_p_vmod := p_vmod_le & [ STEM < "a_diferencia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_diferencia_de_p_rel ]. a_disgusto_x1 := av_i_le & [ STEM < "a_disgusto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_disgusto_x_rel" ]. a_distinción_de_p_vmod := p_vmod_le & [ STEM < "a_distinción_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_distinción_de_p_rel ]. a_donde_x1 := av_i_le & [ STEM < "a_donde" >, SYNSEM.LKEYS.KEYREL.PRED "_a_donde_x_rel" ]. a_dos_dedos_de_p_vmod := p_vmod_le & [ STEM < "a_dos_dedos_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_dos_dedos_de_p_rel ]. a_dos_haces_x1 := av_i_le & [ STEM < "a_dos_haces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dos_haces_x_rel" ]. a_dos_manos_x1 := av_i_le & [ STEM < "a_dos_manos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dos_manos_x_rel" ]. a_duras_penas_x1 := av_i_le & [ STEM < "a_duras_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_duras_penas_x_rel" ]. a_dúo_x1 := av_i_le & [ STEM < "a_dúo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dúo_x_rel" ]. a_efecto_de_p_vmod := p_vmod_le & [ STEM < "a_efecto_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_efecto_de_p_rel ]. a_efectos_de_p_vmod := p_vmod_le & [ STEM < "a_efectos_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_efectos_de_p_rel ]. a_empellones_x1 := av_i_le & [ STEM < "a_empellones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_empellones_x_rel" ]. a_escape_x1 := av_i_le & [ STEM < "a_escape" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escape_x_rel" ]. a_escondidas_x1 := av_i_le & [ STEM < "a_escondidas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escondidas_x_rel" ]. a_escondidillas_x1 := av_i_le & [ STEM < "a_escondidillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escondidillas_x_rel" ]. a_escote_x1 := av_i_le & [ STEM < "a_escote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escote_x_rel" ]. a_escuadra_x1 := av_i_le & [ STEM < "a_escuadra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escuadra_x_rel" ]. a_escusa_x1 := av_i_le & [ STEM < "a_escusa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escusa_x_rel" ]. a_escusas_x1 := av_i_le & [ STEM < "a_escusas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escusas_x_rel" ]. a_eso_de_p_vmod := p_vmod_le & [ STEM < "a_eso_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_eso_de_p_rel ]. a_espaldas_de_p_vmod := p_vmod_le & [ STEM < "a_espaldas_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_espaldas_de_p_rel ]. a_espeta_perro_x1 := av_i_le & [ STEM < "a_espeta_perro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espeta_perro_x_rel" ]. a_espinapez_x1 := av_i_le & [ STEM < "a_espinapez" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espinapez_x_rel" ]. a_espuertas_x1 := av_i_le & [ STEM < "a_espuertas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espuertas_x_rel" ]. a_excepción_de_p_vmod := p_vmod_le & [ STEM < "a_excepción_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_excepción_de_p_rel ]. a_expensas_de_p_vmod := p_vmod_le & [ STEM < "a_expensas_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_expensas_de_p_rel ]. a_expensas_x1 := av_i_le & [ STEM < "a_expensas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_expensas_x_rel" ]. a_fanegadas_x1 := av_i_le & [ STEM < "a_fanegadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fanegadas_x_rel" ]. a_favor_de_p_vmod := p_vmod_le & [ STEM < "a_favor_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_favor_de_p_rel ]. a_fin_de_cuentas_x1 := av_i_le & [ STEM < "a_fin_de_cuentas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fin_de_cuentas_x_rel" ]. a_fin_de_p_vmod := p_vmod_le & [ STEM < "a_fin_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fin_de_p_rel ]. a_fines_de_p_vmod := p_vmod_le & [ STEM < "a_fines_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fines_de_p_rel ]. a_flor_de_agua_x1 := av_i_le & [ STEM < "a_flor_de_agua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flor_de_agua_x_rel" ]. a_flor_de_piel_x1 := av_i_le & [ STEM < "a_flor_de_piel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flor_de_piel_x_rel" ]. a_flote_x1 := av_i_le & [ STEM < "a_flote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flote_x_rel" ]. a_fortiori_x1 := av_i_le & [ STEM < "a_fortiori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fortiori_x_rel" ]. a_fuego_lento_x1 := av_i_le & [ STEM < "a_fuego_lento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fuego_lento_x_rel" ]. a_fuerza_de_p_vmod := p_vmod_le & [ STEM < "a_fuerza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fuerza_de_p_rel ]. a_gachas_x1 := av_i_le & [ STEM < "a_gachas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gachas_x_rel" ]. a_gatas_x1 := av_i_le & [ STEM < "a_gatas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gatas_x_rel" ]. a_gogó_x1 := av_i_le & [ STEM < "a_gogó" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gogó_x_rel" ]. a_grandes_rasgos_x1 := av_i_le & [ STEM < "a_grandes_rasgos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_grandes_rasgos_x_rel" ]. a_granel_x1 := av_i_le & [ STEM < "a_granel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_granel_x_rel" ]. a_graves_penas_x1 := av_i_le & [ STEM < "a_graves_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_graves_penas_x_rel" ]. a_guisa_de_p_vmod := p_vmod_le & [ STEM < "a_guisa_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_guisa_de_p_rel ]. a_hito_x1 := av_i_le & [ STEM < "a_hito" >, SYNSEM.LKEYS.KEYREL.PRED "_a_hito_x_rel" ]. a_horcajadas_x1 := av_i_le & [ STEM < "a_horcajadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_horcajadas_x_rel" ]. a_hurtadillas_x1 := av_i_le & [ STEM < "a_hurtadillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_hurtadillas_x_rel" ]. a_jarros_x1 := av_i_le & [ STEM < "a_jarros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_jarros_x_rel" ]. a_jornal_x1 := av_i_le & [ STEM < "a_jornal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_jornal_x_rel" ]. a_junta_continua_x1 := av_i_le & [ STEM < "a_junta_continua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_junta_continua_x_rel" ]. a_juzgar_como_x1 := av_i_le & [ STEM < "a_juzgar_como" >, SYNSEM.LKEYS.KEYREL.PRED "_a_juzgar_como_x_rel" ]. a_juzgar_por_p_vmod := p_vmod_le & [ STEM < "a_juzgar_por" >, SYNSEM.LKEYS.KEYREL.PRED _a_juzgar_por_p_rel ]. a_la_bartola_x1 := av_i_le & [ STEM < "a_la_bartola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_bartola_x_rel" ]. a_la_buena_ventura_x1 := av_i_le & [ STEM < "a_la_buena_ventura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_buena_ventura_x_rel" ]. a_la_busca_de_p_vmod := p_vmod_le & [ STEM < "a_la_busca_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_busca_de_p_rel ]. a_la_chita_callando_x1 := av_i_le & [ STEM < "a_la_chita_callando" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_chita_callando_x_rel" ]. a_la_cola_x1 := av_i_le & [ STEM < "a_la_cola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_cola_x_rel" ]. a_la_espera_de_p_vmod := p_vmod_le & [ STEM < "a_la_espera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_espera_de_p_rel ]. a_la_funerala_x1 := av_i_le & [ STEM < "a_la_funerala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_funerala_x_rel" ]. a_la_inversa_x1 := av_i_le & [ STEM < "a_la_inversa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_inversa_x_rel" ]. a_la_manera_de_p_vmod := p_vmod_le & [ STEM < "a_la_manera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_manera_de_p_rel ]. a_la_mano_de_dios_x1 := av_i_le & [ STEM < "a_la_mano_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_mano_de_Dios_x_rel" ]. a_la_mitad_de_p_vmod := p_vmod_le & [ STEM < "a_la_mitad_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_mitad_de_p_rel ]. a_la_morisma_x1 := av_i_le & [ STEM < "a_la_morisma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_morisma_x_rel" ]. a_la_mujeriega_x1 := av_i_le & [ STEM < "a_la_mujeriega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_mujeriega_x_rel" ]. a_la_papillote_x1 := av_i_le & [ STEM < "a_la_papillote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_papillote_x_rel" ]. a_la_parrilla_x1 := av_i_le & [ STEM < "a_la_parrilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_parrilla_x_rel" ]. a_la_pata_coja_x1 := av_i_le & [ STEM < "a_la_pata_coja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pata_coja_x_rel" ]. a_la_pata_llana_x1 := av_i_le & [ STEM < "a_la_pata_llana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pata_llana_x_rel" ]. a_la_paz_de_dios_x1 := av_i_le & [ STEM < "a_la_paz_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_paz_de_Dios_x_rel" ]. a_la_pendura_x1 := av_i_le & [ STEM < "a_la_pendura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pendura_x_rel" ]. a_la_perfección_x1 := av_i_le & [ STEM < "a_la_perfección" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_perfección_x_rel" ]. a_la_primera_de_cambio_x1 := av_i_le & [ STEM < "a_la_primera_de_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_primera_de_cambio_x_rel" ]. a_la_ronza_x1 := av_i_le & [ STEM < "a_la_ronza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_ronza_x_rel" ]. a_la_siga_de_p_vmod := p_vmod_le & [ STEM < "a_la_siga_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_siga_de_p_rel ]. a_la_sirga_x1 := av_i_le & [ STEM < "a_la_sirga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_sirga_x_rel" ]. a_la_sopa_boba_x1 := av_i_le & [ STEM < "a_la_sopa_boba" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_sopa_boba_x_rel" ]. a_la_tentaruja_x1 := av_i_le & [ STEM < "a_la_tentaruja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_tentaruja_x_rel" ]. a_la_tirolesa_x1 := av_i_le & [ STEM < "a_la_tirolesa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_tirolesa_x_rel" ]. a_la_usanza_de_p_vmod := p_vmod_le & [ STEM < "a_la_usanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_usanza_de_p_rel ]. a_la_vez_que_sc := sc_prop_fin_le & [ STEM < "a_la_vez_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_vez_que_x_subord_rel" ]. a_la_vez_x1 := av_i_le & [ STEM < "a_la_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_vez_x_rel" ]. a_la_vuelta_de_p_vmod := p_vmod_le & [ STEM < "a_la_vuelta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_vuelta_de_p_rel ]. a_la_zona_de_p_vmod := p_vmod_le & [ STEM < "a_la_zona_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_zona_de_p_rel ]. a_largas_marchas_x1 := av_i_le & [ STEM < "a_largas_marchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_largas_marchas_x_rel" ]. a_las_calladas_x1 := av_i_le & [ STEM < "a_las_calladas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_calladas_x_rel" ]. a_las_mil_maravillas_x1 := av_i_le & [ STEM < "a_las_mil_maravillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_mil_maravillas_x_rel" ]. a_las_primeras_de_cambio_x1 := av_i_le & [ STEM < "a_las_primeras_de_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_primeras_de_cambio_x_rel" ]. a_las_puertas_de_la_muerte_x1 := av_i_le & [ STEM < "a_las_puertas_de_la_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_puertas_de_la_muerte_x_rel" ]. a_las_veces_x1 := av_i_le & [ STEM < "a_las_veces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_veces_x_rel" ]. a_lata_por_canal_x1 := av_i_le & [ STEM < "a_lata_por_canal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lata_por_canal_x_rel" ]. a_legua_x1 := av_i_le & [ STEM < "a_legua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_legua_x_rel" ]. a_leguas_x1 := av_i_le & [ STEM < "a_leguas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_leguas_x_rel" ]. a_libre_plática_x1 := av_i_le & [ STEM < "a_libre_plática" >, SYNSEM.LKEYS.KEYREL.PRED "_a_libre_plática_x_rel" ]. a_lo_ancho_de_p_vmod := p_vmod_le & [ STEM < "a_lo_ancho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_lo_ancho_de_p_rel ]. a_lo_bestia_x1 := av_i_le & [ STEM < "a_lo_bestia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_bestia_x_rel" ]. a_lo_discreto_x1 := av_i_le & [ STEM < "a_lo_discreto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_discreto_x_rel" ]. a_lo_garçon_x1 := av_i_le & [ STEM < "a_lo_garçon" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_garçon_x_rel" ]. a_lo_grande_x1 := av_i_le & [ STEM < "a_lo_grande" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_grande_x_rel" ]. a_lo_largo_y_a_lo_ancho_x1 := av_i_le & [ STEM < "a_lo_largo_y_a_lo_ancho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_largo_y_a_lo_ancho_x_rel" ]. a_lo_largo_y_ancho_de_p_vmod := p_vmod_le & [ STEM < "a_lo_largo_y_ancho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_lo_largo_y_ancho_de_p_rel ]. a_lo_lejos_x1 := av_i_le & [ STEM < "a_lo_lejos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_lejos_x_rel" ]. a_lo_loco_x1 := av_i_le & [ STEM < "a_lo_loco" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_loco_x_rel" ]. a_lo_moderno_x1 := av_i_le & [ STEM < "a_lo_moderno" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_moderno_x_rel" ]. a_lo_más_x1 := av_i_le & [ STEM < "a_lo_más" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_más_x_rel" ]. a_lo_que_parece_x1 := av_i_le & [ STEM < "a_lo_que_parece" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_que_parece_x_rel" ]. a_lo_que_salga_x1 := av_i_le & [ STEM < "a_lo_que_salga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_que_salga_x_rel" ]. a_lo_sumo_x1 := av_i_le & [ STEM < "a_lo_sumo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_sumo_x_rel" ]. a_lo_tonto_x1 := av_i_le & [ STEM < "a_lo_tonto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_tonto_x_rel" ]. a_lomo_x1 := av_i_le & [ STEM < "a_lomo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lomo_x_rel" ]. a_lomos_x1 := av_i_le & [ STEM < "a_lomos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lomos_x_rel" ]. a_los_cuatro_vientos_x1 := av_i_le & [ STEM < "a_los_cuatro_vientos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_los_cuatro_vientos_x_rel" ]. a_los_piques_x1 := av_i_le & [ STEM < "a_los_piques" >, SYNSEM.LKEYS.KEYREL.PRED "_a_los_piques_x_rel" ]. a_lumbre_de_pajas_x1 := av_i_le & [ STEM < "a_lumbre_de_pajas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lumbre_de_pajas_x_rel" ]. a_lumbre_mansa_x1 := av_i_le & [ STEM < "a_lumbre_mansa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lumbre_mansa_x_rel" ]. a_lápiz_x1 := av_i_le & [ STEM < "a_lápiz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lápiz_x_rel" ]. a_línea_tirada_x1 := av_i_le & [ STEM < "a_línea_tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_línea_tirada_x_rel" ]. a_machamartillo_x1 := av_i_le & [ STEM < "a_machamartillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_machamartillo_x_rel" ]. a_machote_x1 := av_i_le & [ STEM < "a_machote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_machote_x_rel" ]. a_mal_dar_x1 := av_i_le & [ STEM < "a_mal_dar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mal_dar_x_rel" ]. a_malas_penas_x1 := av_i_le & [ STEM < "a_malas_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_malas_penas_x_rel" ]. a_manadas_x1 := av_i_le & [ STEM < "a_manadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_manadas_x_rel" ]. a_manera_de_p_vmod := p_vmod_le & [ STEM < "a_manera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_manera_de_p_rel ]. a_mano_airada_x1 := av_i_le & [ STEM < "a_mano_airada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mano_airada_x_rel" ]. a_mano_armada_x1 := av_i_le & [ STEM < "a_mano_armada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mano_armada_x_rel" ]. a_manos_llenas_x1 := av_i_le & [ STEM < "a_manos_llenas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_manos_llenas_x_rel" ]. a_mansalva_x1 := av_i_le & [ STEM < "a_mansalva" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mansalva_x_rel" ]. a_mares_x1 := av_i_le & [ STEM < "a_mares" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mares_x_rel" ]. a_mata_caballo_x1 := av_i_le & [ STEM < "a_mata_caballo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mata_caballo_x_rel" ]. a_matacaballo_x1 := av_i_le & [ STEM < "a_matacaballo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_matacaballo_x_rel" ]. a_mayor_abundamiento_x1 := av_i_le & [ STEM < "a_mayor_abundamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mayor_abundamiento_x_rel" ]. a_mazo_y_escoplo_x1 := av_i_le & [ STEM < "a_mazo_y_escoplo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mazo_y_escoplo_x_rel" ]. a_media_ladera_x1 := av_i_le & [ STEM < "a_media_ladera" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_ladera_x_rel" ]. a_media_madera_x1 := av_i_le & [ STEM < "a_media_madera" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_madera_x_rel" ]. a_media_margen_x1 := av_i_le & [ STEM < "a_media_margen" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_margen_x_rel" ]. a_media_rienda_x1 := av_i_le & [ STEM < "a_media_rienda" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_rienda_x_rel" ]. a_media_rodilla_x1 := av_i_le & [ STEM < "a_media_rodilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_rodilla_x_rel" ]. a_media_voz_x1 := av_i_le & [ STEM < "a_media_voz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_voz_x_rel" ]. a_mediados_de_p_vmod := p_vmod_le & [ STEM < "a_mediados_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_mediados_de_p_rel ]. a_medias_palabras_x1 := av_i_le & [ STEM < "a_medias_palabras" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medias_palabras_x_rel" ]. a_medias_x1 := av_i_spr_le & [ STEM < "a_medias" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medias_x_rel" ]. a_medida_que_sc := sc_prop_fin_le & [ STEM < "a_medida_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medida_que_x_subord_rel" ]. a_medio_hacer_x1 := av_i_le & [ STEM < "a_medio_hacer" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medio_hacer_x_rel" ]. a_medio_plazo_x1 := av_i_le & [ STEM < "a_medio_plazo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medio_plazo_x_rel" ]. a_mediodía_x1 := av_i_le & [ STEM < "a_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mediodía_x_rel" ]. a_medios_pelos_x1 := av_i_le & [ STEM < "a_medios_pelos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medios_pelos_x_rel" ]. a_menos_que_sc := sc_prop_fin_le & [ STEM < "a_menos_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_menos_que_x_subord_rel" ]. a_mesa_puesta_x1 := av_i_le & [ STEM < "a_mesa_puesta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mesa_puesta_x_rel" ]. a_millaradas_x1 := av_i_le & [ STEM < "a_millaradas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_millaradas_x_rel" ]. a_mis_anchas_x1 := av_i_le & [ STEM < "a_mis_anchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mis_anchas_x_rel" ]. a_mitad_de_p_vmod := p_vmod_le & [ STEM < "a_mitad_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_mitad_de_p_rel ]. a_modo_de_p_vmod := p_vmod_le & [ STEM < "a_modo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_modo_de_p_rel ]. a_montón_x1 := av_i_le & [ STEM < "a_montón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_montón_x_rel" ]. a_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mrk_np := p_mrk_np_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mucha_honra_x1 := av_i_le & [ STEM < "a_mucha_honra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mucha_honra_x_rel" ]. a_muerte_o_vida_x1 := av_i_le & [ STEM < "a_muerte_o_vida" >, SYNSEM.LKEYS.KEYREL.PRED "_a_muerte_o_vida_x_rel" ]. a_muerte_x1 := av_i_le & [ STEM < "a_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_muerte_x_rel" ]. a_mujeriega_x1 := av_i_le & [ STEM < "a_mujeriega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mujeriega_x_rel" ]. a_más_andar_x1 := av_i_le & [ STEM < "a_más_andar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_andar_x_rel" ]. a_más_correr_x1 := av_i_le & [ STEM < "a_más_correr" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_correr_x_rel" ]. a_más_ganar_x1 := av_i_le & [ STEM < "a_más_ganar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_ganar_x_rel" ]. a_más_mejor_x1 := av_i_le & [ STEM < "a_más_mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_mejor_x_rel" ]. a_más_no_poder_x1 := av_i_le & [ STEM < "a_más_no_poder" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_no_poder_x_rel" ]. a_más_tardar_x1 := av_i_le & [ STEM < "a_más_tardar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_tardar_x_rel" ]. a_más_ver_x1 := av_i_le & [ STEM < "a_más_ver" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_ver_x_rel" ]. a_más_y_mejor_x1 := av_i_le & [ STEM < "a_más_y_mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_y_mejor_x_rel" ]. a_nado_x1 := av_i_le & [ STEM < "a_nado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_nado_x_rel" ]. a_no_ser_que_sc := sc_prop_fin_le & [ STEM < "a_no_ser_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_no_ser_que_x_subord_rel" ]. a_nombre_de_p_vmod := p_vmod_le & [ STEM < "a_nombre_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_nombre_de_p_rel ]. a_ojo_de_buen_cubero_x1 := av_i_le & [ STEM < "a_ojo_de_buen_cubero" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ojo_de_buen_cubero_x_rel" ]. a_ojos_vistas_x1 := av_i_le & [ STEM < "a_ojos_vistas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ojos_vistas_x_rel" ]. a_p_amod := p_amod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_ditrans_vmod := p_ditrans_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_mrkd_np_vmod := p_mrkd_np_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_nmod := p_nmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_pmod := p_misc_pmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_temp_vmod := p_temp_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_temp_rel ]. a_p_vmod := p_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_vp-inf_amod := p_vp-inf_amod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_pan_y_cuchillo_x1 := av_i_le & [ STEM < "a_pan_y_cuchillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pan_y_cuchillo_x_rel" ]. a_partir_de_p_vmod := p_vmod_le & [ STEM < "a_partir_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_partir_de_p_rel ]. a_pasatoro_x1 := av_i_le & [ STEM < "a_pasatoro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pasatoro_x_rel" ]. a_paseo_x1 := av_i_le & [ STEM < "a_paseo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paseo_x_rel" ]. a_paso_de_tortuga_x1 := av_i_le & [ STEM < "a_paso_de_tortuga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paso_de_tortuga_x_rel" ]. a_paso_largo_x1 := av_i_le & [ STEM < "a_paso_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paso_largo_x_rel" ]. a_pasto_x1 := av_i_le & [ STEM < "a_pasto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pasto_x_rel" ]. a_pesar_de_p_vmod := p_vmod_le & [ STEM < "a_pesar_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_pesar_de_p_rel ]. a_pesar_de_todo_x1 := av_i_le & [ STEM < "a_pesar_de_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pesar_de_todo_x_rel" ]. a_peso_de_oro_x1 := av_i_le & [ STEM < "a_peso_de_oro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_peso_de_oro_x_rel" ]. a_petición_de_p_vmod := p_vmod_le & [ STEM < "a_petición_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_petición_de_p_rel ]. a_peón_x1 := av_i_le & [ STEM < "a_peón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_peón_x_rel" ]. a_pica_suelta_x1 := av_i_le & [ STEM < "a_pica_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pica_suelta_x_rel" ]. a_pico_de_jarro_x1 := av_i_le & [ STEM < "a_pico_de_jarro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pico_de_jarro_x_rel" ]. a_pico_x1 := av_i_le & [ STEM < "a_pico" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pico_x_rel" ]. a_pie_firme_x1 := av_i_le & [ STEM < "a_pie_firme" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pie_firme_x_rel" ]. a_pie_llano_x1 := av_i_le & [ STEM < "a_pie_llano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pie_llano_x_rel" ]. a_pierna_suelta_x1 := av_i_le & [ STEM < "a_pierna_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pierna_suelta_x_rel" ]. a_pipiricojo_x1 := av_i_le & [ STEM < "a_pipiricojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pipiricojo_x_rel" ]. a_pique_de_maceta_x1 := av_i_le & [ STEM < "a_pique_de_maceta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pique_de_maceta_x_rel" ]. a_plazo_fijo_x1 := av_i_le & [ STEM < "a_plazo_fijo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plazo_fijo_x_rel" ]. a_plazos_x1 := av_i_le & [ STEM < "a_plazos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plazos_x_rel" ]. a_plomo_x1 := av_i_le & [ STEM < "a_plomo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plomo_x_rel" ]. a_poco_que_sc := sc_prop_fin_le & [ STEM < "a_poco_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_poco_que_x_subord_rel" ]. a_poco_rato_x1 := av_i_le & [ STEM < "a_poco_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_a_poco_rato_x_rel" ]. a_pocos_pasos_x1 := av_i_le & [ STEM < "a_pocos_pasos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pocos_pasos_x_rel" ]. a_porfía_x1 := av_i_le & [ STEM < "a_porfía" >, SYNSEM.LKEYS.KEYREL.PRED "_a_porfía_x_rel" ]. a_porrillo_x1 := av_i_le & [ STEM < "a_porrillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_porrillo_x_rel" ]. a_pospelo_x1 := av_i_le & [ STEM < "a_pospelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pospelo_x_rel" ]. a_posteriori_x1 := av_i_le & [ STEM < "a_posteriori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_posteriori_x_rel" ]. a_pote_x1 := av_i_le & [ STEM < "a_pote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pote_x_rel" ]. a_precio_de_coste_x1 := av_i_le & [ STEM < "a_precio_de_coste" >, SYNSEM.LKEYS.KEYREL.PRED "_a_precio_de_coste_x_rel" ]. a_principios_de_p_vmod := p_vmod_le & [ STEM < "a_principios_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_principios_de_p_rel ]. a_priori_x1 := av_i_le & [ STEM < "a_priori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_priori_x_rel" ]. a_prisa_x1 := av_i_le & [ STEM < "a_prisa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_prisa_x_rel" ]. a_propósito_de_p_vmod := p_vmod_le & [ STEM < "a_propósito_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_propósito_de_p_rel ]. a_prorrata_x1 := av_i_le & [ STEM < "a_prorrata" >, SYNSEM.LKEYS.KEYREL.PRED "_a_prorrata_x_rel" ]. a_prueba_de_p_vmod := p_vmod_le & [ STEM < "a_prueba_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_prueba_de_p_rel ]. a_puchos_x1 := av_i_le & [ STEM < "a_puchos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puchos_x_rel" ]. a_puerta_cerrada_x1 := av_i_le & [ STEM < "a_puerta_cerrada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puerta_cerrada_x_rel" ]. a_puestas_x1 := av_i_le & [ STEM < "a_puestas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puestas_x_rel" ]. a_punta_de_lanza_x1 := av_i_le & [ STEM < "a_punta_de_lanza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_de_lanza_x_rel" ]. a_punta_de_pistola_x1 := av_i_le & [ STEM < "a_punta_de_pistola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_de_pistola_x_rel" ]. a_punta_pala_x1 := av_i_le & [ STEM < "a_punta_pala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_pala_x_rel" ]. a_puntapiés_x1 := av_i_le & [ STEM < "a_puntapiés" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puntapiés_x_rel" ]. a_punto_de_caramelo_x1 := av_i_le & [ STEM < "a_punto_de_caramelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_de_caramelo_x_rel" ]. a_punto_de_p_vmod := p_vmod_le & [ STEM < "a_punto_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_punto_de_p_rel ]. a_punto_de_solfa_x1 := av_i_le & [ STEM < "a_punto_de_solfa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_de_solfa_x_rel" ]. a_punto_fijo_x1 := av_i_le & [ STEM < "a_punto_fijo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_fijo_x_rel" ]. a_punto_largo_x1 := av_i_le & [ STEM < "a_punto_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_largo_x_rel" ]. a_pupilo_x1 := av_i_le & [ STEM < "a_pupilo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pupilo_x_rel" ]. a_puñados_x1 := av_i_le & [ STEM < "a_puñados" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puñados_x_rel" ]. a_puño_cerrado_x1 := av_i_le & [ STEM < "a_puño_cerrado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puño_cerrado_x_rel" ]. a_quema_ropa_x1 := av_i_le & [ STEM < "a_quema_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_quema_ropa_x_rel" ]. a_quemarropa_x1 := av_i_le & [ STEM < "a_quemarropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_quemarropa_x_rel" ]. a_rachas_x1 := av_i_le & [ STEM < "a_rachas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rachas_x_rel" ]. a_raja_tabla_x1 := av_i_le & [ STEM < "a_raja_tabla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_raja_tabla_x_rel" ]. a_rajatabla_x1 := av_i_le & [ STEM < "a_rajatabla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rajatabla_x_rel" ]. a_ras_de_el_suelo_x1 := av_i_le & [ STEM < "a_ras_del_suelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ras_del_suelo_x_rel" ]. a_ras_de_p_vmod := p_vmod_le & [ STEM < "a_ras_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_ras_de_p_rel ]. a_ras_de_tierra_x1 := av_i_le & [ STEM < "a_ras_de_tierra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ras_de_tierra_x_rel" ]. a_rastras_x1 := av_i_le & [ STEM < "a_rastras" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rastras_x_rel" ]. a_ratos_perdidos_x1 := av_i_le & [ STEM < "a_ratos_perdidos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ratos_perdidos_x_rel" ]. a_raudales_x1 := av_i_le & [ STEM < "a_raudales" >, SYNSEM.LKEYS.KEYREL.PRED "_a_raudales_x_rel" ]. a_razón_de_p_vmod := p_vmod_le & [ STEM < "a_razón_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_razón_de_p_rel ]. a_raíz_de_p_vmod := p_vmod_le & [ STEM < "a_raíz_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_raíz_de_p_rel ]. a_reculones_x1 := av_i_le & [ STEM < "a_reculones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_reculones_x_rel" ]. a_regaña_dientes_x1 := av_i_le & [ STEM < "a_regaña_dientes" >, SYNSEM.LKEYS.KEYREL.PRED "_a_regaña_dientes_x_rel" ]. a_regañadientes_x1 := av_i_le & [ STEM < "a_regañadientes" >, SYNSEM.LKEYS.KEYREL.PRED "_a_regañadientes_x_rel" ]. a_rehala_x1 := av_i_le & [ STEM < "a_rehala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rehala_x_rel" ]. a_rembolso_x1 := av_i_le & [ STEM < "a_rembolso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rembolso_x_rel" ]. a_remiendos_x1 := av_i_le & [ STEM < "a_remiendos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remiendos_x_rel" ]. a_remo_x1 := av_i_le & [ STEM < "a_remo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remo_x_rel" ]. a_remojo_x1 := av_i_le & [ STEM < "a_remojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remojo_x_rel" ]. a_renglón_seguido_x1 := av_i_le & [ STEM < "a_renglón_seguido" >, SYNSEM.LKEYS.KEYREL.PRED "_a_renglón_seguido_x_rel" ]. a_reo_x1 := av_i_le & [ STEM < "a_reo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_reo_x_rel" ]. a_repecho_x1 := av_i_le & [ STEM < "a_repecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repecho_x_rel" ]. a_repelo_x1 := av_i_le & [ STEM < "a_repelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repelo_x_rel" ]. a_repelones_x1 := av_i_le & [ STEM < "a_repelones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repelones_x_rel" ]. a_reserva_de_p_vmod := p_vmod_le & [ STEM < "a_reserva_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_reserva_de_p_rel ]. a_resto_abierto_x1 := av_i_le & [ STEM < "a_resto_abierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_resto_abierto_x_rel" ]. a_retaguardia_de_p_vmod := p_vmod_le & [ STEM < "a_retaguardia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_retaguardia_de_p_rel ]. a_revienta_cinchas_x1 := av_i_le & [ STEM < "a_revienta_cinchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_revienta_cinchas_x_rel" ]. a_rienda_suelta_x1 := av_i_le & [ STEM < "a_rienda_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rienda_suelta_x_rel" ]. a_riesgo_de_p_vmod := p_vmod_le & [ STEM < "a_riesgo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_riesgo_de_p_rel ]. a_riesgo_y_ventura_x1 := av_i_le & [ STEM < "a_riesgo_y_ventura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_riesgo_y_ventura_x_rel" ]. a_rodeabrazo_x1 := av_i_le & [ STEM < "a_rodeabrazo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rodeabrazo_x_rel" ]. a_rompejunta_x1 := av_i_le & [ STEM < "a_rompejunta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rompejunta_x_rel" ]. a_rostro_firme_x1 := av_i_le & [ STEM < "a_rostro_firme" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rostro_firme_x_rel" ]. a_ruche_x1 := av_i_le & [ STEM < "a_ruche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ruche_x_rel" ]. a_río_revuelto_x1 := av_i_le & [ STEM < "a_río_revuelto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_río_revuelto_x_rel" ]. a_sabiendas_x1 := av_i_le & [ STEM < "a_sabiendas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sabiendas_x_rel" ]. a_salto_de_mata_x1 := av_i_le & [ STEM < "a_salto_de_mata" >, SYNSEM.LKEYS.KEYREL.PRED "_a_salto_de_mata_x_rel" ]. a_saltos_x1 := av_i_le & [ STEM < "a_saltos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_saltos_x_rel" ]. a_sangre_caliente_x1 := av_i_le & [ STEM < "a_sangre_caliente" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_caliente_x_rel" ]. a_sangre_fría_x1 := av_i_le & [ STEM < "a_sangre_fría" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_fría_x_rel" ]. a_sangre_y_fuego_x1 := av_i_le & [ STEM < "a_sangre_y_fuego" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_y_fuego_x_rel" ]. a_santo_de_qué_x1 := av_i_le & [ STEM < "a_santo_de_qué" >, SYNSEM.LKEYS.KEYREL.PRED "_a_santo_de_qué_x_rel" ]. a_sardinel_x1 := av_i_le & [ STEM < "a_sardinel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sardinel_x_rel" ]. a_sc := p_vp_inf_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED "_a_x_subord_rel" ]. a_seguir_bien_x1 := av_i_le & [ STEM < "a_seguir_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_a_seguir_bien_x_rel" ]. a_semejanza_de_p_vmod := p_vmod_le & [ STEM < "a_semejanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_semejanza_de_p_rel ]. a_so_capa_x1 := av_i_le & [ STEM < "a_so_capa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_so_capa_x_rel" ]. a_sobre_haz_x1 := av_i_le & [ STEM < "a_sobre_haz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobre_haz_x_rel" ]. a_sobre_peine_x1 := av_i_le & [ STEM < "a_sobre_peine" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobre_peine_x_rel" ]. a_sobremano_x1 := av_i_le & [ STEM < "a_sobremano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobremano_x_rel" ]. a_socapa_x1 := av_i_le & [ STEM < "a_socapa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_socapa_x_rel" ]. a_soga_x1 := av_i_le & [ STEM < "a_soga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_soga_x_rel" ]. a_solapo_x1 := av_i_le & [ STEM < "a_solapo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solapo_x_rel" ]. a_solas_x1 := av_i_le & [ STEM < "a_solas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solas_x_rel" ]. a_solaz_x1 := av_i_le & [ STEM < "a_solaz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solaz_x_rel" ]. a_sotamano_x1 := av_i_le & [ STEM < "a_sotamano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sotamano_x_rel" ]. a_sotavento_x1 := av_i_le & [ STEM < "a_sotavento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sotavento_x_rel" ]. a_su_imagen_y_semejanza_x1 := av_i_le & [ STEM < "a_su_imagen_y_semejanza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_su_imagen_y_semejanza_x_rel" ]. a_suplicación_de_p_vmod := p_vmod_le & [ STEM < "a_suplicación_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_suplicación_de_p_rel ]. a_sus_anchas_x1 := av_i_le & [ STEM < "a_sus_anchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sus_anchas_x_rel" ]. a_súplica_de_p_vmod := p_vmod_le & [ STEM < "a_súplica_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_súplica_de_p_rel ]. a_tal_punto_que_sc := sc_prop_fin_le & [ STEM < "a_tal_punto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tal_punto_que_x_subord_rel" ]. a_teja_vana_x1 := av_i_le & [ STEM < "a_teja_vana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_teja_vana_x_rel" ]. a_tenor_de_p_vmod := p_vmod_le & [ STEM < "a_tenor_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_tenor_de_p_rel ]. a_tientas_x1 := av_i_le & [ STEM < "a_tientas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tientas_x_rel" ]. a_tiento_x1 := av_i_le & [ STEM < "a_tiento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiento_x_rel" ]. a_tirada_x1 := av_i_le & [ STEM < "a_tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tirada_x_rel" ]. a_tiro_de_ballesta_x1 := av_i_le & [ STEM < "a_tiro_de_ballesta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_de_ballesta_x_rel" ]. a_tiro_de_pistola_x1 := av_i_le & [ STEM < "a_tiro_de_pistola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_de_pistola_x_rel" ]. a_tiro_limpio_x1 := av_i_le & [ STEM < "a_tiro_limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_limpio_x_rel" ]. a_tizón_x1 := av_i_le & [ STEM < "a_tizón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tizón_x_rel" ]. a_toca_ropa_x1 := av_i_le & [ STEM < "a_toca_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toca_ropa_x_rel" ]. a_toca_teja_x1 := av_i_le & [ STEM < "a_toca_teja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toca_teja_x_rel" ]. a_tocateja_x1 := av_i_le & [ STEM < "a_tocateja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tocateja_x_rel" ]. a_toda_brida_x1 := av_i_le & [ STEM < "a_toda_brida" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_brida_x_rel" ]. a_toda_costa_x1 := av_i_le & [ STEM < "a_toda_costa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_costa_x_rel" ]. a_toda_furia_x1 := av_i_le & [ STEM < "a_toda_furia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_furia_x_rel" ]. a_toda_hostia_x1 := av_i_le & [ STEM < "a_toda_hostia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_hostia_x_rel" ]. a_toda_leche_x1 := av_i_le & [ STEM < "a_toda_leche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_leche_x_rel" ]. a_toda_ley_x1 := av_i_le & [ STEM < "a_toda_ley" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_ley_x_rel" ]. a_toda_marcha_x1 := av_i_le & [ STEM < "a_toda_marcha" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_marcha_x_rel" ]. a_toda_mecha_x1 := av_i_le & [ STEM < "a_toda_mecha" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_mecha_x_rel" ]. a_toda_máquina_x1 := av_i_le & [ STEM < "a_toda_máquina" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_máquina_x_rel" ]. a_toda_pastilla_x1 := av_i_le & [ STEM < "a_toda_pastilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_pastilla_x_rel" ]. a_toda_plana_x1 := av_i_le & [ STEM < "a_toda_plana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_plana_x_rel" ]. a_toda_prisa_x1 := av_i_le & [ STEM < "a_toda_prisa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_prisa_x_rel" ]. a_toda_rienda_x1 := av_i_le & [ STEM < "a_toda_rienda" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_rienda_x_rel" ]. a_todas_estas_x1 := av_i_le & [ STEM < "a_todas_estas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todas_estas_x_rel" ]. a_todas_horas_x1 := av_i_le & [ STEM < "a_todas_horas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todas_horas_x_rel" ]. a_todo_andar_x1 := av_i_le & [ STEM < "a_todo_andar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_andar_x_rel" ]. a_todo_correr_x1 := av_i_le & [ STEM < "a_todo_correr" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_correr_x_rel" ]. a_todo_evento_x1 := av_i_le & [ STEM < "a_todo_evento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_evento_x_rel" ]. a_todo_gas_x1 := av_i_le & [ STEM < "a_todo_gas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_gas_x_rel" ]. a_todo_lo_largo_de_p_vmod := p_vmod_le & [ STEM < "a_todo_lo_largo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_todo_lo_largo_de_p_rel ]. a_todo_lo_largo_x1 := av_i_le & [ STEM < "a_todo_lo_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_lo_largo_x_rel" ]. a_todo_meter_x1 := av_i_le & [ STEM < "a_todo_meter" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_meter_x_rel" ]. a_todo_moler_x1 := av_i_le & [ STEM < "a_todo_moler" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_moler_x_rel" ]. a_todo_pasto_x1 := av_i_le & [ STEM < "a_todo_pasto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_pasto_x_rel" ]. a_todo_riesgo_x1 := av_i_le & [ STEM < "a_todo_riesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_riesgo_x_rel" ]. a_todo_ruedo_x1 := av_i_le & [ STEM < "a_todo_ruedo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_ruedo_x_rel" ]. a_todo_tirar_x1 := av_i_le & [ STEM < "a_todo_tirar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_tirar_x_rel" ]. a_todo_trance_x1 := av_i_le & [ STEM < "a_todo_trance" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_trance_x_rel" ]. a_todo_vapor_x1 := av_i_le & [ STEM < "a_todo_vapor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_vapor_x_rel" ]. a_tontas_y_a_locas_x1 := av_i_le & [ STEM < "a_tontas_y_a_locas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tontas_y_a_locas_x_rel" ]. a_topa_tolondro_x1 := av_i_le & [ STEM < "a_topa_tolondro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_topa_tolondro_x_rel" ]. a_tope_x1 := av_i_le & [ STEM < "a_tope" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tope_x_rel" ]. a_toque_de_campana_x1 := av_i_le & [ STEM < "a_toque_de_campana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toque_de_campana_x_rel" ]. a_torna_peón_x1 := av_i_le & [ STEM < "a_torna_peón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torna_peón_x_rel" ]. a_torna_punta_x1 := av_i_le & [ STEM < "a_torna_punta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torna_punta_x_rel" ]. a_torno_x1 := av_i_le & [ STEM < "a_torno" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torno_x_rel" ]. a_traición_x1 := av_i_le & [ STEM < "a_traición" >, SYNSEM.LKEYS.KEYREL.PRED "_a_traición_x_rel" ]. a_trancas_y_barrancas_x1 := av_i_le & [ STEM < "a_trancas_y_barrancas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trancas_y_barrancas_x_rel" ]. a_trancos_x1 := av_i_le & [ STEM < "a_trancos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trancos_x_rel" ]. a_traque_barraque_x1 := av_i_le & [ STEM < "a_traque_barraque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_traque_barraque_x_rel" ]. a_través_de_p_vmod := p_vmod_le & [ STEM < "a_través_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_través_de_p_rel ]. a_trompa_y_talega_x1 := av_i_le & [ STEM < "a_trompa_y_talega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trompa_y_talega_x_rel" ]. a_trompicones_x1 := av_i_le & [ STEM < "a_trompicones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trompicones_x_rel" ]. a_tropezones_x1 := av_i_le & [ STEM < "a_tropezones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tropezones_x_rel" ]. a_trueco_de_p_vmod := p_vmod_le & [ STEM < "a_trueco_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_trueco_de_p_rel ]. a_trueque_x1 := av_i_le & [ STEM < "a_trueque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trueque_x_rel" ]. a_tuertas_o_a_derechas_x1 := av_i_le & [ STEM < "a_tuertas_o_a_derechas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuertas_o_a_derechas_x_rel" ]. a_tuertas_x1 := av_i_le & [ STEM < "a_tuertas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuertas_x_rel" ]. a_tuerto_o_a_derecho_x1 := av_i_le & [ STEM < "a_tuerto_o_a_derecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuerto_o_a_derecho_x_rel" ]. a_tutiplén_x1 := av_i_le & [ STEM < "a_tutiplén" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tutiplén_x_rel" ]. a_título_de_p_vmod := p_vmod_le & [ STEM < "a_título_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_título_de_p_rel ]. a_ultranza_x1 := av_i_le & [ STEM < "a_ultranza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ultranza_x_rel" ]. a_un_lado_y_otro_x1 := av_i_le & [ STEM < "a_un_lado_y_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_un_lado_y_otro_x_rel" ]. a_un_solo_efecto_x1 := av_i_le & [ STEM < "a_un_solo_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_un_solo_efecto_x_rel" ]. a_uno_y_otro_lado_x1 := av_i_le & [ STEM < "a_uno_y_otro_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_uno_y_otro_lado_x_rel" ]. a_upa_x1 := av_i_le & [ STEM < "a_upa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_upa_x_rel" ]. a_usanza_de_p_vmod := p_vmod_le & [ STEM < "a_usanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_usanza_de_p_rel ]. a_vez_que_sc := sc_prop_fin_le & [ STEM < "a_vez_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vez_que_x_subord_rel" ]. a_vida_o_muerte_x1 := av_i_le & [ STEM < "a_vida_o_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vida_o_muerte_x_rel" ]. a_vista_de_pájaro_x1 := av_i_le & [ STEM < "a_vista_de_pájaro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vista_de_pájaro_x_rel" ]. a_viva_voz_x1 := av_i_le & [ STEM < "a_viva_voz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_viva_voz_x_rel" ]. a_voz_en_cuello_x1 := av_i_le & [ STEM < "a_voz_en_cuello" >, SYNSEM.LKEYS.KEYREL.PRED "_a_voz_en_cuello_x_rel" ]. a_voz_en_grito_x1 := av_i_le & [ STEM < "a_voz_en_grito" >, SYNSEM.LKEYS.KEYREL.PRED "_a_voz_en_grito_x_rel" ]. a_vuela_pluma_x1 := av_i_le & [ STEM < "a_vuela_pluma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuela_pluma_x_rel" ]. a_vuelapluma_x1 := av_i_le & [ STEM < "a_vuelapluma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelapluma_x_rel" ]. a_vuelco_de_dado_x1 := av_i_le & [ STEM < "a_vuelco_de_dado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelco_de_dado_x_rel" ]. a_vuelta_de_correo_x1 := av_i_le & [ STEM < "a_vuelta_de_correo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_correo_x_rel" ]. a_vuelta_de_ojo_x1 := av_i_le & [ STEM < "a_vuelta_de_ojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_ojo_x_rel" ]. a_vuelta_de_ojos_x1 := av_i_le & [ STEM < "a_vuelta_de_ojos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_ojos_x_rel" ]. a_vuelta_de_p_vmod := p_vmod_le & [ STEM < "a_vuelta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_vuelta_de_p_rel ]. ab_initio_x1 := av_i_le & [ STEM < "ab_initio" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_initio_x_rel" ]. ab_intestato_x1 := av_i_le & [ STEM < "ab_intestato" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_intestato_x_rel" ]. ab_ovo_x1 := av_i_le & [ STEM < "ab_ovo" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_ovo_x_rel" ]. abacero_n1 := n_intr_count_le & [ STEM < "abacero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abacero_n_rel" ] ]. abacería_n1 := n_intr_count_le & [ STEM < "abacería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abacería_n_rel" ] ]. abad_n1 := n_intr_count_le & [ STEM < "abad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abad_n_rel" ] ]. abadejo_n1 := n_intr_count_le & [ STEM < "abadejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abadejo_n_rel" ] ]. abadengo_a1 := a_rel_nonprd_intr_le & [ STEM < "abadengo" >, SYNSEM.LKEYS.KEYREL.PRED "_abadengo_a_rel" ]. abadesa_n1 := n_intr_count_le & [ STEM < "abadesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abadesa_n_rel" ] ]. abadía_n1 := n_intr_count_le & [ STEM < "abadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_abadía_n_rel" ] ]. abajo_x1 := av_i_spr_le & [ STEM < "abajo" >, SYNSEM.LKEYS.KEYREL.PRED "_abajo_x_rel" ]. abalanzar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abalanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_abalanzar_v_rel" ] ] ]. abalanzar_v2 := v_pron_unacc_lcomp_dir*_le & [ STEM < "abalanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_abalanzar_v_rel" ]. abalaustrado_a1 := a_qual_intr_ser_le & [ STEM < "abalaustrado" >, SYNSEM.LKEYS.KEYREL.PRED "_abalaustrado_a_rel" ]. abalizamiento_n1 := n_trans_le & [ STEM < "abalizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abalizamiento_n_rel" ]. abalorio_n1 := n_intr_count_le & [ STEM < "abalorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abalorio_n_rel" ] ]. abanderado_n1 := n_intr_count_le & [ STEM < "abanderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abanderado_n_rel" ] ]. abanderamiento_n1 := n_trans_le & [ STEM < "abanderamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abanderamiento_n_rel" ]. abanderar_v1 := v_trans_np_le & [ STEM < "abanderar" >, SYNSEM.LKEYS.KEYREL.PRED "_abanderar_v_rel" ]. abandonar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "abandonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_abandonar_v_rel" ] ]. abandonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "abandonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_abandonar_v_rel" ] ]. abandonar_v3 := v_trans_np_le & [ STEM < "abandonar" >, SYNSEM.LKEYS.KEYREL.PRED "_abandonar_v_rel" ]. abandonismo_n1 := n_intr_uncount_le & [ STEM < "abandonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abandonismo_n_rel" ] ]. abandonista_a1 := a_qual_intr_ser_le & [ STEM < "abandonista" >, SYNSEM.LKEYS.KEYREL.PRED "_abandonista_a_rel" ]. abandonista_n1 := n_intr_count_le & [ STEM < "abandonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abandonista_n_rel" ] ]. abandono_n1 := n_trans_le & [ STEM < "abandono" >, SYNSEM.LKEYS.KEYREL.PRED "_abandono_n_rel" ]. abanico_n1 := n_intr_count_le & [ STEM < "abanico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abanico_n_rel" ] ]. abaniqueo_n1 := n_trans_le & [ STEM < "abaniqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_abaniqueo_n_rel" ]. abaniquero_n1 := n_intr_count_le & [ STEM < "abaniquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abaniquero_n_rel" ] ]. abanto_n1 := n_intr_count_le & [ STEM < "abanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abanto_n_rel" ] ]. abaratamiento_n1 := n_trans_le & [ STEM < "abaratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratamiento_n_rel" ]. abaratar_v1 := v_trans_np_caus_le & [ STEM < "abaratar" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratar_v_rel" ]. abaratar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "abaratar" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratar_v_rel" ]. abarca_n1 := n_intr_count_le & [ STEM < "abarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abarca_n_rel" ] ]. abarcamiento_n1 := n_trans_le & [ STEM < "abarcamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarcamiento_n_rel" ]. abarloamiento_n1 := n_trans_le & [ STEM < "abarloamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarloamiento_n_rel" ]. abarquillamiento_n1 := n_trans_le & [ STEM < "abarquillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarquillamiento_n_rel" ]. abarraganamiento_n1 := n_intr_uncount_le & [ STEM < "abarraganamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abarraganamiento_n_rel" ] ]. abarrancamiento_n1 := n_trans_le & [ STEM < "abarrancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarrancamiento_n_rel" ]. abarrote_n1 := n_intr_count_le & [ STEM < "abarrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abarrote_n_rel" ] ]. abastecedor_n1 := n_subj-nom_le & [ STEM < "abastecedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abastecedor_n_rel" ] ]. abastecer_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "abastecer" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_abastecer_v_rel" ] ]. abastecimiento_n1 := n_trans_le & [ STEM < "abastecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abastecimiento_n_rel" ]. abasto_n1 := n_trans_le & [ STEM < "abasto" >, SYNSEM.LKEYS.KEYREL.PRED "_abasto_n_rel" ]. abatelengua_n1 := n_intr_count_le & [ STEM < "abatelengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abatelengua_n_rel" ] ]. abatible_a1 := a_rel_nonprd_intr_le & [ STEM < "abatible" >, SYNSEM.LKEYS.KEYREL.PRED "_abatible_a_rel" ]. abatimiento_n1 := n_trans_le & [ STEM < "abatimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abatimiento_n_rel" ]. abatir_v1 := v_intr_io*_le & [ STEM < "abatir" >, SYNSEM.LKEYS.KEYREL.PRED "_abatir_v_rel" ]. abatir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abatir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_abatir_v_rel" ] ] ]. abatir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "abatir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_abatir_v_rel" ] ] ]. abatir_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abatir" >, SYNSEM.LKEYS.KEYREL.PRED "_abatir_v_rel" ]. abayado_a1 := a_qual_intr_scopal_le & [ STEM < "abayado" >, SYNSEM.LKEYS.KEYREL.PRED "_abayado_a_rel" ]. abdicación_n1 := n_result_intr_le & [ STEM < "abdicación" >, SYNSEM.LKEYS.KEYREL.PRED "_abdicación_n_rel" ]. abdicar_v1 := v_intr_mrkd_np*_le & [ STEM < "abdicar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abdicar_v_rel" ] ]. abdomen_n1 := n_ppcomp_count_le & [ STEM < "abdomen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_abdomen_n_rel" ] ]. abdominal_a1 := a_rel_nonprd_intr_le & [ STEM < "abdominal" >, SYNSEM.LKEYS.KEYREL.PRED "_abdominal_a_rel" ]. abdominogenital_a1 := a_rel_nonprd_intr_le & [ STEM < "abdominogenital" >, SYNSEM.LKEYS.KEYREL.PRED "_abdominogenital_a_rel" ]. abducción_n1 := n_intr_mass_le & [ STEM < "abducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abducción_n_rel" ] ]. abductor_a1 := a_rel_nonprd_intr_le & [ STEM < "abductor" >, SYNSEM.LKEYS.KEYREL.PRED "_abductor_a_rel" ]. abductor_n1 := n_intr_count_le & [ STEM < "abductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abductor_n_rel" ] ]. abecedario_n1 := n_intr_count_le & [ STEM < "abecedario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abecedario_n_rel" ] ]. abecé_n1 := n_intr_uncount_le & [ STEM < "abecé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abecé_n_rel" ] ]. abedul_n1 := n_intr_mass-or-count_le & [ STEM < "abedul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abedul_n_rel" ] ]. abeja_n1 := n_intr_count_le & [ STEM < "abeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abeja_n_rel" ] ]. abejaruco_n1 := n_intr_count_le & [ STEM < "abejaruco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejaruco_n_rel" ] ]. abejero_n1 := n_intr_count_le & [ STEM < "abejero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abejero_n_rel" ] ]. abejorro_n1 := n_intr_count_le & [ STEM < "abejorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejorro_n_rel" ] ]. abejón_n1 := n_intr_count_le & [ STEM < "abejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejón_n_rel" ] ]. abelito_n1 := n_intr_count_le & [ STEM < "abelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abelito_n_rel" ] ]. abellotado_a1 := a_qual_intr_ser_le & [ STEM < "abellotado" >, SYNSEM.LKEYS.KEYREL.PRED "_abellotado_a_rel" ]. abelmoscho_n1 := n_intr_count_le & [ STEM < "abelmoscho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abelmoscho_n_rel" ] ]. aberenjenado_a1 := a_qual_intr_ser_le & [ STEM < "aberenjenado" >, SYNSEM.LKEYS.KEYREL.PRED "_aberenjenado_a_rel" ]. aberración_n1 := n_intr_count_le & [ STEM < "aberración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aberración_n_rel" ] ]. aberrante_a1 := a_qual_intr_scopal_le & [ STEM < "aberrante" >, SYNSEM.LKEYS.KEYREL.PRED "_aberrante_a_rel" ]. aberrar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "aberrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aberrar_v_rel" ]. abertal_a1 := a_rel_nonprd_intr_le & [ STEM < "abertal" >, SYNSEM.LKEYS.KEYREL.PRED "_abertal_a_rel" ]. abertura_n1 := n_trans_le & [ STEM < "abertura" >, SYNSEM.LKEYS.KEYREL.PRED "_abertura_n_rel" ]. abertzale_a1 := a_rel_nonprd_intr_le & [ STEM < "abertzale" >, SYNSEM.LKEYS.KEYREL.PRED "_abertzale_a_rel" ]. abetal_n1 := n_intr_count_le & [ STEM < "abetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abetal_n_rel" ] ]. abetalipoproteinemia_n1 := n_intr_uncount_le & [ STEM < "abetalipoproteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abetalipoproteinemia_n_rel" ] ]. abetar_n1 := n_intr_count_le & [ STEM < "abetar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abetar_n_rel" ] ]. abeto_n1 := n_intr_count_le & [ STEM < "abeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abeto_n_rel" ] ]. abetuna_n1 := n_intr_mass_le & [ STEM < "abetuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abetuna_n_rel" ] ]. abiertamente_x1 := av_i_spr_le & [ STEM < "abiertamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abiertamente_x_rel" ]. abieteno_n1 := n_intr_count_le & [ STEM < "abieteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abieteno_n_rel" ] ]. abietinato_n1 := n_intr_count_le & [ STEM < "abietinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abietinato_n_rel" ] ]. abigarradamente_x1 := av_i_spr_le & [ STEM < "abigarradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarradamente_x_rel" ]. abigarramiento_n1 := n_trans_le & [ STEM < "abigarramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarramiento_n_rel" ]. abigarrar_v1 := v_trans_np_le & [ STEM < "abigarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarrar_v_rel" ]. abigeato_n1 := n_intr_uncount_le & [ STEM < "abigeato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abigeato_n_rel" ] ]. abigeato_n2 := n_intr_count_le & [ STEM < "abigeato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abigeato_n_rel" ] ]. abiogénesis_n1 := n_intr_uncount_le & [ STEM < "abiogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abiogénesis_n_rel" ] ]. abisal_a1 := a_rel_nonprd_intr_le & [ STEM < "abisal" >, SYNSEM.LKEYS.KEYREL.PRED "_abisal_a_rel" ]. abisinio_a1 := a_rel_prd_le & [ STEM < "abisinio" >, SYNSEM.LKEYS.KEYREL.PRED "_abisinio_a_rel" ]. abismal_a1 := a_rel_nonprd_intr_le & [ STEM < "abismal" >, SYNSEM.LKEYS.KEYREL.PRED "_abismal_a_rel" ]. abismo_n1 := n_intr_count_le & [ STEM < "abismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_abismo_n_rel" ] ]. abismático_a1 := a_rel_nonprd_intr_le & [ STEM < "abismático" >, SYNSEM.LKEYS.KEYREL.PRED "_abismático_a_rel" ]. abiureto_n1 := n_intr_count_le & [ STEM < "abiureto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abiureto_n_rel" ] ]. abizcochado_a1 := a_qual_intr_ser_le & [ STEM < "abizcochado" >, SYNSEM.LKEYS.KEYREL.PRED "_abizcochado_a_rel" ]. abióticamente_x1 := av_i_spr_le & [ STEM < "abióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abióticamente_x_rel" ]. abiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "abiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_abiótico_a_rel" ]. abjuración_n1 := n_trans_le & [ STEM < "abjuración" >, SYNSEM.LKEYS.KEYREL.PRED "_abjuración_n_rel" ]. abjurar_v1 := v_intr_mrkd_np_le & [ STEM < "abjurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abjurar_v_rel" ] ]. abjurar_v2 := v_trans_np_le & [ STEM < "abjurar" >, SYNSEM.LKEYS.KEYREL.PRED "_abjurar_v_rel" ]. ablación_n1 := n_intr_count_le & [ STEM < "ablación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablación_n_rel" ] ]. ablactación_n1 := n_intr_uncount_le & [ STEM < "ablactación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablactación_n_rel" ] ]. ablandador_a1 := a_rel_nonprd_intr_le & [ STEM < "ablandador" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandador_a_rel" ]. ablandador_n1 := n_intr_count_le & [ STEM < "ablandador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablandador_n_rel" ] ]. ablandamiento_n1 := n_trans_le & [ STEM < "ablandamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandamiento_n_rel" ]. ablandante_n1 := n_intr_count_le & [ STEM < "ablandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablandante_n_rel" ] ]. ablandar_v1 := v_intr_io*_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablandar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablandar_v3 := v_trans_np_caus_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablastina_n1 := n_intr_count_le & [ STEM < "ablastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablastina_n_rel" ] ]. ablativo_n1 := n_intr_uncount_le & [ STEM < "ablativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablativo_n_rel" ] ]. ablución_n1 := n_intr_uncount_le & [ STEM < "ablución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablución_n_rel" ] ]. ablusado_a1 := a_qual_intr_estar_le & [ STEM < "ablusado" >, SYNSEM.LKEYS.KEYREL.PRED "_ablusado_a_rel" ]. abnegación_n1 := n_intr_uncount_le & [ STEM < "abnegación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abnegación_n_rel" ] ]. abnegadamente_x1 := av_i_spr_le & [ STEM < "abnegadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abnegadamente_x_rel" ]. abobamiento_n1 := n_trans_le & [ STEM < "abobamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abobamiento_n_rel" ]. abobinar_v1 := v_trans_np_le & [ STEM < "abobinar" >, SYNSEM.LKEYS.KEYREL.PRED "_abobinar_v_rel" ]. abocar_v1 := v_ditrans*_le & [ STEM < "abocar" >, SYNSEM.LKEYS.KEYREL.PRED "_abocar_v_rel" ]. abocar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "abocar" >, SYNSEM.LKEYS.KEYREL.PRED "_abocar_v_rel" ]. abocar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "abocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_abocar_v_rel" ] ] ]. abocar_v4 := v_trans_np_mrkd_np_le & [ STEM < "abocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_abocar_v_rel" ] ] ]. abocardador_n1 := n_intr_count_le & [ STEM < "abocardador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abocardador_n_rel" ] ]. abocardo_n1 := n_intr_count_le & [ STEM < "abocardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abocardo_n_rel" ] ]. abochornar_v1 := v_intr_io*_le & [ STEM < "abochornar" >, SYNSEM.LKEYS.KEYREL.PRED "_abochornar_v_rel" ]. abochornar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abochornar" >, SYNSEM.LKEYS.KEYREL.PRED "_abochornar_v_rel" ]. abocinamiento_n1 := n_trans_le & [ STEM < "abocinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abocinamiento_n_rel" ]. abofeteamiento_n1 := n_trans_le & [ STEM < "abofeteamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abofeteamiento_n_rel" ]. abofetear_v1 := v_trans_np_le & [ STEM < "abofetear" >, SYNSEM.LKEYS.KEYREL.PRED "_abofetear_v_rel" ]. abogacía_n1 := n_intr_uncount_le & [ STEM < "abogacía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abogacía_n_rel" ] ]. abogado_n1 := n_ppcomp_count_le & [ STEM < "abogado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abogado_n_rel" ] ]. abogar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abogar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ PRED "_abogar_v_rel" ] ] ]. abogar_v2 := v_intr_mrkd_np_le & [ STEM < "abogar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ PRED "_abogar_v_rel" ] ] ]. abolengo_n1 := n_intr_uncount_pl_le & [ STEM < "abolengo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abolengo_n_rel" ] ]. abolicionismo_n1 := n_intr_uncount_le & [ STEM < "abolicionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abolicionismo_n_rel" ] ]. abolicionista_n1 := n_intr_count_le & [ STEM < "abolicionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abolicionista_n_rel" ] ]. abolición_n1 := n_trans_le & [ STEM < "abolición" >, SYNSEM.LKEYS.KEYREL.PRED "_abolición_n_rel" ]. abolir_v1 := v_trans_np_le & [ STEM < "abolir" >, SYNSEM.LKEYS.KEYREL.PRED "_abolir_v_rel" ]. abolladura_n1 := n_intr_count_le & [ STEM < "abolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abolladura_n_rel" ] ]. abollar_v1 := v_trans_np_le & [ STEM < "abollar" >, SYNSEM.LKEYS.KEYREL.PRED "_abollar_v_rel" ]. abolorio_n1 := n_intr_count_le & [ STEM < "abolorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abolorio_n_rel" ] ]. abombamiento_n1 := n_trans_le & [ STEM < "abombamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abombamiento_n_rel" ]. abombar_v1 := v_trans_np_le & [ STEM < "abombar" >, SYNSEM.LKEYS.KEYREL.PRED "_abombar_v_rel" ]. abominable_a1 := a_rel_prd_le & [ STEM < "abominable" >, SYNSEM.LKEYS.KEYREL.PRED "_abominable_a_rel" ]. abominablemente_x1 := av_i_spr_le & [ STEM < "abominablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_abominablemente_x_rel" ]. abominación_n1 := n_trans_le & [ STEM < "abominación" >, SYNSEM.LKEYS.KEYREL.PRED "_abominación_n_rel" ]. abominar_v1 := v_intr_mrkd_np_le & [ STEM < "abominar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abominar_v_rel" ] ]. abominar_v2 := v_trans_np_le & [ STEM < "abominar" >, SYNSEM.LKEYS.KEYREL.PRED "_abominar_v_rel" ]. abonable_a1 := a_rel_prd_le & [ STEM < "abonable" >, SYNSEM.LKEYS.KEYREL.PRED "_abonable_a_rel" ]. abonado_n1 := n_intr_count_le & [ STEM < "abonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abonado_n_rel" ] ]. abonador_n1 := n_intr_count_le & [ STEM < "abonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abonador_n_rel" ] ]. abonaré_n1 := n_intr_count_le & [ STEM < "abonaré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abonaré_n_rel" ] ]. abono_n1 := n_intr_mass-or-count_le & [ STEM < "abono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_abono_n_rel" ] ]. aboral_a1 := a_rel_nonprd_intr_le & [ STEM < "aboral" >, SYNSEM.LKEYS.KEYREL.PRED "_aboral_a_rel" ]. abordaje_n1 := n_trans_le & [ STEM < "abordaje" >, SYNSEM.LKEYS.KEYREL.PRED "_abordaje_n_rel" ]. abordar_v1 := v_trans_np_le & [ STEM < "abordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_abordar_v_rel" ] ]. aborigen_a1 := a_rel_nonprd_intr_le & [ STEM < "aborigen" >, SYNSEM.LKEYS.KEYREL.PRED "_aborigen_a_rel" ]. aborigen_n1 := n_intr_count_le & [ STEM < "aborigen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aborigen_n_rel" ] ]. aborrecer_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ PRED "_aborrecer_v_rel" ] ] ]. aborrecer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ PRED "_aborrecer_v_rel" ] ] ]. aborrecer_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS.KEYREL [ PRED "_aborrecer_v_rel" ] ]. aborrecer_v4 := v_trans_np_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS.KEYREL [ PRED "_aborrecer_v_rel" ] ]. aborrecible_a1 := a_qual_intr_scopal_le & [ STEM < "aborrecible" >, SYNSEM.LKEYS.KEYREL.PRED "_aborrecible_a_rel" ]. aborreciblemente_x1 := av_i_spr_le & [ STEM < "aborreciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aborreciblemente_x_rel" ]. aborrecimiento_n1 := n_trans_le & [ STEM < "aborrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aborrecimiento_n_rel" ]. abortar_v1 := v_trans_np*_le & [ STEM < "abortar" >, SYNSEM.LKEYS.KEYREL.PRED "_abortar_v_rel" ]. abortista_n1 := n_intr_count_le & [ STEM < "abortista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abortista_n_rel" ] ]. abortivo_a1 := a_rel_nonprd_intr_le & [ STEM < "abortivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abortivo_a_rel" ]. aborto_n1 := n_trans_le & [ STEM < "aborto" >, SYNSEM.LKEYS.KEYREL.PRED "_aborto_n_rel" ]. abotonador_n1 := n_intr_count_le & [ STEM < "abotonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abotonador_n_rel" ] ]. abotonadura_n1 := n_intr_coll_le & [ STEM < "abotonadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abotonadura_n_rel" ] ]. abotonar_v1 := v_ditrans*_le & [ STEM < "abotonar" >, SYNSEM.LKEYS.KEYREL.PRED "_abotonar_v_rel" ]. abra_n1 := n_intr_count_le & [ STEM < "abra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abra_n_rel" ] ]. abrasador_a1 := a_qual_intr_scopal_le & [ STEM < "abrasador" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasador_a_rel" ]. abrasadoramente_x1 := av_i_spr_le & [ STEM < "abrasadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasadoramente_x_rel" ]. abrasar_v1 := v_trans_np*_caus_le & [ STEM < "abrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasar_v_rel" ]. abrasividad_n1 := n_intr_mass_le & [ STEM < "abrasividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abrasividad_n_rel" ] ]. abrasivo_a1 := a_qual_intr_scopal_le & [ STEM < "abrasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasivo_a_rel" ]. abrasivo_n1 := n_intr_count_le & [ STEM < "abrasivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abrasivo_n_rel" ] ]. abrasión_n1 := n_intr_count_le & [ STEM < "abrasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abrasión_n_rel" ] ]. abrasímetro_n1 := n_intr_count_le & [ STEM < "abrasímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrasímetro_n_rel" ] ]. abrazadera_n1 := n_intr_count_le & [ STEM < "abrazadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrazadera_n_rel" ] ]. abrazador_n1 := n_intr_count_le & [ STEM < "abrazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrazador_n_rel" ] ]. abrazamiento_n1 := n_trans_le & [ STEM < "abrazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrazamiento_n_rel" ]. abrazo_n1 := n_trans_le & [ STEM < "abrazo" >, SYNSEM.LKEYS.KEYREL.PRED "_abrazo_n_rel" ]. abrebocas_n1 := n_intr_count_le & [ STEM < "abrebocas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrebocas_n_rel" ] ]. abrebotellas_n1 := n_intr_count_le & [ STEM < "abrebotellas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrebotellas_n_rel" ] ]. abrecartas_n1 := n_intr_count_le & [ STEM < "abrecartas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrecartas_n_rel" ] ]. abrelatas_n1 := n_intr_count_le & [ STEM < "abrelatas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrelatas_n_rel" ] ]. abrevadero_n1 := n_intr_count_le & [ STEM < "abrevadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrevadero_n_rel" ] ]. abrevar_v1 := v_trans_np_le & [ STEM < "abrevar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrevar_v_rel" ]. abreviable_a1 := a_rel_prd_le & [ STEM < "abreviable" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviable_a_rel" ]. abreviación_n1 := n_trans_le & [ STEM < "abreviación" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviación_n_rel" ]. abreviamiento_n1 := n_trans_le & [ STEM < "abreviamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviamiento_n_rel" ]. abreviar_v1 := v_trans_np*_le & [ STEM < "abreviar" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviar_v_rel" ]. abreviatura_n1 := n_intr_count_le & [ STEM < "abreviatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abreviatura_n_rel" ] ]. abridor_a1 := a_rel_nonprd_intr_le & [ STEM < "abridor" >, SYNSEM.LKEYS.KEYREL.PRED "_abridor_a_rel" ]. abridor_n1 := n_intr_count_le & [ STEM < "abridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abridor_n_rel" ] ]. abridora_n1 := n_intr_count_le & [ STEM < "abridora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abridora_n_rel" ] ]. abrigar_v1 := v_trans_np_caus_le & [ STEM < "abrigar" >, SYNSEM.LKEYS.KEYREL [ PRED "_abrigar_v_rel" ] ]. abrigaño_n1 := n_intr_count_le & [ STEM < "abrigaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrigaño_n_rel" ] ]. abrigo_n1 := n_intr_count_le & [ STEM < "abrigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrigo_n_rel" ] ]. abril_n1 := n_intr_count_le & [ STEM < "abril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_abril_n_rel" ] ]. abrileño_a1 := a_rel_nonprd_intr_le & [ STEM < "abrileño" >, SYNSEM.LKEYS.KEYREL.PRED "_abrileño_a_rel" ]. abrillantador_n1 := n_intr_count_le & [ STEM < "abrillantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abrillantador_n_rel" ] ]. abrillantamiento_n1 := n_trans_le & [ STEM < "abrillantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrillantamiento_n_rel" ]. abrillantar_v1 := v_trans_np_le & [ STEM < "abrillantar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrillantar_v_rel" ]. abrir_v1 := v_ditrans_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_abrir_v_rel" ] ] ]. abrir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "abrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_abrir_v_rel" ] ] ]. abrir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrir_v6 := v_trans_np_caus_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrochador_n1 := n_intr_count_le & [ STEM < "abrochador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrochador_n_rel" ] ]. abrochadura_n1 := n_trans_le & [ STEM < "abrochadura" >, SYNSEM.LKEYS.KEYREL.PRED "_abrochadura_n_rel" ]. abrochamiento_n1 := n_trans_le & [ STEM < "abrochamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrochamiento_n_rel" ]. abrogación_n1 := n_trans_le & [ STEM < "abrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_abrogación_n_rel" ]. abrogar_v1 := v_trans_np_le & [ STEM < "abrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrogar_v_rel" ]. abrojal_n1 := n_intr_count_le & [ STEM < "abrojal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrojal_n_rel" ] ]. abrojo_n1 := n_intr_mass_le & [ STEM < "abrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrojo_n_rel" ] ]. abroncar_v1 := v_trans_np_le & [ STEM < "abroncar" >, SYNSEM.LKEYS.KEYREL.PRED "_abroncar_v_rel" ]. abrotina_n1 := n_intr_count_le & [ STEM < "abrotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrotina_n_rel" ] ]. abrumador_a1 := a_qual_intr_scopal_le & [ STEM < "abrumador" >, SYNSEM.LKEYS.KEYREL.PRED "_abrumador_a_rel" ]. abrumar_v1 := v_intr_io*_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL [ PRED "_abrumar_v_rel" ] ]. abrumar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrumar_v_rel" ]. abrumar_v3 := v_trans_np_caus_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL [ PRED "_abrumar_v_rel" ] ]. abruptamente_x1 := av_i_spr_le & [ STEM < "abruptamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abruptamente_x_rel" ]. abrupto_a1 := a_qual_intr_scopal_le & [ STEM < "abrupto" >, SYNSEM.LKEYS.KEYREL.PRED "_abrupto_a_rel" ]. abrutado_a1 := a_qual_intr_ser_le & [ STEM < "abrutado" >, SYNSEM.LKEYS.KEYREL.PRED "_abrutado_a_rel" ]. abrúptico_a1 := a_qual_intr_scopal_le & [ STEM < "abrúptico" >, SYNSEM.LKEYS.KEYREL.PRED "_abrúptico_a_rel" ]. absceso_n1 := n_intr_count_le & [ STEM < "absceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absceso_n_rel" ] ]. abscisa_n1 := n_intr_count_le & [ STEM < "abscisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abscisa_n_rel" ] ]. abscisión_n1 := n_intr_count_le & [ STEM < "abscisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abscisión_n_rel" ] ]. absenta_n1 := n_intr_mass_le & [ STEM < "absenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_absenta_n_rel" ] ]. absentismo_n1 := n_intr_uncount_le & [ STEM < "absentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absentismo_n_rel" ] ]. absentista_n1 := n_intr_count_le & [ STEM < "absentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_absentista_n_rel" ] ]. absidal_a1 := a_rel_nonprd_intr_le & [ STEM < "absidal" >, SYNSEM.LKEYS.KEYREL.PRED "_absidal_a_rel" ]. absidiola_n1 := n_intr_count_le & [ STEM < "absidiola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absidiola_n_rel" ] ]. absidiolo_n1 := n_intr_count_le & [ STEM < "absidiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absidiolo_n_rel" ] ]. absintina_n1 := n_intr_mass_le & [ STEM < "absintina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_absintina_n_rel" ] ]. absintio_n1 := n_intr_count_le & [ STEM < "absintio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_absintio_n_rel" ] ]. absolución_n1 := n_trans_le & [ STEM < "absolución" >, SYNSEM.LKEYS.KEYREL.PRED "_absolución_n_rel" ]. absolutamente_x1 := av_deg_le & [ STEM < "absolutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutamente_x_rel" ]. absolutismo_n1 := n_intr_uncount_le & [ STEM < "absolutismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absolutismo_n_rel" ] ]. absolutista_a1 := a_qual_intr_ser_le & [ STEM < "absolutista" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutista_a_rel" ]. absolutista_n1 := n_intr_count_le & [ STEM < "absolutista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_absolutista_n_rel" ] ]. absolutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "absolutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutorio_a_rel" ]. absolver_v1 := v_trans_np_mrkd_np*_le & [ STEM < "absolver" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_absolver_v_rel" ] ]. absorbedor_n1 := n_intr_count_le & [ STEM < "absorbedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absorbedor_n_rel" ] ]. absorbencia_n1 := n_trans_le & [ STEM < "absorbencia" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbencia_n_rel" ]. absorbente_a1 := a_qual_intr_scopal_le & [ STEM < "absorbente" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbente_a_rel" ]. absorbente_n1 := n_intr_mass-or-count_le & [ STEM < "absorbente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_absorbente_n_rel" ] ]. absorber_v1 := v_intr_io*_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL.PRED "_absorber_v_rel" ]. absorber_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL.PRED "_absorber_v_rel" ]. absorber_v3 := v_trans_np_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_absorber_v_rel" ] ]. absorbible_a1 := a_rel_prd_le & [ STEM < "absorbible" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbible_a_rel" ]. absorciómetro_n1 := n_intr_count_le & [ STEM < "absorciómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absorciómetro_n_rel" ] ]. absorción_n1 := n_trans_le & [ STEM < "absorción" >, SYNSEM.LKEYS.KEYREL.PRED "_absorción_n_rel" ]. absorptancia_n1 := n_intr_uncount_le & [ STEM < "absorptancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absorptancia_n_rel" ] ]. absortancia_n1 := n_intr_uncount_le & [ STEM < "absortancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absortancia_n_rel" ] ]. absorto_a1 := a_qual_trans*_estar_le & [ STEM < "absorto" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_absorto_a_rel" ] ]. abstemio_a1 := a_qual_intr_ser_le & [ STEM < "abstemio" >, SYNSEM.LKEYS.KEYREL.PRED "_abstemio_a_rel" ]. abstemio_n1 := n_intr_count_le & [ STEM < "abstemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abstemio_n_rel" ] ]. abstencionismo_n1 := n_intr_uncount_le & [ STEM < "abstencionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abstencionismo_n_rel" ] ]. abstencionista_n1 := n_intr_count_le & [ STEM < "abstencionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abstencionista_n_rel" ] ]. abstención_n1 := n_result_intr_ppcomp_le & [ STEM < "abstención" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_abstención_n_rel" ] ]. abstener_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "abstener" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abstener_v_rel" ] ]. abstener_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "abstener" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abstener_v_rel" ] ]. abstinente_a1 := a_qual_intr_ser_le & [ STEM < "abstinente" >, SYNSEM.LKEYS.KEYREL.PRED "_abstinente_a_rel" ]. abstraccionismo_n1 := n_intr_uncount_le & [ STEM < "abstraccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abstraccionismo_n_rel" ] ]. abstracción_n1 := n_trans_le & [ STEM < "abstracción" >, SYNSEM.LKEYS.KEYREL.PRED "_abstracción_n_rel" ]. abstracto_a1 := a_qual_intr_scopal_le & [ STEM < "abstracto" >, SYNSEM.LKEYS.KEYREL.PRED "_abstracto_a_rel" ]. abstrusamente_x1 := av_i_spr_le & [ STEM < "abstrusamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abstrusamente_x_rel" ]. abstruso_a1 := a_qual_intr_scopal_le & [ STEM < "abstruso" >, SYNSEM.LKEYS.KEYREL.PRED "_abstruso_a_rel" ]. absurdamente_x1 := av_s_spr_le & [ STEM < "absurdamente" >, SYNSEM.LKEYS.KEYREL.PRED "_absurdamente_x_rel" ]. absurdidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "absurdidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absurdidad_n_rel" ] ]. absurdo_a1 := a_qual_intr_scopal_le & [ STEM < "absurdo" >, SYNSEM.LKEYS.KEYREL.PRED "_absurdo_a_rel" ]. absurdo_n1 := n_intr_uncount_le & [ STEM < "absurdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absurdo_n_rel" ] ]. abubilla_n1 := n_intr_count_le & [ STEM < "abubilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abubilla_n_rel" ] ]. abuchear_v1 := v_trans_np_le & [ STEM < "abuchear" >, SYNSEM.LKEYS.KEYREL.PRED "_abuchear_v_rel" ]. abucheo_n1 := n_trans_le & [ STEM < "abucheo" >, SYNSEM.LKEYS.KEYREL.PRED "_abucheo_n_rel" ]. abuelo_n1 := n_ppcomp_count_le & [ STEM < "abuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abuelo_n_rel" ] ]. abulense_a1 := a_rel_prd_le & [ STEM < "abulense" >, SYNSEM.LKEYS.KEYREL.PRED "_abulense_a_rel" ]. abulense_n1 := n_intr_count_le & [ STEM < "abulense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abulense_n_rel" ] ]. abulia_n1 := n_intr_uncount_le & [ STEM < "abulia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abulia_n_rel" ] ]. abultamiento_n1 := n_trans_le & [ STEM < "abultamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abultamiento_n_rel" ]. abultar_v1 := v_intr_le & [ STEM < "abultar" >, SYNSEM.LKEYS.KEYREL.PRED "_abultar_v_rel" ]. abundancia_n1 := n_event-result_intr_le & [ STEM < "abundancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abundancia_n_rel" ] ]. abundante_a1 := a_qual_trans_ser_le & [ STEM < "abundante" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_abundante_a_rel" ] ]. abundantemente_x1 := av_i_spr_le & [ STEM < "abundantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_abundantemente_x_rel" ]. abundar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "abundar" >, SYNSEM.LKEYS.KEYREL.PRED "_abundar_v_rel" ]. abundoso_a1 := a_qual_intr_scopal_le & [ STEM < "abundoso" >, SYNSEM.LKEYS.KEYREL.PRED "_abundoso_a_rel" ]. aburguesamiento_n1 := n_result_intr_le & [ STEM < "aburguesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aburguesamiento_n_rel" ]. aburrimiento_n1 := n_intr_mass_le & [ STEM < "aburrimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aburrimiento_n_rel" ] ]. aburrir_v1 := v_intr_io*_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_aburrir_v_rel" ] ]. aburrir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aburrir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_aburrir_v_rel" ] ]. aburrir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aburrir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aburrir_v_rel" ] ] ]. aburrir_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL.PRED "_aburrir_v_rel" ]. aburrir_v5 := v_trans_np_caus_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aburrir_v_rel" ] ]. abusar_v1 := v_intr_mrkd_np*_le & [ STEM < "abusar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abusar_v_rel" ] ]. abusivamente_x1 := av_i_spr_le & [ STEM < "abusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abusivamente_x_rel" ]. abusivo_a1 := a_qual_intr_scopal_le & [ STEM < "abusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abusivo_a_rel" ]. abuso_n1 := n_result_intr_ppcomp_le & [ STEM < "abuso" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_abuso_n_rel" ] ]. abyección_n1 := n_intr_uncount_le & [ STEM < "abyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abyección_n_rel" ] ]. abyecto_a1 := a_qual_intr_ser_le & [ STEM < "abyecto" >, SYNSEM.LKEYS.KEYREL.PRED "_abyecto_a_rel" ]. abúlico_a1 := a_qual_intr_ser_le & [ STEM < "abúlico" >, SYNSEM.LKEYS.KEYREL.PRED "_abúlico_a_rel" ]. acabable_a1 := a_rel_prd_le & [ STEM < "acabable" >, SYNSEM.LKEYS.KEYREL.PRED "_acabable_a_rel" ]. acabado_n1 := n_intr_count_le & [ STEM < "acabado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acabado_n_rel" ] ]. acabado_n2 := n_trans_le & [ STEM < "acabado" >, SYNSEM.LKEYS.KEYREL.PRED "_acabado_n_rel" ]. acabador_a1 := a_qual_intr_ser_le & [ STEM < "acabador" >, SYNSEM.LKEYS.KEYREL.PRED "_acabador_a_rel" ]. acaballadero_n1 := n_intr_count_le & [ STEM < "acaballadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acaballadero_n_rel" ] ]. acabamiento_n1 := n_intr_uncount_le & [ STEM < "acabamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acabamiento_n_rel" ] ]. acabar_v1 := v_intr_mrkd_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v2 := v_pron_trans_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS.KEYREL.PRED "_acabar_v_rel" ]. acabar_v3 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v4 := v_trans_np_caus_perf_le & [ STEM < "acabar" >, SYNSEM.LKEYS.KEYREL.PRED "_acabar_v_rel" ]. acabar_v5 := v_intr_mrkd_vp_ssr_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v6 := v_intr_mrkd_vp_ssr_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acacetina_n1 := n_intr_count_le & [ STEM < "acacetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acacetina_n_rel" ] ]. acacia_n1 := n_intr_count_le & [ STEM < "acacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acacia_n_rel" ] ]. acaciina_n1 := n_intr_count_le & [ STEM < "acaciina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acaciina_n_rel" ] ]. academia_n1 := n_intr_count_le & [ STEM < "academia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_academia_n_rel" ] ]. academicismo_n1 := n_intr_uncount_le & [ STEM < "academicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_academicismo_n_rel" ] ]. academicista_n1 := n_intr_count_le & [ STEM < "academicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_academicista_n_rel" ] ]. academismo_n1 := n_intr_uncount_le & [ STEM < "academismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_academismo_n_rel" ] ]. academista_n1 := n_intr_count_le & [ STEM < "academista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_academista_n_rel" ] ]. académico_a1 := a_rel_nonprd_intr_le & [ STEM < "académico" >, SYNSEM.LKEYS.KEYREL.PRED "_académico_a_rel" ]. académico_n1 := n_intr_count_le & [ STEM < "académico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_académico_n_rel" ] ]. acaecedero_a1 := a_rel_nonprd_intr_le & [ STEM < "acaecedero" >, SYNSEM.LKEYS.KEYREL.PRED "_acaecedero_a_rel" ]. acaecer_v1 := v_intr_io*_le & [ STEM < "acaecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acaecer_v_rel" ] ]. acaecer_v2 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "acaecer" >, SYNSEM.LKEYS.KEYREL.PRED "_acaecer_v_rel" ]. acaecimiento_n1 := n_intr_count_le & [ STEM < "acaecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acaecimiento_n_rel" ] ]. acalabazado_a1 := a_qual_intr_ser_le & [ STEM < "acalabazado" >, SYNSEM.LKEYS.KEYREL.PRED "_acalabazado_a_rel" ]. acallar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "acallar" >, SYNSEM.LKEYS.KEYREL.PRED "_acallar_v_rel" ]. acallar_v2 := v_trans_np_le & [ STEM < "acallar" >, SYNSEM.LKEYS.KEYREL.PRED "_acallar_v_rel" ]. acaloradamente_x1 := av_i_spr_le & [ STEM < "acaloradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acaloradamente_x_rel" ]. acaloramiento_n1 := n_event-result_intr_le & [ STEM < "acaloramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaloramiento_n_rel" ]. acalorar_v1 := v_intr_io*_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acalorar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acalorar_v3 := v_trans_np_caus_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acamellado_a1 := a_qual_intr_ser_le & [ STEM < "acamellado" >, SYNSEM.LKEYS.KEYREL.PRED "_acamellado_a_rel" ]. acampada_n1 := n_event-result_intr_le & [ STEM < "acampada" >, SYNSEM.LKEYS.KEYREL.PRED "_acampada_n_rel" ]. acampar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "acampar" >, SYNSEM.LKEYS.KEYREL.PRED "_acampar_v_rel" ]. acanalador_n1 := n_intr_count_le & [ STEM < "acanalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acanalador_n_rel" ] ]. acanaladura_n1 := n_intr_count_le & [ STEM < "acanaladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acanaladura_n_rel" ] ]. acanalar_v1 := v_trans_np_le & [ STEM < "acanalar" >, SYNSEM.LKEYS.KEYREL.PRED "_acanalar_v_rel" ]. acanelado_a1 := a_qual_intr_ser_le & [ STEM < "acanelado" >, SYNSEM.LKEYS.KEYREL.PRED "_acanelado_a_rel" ]. acantilado_n1 := n_intr_count_le & [ STEM < "acantilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acantilado_n_rel" ] ]. acanto_n1 := n_intr_count_le & [ STEM < "acanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acanto_n_rel" ] ]. acantocito_n1 := n_intr_count_le & [ STEM < "acantocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acantocito_n_rel" ] ]. acantocitosis_n1 := n_intr_uncount_le & [ STEM < "acantocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acantocitosis_n_rel" ] ]. acantonamiento_n1 := n_trans_le & [ STEM < "acantonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acantonamiento_n_rel" ]. acantonar_v1 := v_trans_np_lcomp_loc*_le & [ STEM < "acantonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acantonar_v_rel" ]. acantosis_n1 := n_intr_uncount_le & [ STEM < "acantosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acantosis_n_rel" ] ]. acaobado_a1 := a_qual_intr_ser_le & [ STEM < "acaobado" >, SYNSEM.LKEYS.KEYREL.PRED "_acaobado_a_rel" ]. acaparador_a1 := a_rel_nonprd_intr_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparador_a_rel" ]. acaparador_a2 := a_qual_intr_ser_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparador_a_rel" ]. acaparador_n1 := n_subj-nom_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acaparador_n_rel" ] ]. acaparamiento_n1 := n_trans_le & [ STEM < "acaparamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparamiento_n_rel" ]. acaparar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "acaparar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparar_v_rel" ]. acaparar_v2 := v_trans_np_le & [ STEM < "acaparar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparar_v_rel" ]. acaracoladamente_x1 := av_i_spr_le & [ STEM < "acaracoladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acaracoladamente_x_rel" ]. acaracolado_a1 := a_qual_intr_ser_le & [ STEM < "acaracolado" >, SYNSEM.LKEYS.KEYREL.PRED "_acaracolado_a_rel" ]. acarbosa_n1 := n_intr_mass_le & [ STEM < "acarbosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acarbosa_n_rel" ] ]. acariciador_a1 := a_qual_intr_ser_le & [ STEM < "acariciador" >, SYNSEM.LKEYS.KEYREL.PRED "_acariciador_a_rel" ]. acariciante_a1 := a_qual_intr_ser_le & [ STEM < "acariciante" >, SYNSEM.LKEYS.KEYREL.PRED "_acariciante_a_rel" ]. acaricida_n1 := n_intr_mass-or-count_le & [ STEM < "acaricida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acaricida_n_rel" ] ]. acariocito_n1 := n_intr_count_le & [ STEM < "acariocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acariocito_n_rel" ] ]. acarminado_a1 := a_qual_intr_ser_le & [ STEM < "acarminado" >, SYNSEM.LKEYS.KEYREL.PRED "_acarminado_a_rel" ]. acarreador_a1 := a_qual_intr_ser_le & [ STEM < "acarreador" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreador_a_rel" ]. acarreamiento_n1 := n_trans_le & [ STEM < "acarreamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreamiento_n_rel" ]. acarrear_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acarrear_v_rel" ] ]. acarrear_v2 := v_ditrans_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acarrear_v_rel" ] ]. acarrear_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL.PRED "_acarrear_v_rel" ]. acarrear_v4 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL.PRED "_acarrear_v_rel" ]. acarrear_v5 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acarerear" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acarrear_v_rel" ] ] ]. acarreo_n1 := n_trans_le & [ STEM < "acarreo" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreo_n_rel" ]. acartonar_v1 := v_pron_intr_le & [ STEM < "acartonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart_cnc_hum, PRED "_acartonar_v_rel" ] ]. acartonar_v2 := v_trans_np_le & [ STEM < "acartonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acartonar_v_rel" ]. acaso_x1 := av_s_cp_prop_le & [ STEM < "acaso" >, SYNSEM.LKEYS.KEYREL.PRED "_acaso_x_rel" ]. acatador_a1 := a_qual_intr_ser_le & [ STEM < "acatador" >, SYNSEM.LKEYS.KEYREL.PRED "_acatador_a_rel" ]. acataléctico_a1 := a_rel_nonprd_intr_le & [ STEM < "acataléctico" >, SYNSEM.LKEYS.KEYREL.PRED "_acataléctico_a_rel" ]. acatamiento_n1 := n_trans_le & [ STEM < "acatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acatamiento_n_rel" ]. acatar_v := v_trans_np_le & [ STEM < "acatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_sem, PRED "_acatar_v_rel" ] ]. acatarrar_v1 := v_pron_unacc_perf_le & [ STEM < "acatarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_acatarrar_v_rel" ]. acaudalar_v1 := v_trans_np_le & [ STEM < "acaudalar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaudalar_v_rel" ]. acaudillamiento_n1 := n_trans_le & [ STEM < "acaudillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaudillamiento_n_rel" ]. acaudillar_v1 := v_trans_np_le & [ STEM < "acaudillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum, PRED "_acaudillar_v_rel" ] ]. acaule_a1 := a_rel_nonprd_intr_le & [ STEM < "acaule" >, SYNSEM.LKEYS.KEYREL.PRED "_acaule_a_rel" ]. acceder_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "acceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_acceder_v_rel" ] ]. acceder_v2 := v_intr_mrkd_np_le & [ STEM < "acceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-loc, PRED "_acceder_v_rel" ] ] ]. acceder_v3 := v_unacc_lcomp_dir_le & [ STEM < "acceder" >, SYNSEM.LKEYS.KEYREL.PRED "_acceder_v_rel" ]. accelerograma_n1 := n_intr_count_le & [ STEM < "accelerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accelerograma_n_rel" ] ]. accesibilidad_n1 := n_ppcomp_mass_le & [ STEM < "accesibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accesibilidad_n_rel" ] ]. accesible_a1 := a_qual_intr_estar_le & [ STEM < "accesible" >, SYNSEM.LKEYS.KEYREL.PRED "_accesible_a_rel" ]. accesible_a2 := a_qual_trans_ser_le & [ STEM < "accesible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_accesible_a_rel" ] ]. accesión_n1 := n_result_intr_ppcomp_le & [ STEM < "accesión" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_accesión_n_rel" ] ]. accesión_n2 := n_intr_count_le & [ STEM < "accesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accesión_n_rel" ] ]. acceso_n1 := n_result_intr_ppcomp_le & [ STEM < "acceso" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acceso_n_rel" ] ]. accesoria_n1 := n_intr_count_le & [ STEM < "accesoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_accesoria_n_rel" ] ]. accesorio_a1 := a_rel_nonprd_intr_le & [ STEM < "accesorio" >, SYNSEM.LKEYS.KEYREL.PRED "_accesorio_a_rel" ]. accesorio_n1 := n_intr_count_le & [ STEM < "accesorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accesorio_n_rel" ] ]. accidental_a1 := a_rel_prd_le & [ STEM < "accidental" >, SYNSEM.LKEYS.KEYREL.PRED "_accidental_a_rel" ]. accidentalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "accidentalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accidentalidad_n_rel" ] ]. accidentalmente_x1 := av_i_spr_le & [ STEM < "accidentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_accidentalmente_x_rel" ]. accidentar_v1 := v_pron_intr_le & [ STEM < "accidentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum, PRED "_accidentar_v_rel" ] ]. accidente_n1 := n_intr_count_le & [ STEM < "accidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accidente_n_rel" ] ]. accionable_a1 := a_rel_prd_le & [ STEM < "accionable" >, SYNSEM.LKEYS.KEYREL.PRED "_accionable_a_rel" ]. accionamiento_n1 := n_trans_le & [ STEM < "accionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_accionamiento_n_rel" ]. accionar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "accionar" >, SYNSEM.LKEYS.KEYREL.PRED "_accionar_v_rel" ]. accionar_v2 := v_trans_np_le & [ STEM < "accionar" >, SYNSEM.LKEYS.KEYREL.PRED "_accionar_v_rel" ]. accionariado_n1 := n_intr_mass_le & [ STEM < "accionariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_accionariado_n_rel" ] ]. accionarial_a1 := a_rel_nonprd_intr_le & [ STEM < "accionarial" >, SYNSEM.LKEYS.KEYREL.PRED "_accionarial_a_rel" ]. accionarialmente_x1 := av_i_spr_le & [ STEM < "accionarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_accionarialmente_x_rel" ]. accionario_a1 := a_qual_intr_ser_le & [ STEM < "accionario" >, SYNSEM.LKEYS.KEYREL.PRED "_accionario_a_rel" ]. accionista_n1 := n_intr_count_le & [ STEM < "accionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_accionista_n_rel" ] ]. acción_n1 := n_intr_mass-or-count_le & [ STEM < "acción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_acción_n_rel" ] ]. accésit_n1 := n_intr_count_le & [ STEM < "accésit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accésit_n_rel" ] ]. acebal_n1 := n_intr_count_le & [ STEM < "acebal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebal_n_rel" ] ]. acebo_n1 := n_intr_count_le & [ STEM < "acebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebo_n_rel" ] ]. acebolladura_n1 := n_intr_count_le & [ STEM < "acebolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acebolladura_n_rel" ] ]. acebrado_a1 := a_rel_nonprd_intr_le & [ STEM < "acebrado" >, SYNSEM.LKEYS.KEYREL.PRED "_acebrado_a_rel" ]. acebuche_n1 := n_intr_count_le & [ STEM < "acebuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebuche_n_rel" ] ]. acebuchina_n1 := n_intr_count_le & [ STEM < "acebuchina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acebuchina_n_rel" ] ]. acebutolol_n1 := n_intr_count_le & [ STEM < "acebutolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acebutolol_n_rel" ] ]. acechadera_n1 := n_intr_count_le & [ STEM < "acechadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acechadera_n_rel" ] ]. acechar_v1 := v_trans_np_le & [ STEM < "acechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum, PRED "_acechar_v_rel" ] ]. acecho_n1 := n_trans_le & [ STEM < "acecho" >, SYNSEM.LKEYS.KEYREL.PRED "_acecho_n_rel" ]. acedera_n1 := n_intr_count_le & [ STEM < "acedera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acedera_n_rel" ] ]. acedo_a1 := a_rel_nonprd_intr_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedo_a2 := a_qual_intr_scopal_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedo_a3 := a_qual_intr_ser_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedía_n1 := n_intr_uncount_le & [ STEM < "acedía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acedía_n_rel" ] ]. acedía_n2 := n_intr_count_le & [ STEM < "acedía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acedía_n_rel" ] ]. acefalismo_n1 := n_intr_uncount_le & [ STEM < "acefalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acefalismo_n_rel" ] ]. acefalía_n1 := n_intr_uncount_le & [ STEM < "acefalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acefalía_n_rel" ] ]. aceite_de_oliva_n1 := n_intr_mass_le & [ STEM < "aceite_de_oliva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceite_de_oliva_n_rel" ] ]. aceite_n1 := n_intr_mass_le & [ STEM < "aceite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceite_n_rel" ] ]. aceitera_n1 := n_intr_count_le & [ STEM < "aceitera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceitera_n_rel" ] ]. aceitero_n1 := n_intr_count_le & [ STEM < "aceitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceitero_n_rel" ] ]. aceitería_n1 := n_intr_count_le & [ STEM < "aceitería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aceitería_n_rel" ] ]. aceitoso_a1 := a_qual_intr_scopal_le & [ STEM < "aceitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aceitoso_a_rel" ]. aceituna_n1 := n_intr_count_le & [ STEM < "aceituna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceituna_n_rel" ] ]. aceitunado_a1 := a_qual_intr_ser_le & [ STEM < "aceitunado" >, SYNSEM.LKEYS.KEYREL.PRED "_aceitunado_a_rel" ]. aceitunero_n1 := n_intr_count_le & [ STEM < "aceitunero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceitunero_n_rel" ] ]. aceituno_a1 := a_qual_intr_ser_le & [ STEM < "aceituno" >, SYNSEM.LKEYS.KEYREL.PRED "_aceituno_a_rel" ]. aceleración_n1 := n_trans_le & [ STEM < "aceleración" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleración_n_rel" ]. acelerada_n1 := n_intr_count_le & [ STEM < "acelerada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acelerada_n_rel" ] ]. aceleradamente_x1 := av_i_spr_le & [ STEM < "aceleradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleradamente_x_rel" ]. acelerador_a1 := a_rel_nonprd_intr_le & [ STEM < "acelerador" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerador_a_rel" ]. acelerador_n1 := n_intr_count_le & [ STEM < "acelerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerador_n_rel" ] ]. aceleramiento_n1 := n_trans_le & [ STEM < "aceleramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleramiento_n_rel" ]. acelerar_v1 := v_intr_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, PRED "_acelerar_v_rel" ] ]. acelerar_v2 := v_pron_intr_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_pot_pro, PRED "_acelerar_v_rel" ] ]. acelerar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerar_v_rel" ]. acelerar_v4 := v_trans_np_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerar_v_rel" ]. acelerograma_n1 := n_intr_count_le & [ STEM < "acelerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerograma_n_rel" ] ]. acelerómetro_n1 := n_intr_count_le & [ STEM < "acelerómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerómetro_n_rel" ] ]. acelerón_n1 := n_intr_count_le & [ STEM < "acelerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acelerón_n_rel" ] ]. acelga_n1 := n_intr_mass-or-count_le & [ STEM < "acelga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acelga_n_rel" ] ]. acelular_a1 := a_rel_nonprd_intr_le & [ STEM < "acelular" >, SYNSEM.LKEYS.KEYREL.PRED "_acelular_a_rel" ]. acenafteno_n1 := n_intr_count_le & [ STEM < "acenafteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acenafteno_n_rel" ] ]. acenaftenoquinona_n1 := n_intr_count_le & [ STEM < "acenaftenoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acenaftenoquinona_n_rel" ] ]. acendramiento_n1 := n_trans_le & [ STEM < "acendramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acendramiento_n_rel" ]. acensado_a1 := a_qual_intr_estar_le & [ STEM < "acensado" >, SYNSEM.LKEYS.KEYREL.PRED "_acensado_a_rel" ]. acensar_v1 := v_trans_np_le & [ STEM < "acensar" >, SYNSEM.LKEYS.KEYREL.PRED "_acensar_v_rel" ]. acensuar_v1 := v_trans_np_le & [ STEM < "acensuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acensuar_v_rel" ]. acento_n1 := n_intr_count_le & [ STEM < "acento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_acento_n_rel" ] ]. acentuación_n1 := n_trans_le & [ STEM < "acentuación" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuación_n_rel" ]. acentuadamente_x1 := av_i_spr_le & [ STEM < "acentuadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuadamente_x_rel" ]. acentual_a1 := a_rel_nonprd_intr_le & [ STEM < "acentual" >, SYNSEM.LKEYS.KEYREL.PRED "_acentual_a_rel" ]. acentuar_v1 := v_pron_intr_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs, PRED "_acentuar_v_rel" ] ]. acentuar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuar_v_rel" ]. acentuar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuar_v_rel" ]. acentuar_v4 := v_trans_cp_prop_fin_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acentuar_v_rel" ] ]. acentuar_v5 := v_trans_np_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acentuar_v_rel" ] ]. acepción_n1 := n_intr_count_le & [ STEM < "acepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acepción_n_rel" ] ]. acepilladora_n1 := n_intr_count_le & [ STEM < "acepilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acepilladora_n_rel" ] ]. aceptabilidad_n1 := n_ppcomp_mass_le & [ STEM < "aceptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aceptabilidad_n_rel" ] ]. aceptable_a1 := a_qual_intr_scopal_le & [ STEM < "aceptable" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptable_a_rel" ]. aceptablemente_x1 := av_i_spr_le & [ STEM < "aceptablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptablemente_x_rel" ]. aceptación_n1 := n_trans_le & [ STEM < "aceptación" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptación_n_rel" ]. aceptador_n1 := n_subj-nom_le & [ STEM < "aceptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceptador_n_rel" ] ]. aceptante_a1 := a_qual_intr_ser_le & [ STEM < "aceptante" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptante_a_rel" ]. aceptante_n1 := n_intr_count_le & [ STEM < "aceptante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceptante_n_rel" ] ]. aceptar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "aceptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aceptar_v_rel" ] ]. aceptar_v2 := v_ditrans*_le & [ STEM < "aceptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aceptar_v_rel" ] ]. aceptor_n1 := n_intr_count_le & [ STEM < "aceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceptor_n_rel" ] ]. acequia_n1 := n_intr_count_le & [ STEM < "acequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acequia_n_rel" ] ]. acera_n1 := n_intr_count_le & [ STEM < "acera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acera_n_rel" ] ]. aceración_n1 := n_trans_le & [ STEM < "aceración" >, SYNSEM.LKEYS.KEYREL.PRED "_aceración_n_rel" ]. acerbidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "acerbidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acerbidad_n_rel" ] ]. acerbo_a1 := a_qual_intr_scopal_le & [ STEM < "acerbo" >, SYNSEM.LKEYS.KEYREL.PRED "_acerbo_a_rel" ]. acerca_de_p_vmod := p_vmod_le & [ STEM < "acerca_de" >, SYNSEM.LKEYS.KEYREL.PRED _acerca_de_p_rel ]. acercamiento_n1 := n_trans_le & [ STEM < "acercamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acercamiento_n_rel" ]. acercar_v1 := v_ditrans_le & [ STEM < "acercar" >, SYNSEM.LKEYS.KEYREL.PRED "_acercar_v_rel" ]. acercar_v2 := v_pron_intr_io_le & [ STEM < "acercar" >, SYNSEM.LKEYS.KEYREL.PRED "_acercar_v_rel" ]. acercar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acercar_v_rel" ] ] ]. acercar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_acercar_v_rel" ] ]. acercar_v5 := v_trans_np_mrkd_np_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_acercar_v_rel" ] ]. acercar_v6 := v_trans_np_mrkd_np*_caus_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acercar_v_rel" ] ] ]. acerería_n1 := n_intr_count_le & [ STEM < "acerería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_acerería_n_rel" ] ]. acero_n1 := n_intr_mass_le & [ STEM < "acero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acero_n_rel" ] ]. acertadamente_x1 := av_i_spr_le & [ STEM < "acertadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acertadamente_x_rel" ]. acertante_n1 := n_intr_count_le & [ STEM < "acertante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acertante_n_rel" ] ]. acertar_v1 := v_intr_mrkd_vp_ssr_le & [ STEM < "acertar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_acertar_v_rel" ] ]. acertar_v2 := v_intr_mrkd_np_le & [ STEM < "acertar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acertar_v_rel" ] ]. acertar_v3 := v_trans_np*_le & [ STEM < "acertar" >, SYNSEM.LKEYS.KEYREL.PRED "_acertar_v_rel" ]. acertijo_n1 := n_trans_le & [ STEM < "acertijo" >, SYNSEM.LKEYS.KEYREL.PRED "_acertijo_n_rel" ]. aceruelo_n1 := n_intr_count_le & [ STEM < "aceruelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceruelo_n_rel" ] ]. acervo_n1 := n_intr_count_le & [ STEM < "acervo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acervo_n_rel" ] ]. acería_n1 := n_intr_count_le & [ STEM < "acería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acería_n_rel" ] ]. acetal_n1 := n_intr_mass_le & [ STEM < "acetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetal_n_rel" ] ]. acetaldehidasa_n1 := n_intr_count_le & [ STEM < "acetaldehidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetaldehidasa_n_rel" ] ]. acetaldehído_n1 := n_intr_count_le & [ STEM < "acetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetaldehído_n_rel" ] ]. acetamida_n1 := n_intr_count_le & [ STEM < "acetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetamida_n_rel" ] ]. acetamidina_n1 := n_intr_count_le & [ STEM < "acetamidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetamidina_n_rel" ] ]. acetanilida_n1 := n_intr_count_le & [ STEM < "acetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetanilida_n_rel" ] ]. acetato_n1 := n_intr_mass_le & [ STEM < "acetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetato_n_rel" ] ]. acetatopropionato_n1 := n_intr_count_le & [ STEM < "acetatopropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetatopropionato_n_rel" ] ]. acetificante_n1 := n_intr_count_le & [ STEM < "acetificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetificante_n_rel" ] ]. acetilacetona_n1 := n_intr_count_le & [ STEM < "acetilacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilacetona_n_rel" ] ]. acetilacetonato_n1 := n_intr_count_le & [ STEM < "acetilacetonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilacetonato_n_rel" ] ]. acetilación_n1 := n_intr_uncount_le & [ STEM < "acetilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetilación_n_rel" ] ]. acetilador_n1 := n_intr_count_le & [ STEM < "acetilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetilador_n_rel" ] ]. acetilarsanilato_n1 := n_intr_count_le & [ STEM < "acetilarsanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilarsanilato_n_rel" ] ]. acetilcelulosa_n1 := n_intr_count_le & [ STEM < "acetilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcelulosa_n_rel" ] ]. acetilcolina_n1 := n_intr_count_le & [ STEM < "acetilcolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcolina_n_rel" ] ]. acetilcolinesterasa_n1 := n_intr_count_le & [ STEM < "acetilcolinesterasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcolinesterasa_n_rel" ] ]. acetileno_n1 := n_intr_mass_le & [ STEM < "acetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetileno_n_rel" ] ]. acetilfenilhidracina_n1 := n_intr_count_le & [ STEM < "acetilfenilhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilfenilhidracina_n_rel" ] ]. acetilisoeugenol_n1 := n_intr_count_le & [ STEM < "acetilisoeugenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilisoeugenol_n_rel" ] ]. acetilsalicilato_n1 := n_intr_count_le & [ STEM < "acetilsalicilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilsalicilato_n_rel" ] ]. acetilsalicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetilsalicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetilsalicílico_a_rel" ]. acetilénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetilénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetilénico_a_rel" ]. acetina_n1 := n_intr_count_le & [ STEM < "acetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetina_n_rel" ] ]. acetoacetanilida_n1 := n_intr_count_le & [ STEM < "acetoacetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoacetanilida_n_rel" ] ]. acetoacetato_n1 := n_intr_count_le & [ STEM < "acetoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoacetato_n_rel" ] ]. acetoacético_a1 := a_rel_nonprd_intr_le & [ STEM < "acetoacético" >, SYNSEM.LKEYS.KEYREL.PRED "_acetoacético_a_rel" ]. acetoarsenito_n1 := n_intr_count_le & [ STEM < "acetoarsenito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoarsenito_n_rel" ] ]. acetobacteria_n1 := n_intr_count_le & [ STEM < "acetobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetobacteria_n_rel" ] ]. acetobenzoato_n1 := n_intr_count_le & [ STEM < "acetobenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobenzoato_n_rel" ] ]. acetobromal_n1 := n_intr_count_le & [ STEM < "acetobromal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobromal_n_rel" ] ]. acetobromuro_n1 := n_intr_count_le & [ STEM < "acetobromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobromuro_n_rel" ] ]. acetobutirato_n1 := n_intr_count_le & [ STEM < "acetobutirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobutirato_n_rel" ] ]. acetofenona_n1 := n_intr_count_le & [ STEM < "acetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetofenona_n_rel" ] ]. acetolisis_n1 := n_intr_uncount_le & [ STEM < "acetolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetolisis_n_rel" ] ]. acetolo_n1 := n_intr_count_le & [ STEM < "acetolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetolo_n_rel" ] ]. acetona_n1 := n_intr_mass_le & [ STEM < "acetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetona_n_rel" ] ]. acetonaftona_n1 := n_intr_count_le & [ STEM < "acetonaftona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetonaftona_n_rel" ] ]. acetoxiestearato_n1 := n_intr_count_le & [ STEM < "acetoxiestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxiestearato_n_rel" ] ]. acetoxilo_n1 := n_intr_count_le & [ STEM < "acetoxilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxilo_n_rel" ] ]. acetoxima_n1 := n_intr_count_le & [ STEM < "acetoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxima_n_rel" ] ]. acetoína_n1 := n_intr_mass-or-count_le & [ STEM < "acetoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acetoína_n_rel" ] ]. acetrizoato_n1 := n_intr_count_le & [ STEM < "acetrizoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetrizoato_n_rel" ] ]. acetábulo_n1 := n_intr_count_le & [ STEM < "acetábulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetábulo_n_rel" ] ]. acetómetro_n1 := n_intr_count_le & [ STEM < "acetómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetómetro_n_rel" ] ]. acetónico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetónico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetónico_a_rel" ]. aceña_n1 := n_intr_count_le & [ STEM < "aceña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceña_n_rel" ] ]. aceñero_n1 := n_intr_count_le & [ STEM < "aceñero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceñero_n_rel" ] ]. achacable_a1 := a_rel_prd_le & [ STEM < "achacable" >, SYNSEM.LKEYS.KEYREL.PRED "_achacable_a_rel" ]. achacar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "achacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_achacar_v_rel" ] ]. achacar_v2 := v_ditrans*_le & [ STEM < "achacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_achacar_v_rel" ] ]. achacar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "achacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_achacar_v_rel" ] ] ]. achacar_v4 := v_trans_np*_mrkd_cp_prop_inf_sc_le & [ STEM < "achacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_achacar_v_rel" ] ] ]. achacoso_a1 := a_qual_intr_ser_le & [ STEM < "achacoso" >, SYNSEM.LKEYS.KEYREL.PRED "_achacoso_a_rel" ]. achampanado_a1 := a_rel_nonprd_intr_le & [ STEM < "achampanado" >, SYNSEM.LKEYS.KEYREL.PRED "_achampanado_a_rel" ]. achampañado_a1 := a_rel_nonprd_intr_le & [ STEM < "achampañado" >, SYNSEM.LKEYS.KEYREL.PRED "_achampañado_a_rel" ]. achaque_n1 := n_trans_le & [ STEM < "achaque" >, SYNSEM.LKEYS.KEYREL.PRED "_achaque_n_rel" ]. achaquiento_a1 := a_qual_intr_ser_le & [ STEM < "achaquiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achaquiento_a_rel" ]. achatamiento_n1 := n_trans_le & [ STEM < "achatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achatamiento_n_rel" ]. achicador_n1 := n_intr_count_le & [ STEM < "achicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_achicador_n_rel" ] ]. achicamiento_n1 := n_trans_le & [ STEM < "achicamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achicamiento_n_rel" ]. achicar_v1 := v_intr_io*_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicar_v3 := v_trans_np_caus_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicharrante_a1 := a_rel_prd_le & [ STEM < "achicharrante" >, SYNSEM.LKEYS.KEYREL.PRED "_achicharrante_a_rel" ]. achicharrar_v := v_trans_np_caus_le & [ STEM < "achicharrar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicharrar_v_rel" ]. achicoria_n1 := n_intr_mass_le & [ STEM < "achicoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_achicoria_n_rel" ] ]. achique_n1 := n_trans_le & [ STEM < "achique" >, SYNSEM.LKEYS.KEYREL.PRED "_achique_n_rel" ]. achiquillado_a1 := a_qual_intr_ser_le & [ STEM < "achiquillado" >, SYNSEM.LKEYS.KEYREL.PRED "_achiquillado_a_rel" ]. achocolatado_a1 := a_rel_prd_le & [ STEM < "achocolatado" >, SYNSEM.LKEYS.KEYREL.PRED "_achocolatado_a_rel" ]. aciagamente_x1 := av_i_spr_le & [ STEM < "aciagamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aciagamente_x_rel" ]. aciago_a1 := a_qual_intr_scopal_le & [ STEM < "aciago" >, SYNSEM.LKEYS.KEYREL.PRED "_aciago_a_rel" ]. aciano_n1 := n_intr_mass_le & [ STEM < "aciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aciano_n_rel" ] ]. acicaladamente_x1 := av_i_spr_le & [ STEM < "acicaladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acicaladamente_x_rel" ]. acicaladura_n1 := n_trans_le & [ STEM < "acicaladura" >, SYNSEM.LKEYS.KEYREL.PRED "_acicaladura_n_rel" ]. acicalamiento_n1 := n_trans_le & [ STEM < "acicalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acicalamiento_n_rel" ]. acicate_n1 := n_intr_count_le & [ STEM < "acicate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acicate_n_rel" ] ]. acicular_a1 := a_rel_nonprd_intr_le & [ STEM < "acicular" >, SYNSEM.LKEYS.KEYREL.PRED "_acicular_a_rel" ]. aciculifolio_a1 := a_rel_nonprd_intr_le & [ STEM < "aciculifolio" >, SYNSEM.LKEYS.KEYREL.PRED "_aciculifolio_a_rel" ]. acidez_n1 := n_ppcomp_mass_le & [ STEM < "acidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidez_n_rel" ] ]. acidificación_n1 := n_trans_le & [ STEM < "acidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_acidificación_n_rel" ]. acidificante_a1 := a_rel_nonprd_intr_le & [ STEM < "acidificante" >, SYNSEM.LKEYS.KEYREL.PRED "_acidificante_a_rel" ]. acidificante_n1 := n_intr_count_le & [ STEM < "acidificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidificante_n_rel" ] ]. acidificar_v1 := v_trans_np_caus_le & [ STEM < "acidificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_acidificar_v_rel" ] ]. acidimetría_n1 := n_intr_count_le & [ STEM < "acidimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidimetría_n_rel" ] ]. acidogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acidogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acidogénico_a_rel" ]. acidosis_n1 := n_intr_uncount_le & [ STEM < "acidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidosis_n_rel" ] ]. acidulante_n1 := n_intr_count_le & [ STEM < "acidulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidulante_n_rel" ] ]. acidular_v1 := v_trans_np_caus_le & [ STEM < "acidular" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_acidular_v_rel" ] ]. acidímetro_n1 := n_intr_count_le & [ STEM < "acidímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidímetro_n_rel" ] ]. acidófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "acidófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_acidófilo_a_rel" ]. acidófilo_n1 := n_intr_mass_le & [ STEM < "acidófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acidófilo_n_rel" ] ]. acidógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "acidógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_acidógeno_a_rel" ]. acidólisis_n1 := n_intr_uncount_le & [ STEM < "acidólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidólisis_n_rel" ] ]. acidósico_a1 := a_rel_nonprd_intr_le & [ STEM < "acidósico" >, SYNSEM.LKEYS.KEYREL.PRED "_acidósico_a_rel" ]. acierto_n1 := n_trans_le & [ STEM < "acierto" >, SYNSEM.LKEYS.KEYREL.PRED "_acierto_n_rel" ]. acigosperma_n1 := n_intr_count_le & [ STEM < "acigosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acigosperma_n_rel" ] ]. acigoto_n1 := n_intr_uncount_pl_le & [ STEM < "acigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acigoto_n_rel" ] ]. acilo_n1 := n_intr_count_le & [ STEM < "acilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acilo_n_rel" ] ]. aciloina_n1 := n_intr_mass-or-count_le & [ STEM < "aciloina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aciloina_n_rel" ] ]. acimut_n1 := n_intr_count_le & [ STEM < "acimut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acimut_n_rel" ] ]. acimutal_a1 := a_rel_nonprd_intr_le & [ STEM < "acimutal" >, SYNSEM.LKEYS.KEYREL.PRED "_acimutal_a_rel" ]. acinesia_n1 := n_intr_count_le & [ STEM < "acinesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acinesia_n_rel" ] ]. acinesis_n1 := n_intr_uncount_le & [ STEM < "acinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acinesis_n_rel" ] ]. acineto_n1 := n_intr_count_le & [ STEM < "acineto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acineto_n_rel" ] ]. acirate_n1 := n_intr_count_le & [ STEM < "acirate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acirate_n_rel" ] ]. aclamación_n1 := n_trans_le & [ STEM < "aclamación" >, SYNSEM.LKEYS.KEYREL.PRED "_aclamación_n_rel" ]. aclamar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "aclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aclamar_v_rel" ] ]. aclamar_v3 := v_trans_np_le & [ STEM < "aclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aclamar_v_rel" ] ]. aclaración_n1 := n_intr_mass_le & [ STEM < "aclaración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_aclaración_n_rel" ] ]. aclarado_n1 := n_trans_le & [ STEM < "aclarado" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarado_n_rel" ]. aclaradora_n1 := n_intr_count_le & [ STEM < "aclaradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aclaradora_n_rel" ] ]. aclarar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aclarar_v_rel" ] ]. aclarar_v2 := v_ditrans_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_aclarar_v_rel" ] ]. aclarar_v3 := v_trans_np_caus_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarar_v_rel" ]. aclarar_v4 := v_unacc_perf_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarar_v_rel" ]. aclaratorio_a1 := a_qual_intr_scopal_le & [ STEM < "aclaratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aclaratorio_a_rel" ]. aclareo_n1 := n_trans_le & [ STEM < "aclareo" >, SYNSEM.LKEYS.KEYREL.PRED "_aclareo_n_rel" ]. aclavelado_a1 := a_rel_nonprd_intr_le & [ STEM < "aclavelado" >, SYNSEM.LKEYS.KEYREL.PRED "_aclavelado_a_rel" ]. aclimatable_a1 := a_rel_nonprd_intr_le & [ STEM < "aclimatable" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatable_a_rel" ]. aclimatación_n1 := n_trans_le & [ STEM < "aclimatación" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatación_n_rel" ]. aclimatización_n1 := n_trans_le & [ STEM < "aclimatización" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatización_n_rel" ]. acnodo_n1 := n_intr_count_le & [ STEM < "acnodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acnodo_n_rel" ] ]. acné_n1 := n_intr_mass_le & [ STEM < "acné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acné_n_rel" ] ]. acobardamiento_n1 := n_trans_le & [ STEM < "acobardamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acobardamiento_n_rel" ]. acobardar_v1 := v_intr_io*_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acobardar_v_rel" ] ]. acobardar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL.PRED "_acobardar_v_rel" ]. acobardar_v3 := v_trans_np_caus_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acobardar_v_rel" ] ]. acobrado_a1 := a_qual_intr_ser_le & [ STEM < "acobrado" >, SYNSEM.LKEYS.KEYREL.PRED "_acobrado_a_rel" ]. acochar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acochar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acochar_v_rel" ] ] ]. acochar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "acochar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_acochar_v_rel" ] ] ]. acodadera_n1 := n_intr_count_le & [ STEM < "acodadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acodadera_n_rel" ] ]. acodadura_n1 := n_intr_count_le & [ STEM < "acodadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acodadura_n_rel" ] ]. acodamiento_n1 := n_intr_count_le & [ STEM < "acodamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acodamiento_n_rel" ] ]. acodar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "acodar" >, SYNSEM.LKEYS.KEYREL.PRED "_acodar_v_rel" ]. acodar_v2 := v_trans_np_le & [ STEM < "acodar" >, SYNSEM.LKEYS.KEYREL.PRED "_acodar_v_rel" ]. acodo_n1 := n_intr_count_le & [ STEM < "acodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acodo_n_rel" ] ]. acogedor_a1 := a_qual_intr_scopal_le & [ STEM < "acogedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acogedor_a_rel" ]. acoger_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acoger_v_rel" ] ] ]. acoger_v2 := v_pron_intr_mrkd_np_le & [ STEM < "acoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acoger_v_rel" ] ] ]. acoger_v3 := v_trans_np_le & [ STEM < "acoger" >, SYNSEM.LKEYS.KEYREL.PRED "_acoger_v_rel" ]. acogimiento_n1 := n_intr_mass_le & [ STEM < "acogimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acogimiento_n_rel" ] ]. acojonar_v1 := v_intr_io*_le & [ STEM < "acojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acojonar_v_rel" ]. acojonar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acojonar_v_rel" ]. acolchar_v1 := v_trans_np_le & [ STEM < "acolchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, ARG2.SORT cnc, PRED "_acolchar_v_rel" ] ]. acollador_n1 := n_intr_count_le & [ STEM < "acollador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acollador_n_rel" ] ]. acolladura_n1 := n_intr_uncount_le & [ STEM < "acolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acolladura_n_rel" ] ]. acometedor_a1 := a_qual_intr_ser_le & [ STEM < "acometedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acometedor_a_rel" ]. acometida_n1 := n_intr_count_le & [ STEM < "acometida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acometida_n_rel" ] ]. acometimiento_n1 := n_trans_le & [ STEM < "acometimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acometimiento_n_rel" ]. acometividad_n1 := n_intr_mass_le & [ STEM < "acometividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acometividad_n_rel" ] ]. acomodable_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodable" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodable_a_rel" ]. acomodación_n1 := n_trans_le & [ STEM < "acomodación" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodación_n_rel" ]. acomodadizo_a1 := a_qual_intr_ser_le & [ STEM < "acomodadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodadizo_a_rel" ]. acomodador_n1 := n_intr_count_le & [ STEM < "acomodador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acomodador_n_rel" ] ]. acomodamiento_n1 := n_intr_uncount_le & [ STEM < "acomodamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acomodamiento_n_rel" ] ]. acomodar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acomodar_v_rel" ] ] ]. acomodar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodaticio_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodaticio" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodaticio_a_rel" ]. acomodativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodativo_a_rel" ]. acomodo_n1 := n_trans_le & [ STEM < "acomodo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodo_n_rel" ]. acompasar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "acompasar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc, PRED "_acompasar_v_rel" ] ] ]. acompaãâ±ar_v1 := v_trans_np_lcomp_dir*_le & [ STEM < "acompañar" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañar_v_rel" ]. acompaãâ±ar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "acompañar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acompañar_v_rel" ] ] ]. acompañador_a1 := a_qual_intr_ser_le & [ STEM < "acompañador" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañador_a_rel" ]. acompañamiento_n1 := n_trans_le & [ STEM < "acompañamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañamiento_n_rel" ]. acompañante_a1 := a_qual_intr_ser_le & [ STEM < "acompañante" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañante_a_rel" ]. acompañante_n1 := n_intr_count_le & [ STEM < "acompañante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acompañante_n_rel" ] ]. acomplejar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "acomplejar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acomplejar_v_rel" ] ]. acomplejar_v2 := v_trans_np_le & [ STEM < "acomplejar" >, SYNSEM.LKEYS.KEYREL.PRED "_acomplejar_v_rel" ]. acondicionador_n1 := n_intr_count_le & [ STEM < "acondicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acondicionador_n_rel" ] ]. acondicionamiento_n1 := n_trans_le & [ STEM < "acondicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acondicionamiento_n_rel" ]. acondicionar_v1 := v_trans_np_le & [ STEM < "acondicionar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_acondicionar_v_rel" ] ]. acongojar_v1 := v_intr_io*_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acongojar_v_rel" ] ]. acongojar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "acongojar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acongojar_v_rel" ] ] ]. acongojar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "acongojar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_acongojar_v_rel" ] ] ]. acongojar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL.PRED "_acongojar_v_rel" ]. acongojar_v5 := v_trans_np_caus_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acongojar_v_rel" ] ]. aconitato_n1 := n_intr_count_le & [ STEM < "aconitato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aconitato_n_rel" ] ]. aconitina_n1 := n_intr_count_le & [ STEM < "aconitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aconitina_n_rel" ] ]. aconsejable_a1 := a_qual_intr_scopal_le & [ STEM < "aconsejable" >, SYNSEM.LKEYS.KEYREL.PRED "_aconsejable_a_rel" ]. aconsejador_a1 := a_qual_intr_ser_le & [ STEM < "aconsejador" >, SYNSEM.LKEYS.KEYREL.PRED "_aconsejador_a_rel" ]. aconsejar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "aconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aconsejar_v_rel" ] ]. aconsejar_v2 := v_ditrans*_le & [ STEM < "aconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aconsejar_v_rel" ] ]. acontecer_v1 := v_intr_io*_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acontecer_v_rel" ] ]. acontecer_v2 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL.PRED "_acontecer_v_rel" ]. acontecer_v3 := v_unacc_lcomp_loc_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_acontecer_v_rel" ] ]. acontecimiento_n1 := n_intr_count_le & [ STEM < "acontecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acontecimiento_n_rel" ] ]. acopiamiento_n1 := n_trans_le & [ STEM < "acopiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acopiamiento_n_rel" ]. acoplador_n1 := n_intr_count_le & [ STEM < "acoplador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acoplador_n_rel" ] ]. acopladura_n1 := n_trans_le & [ STEM < "acopladura" >, SYNSEM.LKEYS.KEYREL.PRED "_acopladura_n_rel" ]. acoplamiento_n1 := n_trans_le & [ STEM < "acoplamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acoplamiento_n_rel" ]. acople_n1 := n_trans_le & [ STEM < "acople" >, SYNSEM.LKEYS.KEYREL.PRED "_acople_n_rel" ]. acoplo_n1 := n_result_intr_ppcomp_le & [ STEM < "acoplo" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acoplo_n_rel" ] ]. acoquinamiento_n1 := n_trans_le & [ STEM < "acoquinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinamiento_n_rel" ]. acoquinar_v1 := v_intr_io*_le & [ STEM < "acoquinar" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinar_v_rel" ]. acoquinar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acoquinar" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinar_v_rel" ]. acorazado_n1 := n_intr_count_le & [ STEM < "acorazado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_acorazado_n_rel" ] ]. acorazamiento_n1 := n_trans_le & [ STEM < "acorazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazamiento_n_rel" ]. acorazar_v1 := v_trans_np_caus_le & [ STEM < "acorazar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazar_v_rel" ]. acorazonado_a1 := a_qual_intr_ser_le & [ STEM < "acorazonado" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazonado_a_rel" ]. acorchamiento_n1 := n_event-result_intr_le & [ STEM < "acorchamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorchamiento_n_rel" ]. acordable_a1 := a_rel_prd_le & [ STEM < "acordable" >, SYNSEM.LKEYS.KEYREL.PRED "_acordable_a_rel" ]. acordar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "acordar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ] ]. acordar_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "acordar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ] ]. acordar_v3 := v_trans_cp_prop_fin_mrkd_np_sym_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ]. acordar_v4 := v_trans_cp_semi_ques_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL.PRED "_acordar_v_rel" ]. acordar_v5 := v_trans_np_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_acordar_v_rel" ] ]. practicar_v1 := v_trans_cp_semi_ques_le & [ STEM < "practicar" >, SYNSEM.LKEYS.KEYREL.PRED "_practicar_v_rel" ]. practicar_v2 := v_trans_np*_le & [ STEM < "practicar" >, SYNSEM.LKEYS.KEYREL.PRED "_practicar_v_rel" ]. practicar_v3 := v_ditrans_le & [ STEM < "practicar" >, SYNSEM.LKEYS.KEYREL.PRED "_practicar_v_rel" ]. acorde_a1 := a_qual_trans*_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_a3 := a_qual_cp_ques_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_n1 := n_intr_count_le & [ STEM < "acorde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acorde_n_rel" ] ]. acordeonista_n1 := n_intr_count_le & [ STEM < "acordeonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acordeonista_n_rel" ] ]. acordeón_n1 := n_intr_count_le & [ STEM < "acordeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acordeón_n_rel" ] ]. acordonamiento_n1 := n_trans_le & [ STEM < "acordonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acordonamiento_n_rel" ]. acordonar_v1 := v_trans_np_le & [ STEM < "acordonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_loc, PRED "_acordonar_v_rel" ] ]. acorralamiento_n1 := n_trans_le & [ STEM < "acorralamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralamiento_n_rel" ]. acorralar_v1 := v_intr_io*_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralar_v_rel" ]. acorralar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralar_v_rel" ]. acorralar_v3 := v_trans_np_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_acorralar_v_rel" ] ]. acortable_a1 := a_qual_intr_scopal_le & [ STEM < "acortable" >, SYNSEM.LKEYS.KEYREL.PRED "_acortable_a_rel" ]. acortamiento_n1 := n_trans_le & [ STEM < "acortamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acortamiento_n_rel" ]. acortar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "acortar" >, SYNSEM.LKEYS.KEYREL.PRED "_acortar_v_rel" ]. acortar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acortar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acortar_v_rel" ] ] ]. acortar_v3 := v_trans_np_le & [ STEM < "acortar" >, SYNSEM.LKEYS.KEYREL.PRED "_acortar_v_rel" ]. acosador_n1 := n_subj-nom_le & [ STEM < "acosador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acosador_n_rel" ] ]. acosamiento_n1 := n_trans_le & [ STEM < "acosamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acosamiento_n_rel" ]. acosar_v1 := v_intr_io*_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acosar_v_rel" ] ]. acosar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL.PRED "_acosar_v_rel" ]. acosar_v3 := v_trans_np_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum_soc, PRED "_acosar_v_rel" ] ]. acoso_n1 := n_trans_le & [ STEM < "acoso" >, SYNSEM.LKEYS.KEYREL.PRED "_acoso_n_rel" ]. acostar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acostar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acostar_v_rel" ] ] ]. acostar_v2 := v_pron_intr_mrkd_np_sym_le & [ STEM < "acostar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acostar_v_rel" ] ]. acostar_v3 := v_trans_np_caus_le & [ STEM < "acostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acostar_v_rel" ] ]. acostumbrar_v := v_ssr_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_acostumbrar_v_rel" ]. acostumbrar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acostumbrar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acostumbrar_v3 := v_trans_np_mrkd_np_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acotación_n1 := n_trans_le & [ STEM < "acotación" >, SYNSEM.LKEYS.KEYREL.PRED "_acotación_n_rel" ]. acotamiento_n1 := n_trans_le & [ STEM < "acotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acotamiento_n_rel" ]. acotar_v1 := v_trans_np_le & [ STEM < "acotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, ARG2.SORT abs_cnc_loc, PRED "_acotar_v_rel" ] ]. acotillo_n1 := n_intr_count_le & [ STEM < "acotillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acotillo_n_rel" ] ]. acracia_n1 := n_intr_uncount_le & [ STEM < "acracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acracia_n_rel" ] ]. acre_a1 := a_qual_intr_scopal_le & [ STEM < "acre" >, SYNSEM.LKEYS.KEYREL.PRED "_acre_a_rel" ]. acre_n1 := n_pseudo-part_le & [ STEM < "acre" >, SYNSEM.LKEYS.KEYREL.PRED "_acre_n_rel" ]. acrecencia_n1 := n_intr_uncount_le & [ STEM < "acrecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrecencia_n_rel" ] ]. acrecentador_a1 := a_rel_nonprd_intr_le & [ STEM < "acrecentador" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentador_a_rel" ]. acrecentamiento_n1 := n_trans_le & [ STEM < "acrecentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentamiento_n_rel" ]. acrecentar_v1 := v_trans_np_caus_le & [ STEM < "acrecentar" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentar_v_rel" ]. acrecimiento_n1 := n_trans_le & [ STEM < "acrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecimiento_n_rel" ]. acreción_n1 := n_trans_le & [ STEM < "acreción" >, SYNSEM.LKEYS.KEYREL.PRED "_acreción_n_rel" ]. acreditación_n1 := n_trans_le & [ STEM < "acreditación" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditación_n_rel" ]. acreditado_n1 := n_intr_count_le & [ STEM < "acreditado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acreditado_n_rel" ] ]. acreditamiento_n1 := n_trans_le & [ STEM < "acreditamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditamiento_n_rel" ]. acreditante_a1 := a_rel_nonprd_intr_le & [ STEM < "acreditante" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditante_a_rel" ]. acreditar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditar_v_rel" ]. acreditar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditar_v_rel" ]. acreditar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acreditar_v_rel" ] ]. acreditar_v4 := v_trans_np_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acreditar_v_rel" ] ]. acreditativo_a1 := a_qual_trans_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreditativo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreditativo_a3 := a_qual_cp_ques_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreedor_a1 := a_qual_intr_ser_le & [ STEM < "acreedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acreedor_a_rel" ]. acreedor_n1 := n_subj-nom_le & [ STEM < "acreedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acreedor_n_rel" ] ]. acribadura_n1 := n_trans_le & [ STEM < "acribadura" >, SYNSEM.LKEYS.KEYREL.PRED "_acribadura_n_rel" ]. acridina_n1 := n_intr_count_le & [ STEM < "acridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acridina_n_rel" ] ]. acridona_n1 := n_intr_count_le & [ STEM < "acridona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acridona_n_rel" ] ]. acriflavina_n1 := n_intr_count_le & [ STEM < "acriflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acriflavina_n_rel" ] ]. acrilamida_n1 := n_intr_count_le & [ STEM < "acrilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilamida_n_rel" ] ]. acrilato_n1 := n_intr_mass_le & [ STEM < "acrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilato_n_rel" ] ]. acrilonitrilo_n1 := n_intr_count_le & [ STEM < "acrilonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilonitrilo_n_rel" ] ]. acrilonitrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrilonitrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrilonitrílico_a_rel" ]. acrimonia_n1 := n_intr_mass_le & [ STEM < "acrimonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrimonia_n_rel" ] ]. acrimonioso_a1 := a_rel_nonprd_intr_le & [ STEM < "acrimonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_acrimonioso_a_rel" ]. acrisoladamente_x1 := av_i_spr_le & [ STEM < "acrisoladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acrisoladamente_x_rel" ]. acristalamiento_n1 := n_trans_le & [ STEM < "acristalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acristalamiento_n_rel" ]. acristalar_v := v_trans_np_le & [ STEM < "acristalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc_loc, PRED "_acristalar_v_rel" ] ]. acritud_n1 := n_intr_mass_le & [ STEM < "acritud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acritud_n_rel" ] ]. acrobacia_n1 := n_intr_mass-or-count_le & [ STEM < "acrobacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrobacia_n_rel" ] ]. acrobatismo_n1 := n_intr_uncount_le & [ STEM < "acrobatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrobatismo_n_rel" ] ]. acroblasto_n1 := n_intr_count_le & [ STEM < "acroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acroblasto_n_rel" ] ]. acrobáticamente_x1 := av_i_spr_le & [ STEM < "acrobáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acrobáticamente_x_rel" ]. acrobático_a1 := a_qual_intr_ser_le & [ STEM < "acrobático" >, SYNSEM.LKEYS.KEYREL.PRED "_acrobático_a_rel" ]. acrocéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "acrocéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_acrocéfalo_a_rel" ]. acrocéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrocéntrico_a_rel" ]. acrodextrina_n1 := n_intr_count_le & [ STEM < "acrodextrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrodextrina_n_rel" ] ]. acrodinia_n1 := n_intr_count_le & [ STEM < "acrodinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrodinia_n_rel" ] ]. acrogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrogénico_a_rel" ]. acroita_n1 := n_intr_mass-or-count_le & [ STEM < "acroita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acroita_n_rel" ] ]. acroleína_n1 := n_intr_mass-or-count_le & [ STEM < "acroleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acroleína_n_rel" ] ]. acromatismo_n1 := n_intr_uncount_le & [ STEM < "acromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromatismo_n_rel" ] ]. acromatopsia_n1 := n_intr_uncount_le & [ STEM < "acromatopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromatopsia_n_rel" ] ]. acromegalia_n1 := n_intr_uncount_le & [ STEM < "acromegalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromegalia_n_rel" ] ]. acromia_n1 := n_intr_count_le & [ STEM < "acromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acromia_n_rel" ] ]. acromial_a1 := a_rel_nonprd_intr_le & [ STEM < "acromial" >, SYNSEM.LKEYS.KEYREL.PRED "_acromial_a_rel" ]. acromioclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "acromioclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_acromioclavicular_a_rel" ]. acromiocoraideo_a1 := a_rel_nonprd_intr_le & [ STEM < "acromiocoraideo" >, SYNSEM.LKEYS.KEYREL.PRED "_acromiocoraideo_a_rel" ]. acromion_n1 := n_ppcomp_count_le & [ STEM < "acromion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_acromion_n_rel" ] ]. acromiotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "acromiotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_acromiotorácico_a_rel" ]. acromáticamente_x1 := av_i_spr_le & [ STEM < "acromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acromáticamente_x_rel" ]. acromático_a1 := a_qual_intr_ser_le & [ STEM < "acromático" >, SYNSEM.LKEYS.KEYREL.PRED "_acromático_a_rel" ]. acronimia_n1 := n_intr_uncount_le & [ STEM < "acronimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acronimia_n_rel" ] ]. acrosina_n1 := n_intr_count_le & [ STEM < "acrosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrosina_n_rel" ] ]. acrosoma_n1 := n_intr_count_le & [ STEM < "acrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrosoma_n_rel" ] ]. acrotera_n1 := n_intr_count_le & [ STEM < "acrotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrotera_n_rel" ] ]. acroteria_n1 := n_intr_count_le & [ STEM < "acroteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acroteria_n_rel" ] ]. acrático_a1 := a_qual_intr_ser_le & [ STEM < "acrático" >, SYNSEM.LKEYS.KEYREL.PRED "_acrático_a_rel" ]. acrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrílico_a_rel" ]. acróbata_n1 := n_intr_count_le & [ STEM < "acróbata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acróbata_n_rel" ] ]. acrónimo_n1 := n_intr_count_le & [ STEM < "acrónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrónimo_n_rel" ] ]. acróstico_n1 := n_intr_count_le & [ STEM < "acróstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acróstico_n_rel" ] ]. acta_n1 := n_intr_count_le & [ STEM < "acta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_acta_n_rel" ] ]. actina_n1 := n_intr_count_le & [ STEM < "actina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actina_n_rel" ] ]. actinia_n1 := n_intr_count_le & [ STEM < "actinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_actinia_n_rel" ] ]. actinio_n1 := n_intr_mass_le & [ STEM < "actinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinio_n_rel" ] ]. actinismo_n1 := n_intr_uncount_le & [ STEM < "actinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinismo_n_rel" ] ]. actinobiología_n1 := n_intr_uncount_le & [ STEM < "actinobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinobiología_n_rel" ] ]. actinoblasto_n1 := n_intr_uncount_le & [ STEM < "actinoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinoblasto_n_rel" ] ]. actinolita_n1 := n_intr_count_le & [ STEM < "actinolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinolita_n_rel" ] ]. actinología_n1 := n_intr_uncount_le & [ STEM < "actinología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinología_n_rel" ] ]. actinomiceto_n1 := n_intr_count_le & [ STEM < "actinomiceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinomiceto_n_rel" ] ]. actinomicina_n1 := n_intr_count_le & [ STEM < "actinomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinomicina_n_rel" ] ]. actinoterapia_n1 := n_intr_uncount_le & [ STEM < "actinoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinoterapia_n_rel" ] ]. actinómetro_n1 := n_intr_count_le & [ STEM < "actinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinómetro_n_rel" ] ]. actinón_n1 := n_intr_count_le & [ STEM < "actinón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinón_n_rel" ] ]. actitud_n1 := n_intr_count_le & [ STEM < "actitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actitud_n_rel" ] ]. activable_a1 := a_rel_prd_le & [ STEM < "activable" >, SYNSEM.LKEYS.KEYREL.PRED "_activable_a_rel" ]. activación_n1 := n_trans_le & [ STEM < "activación" >, SYNSEM.LKEYS.KEYREL.PRED "_activación_n_rel" ]. activador_a1 := a_rel_nonprd_intr_le & [ STEM < "activador" >, SYNSEM.LKEYS.KEYREL.PRED "_activador_a_rel" ]. activador_n1 := n_intr_count_le & [ STEM < "activador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_activador_n_rel" ] ]. activamente_x1 := av_i_spr_le & [ STEM < "activamente" >, SYNSEM.LKEYS.KEYREL.PRED "_activamente_x_rel" ]. activante_n1 := n_intr_count_le & [ STEM < "activante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activante_n_rel" ] ]. activar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL.PRED "_activar_v_rel" ]. activar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_activar_v_rel" ] ]. activar_v3 := v_trans_np_caus_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum, ARG2.SORT abs_cnc_pot_pro, PRED "_activar_v_rel" ] ]. actividad_n1 := n_intr_count_le & [ STEM < "actividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actividad_n_rel" ] ]. activismo_n1 := n_intr_uncount_le & [ STEM < "activismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activismo_n_rel" ] ]. activista_n1 := n_intr_count_le & [ STEM < "activista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_activista_n_rel" ] ]. activo_a1 := a_qual_intr_scopal_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL.PRED "_activo_a_rel" ]. activo_a2 := a_qual_intr_ser_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL.PRED "_activo_a_rel" ]. activo_n1 := n_intr_count_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activo_n_rel" ] ]. acto_n1 := n_intr_count_le & [ STEM < "acto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acto_n_rel" ] ]. actomiosina_n1 := n_intr_count_le & [ STEM < "actomiosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actomiosina_n_rel" ] ]. actor_n1 := n_intr_count_le & [ STEM < "actor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actor_n_rel" ] ]. actora_n1 := n_intr_count_le & [ STEM < "actora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actora_n_rel" ] ]. actriz_n1 := n_intr_count_le & [ STEM < "actriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actriz_n_rel" ] ]. actuación_n1 := n_result_intr_le & [ STEM < "actuación" >, SYNSEM.LKEYS.KEYREL.PRED "_actuación_n_rel" ]. actuador_n1 := n_intr_count_le & [ STEM < "actuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actuador_n_rel" ] ]. actual_a2 := a_qual_intr_scopal_le & [ STEM < "actual" >, SYNSEM.LKEYS.KEYREL.PRED "_actual_a_rel" ]. actualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "actualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actualidad_n_rel" ] ]. actualismo_n1 := n_intr_uncount_le & [ STEM < "actualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actualismo_n_rel" ] ]. actualizable_a1 := a_rel_prd_le & [ STEM < "actualizable" >, SYNSEM.LKEYS.KEYREL.PRED "_actualizable_a_rel" ]. actualización_n1 := n_trans_le & [ STEM < "actualización" >, SYNSEM.LKEYS.KEYREL.PRED "_actualización_n_rel" ]. actualizador_a1 := a_qual_intr_ser_le & [ STEM < "actualizador" >, SYNSEM.LKEYS.KEYREL.PRED "_actualizador_a_rel" ]. actualizar_v1 := v_trans_np_le & [ STEM < "actualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro, ARG2.SORT abs_cnc_pro, PRED "_actualizar_v_rel" ] ]. actualmente_x1 := av_i_le & [ STEM < "actualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_actualmente_x_rel" ]. actuante_n1 := n_intr_count_le & [ STEM < "actuante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuante_n_rel" ] ]. actuar_v1 := v_prd_p-ap*_le & [ STEM < "actuar" >, SYNSEM.LKEYS [ --COMPKEY como_or_de_p_sel_rel, KEYREL.PRED "_actuar_v_rel" ] ]. actuar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "actuar" >, SYNSEM.LKEYS [ --COMPKEY como_or_de_p_sel_rel, KEYREL.PRED "_actuar_v_rel" ] ]. actuariado_n1 := n_intr_count_le & [ STEM < "actuariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuariado_n_rel" ] ]. actuarial_a1 := a_rel_nonprd_intr_le & [ STEM < "actuarial" >, SYNSEM.LKEYS.KEYREL.PRED "_actuarial_a_rel" ]. actuario_n1 := n_intr_count_le & [ STEM < "actuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuario_n_rel" ] ]. actínico_a1 := a_rel_nonprd_intr_le & [ STEM < "actínico" >, SYNSEM.LKEYS.KEYREL.PRED "_actínico_a_rel" ]. actínido_n1 := n_intr_count_le & [ STEM < "actínido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actínido_n_rel" ] ]. acuafortista_n1 := n_intr_count_le & [ STEM < "acuafortista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acuafortista_n_rel" ] ]. acuahotel_n1 := n_intr_count_le & [ STEM < "acuahotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acuahotel_n_rel" ] ]. acuaplano_n1 := n_intr_count_le & [ STEM < "acuaplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuaplano_n_rel" ] ]. acuarela_n1 := n_intr_count_le & [ STEM < "acuarela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuarela_n_rel" ] ]. acuarelista_n1 := n_intr_count_le & [ STEM < "acuarelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acuarelista_n_rel" ] ]. acuario_n1 := n_intr_count_le & [ STEM < "acuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuario_n_rel" ] ]. acuartelamiento_n1 := n_trans_le & [ STEM < "acuartelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuartelamiento_n_rel" ]. acuartelar_v1 := v_trans_np_caus_le & [ STEM < "acuartelar" >, SYNSEM.LKEYS.KEYREL.PRED "_acuartelar_v_rel" ]. acuatinta_n1 := n_intr_count_le & [ STEM < "acuatinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuatinta_n_rel" ] ]. acucharado_a1 := a_qual_intr_ser_le & [ STEM < "acucharado" >, SYNSEM.LKEYS.KEYREL.PRED "_acucharado_a_rel" ]. acuchillar_v1 := v_trans_np_le & [ STEM < "acuchillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acuchillar_v_rel" ] ]. acucia_n1 := n_intr_uncount_le & [ STEM < "acucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acucia_n_rel" ] ]. acuciador_a1 := a_qual_intr_ser_le & [ STEM < "acuciador" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciador_a_rel" ]. acuciamiento_n1 := n_trans_le & [ STEM < "acuciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciamiento_n_rel" ]. acuciante_a1 := a_qual_intr_scopal_le & [ STEM < "acuciante" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciante_a_rel" ]. acuciantemente_x1 := av_i_spr_le & [ STEM < "acuciantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciantemente_x_rel" ]. acucioso_a1 := a_qual_intr_ser_le & [ STEM < "acucioso" >, SYNSEM.LKEYS.KEYREL.PRED "_acucioso_a_rel" ]. acuclillar_v1 := v_pron_intr_le & [ STEM < "acuclillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acuclillar_v_rel" ] ]. acudir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acudir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acudir_v_rel" ] ] ]. acudir_v2 := v_intr_mrkd_np_le & [ STEM < "acudir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acudir_v_rel" ] ] ]. acueducto_n1 := n_intr_count_le & [ STEM < "acueducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acueducto_n_rel" ] ]. acuerdo_de_paz_n1 := n_intr_count_le & [ STEM < "acuerdo_de_paz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuerdo_de_paz_n_rel" ] ]. acuerdo_n1 := n_ppde_ppcomp_count_le & [ STEM < "acuerdo" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_acuerdo_n_rel" ] ]. acuicultura_n1 := n_intr_uncount_le & [ STEM < "acuicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuicultura_n_rel" ] ]. acuidad_n1 := n_intr_mass_le & [ STEM < "acuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuidad_n_rel" ] ]. acullá_n1 := av_deic_place_le & [ STEM < "acullá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_acullá_x_rel" ]. acumetría_n1 := n_intr_count_le & [ STEM < "acumetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acumetría_n_rel" ] ]. acuminado_a1 := a_qual_intr_ser_le & [ STEM < "acuminado" >, SYNSEM.LKEYS.KEYREL.PRED "_acuminado_a_rel" ]. acumulable_a1 := a_qual_intr_scopal_le & [ STEM < "acumulable" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulable_a_rel" ]. acumulación_n1 := n_trans_le & [ STEM < "acumulación" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulación_n_rel" ]. acumulador_a1 := a_qual_intr_ser_le & [ STEM < "acumulador" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulador_a_rel" ]. acumulador_n1 := n_intr_count_le & [ STEM < "acumulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_acumulador_n_rel" ] ]. acumulamiento_n1 := n_trans_le & [ STEM < "acumulamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulamiento_n_rel" ]. acumular_v1 := v_trans_np_caus_le & [ STEM < "acumular" >, SYNSEM.LKEYS.KEYREL.PRED "_acumular_v_rel" ]. acumulativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acumulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulativo_a_rel" ]. acunar_v1 := v_trans_np_le & [ STEM < "acunar" >, SYNSEM.LKEYS.KEYREL.PRED "_acunar_v_rel" ]. acuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "acuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuosidad_n_rel" ] ]. acuoso_a1 := a_rel_nonprd_intr_le & [ STEM < "acuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_acuoso_a_rel" ]. acupuntor_n1 := n_intr_count_le & [ STEM < "acupuntor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acupuntor_n_rel" ] ]. acupuntura_n1 := n_intr_uncount_le & [ STEM < "acupuntura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acupuntura_n_rel" ] ]. acupunturista_n1 := n_intr_count_le & [ STEM < "acupunturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acupunturista_n_rel" ] ]. acurrucar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acurrucar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_acurrucar_v_rel" ] ] ]. acurrucar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "acurrucar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_acurrucar_v_rel" ] ] ]. acusación_n1 := n_trans_le & [ STEM < "acusación" >, SYNSEM.LKEYS.KEYREL.PRED "_acusación_n_rel" ]. acusadamente_x1 := av_i_spr_le & [ STEM < "acusadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acusadamente_x_rel" ]. acusado_n1 := n_intr_count_le & [ STEM < "acusado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acusado_n_rel" ] ]. acusador_a1 := a_qual_intr_ser_le & [ STEM < "acusador" >, SYNSEM.LKEYS.KEYREL.PRED "_acusador_a_rel" ]. acusador_n1 := n_subj-nom_le & [ STEM < "acusador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acusador_n_rel" ] ]. acusar_v1 := v_trans_np_le & [ STEM < "acusar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_acusar_v_rel" ] ]. acusar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "acusar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acusar_v_rel" ] ] ]. acusativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acusativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acusativo_a_rel" ]. acusativo_n1 := n_intr_uncount_le & [ STEM < "acusativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acusativo_n_rel" ] ]. acusatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "acusatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_acusatorio_a_rel" ]. acuse_n1 := n_trans_le & [ STEM < "acuse" >, SYNSEM.LKEYS.KEYREL.PRED "_acuse_n_rel" ]. acutángulo_a1 := a_rel_nonprd_intr_le & [ STEM < "acutángulo" >, SYNSEM.LKEYS.KEYREL.PRED "_acutángulo_a_rel" ]. acuáticamente_x1 := av_i_spr_le & [ STEM < "acuáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acuáticamente_x_rel" ]. acuático_a1 := a_rel_nonprd_intr_le & [ STEM < "acuático" >, SYNSEM.LKEYS.KEYREL.PRED "_acuático_a_rel" ]. acuátil_a1 := a_rel_nonprd_intr_le & [ STEM < "acuátil" >, SYNSEM.LKEYS.KEYREL.PRED "_acuátil_a_rel" ]. acuãâ±ar_v1 := v_trans_np_le & [ STEM < "acuñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_acuñar_v_rel" ] ]. acuífero_a1 := a_rel_nonprd_intr_le & [ STEM < "acuífero" >, SYNSEM.LKEYS.KEYREL.PRED "_acuífero_a_rel" ]. acuífero_n1 := n_intr_count_le & [ STEM < "acuífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuífero_n_rel" ] ]. acuñación_n1 := n_trans_le & [ STEM < "acuñación" >, SYNSEM.LKEYS.KEYREL.PRED "_acuñación_n_rel" ]. acuñamiento_n1 := n_trans_le & [ STEM < "acuñamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuñamiento_n_rel" ]. acá_n1 := av_deic_place_le & [ STEM < "acá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_acá_x_rel" ]. acéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "acéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_acéfalo_a_rel" ]. acérrimamente_x1 := av_i_spr_le & [ STEM < "acérrimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acérrimamente_x_rel" ]. acérrimo_a1 := a_qual_intr_scopal_le & [ STEM < "acérrimo" >, SYNSEM.LKEYS.KEYREL.PRED "_acérrimo_a_rel" ]. acético_a1 := a_rel_nonprd_intr_le & [ STEM < "acético" >, SYNSEM.LKEYS.KEYREL.PRED "_acético_a_rel" ]. acíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "acíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_acíclico_a_rel" ]. acídico_a1 := a_rel_nonprd_intr_le & [ STEM < "acídico" >, SYNSEM.LKEYS.KEYREL.PRED "_acídico_a_rel" ]. acídulamente_x1 := av_i_spr_le & [ STEM < "acídulamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acídulamente_x_rel" ]. acídulo_a1 := a_qual_intr_scopal_le & [ STEM < "acídulo" >, SYNSEM.LKEYS.KEYREL.PRED "_acídulo_a_rel" ]. acólito_n1 := n_intr_count_le & [ STEM < "acólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acólito_n_rel" ] ]. acónito_n1 := n_intr_count_le & [ STEM < "acónito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acónito_n_rel" ] ]. acúfeno_n1 := n_intr_uncount_pl_le & [ STEM < "acúfeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acúfeno_n_rel" ] ]. acústica_n1 := n_intr_mass_le & [ STEM < "acústica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acústica_n_rel" ] ]. acústicamente_x1 := av_i_spr_le & [ STEM < "acústicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústicamente_x_rel" ]. acústico-fonéticamente_x1 := av_i_spr_le & [ STEM < "acústico-fonéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-fonéticamente_x_rel" ]. acústico-fonético_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico-fonético" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-fonético_a_rel" ]. acústico-ópticamente_x1 := av_i_spr_le & [ STEM < "acústico-ópticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-ópticamente_x_rel" ]. acústico-óptico_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico-óptico" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-óptico_a_rel" ]. acústico_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico_a_rel" ]. ad_hoc_x1 := av_i_le & [ STEM < "ad_hoc" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_hoc_x_rel" ]. ad_interim_x1 := av_i_le & [ STEM < "ad_interim" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_interim_x_rel" ]. ad_lib_x1 := av_i_le & [ STEM < "ad_lib" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_lib_x_rel" ]. ad_libitum_x1 := av_i_le & [ STEM < "ad_libitum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_libitum_x_rel" ]. ad_litem_x1 := av_i_le & [ STEM < "ad_litem" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_litem_x_rel" ]. ad_litteram_x1 := av_i_le & [ STEM < "ad_litteram" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_litteram_x_rel" ]. ad_quadrantum_x1 := av_i_le & [ STEM < "ad_quadrantum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_quadrantum_x_rel" ]. ad_triangulum_x1 := av_i_le & [ STEM < "ad_triangulum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_triangulum_x_rel" ]. ad_valorem_x1 := av_i_le & [ STEM < "ad_valorem" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_valorem_x_rel" ]. adagio_n1 := n_intr_count_le & [ STEM < "adagio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adagio_n_rel" ] ]. adalid_n1 := n_intr_count_le & [ STEM < "adalid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adalid_n_rel" ] ]. adamantino_a1 := a_rel_nonprd_intr_le & [ STEM < "adamantino" >, SYNSEM.LKEYS.KEYREL.PRED "_adamantino_a_rel" ]. adamantinoma_n1 := n_intr_count_le & [ STEM < "adamantinoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adamantinoma_n_rel" ] ]. adamantoblastoma_n1 := n_intr_count_le & [ STEM < "adamantoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adamantoblastoma_n_rel" ] ]. adaptabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "adaptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adaptabilidad_n_rel" ] ]. adaptable_a1 := a_qual_trans*_ser_le & [ STEM < "adaptable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptable_a_rel" ] ]. adaptación_n1 := n_trans_le & [ STEM < "adaptación" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptación_n_rel" ]. adaptador_n1 := n_intr_count_le & [ STEM < "adaptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_adaptador_n_rel" ] ]. adaptar_v1 := v_ditrans_le & [ STEM < "adaptar" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptar_v_rel" ]. adaptar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptar_v_rel" ] ]. adaptar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_cnc_pro_soc, ARG2.SORT abs_loc, PRED "_adaptar_v_rel" ] ] ]. adaptar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adaptar_v_rel" ] ] ]. adaptativo_a1 := a_qual_trans*_ser_le & [ STEM < "adaptativo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptativo_a_rel" ] ]. adaptativo_a2 := a_rel_nonprd_intr_le & [ STEM < "adaptativo" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptativo_a_rel" ]. adaptómetro_n1 := n_intr_count_le & [ STEM < "adaptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adaptómetro_n_rel" ] ]. adarga_n1 := n_intr_count_le & [ STEM < "adarga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adarga_n_rel" ] ]. adarve_n1 := n_intr_count_le & [ STEM < "adarve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adarve_n_rel" ] ]. chulear_v1 := v_prd_p-ap*_le & [ STEM < "chulear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_chulear_v_rel" ] ]. chulear_v2 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "chulear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_chulear_v_rel" ] ]. chulear_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "chulear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ PRED "_chulear_v_rel" ] ] ]. adecentamiento_n1 := n_trans_le & [ STEM < "adecentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adecentamiento_n_rel" ]. adecentar_v1 := v_trans_np_caus_le & [ STEM < "adecentar" >, SYNSEM.LKEYS.KEYREL.PRED "_adecentar_v_rel" ]. adecuación_n1 := n_trans_le & [ STEM < "adecuación" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuación_n_rel" ]. adecuadamente_x1 := av_i_spr_le & [ STEM < "adecuadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuadamente_x_rel" ]. adecuar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "adecuar" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuar_v_rel" ]. adecuar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "adecuar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adecuar_v_rel" ] ] ]. adecuar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "adecuar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_cnc_loc_pro, PRED "_adecuar_v_rel" ] ] ]. adelantamiento_n1 := n_trans_le & [ STEM < "adelantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adelantamiento_n_rel" ]. adelantar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ]. adelantar_v2 := v_ditrans*_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ]. adelantar_v3 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ] ]. adelantar_v4 := v_intr_mrkd_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adelantar_v_rel" ] ] ]. adelantar_v5 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ] ]. adelantar_v6 := v_pron_intr_mrkd_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adelantar_v_rel" ] ] ]. adelantar_v7 := v_subj_cp_prop_trans_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL.PRED "_adelantar_v_rel" ]. adelante_x1 := av_i_psthd_le & [ STEM < "adelante" >, SYNSEM.LKEYS.KEYREL.PRED "_adelante_x_rel" ]. adelanto_n1 := n_trans_le & [ STEM < "adelanto" >, SYNSEM.LKEYS.KEYREL.PRED "_adelanto_n_rel" ]. adelfa_n1 := n_intr_count_le & [ STEM < "adelfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_adelfa_n_rel" ] ]. adelfal_n1 := n_intr_count_le & [ STEM < "adelfal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_adelfal_n_rel" ] ]. adelgazador_a1 := a_rel_nonprd_intr_le & [ STEM < "adelgazador" >, SYNSEM.LKEYS.KEYREL.PRED "_adelgazador_a_rel" ]. adelgazamiento_n1 := n_event-result_intr_le & [ STEM < "adelgazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adelgazamiento_n_rel" ]. ademán_n1 := n_intr_count_le & [ STEM < "ademán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ademán_n_rel" ] ]. además_de_eso_x1 := av_i_le & [ STEM < "además_de_eso" >, SYNSEM.LKEYS.KEYREL.PRED "_además_de_eso_x_rel" ]. además_de_p_vmod := p_vmod_le & [ STEM < "además_de" >, SYNSEM.LKEYS.KEYREL.PRED _además_de_p_rel ]. además_x1 := av_i_le & [ STEM < "además" >, SYNSEM.LKEYS.KEYREL.PRED "_además_x_rel" ]. adenda_n1 := n_intr_count_le & [ STEM < "adenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_adenda_n_rel" ] ]. adenina_n1 := n_intr_count_le & [ STEM < "adenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenina_n_rel" ] ]. adenitis_n1 := n_intr_uncount_le & [ STEM < "adenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenitis_n_rel" ] ]. adenoameloblastoma_n1 := n_intr_count_le & [ STEM < "adenoameloblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adenoameloblastoma_n_rel" ] ]. adenocromo_n1 := n_intr_count_le & [ STEM < "adenocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenocromo_n_rel" ] ]. adenogalia_n1 := n_intr_uncount_le & [ STEM < "adenogalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenogalia_n_rel" ] ]. adenograma_n1 := n_intr_count_le & [ STEM < "adenograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenograma_n_rel" ] ]. adenohipófisis_n1 := n_intr_uncount_le & [ STEM < "adenohipófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenohipófisis_n_rel" ] ]. adenoidectomía_n1 := n_intr_count_le & [ STEM < "adenoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenoidectomía_n_rel" ] ]. adenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "adenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_adenoideo_a_rel" ]. adenoides_n1 := n_intr_count_le & [ STEM < "adenoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adenoides_n_rel" ] ]. adenoiditis_n1 := n_intr_uncount_le & [ STEM < "adenoiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenoiditis_n_rel" ] ]. adenopatía_n1 := n_intr_uncount_pl_le & [ STEM < "adenopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenopatía_n_rel" ] ]. adenosina_n1 := n_intr_count_le & [ STEM < "adenosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenosina_n_rel" ] ]. adenosindifosfato_n1 := n_intr_mass_le & [ STEM < "adenosindifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosindifosfato_n_rel" ] ]. adenosinmonofosfato_n1 := n_intr_uncount_le & [ STEM < "adenosinmonofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenosinmonofosfato_n_rel" ] ]. adenosintrifosfatasa_n1 := n_intr_count_le & [ STEM < "adenosintrifosfatasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosintrifosfatasa_n_rel" ] ]. adenosintrifosfato_n1 := n_intr_mass_le & [ STEM < "adenosintrifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosintrifosfato_n_rel" ] ]. adentrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adentrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adentrar_v_rel" ] ] ]. adentrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "adentrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adentrar_v_rel" ] ] ]. adentro_x1 := av_i_spr_le & [ STEM < "adentro" >, SYNSEM.LKEYS.KEYREL.PRED "_adentro_x_rel" ]. adepto_n1 := n_intr_count_le & [ STEM < "adepto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adepto_n_rel" ] ]. aderezamiento_n1 := n_trans_le & [ STEM < "aderezamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aderezamiento_n_rel" ]. aderezar_v1 := v_trans_np_le & [ STEM < "aderezar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc, PRED "_aderezar_v_rel" ] ]. aderezo_n1 := n_trans_le & [ STEM < "aderezo" >, SYNSEM.LKEYS.KEYREL.PRED "_aderezo_n_rel" ]. adeudo_n1 := n_intr_count_le & [ STEM < "adeudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adeudo_n_rel" ] ]. adherencia_n1 := n_intr_mass-or-count_le & [ STEM < "adherencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adherencia_n_rel" ] ]. adherente_a1 := a_qual_intr_scopal_le & [ STEM < "adherente" >, SYNSEM.LKEYS.KEYREL.PRED "_adherente_a_rel" ]. adherir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adherir_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adherir_v4 := v_trans_np*_mrkd_np*_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adhesividad_n1 := n_ppcomp_mass_le & [ STEM < "adhesividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adhesividad_n_rel" ] ]. adhesivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adhesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adhesivo_a_rel" ]. adhesivo_n1 := n_intr_count_le & [ STEM < "adhesivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adhesivo_n_rel" ] ]. adhesión_n1 := n_trans_le & [ STEM < "adhesión" >, SYNSEM.LKEYS.KEYREL.PRED "_adhesión_n_rel" ]. adiabático_a1 := a_rel_nonprd_intr_le & [ STEM < "adiabático" >, SYNSEM.LKEYS.KEYREL.PRED "_adiabático_a_rel" ]. adiamantado_a1 := a_qual_intr_ser_le & [ STEM < "adiamantado" >, SYNSEM.LKEYS.KEYREL.PRED "_adiamantado_a_rel" ]. adiamiento_n1 := n_trans_le & [ STEM < "adiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adiamiento_n_rel" ]. adicción_n1 := n_ppde_ppcomp_count_le & [ STEM < "adicción" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adicción_n_rel" ] ]. adicionable_a1 := a_rel_nonprd_trans_le & [ STEM < "adicionable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicionable_a_rel" ] ]. adicionador_a1 := a_rel_nonprd_intr_le & [ STEM < "adicionador" >, SYNSEM.LKEYS.KEYREL.PRED "_adicionador_a_rel" ]. adicionador_n1 := n_intr_count_le & [ STEM < "adicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adicionador_n_rel" ] ]. adicional_a1 := a_qual_trans*_ser_le & [ STEM < "adicional" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicional_a_rel" ] ]. adicionalmente_x1 := av_i_spr_le & [ STEM < "adicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adicionalmente_x_rel" ]. adición_n1 := n_result_intr_ppcomp_le & [ STEM < "adición" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adición_n_rel" ] ]. adictivo_a1 := a_qual_intr_scopal_le & [ STEM < "adictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adictivo_a_rel" ]. adicto_a1 := a_qual_trans*_ser_le & [ STEM < "adicto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicto_a_rel" ] ]. adicto_n1 := n_intr_count_le & [ STEM < "adicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adicto_n_rel" ] ]. adiestrador_n1 := n_subj-nom_le & [ STEM < "adiestrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adiestrador_n_rel" ] ]. adiestramiento_n1 := n_trans_le & [ STEM < "adiestramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adiestramiento_n_rel" ]. adiestrar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_adiestrar_v_rel" ] ] ]. adiestrar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_adiestrar_v_rel" ] ] ]. adiestrar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT ani_hum, PRED "_adiestrar_v_rel" ] ] ]. adimensional_a1 := a_rel_prd_le & [ STEM < "adimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_adimensional_a_rel" ]. adimensionalmente_x1 := av_i_spr_le & [ STEM < "adimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adimensionalmente_x_rel" ]. adintelado_a1 := a_rel_nonprd_intr_le & [ STEM < "adintelado" >, SYNSEM.LKEYS.KEYREL.PRED "_adintelado_a_rel" ]. adipato_n1 := n_intr_count_le & [ STEM < "adipato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adipato_n_rel" ] ]. adipoblasto_n1 := n_intr_count_le & [ STEM < "adipoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adipoblasto_n_rel" ] ]. adipocira_n1 := n_intr_count_le & [ STEM < "adipocira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adipocira_n_rel" ] ]. adipocito_n1 := n_intr_count_le & [ STEM < "adipocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adipocito_n_rel" ] ]. adiponitrilo_n1 := n_intr_count_le & [ STEM < "adiponitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adiponitrilo_n_rel" ] ]. adiposo_a1 := a_rel_nonprd_intr_le & [ STEM < "adiposo" >, SYNSEM.LKEYS.KEYREL.PRED "_adiposo_a_rel" ]. adir_v1 := v_trans_np_le & [ STEM < "adir" >, SYNSEM.LKEYS.KEYREL.PRED "_adir_v_rel" ]. aditamento_n1 := n_intr_count_le & [ STEM < "aditamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aditamento_n_rel" ] ]. aditividad_n1 := n_intr_mass_le & [ STEM < "aditividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aditividad_n_rel" ] ]. aditivo_a1 := a_rel_prd_le & [ STEM < "aditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aditivo_a_rel" ]. aditivo_n1 := n_intr_count_le & [ STEM < "aditivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aditivo_n_rel" ] ]. adivinable_a1 := a_qual_intr_scopal_le & [ STEM < "adivinable" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinable_a_rel" ]. adivinación_n1 := n_trans_le & [ STEM < "adivinación" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinación_n_rel" ]. adivinador_n1 := n_subj-nom_le & [ STEM < "adivinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adivinador_n_rel" ] ]. adivinamiento_n1 := n_trans_le & [ STEM < "adivinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinamiento_n_rel" ]. adivinar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "adivinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adivinar_v_rel" ] ]. adivinar_v2 := v_intr_mrkd_np_le & [ STEM < "adivinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adivinar_v_rel" ] ]. adivinar_v3 := v_trans_cp_prop_fin_le & [ STEM < "adivinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adivinar_v_rel" ] ]. adivinar_v4 := v_trans_np_le & [ STEM < "adivinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adivinar_v_rel" ] ]. adivinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "adivinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinatorio_a_rel" ]. adivino_n1 := n_intr_count_le & [ STEM < "adivino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adivino_n_rel" ] ]. adiós_n1 := n_intr_count_le & [ STEM < "adiós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adiós_n_rel" ] ]. adjetivación_n1 := n_trans_le & [ STEM < "adjetivación" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivación_n_rel" ]. adjetival_a1 := a_rel_nonprd_intr_le & [ STEM < "adjetival" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetival_a_rel" ]. adjetivización_n1 := n_trans_le & [ STEM < "adjetivización" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivización_n_rel" ]. adjetivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adjetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivo_a_rel" ]. adjetivo_n1 := n_intr_count_le & [ STEM < "adjetivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjetivo_n_rel" ] ]. adjudicable_a1 := a_qual_trans*_ser_le & [ STEM < "adjudicable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adjudicable_a_rel" ] ]. adjudicación_n1 := n_trans_le & [ STEM < "adjudicación" >, SYNSEM.LKEYS.KEYREL.PRED "_adjudicación_n_rel" ]. adjudicador_n1 := n_subj-nom_le & [ STEM < "adjudicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adjudicador_n_rel" ] ]. adjudicar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adjudicar_v_rel" ] ]. adjudicar_v2 := v_ditrans*_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc_hum_pro, PRED "_adjudicar_v_rel" ] ]. adjudicar_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_adjudicar_v_rel" ]. adjudicar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adjudicar_v_rel" ] ] ]. adjudicar_v5 := v_trans_np_mrkd_np_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adjudicar_v_rel" ] ] ]. adjudicatario_n1 := n_intr_count_le & [ STEM < "adjudicatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adjudicatario_n_rel" ] ]. adjunción_n1 := n_intr_uncount_le & [ STEM < "adjunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjunción_n_rel" ] ]. adjunto_a1 := a_qual_trans*_ser_le & [ STEM < "adjunto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adjunto_a_rel" ] ]. adjuración_n1 := n_intr_uncount_le & [ STEM < "adjuración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjuración_n_rel" ] ]. adjurar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "adjurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adjurar_v_rel" ] ]. adjurar_v2 := v_ditrans*_le & [ STEM < "adjurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adjurar_v_rel" ] ]. adjurar_v3 := v_intr_mrkd_np_le & [ STEM < "adjurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_adjurar_v_rel" ] ]. admantoblastoma_n1 := n_intr_count_le & [ STEM < "admantoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_admantoblastoma_n_rel" ] ]. administrable_a1 := a_rel_prd_le & [ STEM < "administrable" >, SYNSEM.LKEYS.KEYREL.PRED "_administrable_a_rel" ]. administración_n1 := n_intr_count_le & [ STEM < "administración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_administración_n_rel" ] ]. administrador_a1 := a_rel_nonprd_intr_le & [ STEM < "administrador" >, SYNSEM.LKEYS.KEYREL.PRED "_administrador_a_rel" ]. administrador_n1 := n_subj-nom_le & [ STEM < "administrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_administrador_n_rel" ] ]. administrar_v1 := v_ditrans*_le & [ STEM < "administrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc, PRED "_administrar_v_rel" ] ]. administrativamente_x1 := av_i_spr_le & [ STEM < "administrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_administrativamente_x_rel" ]. administrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "administrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_administrativo_a_rel" ]. administrativo_n1 := n_intr_count_le & [ STEM < "administrativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_administrativo_n_rel" ] ]. adminículo_n1 := n_intr_count_le & [ STEM < "adminículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adminículo_n_rel" ] ]. admirable_a1 := a_qual_intr_scopal_le & [ STEM < "admirable" >, SYNSEM.LKEYS.KEYREL.PRED "_admirable_a_rel" ]. admirablemente_x1 := av_i_spr_le & [ STEM < "admirablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_admirablemente_x_rel" ]. admiración_n1 := n_trans_le & [ STEM < "admiración" >, SYNSEM.LKEYS.KEYREL.PRED "_admiración_n_rel" ]. admirador_n1 := n_subj-nom_le & [ STEM < "admirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_admirador_n_rel" ] ]. admirar_v1 := v_intr_io*_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL.PRED "_admirar_v_rel" ]. admirar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "admirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_admirar_v_rel" ] ] ]. admirar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "admirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admirar_v_rel" ] ] ]. admirar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL.PRED "_admirar_v_rel" ]. admirar_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_admirar_v_rel" ] ]. admirar_v6 := v_trans_np_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admirar_v_rel" ] ]. admirativamente_x1 := av_i_spr_le & [ STEM < "admirativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_admirativamente_x_rel" ]. admirativo_a1 := a_qual_intr_ser_le & [ STEM < "admirativo" >, SYNSEM.LKEYS.KEYREL.PRED "_admirativo_a_rel" ]. admisibilidad_n1 := n_ppcomp_mass_le & [ STEM < "admisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_admisibilidad_n_rel" ] ]. admisible_a1 := a_qual_intr_scopal_le & [ STEM < "admisible" >, SYNSEM.LKEYS.KEYREL.PRED "_admisible_a_rel" ]. admisión_n1 := n_trans_le & [ STEM < "admisión" >, SYNSEM.LKEYS.KEYREL.PRED "_admisión_n_rel" ]. admitancia_n1 := n_intr_uncount_le & [ STEM < "admitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_admitancia_n_rel" ] ]. admitir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "admitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_admitir_v_rel" ] ]. admitir_v2 := v_ditrans*_le & [ STEM < "admitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admitir_v_rel" ] ]. admitir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_admitir_v_rel" ] ] ]. admitir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_admitir_v_rel" ] ] ]. admitir_v5 := v_trans_np_mrkd_np_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, ARG3.SORT non-hum, PRED "_admitir_v_rel" ] ] ]. admonición_n1 := n_trans_le & [ STEM < "admonición" >, SYNSEM.LKEYS.KEYREL.PRED "_admonición_n_rel" ]. admonitor_n1 := n_subj-nom_le & [ STEM < "admonitor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_admonitor_n_rel" ] ]. admonitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "admonitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_admonitorio_a_rel" ]. adobador_n1 := n_subj-nom_le & [ STEM < "adobador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adobador_n_rel" ] ]. adobe_n1 := n_intr_mass_le & [ STEM < "adobe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adobe_n_rel" ] ]. adobera_n1 := n_intr_count_le & [ STEM < "adobera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adobera_n_rel" ] ]. adobería_n1 := n_intr_count_le & [ STEM < "adobería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_adobería_n_rel" ] ]. adobo_n1 := n_trans_le & [ STEM < "adobo" >, SYNSEM.LKEYS.KEYREL.PRED "_adobo_n_rel" ]. adoctrinamiento_n1 := n_trans_le & [ STEM < "adoctrinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adoctrinamiento_n_rel" ]. adoctrinar_v1 := v_trans_np_le & [ STEM < "adoctrinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_adoctrinar_v_rel" ] ]. adolecer_v := v_intr_mrkd_np_le & [ STEM < "adolecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT abs, PRED "_adolecer_v_rel" ] ] ]. adolescencia_n1 := n_intr_uncount_le & [ STEM < "adolescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adolescencia_n_rel" ] ]. adolescente_a1 := a_rel_nonprd_intr_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL.PRED "_adolescente_a_rel" ]. adolescente_a2 := a_qual_intr_ser_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL.PRED "_adolescente_a_rel" ]. adolescente_n1 := n_intr_count_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adolescente_n_rel" ] ]. adonde_r := av_rel_place_le & [ STEM < "adonde" > ]. adonde_r2 := av_free-rel_place_le & [ STEM < "adonde" > ]. adonde_sc := sc_prop_fin_le & [ STEM < "adonde" >, SYNSEM.LKEYS.KEYREL.PRED "_adonde_x_subord_rel" ]. adopción_n1 := n_trans_le & [ STEM < "adopción" >, SYNSEM.LKEYS.KEYREL.PRED "_adopción_n_rel" ]. adoptabilidad_n1 := n_intr_uncount_le & [ STEM < "adoptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adoptabilidad_n_rel" ] ]. adoptable_a1 := a_rel_prd_le & [ STEM < "adoptable" >, SYNSEM.LKEYS.KEYREL.PRED "_adoptable_a_rel" ]. adoptado_n1 := n_intr_count_le & [ STEM < "adoptado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adoptado_n_rel" ] ]. adoptante_n1 := n_intr_count_le & [ STEM < "adoptante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adoptante_n_rel" ] ]. adoptar_v1 := v_trans_np_le & [ STEM < "adoptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc, ARG2.SORT abs, PRED "_adoptar_v_rel" ] ]. adoptar_v2 := v_trans_np_le & [ STEM < "adoptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_hum, PRED "_adoptar_v_rel" ] ]. adoptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adoptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adoptivo_a_rel" ]. adoquinado_n1 := n_intr_count_le & [ STEM < "adoquinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adoquinado_n_rel" ] ]. adoquín_n1 := n_intr_count_le & [ STEM < "adoquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adoquín_n_rel" ] ]. adorable_a1 := a_qual_intr_scopal_le & [ STEM < "adorable" >, SYNSEM.LKEYS.KEYREL.PRED "_adorable_a_rel" ]. adoración_n1 := n_trans_le & [ STEM < "adoración" >, SYNSEM.LKEYS.KEYREL.PRED "_adoración_n_rel" ]. adorador_n1 := n_subj-nom_le & [ STEM < "adorador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adorador_n_rel" ] ]. adorar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "adorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adorar_v_rel" ] ]. adorar_v2 := v_trans_np_le & [ STEM < "adorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adorar_v_rel" ] ]. adormecedor_a1 := a_rel_prd_le & [ STEM < "adormecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecedor_a_rel" ]. adormecer_v1 := v_intr_io*_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecer_v3 := v_trans_np_caus_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecimiento_n1 := n_event-result_intr_le & [ STEM < "adormecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecimiento_n_rel" ]. adormidera_n1 := n_intr_count_le & [ STEM < "adormidera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_adormidera_n_rel" ] ]. adormilar_v1 := v_pron_intr_le & [ STEM < "adormilar" >, SYNSEM.LKEYS.KEYREL.PRED "_adormilar_v_rel" ]. adornamiento_n1 := n_trans_le & [ STEM < "adornamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adornamiento_n_rel" ]. adornar_v1 := v_trans_np_le & [ STEM < "adornar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, ARG2.SORT abs_cnc_loc, PRED "adorna_r_v_rel" ] ]. adorno_n1 := n_trans_le & [ STEM < "adorno" >, SYNSEM.LKEYS.KEYREL.PRED "_adorno_n_rel" ]. adosamiento_n1 := n_intr_uncount_le & [ STEM < "adosamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adosamiento_n_rel" ] ]. adotadoramente_x1 := av_i_le & [ STEM < "adotadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_adotadoramente_x_rel" ]. adquirente_n1 := n_intr_count_le & [ STEM < "adquirente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquirente_n_rel" ] ]. adquirible_a1 := a_rel_prd_le & [ STEM < "adquirible" >, SYNSEM.LKEYS.KEYREL.PRED "_adquirible_a_rel" ]. adquiriente_n1 := n_intr_count_le & [ STEM < "adquiriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquiriente_n_rel" ] ]. adquirir_v1 := v_trans_np_le & [ STEM < "adquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_adquirir_v_rel" ]. adquisición_n1 := n_trans_le & [ STEM < "adquisición" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisición_n_rel" ]. adquisidor_n1 := n_subj-nom_le & [ STEM < "adquisidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquisidor_n_rel" ] ]. adquisitivamente_x1 := av_i_spr_le & [ STEM < "adquisitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisitivamente_x_rel" ]. adquisitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adquisitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisitivo_a_rel" ]. adquisividad_n1 := n_intr_uncount_le & [ STEM < "adquisividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adquisividad_n_rel" ] ]. adrede_x1 := av_i_le & [ STEM < "adrede" >, SYNSEM.LKEYS.KEYREL.PRED "_adrede_x_rel" ]. adrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenal_a_rel" ]. adrenalina_n1 := n_intr_mass_le & [ STEM < "adrenalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adrenalina_n_rel" ] ]. adrenocortical_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenocortical" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenocortical_a_rel" ]. adrenocorticotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenocorticotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenocorticotrópico_a_rel" ]. adrenocromo_n1 := n_intr_count_le & [ STEM < "adrenocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adrenocromo_n_rel" ] ]. adrenosterona_n1 := n_intr_count_le & [ STEM < "adrenosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adrenosterona_n_rel" ] ]. adrenérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenérgico_a_rel" ]. adresina_n1 := n_intr_uncount_le & [ STEM < "adresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adresina_n_rel" ] ]. adrizar_v1 := v_trans_np_le & [ STEM < "adrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_adrizar_v_rel" ]. adriático_a1 := a_rel_nonprd_intr_le & [ STEM < "adriático" >, SYNSEM.LKEYS.KEYREL.PRED "_adriático_a_rel" ]. adscripción_n1 := n_trans_le & [ STEM < "adscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_adscripción_n_rel" ]. adsorbabilidad_n1 := n_intr_uncount_le & [ STEM < "adsorbabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adsorbabilidad_n_rel" ] ]. adsorbato_n1 := n_intr_mass-or-count_le & [ STEM < "adsorbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_adsorbato_n_rel" ] ]. adsorbedor_n1 := n_intr_count_le & [ STEM < "adsorbedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adsorbedor_n_rel" ] ]. adsorbente_a1 := a_qual_intr_scopal_le & [ STEM < "adsorbente" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorbente_a_rel" ]. adsorbente_n1 := n_intr_count_le & [ STEM < "adsorbente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adsorbente_n_rel" ] ]. adsorbentemente_x1 := av_i_spr_le & [ STEM < "adsorbentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorbentemente_x_rel" ]. adsorber_v1 := v_trans_np_le & [ STEM < "adsorber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, ARG2.SORT cnc_mat, PRED "_adsorber_v_rel" ] ]. adsorción_n1 := n_trans_le & [ STEM < "adsorción" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorción_n_rel" ]. adstrato_n1 := n_intr_count_le & [ STEM < "adstrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adstrato_n_rel" ] ]. aduana_n1 := n_intr_count_le & [ STEM < "aduana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aduana_n_rel" ] ]. aduanar_v1 := v_ditrans*_le & [ STEM < "aduanar" >, SYNSEM.LKEYS.KEYREL.PRED "_aduanar_v_rel" ]. aduanero_a1 := a_rel_nonprd_intr_le & [ STEM < "aduanero" >, SYNSEM.LKEYS.KEYREL.PRED "_aduanero_a_rel" ]. aduanero_n1 := n_intr_count_le & [ STEM < "aduanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aduanero_n_rel" ] ]. aducción_n1 := n_trans_le & [ STEM < "aducción" >, SYNSEM.LKEYS.KEYREL.PRED "_aducción_n_rel" ]. aducir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "aducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aducir_v_rel" ] ]. aducir_v2 := v_ditrans*_le & [ STEM < "aducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aducir_v_rel" ] ]. aducto_n1 := n_intr_mass-or-count_le & [ STEM < "aducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aducto_n_rel" ] ]. aductor_a1 := a_rel_nonprd_intr_le & [ STEM < "aductor" >, SYNSEM.LKEYS.KEYREL.PRED "_aductor_a_rel" ]. aductor_n1 := n_ppcomp_count_le & [ STEM < "aductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_aductor_n_rel" ] ]. adueãâ±ar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "adueñar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_adueñar_v_rel" ] ]. aduja_n1 := n_intr_count_le & [ STEM < "aduja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aduja_n_rel" ] ]. adulación_n1 := n_trans_le & [ STEM < "adulación" >, SYNSEM.LKEYS.KEYREL.PRED "_adulación_n_rel" ]. adulador_n1 := n_subj-nom_le & [ STEM < "adulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulador_n_rel" ] ]. adular_v1 := v_trans_np*_le & [ STEM < "adular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_adular_v_rel" ] ]. adularescencia_n1 := n_intr_uncount_le & [ STEM < "adularescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adularescencia_n_rel" ] ]. adularia_n1 := n_intr_uncount_pl_le & [ STEM < "adularia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adularia_n_rel" ] ]. adulteración_n1 := n_trans_le & [ STEM < "adulteración" >, SYNSEM.LKEYS.KEYREL.PRED "_adulteración_n_rel" ]. adulterador_n1 := n_subj-nom_le & [ STEM < "adulterador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulterador_n_rel" ] ]. adulterar_v1 := v_trans_np_le & [ STEM < "adulterar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_mat_soc, ARG2.SORT abs_cnc_mat_pro, PRED "_adulterar_v_rel" ] ]. adulterinamente_x1 := av_i_spr_le & [ STEM < "adulterinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adulterinamente_x_rel" ]. adulterino_a1 := a_rel_nonprd_intr_le & [ STEM < "adulterino" >, SYNSEM.LKEYS.KEYREL.PRED "_adulterino_a_rel" ]. adulterio_n1 := n_intr_count_le & [ STEM < "adulterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adulterio_n_rel" ] ]. adultez_n1 := n_ppcomp_uncount_le & [ STEM < "adultez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adultez_n_rel" ] ]. adulto_a1 := a_qual_intr_ser_le & [ STEM < "adulto" >, SYNSEM.LKEYS.KEYREL.PRED "_adulto_a_rel" ]. adulto_n1 := n_intr_count_le & [ STEM < "adulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulto_n_rel" ] ]. adustamente_x1 := av_i_spr_le & [ STEM < "adustamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adustamente_x_rel" ]. adustez_n1 := n_ppcomp_uncount_le & [ STEM < "adustez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adustez_n_rel" ] ]. adusto_a1 := a_qual_intr_scopal_le & [ STEM < "adusto" >, SYNSEM.LKEYS.KEYREL.PRED "_adusto_a_rel" ]. adusto_a2 := a_qual_intr_ser_le & [ STEM < "adusto" >, SYNSEM.LKEYS.KEYREL.PRED "_adusto_a_rel" ]. advección_n1 := n_trans_le & [ STEM < "advección" >, SYNSEM.LKEYS.KEYREL.PRED "_advección_n_rel" ]. advenedizo_n1 := n_intr_count_le & [ STEM < "advenedizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_advenedizo_n_rel" ] ]. advenimiento_n1 := n_intr_count_le & [ STEM < "advenimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_advenimiento_n_rel" ] ]. adventicio_a1 := a_rel_nonprd_intr_le & [ STEM < "adventicio" >, SYNSEM.LKEYS.KEYREL.PRED "_adventicio_a_rel" ]. adveración_n1 := n_trans_le & [ STEM < "adveración" >, SYNSEM.LKEYS.KEYREL.PRED "_adveración_n_rel" ]. adverar_v1 := v_trans_np_le & [ STEM < "adverar" >, SYNSEM.LKEYS.KEYREL.PRED "_adverar_v_rel" ]. adverbial_a1 := a_rel_nonprd_intr_le & [ STEM < "adverbial" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbial_a_rel" ]. adverbialización_n1 := n_trans_le & [ STEM < "adverbialización" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbialización_n_rel" ]. adverbializador_a1 := a_rel_nonprd_intr_le & [ STEM < "adverbializador" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbializador_a_rel" ]. adverbialmente_x1 := av_i_spr_le & [ STEM < "adverbialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbialmente_x_rel" ]. adverbio_n1 := n_intr_count_le & [ STEM < "adverbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adverbio_n_rel" ] ]. adversamente_x1 := av_i_spr_le & [ STEM < "adversamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adversamente_x_rel" ]. adversario_n1 := n_ppcomp_count_le & [ STEM < "adversario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adversario_n_rel" ] ]. adversativo_a1 := a_rel_nonprd_intr_le & [ STEM < "adversativo" >, SYNSEM.LKEYS.KEYREL.PRED "_adversativo_a_rel" ]. adversidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "adversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adversidad_n_rel" ] ]. adverso_a1 := a_qual_trans*_ser_le & [ STEM < "adverso" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adverso_a_rel" ] ]. advertencia_n1 := n_trans_le & [ STEM < "advertencia" >, SYNSEM.LKEYS.KEYREL.PRED "_advertencia_n_rel" ]. advertimiento_n1 := n_trans_le & [ STEM < "advertimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_advertimiento_n_rel" ]. advertir_v1 := v_ditrans*_le & [ STEM < "advertir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_advertir_v_rel" ] ]. advertir_v2 := v_ditrans_s_or_cp_prop_fin_ind_le & [ STEM < "advertir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_advertir_v_rel" ] ]. advertir_v4 := v_trans_np_mrkd_np_le & [ STEM < "advertir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, ARG3.SORT non-hum, PRED "_advertir_v_rel" ] ] ]. advertir_v5 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "advertir" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_advertir_v_rel" ] ] ]. adviento_n1 := n_intr_count_le & [ STEM < "adviento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_adviento_n_rel" ] ]. advocación_n1 := n_intr_uncount_le & [ STEM < "advocación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_advocación_n_rel" ] ]. adyacencia_n1 := n_intr_uncount_le & [ STEM < "adyacencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adyacencia_n_rel" ] ]. adyacente_a1 := a_qual_trans*_ser_le & [ STEM < "adyacente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adyacente_a_rel" ] ]. adyuvante_a1 := a_rel_nonprd_intr_le & [ STEM < "adyuvante" >, SYNSEM.LKEYS.KEYREL.PRED "_adyuvante_a_rel" ]. adyuvante_n1 := n_intr_count_le & [ STEM < "adyuvante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adyuvante_n_rel" ] ]. adyuvantemente_x1 := av_i_spr_le & [ STEM < "adyuvantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_adyuvantemente_x_rel" ]. adónde_i := av_wh_place_le & [ STEM < "adónde" > ]. adúlteramente_x1 := av_i_spr_le & [ STEM < "adúlteramente" >, SYNSEM.LKEYS.KEYREL.PRED "_adúlteramente_x_rel" ]. adúltero_a1 := a_qual_intr_ser_le & [ STEM < "adúltero" >, SYNSEM.LKEYS.KEYREL.PRED "_adúltero_a_rel" ]. adúltero_n1 := n_intr_count_le & [ STEM < "adúltero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adúltero_n_rel" ] ]. aerobio_a1 := a_rel_nonprd_intr_le & [ STEM < "aerobio" >, SYNSEM.LKEYS.KEYREL.PRED "_aerobio_a_rel" ]. aerobiología_n1 := n_intr_uncount_le & [ STEM < "aerobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerobiología_n_rel" ] ]. aerobioscopio_n1 := n_intr_count_le & [ STEM < "aerobioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerobioscopio_n_rel" ] ]. aerobiosis_n1 := n_intr_uncount_le & [ STEM < "aerobiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerobiosis_n_rel" ] ]. aerobús_n1 := n_intr_count_le & [ STEM < "aerobús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aerobús_n_rel" ] ]. aeroclasificador_n1 := n_intr_count_le & [ STEM < "aeroclasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroclasificador_n_rel" ] ]. aeroclub_n1 := n_intr_count_le & [ STEM < "aeroclub" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_aeroclub_n_rel" ] ]. aerocondensador_n1 := n_intr_count_le & [ STEM < "aerocondensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aerocondensador_n_rel" ] ]. aerodeslizador_n1 := n_intr_count_le & [ STEM < "aerodeslizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerodeslizador_n_rel" ] ]. aerodino_n1 := n_intr_count_le & [ STEM < "aerodino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodino_n_rel" ] ]. aerodinámica_n1 := n_intr_uncount_le & [ STEM < "aerodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodinámica_n_rel" ] ]. aerodinámicamente_x1 := av_i_spr_le & [ STEM < "aerodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aerodinámicamente_x_rel" ]. aerodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerodinámico_a_rel" ]. aerodoncia_n1 := n_intr_uncount_le & [ STEM < "aerodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodoncia_n_rel" ] ]. aerodontalgia_n1 := n_intr_uncount_le & [ STEM < "aerodontalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodontalgia_n_rel" ] ]. aeroespacial_a1 := a_rel_nonprd_intr_le & [ STEM < "aeroespacial" >, SYNSEM.LKEYS.KEYREL.PRED "_aeroespacial_a_rel" ]. aeroestación_n1 := n_intr_count_le & [ STEM < "aeroestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroestación_n_rel" ] ]. aerofagia_n1 := n_intr_uncount_le & [ STEM < "aerofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerofagia_n_rel" ] ]. aerofaro_n1 := n_intr_count_le & [ STEM < "aerofaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerofaro_n_rel" ] ]. aerofotografía_n1 := n_intr_count_le & [ STEM < "aerofotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerofotografía_n_rel" ] ]. aerofotográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerofotográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerofotográfico_a_rel" ]. aerograma_n1 := n_intr_count_le & [ STEM < "aerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerograma_n_rel" ] ]. aerohidráulico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerohidráulico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerohidráulico_a_rel" ]. aerolito_n1 := n_intr_count_le & [ STEM < "aerolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerolito_n_rel" ] ]. aerolínea_n1 := n_intr_count_le & [ STEM < "aerolínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_aerolínea_n_rel" ] ]. aeromancia_n1 := n_intr_uncount_le & [ STEM < "aeromancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeromancia_n_rel" ] ]. aerometría_n1 := n_intr_uncount_le & [ STEM < "aerometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerometría_n_rel" ] ]. aeromodelismo_n1 := n_intr_uncount_le & [ STEM < "aeromodelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeromodelismo_n_rel" ] ]. aeromodelista_n1 := n_intr_count_le & [ STEM < "aeromodelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aeromodelista_n_rel" ] ]. aeromodelo_n1 := n_intr_count_le & [ STEM < "aeromodelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeromodelo_n_rel" ] ]. aeromotor_n1 := n_intr_count_le & [ STEM < "aeromotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeromotor_n_rel" ] ]. aeronauta_n1 := n_intr_count_le & [ STEM < "aeronauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aeronauta_n_rel" ] ]. aeronaval_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronaval" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronaval_a_rel" ]. aeronave_n1 := n_intr_count_le & [ STEM < "aeronave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeronave_n_rel" ] ]. aeronavegabilidad_n1 := n_intr_uncount_le & [ STEM < "aeronavegabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronavegabilidad_n_rel" ] ]. aeronavegable_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronavegable" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronavegable_a_rel" ]. aeronomía_n1 := n_intr_uncount_le & [ STEM < "aeronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronomía_n_rel" ] ]. aeronáutica_n1 := n_intr_uncount_le & [ STEM < "aeronáutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronáutica_n_rel" ] ]. aeronáuticamente_x1 := av_i_spr_le & [ STEM < "aeronáuticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronáuticamente_x_rel" ]. aeronáutico_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronáutico" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronáutico_a_rel" ]. aeroplano_n1 := n_intr_count_le & [ STEM < "aeroplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeroplano_n_rel" ] ]. aeroportuario_a1 := a_rel_nonprd_intr_le & [ STEM < "aeroportuario" >, SYNSEM.LKEYS.KEYREL.PRED "_aeroportuario_a_rel" ]. aeropuerto_n1 := n_intr_count_le & [ STEM < "aeropuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aeropuerto_n_rel" ] ]. aeroscopio_n1 := n_intr_count_le & [ STEM < "aeroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroscopio_n_rel" ] ]. aerosol_n1 := n_intr_count_le & [ STEM < "aerosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aerosol_n_rel" ] ]. aerostación_n1 := n_intr_count_le & [ STEM < "aerostación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerostación_n_rel" ] ]. aerostática_n1 := n_intr_uncount_le & [ STEM < "aerostática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerostática_n_rel" ] ]. aerostático_a1 := a_rel_nonprd_intr_le & [ STEM < "aerostático" >, SYNSEM.LKEYS.KEYREL.PRED "_aerostático_a_rel" ]. aeroterapia_n1 := n_intr_uncount_le & [ STEM < "aeroterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeroterapia_n_rel" ] ]. aerotermo_n1 := n_intr_count_le & [ STEM < "aerotermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerotermo_n_rel" ] ]. aerotermodinámica_n1 := n_intr_uncount_le & [ STEM < "aerotermodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerotermodinámica_n_rel" ] ]. aerotimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerotimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerotimpánico_a_rel" ]. aerotitis_n1 := n_intr_uncount_le & [ STEM < "aerotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerotitis_n_rel" ] ]. aerovía_n1 := n_intr_count_le & [ STEM < "aerovía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerovía_n_rel" ] ]. aerífero_a1 := a_rel_nonprd_intr_le & [ STEM < "aerífero" >, SYNSEM.LKEYS.KEYREL.PRED "_aerífero_a_rel" ]. aeróbic_n1 := n_intr_uncount_le & [ STEM < "aeróbic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeróbic_n_rel" ] ]. aeróbico_a1 := a_rel_nonprd_intr_le & [ STEM < "aeróbico" >, SYNSEM.LKEYS.KEYREL.PRED "_aeróbico_a_rel" ]. aeródromo_n1 := n_intr_count_le & [ STEM < "aeródromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aeródromo_n_rel" ] ]. aerógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "aerógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_aerógeno_a_rel" ]. aerógrafo_n1 := n_intr_count_le & [ STEM < "aerógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerógrafo_n_rel" ] ]. aerómetro_n1 := n_intr_count_le & [ STEM < "aerómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerómetro_n_rel" ] ]. aeróstato_n1 := n_intr_count_le & [ STEM < "aeróstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeróstato_n_rel" ] ]. afabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afabilidad_n_rel" ] ]. afable_a1 := a_qual_intr_ser_le & [ STEM < "afable" >, SYNSEM.LKEYS.KEYREL.PRED "_afable_a_rel" ]. afablemente_x1 := av_i_spr_le & [ STEM < "afablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_afablemente_x_rel" ]. afanar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "afanar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_afanar_v_rel" ] ] ]. afanar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "afanar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_afanar_v_rel" ] ] ]. afanosamente_x1 := av_i_spr_le & [ STEM < "afanosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afanosamente_x_rel" ]. afaquia_n1 := n_intr_uncount_pl_le & [ STEM < "afaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afaquia_n_rel" ] ]. afasia_n1 := n_intr_uncount_pl_le & [ STEM < "afasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afasia_n_rel" ] ]. afeamiento_n1 := n_trans_le & [ STEM < "afeamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afeamiento_n_rel" ]. afear_v1 := v_trans_np_caus_le & [ STEM < "afear" >, SYNSEM.LKEYS.KEYREL.PRED "_afear_v_rel" ]. afección_n1 := n_intr_count_le & [ STEM < "afección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afección_n_rel" ] ]. afectación_n1 := n_trans_le & [ STEM < "afectación" >, SYNSEM.LKEYS.KEYREL.PRED "_afectación_n_rel" ]. afectar_v1 := v_intr_io*_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL.PRED "_afectar_v_rel" ]. afectar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL.PRED "_afectar_v_rel" ]. afectar_v3 := v_trans_np_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_afectar_v_rel" ] ]. afectivamente_x1 := av_i_spr_le & [ STEM < "afectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afectivamente_x_rel" ]. afectividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afectividad_n_rel" ] ]. afectivo_a1 := a_qual_trans*_ser_le & [ STEM < "afectivo" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_afectivo_a_rel" ] ]. afecto_a1 := a_qual_trans*_ser_le & [ STEM < "afecto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_afecto_a_rel" ] ]. afecto_n1 := n_intr_mass_le & [ STEM < "afecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afecto_n_rel" ] ]. afectuosamente_x1 := av_i_spr_le & [ STEM < "afectuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afectuosamente_x_rel" ]. afectuosidad_n1 := n_ppcomp_mass_le & [ STEM < "afectuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afectuosidad_n_rel" ] ]. afectuoso_a1 := a_qual_intr_scopal_le & [ STEM < "afectuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_afectuoso_a_rel" ]. afeitado_n1 := n_trans_le & [ STEM < "afeitado" >, SYNSEM.LKEYS.KEYREL.PRED "_afeitado_n_rel" ]. afeitadora_n1 := n_intr_count_le & [ STEM < "afeitadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afeitadora_n_rel" ] ]. afeitar_v2 := v_trans_np_le & [ STEM < "afeitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_afeitar_v_rel" ] ]. afelio_n1 := n_intr_uncount_pl_le & [ STEM < "afelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afelio_n_rel" ] ]. afeminación_n1 := n_trans_le & [ STEM < "afeminación" >, SYNSEM.LKEYS.KEYREL.PRED "_afeminación_n_rel" ]. afeminamiento_n1 := n_trans_le & [ STEM < "afeminamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afeminamiento_n_rel" ]. aferente_a1 := a_rel_nonprd_intr_le & [ STEM < "aferente" >, SYNSEM.LKEYS.KEYREL.PRED "_aferente_a_rel" ]. aferramiento_n1 := n_trans_le & [ STEM < "aferramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aferramiento_n_rel" ]. aferrar_v1 := v_pron_intr_io_le & [ STEM < "aferrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aferrar_v_rel" ]. aferrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aferrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aferrar_v_rel" ] ]. aferrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aferrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_cnc_loc, PRED "_aferrar_v_rel" ] ] ]. aferrar_v4 := v_trans_np_le & [ STEM < "aferrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_aferrar_v_rel" ] ]. afgano_a1 := a_rel_prd_le & [ STEM < "afgano" >, SYNSEM.LKEYS.KEYREL.PRED "_afgano_a_rel" ]. afgano_n1 := n_intr_count_le & [ STEM < "afgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afgano_n_rel" ] ]. afianzador_a1 := a_rel_nonprd_intr_le & [ STEM < "afianzador" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzador_a_rel" ]. afianzador_n1 := n_subj-nom_le & [ STEM < "afianzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afianzador_n_rel" ] ]. afianzamiento_n1 := n_trans_le & [ STEM < "afianzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzamiento_n_rel" ]. afianzar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "afianzar" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzar_v_rel" ]. afianzar_v2 := v_trans_np_le & [ STEM < "afianzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_afianzar_v_rel" ] ]. afianzar_v3 := v_pron_prd_p-ap_le & [ STEM < "afianzar" >, SYNSEM.LKEYS [ --COMPKEY _como_p_sel_rel, KEYREL.PRED "_afianzar_v_rel" ] ]. afibrinogenemia_n1 := n_intr_uncount_le & [ STEM < "afibrinogenemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afibrinogenemia_n_rel" ] ]. aficionado_n1 := n_intr_count_le & [ STEM < "aficionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aficionado_n_rel" ] ]. aficionar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. aficionar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. aficionar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. afición_n1 := n_intr_count_le & [ STEM < "afición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afición_n_rel" ] ]. afidavit_n1 := n_intr_count_le & [ STEM < "afidavit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_afidavit_n_rel" ] ]. afidávit_n1 := n_intr_count_le & [ STEM < "afidávit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_afidávit_n_rel" ] ]. afijación_n1 := n_trans_le & [ STEM < "afijación" >, SYNSEM.LKEYS.KEYREL.PRED "_afijación_n_rel" ]. afijal_a1 := a_rel_nonprd_intr_le & [ STEM < "afijal" >, SYNSEM.LKEYS.KEYREL.PRED "_afijal_a_rel" ]. afijar_v1 := v_trans_np_caus_le & [ STEM < "afijar" >, SYNSEM.LKEYS.KEYREL.PRED "_afijar_v_rel" ]. afijo_n1 := n_intr_count_le & [ STEM < "afijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afijo_n_rel" ] ]. afilado_n1 := n_trans_le & [ STEM < "afilado" >, SYNSEM.LKEYS.KEYREL.PRED "_afilado_n_rel" ]. afilador_n1 := n_subj-nom_le & [ STEM < "afilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afilador_n_rel" ] ]. afiladora_n1 := n_intr_count_le & [ STEM < "afiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afiladora_n_rel" ] ]. afiladura_n1 := n_trans_le & [ STEM < "afiladura" >, SYNSEM.LKEYS.KEYREL.PRED "_afiladura_n_rel" ]. afilalápices_n1 := n_intr_count_le & [ STEM < "afilalápices" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afilalápices_n_rel" ] ]. afilamiento_n1 := n_intr_uncount_le & [ STEM < "afilamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afilamiento_n_rel" ] ]. afiliación_n1 := n_trans_le & [ STEM < "afiliación" >, SYNSEM.LKEYS.KEYREL.PRED "_afiliación_n_rel" ]. afiliado_n1 := n_intr_count_le & [ STEM < "afiliado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afiliado_n_rel" ] ]. afiláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "afiláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_afiláctico_a_rel" ]. afinación_n1 := n_trans_le & [ STEM < "afinación" >, SYNSEM.LKEYS.KEYREL.PRED "_afinación_n_rel" ]. afinadamente_x1 := av_i_spr_le & [ STEM < "afinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afinadamente_x_rel" ]. afinado_n1 := n_trans_le & [ STEM < "afinado" >, SYNSEM.LKEYS.KEYREL.PRED "_afinado_n_rel" ]. afinador_a1 := a_qual_trans*_ser_le & [ STEM < "afinador" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_afinador_a_rel" ] ]. afinador_n1 := n_subj-nom_le & [ STEM < "afinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afinador_n_rel" ] ]. afinadura_n1 := n_trans_le & [ STEM < "afinadura" >, SYNSEM.LKEYS.KEYREL.PRED "_afinadura_n_rel" ]. afinamiento_n1 := n_trans_le & [ STEM < "afinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afinamiento_n_rel" ]. afinar_v1 := v_trans_np_le & [ STEM < "afinar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_pro, PRED "_afinar_v_rel" ] ]. afincar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "afincar" >, SYNSEM.LKEYS.KEYREL.PRED "_afincar_v_rel" ]. afinidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afinidad_n_rel" ] ]. afino_n1 := n_trans_le & [ STEM < "afino" >, SYNSEM.LKEYS.KEYREL.PRED "_afino_n_rel" ]. afirmación_n1 := n_trans_le & [ STEM < "afirmación" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmación_n_rel" ]. afirmar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_afirmar_v_rel" ] ]. afirmar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmar_v_rel" ]. afirmar_v3 := v_ditrans*_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_afirmar_v_rel" ] ]. afirmativamente_x1 := av_i_spr_le & [ STEM < "afirmativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmativamente_x_rel" ]. afirmativo_a1 := a_rel_prd_le & [ STEM < "afirmativo" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmativo_a_rel" ]. aflicción_n1 := n_event-result_intr_le & [ STEM < "aflicción" >, SYNSEM.LKEYS.KEYREL.PRED "_aflicción_n_rel" ]. aflictivo_a1 := a_qual_intr_scopal_le & [ STEM < "aflictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aflictivo_a_rel" ]. afligimiento_n1 := n_trans_le & [ STEM < "afligimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afligimiento_n_rel" ]. afligir_v1 := v_intr_io*_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_afligir_v_rel" ] ]. afligir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL.PRED "_afligir_v_rel" ]. afligir_v3 := v_trans_np_caus_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_afligir_v_rel" ] ]. aflojamiento_n1 := n_trans_le & [ STEM < "aflojamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aflojamiento_n_rel" ]. aflojar_v1 := v_trans_np_caus_le & [ STEM < "aflojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc, PRED "_aflojar_v_rel" ] ]. afloramiento_n1 := n_trans_le & [ STEM < "afloramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afloramiento_n_rel" ]. aflorar_v1 := v_unacc_le & [ STEM < "aflorar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_aflorar_v_rel" ] ]. afluencia_n1 := n_intr_mass_le & [ STEM < "afluencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afluencia_n_rel" ] ]. afluente_a1 := a_rel_nonprd_intr_le & [ STEM < "afluente" >, SYNSEM.LKEYS.KEYREL.PRED "_afluente_a_rel" ]. afluente_n1 := n_intr_count_le & [ STEM < "afluente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afluente_n_rel" ] ]. afluir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "afluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_afluir_v_rel" ] ] ]. afluir_v2 := v_intr_mrkd_np_le & [ STEM < "afluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_afluir_v_rel" ] ] ]. aflujo_n1 := n_intr_uncount_pl_le & [ STEM < "aflujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aflujo_n_rel" ] ]. afonía_n1 := n_intr_uncount_pl_le & [ STEM < "afonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afonía_n_rel" ] ]. aforado_n1 := n_intr_count_le & [ STEM < "aforado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aforado_n_rel" ] ]. aforador_n1 := n_intr_count_le & [ STEM < "aforador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_aforador_n_rel" ] ]. aforamiento_n1 := n_trans_le & [ STEM < "aforamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aforamiento_n_rel" ]. aforar_v1 := v_trans_np_le & [ STEM < "aforar" >, SYNSEM.LKEYS.KEYREL.PRED "_aforar_v_rel" ]. aforestación_n1 := n_trans_le & [ STEM < "aforestación" >, SYNSEM.LKEYS.KEYREL.PRED "_aforestación_n_rel" ]. aforismo_n1 := n_intr_count_le & [ STEM < "aforismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aforismo_n_rel" ] ]. aforo_n1 := n_trans_le & [ STEM < "aforo" >, SYNSEM.LKEYS.KEYREL.PRED "_aforo_n_rel" ]. afortunadamente_x1 := av_s_spr_le & [ STEM < "afortunadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afortunadamente_x_rel" ]. aforísticamente_x1 := av_i_spr_le & [ STEM < "aforísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aforísticamente_x_rel" ]. aforístico_a1 := a_rel_nonprd_intr_le & [ STEM < "aforístico" >, SYNSEM.LKEYS.KEYREL.PRED "_aforístico_a_rel" ]. afotestesia_n1 := n_intr_uncount_le & [ STEM < "afotestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afotestesia_n_rel" ] ]. afrancesamiento_n1 := n_trans_le & [ STEM < "afrancesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afrancesamiento_n_rel" ]. afrecho_n1 := n_intr_mass_le & [ STEM < "afrecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afrecho_n_rel" ] ]. afrenta_n1 := n_intr_count_le & [ STEM < "afrenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afrenta_n_rel" ] ]. afrentar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "afrentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_afrentar_v_rel" ] ] ]. afrentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "afrentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_pro, PRED "_afrentar_v_rel" ] ] ]. africado_a1 := a_rel_nonprd_intr_le & [ STEM < "africado" >, SYNSEM.LKEYS.KEYREL.PRED "_africado_a_rel" ]. africanismo_n1 := n_intr_mass-or-count_le & [ STEM < "africanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_africanismo_n_rel" ] ]. africanización_n1 := n_trans_le & [ STEM < "africanización" >, SYNSEM.LKEYS.KEYREL.PRED "_africanización_n_rel" ]. africano_a1 := a_rel_prd_le & [ STEM < "africano" >, SYNSEM.LKEYS.KEYREL.PRED "_africano_a_rel" ]. africano_n1 := n_intr_count_le & [ STEM < "africano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_africano_n_rel" ] ]. afroamericano_a1 := a_rel_prd_le & [ STEM < "afroamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_afroamericano_a_rel" ]. afroamericano_n1 := n_intr_count_le & [ STEM < "afroamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afroamericano_n_rel" ] ]. afroasiático_a1 := a_rel_prd_le & [ STEM < "afroasiático" >, SYNSEM.LKEYS.KEYREL.PRED "_afroasiático_a_rel" ]. afrocubano_a1 := a_rel_prd_le & [ STEM < "afrocubano" >, SYNSEM.LKEYS.KEYREL.PRED "_afrocubano_a_rel" ]. afrocubano_n1 := n_intr_count_le & [ STEM < "afrocubano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afrocubano_n_rel" ] ]. afrodisíaco_a1 := a_qual_intr_scopal_le & [ STEM < "afrodisíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_afrodisíaco_a_rel" ]. afrodisíaco_n1 := n_intr_count_le & [ STEM < "afrodisíaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afrodisíaco_n_rel" ] ]. afrontamiento_n1 := n_trans_le & [ STEM < "afrontamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afrontamiento_n_rel" ]. afrontar_v1 := v_trans_np_le & [ STEM < "afrontar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc_pro, PRED "_afrontar_v_rel" ] ]. afrormosia_n1 := n_intr_mass-or-count_le & [ STEM < "afrormosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_afrormosia_n_rel" ] ]. afta_n1 := n_intr_count_le & [ STEM < "afta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afta_n_rel" ] ]. aftoide_a1 := a_rel_nonprd_intr_le & [ STEM < "aftoide" >, SYNSEM.LKEYS.KEYREL.PRED "_aftoide_a_rel" ]. aftosis_n1 := n_intr_uncount_le & [ STEM < "aftosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aftosis_n_rel" ] ]. aftoso_a1 := a_qual_intr_scopal_le & [ STEM < "aftoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aftoso_a_rel" ]. afuera_x1 := av_i_spr_le & [ STEM < "afuera" >, SYNSEM.LKEYS.KEYREL.PRED "_afuera_x_rel" ]. afán_n1 := n_intr_mass_le & [ STEM < "afán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afán_n_rel" ] ]. afásico_a1 := a_rel_nonprd_intr_le & [ STEM < "afásico" >, SYNSEM.LKEYS.KEYREL.PRED "_afásico_a_rel" ]. afásico_a2 := a_qual_intr_ser_le & [ STEM < "afásico" >, SYNSEM.LKEYS.KEYREL.PRED "_afásico_a_rel" ]. aféresis_n1 := n_intr_uncount_le & [ STEM < "aféresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aféresis_n_rel" ] ]. afín_a1 := a_qual_trans*_ser_le & [ STEM < "afín" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_afín_a_rel" ] ]. afónico_a1 := a_qual_intr_estar_le & [ STEM < "afónico" >, SYNSEM.LKEYS.KEYREL.PRED "_afónico_a_rel" ]. agachadiza_n1 := n_intr_count_le & [ STEM < "agachadiza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_agachadiza_n_rel" ] ]. agachar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agachar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agachar_v_rel" ] ] ]. agachar_v2 := v_pron_unacc_perf_le & [ STEM < "agachar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_agachar_v_rel" ] ]. agalla_n1 := n_intr_count_le & [ STEM < "agalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_agalla_n_rel" ] ]. agalmatolita_n1 := n_intr_count_le & [ STEM < "agalmatolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agalmatolita_n_rel" ] ]. agameto_n1 := n_intr_count_le & [ STEM < "agameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agameto_n_rel" ] ]. agametoblasto_n1 := n_intr_count_le & [ STEM < "agametoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agametoblasto_n_rel" ] ]. agammaglobulinemia_n1 := n_intr_uncount_le & [ STEM < "agammaglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agammaglobulinemia_n_rel" ] ]. agar_n1 := n_intr_count_le & [ STEM < "agar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agar_n_rel" ] ]. agarbar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agarbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agarbar_v_rel" ] ] ]. agarbar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "agarbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agarbar_v_rel" ] ] ]. agarosa_n1 := n_intr_mass_le & [ STEM < "agarosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agarosa_n_rel" ] ]. agarradera_n1 := n_intr_count_le & [ STEM < "agarradera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarradera_n_rel" ] ]. agarradero_n1 := n_intr_count_le & [ STEM < "agarradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarradero_n_rel" ] ]. agarrador_n1 := n_intr_count_le & [ STEM < "agarrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarrador_n_rel" ] ]. agarrar_v1 := v_ditrans_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrar_v_rel" ]. agarrar_v2 := v_pron_intr_io_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrar_v_rel" ]. agarrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agarrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_agarrar_v_rel" ] ]. agarrar_v4 := v_trans_np_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum, PRED "_agarrar_v_rel" ] ]. agarre_n1 := n_intr_mass_le & [ STEM < "agarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarre_n_rel" ] ]. agarrotamiento_n1 := n_trans_le & [ STEM < "agarrotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrotamiento_n_rel" ]. agarrón_n1 := n_intr_count_le & [ STEM < "agarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agarrón_n_rel" ] ]. agasajar_v := v_trans_np_le & [ STEM < "agasajar" >, SYNSEM.LKEYS.KEYREL.PRED "_agasajar_v_rel" ]. agasajo_n1 := n_trans_le & [ STEM < "agasajo" >, SYNSEM.LKEYS.KEYREL.PRED "_agasajo_n_rel" ]. agavanzo_n1 := n_intr_count_le & [ STEM < "agavanzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_agavanzo_n_rel" ] ]. agavillador_n1 := n_intr_count_le & [ STEM < "agavillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_agavillador_n_rel" ] ]. agazapar_v1 := v_pron_intr_le & [ STEM < "agazapar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_agazapar_v_rel" ] ]. agazapar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agazapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agazapar_v_rel" ] ] ]. agazapar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agazapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agazapar_v_rel" ] ] ]. agencia_n1 := n_intr_count_le & [ STEM < "agencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_agencia_n_rel" ] ]. agenciar_v1 := v_ditrans_le & [ STEM < "agenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc_hum, PRED "_agenciar_v_rel" ] ]. agenda_n1 := n_intr_count_le & [ STEM < "agenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_agenda_n_rel" ] ]. agenesia_n1 := n_intr_uncount_le & [ STEM < "agenesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agenesia_n_rel" ] ]. agente_n1 := n_intr_count_le & [ STEM < "agente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agente_n_rel" ] ]. agentivo_a1 := a_rel_nonprd_intr_le & [ STEM < "agentivo" >, SYNSEM.LKEYS.KEYREL.PRED "_agentivo_a_rel" ]. ageusia_n1 := n_intr_uncount_le & [ STEM < "ageusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ageusia_n_rel" ] ]. agigantar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "agigantar" >, SYNSEM.LKEYS.KEYREL.PRED "_agigantar_v_rel" ]. agilidad_n1 := n_ppcomp_mass_le & [ STEM < "agilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agilidad_n_rel" ] ]. agilización_n1 := n_trans_le & [ STEM < "agilización" >, SYNSEM.LKEYS.KEYREL.PRED "_agilización_n_rel" ]. agilizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agilizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_agilizar_v_rel" ] ]. agilizar_v2 := v_trans_np_le & [ STEM < "agilizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro_soc, ARG2.SORT abs_pro, PRED "_agilizar_v_rel" ] ]. agio_n1 := n_intr_uncount_le & [ STEM < "agio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agio_n_rel" ] ]. agiotaje_n1 := n_intr_uncount_le & [ STEM < "agiotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agiotaje_n_rel" ] ]. agiotaje_n2 := n_intr_count_le & [ STEM < "agiotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agiotaje_n_rel" ] ]. agiotista_n1 := n_intr_count_le & [ STEM < "agiotista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agiotista_n_rel" ] ]. agitación_n1 := n_trans_le & [ STEM < "agitación" >, SYNSEM.LKEYS.KEYREL.PRED "_agitación_n_rel" ]. agitador_a1 := a_rel_nonprd_intr_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL.PRED "_agitador_a_rel" ]. agitador_a2 := a_qual_intr_ser_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL.PRED "_agitador_a_rel" ]. agitador_n1 := n_subj-nom_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agitador_n_rel" ] ]. agitar_v1 := v_intr_io*_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL.PRED "_agitar_v_rel" ]. agitar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL.PRED "_agitar_v_rel" ]. agitar_v3 := v_trans_np_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, ARG2.SORT abs_cnc_pro, PRED "_agitar_v_rel" ] ]. aglicosúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "aglicosúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_aglicosúrico_a_rel" ]. aglomeración_n1 := n_trans_le & [ STEM < "aglomeración" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomeración_n_rel" ]. aglomerado_n1 := n_trans_le & [ STEM < "aglomerado" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomerado_n_rel" ]. aglomerante_a1 := a_rel_nonprd_intr_le & [ STEM < "aglomerante" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomerante_a_rel" ]. aglomerante_n1 := n_intr_count_le & [ STEM < "aglomerante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aglomerante_n_rel" ] ]. aglomerar_v1 := v_pron_intr_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum, PRED "_aglomerar_v_rel" ] ]. aglomerar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aglomerar_v_rel" ] ] ]. aglomerar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aglomerar_v_rel" ] ] ]. aglosia_n1 := n_intr_uncount_le & [ STEM < "aglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglosia_n_rel" ] ]. aglosostomía_n1 := n_intr_uncount_le & [ STEM < "aglosostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglosostomía_n_rel" ] ]. agluitinina_n1 := n_intr_uncount_le & [ STEM < "agluitinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agluitinina_n_rel" ] ]. aglutinación_n1 := n_trans_le & [ STEM < "aglutinación" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinación_n_rel" ]. aglutinador_a1 := a_rel_nonprd_intr_le & [ STEM < "aglutinador" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinador_a_rel" ]. aglutinante_a1 := a_rel_prd_le & [ STEM < "aglutinante" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinante_a_rel" ]. aglutinante_n1 := n_intr_mass_le & [ STEM < "aglutinante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglutinante_n_rel" ] ]. aglutinar_v1 := v_trans_np_caus_le & [ STEM < "aglutinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_mat_soc, ARG2.SORT abs_cnc_mat, PRED "_aglutinar_v_rel" ] ]. aglutinativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aglutinativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinativo_a_rel" ]. aglutinina_n1 := n_intr_uncount_le & [ STEM < "aglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglutinina_n_rel" ] ]. aglutinógeno_n1 := n_intr_count_le & [ STEM < "aglutinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aglutinógeno_n_rel" ] ]. agnacia_n1 := n_intr_uncount_le & [ STEM < "agnacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnacia_n_rel" ] ]. agnación_n1 := n_intr_uncount_le & [ STEM < "agnación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnación_n_rel" ] ]. agnatia_n1 := n_intr_uncount_le & [ STEM < "agnatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnatia_n_rel" ] ]. agnaticio_a1 := a_rel_nonprd_intr_le & [ STEM < "agnaticio" >, SYNSEM.LKEYS.KEYREL.PRED "_agnaticio_a_rel" ]. agnogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "agnogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_agnogénico_a_rel" ]. agnosticismo_n1 := n_intr_uncount_le & [ STEM < "agnosticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnosticismo_n_rel" ] ]. agnósticamente_x1 := av_i_spr_le & [ STEM < "agnósticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agnósticamente_x_rel" ]. agnóstico_a1 := a_qual_intr_ser_le & [ STEM < "agnóstico" >, SYNSEM.LKEYS.KEYREL.PRED "_agnóstico_a_rel" ]. agobiante_a1 := a_qual_intr_scopal_le & [ STEM < "agobiante" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiante_a_rel" ]. agobiantemente_x1 := av_i_spr_le & [ STEM < "agobiantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiantemente_x_rel" ]. agobiar_v1 := v_intr_io*_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_agobiar_v_rel" ] ]. agobiar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agobiar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agobiar_v_rel" ] ] ]. agobiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agobiar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agobiar_v_rel" ] ] ]. agobiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiar_v_rel" ]. agobiar_v5 := v_trans_np_caus_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_agobiar_v_rel" ] ]. agobio_n1 := n_trans_le & [ STEM < "agobio" >, SYNSEM.LKEYS.KEYREL.PRED "_agobio_n_rel" ]. agolpamiento_n1 := n_trans_le & [ STEM < "agolpamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agolpamiento_n_rel" ]. agolpar_3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "agolpar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_mat_plant, PRED "_agolpar_v_rel" ] ]. agolpar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agolpar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agolpar_v_rel" ] ] ]. agolpar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "agolpar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agolpar_v_rel" ] ] ]. agolpar_v4 := v_trans_np_le & [ STEM < "agolpar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT ani_cnc_hum_mat_plant, PRED "_agolpar_v_rel" ] ]. agonisis_n1 := n_intr_uncount_le & [ STEM < "agonisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agonisis_n_rel" ] ]. agonizante_a1 := a_qual_intr_estar_le & [ STEM < "agonizante" >, SYNSEM.LKEYS.KEYREL.PRED "_agonizante_a_rel" ]. agonizar_v1 := v_intr_le & [ STEM < "agonizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_agonizar_v_rel" ] ]. rendir_v1 := v_intr_le & [ STEM < "rendir" >, SYNSEM.LKEYS.KEYREL [ PRED "_rendir_v_rel" ] ]. rendir_v2 := v_ditrans*_le & [ STEM < "rendir" >, SYNSEM.LKEYS.KEYREL [ PRED "_rendir_v_rel" ] ]. rendir_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "rendir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_rendir_v_rel" ] ]. agonía_n1 := n_intr_uncount_pl_le & [ STEM < "agonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agonía_n_rel" ] ]. agorafobia_n1 := n_intr_uncount_le & [ STEM < "agorafobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agorafobia_n_rel" ] ]. agostar_v2 := v_trans_np_caus_le & [ STEM < "agostar" >, SYNSEM.LKEYS.KEYREL.PRED "_agostar_v_rel" ]. agosto_n1 := n_intr_count_le & [ STEM < "agosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_agosto_n_rel" ] ]. agotable_a1 := a_rel_prd_le & [ STEM < "agotable" >, SYNSEM.LKEYS.KEYREL.PRED "_agotable_a_rel" ]. agotador_a1 := a_qual_intr_ser_le & [ STEM < "agotador" >, SYNSEM.LKEYS.KEYREL.PRED "_agotador_a_rel" ]. agotamiento_n1 := n_trans_le & [ STEM < "agotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agotamiento_n_rel" ]. agotar_v1 := v_intr_io*_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agotar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agotar_v3 := v_trans_np_caus_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agraciar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "agraciar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_agraciar_v_rel" ] ]. agradable_a1 := a_qual_intr_scopal_le & [ STEM < "agradable" >, SYNSEM.LKEYS.KEYREL.PRED "_agradable_a_rel" ]. agradable_a2 := a_or_le & [ STEM < "agradable" >, SYNSEM.LKEYS.KEYREL.PRED "_agradable_a_rel" ]. agradablemente_x1 := av_i_spr_le & [ STEM < "agradablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_agradablemente_x_rel" ]. agradar_v1 := v_intr_io*_le & [ STEM < "agradar" >, SYNSEM.LKEYS.KEYREL.PRED "_agradar_v_rel" ]. agradar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agradar" >, SYNSEM.LKEYS.KEYREL.PRED "_agradar_v_rel" ]. agradecer_v1 := v_ditrans*_le & [ STEM < "agradecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_agradecer_v_rel" ] ]. agradecer_v2 := v_ditrans_s_or_cp_prop_fin_sub_le & [ STEM < "agradecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_agradecer_v_rel" ] ]. agradecimiento_n1 := n_trans_le & [ STEM < "agradecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agradecimiento_n_rel" ]. agrado_n1 := n_result_intr_le & [ STEM < "agrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrado_n_rel" ] ]. agrafía_n1 := n_intr_uncount_le & [ STEM < "agrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrafía_n_rel" ] ]. agramatical_a1 := a_rel_nonprd_intr_le & [ STEM < "agramatical" >, SYNSEM.LKEYS.KEYREL.PRED "_agramatical_a_rel" ]. agramaticalidad_n1 := n_intr_uncount_le & [ STEM < "agramaticalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agramaticalidad_n_rel" ] ]. agrandamiento_n1 := n_trans_le & [ STEM < "agrandamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agrandamiento_n_rel" ]. agrandar_v1 := v_trans_np_caus_le & [ STEM < "agrandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_loc, ARG2.SORT cnc_hum_soc, PRED "_agrandar_v_rel" ] ]. agranulocitosis_n1 := n_intr_uncount_le & [ STEM < "agranulocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agranulocitosis_n_rel" ] ]. agrario_a1 := a_rel_nonprd_intr_le & [ STEM < "agrario" >, SYNSEM.LKEYS.KEYREL.PRED "_agrario_a_rel" ]. agrarismo_n1 := n_intr_uncount_le & [ STEM < "agrarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrarismo_n_rel" ] ]. agravación_n1 := n_trans_le & [ STEM < "agravación" >, SYNSEM.LKEYS.KEYREL.PRED "_agravación_n_rel" ]. agravamiento_n1 := n_trans_le & [ STEM < "agravamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agravamiento_n_rel" ]. agravante_a1 := a_rel_nonprd_intr_le & [ STEM < "agravante" >, SYNSEM.LKEYS.KEYREL.PRED "_agravante_a_rel" ]. agravante_n1 := n_intr_count_le & [ STEM < "agravante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agravante_n_rel" ] ]. agravar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agravar" >, SYNSEM.LKEYS.KEYREL.PRED "_agravar_v_rel" ]. agravar_v2 := v_trans_np_caus_le & [ STEM < "agravar" >, SYNSEM.LKEYS.KEYREL.PRED "_agravar_v_rel" ]. agraviador_n1 := n_intr_count_le & [ STEM < "agraviador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agraviador_n_rel" ] ]. agraviar_v1 := v_trans_np_le & [ STEM < "agraviar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_agraviar_v_rel" ] ]. agravio_n1 := n_trans_le & [ STEM < "agravio" >, SYNSEM.LKEYS.KEYREL.PRED "_agravio_n_rel" ]. agredir_v1 := v_trans_np_le & [ STEM < "agredir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_agredir_v_rel" ] ]. agregación_n1 := n_trans_le & [ STEM < "agregación" >, SYNSEM.LKEYS.KEYREL.PRED "_agregación_n_rel" ]. agregado_n1 := n_intr_count_le & [ STEM < "agregado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_agregado_n_rel" ] ]. agregador_n1 := n_intr_count_le & [ STEM < "agregador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agregador_n_rel" ] ]. agregar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "agregar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_agregar_v_rel" ] ]. agregar_v2 := v_ditrans*_le & [ STEM < "agregar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_mat_pro, PRED "_agregar_v_rel" ] ]. agregativo_a1 := a_rel_nonprd_intr_le & [ STEM < "agregativo" >, SYNSEM.LKEYS.KEYREL.PRED "_agregativo_a_rel" ]. agremiación_n1 := n_result_intr_ppcomp_le & [ STEM < "agremiación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_agremiación_n_rel" ] ]. agresina_n1 := n_intr_count_le & [ STEM < "agresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agresina_n_rel" ] ]. agresinógeno_n1 := n_intr_count_le & [ STEM < "agresinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agresinógeno_n_rel" ] ]. agresivamente_x1 := av_i_spr_le & [ STEM < "agresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agresivamente_x_rel" ]. agresividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "agresividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agresividad_n_rel" ] ]. agresivo_a1 := a_qual_intr_ser_le & [ STEM < "agresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_agresivo_a_rel" ]. agresión_n1 := n_ppde_ppcomp_count_le & [ STEM < "agresión" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_agresión_n_rel" ] ]. agresor_n1 := n_subj-nom_le & [ STEM < "agresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agresor_n_rel" ] ]. agreste_a1 := a_rel_nonprd_intr_le & [ STEM < "agreste" >, SYNSEM.LKEYS.KEYREL.PRED "_agreste_a_rel" ]. agretopo_n1 := n_intr_count_le & [ STEM < "agretopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_agretopo_n_rel" ] ]. agriamente_x1 := av_i_spr_le & [ STEM < "agriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agriamente_x_rel" ]. agriar_v1 := v_intr_io*_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agriar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agriar_v3 := v_trans_np_caus_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agricultor_n1 := n_intr_count_le & [ STEM < "agricultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agricultor_n_rel" ] ]. agricultura_n1 := n_intr_uncount_le & [ STEM < "agricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agricultura_n_rel" ] ]. agridulce_a1 := a_qual_intr_scopal_le & [ STEM < "agridulce" >, SYNSEM.LKEYS.KEYREL.PRED "_agridulce_a_rel" ]. agrietamiento_n1 := n_trans_le & [ STEM < "agrietamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agrietamiento_n_rel" ]. agrietar_v1 := v_trans_np_caus_le & [ STEM < "agrietar" >, SYNSEM.LKEYS.KEYREL.PRED "_agrietar_v_rel" ]. agrimensura_n1 := n_trans_le & [ STEM < "agrimensura" >, SYNSEM.LKEYS.KEYREL.PRED "_agrimensura_n_rel" ]. agrio_a1 := a_qual_intr_scopal_le & [ STEM < "agrio" >, SYNSEM.LKEYS.KEYREL.PRED "_agrio_a_rel" ]. agriotipo_n1 := n_intr_count_le & [ STEM < "agriotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agriotipo_n_rel" ] ]. agroalimentario_a1 := a_rel_nonprd_intr_le & [ STEM < "agroalimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_agroalimentario_a_rel" ]. agroambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "agroambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_agroambiental_a_rel" ]. agrobiología_n1 := n_intr_uncount_le & [ STEM < "agrobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrobiología_n_rel" ] ]. agrociudad_n1 := n_intr_mass_le & [ STEM < "agrociudad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_agrociudad_n_rel" ] ]. agroclimático_a1 := a_rel_nonprd_intr_le & [ STEM < "agroclimático" >, SYNSEM.LKEYS.KEYREL.PRED "_agroclimático_a_rel" ]. agroforestal_a1 := a_rel_nonprd_intr_le & [ STEM < "agroforestal" >, SYNSEM.LKEYS.KEYREL.PRED "_agroforestal_a_rel" ]. agrogeología_n1 := n_intr_uncount_le & [ STEM < "agrogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrogeología_n_rel" ] ]. agroindustria_n1 := n_intr_uncount_pl_le & [ STEM < "agroindustria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agroindustria_n_rel" ] ]. agrología_n1 := n_intr_uncount_le & [ STEM < "agrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrología_n_rel" ] ]. agrometeorología_n1 := n_intr_uncount_le & [ STEM < "agrometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrometeorología_n_rel" ] ]. agronomía_n1 := n_intr_uncount_le & [ STEM < "agronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agronomía_n_rel" ] ]. agronómico_a1 := a_rel_nonprd_intr_le & [ STEM < "agronómico" >, SYNSEM.LKEYS.KEYREL.PRED "_agronómico_a_rel" ]. agropecuario_a1 := a_rel_nonprd_intr_le & [ STEM < "agropecuario" >, SYNSEM.LKEYS.KEYREL.PRED "_agropecuario_a_rel" ]. agrupador_n1 := n_intr_count_le & [ STEM < "agrupador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agrupador_n_rel" ] ]. agrupar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agrupar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agrupar_v_rel" ] ] ]. agrupar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "agrupar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum_soc, PRED "_agrupar_v_rel" ] ] ]. agrupar_v3 := v_trans_np_le & [ STEM < "agrupar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_agrupar_v_rel" ] ]. agrícola_a1 := a_rel_nonprd_intr_le & [ STEM < "agrícola" >, SYNSEM.LKEYS.KEYREL.PRED "_agrícola_a_rel" ]. agrónomo_a1 := a_rel_nonprd_intr_le & [ STEM < "agrónomo" >, SYNSEM.LKEYS.KEYREL.PRED "_agrónomo_a_rel" ]. agrónomo_n1 := n_intr_count_le & [ STEM < "agrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agrónomo_n_rel" ] ]. agua_n1 := n_intr_mass-or-count_le & [ STEM < "agua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agua_n_rel" ] ]. aguacate_n1 := n_intr_mass_le & [ STEM < "aguacate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguacate_n_rel" ] ]. aguacero_n1 := n_intr_count_le & [ STEM < "aguacero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_aguacero_n_rel" ] ]. aguada_n1 := n_intr_uncount_le & [ STEM < "aguada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguada_n_rel" ] ]. aguada_n2 := n_intr_count_le & [ STEM < "aguada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguada_n_rel" ] ]. aguafiestas_n1 := n_intr_count_le & [ STEM < "aguafiestas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aguafiestas_n_rel" ] ]. aguafuerte_n1 := n_intr_count_le & [ STEM < "aguafuerte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguafuerte_n_rel" ] ]. aguaje_n1 := n_intr_count_le & [ STEM < "aguaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguaje_n_rel" ] ]. aguamanil_n1 := n_intr_count_le & [ STEM < "aguamanil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamanil_n_rel" ] ]. aguamanos_n1 := n_intr_count_le & [ STEM < "aguamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamanos_n_rel" ] ]. aguamarina_n1 := n_intr_count_le & [ STEM < "aguamarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamarina_n_rel" ] ]. aguamiel_n1 := n_intr_mass_le & [ STEM < "aguamiel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamiel_n_rel" ] ]. aguanieve_n1 := n_intr_mass_le & [ STEM < "aguanieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aguanieve_n_rel" ] ]. aguantable_a1 := a_qual_intr_scopal_le & [ STEM < "aguantable" >, SYNSEM.LKEYS.KEYREL.PRED "_aguantable_a_rel" ]. aguantar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "aguantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aguantar_v_rel" ] ]. aguantar_v2 := v_trans_np*_le & [ STEM < "aguantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc, ARG2.SORT abs_cnc_pro, PRED "_aguantar_v_rel" ] ]. aguante_n1 := n_trans_le & [ STEM < "aguante" >, SYNSEM.LKEYS.KEYREL.PRED "_aguante_n_rel" ]. aguardar_v1 := v_intr_io_le & [ STEM < "aguardar" >, SYNSEM.LKEYS.KEYREL.PRED "_aguardar_v_rel" ]. aguardar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aguardar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aguardar_v_rel" ] ]. aguardar_v3 := v_intr_mrkd_np_le & [ STEM < "aguardar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_aguardar_v_rel" ] ] ]. aguardar_v4 := v_trans_np_le & [ STEM < "aguardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT non-hum, PRED "_aguardar_v_rel" ] ]. aguardiente_n1 := n_intr_mass_le & [ STEM < "aguardiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguardiente_n_rel" ] ]. aguarrás_n1 := n_intr_mass_le & [ STEM < "aguarrás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aguarrás_n_rel" ] ]. aguatocha_n1 := n_intr_count_le & [ STEM < "aguatocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguatocha_n_rel" ] ]. agudeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "agudeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agudeza_n_rel" ] ]. agudizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agudizar" >, SYNSEM.LKEYS.KEYREL.PRED "_agudizar_v_rel" ]. agudizar_v2 := v_trans_np_caus_le & [ STEM < "agudizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pro_soc, ARG2.SORT abs_pro, PRED "_agudizar_v_rel" ] ]. agudo_a1 := a_qual_intr_scopal_le & [ STEM < "agudo" >, SYNSEM.LKEYS.KEYREL.PRED "_agudo_a_rel" ]. aguerridamente_x1 := av_i_spr_le & [ STEM < "aguerridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aguerridamente_x_rel" ]. aguijar_v1 := v_trans_np_le & [ STEM < "aguijar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT ani, PRED "_aguijar_v_rel" ] ]. aguijonear_v1 := v_trans_np_le & [ STEM < "aguijonear" >, SYNSEM.LKEYS.KEYREL.PRED "_aguijonear_v_rel" ]. aguijón_n1 := n_intr_count_le & [ STEM < "aguijón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguijón_n_rel" ] ]. aguilera_n1 := n_intr_count_le & [ STEM < "aguilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aguilera_n_rel" ] ]. aguileño_a1 := a_qual_intr_ser_le & [ STEM < "aguileño" >, SYNSEM.LKEYS.KEYREL.PRED "_aguileño_a_rel" ]. aguilucho_n1 := n_intr_count_le & [ STEM < "aguilucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aguilucho_n_rel" ] ]. aguilón_n1 := n_intr_count_le & [ STEM < "aguilón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_aguilón_n_rel" ] ]. aguinaldo_n1 := n_intr_count_le & [ STEM < "aguinaldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguinaldo_n_rel" ] ]. aguja_n1 := n_intr_count_le & [ STEM < "aguja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguja_n_rel" ] ]. agujerear_v1 := v_trans_np_caus_le & [ STEM < "agujerear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_cnc_hum, ARG2.SORT cnc, PRED "_agujerear_v_rel" ] ]. agujero_n1 := n_intr_count_le & [ STEM < "agujero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agujero_n_rel" ] ]. agujón_n1 := n_intr_count_le & [ STEM < "agujón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agujón_n_rel" ] ]. aguzamiento_n1 := n_trans_le & [ STEM < "aguzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aguzamiento_n_rel" ]. aguzanieves_n1 := n_intr_count_le & [ STEM < "aguzanieves" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aguzanieves_n_rel" ] ]. aguzar_v1 := v_pron_intr_le & [ STEM < "aguzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs, PRED "_aguzar_v_rel" ] ]. aguzar_v2 := v_trans_np_le & [ STEM < "aguzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aguzar_v_rel" ] ]. agá_n1 := n_intr_count_le & [ STEM < "agá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agá_n_rel" ] ]. agénesis_n1 := n_intr_uncount_le & [ STEM < "agénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agénesis_n_rel" ] ]. agónico_a1 := a_qual_intr_estar_le & [ STEM < "agónico" >, SYNSEM.LKEYS.KEYREL.PRED "_agónico_a_rel" ]. agüero_n1 := n_intr_count_le & [ STEM < "agüero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agüero_n_rel" ] ]. ahijado_n1 := n_ppcomp_count_le & [ STEM < "ahijado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahijado_n_rel" ] ]. ahilamiento_n1 := n_event-result_intr_le & [ STEM < "ahilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ahilamiento_n_rel" ]. ahogar_v1 := v_trans_np_caus_perf_le & [ STEM < "ahogar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_pot, PRED "_ahogar_v_rel" ] ]. ahogo_n1 := n_trans_le & [ STEM < "ahogo" >, SYNSEM.LKEYS.KEYREL.PRED "_ahogo_n_rel" ]. ahora_bien_x1 := av_i_le & [ STEM < "ahora_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_ahora_bien_x_rel" ]. ahora_n1 := av_deic_tmp_le & [ STEM < "ahora" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ahora_x_rel" ]. ahorcado_n1 := n_intr_count_le & [ STEM < "ahorcado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahorcado_n_rel" ] ]. ahorcaperros_n1 := n_intr_count_le & [ STEM < "ahorcaperros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ahorcaperros_n_rel" ] ]. ahorcar_v1 := v_trans_np_caus_le & [ STEM < "ahorcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_ahorcar_v_rel" ] ]. ahorrador_a1 := a_qual_intr_ser_le & [ STEM < "ahorrador" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrador_a_rel" ]. ahorrador_n1 := n_subj-nom_le & [ STEM < "ahorrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahorrador_n_rel" ] ]. ahorrar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrar_v2 := v_ditrans*_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_ahorrar_v_rel" ] ]. ahorrar_v3 := v_intr_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrar_v4 := v_pron_trans_np_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrativamente_x1 := av_i_spr_le & [ STEM < "ahorrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrativamente_x_rel" ]. ahorrativo_a1 := a_qual_intr_ser_le & [ STEM < "ahorrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrativo_a_rel" ]. ahorro_n1 := n_trans_le & [ STEM < "ahorro" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorro_n_rel" ]. ahuecar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuecar_v_rel" ] ] ]. ahuecar_v2 := v_intr_mrkd_np_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuecar_v_rel" ] ] ]. ahuecar_v3 := v_trans_np_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuecar_v_rel" ]. ahumado_n1 := n_intr_count_le & [ STEM < "ahumado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ahumado_n_rel" ] ]. ahumar_v := v_trans_np_le & [ STEM < "ahumar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahumar_v_rel" ]. ahuyentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuyentar_v_rel" ] ] ]. ahuyentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuyentar_v_rel" ] ] ]. ahuyentar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuyentar_v_rel" ]. ahuyentar_v4 := v_trans_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuyentar_v_rel" ]. ahí_es_nada_x1 := av_i_le & [ STEM < "ahí_es_nada" >, SYNSEM.LKEYS.KEYREL.PRED "_ahí_es_nada_x_rel" ]. ahí_le_duele_x1 := av_i_le & [ STEM < "ahí_le_duele" >, SYNSEM.LKEYS.KEYREL.PRED "_ahí_le_duele_x_rel" ]. ahí_x := av_deic_place_le & [ STEM < "ahí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ahí_x_rel" ]. ahínco_n1 := n_trans_le & [ STEM < "ahínco" >, SYNSEM.LKEYS.KEYREL.PRED "_ahínco_n_rel" ]. ahíto_a1 := a_qual_intr_estar_le & [ STEM < "ahíto" >, SYNSEM.LKEYS.KEYREL.PRED "_ahíto_a_rel" ]. aiatol·là_n1 := n_intr_count_le & [ STEM < "aiatol·là" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aiatol·là_n_rel" ] ]. aifarda_n1 := n_intr_count_le & [ STEM < "aifarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aifarda_n_rel" ] ]. airbag_n1 := n_intr_count_le & [ STEM < "airbag" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_airbag_n_rel" ] ]. aire_n1 := n_intr_mass_le & [ STEM < "aire" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aire_n_rel" ] ]. aireación_n1 := n_trans_le & [ STEM < "aireación" >, SYNSEM.LKEYS.KEYREL.PRED "_aireación_n_rel" ]. aireador_n1 := n_intr_count_le & [ STEM < "aireador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aireador_n_rel" ] ]. aireadora_n1 := n_intr_count_le & [ STEM < "aireadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aireadora_n_rel" ] ]. airear_v1 := v_pron_intr_le & [ STEM < "airear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_airear_v_rel" ] ]. airear_v2 := v_trans_np_le & [ STEM < "airear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pot, ARG2.SORT cnc_loc, PRED "_airear_v_rel" ] ]. airosamente_x1 := av_i_spr_le & [ STEM < "airosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_airosamente_x_rel" ]. airosidad_n1 := n_ppcomp_mass_le & [ STEM < "airosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_airosidad_n_rel" ] ]. airoso_a1 := a_qual_intr_ser_le & [ STEM < "airoso" >, SYNSEM.LKEYS.KEYREL.PRED "_airoso_a_rel" ]. aislacionismo_n1 := n_intr_uncount_le & [ STEM < "aislacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aislacionismo_n_rel" ] ]. aislacionista_a1 := a_rel_nonprd_intr_le & [ STEM < "aislacionista" >, SYNSEM.LKEYS.KEYREL.PRED "_aislacionista_a_rel" ]. aisladamente_x1 := av_i_spr_le & [ STEM < "aisladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aisladamente_x_rel" ]. aislador_a1 := a_rel_nonprd_intr_le & [ STEM < "aislador" >, SYNSEM.LKEYS.KEYREL.PRED "_aislador_a_rel" ]. aislador_n1 := n_intr_count_le & [ STEM < "aislador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aislador_n_rel" ] ]. aislamiento_n1 := n_trans_le & [ STEM < "aislamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aislamiento_n_rel" ]. aislante_a1 := a_rel_nonprd_intr_le & [ STEM < "aislante" >, SYNSEM.LKEYS.KEYREL.PRED "_aislante_a_rel" ]. aislante_n1 := n_intr_count_le & [ STEM < "aislante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aislante_n_rel" ] ]. aislar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aislar_v_rel" ] ] ]. aislar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aislar_v_rel" ] ] ]. aislar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_ani_cnc_hum_soc, PRED "_aislar_v_rel" ] ] ]. ajaraca_n1 := n_intr_count_le & [ STEM < "ajaraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajaraca_n_rel" ] ]. ajardinamiento_n1 := n_trans_le & [ STEM < "ajardinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ajardinamiento_n_rel" ]. ajardinar_v := v_trans_np_le & [ STEM < "ajardinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_loc, PRED "_ajardinar_v_rel" ] ]. ajedrecista_n1 := n_intr_count_le & [ STEM < "ajedrecista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ajedrecista_n_rel" ] ]. ajedrecístico_a1 := a_rel_nonprd_intr_le & [ STEM < "ajedrecístico" >, SYNSEM.LKEYS.KEYREL.PRED "_ajedrecístico_a_rel" ]. ajenjo_n1 := n_intr_count_le & [ STEM < "ajenjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ajenjo_n_rel" ] ]. ajeno_a1 := a_qual_trans*_ser_le & [ STEM < "ajeno" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ajeno_a_rel" ] ]. ajete_n1 := n_intr_count_le & [ STEM < "ajete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ajete_n_rel" ] ]. ajetreo_n1 := n_intr_mass_le & [ STEM < "ajetreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ajetreo_n_rel" ] ]. ajo_n1 := n_intr_count_le & [ STEM < "ajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajo_n_rel" ] ]. ajovar_n1 := n_intr_count_le & [ STEM < "ajovar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajovar_n_rel" ] ]. ajuar_n1 := n_intr_count_le & [ STEM < "ajuar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajuar_n_rel" ] ]. ajustable_a1 := a_qual_trans*_ser_le & [ STEM < "ajustable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ajustable_a_rel" ] ]. ajustador_n1 := n_intr_count_le & [ STEM < "ajustador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajustador_n_rel" ] ]. ajustar_v1 := v_ditrans_le & [ STEM < "ajustar" >, SYNSEM.LKEYS.KEYREL.PRED "_ajustar_v_rel" ]. ajustar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "ajustar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_ajustar_v_rel" ] ] ]. ajuste_n1 := n_trans_le & [ STEM < "ajuste" >, SYNSEM.LKEYS.KEYREL.PRED "_ajuste_n_rel" ]. ajusticiamiento_n1 := n_trans_le & [ STEM < "ajusticiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ajusticiamiento_n_rel" ]. ajusticiar_v := v_trans_np_le & [ STEM < "ajusticiar" >, SYNSEM.LKEYS.KEYREL.PRED "_ajusticiar_v_rel" ]. al_abrigo_de_p_vmod := p_vmod_le & [ STEM < "al_abrigo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_abrigo_de_p_rel ]. al_alcance_de_la_mano_x1 := av_i_le & [ STEM < "al_alcance_de_la_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_al_alcance_de_la_mano_x_rel" ]. al_alimón_x1 := av_i_le & [ STEM < "al_alimón" >, SYNSEM.LKEYS.KEYREL.PRED "_al_alimón_x_rel" ]. al_apa_x1 := av_i_le & [ STEM < "al_apa" >, SYNSEM.LKEYS.KEYREL.PRED "_al_apa_x_rel" ]. al_avemaría_x1 := av_i_le & [ STEM < "al_avemaría" >, SYNSEM.LKEYS.KEYREL.PRED "_al_avemaría_x_rel" ]. al_bies_x1 := av_i_le & [ STEM < "al_bies" >, SYNSEM.LKEYS.KEYREL.PRED "_al_bies_x_rel" ]. al_cabo_de_p_vmod := p_vmod_le & [ STEM < "al_cabo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_cabo_de_p_rel ]. al_calor_de_p_vmod := p_vmod_le & [ STEM < "al_calor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_calor_de_p_rel ]. al_carboncillo_x1 := av_i_le & [ STEM < "al_carboncillo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_carboncillo_x_rel" ]. al_cargo_de_p_vmod := p_vmod_le & [ STEM < "al_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_cargo_de_p_rel ]. al_centro_de_p_vmod := p_vmod_le & [ STEM < "al_centro_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_centro_de_p_rel ]. al_chas_chas_x1 := av_i_le & [ STEM < "al_chas_chas" >, SYNSEM.LKEYS.KEYREL.PRED "_al_chas_chas_x_rel" ]. al_cien_por_cien_x1 := av_i_le & [ STEM < "al_cien_por_cien" >, SYNSEM.LKEYS.KEYREL.PRED "_al_cien_por_cien_x_rel" ]. al_cierre_de_el_ejercicio_x1 := av_i_le & [ STEM < "al_cierre_del_ejercicio" >, SYNSEM.LKEYS.KEYREL.PRED "_al_cierre_del_ejercicio_x_rel" ]. al_clarear_el_día_x1 := av_i_le & [ STEM < "al_clarear_el_día" >, SYNSEM.LKEYS.KEYREL.PRED "_al_clarear_el_día_x_rel" ]. al_compás_de_p_vmod := p_vmod_le & [ STEM < "al_compás_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_compás_de_p_rel ]. al_conjuro_de_p_vmod := p_vmod_le & [ STEM < "al_conjuro_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_conjuro_de_p_rel ]. al_correr_de_el_tiempo_x1 := av_i_le & [ STEM < "al_correr_del_tiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_correr_del_tiempo_x_rel" ]. al_correr_de_la_pluma_x1 := av_i_le & [ STEM < "al_correr_de_la_pluma" >, SYNSEM.LKEYS.KEYREL.PRED "_al_correr_de_la_pluma_x_rel" ]. al_decir_de_p_vmod := p_vmod_le & [ STEM < "al_decir_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_decir_de_p_rel ]. al_derredor_de_p_vmod := p_vmod_le & [ STEM < "al_derredor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_derredor_de_p_rel ]. al_desbarate_x1 := av_i_le & [ STEM < "al_desbarate" >, SYNSEM.LKEYS.KEYREL.PRED "_al_desbarate_x_rel" ]. al_descuido_y_con_cuidado_x1 := av_i_le & [ STEM < "al_descuido_y_con_cuidado" >, SYNSEM.LKEYS.KEYREL.PRED "_al_descuido_y_con_cuidado_x_rel" ]. al_desgaire_x1 := av_i_le & [ STEM < "al_desgaire" >, SYNSEM.LKEYS.KEYREL.PRED "_al_desgaire_x_rel" ]. al_detall_x1 := av_i_le & [ STEM < "al_detall" >, SYNSEM.LKEYS.KEYREL.PRED "_al_detall_x_rel" ]. al_estricote_x1 := av_i_le & [ STEM < "al_estricote" >, SYNSEM.LKEYS.KEYREL.PRED "_al_estricote_x_rel" ]. al_filo_de_mediodía_x1 := av_i_le & [ STEM < "al_filo_de_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_al_filo_de_mediodía_x_rel" ]. al_filo_de_p_vmod := p_vmod_le & [ STEM < "al_filo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_filo_de_p_rel ]. al_fin_de_la_jornada_x1 := av_i_le & [ STEM < "al_fin_de_la_jornada" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_de_la_jornada_x_rel" ]. al_fin_y_a_la_postre_x1 := av_i_le & [ STEM < "al_fin_y_a_la_postre" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_y_a_la_postre_x_rel" ]. al_fin_y_al_cabo_x1 := av_i_le & [ STEM < "al_fin_y_al_cabo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_y_al_cabo_x_rel" ]. al_frente_de_p_vmod := p_vmod_le & [ STEM < "al_frente_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_frente_de_p_rel ]. al_gratén_x1 := av_i_le & [ STEM < "al_gratén" >, SYNSEM.LKEYS.KEYREL.PRED "_al_gratén_x_rel" ]. al_grill_x1 := av_i_le & [ STEM < "al_grill" >, SYNSEM.LKEYS.KEYREL.PRED "_al_grill_x_rel" ]. al_gusto_de_p_vmod := p_vmod_le & [ STEM < "al_gusto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_gusto_de_p_rel ]. al_hilo_de_el_viento_x1 := av_i_le & [ STEM < "al_hilo_del_viento" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_del_viento_x_rel" ]. al_hilo_de_mediodía_x1 := av_i_le & [ STEM < "al_hilo_de_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_de_mediodía_x_rel" ]. al_hilo_x1 := av_i_le & [ STEM < "al_hilo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_x_rel" ]. al_igual_que_sc := sc_prop_fin_le & [ STEM < "al_igual_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_igual_que_x_subord_rel" ]. al_interior_de_p_vmod := p_vmod_le & [ STEM < "al_interior_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_interior_de_p_rel ]. al_libre_albedrío_x1 := av_i_le & [ STEM < "al_libre_albedrío" >, SYNSEM.LKEYS.KEYREL.PRED "_al_libre_albedrío_x_rel" ]. al_lucero_de_el_alba_x1 := av_i_le & [ STEM < "al_lucero_del_alba" >, SYNSEM.LKEYS.KEYREL.PRED "_al_lucero_de_el_alba_x_rel" ]. al_mejor_tiempo_x1 := av_i_le & [ STEM < "al_mejor_tiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_mejor_tiempo_x_rel" ]. al_modo_de_p_vmod := p_vmod_le & [ STEM < "al_modo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_modo_de_p_rel ]. al_objeto_de_p_vmod := p_vmod_le & [ STEM < "al_objeto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_objeto_de_p_rel ]. al_olor_de_p_vmod := p_vmod_le & [ STEM < "al_olor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_olor_de_p_rel ]. al_par_que_sc := sc_prop_fin_le & [ STEM < "al_par_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_par_que_x_subord_rel" ]. al_paso_que_sc := sc_prop_fin_le & [ STEM < "al_paso_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_paso_que_x_subord_rel" ]. al_paño_x1 := av_i_le & [ STEM < "al_paño" >, SYNSEM.LKEYS.KEYREL.PRED "_al_paño_x_rel" ]. al_pie_de_fábrica_x1 := av_i_le & [ STEM < "al_pie_de_fábrica" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_fábrica_x_rel" ]. al_pie_de_la_cuesta_x1 := av_i_le & [ STEM < "al_pie_de_la_cuesta" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_cuesta_x_rel" ]. al_pie_de_la_letra_x1 := av_i_le & [ STEM < "al_pie_de_la_letra" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_letra_x_rel" ]. al_pie_de_la_obra_x1 := av_i_le & [ STEM < "al_pie_de_la_obra" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_obra_x_rel" ]. al_poco_rato_x1 := av_i_le & [ STEM < "al_poco_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_al_poco_rato_x_rel" ]. al_por_mayor_x1 := av_i_le & [ STEM < "al_por_mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_por_mayor_x_rel" ]. al_por_menor_x1 := av_i_le & [ STEM < "al_por_menor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_por_menor_x_rel" ]. al_primer_envite_x1 := av_i_le & [ STEM < "al_primer_envite" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_envite_x_rel" ]. al_primer_folio_x1 := av_i_le & [ STEM < "al_primer_folio" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_folio_x_rel" ]. al_primer_gallo_x1 := av_i_le & [ STEM < "al_primer_gallo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_gallo_x_rel" ]. al_primer_golpe_de_vista_x1 := av_i_le & [ STEM < "al_primer_golpe_de_vista" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_golpe_de_vista_x_rel" ]. al_primer_impulso_x1 := av_i_le & [ STEM < "al_primer_impulso" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_impulso_x_rel" ]. al_punto_que_sc := sc_prop_fin_le & [ STEM < "al_punto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_punto_que_x_subord_rel" ]. al_rape_x1 := av_i_le & [ STEM < "al_rape" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rape_x_rel" ]. al_raso_x1 := av_i_le & [ STEM < "al_raso" >, SYNSEM.LKEYS.KEYREL.PRED "_al_raso_x_rel" ]. al_rededor_x1 := av_i_le & [ STEM < "al_rededor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rededor_x_rel" ]. al_retortero_x1 := av_i_le & [ STEM < "al_retortero" >, SYNSEM.LKEYS.KEYREL.PRED "_al_retortero_x_rel" ]. al_rojo_blanco_x1 := av_i_le & [ STEM < "al_rojo_blanco" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rojo_blanco_x_rel" ]. al_rojo_cereza_x1 := av_i_le & [ STEM < "al_rojo_cereza" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rojo_cereza_x_rel" ]. al_sesgo_x1 := av_i_le & [ STEM < "al_sesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_sesgo_x_rel" ]. al_socaire_de_p_vmod := p_vmod_le & [ STEM < "al_socaire_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_socaire_de_p_rel ]. al_socaire_x1 := av_i_le & [ STEM < "al_socaire" >, SYNSEM.LKEYS.KEYREL.PRED "_al_socaire_x_rel" ]. al_tanto_de_p_vmod := p_vmod_le & [ STEM < "al_tanto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_tanto_de_p_rel ]. al_temple_x1 := av_i_le & [ STEM < "al_temple" >, SYNSEM.LKEYS.KEYREL.PRED "_al_temple_x_rel" ]. al_tendido_x1 := av_i_le & [ STEM < "al_tendido" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tendido_x_rel" ]. al_tenor_de_p_vmod := p_vmod_le & [ STEM < "al_tenor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_tenor_de_p_rel ]. al_tiempo_que_sc := sc_prop_fin_le & [ STEM < "al_tiempo_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tiempo_que_x_subord_rel" ]. al_tresbolillo_x1 := av_i_le & [ STEM < "al_tresbolillo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tresbolillo_x_rel" ]. al_volateo_x1 := av_i_le & [ STEM < "al_volateo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_volateo_x_rel" ]. ala_n1 := n_intr_count_le & [ STEM < "ala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ala_n_rel" ] ]. alabador_a1 := a_rel_nonprd_intr_le & [ STEM < "alabador" >, SYNSEM.LKEYS.KEYREL.PRED "_alabador_a_rel" ]. alabandita_n1 := n_intr_count_le & [ STEM < "alabandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alabandita_n_rel" ] ]. alabanza_n1 := n_trans_le & [ STEM < "alabanza" >, SYNSEM.LKEYS.KEYREL.PRED "_alabanza_n_rel" ]. alabar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "alabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ] ]. alabar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "alabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alabar_v_rel" ] ] ]. alabar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabar_v4 := v_trans_cp_semi_ques_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabar_v5 := v_trans_np_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabarda_n1 := n_intr_count_le & [ STEM < "alabarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alabarda_n_rel" ] ]. alabardero_n1 := n_intr_count_le & [ STEM < "alabardero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alabardero_n_rel" ] ]. alabastrado_a1 := a_qual_intr_scopal_le & [ STEM < "alabastrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alabastrado_a_rel" ]. alabastrino_a1 := a_qual_intr_scopal_le & [ STEM < "alabastrino" >, SYNSEM.LKEYS.KEYREL.PRED "_alabastrino_a_rel" ]. alabastro_n1 := n_intr_mass_le & [ STEM < "alabastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alabastro_n_rel" ] ]. alabear_v := v_trans_np_caus_le & [ STEM < "alabear" >, SYNSEM.LKEYS.KEYREL.PRED "_alabear_v_rel" ]. alabeo_n1 := n_trans_le & [ STEM < "alabeo" >, SYNSEM.LKEYS.KEYREL.PRED "_alabeo_n_rel" ]. alacena_n1 := n_intr_count_le & [ STEM < "alacena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alacena_n_rel" ] ]. alacridad_n1 := n_intr_mass_le & [ STEM < "alacridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alacridad_n_rel" ] ]. alacrán_n1 := n_intr_count_le & [ STEM < "alacrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alacrán_n_rel" ] ]. alado_a1 := a_rel_nonprd_intr_le & [ STEM < "alado" >, SYNSEM.LKEYS.KEYREL.PRED "_alado_a_rel" ]. alajú_n1 := n_intr_count_le & [ STEM < "alajú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alajú_n_rel" ] ]. alambicar_v := v_trans_np_le & [ STEM < "alambicar" >, SYNSEM.LKEYS.KEYREL.PRED "_alambicar_v_rel" ]. alambique_n1 := n_intr_count_le & [ STEM < "alambique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambique_n_rel" ] ]. alambor_n1 := n_intr_count_le & [ STEM < "alambor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambor_n_rel" ] ]. alambrada_n1 := n_intr_count_le & [ STEM < "alambrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambrada_n_rel" ] ]. alambrado_n1 := n_trans_le & [ STEM < "alambrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alambrado_n_rel" ]. alambrar_v := v_trans_np_le & [ STEM < "alambrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc_loc, PRED "_alambrar_v_rel" ] ]. alambre_n1 := n_intr_mass-or-count_le & [ STEM < "alambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alambre_n_rel" ] ]. alambrera_n1 := n_intr_count_le & [ STEM < "alambrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambrera_n_rel" ] ]. alameda_n1 := n_intr_count_le & [ STEM < "alameda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alameda_n_rel" ] ]. alanita_n1 := n_intr_count_le & [ STEM < "alanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alanita_n_rel" ] ]. alantoína_n1 := n_intr_count_le & [ STEM < "alantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alantoína_n_rel" ] ]. alarde_n1 := n_result_intr_ppcomp_le & [ STEM < "alarde" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alarde_n_rel" ] ]. alargadamente_x1 := av_i_spr_le & [ STEM < "alargadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alargadamente_x_rel" ]. alargador_n1 := n_intr_count_le & [ STEM < "alargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alargador_n_rel" ] ]. alargamiento_n1 := n_trans_le & [ STEM < "alargamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alargamiento_n_rel" ]. alargar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "alargar" >, SYNSEM.LKEYS.KEYREL.PRED "_alargar_v_rel" ]. alargar_v2 := v_trans_np_caus_le & [ STEM < "alargar" >, SYNSEM.LKEYS.KEYREL.PRED "_alargar_v_rel" ]. alarido_n1 := n_intr_count_le & [ STEM < "alarido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alarido_n_rel" ] ]. alarma_n1 := n_intr_mass-or-count_le & [ STEM < "alarma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alarma_n_rel" ] ]. alarmante_a1 := a_qual_intr_scopal_le & [ STEM < "alarmante" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmante_a_rel" ]. alarmantemente_x1 := av_i_spr_le & [ STEM < "alarmantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmantemente_x_rel" ]. alarmar_v1 := v_intr_io*_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_alarmar_v_rel" ] ]. alarmar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmar_v_rel" ]. alarmar_v3 := v_trans_np_caus_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_alarmar_v_rel" ] ]. alarmista_a1 := a_qual_intr_ser_le & [ STEM < "alarmista" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmista_a_rel" ]. alarmista_n1 := n_intr_count_le & [ STEM < "alarmista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alarmista_n_rel" ] ]. alavés_a1 := a_rel_prd_le & [ STEM < "alavés" >, SYNSEM.LKEYS.KEYREL.PRED "_alavés_a_rel" ]. alavés_n1 := n_intr_count_le & [ STEM < "alavés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alavés_n_rel" ] ]. alazor_n1 := n_intr_count_le & [ STEM < "alazor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alazor_n_rel" ] ]. alba_n1 := n_intr_count_le & [ STEM < "alba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_alba_n_rel" ] ]. albacea_n1 := n_intr_count_le & [ STEM < "albacea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albacea_n_rel" ] ]. albaceazgo_n1 := n_intr_uncount_le & [ STEM < "albaceazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albaceazgo_n_rel" ] ]. albaceteño_n1 := n_intr_count_le & [ STEM < "albaceteño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albaceteño_n_rel" ] ]. albahaca_n1 := n_intr_mass-or-count_le & [ STEM < "albahaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_albahaca_n_rel" ] ]. albano_a1 := a_rel_prd_le & [ STEM < "albano" >, SYNSEM.LKEYS.KEYREL.PRED "_albano_a_rel" ]. albano_n1 := n_intr_count_le & [ STEM < "albano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albano_n_rel" ] ]. albanés_a1 := a_rel_prd_le & [ STEM < "albanés" >, SYNSEM.LKEYS.KEYREL.PRED "_albanés_a_rel" ]. albanés_n1 := n_intr_count_le & [ STEM < "albanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albanés_n_rel" ] ]. albar_a1 := a_qual_intr_ser_le & [ STEM < "albar" >, SYNSEM.LKEYS.KEYREL.PRED "_albar_a_rel" ]. albarda_n1 := n_intr_count_le & [ STEM < "albarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarda_n_rel" ] ]. albaricoque_n1 := n_intr_mass_le & [ STEM < "albaricoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albaricoque_n_rel" ] ]. albaricoquero_n1 := n_intr_count_le & [ STEM < "albaricoquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_albaricoquero_n_rel" ] ]. albarrada_n1 := n_intr_count_le & [ STEM < "albarrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarrada_n_rel" ] ]. albarán_n1 := n_intr_count_le & [ STEM < "albarán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarán_n_rel" ] ]. albatros_n1 := n_intr_count_le & [ STEM < "albatros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_albatros_n_rel" ] ]. albañal_n1 := n_intr_count_le & [ STEM < "albañal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albañal_n_rel" ] ]. albañil_n1 := n_intr_count_le & [ STEM < "albañil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albañil_n_rel" ] ]. albañilería_n1 := n_intr_uncount_le & [ STEM < "albañilería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albañilería_n_rel" ] ]. albedo_n1 := n_intr_uncount_le & [ STEM < "albedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albedo_n_rel" ] ]. albedrío_n1 := n_intr_uncount_pl_le & [ STEM < "albedrío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albedrío_n_rel" ] ]. alberca_n1 := n_intr_count_le & [ STEM < "alberca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alberca_n_rel" ] ]. albergar_v := v_trans_np_le & [ STEM < "albergar" >, SYNSEM.LKEYS.KEYREL.PRED "_albergar_v_rel" ]. albergue_n1 := n_intr_count_le & [ STEM < "albergue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_albergue_n_rel" ] ]. albertita_n1 := n_intr_count_le & [ STEM < "albertita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albertita_n_rel" ] ]. albicante_a1 := a_qual_intr_ser_le & [ STEM < "albicante" >, SYNSEM.LKEYS.KEYREL.PRED "_albicante_a_rel" ]. albigense_a1 := a_rel_prd_le & [ STEM < "albigense" >, SYNSEM.LKEYS.KEYREL.PRED "_albigense_a_rel" ]. albigense_n1 := n_intr_count_le & [ STEM < "albigense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albigense_n_rel" ] ]. albinismo_n1 := n_intr_uncount_le & [ STEM < "albinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albinismo_n_rel" ] ]. albino_a1 := a_qual_intr_ser_le & [ STEM < "albino" >, SYNSEM.LKEYS.KEYREL.PRED "_albino_a_rel" ]. albita_n1 := n_intr_count_le & [ STEM < "albita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albita_n_rel" ] ]. albor_n1 := n_intr_uncount_pl_le & [ STEM < "albor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albor_n_rel" ] ]. alborada_n1 := n_intr_uncount_le & [ STEM < "alborada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborada_n_rel" ] ]. alborada_n2 := n_intr_count_le & [ STEM < "alborada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborada_n_rel" ] ]. albornoz_n1 := n_intr_count_le & [ STEM < "albornoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albornoz_n_rel" ] ]. alborotadamente_x1 := av_i_spr_le & [ STEM < "alborotadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alborotadamente_x_rel" ]. alborotador_n1 := n_subj-nom_le & [ STEM < "alborotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alborotador_n_rel" ] ]. alborotar_v := v_trans_np_caus_le & [ STEM < "alborotar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborotar_v_rel" ]. alboroto_n1 := n_trans_le & [ STEM < "alboroto" >, SYNSEM.LKEYS.KEYREL.PRED "_alboroto_n_rel" ]. alborozar_v1 := v_intr_io*_le & [ STEM < "alborozar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborozar_v_rel" ]. alborozar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alborozar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborozar_v_rel" ]. alborozo_n1 := n_intr_mass_le & [ STEM < "alborozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborozo_n_rel" ] ]. albufera_n1 := n_intr_count_le & [ STEM < "albufera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_albufera_n_rel" ] ]. albugínea_n1 := n_intr_uncount_le & [ STEM < "albugínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albugínea_n_rel" ] ]. albumen_n1 := n_intr_mass-or-count_le & [ STEM < "albumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_albumen_n_rel" ] ]. albuminemia_n1 := n_intr_uncount_le & [ STEM < "albuminemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albuminemia_n_rel" ] ]. albuminoide_n1 := n_intr_count_le & [ STEM < "albuminoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albuminoide_n_rel" ] ]. albuminoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminoideo_a_rel" ]. albuminosamente_x1 := av_i_spr_le & [ STEM < "albuminosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminosamente_x_rel" ]. albuminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminoso_a_rel" ]. albuminúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminúrico_a_rel" ]. albumosa_n1 := n_intr_mass-or-count_le & [ STEM < "albumosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_albumosa_n_rel" ] ]. albur_n1 := n_intr_count_le & [ STEM < "albur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albur_n_rel" ] ]. albura_n1 := n_intr_uncount_le & [ STEM < "albura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albura_n_rel" ] ]. albóndiga_n1 := n_intr_count_le & [ STEM < "albóndiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albóndiga_n_rel" ] ]. albúmina_n1 := n_intr_mass_le & [ STEM < "albúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albúmina_n_rel" ] ]. alca_n1 := n_intr_count_le & [ STEM < "alca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alca_n_rel" ] ]. alcabor_n1 := n_intr_count_le & [ STEM < "alcabor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcabor_n_rel" ] ]. alcachofa_n1 := n_intr_mass_le & [ STEM < "alcachofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcachofa_n_rel" ] ]. alcachofera_n1 := n_intr_count_le & [ STEM < "alcachofera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcachofera_n_rel" ] ]. alcahuete_n1 := n_intr_count_le & [ STEM < "alcahuete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcahuete_n_rel" ] ]. alcahuetería_n1 := n_intr_uncount_le & [ STEM < "alcahuetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcahuetería_n_rel" ] ]. alcaide_n1 := n_intr_count_le & [ STEM < "alcaide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcaide_n_rel" ] ]. alcalde_n1 := n_intr_count_le & [ STEM < "alcalde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcalde_n_rel" ] ]. alcaldesa_n1 := n_intr_count_le & [ STEM < "alcaldesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcaldesa_n_rel" ] ]. alcaldía_n1 := n_intr_count_le & [ STEM < "alcaldía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_alcaldía_n_rel" ] ]. alcalimetría_n1 := n_intr_count_le & [ STEM < "alcalimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalimetría_n_rel" ] ]. alcalinidad_n1 := n_ppcomp_mass_le & [ STEM < "alcalinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalinidad_n_rel" ] ]. alcalinización_n1 := n_trans_le & [ STEM < "alcalinización" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalinización_n_rel" ]. alcalino_a1 := a_rel_nonprd_intr_le & [ STEM < "alcalino" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalino_a_rel" ]. alcalinotérreo_a1 := a_rel_nonprd_intr_le & [ STEM < "alcalinotérreo" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalinotérreo_a_rel" ]. alcalizar_v := v_trans_np_le & [ STEM < "alcalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalizar_v_rel" ]. alcaloide_n1 := n_intr_count_le & [ STEM < "alcaloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcaloide_n_rel" ] ]. alcalosis_n1 := n_intr_uncount_le & [ STEM < "alcalosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalosis_n_rel" ] ]. alcalímetro_n1 := n_intr_count_le & [ STEM < "alcalímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcalímetro_n_rel" ] ]. alcance_n1 := n_trans_le & [ STEM < "alcance" >, SYNSEM.LKEYS.KEYREL.PRED "_alcance_n_rel" ]. alcancía_n1 := n_intr_count_le & [ STEM < "alcancía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcancía_n_rel" ] ]. alcanfor_n1 := n_intr_mass_le & [ STEM < "alcanfor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcanfor_n_rel" ] ]. alcanforero_n1 := n_intr_count_le & [ STEM < "alcanforero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcanforero_n_rel" ] ]. alcano_n1 := n_intr_count_le & [ STEM < "alcano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcano_n_rel" ] ]. alcanosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcanosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanosulfónico_a_rel" ]. alcantarilla_n1 := n_intr_count_le & [ STEM < "alcantarilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcantarilla_n_rel" ] ]. alcantarillado_n1 := n_intr_mass_le & [ STEM < "alcantarillado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcantarillado_n_rel" ] ]. alcanzable_a1 := a_qual_intr_scopal_le & [ STEM < "alcanzable" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzable_a_rel" ]. alcanzar_v1 := v_ditrans_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v2 := v_intr_io*_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v3 := v_intr_mrkd_vp_ssr_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alcanzar_v_rel" ] ]. alcanzar_v4 := v_intr_mrkd_np_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_alcanzar_v_rel" ] ] ]. alcanzar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v6 := v_trans_cp_prop_fin_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alcanzar_v_rel" ] ]. alcanzar_v7 := v_trans_np_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alcanzar_v_rel" ] ]. alcanzar_v8 := v_intr_mrkd_vp_ssr_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alcanzar_v_rel" ] ]. alcaparra_n1 := n_intr_mass_le & [ STEM < "alcaparra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcaparra_n_rel" ] ]. alcaparrera_n1 := n_intr_count_le & [ STEM < "alcaparrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcaparrera_n_rel" ] ]. alcaravea_n1 := n_intr_mass_le & [ STEM < "alcaravea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcaravea_n_rel" ] ]. alcarreño_n1 := n_intr_count_le & [ STEM < "alcarreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcarreño_n_rel" ] ]. alcatraz_n1 := n_intr_count_le & [ STEM < "alcatraz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcatraz_n_rel" ] ]. alcaudón_n1 := n_intr_count_le & [ STEM < "alcaudón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcaudón_n_rel" ] ]. alcayata_n1 := n_intr_count_le & [ STEM < "alcayata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcayata_n_rel" ] ]. alcazaba_n1 := n_intr_count_le & [ STEM < "alcazaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcazaba_n_rel" ] ]. alce_n1 := n_intr_count_le & [ STEM < "alce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alce_n_rel" ] ]. alcista_a1 := a_rel_nonprd_intr_le & [ STEM < "alcista" >, SYNSEM.LKEYS.KEYREL.PRED "_alcista_a_rel" ]. alcista_a2 := a_qual_intr_ser_le & [ STEM < "alcista" >, SYNSEM.LKEYS.KEYREL.PRED "_alcista_a_rel" ]. alcoba_n1 := n_intr_count_le & [ STEM < "alcoba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alcoba_n_rel" ] ]. alcohilato_n1 := n_intr_count_le & [ STEM < "alcohilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcohilato_n_rel" ] ]. alcohilo_n1 := n_intr_mass-or-count_le & [ STEM < "alcohilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alcohilo_n_rel" ] ]. alcohol_n1 := n_intr_count_le & [ STEM < "alcohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcohol_n_rel" ] ]. alcoholato_n1 := n_intr_count_le & [ STEM < "alcoholato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcoholato_n_rel" ] ]. alcoholatura_n1 := n_intr_count_le & [ STEM < "alcoholatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholatura_n_rel" ] ]. alcoholaturo_n1 := n_intr_mass_le & [ STEM < "alcoholaturo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcoholaturo_n_rel" ] ]. alcoholemia_n1 := n_intr_uncount_le & [ STEM < "alcoholemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholemia_n_rel" ] ]. alcoholimetría_n1 := n_intr_count_le & [ STEM < "alcoholimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholimetría_n_rel" ] ]. alcoholismo_n1 := n_intr_uncount_le & [ STEM < "alcoholismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholismo_n_rel" ] ]. alcoholización_n1 := n_trans_le & [ STEM < "alcoholización" >, SYNSEM.LKEYS.KEYREL.PRED "_alcoholización_n_rel" ]. alcoholizar_v := v_trans_np_caus_le & [ STEM < "alcoholizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcoholizar_v_rel" ]. alcoholímetro_n1 := n_intr_count_le & [ STEM < "alcoholímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcoholímetro_n_rel" ] ]. alcohólico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcohólico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcohólico_a_rel" ]. alcohólico_n1 := n_intr_count_le & [ STEM < "alcohólico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcohólico_n_rel" ] ]. alcohómetro_n1 := n_intr_count_le & [ STEM < "alcohómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_alcohómetro_n_rel" ] ]. alcornoque_n1 := n_intr_count_le & [ STEM < "alcornoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcornoque_n_rel" ] ]. alcorque_n1 := n_intr_count_le & [ STEM < "alcorque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alcorque_n_rel" ] ]. alcorza_n1 := n_intr_mass-or-count_le & [ STEM < "alcorza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alcorza_n_rel" ] ]. alcosol_n1 := n_intr_count_le & [ STEM < "alcosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcosol_n_rel" ] ]. alcotán_n1 := n_intr_count_le & [ STEM < "alcotán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcotán_n_rel" ] ]. alcurnia_n1 := n_intr_mass_le & [ STEM < "alcurnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcurnia_n_rel" ] ]. alcázar_n1 := n_intr_count_le & [ STEM < "alcázar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcázar_n_rel" ] ]. alcídicamente_x1 := av_i_spr_le & [ STEM < "alcídicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alcídicamente_x_rel" ]. alcídico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcídico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcídico_a_rel" ]. aldaba_n1 := n_intr_count_le & [ STEM < "aldaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aldaba_n_rel" ] ]. aldabilla_n1 := n_intr_count_le & [ STEM < "aldabilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aldabilla_n_rel" ] ]. aldea_n1 := n_intr_count_le & [ STEM < "aldea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aldea_n_rel" ] ]. aldeano_a1 := a_qual_intr_ser_le & [ STEM < "aldeano" >, SYNSEM.LKEYS.KEYREL.PRED "_aldeano_a_rel" ]. aldeano_n1 := n_intr_count_le & [ STEM < "aldeano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aldeano_n_rel" ] ]. aldehído_n1 := n_intr_mass_le & [ STEM < "aldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldehído_n_rel" ] ]. aldimina_n1 := n_intr_count_le & [ STEM < "aldimina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldimina_n_rel" ] ]. aldol_n1 := n_intr_count_le & [ STEM < "aldol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldol_n_rel" ] ]. aldosterona_n1 := n_intr_count_le & [ STEM < "aldosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldosterona_n_rel" ] ]. aldoxima_n1 := n_intr_mass-or-count_le & [ STEM < "aldoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aldoxima_n_rel" ] ]. aldrina_n1 := n_intr_count_le & [ STEM < "aldrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldrina_n_rel" ] ]. aleación_n1 := n_trans_le & [ STEM < "aleación" >, SYNSEM.LKEYS.KEYREL.PRED "_aleación_n_rel" ]. alear_v := v_trans_np_le & [ STEM < "alear" >, SYNSEM.LKEYS.KEYREL.PRED "_alear_v_rel" ]. aleatoriamente_x1 := av_i_spr_le & [ STEM < "aleatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aleatoriamente_x_rel" ]. aleatoriedad_n1 := n_ppcomp_mass_le & [ STEM < "aleatoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleatoriedad_n_rel" ] ]. aleatorio_a1 := a_qual_intr_scopal_le & [ STEM < "aleatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aleatorio_a_rel" ]. aleatorización_n1 := n_intr_uncount_le & [ STEM < "aleatorización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleatorización_n_rel" ] ]. aleccionamiento_n1 := n_trans_le & [ STEM < "aleccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aleccionamiento_n_rel" ]. aleccionar_v := v_trans_np_mrkd_np*_le & [ STEM < "aleccionar" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_aleccionar_v_rel" ] ]. aledaño_a1 := a_qual_trans*_ser_le & [ STEM < "aledaño" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_aledaño_a_rel" ] ]. aledaño_n1 := n_intr_count_le & [ STEM < "aledaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_aledaño_n_rel" ] ]. alegación_n1 := n_trans_le & [ STEM < "alegación" >, SYNSEM.LKEYS.KEYREL.PRED "_alegación_n_rel" ]. alegar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "alegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alegar_v_rel" ] ]. alegar_v2 := v_ditrans*_le & [ STEM < "alegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alegar_v_rel" ] ]. alegato_n1 := n_intr_count_le & [ STEM < "alegato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alegato_n_rel" ] ]. alegoría_n1 := n_intr_count_le & [ STEM < "alegoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_alegoría_n_rel" ] ]. alegrar_v1 := v_intr_io*_le & [ STEM < "alegrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alegrar_v_rel" ]. alegrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alegrar_v_rel" ] ] ]. alegrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alegrar_v_rel" ] ] ]. alegrar_v4 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_alegrar_v_rel" ] ] ]. alegrar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alegrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alegrar_v_rel" ]. alegre_a1 := a_qual_intr_ser_le & [ STEM < "alegre" >, SYNSEM.LKEYS.KEYREL.PRED "_alegre_a_rel" ]. alegre_a2 := a_qual_trans_estar_le & [ STEM < "alegre" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_alegre_a_rel" ] ]. alegremente_x1 := av_i_spr_le & [ STEM < "alegremente" >, SYNSEM.LKEYS.KEYREL.PRED "_alegremente_x_rel" ]. alegría_n1 := n_intr_mass-or-count_le & [ STEM < "alegría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alegría_n_rel" ] ]. alegóricamente_x1 := av_i_spr_le & [ STEM < "alegóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alegóricamente_x_rel" ]. alegórico_a1 := a_qual_intr_scopal_le & [ STEM < "alegórico" >, SYNSEM.LKEYS.KEYREL.PRED "_alegórico_a_rel" ]. alejamiento_n1 := n_trans_le & [ STEM < "alejamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alejamiento_n_rel" ]. alejandrino_n1 := n_intr_count_le & [ STEM < "alejandrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_alejandrino_n_rel" ] ]. alejandrita_n1 := n_intr_count_le & [ STEM < "alejandrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alejandrita_n_rel" ] ]. alejar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alejar_v_rel" ] ] ]. alejar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alejar_v_rel" ] ]. alejar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "alejar" >, SYNSEM.LKEYS.KEYREL.PRED "_alejar_v_rel" ]. alejar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alejar_v_rel" ] ]. aleladamente_x1 := av_i_spr_le & [ STEM < "aleladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aleladamente_x_rel" ]. alelamiento_n1 := n_trans_le & [ STEM < "alelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alelamiento_n_rel" ]. alelar_v1 := v_intr_io*_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL.PRED "_alelar_v_rel" ]. alelar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL.PRED "_alelar_v_rel" ]. alelar_v3 := v_trans_np_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_alelar_v_rel" ] ]. alelismo_n1 := n_intr_uncount_le & [ STEM < "alelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelismo_n_rel" ] ]. alelo_n1 := n_intr_count_le & [ STEM < "alelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alelo_n_rel" ] ]. alelomorfismo_n1 := n_intr_uncount_le & [ STEM < "alelomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelomorfismo_n_rel" ] ]. alelomorfo_n1 := n_intr_count_le & [ STEM < "alelomorfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alelomorfo_n_rel" ] ]. alelotipo_n1 := n_intr_count_le & [ STEM < "alelotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelotipo_n_rel" ] ]. aleluya_n1 := n_intr_count_le & [ STEM < "aleluya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleluya_n_rel" ] ]. alemán_a1 := a_rel_prd_le & [ STEM < "alemán" >, SYNSEM.LKEYS.KEYREL.PRED "_alemán_a_rel" ]. alemán_n1 := n_intr_count_le & [ STEM < "alemán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alemán_n_rel" ] ]. aleno_n1 := n_intr_mass-or-count_le & [ STEM < "aleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aleno_n_rel" ] ]. alentador_a1 := a_qual_intr_scopal_le & [ STEM < "alentador" >, SYNSEM.LKEYS.KEYREL.PRED "_alentador_a_rel" ]. alentar_v1 := v_intr_io*_le & [ STEM < "alentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alentar_v_rel" ]. alentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alentar_v_rel" ]. alentar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alentar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alentar_v5 := v_trans_np_mrkd_np_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alerce_n1 := n_intr_count_le & [ STEM < "alerce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alerce_n_rel" ] ]. alergeno_n1 := n_intr_mass_le & [ STEM < "alergeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alergeno_n_rel" ] ]. alergia_n1 := n_intr_mass_le & [ STEM < "alergia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergia_n_rel" ] ]. alergización_n1 := n_intr_uncount_le & [ STEM < "alergización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergización_n_rel" ] ]. alergizar_v := v_pron_intr_le & [ STEM < "alergizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alergizar_v_rel" ]. alergología_n1 := n_intr_uncount_le & [ STEM < "alergología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergología_n_rel" ] ]. alergólogo_n1 := n_intr_count_le & [ STEM < "alergólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alergólogo_n_rel" ] ]. alero_n1 := n_intr_count_le & [ STEM < "alero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_loc, PRED "_alero_n_rel" ] ]. alerta_n1 := n_intr_mass-or-count_le & [ STEM < "alerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alerta_n_rel" ] ]. alerta_x1 := av_i_psthd_spr_le & [ STEM < "alerta" >, SYNSEM.LKEYS.KEYREL.PRED "_alerta_x_rel" ]. alertar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "alertar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alertar_v_rel" ] ] ]. alertar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "alertar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alertar_v_rel" ] ] ]. alerón_n1 := n_intr_count_le & [ STEM < "alerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alerón_n_rel" ] ]. aleta_n1 := n_intr_count_le & [ STEM < "aleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aleta_n_rel" ] ]. aletazo_n1 := n_intr_count_le & [ STEM < "aletazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aletazo_n_rel" ] ]. aletear_v := v_intr_le & [ STEM < "aletear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_aletear_v_rel" ] ]. aleteo_n1 := n_result_intr_le & [ STEM < "aleteo" >, SYNSEM.LKEYS.KEYREL.PRED "_aleteo_n_rel" ]. aletrina_n1 := n_intr_count_le & [ STEM < "aletrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aletrina_n_rel" ] ]. aleucémico_a1 := a_rel_nonprd_intr_le & [ STEM < "aleucémico" >, SYNSEM.LKEYS.KEYREL.PRED "_aleucémico_a_rel" ]. aleurona_n1 := n_intr_count_le & [ STEM < "aleurona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aleurona_n_rel" ] ]. alevosamente_x1 := av_i_spr_le & [ STEM < "alevosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alevosamente_x_rel" ]. alevoso_a1 := a_qual_intr_scopal_le & [ STEM < "alevoso" >, SYNSEM.LKEYS.KEYREL.PRED "_alevoso_a_rel" ]. alevosía_n1 := n_intr_uncount_le & [ STEM < "alevosía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alevosía_n_rel" ] ]. alevín_n1 := n_intr_count_le & [ STEM < "alevín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alevín_n_rel" ] ]. alexia_n1 := n_intr_uncount_pl_le & [ STEM < "alexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alexia_n_rel" ] ]. alexina_n1 := n_intr_count_le & [ STEM < "alexina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alexina_n_rel" ] ]. alexitimia_n1 := n_intr_uncount_le & [ STEM < "alexitimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alexitimia_n_rel" ] ]. alfa_a1 := a_rel_nonprd_intr_le & [ STEM < "alfa" >, SYNSEM.LKEYS.KEYREL.PRED "_alfa_a_rel" ]. alfa_n1 := n_intr_uncount_le & [ STEM < "alfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfa_n_rel" ] ]. alfabetización_n1 := n_trans_le & [ STEM < "alfabetización" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabetización_n_rel" ]. alfabetizar_v := v_trans_np_le & [ STEM < "alfabetizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_alfabetizar_v_rel" ] ]. alfabeto_n1 := n_intr_count_le & [ STEM < "alfabeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfabeto_n_rel" ] ]. alfabéticamente_x1 := av_i_spr_le & [ STEM < "alfabéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabéticamente_x_rel" ]. alfabético_a1 := a_rel_nonprd_intr_le & [ STEM < "alfabético" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabético_a_rel" ]. alfafetoproteína_n1 := n_intr_count_le & [ STEM < "alfafetoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfafetoproteína_n_rel" ] ]. alfaglobulina_n1 := n_intr_count_le & [ STEM < "alfaglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfaglobulina_n_rel" ] ]. alfalfa_n1 := n_intr_mass_le & [ STEM < "alfalfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alfalfa_n_rel" ] ]. alfanje_n1 := n_intr_count_le & [ STEM < "alfanje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfanje_n_rel" ] ]. alfanuméricamente_x1 := av_i_spr_le & [ STEM < "alfanuméricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alfanuméricamente_x_rel" ]. alfanumérico_a1 := a_rel_nonprd_intr_le & [ STEM < "alfanumérico" >, SYNSEM.LKEYS.KEYREL.PRED "_alfanumérico_a_rel" ]. alfaque_n1 := n_intr_count_le & [ STEM < "alfaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alfaque_n_rel" ] ]. alfarero_n1 := n_intr_count_le & [ STEM < "alfarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alfarero_n_rel" ] ]. alfarería_n1 := n_intr_uncount_le & [ STEM < "alfarería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfarería_n_rel" ] ]. alfarje_n1 := n_intr_count_le & [ STEM < "alfarje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfarje_n_rel" ] ]. alfarrazar_v := v_trans_np_le & [ STEM < "alfarrazar" >, SYNSEM.LKEYS.KEYREL.PRED "_alfarrazar_v_rel" ]. alfeñique_n1 := n_intr_count_le & [ STEM < "alfeñique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alfeñique_n_rel" ] ]. alfil_n1 := n_intr_count_le & [ STEM < "alfil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfil_n_rel" ] ]. alfiler_n1 := n_intr_count_le & [ STEM < "alfiler" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfiler_n_rel" ] ]. alfombra_n1 := n_intr_count_le & [ STEM < "alfombra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfombra_n_rel" ] ]. alfombrado_n1 := n_trans_le & [ STEM < "alfombrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alfombrado_n_rel" ]. alfombrar_v := v_trans_np_le & [ STEM < "alfombrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alfombrar_v_rel" ] ]. alfondega_n1 := n_intr_count_le & [ STEM < "alfondega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfondega_n_rel" ] ]. alforfón_n1 := n_intr_mass_le & [ STEM < "alforfón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alforfón_n_rel" ] ]. alforja_n1 := n_intr_count_le & [ STEM < "alforja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alforja_n_rel" ] ]. alféizar_n1 := n_intr_count_le & [ STEM < "alféizar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alféizar_n_rel" ] ]. alférez_n1 := n_intr_count_le & [ STEM < "alférez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alférez_n_rel" ] ]. alga_n1 := n_intr_mass_le & [ STEM < "alga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alga_n_rel" ] ]. algal_a1 := a_rel_nonprd_intr_le & [ STEM < "algal" >, SYNSEM.LKEYS.KEYREL.PRED "_algal_a_rel" ]. algar_n1 := n_intr_count_le & [ STEM < "algar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_algar_n_rel" ] ]. algarabía_n1 := n_intr_mass_le & [ STEM < "algarabía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algarabía_n_rel" ] ]. algarada_n1 := n_intr_count_le & [ STEM < "algarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algarada_n_rel" ] ]. algarroba_n1 := n_intr_mass_le & [ STEM < "algarroba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_algarroba_n_rel" ] ]. algarrobero_n1 := n_intr_count_le & [ STEM < "algarrobero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_algarrobero_n_rel" ] ]. algarrobo_n1 := n_intr_count_le & [ STEM < "algarrobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_algarrobo_n_rel" ] ]. algebraicamente_x1 := av_i_spr_le & [ STEM < "algebraicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algebraicamente_x_rel" ]. algebraico_a1 := a_rel_nonprd_intr_le & [ STEM < "algebraico" >, SYNSEM.LKEYS.KEYREL.PRED "_algebraico_a_rel" ]. algesiógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "algesiógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_algesiógeno_a_rel" ]. algiacusia_n1 := n_intr_uncount_le & [ STEM < "algiacusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algiacusia_n_rel" ] ]. alginato_n1 := n_intr_count_le & [ STEM < "alginato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alginato_n_rel" ] ]. algo_p := pr_pseudo-part_algo_le & [ STEM < "algo" > ]. algo_x1 := av_qnt-deg_le & [ STEM < "algo" >, SYNSEM.LKEYS.KEYREL.PRED "_algo_x_deg_rel" ]. algo_x2 := av_qnt-pron_alg_le & [ STEM < "algo" > ]. algodonal_n1 := n_intr_count_le & [ STEM < "algodonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_algodonal_n_rel" ] ]. algodoncillo_n1 := n_intr_count_le & [ STEM < "algodoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_algodoncillo_n_rel" ] ]. algodonero_n1 := n_intr_count_le & [ STEM < "algodonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_algodonero_n_rel" ] ]. algodonita_n1 := n_intr_count_le & [ STEM < "algodonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_algodonita_n_rel" ] ]. algodonización_n1 := n_trans_le & [ STEM < "algodonización" >, SYNSEM.LKEYS.KEYREL.PRED "_algodonización_n_rel" ]. algodonoso_a1 := a_qual_intr_scopal_le & [ STEM < "algodonoso" >, SYNSEM.LKEYS.KEYREL.PRED "_algodonoso_a_rel" ]. algodón_n1 := n_intr_mass-or-count_le & [ STEM < "algodón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_algodón_n_rel" ] ]. algoritmo_n1 := n_intr_count_le & [ STEM < "algoritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algoritmo_n_rel" ] ]. algorítmicamente_x1 := av_i_spr_le & [ STEM < "algorítmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algorítmicamente_x_rel" ]. algorítmico_a1 := a_rel_nonprd_intr_le & [ STEM < "algorítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_algorítmico_a_rel" ]. alguacil_n1 := n_intr_count_le & [ STEM < "alguacil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alguacil_n_rel" ] ]. alguicida_n1 := n_intr_mass_le & [ STEM < "alguicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alguicida_n_rel" ] ]. alguien_p := pr_indf_alg_le & [ STEM < "alguien" > ]. alguna_que_otra_vez_x1 := av_i_le & [ STEM < "alguna_que_otra_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_alguna_que_otra_vez_x_rel" ]. algunas_veces_x1 := av_i_le & [ STEM < "algunas_veces" >, SYNSEM.LKEYS.KEYREL.PRED "_algunas_veces_x_rel" ]. alguno_d := d_qnt-indf_alg_le & [ STEM < "alguno" > ]. alguno_p := pr_part_alg_le & [ STEM < "alguno" >, SYNSEM.LKEYS.ALTKEYREL.PRED _alguno_q_rel ]. alguno_que_otro_x1 := av_i_le & [ STEM < "alguno_que_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_alguno_que_otro_x_rel" ]. algébricamente_x1 := av_i_spr_le & [ STEM < "algébricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algébricamente_x_rel" ]. algébrico_a1 := a_rel_nonprd_intr_le & [ STEM < "algébrico" >, SYNSEM.LKEYS.KEYREL.PRED "_algébrico_a_rel" ]. algínico_a1 := a_rel_nonprd_intr_le & [ STEM < "algínico" >, SYNSEM.LKEYS.KEYREL.PRED "_algínico_a_rel" ]. alhaja_n1 := n_intr_count_le & [ STEM < "alhaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alhaja_n_rel" ] ]. alhelí_n1 := n_intr_mass_le & [ STEM < "alhelí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alhelí_n_rel" ] ]. alheña_n1 := n_intr_mass_le & [ STEM < "alheña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alheña_n_rel" ] ]. alhucema_n1 := n_intr_count_le & [ STEM < "alhucema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alhucema_n_rel" ] ]. alhóndiga_n1 := n_intr_count_le & [ STEM < "alhóndiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_alhóndiga_n_rel" ] ]. aliado_n1 := n_intr_count_le & [ STEM < "aliado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aliado_n_rel" ] ]. alianza_n1 := n_intr_count_le & [ STEM < "alianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_soc, PRED "_alianza_n_rel" ] ]. alias_n1 := n_intr_count_le & [ STEM < "alias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alias_n_rel" ] ]. alicantino_a1 := a_rel_prd_le & [ STEM < "alicantino" >, SYNSEM.LKEYS.KEYREL.PRED "_alicantino_a_rel" ]. alicantino_n1 := n_intr_count_le & [ STEM < "alicantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alicantino_n_rel" ] ]. alicatar_v := v_trans_np_le & [ STEM < "alicatar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alicatar_v_rel" ] ]. alicates_n1 := n_intr_count_le & [ STEM < "alicates" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alicates_n_rel" ] ]. alicaído_a1 := a_qual_intr_ser_le & [ STEM < "alicaído" >, SYNSEM.LKEYS.KEYREL.PRED "_alicaído_a_rel" ]. aliciente_n1 := n_intr_count_le & [ STEM < "aliciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aliciente_n_rel" ] ]. alicíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "alicíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_alicíclico_a_rel" ]. alidada_n1 := n_intr_count_le & [ STEM < "alidada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alidada_n_rel" ] ]. alienabilidad_n1 := n_trans_le & [ STEM < "alienabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_alienabilidad_n_rel" ]. alienación_n1 := n_trans_le & [ STEM < "alienación" >, SYNSEM.LKEYS.KEYREL.PRED "_alienación_n_rel" ]. alienadamente_x1 := av_i_spr_le & [ STEM < "alienadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alienadamente_x_rel" ]. alienar_v1 := v_intr_io*_le & [ STEM < "alienar" >, SYNSEM.LKEYS.KEYREL.PRED "_alienar_v_rel" ]. alienar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alienar" >, SYNSEM.LKEYS.KEYREL.PRED "_alienar_v_rel" ]. alienidad_n1 := n_intr_uncount_le & [ STEM < "alienidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alienidad_n_rel" ] ]. alienista_n1 := n_intr_count_le & [ STEM < "alienista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alienista_n_rel" ] ]. aliento_n1 := n_intr_mass_le & [ STEM < "aliento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aliento_n_rel" ] ]. alifático_a1 := a_rel_nonprd_intr_le & [ STEM < "alifático" >, SYNSEM.LKEYS.KEYREL.PRED "_alifático_a_rel" ]. aligeramiento_n1 := n_trans_le & [ STEM < "aligeramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aligeramiento_n_rel" ]. aligerar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aligerar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aligerar_v_rel" ] ]. aligerar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "aligerar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aligerar_v_rel" ] ]. aligote_n1 := n_intr_count_le & [ STEM < "aligote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aligote_n_rel" ] ]. aligustre_n1 := n_intr_count_le & [ STEM < "aligustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aligustre_n_rel" ] ]. aligátor_n1 := n_intr_count_le & [ STEM < "aligátor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aligátor_n_rel" ] ]. alijo_n1 := n_trans_le & [ STEM < "alijo" >, SYNSEM.LKEYS.KEYREL.PRED "_alijo_n_rel" ]. alijo_n2 := n_intr_count_le & [ STEM < "alijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alijo_n_rel" ] ]. aliltiourea_n1 := n_intr_count_le & [ STEM < "aliltiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aliltiourea_n_rel" ] ]. alimaña_n1 := n_intr_count_le & [ STEM < "alimaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alimaña_n_rel" ] ]. alimentación_n1 := n_trans_le & [ STEM < "alimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentación_n_rel" ]. alimentador_a1 := a_rel_nonprd_intr_le & [ STEM < "alimentador" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentador_a_rel" ]. alimentador_n1 := n_intr_count_le & [ STEM < "alimentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_alimentador_n_rel" ] ]. alimentar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentar_v_rel" ]. alimentar_v2 := v_trans_np*_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc, PRED "_alimentar_v_rel" ] ]. alimentar_v3 := v_trans_np_caus_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_alimentar_v_rel" ] ]. alimentar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "alimentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_alimentar_v_rel" ] ] ]. alimentario_a1 := a_rel_nonprd_intr_le & [ STEM < "alimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentario_a_rel" ]. alimenticio_a1 := a_rel_nonprd_intr_le & [ STEM < "alimenticio" >, SYNSEM.LKEYS.KEYREL.PRED "_alimenticio_a_rel" ]. alimento_n1 := n_intr_mass_le & [ STEM < "alimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alimento_n_rel" ] ]. alineabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "alineabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alineabilidad_n_rel" ] ]. alineación_n1 := n_trans_le & [ STEM < "alineación" >, SYNSEM.LKEYS.KEYREL.PRED "_alineación_n_rel" ]. alineadamente_x1 := av_i_spr_le & [ STEM < "alineadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alineadamente_x_rel" ]. alineador_n1 := n_intr_count_le & [ STEM < "alineador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alineador_n_rel" ] ]. alineamiento_n1 := n_trans_le & [ STEM < "alineamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alineamiento_n_rel" ]. alirón_n1 := n_intr_count_le & [ STEM < "alirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alirón_n_rel" ] ]. alisado_n1 := n_trans_le & [ STEM < "alisado" >, SYNSEM.LKEYS.KEYREL.PRED "_alisado_n_rel" ]. alisal_n1 := n_intr_count_le & [ STEM < "alisal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alisal_n_rel" ] ]. alisar_n1 := n_intr_count_le & [ STEM < "alisar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alisar_n_rel" ] ]. alisar_v := v_trans_np_le & [ STEM < "alisar" >, SYNSEM.LKEYS.KEYREL.PRED "_alisar_v_rel" ]. aliseda_n1 := n_intr_count_le & [ STEM < "aliseda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aliseda_n_rel" ] ]. alisios_n1 := n_intr_count_pl_le & [ STEM < "alisios" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alisios_n_rel" ] ]. aliso_n1 := n_intr_count_le & [ STEM < "aliso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aliso_n_rel" ] ]. alistamiento_n1 := n_trans_le & [ STEM < "alistamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alistamiento_n_rel" ]. alistar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "alistar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_alistar_v_rel" ] ]. alita_n1 := n_intr_mass_le & [ STEM < "alita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alita_n_rel" ] ]. aliteración_n1 := n_intr_count_le & [ STEM < "aliteración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aliteración_n_rel" ] ]. aliteradamente_x1 := av_i_spr_le & [ STEM < "aliteradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aliteradamente_x_rel" ]. aliterado_a1 := a_qual_intr_scopal_le & [ STEM < "aliterado" >, SYNSEM.LKEYS.KEYREL.PRED "_aliterado_a_rel" ]. alitán_n1 := n_intr_count_le & [ STEM < "alitán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alitán_n_rel" ] ]. aliviadero_n1 := n_intr_count_le & [ STEM < "aliviadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aliviadero_n_rel" ] ]. aliviar_v1 := v_intr_io*_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aliviar_v_rel" ]. aliviar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aliviar_v_rel" ]. aliviar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aliviar_v_rel" ] ]. aliviar_v4 := v_trans_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aliviar_v_rel" ] ]. aliviar_v5 := v_trans_np_mrkd_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aliviar_v_rel" ] ]. alivio_n1 := n_trans_le & [ STEM < "alivio" >, SYNSEM.LKEYS.KEYREL.PRED "_alivio_n_rel" ]. alizarina_n1 := n_intr_count_le & [ STEM < "alizarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alizarina_n_rel" ] ]. aliãâ±ar_v := v_trans_np_le & [ STEM < "aliñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_aliñar_v_rel" ] ]. aliño_n1 := n_intr_mass_le & [ STEM < "aliño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aliño_n_rel" ] ]. aljibe_n1 := n_intr_count_le & [ STEM < "aljibe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aljibe_n_rel" ] ]. allanamiento_n1 := n_trans_le & [ STEM < "allanamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_allanamiento_n_rel" ]. allanar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "allanar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_allanar_v_rel" ] ]. allanar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "allanar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_allanar_v_rel" ] ]. allanar_v3 := v_trans_np_le & [ STEM < "allanar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_allanar_v_rel" ] ]. allegado_n1 := n_intr_count_le & [ STEM < "allegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_allegado_n_rel" ] ]. allende_de_p_vmod := p_vmod_le & [ STEM < "allende_de" >, SYNSEM.LKEYS.KEYREL.PRED _allende_de_p_rel ]. allende_n1 := av_deic_place_le & [ STEM < "allende" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allende_x_rel" ]. allá_n1 := av_deic_place_le & [ STEM < "allá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allá_x_rel" ]. allá_se_andan_x1 := av_i_le & [ STEM < "allá_se_andan" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_andan_x_rel" ]. allá_se_las_avenga_x1 := av_i_le & [ STEM < "allá_se_las_avenga" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_avenga_x_rel" ]. allá_se_las_componga_x1 := av_i_le & [ STEM < "allá_se_las_componga" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_componga_x_rel" ]. allá_se_las_haya_x1 := av_i_le & [ STEM < "allá_se_las_haya" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_haya_x_rel" ]. allá_se_las_hayan_x1 := av_i_le & [ STEM < "allá_se_las_hayan" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_hayan_x_rel" ]. allá_se_van_x1 := av_i_le & [ STEM < "allá_se_van" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_van_x_rel" ]. allí_n1 := av_deic_place_le & [ STEM < "allí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allí_x_rel" ]. alma_n1 := n_intr_count_le & [ STEM < "alma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alma_n_rel" ] ]. almacenaje_n1 := n_trans_le & [ STEM < "almacenaje" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenaje_n_rel" ]. almacenamiento_n1 := n_trans_le & [ STEM < "almacenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenamiento_n_rel" ]. almacenar_v := v_trans_np_le & [ STEM < "almacenar" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenar_v_rel" ]. almacenero_n1 := n_intr_count_le & [ STEM < "almacenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almacenero_n_rel" ] ]. almacenista_n1 := n_intr_count_le & [ STEM < "almacenista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almacenista_n_rel" ] ]. almacén_n1 := n_intr_count_le & [ STEM < "almacén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_almacén_n_rel" ] ]. almadraba_n1 := n_intr_count_le & [ STEM < "almadraba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_almadraba_n_rel" ] ]. almadía_n1 := n_intr_count_le & [ STEM < "almadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almadía_n_rel" ] ]. almagre_n1 := n_intr_count_le & [ STEM < "almagre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almagre_n_rel" ] ]. almanaque_n1 := n_intr_count_le & [ STEM < "almanaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_almanaque_n_rel" ] ]. almandina_n1 := n_intr_count_le & [ STEM < "almandina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almandina_n_rel" ] ]. almandino_n1 := n_intr_mass-or-count_le & [ STEM < "almandino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_almandino_n_rel" ] ]. almazara_n1 := n_intr_count_le & [ STEM < "almazara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almazara_n_rel" ] ]. almeja_n1 := n_intr_count_le & [ STEM < "almeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_almeja_n_rel" ] ]. almejón_n1 := n_intr_count_le & [ STEM < "almejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_almejón_n_rel" ] ]. almena_n1 := n_intr_count_le & [ STEM < "almena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almena_n_rel" ] ]. almendra_n1 := n_intr_count_le & [ STEM < "almendra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almendra_n_rel" ] ]. almendrado_n1 := n_intr_count_le & [ STEM < "almendrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almendrado_n_rel" ] ]. almendrilla_n1 := n_intr_mass_le & [ STEM < "almendrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almendrilla_n_rel" ] ]. almendro_n1 := n_intr_count_le & [ STEM < "almendro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_almendro_n_rel" ] ]. almeriense_n1 := n_intr_count_le & [ STEM < "almeriense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almeriense_n_rel" ] ]. almiar_n1 := n_intr_count_le & [ STEM < "almiar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almiar_n_rel" ] ]. almibaradamente_x1 := av_i_spr_le & [ STEM < "almibaradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_almibaradamente_x_rel" ]. almidonar_v := v_trans_np_le & [ STEM < "almidonar" >, SYNSEM.LKEYS.KEYREL.PRED "_almidonar_v_rel" ]. almidón_n1 := n_intr_mass_le & [ STEM < "almidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almidón_n_rel" ] ]. alminar_n1 := n_intr_count_le & [ STEM < "alminar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alminar_n_rel" ] ]. almirantazgo_n1 := n_intr_count_le & [ STEM < "almirantazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_almirantazgo_n_rel" ] ]. almirante_n1 := n_intr_count_le & [ STEM < "almirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almirante_n_rel" ] ]. almirez_n1 := n_intr_count_le & [ STEM < "almirez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almirez_n_rel" ] ]. almizcle_n1 := n_intr_mass_le & [ STEM < "almizcle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almizcle_n_rel" ] ]. almizclero_a1 := a_qual_intr_scopal_le & [ STEM < "almizclero" >, SYNSEM.LKEYS.KEYREL.PRED "_almizclero_a_rel" ]. almizcleño_a1 := a_qual_intr_scopal_le & [ STEM < "almizcleño" >, SYNSEM.LKEYS.KEYREL.PRED "_almizcleño_a_rel" ]. almohada_n1 := n_intr_count_le & [ STEM < "almohada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohada_n_rel" ] ]. almohade_n1 := n_intr_count_le & [ STEM < "almohade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almohade_n_rel" ] ]. almohadilla_n1 := n_intr_count_le & [ STEM < "almohadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohadilla_n_rel" ] ]. almohadillado_n1 := n_trans_le & [ STEM < "almohadillado" >, SYNSEM.LKEYS.KEYREL.PRED "_almohadillado_n_rel" ]. almohadón_n1 := n_intr_count_le & [ STEM < "almohadón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohadón_n_rel" ] ]. almohaza_n1 := n_intr_count_le & [ STEM < "almohaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohaza_n_rel" ] ]. almojaya_n1 := n_intr_count_le & [ STEM < "almojaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almojaya_n_rel" ] ]. almorrana_n1 := n_intr_count_le & [ STEM < "almorrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almorrana_n_rel" ] ]. almorzar_v := v_trans_np*_le & [ STEM < "almorzar" >, SYNSEM.LKEYS.KEYREL.PRED "_almorzar_v_rel" ]. almorávide_n1 := n_intr_count_le & [ STEM < "almorávide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almorávide_n_rel" ] ]. almuerzo_n1 := n_trans_le & [ STEM < "almuerzo" >, SYNSEM.LKEYS.KEYREL.PRED "_almuerzo_n_rel" ]. almáciga_n1 := n_intr_mass_le & [ STEM < "almáciga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almáciga_n_rel" ] ]. almádena_n1 := n_intr_count_le & [ STEM < "almádena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almádena_n_rel" ] ]. almíbar_n1 := n_intr_count_le & [ STEM < "almíbar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almíbar_n_rel" ] ]. aloanticuerpo_n1 := n_intr_count_le & [ STEM < "aloanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloanticuerpo_n_rel" ] ]. aloantisuero_n1 := n_intr_count_le & [ STEM < "aloantisuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloantisuero_n_rel" ] ]. aloantígeno_n1 := n_intr_count_le & [ STEM < "aloantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloantígeno_n_rel" ] ]. alocadamente_x1 := av_i_spr_le & [ STEM < "alocadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alocadamente_x_rel" ]. alocución_n1 := n_intr_count_le & [ STEM < "alocución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alocución_n_rel" ] ]. alodial_a1 := a_rel_nonprd_intr_le & [ STEM < "alodial" >, SYNSEM.LKEYS.KEYREL.PRED "_alodial_a_rel" ]. alodio_n1 := n_intr_count_le & [ STEM < "alodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_alodio_n_rel" ] ]. alofana_n1 := n_intr_count_le & [ STEM < "alofana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alofana_n_rel" ] ]. alofonía_n1 := n_intr_uncount_le & [ STEM < "alofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alofonía_n_rel" ] ]. alofénico_a1 := a_rel_nonprd_intr_le & [ STEM < "alofénico" >, SYNSEM.LKEYS.KEYREL.PRED "_alofénico_a_rel" ]. alofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "alofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_alofónico_a_rel" ]. alogamia_n1 := n_intr_uncount_le & [ STEM < "alogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alogamia_n_rel" ] ]. alogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "alogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_alogenético_a_rel" ]. alogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "alogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_alogénico_a_rel" ]. aloinjerto_n1 := n_intr_count_le & [ STEM < "aloinjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloinjerto_n_rel" ] ]. aloinmunidad_n1 := n_intr_uncount_le & [ STEM < "aloinmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloinmunidad_n_rel" ] ]. aloinmunización_n1 := n_intr_count_le & [ STEM < "aloinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloinmunización_n_rel" ] ]. aloiogénesis_n1 := n_intr_uncount_le & [ STEM < "aloiogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloiogénesis_n_rel" ] ]. aloisomerismo_n1 := n_intr_uncount_le & [ STEM < "aloisomerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloisomerismo_n_rel" ] ]. alojamiento_n1 := n_intr_count_le & [ STEM < "alojamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alojamiento_n_rel" ] ]. alojar_v1 := v_pron_unacc_lcomp_loc_le & [ STEM < "alojar" >, SYNSEM.LKEYS.KEYREL.PRED "_alojar_v_rel" ]. alojar_v2 := v_trans_np_le & [ STEM < "alojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_loc_soc, PRED "_alojar_v_rel" ] ]. alomador_n1 := n_intr_count_le & [ STEM < "alomador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alomador_n_rel" ] ]. alomorfismo_n1 := n_intr_uncount_le & [ STEM < "alomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfismo_n_rel" ] ]. alomorfo_n1 := n_intr_count_le & [ STEM < "alomorfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfo_n_rel" ] ]. alomorfía_n1 := n_intr_uncount_le & [ STEM < "alomorfía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfía_n_rel" ] ]. alomérico_a1 := a_rel_nonprd_intr_le & [ STEM < "alomérico" >, SYNSEM.LKEYS.KEYREL.PRED "_alomérico_a_rel" ]. alomórfico_a1 := a_rel_prd_le & [ STEM < "alomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_alomórfico_a_rel" ]. alomórfosis_n1 := n_intr_uncount_le & [ STEM < "alomórfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomórfosis_n_rel" ] ]. alondra_n1 := n_intr_count_le & [ STEM < "alondra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alondra_n_rel" ] ]. alopatía_n1 := n_intr_uncount_pl_le & [ STEM < "alopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alopatía_n_rel" ] ]. alopecia_n1 := n_intr_uncount_le & [ STEM < "alopecia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alopecia_n_rel" ] ]. alopoliploide_n1 := n_intr_count_le & [ STEM < "alopoliploide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alopoliploide_n_rel" ] ]. alopáticamente_x1 := av_i_spr_le & [ STEM < "alopáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alopáticamente_x_rel" ]. alopático_a1 := a_rel_nonprd_intr_le & [ STEM < "alopático" >, SYNSEM.LKEYS.KEYREL.PRED "_alopático_a_rel" ]. alorreactividad_n1 := n_intr_uncount_le & [ STEM < "alorreactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alorreactividad_n_rel" ] ]. alosa_n1 := n_intr_count_le & [ STEM < "alosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alosa_n_rel" ] ]. alosoma_n1 := n_intr_count_le & [ STEM < "alosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alosoma_n_rel" ] ]. alotipia_n1 := n_intr_uncount_le & [ STEM < "alotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotipia_n_rel" ] ]. alotipo_n1 := n_intr_count_le & [ STEM < "alotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotipo_n_rel" ] ]. alotropía_n1 := n_intr_uncount_le & [ STEM < "alotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotropía_n_rel" ] ]. alotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "alotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_alotrópico_a_rel" ]. alotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "alotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_alotípico_a_rel" ]. aloxacina_n1 := n_intr_count_le & [ STEM < "aloxacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aloxacina_n_rel" ] ]. aloína_n1 := n_intr_count_le & [ STEM < "aloína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloína_n_rel" ] ]. alpaca_n1 := n_intr_mass-or-count_le & [ STEM < "alpaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alpaca_n_rel" ] ]. alpargata_n1 := n_intr_count_le & [ STEM < "alpargata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alpargata_n_rel" ] ]. alpinismo_n1 := n_intr_uncount_le & [ STEM < "alpinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alpinismo_n_rel" ] ]. alpinista_n1 := n_intr_count_le & [ STEM < "alpinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alpinista_n_rel" ] ]. alpino_a1 := a_rel_prd_le & [ STEM < "alpino" >, SYNSEM.LKEYS.KEYREL.PRED "_alpino_a_rel" ]. alpiste_n1 := n_intr_mass_le & [ STEM < "alpiste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alpiste_n_rel" ] ]. alqueno_n1 := n_intr_count_le & [ STEM < "alqueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alqueno_n_rel" ] ]. alquilador_n1 := n_subj-nom_le & [ STEM < "alquilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alquilador_n_rel" ] ]. alquilar_v := v_ditrans*_le & [ STEM < "alquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alquilar_v_rel" ] ]. alquileno_n1 := n_intr_count_le & [ STEM < "alquileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquileno_n_rel" ] ]. alquiler_n1 := n_trans_le & [ STEM < "alquiler" >, SYNSEM.LKEYS.KEYREL.PRED "_alquiler_n_rel" ]. alquimia_n1 := n_intr_uncount_le & [ STEM < "alquimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alquimia_n_rel" ] ]. alquimista_n1 := n_intr_count_le & [ STEM < "alquimista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alquimista_n_rel" ] ]. alquino_n1 := n_intr_count_le & [ STEM < "alquino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquino_n_rel" ] ]. alquitranar_v := v_trans_np_le & [ STEM < "alquitranar" >, SYNSEM.LKEYS.KEYREL.PRED "_alquitranar_v_rel" ]. alquitrán_n1 := n_intr_mass_le & [ STEM < "alquitrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquitrán_n_rel" ] ]. alrededor_de_p_vmod := p_vmod_le & [ STEM < "alrededor_de" >, SYNSEM.LKEYS.KEYREL.PRED _alrededor_de_p_rel ]. alrededor_n1 := n_intr_count_le & [ STEM < "alrededor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alrededor_n_rel" ] ]. alrededor_x1 := av_i_spr_le & [ STEM < "alrededor" >, SYNSEM.LKEYS.KEYREL.PRED "_alrededor_x_rel" ]. alsaciano_a1 := a_rel_nonprd_intr_le & [ STEM < "alsaciano" >, SYNSEM.LKEYS.KEYREL.PRED "_alsaciano_a_rel" ]. alsaciano_n1 := n_intr_count_le & [ STEM < "alsaciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alsaciano_n_rel" ] ]. alta_n1 := n_intr_uncount_le & [ STEM < "alta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alta_n_rel" ] ]. altaico_a1 := a_rel_prd_le & [ STEM < "altaico" >, SYNSEM.LKEYS.KEYREL.PRED "_altaico_a_rel" ]. altamente_x1 := av_deg_le & [ STEM < "altamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altamente_x_rel" ]. altaneramente_x1 := av_i_spr_le & [ STEM < "altaneramente" >, SYNSEM.LKEYS.KEYREL.PRED "_altaneramente_x_rel" ]. altanero_a1 := a_qual_intr_ser_le & [ STEM < "altanero" >, SYNSEM.LKEYS.KEYREL.PRED "_altanero_a_rel" ]. altanería_n1 := n_intr_uncount_le & [ STEM < "altanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altanería_n_rel" ] ]. altaplanicie_n1 := n_intr_count_le & [ STEM < "altaplanicie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altaplanicie_n_rel" ] ]. altar_n1 := n_intr_count_le & [ STEM < "altar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_altar_n_rel" ] ]. altavoz_n1 := n_intr_count_le & [ STEM < "altavoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_altavoz_n_rel" ] ]. alterabilidad_n1 := n_ppcomp_mass_le & [ STEM < "alterabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alterabilidad_n_rel" ] ]. alterable_a1 := a_qual_intr_scopal_le & [ STEM < "alterable" >, SYNSEM.LKEYS.KEYREL.PRED "_alterable_a_rel" ]. alteración_n1 := n_trans_le & [ STEM < "alteración" >, SYNSEM.LKEYS.KEYREL.PRED "_alteración_n_rel" ]. alterar_v1 := v_intr_io*_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v4 := v_trans_np_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. altercado_n1 := n_intr_count_le & [ STEM < "altercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altercado_n_rel" ] ]. alteridad_n1 := n_intr_uncount_le & [ STEM < "alteridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alteridad_n_rel" ] ]. alterita_n1 := n_intr_mass_le & [ STEM < "alterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alterita_n_rel" ] ]. alternación_n1 := n_trans_le & [ STEM < "alternación" >, SYNSEM.LKEYS.KEYREL.PRED "_alternación_n_rel" ]. alternador_n1 := n_intr_count_le & [ STEM < "alternador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alternador_n_rel" ] ]. alternancia_n1 := n_trans_le & [ STEM < "alternancia" >, SYNSEM.LKEYS.KEYREL.PRED "_alternancia_n_rel" ]. alternante_a1 := a_rel_prd_le & [ STEM < "alternante" >, SYNSEM.LKEYS.KEYREL.PRED "_alternante_a_rel" ]. alternar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "alternar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_alternar_v_rel" ] ]. alternativa_n1 := n_intr_count_le & [ STEM < "alternativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alternativa_n_rel" ] ]. alternativamente_x1 := av_i_le & [ STEM < "alternativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alternativamente_x_rel" ]. alternatividad_n1 := n_intr_uncount_le & [ STEM < "alternatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alternatividad_n_rel" ] ]. alternativo_a1 := a_rel_prd_le & [ STEM < "alternativo" >, SYNSEM.LKEYS.KEYREL.PRED "_alternativo_a_rel" ]. alterno_a1 := a_rel_nonprd_intr_le & [ STEM < "alterno" >, SYNSEM.LKEYS.KEYREL.PRED "_alterno_a_rel" ]. alteza_n1 := n_intr_count_le & [ STEM < "alteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alteza_n_rel" ] ]. altibajo_n1 := n_intr_count_le & [ STEM < "altibajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altibajo_n_rel" ] ]. altillo_n1 := n_intr_count_le & [ STEM < "altillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altillo_n_rel" ] ]. altimetría_n1 := n_intr_uncount_le & [ STEM < "altimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altimetría_n_rel" ] ]. altimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "altimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_altimétrico_a_rel" ]. altiplano_n1 := n_intr_count_le & [ STEM < "altiplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_altiplano_n_rel" ] ]. altisonante_a1 := a_qual_intr_scopal_le & [ STEM < "altisonante" >, SYNSEM.LKEYS.KEYREL.PRED "_altisonante_a_rel" ]. altisonantemente_x1 := av_i_spr_le & [ STEM < "altisonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_altisonantemente_x_rel" ]. altitud_n1 := n_intr_mass_le & [ STEM < "altitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_altitud_n_rel" ] ]. altitudinal_a1 := a_rel_nonprd_intr_le & [ STEM < "altitudinal" >, SYNSEM.LKEYS.KEYREL.PRED "_altitudinal_a_rel" ]. altivamente_x1 := av_i_spr_le & [ STEM < "altivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altivamente_x_rel" ]. altivez_n1 := n_ppcomp_mass_le & [ STEM < "altivez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altivez_n_rel" ] ]. altivo_a1 := a_qual_intr_ser_le & [ STEM < "altivo" >, SYNSEM.LKEYS.KEYREL.PRED "_altivo_a_rel" ]. altizida_n1 := n_intr_mass_le & [ STEM < "altizida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altizida_n_rel" ] ]. alto_a1 := a_qual_intr_scopal_le & [ STEM < "alto" >, SYNSEM.LKEYS.KEYREL.PRED "_alto_a_rel" ]. alto_n1 := n_intr_count_le & [ STEM < "alto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_alto_n_rel" ] ]. altocúmulo_n1 := n_intr_count_le & [ STEM < "altocúmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altocúmulo_n_rel" ] ]. altoestrato_n1 := n_intr_count_le & [ STEM < "altoestrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altoestrato_n_rel" ] ]. altostrato_n1 := n_intr_count_le & [ STEM < "altostrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altostrato_n_rel" ] ]. altramuz_n1 := n_intr_count_le & [ STEM < "altramuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_altramuz_n_rel" ] ]. altrosa_n1 := n_intr_mass-or-count_le & [ STEM < "altrosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_altrosa_n_rel" ] ]. altruismo_n1 := n_intr_mass_le & [ STEM < "altruismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altruismo_n_rel" ] ]. altruista_a1 := a_qual_intr_ser_le & [ STEM < "altruista" >, SYNSEM.LKEYS.KEYREL.PRED "_altruista_a_rel" ]. altruista_n1 := n_intr_count_le & [ STEM < "altruista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_altruista_n_rel" ] ]. altruistamente_x1 := av_i_spr_le & [ STEM < "altruistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altruistamente_x_rel" ]. altura_n1 := n_intr_mass_le & [ STEM < "altura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_altura_n_rel" ] ]. altímetro_n1 := n_intr_count_le & [ STEM < "altímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altímetro_n_rel" ] ]. alubia_n1 := n_intr_count_le & [ STEM < "alubia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alubia_n_rel" ] ]. alucinación_n1 := n_trans_le & [ STEM < "alucinación" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinación_n_rel" ]. alucinador_a1 := a_qual_intr_ser_le & [ STEM < "alucinador" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinador_a_rel" ]. alucinante_a1 := a_qual_intr_scopal_le & [ STEM < "alucinante" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinante_a_rel" ]. alucinar_v1 := v_intr_le & [ STEM < "alucinar" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinar_v_rel" ]. alucinar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alucinar" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinar_v_rel" ]. alucinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "alucinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinatorio_a_rel" ]. alucinógeno_a1 := a_qual_intr_ser_le & [ STEM < "alucinógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinógeno_a_rel" ]. alucinógeno_n1 := n_intr_count_le & [ STEM < "alucinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alucinógeno_n_rel" ] ]. alud_n1 := n_intr_count_le & [ STEM < "alud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alud_n_rel" ] ]. alud_n2 := n_group_le & [ STEM < "alud" >, SYNSEM.LKEYS.KEYREL.PRED "_alud_n_rel" ]. aludir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aludir_v_rel" ] ]. aludir_v2 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aludir_v_rel" ] ]. aludir_v3 := v_intr_mrkd_np*_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_aludir_v_rel" ] ] ]. aludir_v4 := v_trans_np_le & [ STEM < "aludir" >, SYNSEM.LKEYS.KEYREL.PRED "_aludir_v_rel" ]. alum_n1 := n_intr_mass_le & [ STEM < "alum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alum_n_rel" ] ]. alumbrado_n1 := n_intr_uncount_le & [ STEM < "alumbrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alumbrado_n_rel" ] ]. alumbramiento_n1 := n_trans_le & [ STEM < "alumbramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alumbramiento_n_rel" ]. alumbrar_v := v_ditrans*_le & [ STEM < "alumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alumbrar_v_rel" ]. alumbre_n1 := n_intr_mass_le & [ STEM < "alumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alumbre_n_rel" ] ]. aluminato_n1 := n_intr_count_le & [ STEM < "aluminato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminato_n_rel" ] ]. aluminio_n1 := n_intr_mass_le & [ STEM < "aluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminio_n_rel" ] ]. aluminita_n1 := n_intr_count_le & [ STEM < "aluminita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminita_n_rel" ] ]. aluminización_n1 := n_trans_le & [ STEM < "aluminización" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminización_n_rel" ]. aluminizar_v := v_trans_np_le & [ STEM < "aluminizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminizar_v_rel" ]. aluminosis_n1 := n_intr_mass_le & [ STEM < "aluminosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluminosis_n_rel" ] ]. aluminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "aluminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminoso_a_rel" ]. aluminotermia_n1 := n_intr_uncount_le & [ STEM < "aluminotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluminotermia_n_rel" ] ]. aluminotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "aluminotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminotérmico_a_rel" ]. alumnado_n1 := n_intr_coll_le & [ STEM < "alumnado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alumnado_n_rel" ] ]. alumno_n1 := n_intr_count_le & [ STEM < "alumno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alumno_n_rel" ] ]. alunita_n1 := n_intr_count_le & [ STEM < "alunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alunita_n_rel" ] ]. alunizaje_n1 := n_result_intr_le & [ STEM < "alunizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_alunizaje_n_rel" ]. alunizar_v := v_intr_le & [ STEM < "alunizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_alunizar_v_rel" ] ]. alusivamente_x1 := av_i_spr_le & [ STEM < "alusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alusivamente_x_rel" ]. alusivo_a1 := a_qual_trans*_ser_le & [ STEM < "alusivo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alusivo_a_rel" ] ]. alusión_n1 := n_trans_le & [ STEM < "alusión" >, SYNSEM.LKEYS.KEYREL.PRED "_alusión_n_rel" ]. aluvial_a1 := a_qual_intr_ser_le & [ STEM < "aluvial" >, SYNSEM.LKEYS.KEYREL.PRED "_aluvial_a_rel" ]. aluvión_n1 := n_intr_count_le & [ STEM < "aluvión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluvión_n_rel" ] ]. alveolalgia_n1 := n_intr_uncount_le & [ STEM < "alveolalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolalgia_n_rel" ] ]. alveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolar_a_rel" ]. alveolectomía_n1 := n_intr_count_le & [ STEM < "alveolectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolectomía_n_rel" ] ]. alveolitis_n1 := n_intr_uncount_le & [ STEM < "alveolitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolitis_n_rel" ] ]. alveolo_n1 := n_intr_count_le & [ STEM < "alveolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alveolo_n_rel" ] ]. alveoloclasia_n1 := n_intr_uncount_le & [ STEM < "alveoloclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveoloclasia_n_rel" ] ]. alveolodental_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolodental" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolodental_a_rel" ]. alveolodentario_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolodentario" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolodentario_a_rel" ]. alveologingival_a1 := a_rel_nonprd_intr_le & [ STEM < "alveologingival" >, SYNSEM.LKEYS.KEYREL.PRED "_alveologingival_a_rel" ]. alveololingual_a1 := a_rel_nonprd_intr_le & [ STEM < "alveololingual" >, SYNSEM.LKEYS.KEYREL.PRED "_alveololingual_a_rel" ]. alveolomerotomía_n1 := n_intr_count_le & [ STEM < "alveolomerotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolomerotomía_n_rel" ] ]. alveoloplastia_n1 := n_intr_uncount_le & [ STEM < "alveoloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveoloplastia_n_rel" ] ]. alveolotomía_n1 := n_intr_count_le & [ STEM < "alveolotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolotomía_n_rel" ] ]. alveólisis_n1 := n_intr_uncount_le & [ STEM < "alveólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveólisis_n_rel" ] ]. alvéolo_n1 := n_intr_count_le & [ STEM < "alvéolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alvéolo_n_rel" ] ]. alza_n1 := n_trans_le & [ STEM < "alza" >, SYNSEM.LKEYS.KEYREL.PRED "_alza_n_rel" ]. alzada_n1 := n_trans_le & [ STEM < "alzada" >, SYNSEM.LKEYS.KEYREL.PRED "_alzada_n_rel" ]. alzado_n1 := n_trans_le & [ STEM < "alzado" >, SYNSEM.LKEYS.KEYREL.PRED "_alzado_n_rel" ]. alzamiento_n1 := n_trans_le & [ STEM < "alzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alzamiento_n_rel" ]. alzapaño_n1 := n_intr_count_le & [ STEM < "alzapaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alzapaño_n_rel" ] ]. alzar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "alzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alzar_v_rel" ] ] ]. alzar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "alzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alzar_v_rel" ]. alámbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "alámbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_alámbrico_a_rel" ]. alélico_a1 := a_rel_nonprd_intr_le & [ STEM < "alélico" >, SYNSEM.LKEYS.KEYREL.PRED "_alélico_a_rel" ]. alérgico_a1 := a_qual_trans*_ser_le & [ STEM < "alérgico" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alérgico_a_rel" ] ]. alícuota_a1 := a_rel_nonprd_intr_le & [ STEM < "alícuota" >, SYNSEM.LKEYS.KEYREL.PRED "_alícuota_a_rel" ]. alícuota_n1 := n_intr_count_le & [ STEM < "alícuota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alícuota_n_rel" ] ]. alóctono_a1 := a_rel_nonprd_intr_le & [ STEM < "alóctono" >, SYNSEM.LKEYS.KEYREL.PRED "_alóctono_a_rel" ]. alóctono_n1 := n_intr_count_le & [ STEM < "alóctono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alóctono_n_rel" ] ]. alófono_n1 := n_intr_count_le & [ STEM < "alófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alófono_n_rel" ] ]. alúmina_n1 := n_intr_mass_le & [ STEM < "alúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alúmina_n_rel" ] ]. ama_n1 := n_intr_count_le & [ STEM < "ama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ama_n_rel" ] ]. amabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amabilidad_n_rel" ] ]. amable_a1 := a_qual_intr_ser_le & [ STEM < "amable" >, SYNSEM.LKEYS.KEYREL.PRED "_amable_a_rel" ]. amablemente_x1 := av_i_spr_le & [ STEM < "amablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_amablemente_x_rel" ]. amaestramiento_n1 := n_trans_le & [ STEM < "amaestramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amaestramiento_n_rel" ]. amaestrar_v := v_trans_np_le & [ STEM < "amaestrar" >, SYNSEM.LKEYS.KEYREL.PRED "_amaestrar_v_rel" ]. amagar_v1 := v_intr_le & [ STEM < "amagar" >, SYNSEM.LKEYS.KEYREL.PRED "_amagar_v_rel" ]. amagar_v2 := v_trans_np_caus_le & [ STEM < "amagar" >, SYNSEM.LKEYS.KEYREL.PRED "_amagar_v_rel" ]. amagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "amagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_amagnético_a_rel" ]. amago_n1 := n_trans_le & [ STEM < "amago" >, SYNSEM.LKEYS.KEYREL.PRED "_amago_n_rel" ]. amainar_v := v_intr_le & [ STEM < "amainar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pot, PRED "_amainar_v_rel" ] ]. amalgama_n1 := n_intr_count_le & [ STEM < "amalgama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amalgama_n_rel" ] ]. amalgamación_n1 := n_trans_le & [ STEM < "amalgamación" >, SYNSEM.LKEYS.KEYREL.PRED "_amalgamación_n_rel" ]. amalgamador_n1 := n_intr_count_le & [ STEM < "amalgamador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amalgamador_n_rel" ] ]. amalgamar_v := v_trans_np_caus_le & [ STEM < "amalgamar" >, SYNSEM.LKEYS.KEYREL.PRED "_amalgamar_v_rel" ]. amamantar_v := v_trans_np_le & [ STEM < "amamantar" >, SYNSEM.LKEYS.KEYREL.PRED "_amamantar_v_rel" ]. amanecer_n1 := n_intr_count_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_amanecer_n_rel" ] ]. amanecer_v1 := v_impers_strict_intr_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_amanecer_v_rel" ]. amanecer_v2 := v_unacc_lcomp_loc*_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_amanecer_v_rel" ]. amaneradamente_x1 := av_i_spr_le & [ STEM < "amaneradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amaneradamente_x_rel" ]. amaneramiento_n1 := n_trans_le & [ STEM < "amaneramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amaneramiento_n_rel" ]. amanerar_v := v_pron_intr_le & [ STEM < "amanerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_amanerar_v_rel" ] ]. amansamiento_n1 := n_trans_le & [ STEM < "amansamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amansamiento_n_rel" ]. amansar_v := v_trans_np_caus_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amansar_v1 := v_intr_io*_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amansar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amante_n1 := n_ppcomp_count_le & [ STEM < "amante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amante_n_rel" ] ]. amantillo_n1 := n_intr_count_le & [ STEM < "amantillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amantillo_n_rel" ] ]. amanuense_n1 := n_intr_count_le & [ STEM < "amanuense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amanuense_n_rel" ] ]. amapola_n1 := n_intr_count_le & [ STEM < "amapola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_amapola_n_rel" ] ]. amar_v := v_trans_np_le & [ STEM < "amar" >, SYNSEM.LKEYS.KEYREL.PRED "_amar_v_rel" ]. amaranto_n1 := n_intr_count_le & [ STEM < "amaranto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amaranto_n_rel" ] ]. amargamente_x1 := av_i_spr_le & [ STEM < "amargamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amargamente_x_rel" ]. amargar_v1 := v_trans_np*_io*_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargar_v2 := v_pron_intr_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargo_a1 := a_qual_intr_scopal_le & [ STEM < "amargo" >, SYNSEM.LKEYS.KEYREL.PRED "_amargo_a_rel" ]. amargor_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amargor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amargor_n_rel" ] ]. amargura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amargura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amargura_n_rel" ] ]. amarillento_a1 := a_qual_intr_ser_le & [ STEM < "amarillento" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillento_a_rel" ]. amarillez_n1 := n_ppcomp_uncount_le & [ STEM < "amarillez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amarillez_n_rel" ] ]. amarillista_a1 := a_rel_nonprd_intr_le & [ STEM < "amarillista" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillista_a_rel" ]. amarillo_a1 := a_qual_intr_ser_le & [ STEM < "amarillo" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillo_a_rel" ]. amarra_n1 := n_intr_count_le & [ STEM < "amarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amarra_n_rel" ] ]. amarradero_n1 := n_intr_count_le & [ STEM < "amarradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_amarradero_n_rel" ] ]. amarradura_n1 := n_intr_count_le & [ STEM < "amarradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_amarradura_n_rel" ] ]. amarraje_n1 := n_trans_le & [ STEM < "amarraje" >, SYNSEM.LKEYS.KEYREL.PRED "_amarraje_n_rel" ]. amarrar_v := v_trans_np_le & [ STEM < "amarrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_amarrar_v_rel" ] ]. amarre_n1 := n_intr_count_le & [ STEM < "amarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amarre_n_rel" ] ]. amarronado_a1 := a_qual_intr_ser_le & [ STEM < "amarronado" >, SYNSEM.LKEYS.KEYREL.PRED "_amarronado_a_rel" ]. amasadera_n1 := n_intr_count_le & [ STEM < "amasadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasadera_n_rel" ] ]. amasado_n1 := n_trans_le & [ STEM < "amasado" >, SYNSEM.LKEYS.KEYREL.PRED "_amasado_n_rel" ]. amasador_n1 := n_intr_count_le & [ STEM < "amasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amasador_n_rel" ] ]. amasadora_n1 := n_intr_count_le & [ STEM < "amasadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasadora_n_rel" ] ]. amasake_n1 := n_intr_mass_le & [ STEM < "amasake" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasake_n_rel" ] ]. amasar_v := v_trans_np*_le & [ STEM < "amasar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_amasar_v_rel" ] ]. amasijo_n1 := n_intr_coll_le & [ STEM < "amasijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasijo_n_rel" ] ]. amateur_n1 := n_intr_count_le & [ STEM < "amateur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amateur_n_rel" ] ]. amateurismo_n1 := n_ppcomp_uncount_le & [ STEM < "amateurismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amateurismo_n_rel" ] ]. amatista_n1 := n_intr_mass-or-count_le & [ STEM < "amatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_amatista_n_rel" ] ]. amatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "amatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_amatorio_a_rel" ]. amaurosis_n1 := n_intr_uncount_le & [ STEM < "amaurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amaurosis_n_rel" ] ]. amazona_n1 := n_intr_count_le & [ STEM < "amazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amazona_n_rel" ] ]. amazonita_n1 := n_intr_count_le & [ STEM < "amazonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amazonita_n_rel" ] ]. amazónico_a1 := a_rel_prd_le & [ STEM < "amazónico" >, SYNSEM.LKEYS.KEYREL.PRED "_amazónico_a_rel" ]. amaãâ±ar_v := v_trans_np_le & [ STEM < "amañar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_amañar_v_rel" ] ]. amaño_n1 := n_trans_le & [ STEM < "amaño" >, SYNSEM.LKEYS.KEYREL.PRED "_amaño_n_rel" ]. ambarino_a1 := a_qual_intr_ser_le & [ STEM < "ambarino" >, SYNSEM.LKEYS.KEYREL.PRED "_ambarino_a_rel" ]. amberino_n1 := n_intr_count_le & [ STEM < "amberino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amberino_n_rel" ] ]. ambicionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "ambicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ambicionar_v_rel" ] ]. ambicionar_v2 := v_trans_np_le & [ STEM < "ambicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_ambicionar_v_rel" ] ]. ambiciosamente_x1 := av_i_spr_le & [ STEM < "ambiciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiciosamente_x_rel" ]. ambicioso_a1 := a_qual_intr_ser_le & [ STEM < "ambicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ambicioso_a_rel" ]. ambición_n1 := n_intr_mass-or-count_le & [ STEM < "ambición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambición_n_rel" ] ]. ambidextro_a1 := a_qual_intr_ser_le & [ STEM < "ambidextro" >, SYNSEM.LKEYS.KEYREL.PRED "_ambidextro_a_rel" ]. ambientación_n1 := n_trans_le & [ STEM < "ambientación" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientación_n_rel" ]. ambientador_n1 := n_intr_count_le & [ STEM < "ambientador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambientador_n_rel" ] ]. ambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "ambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiental_a_rel" ]. ambientalismo_n1 := n_intr_uncount_le & [ STEM < "ambientalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambientalismo_n_rel" ] ]. ambientalmente_x1 := av_i_spr_le & [ STEM < "ambientalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientalmente_x_rel" ]. ambientar_v1 := v_pron_intr_le & [ STEM < "ambientar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ambientar_v_rel" ] ]. ambientar_v2 := v_trans_np_le & [ STEM < "ambientar" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientar_v_rel" ]. ambiente_n1 := n_intr_mass_le & [ STEM < "ambiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ambiente_n_rel" ] ]. ambiguamente_x1 := av_i_spr_le & [ STEM < "ambiguamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiguamente_x_rel" ]. ambiguo_a1 := a_qual_intr_scopal_le & [ STEM < "ambiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiguo_a_rel" ]. ambigüedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ambigüedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambigüedad_n_rel" ] ]. ambilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "ambilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilineal_a_rel" ]. ambilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "ambilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilocal_a_rel" ]. ambilocalmente_x1 := av_i_spr_le & [ STEM < "ambilocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilocalmente_x_rel" ]. ambivalencia_n1 := n_intr_mass-or-count_le & [ STEM < "ambivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambivalencia_n_rel" ] ]. ambivalente_a1 := a_rel_prd_le & [ STEM < "ambivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambivalente_a_rel" ]. ambivalentemente_x1 := av_i_spr_le & [ STEM < "ambivalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambivalentemente_x_rel" ]. ambladura_n1 := n_intr_uncount_le & [ STEM < "ambladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambladura_n_rel" ] ]. ambligonita_n1 := n_intr_count_le & [ STEM < "ambligonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ambligonita_n_rel" ] ]. ambliope_a1 := a_qual_intr_ser_le & [ STEM < "ambliope" >, SYNSEM.LKEYS.KEYREL.PRED "_ambliope_a_rel" ]. ambliopía_n1 := n_intr_uncount_le & [ STEM < "ambliopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambliopía_n_rel" ] ]. amblioscopio_n1 := n_intr_count_le & [ STEM < "amblioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amblioscopio_n_rel" ] ]. amboceptor_n1 := n_intr_count_le & [ STEM < "amboceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amboceptor_n_rel" ] ]. ambos_d := d_qnt-df_ambos_le & [ STEM < "ambos" > ]. ambos_p := pr_def_ambos_le & [ STEM < "ambos" > ]. ambroide_n1 := n_intr_count_le & [ STEM < "ambroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambroide_n_rel" ] ]. ambrosía_n1 := n_intr_mass_le & [ STEM < "ambrosía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_ambrosía_n_rel" ] ]. ambulacral_a1 := a_rel_nonprd_intr_le & [ STEM < "ambulacral" >, SYNSEM.LKEYS.KEYREL.PRED "_ambulacral_a_rel" ]. ambulancia_n1 := n_intr_count_le & [ STEM < "ambulancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambulancia_n_rel" ] ]. ambulante_a1 := a_rel_nonprd_intr_le & [ STEM < "ambulante" >, SYNSEM.LKEYS.KEYREL.PRED "_ambulante_a_rel" ]. ambulatorio_n1 := n_intr_count_le & [ STEM < "ambulatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ambulatorio_n_rel" ] ]. ameba_n1 := n_intr_count_le & [ STEM < "ameba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ameba_n_rel" ] ]. ameboide_a1 := a_rel_nonprd_intr_le & [ STEM < "ameboide" >, SYNSEM.LKEYS.KEYREL.PRED "_ameboide_a_rel" ]. amedrentar_v1 := v_intr_io*_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. amedrentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. amedrentar_v3 := v_trans_np_caus_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. ameiosis_n1 := n_intr_uncount_le & [ STEM < "ameiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ameiosis_n_rel" ] ]. amelo_n1 := n_intr_count_le & [ STEM < "amelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amelo_n_rel" ] ]. ameloblasto_n1 := n_intr_count_le & [ STEM < "ameloblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ameloblasto_n_rel" ] ]. ameloblastoma_n1 := n_intr_count_le & [ STEM < "ameloblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ameloblastoma_n_rel" ] ]. ameloblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "ameloblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_ameloblástico_a_rel" ]. amelodentinal_a1 := a_rel_nonprd_intr_le & [ STEM < "amelodentinal" >, SYNSEM.LKEYS.KEYREL.PRED "_amelodentinal_a_rel" ]. amelogénesis_n1 := n_intr_uncount_le & [ STEM < "amelogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amelogénesis_n_rel" ] ]. amelopatía_n1 := n_intr_uncount_le & [ STEM < "amelopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amelopatía_n_rel" ] ]. amelógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "amelógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_amelógeno_a_rel" ]. amenaza_n1 := n_trans_le & [ STEM < "amenaza" >, SYNSEM.LKEYS.KEYREL.PRED "_amenaza_n_rel" ]. amenazador_a1 := a_qual_intr_scopal_le & [ STEM < "amenazador" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazador_a_rel" ]. amenazadoramente_x1 := av_i_spr_le & [ STEM < "amenazadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazadoramente_x_rel" ]. amenazante_a1 := a_qual_intr_scopal_le & [ STEM < "amenazante" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazante_a_rel" ]. amencia_n1 := n_intr_uncount_le & [ STEM < "amencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amencia_n_rel" ] ]. amenizar_v := v_trans_np_le & [ STEM < "amenizar" >, SYNSEM.LKEYS.KEYREL.PRED "_amenizar_v_rel" ]. ameno_a1 := a_qual_intr_ser_le & [ STEM < "ameno" >, SYNSEM.LKEYS.KEYREL.PRED "_ameno_a_rel" ]. amento_n1 := n_intr_count_le & [ STEM < "amento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_amento_n_rel" ] ]. americana_n1 := n_intr_count_le & [ STEM < "americana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_americana_n_rel" ] ]. americanismo_n1 := n_intr_mass-or-count_le & [ STEM < "americanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_americanismo_n_rel" ] ]. americanizar_v := v_trans_np_caus_le & [ STEM < "americanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_americanizar_v_rel" ]. americano_a1 := a_rel_prd_le & [ STEM < "americano" >, SYNSEM.LKEYS.KEYREL.PRED "_americano_a_rel" ]. americano_n1 := n_intr_count_le & [ STEM < "americano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_americano_n_rel" ] ]. americio_n1 := n_intr_mass_le & [ STEM < "americio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_americio_n_rel" ] ]. amerindio_a1 := a_rel_prd_le & [ STEM < "amerindio" >, SYNSEM.LKEYS.KEYREL.PRED "_amerindio_a_rel" ]. amerindio_n1 := n_intr_count_le & [ STEM < "amerindio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amerindio_n_rel" ] ]. amerizar_v := v_unacc_lcomp_loc*_le & [ STEM < "amerizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_amerizar_v_rel" ] ]. ametopterina_n1 := n_intr_count_le & [ STEM < "ametopterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ametopterina_n_rel" ] ]. ametrallador_a1 := a_rel_nonprd_intr_le & [ STEM < "ametrallador" >, SYNSEM.LKEYS.KEYREL.PRED "_ametrallador_a_rel" ]. ametralladora_n1 := n_intr_count_le & [ STEM < "ametralladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ametralladora_n_rel" ] ]. ametrallar_v := v_trans_np_le & [ STEM < "ametrallar" >, SYNSEM.LKEYS.KEYREL.PRED "_ametrallar_v_rel" ]. ametropía_n1 := n_intr_uncount_le & [ STEM < "ametropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ametropía_n_rel" ] ]. amianto_n1 := n_intr_mass_le & [ STEM < "amianto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amianto_n_rel" ] ]. amiba_n1 := n_intr_count_le & [ STEM < "amiba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_amiba_n_rel" ] ]. amical_a1 := a_qual_intr_scopal_le & [ STEM < "amical" >, SYNSEM.LKEYS.KEYREL.PRED "_amical_a_rel" ]. amicrón_n1 := n_intr_count_le & [ STEM < "amicrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amicrón_n_rel" ] ]. amida_n1 := n_intr_count_le & [ STEM < "amida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amida_n_rel" ] ]. amidina_n1 := n_intr_count_le & [ STEM < "amidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amidina_n_rel" ] ]. amigable_a1 := a_qual_intr_ser_le & [ STEM < "amigable" >, SYNSEM.LKEYS.KEYREL.PRED "_amigable_a_rel" ]. amigablemente_x1 := av_i_spr_le & [ STEM < "amigablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_amigablemente_x_rel" ]. amigdalectomía_n1 := n_intr_count_le & [ STEM < "amigdalectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalectomía_n_rel" ] ]. amigdalino_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdalino" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdalino_a_rel" ]. amigdalitis_n1 := n_intr_uncount_le & [ STEM < "amigdalitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalitis_n_rel" ] ]. amigdalogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdalogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdalogloso_a_rel" ]. amigdaloide_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdaloide" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdaloide_a_rel" ]. amigdalopatía_n1 := n_intr_uncount_pl_le & [ STEM < "amigdalopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalopatía_n_rel" ] ]. amigdalotomía_n1 := n_intr_count_le & [ STEM < "amigdalotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalotomía_n_rel" ] ]. amigo_a1 := a_qual_trans*_ser_le & [ STEM < "amigo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_amigo_a_rel" ] ]. amigo_a2 := a_sctrl_ser_le & [ STEM < "amigo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_amigo_a_rel" ] ]. amigo_n1 := n_ppcomp_count_le & [ STEM < "amigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amigo_n_rel" ] ]. amigote_n1 := n_ppcomp_count_le & [ STEM < "amigote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amigote_n_rel" ] ]. amiguismo_n1 := n_intr_mass_le & [ STEM < "amiguismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amiguismo_n_rel" ] ]. amilanar_v1 := v_intr_io*_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilanar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilanar_v3 := v_trans_np_caus_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilasa_n1 := n_intr_count_le & [ STEM < "amilasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amilasa_n_rel" ] ]. amileno_n1 := n_intr_count_le & [ STEM < "amileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amileno_n_rel" ] ]. amillaramiento_n1 := n_trans_le & [ STEM < "amillaramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amillaramiento_n_rel" ]. amilo_n1 := n_intr_count_le & [ STEM < "amilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amilo_n_rel" ] ]. amiloidosis_n1 := n_intr_uncount_le & [ STEM < "amiloidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amiloidosis_n_rel" ] ]. amiloplasto_n1 := n_intr_count_le & [ STEM < "amiloplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amiloplasto_n_rel" ] ]. amilopsina_n1 := n_intr_count_le & [ STEM < "amilopsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amilopsina_n_rel" ] ]. amilorida_n1 := n_intr_mass_le & [ STEM < "amilorida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amilorida_n_rel" ] ]. amilosa_n1 := n_intr_mass-or-count_le & [ STEM < "amilosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_amilosa_n_rel" ] ]. amiláceo_a1 := a_rel_nonprd_intr_le & [ STEM < "amiláceo" >, SYNSEM.LKEYS.KEYREL.PRED "_amiláceo_a_rel" ]. amilólisis_n1 := n_intr_uncount_le & [ STEM < "amilólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amilólisis_n_rel" ] ]. amina_n1 := n_intr_count_le & [ STEM < "amina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amina_n_rel" ] ]. aminación_n1 := n_trans_le & [ STEM < "aminación" >, SYNSEM.LKEYS.KEYREL.PRED "_aminación_n_rel" ]. aminoacetato_n1 := n_intr_count_le & [ STEM < "aminoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminoacetato_n_rel" ] ]. aminobenzoato_n1 := n_intr_count_le & [ STEM < "aminobenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminobenzoato_n_rel" ] ]. aminopterina_n1 := n_intr_count_le & [ STEM < "aminopterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aminopterina_n_rel" ] ]. aminoración_n1 := n_result_intr_le & [ STEM < "aminoración" >, SYNSEM.LKEYS.KEYREL.PRED "_aminoración_n_rel" ]. aminorar_v := v_trans_np*_le & [ STEM < "aminorar" >, SYNSEM.LKEYS.KEYREL.PRED "_aminorar_v_rel" ]. aminoácido_n1 := n_intr_count_le & [ STEM < "aminoácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminoácido_n_rel" ] ]. amistad_n1 := n_intr_count_le & [ STEM < "amistad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_amistad_n_rel" ] ]. amistosamente_x1 := av_i_spr_le & [ STEM < "amistosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amistosamente_x_rel" ]. amistoso_a1 := a_qual_intr_ser_le & [ STEM < "amistoso" >, SYNSEM.LKEYS.KEYREL.PRED "_amistoso_a_rel" ]. amitolocal_a1 := a_rel_nonprd_intr_le & [ STEM < "amitolocal" >, SYNSEM.LKEYS.KEYREL.PRED "_amitolocal_a_rel" ]. amitolocalmente_x1 := av_i_spr_le & [ STEM < "amitolocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_amitolocalmente_x_rel" ]. amitosis_n1 := n_intr_uncount_le & [ STEM < "amitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amitosis_n_rel" ] ]. amitótico_a1 := a_rel_nonprd_intr_le & [ STEM < "amitótico" >, SYNSEM.LKEYS.KEYREL.PRED "_amitótico_a_rel" ]. amixia_n1 := n_intr_count_le & [ STEM < "amixia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amixia_n_rel" ] ]. amnesia_n1 := n_intr_uncount_le & [ STEM < "amnesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amnesia_n_rel" ] ]. amnistiar_v := v_trans_np_le & [ STEM < "amnistiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT hum_soc, PRED "_amnistiar_v_rel" ] ]. amnistía_n1 := n_intr_uncount_le & [ STEM < "amnistía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amnistía_n_rel" ] ]. amniótico_a1 := a_rel_nonprd_intr_le & [ STEM < "amniótico" >, SYNSEM.LKEYS.KEYREL.PRED "_amniótico_a_rel" ]. amnésico_a1 := a_qual_intr_ser_le & [ STEM < "amnésico" >, SYNSEM.LKEYS.KEYREL.PRED "_amnésico_a_rel" ]. amo_n1 := n_ppcomp_count_le & [ STEM < "amo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amo_n_rel" ] ]. amoblar_v := v_trans_np_le & [ STEM < "amoblar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_amoblar_v_rel" ] ]. amodorramiento_n1 := n_event-result_intr_le & [ STEM < "amodorramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amodorramiento_n_rel" ]. amojonamiento_n1 := n_trans_le & [ STEM < "amojonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amojonamiento_n_rel" ]. amojonar_v := v_trans_np_le & [ STEM < "amojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_amojonar_v_rel" ]. amoladera_n1 := n_intr_count_le & [ STEM < "amoladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amoladera_n_rel" ] ]. amoladura_n1 := n_trans_le & [ STEM < "amoladura" >, SYNSEM.LKEYS.KEYREL.PRED "_amoladura_n_rel" ]. amoldamiento_n1 := n_trans_le & [ STEM < "amoldamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amoldamiento_n_rel" ]. amoldar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "amoldar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_amoldar_v_rel" ] ]. amollar_v := v_trans_np*_le & [ STEM < "amollar" >, SYNSEM.LKEYS.KEYREL.PRED "_amollar_v_rel" ]. amonal_n1 := n_intr_mass_le & [ STEM < "amonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amonal_n_rel" ] ]. amonestación_n1 := n_trans_le & [ STEM < "amonestación" >, SYNSEM.LKEYS.KEYREL.PRED "_amonestación_n_rel" ]. amonestar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "amonestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_amonestar_v_rel" ] ]. amonestar_v2 := v_ditrans*_le & [ STEM < "amonestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_amonestar_v_rel" ] ]. amoniacal_a1 := a_rel_nonprd_intr_le & [ STEM < "amoniacal" >, SYNSEM.LKEYS.KEYREL.PRED "_amoniacal_a_rel" ]. amoniaco_n1 := n_intr_mass_le & [ STEM < "amoniaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amoniaco_n_rel" ] ]. amonio_n1 := n_intr_mass_le & [ STEM < "amonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amonio_n_rel" ] ]. amontonamiento_n1 := n_trans_le & [ STEM < "amontonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amontonamiento_n_rel" ]. amontonar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "amontonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_amontonar_v_rel" ] ] ]. amontonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "amontonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_amontonar_v_rel" ] ]. amontonar_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "amontonar" >, SYNSEM.LKEYS.KEYREL.PRED "_amontonar_v_rel" ]. amoníaco_n1 := n_intr_mass_le & [ STEM < "amoníaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amoníaco_n_rel" ] ]. amonólisis_n1 := n_intr_uncount_le & [ STEM < "amonólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amonólisis_n_rel" ] ]. amor_n1 := n_intr_mass-or-count_le & [ STEM < "amor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amor_n_rel" ] ]. amoral_a1 := a_qual_intr_ser_le & [ STEM < "amoral" >, SYNSEM.LKEYS.KEYREL.PRED "_amoral_a_rel" ]. amoralidad_n1 := n_ppcomp_mass_le & [ STEM < "amoralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amoralidad_n_rel" ] ]. amoralmente_x1 := av_i_spr_le & [ STEM < "amoralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_amoralmente_x_rel" ]. amoratar_v1 := v_pron_intr_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amoratar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amoratar_v3 := v_trans_np_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amordazar_v := v_trans_np_le & [ STEM < "amordazar" >, SYNSEM.LKEYS.KEYREL.PRED "_amordazar_v_rel" ]. amorfo_a1 := a_rel_prd_le & [ STEM < "amorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_amorfo_a_rel" ]. amorosamente_x1 := av_i_spr_le & [ STEM < "amorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amorosamente_x_rel" ]. amoroso_a1 := a_qual_intr_ser_le & [ STEM < "amoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_amoroso_a_rel" ]. amortajar_v := v_trans_np_le & [ STEM < "amortajar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum, PRED "_amortajar_v_rel" ] ]. amortiguación_n1 := n_trans_le & [ STEM < "amortiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguación_n_rel" ]. amortiguadamente_x1 := av_i_spr_le & [ STEM < "amortiguadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguadamente_x_rel" ]. amortiguador_a1 := a_qual_intr_scopal_le & [ STEM < "amortiguador" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguador_a_rel" ]. amortiguador_n1 := n_intr_count_le & [ STEM < "amortiguador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amortiguador_n_rel" ] ]. amortiguamiento_n1 := n_trans_le & [ STEM < "amortiguamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguamiento_n_rel" ]. amortiguar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "amortiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguar_v_rel" ]. amortiguar_v2 := v_trans_np_le & [ STEM < "amortiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguar_v_rel" ]. amortizable_a1 := a_rel_nonprd_intr_le & [ STEM < "amortizable" >, SYNSEM.LKEYS.KEYREL.PRED "_amortizable_a_rel" ]. amortización_n1 := n_trans_le & [ STEM < "amortización" >, SYNSEM.LKEYS.KEYREL.PRED "_amortización_n_rel" ]. amortizar_v := v_trans_np_le & [ STEM < "amortizar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortizar_v_rel" ]. amorío_n1 := n_intr_count_le & [ STEM < "amorío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amorío_n_rel" ] ]. amotinadamente_x1 := av_i_spr_le & [ STEM < "amotinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinadamente_x_rel" ]. amotinado_n1 := n_intr_count_le & [ STEM < "amotinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amotinado_n_rel" ] ]. amotinamiento_n1 := n_trans_le & [ STEM < "amotinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinamiento_n_rel" ]. amotinar_v := v_trans_np_caus_le & [ STEM < "amotinar" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinar_v_rel" ]. amovible_a1 := a_qual_intr_scopal_le & [ STEM < "amovible" >, SYNSEM.LKEYS.KEYREL.PRED "_amovible_a_rel" ]. amovilidad_n1 := n_ppcomp_mass_le & [ STEM < "amovilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amovilidad_n_rel" ] ]. amparador_a1 := a_qual_intr_ser_le & [ STEM < "amparador" >, SYNSEM.LKEYS.KEYREL.PRED "_amparador_a_rel" ]. amparar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "amparar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_amparar_v_rel" ] ] ]. amparar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "amparar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_amparar_v_rel" ] ]. amparar_v3 := v_trans_np_le & [ STEM < "amparar" >, SYNSEM.LKEYS.KEYREL.PRED "_amparar_v_rel" ]. amparo_n1 := n_trans_le & [ STEM < "amparo" >, SYNSEM.LKEYS.KEYREL.PRED "_amparo_n_rel" ]. amperihorímetro_n1 := n_intr_count_le & [ STEM < "amperihorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amperihorímetro_n_rel" ] ]. amperimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "amperimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_amperimétrico_a_rel" ]. amperio_n := n_intr_count_le & [ STEM < "amperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_amperio_n_rel" ] ]. ampersand_n1 := n_intr_count_le & [ STEM < "ampersand" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_ampersand_n_rel" ] ]. amperímetro_n1 := n_intr_count_le & [ STEM < "amperímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amperímetro_n_rel" ] ]. ampliable_a1 := a_qual_trans*_ser_le & [ STEM < "ampliable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ampliable_a_rel" ] ]. ampliación_n1 := n_trans_le & [ STEM < "ampliación" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliación_n_rel" ]. ampliador_n1 := n_intr_count_le & [ STEM < "ampliador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ampliador_n_rel" ] ]. ampliamente_x1 := av_i_spr_le & [ STEM < "ampliamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliamente_x_rel" ]. ampliar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "ampliar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliar_v_rel" ]. ampliar_v2 := v_trans_np_le & [ STEM < "ampliar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliar_v_rel" ]. ampliatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "ampliatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliatorio_a_rel" ]. amplificación_n1 := n_trans_le & [ STEM < "amplificación" >, SYNSEM.LKEYS.KEYREL.PRED "_amplificación_n_rel" ]. amplificador_n1 := n_intr_count_le & [ STEM < "amplificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_amplificador_n_rel" ] ]. amplificar_v := v_trans_np_le & [ STEM < "amplificar" >, SYNSEM.LKEYS.KEYREL.PRED "_amplificar_v_rel" ]. amplio_a1 := a_qual_intr_scopal_le & [ STEM < "amplio" >, SYNSEM.LKEYS.KEYREL.PRED "_amplio_a_rel" ]. amplitud_n1 := n_intr_mass_le & [ STEM < "amplitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_amplitud_n_rel" ] ]. ampolla_n1 := n_intr_count_le & [ STEM < "ampolla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ampolla_n_rel" ] ]. ampollar_a1 := a_qual_intr_ser_le & [ STEM < "ampollar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampollar_a_rel" ]. ampulosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ampulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ampulosidad_n_rel" ] ]. ampurdanés_a1 := a_rel_prd_le & [ STEM < "ampurdanés" >, SYNSEM.LKEYS.KEYREL.PRED "_ampurdanés_a_rel" ]. ampurdanés_n1 := n_intr_count_le & [ STEM < "ampurdanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ampurdanés_n_rel" ] ]. amputación_n1 := n_trans_le & [ STEM < "amputación" >, SYNSEM.LKEYS.KEYREL.PRED "_amputación_n_rel" ]. amputar_v := v_ditrans*_le & [ STEM < "amputar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_amputar_v_rel" ] ]. amueblamiento_n1 := n_trans_le & [ STEM < "amueblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amueblamiento_n_rel" ]. amueblar_v := v_trans_np_le & [ STEM < "amueblar" >, SYNSEM.LKEYS.KEYREL.PRED "_amueblar_v_rel" ]. amuleto_n1 := n_intr_count_le & [ STEM < "amuleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amuleto_n_rel" ] ]. amura_n1 := n_intr_count_le & [ STEM < "amura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amura_n_rel" ] ]. amurada_n1 := n_intr_count_le & [ STEM < "amurada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amurada_n_rel" ] ]. amurallar_v := v_trans_np_le & [ STEM < "amurallar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_amurallar_v_rel" ] ]. amén_n1 := n_intr_uncount_le & [ STEM < "amén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amén_n_rel" ] ]. amétrope_a1 := a_qual_intr_ser_le & [ STEM < "amétrope" >, SYNSEM.LKEYS.KEYREL.PRED "_amétrope_a_rel" ]. amígdala_n1 := n_ppcomp_count_le & [ STEM < "amígdala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_amígdala_n_rel" ] ]. amínico_a1 := a_rel_nonprd_intr_le & [ STEM < "amínico" >, SYNSEM.LKEYS.KEYREL.PRED "_amínico_a_rel" ]. amónico_a1 := a_rel_nonprd_intr_le & [ STEM < "amónico" >, SYNSEM.LKEYS.KEYREL.PRED "_amónico_a_rel" ]. anabasina_n1 := n_intr_count_le & [ STEM < "anabasina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anabasina_n_rel" ] ]. anabergita_n1 := n_intr_count_le & [ STEM < "anabergita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anabergita_n_rel" ] ]. anabolizante_n1 := n_intr_count_le & [ STEM < "anabolizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anabolizante_n_rel" ] ]. anacardo_n1 := n_intr_count_le & [ STEM < "anacardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anacardo_n_rel" ] ]. anacoluto_n1 := n_intr_count_le & [ STEM < "anacoluto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacoluto_n_rel" ] ]. anaconda_n1 := n_intr_count_le & [ STEM < "anaconda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anaconda_n_rel" ] ]. anacoreta_n1 := n_intr_count_le & [ STEM < "anacoreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anacoreta_n_rel" ] ]. anacromasia_n1 := n_intr_uncount_le & [ STEM < "anacromasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacromasia_n_rel" ] ]. anacronismo_n1 := n_intr_count_le & [ STEM < "anacronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacronismo_n_rel" ] ]. anacrónicamente_x1 := av_i_spr_le & [ STEM < "anacrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anacrónicamente_x_rel" ]. anacrónico_a1 := a_rel_prd_le & [ STEM < "anacrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anacrónico_a_rel" ]. anadiplosis_n1 := n_intr_uncount_le & [ STEM < "anadiplosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anadiplosis_n_rel" ] ]. anaerobio_a1 := a_rel_nonprd_intr_le & [ STEM < "anaerobio" >, SYNSEM.LKEYS.KEYREL.PRED "_anaerobio_a_rel" ]. anaerobio_n1 := n_intr_count_le & [ STEM < "anaerobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_plant, PRED "_anaerobio_n_rel" ] ]. anaerobiosis_n1 := n_intr_uncount_le & [ STEM < "anaerobiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anaerobiosis_n_rel" ] ]. anaeróbico_a1 := a_rel_nonprd_intr_le & [ STEM < "anaeróbico" >, SYNSEM.LKEYS.KEYREL.PRED "_anaeróbico_a_rel" ]. anafase_n1 := n_intr_count_le & [ STEM < "anafase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafase_n_rel" ] ]. anafilactogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafilactogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafilactogénico_a_rel" ]. anafilactoide_a1 := a_rel_nonprd_intr_le & [ STEM < "anafilactoide" >, SYNSEM.LKEYS.KEYREL.PRED "_anafilactoide_a_rel" ]. anafilactotoxina_n1 := n_intr_count_le & [ STEM < "anafilactotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilactotoxina_n_rel" ] ]. anafilactógeno_n1 := n_intr_count_le & [ STEM < "anafilactógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilactógeno_n_rel" ] ]. anafilatoxina_n1 := n_intr_count_le & [ STEM < "anafilatoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilatoxina_n_rel" ] ]. anafilaxia_n1 := n_intr_uncount_le & [ STEM < "anafilaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafilaxia_n_rel" ] ]. anafilaxis_n1 := n_intr_uncount_le & [ STEM < "anafilaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafilaxis_n_rel" ] ]. anafiláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafiláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafiláctico_a_rel" ]. anaforesis_n1 := n_intr_uncount_le & [ STEM < "anaforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anaforesis_n_rel" ] ]. anafóricamente_x1 := av_i_spr_le & [ STEM < "anafóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anafóricamente_x_rel" ]. anafórico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafórico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafórico_a_rel" ]. anaglifoscopio_n1 := n_intr_count_le & [ STEM < "anaglifoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anaglifoscopio_n_rel" ] ]. anagrama_n1 := n_intr_count_le & [ STEM < "anagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anagrama_n_rel" ] ]. anal_a1 := a_rel_nonprd_intr_le & [ STEM < "anal" >, SYNSEM.LKEYS.KEYREL.PRED "_anal_a_rel" ]. anal_n1 := n_intr_count_le & [ STEM < "anal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anal_n_rel" ] ]. analcima_n1 := n_intr_count_le & [ STEM < "analcima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_analcima_n_rel" ] ]. analfabetismo_n1 := n_ppcomp_mass_le & [ STEM < "analfabetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analfabetismo_n_rel" ] ]. analfabeto_a1 := a_qual_intr_ser_le & [ STEM < "analfabeto" >, SYNSEM.LKEYS.KEYREL.PRED "_analfabeto_a_rel" ]. analfabeto_n1 := n_intr_count_le & [ STEM < "analfabeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_analfabeto_n_rel" ] ]. analgesia_n1 := n_intr_uncount_le & [ STEM < "analgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analgesia_n_rel" ] ]. analgésico_a1 := a_rel_nonprd_intr_le & [ STEM < "analgésico" >, SYNSEM.LKEYS.KEYREL.PRED "_analgésico_a_rel" ]. analgésico_n1 := n_intr_mass_le & [ STEM < "analgésico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_analgésico_n_rel" ] ]. analista_n1 := n_intr_count_le & [ STEM < "analista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_analista_n_rel" ] ]. analiticidad_n1 := n_intr_uncount_le & [ STEM < "analiticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analiticidad_n_rel" ] ]. analizable_a1 := a_rel_nonprd_intr_le & [ STEM < "analizable" >, SYNSEM.LKEYS.KEYREL.PRED "_analizable_a_rel" ]. analizador_a1 := a_rel_nonprd_intr_le & [ STEM < "analizador" >, SYNSEM.LKEYS.KEYREL.PRED "_analizador_a_rel" ]. analizador_n1 := n_intr_count_le & [ STEM < "analizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_analizador_n_rel" ] ]. analizar_v1 := v_trans_np_le & [ STEM < "analizar" >, SYNSEM.LKEYS.KEYREL.PRED "_analizar_v_rel" ]. analizar_v2 := v_trans_cp_semi_ques_le & [ STEM < "analizar" >, SYNSEM.LKEYS.KEYREL.PRED "_analizar_v_rel" ]. analmente_x1 := av_i_spr_le & [ STEM < "analmente" >, SYNSEM.LKEYS.KEYREL.PRED "_analmente_x_rel" ]. analogía_n1 := n_intr_count_le & [ STEM < "analogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analogía_n_rel" ] ]. analérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "analérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_analérgico_a_rel" ]. analíticamente_x1 := av_i_spr_le & [ STEM < "analíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_analíticamente_x_rel" ]. analítico_a1 := a_rel_nonprd_intr_le & [ STEM < "analítico" >, SYNSEM.LKEYS.KEYREL.PRED "_analítico_a_rel" ]. analógicamente_x1 := av_i_spr_le & [ STEM < "analógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_analógicamente_x_rel" ]. analógico_a1 := a_rel_nonprd_intr_le & [ STEM < "analógico" >, SYNSEM.LKEYS.KEYREL.PRED "_analógico_a_rel" ]. anamnesis_n1 := n_intr_uncount_le & [ STEM < "anamnesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anamnesis_n_rel" ] ]. anamorfosis_n1 := n_intr_uncount_le & [ STEM < "anamorfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anamorfosis_n_rel" ] ]. anamórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "anamórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_anamórfico_a_rel" ]. ananá_n1 := n_intr_count_le & [ STEM < "ananá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ananá_n_rel" ] ]. ananás_n1 := n_intr_count_le & [ STEM < "ananás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ananás_n_rel" ] ]. anapesto_n1 := n_intr_count_le & [ STEM < "anapesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anapesto_n_rel" ] ]. anaquel_n1 := n_intr_count_le & [ STEM < "anaquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anaquel_n_rel" ] ]. anaranjado_a1 := a_qual_intr_ser_le & [ STEM < "anaranjado" >, SYNSEM.LKEYS.KEYREL.PRED "_anaranjado_a_rel" ]. anarmónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anarmónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anarmónico_a_rel" ]. anarquismo_n1 := n_intr_uncount_le & [ STEM < "anarquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anarquismo_n_rel" ] ]. anarquista_a1 := a_qual_intr_ser_le & [ STEM < "anarquista" >, SYNSEM.LKEYS.KEYREL.PRED "_anarquista_a_rel" ]. anarquista_n1 := n_intr_count_le & [ STEM < "anarquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anarquista_n_rel" ] ]. anarquía_n1 := n_intr_count_le & [ STEM < "anarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anarquía_n_rel" ] ]. anastomosis_n1 := n_intr_uncount_le & [ STEM < "anastomosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anastomosis_n_rel" ] ]. anatasa_n1 := n_intr_count_le & [ STEM < "anatasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anatasa_n_rel" ] ]. anatema_n1 := n_intr_count_le & [ STEM < "anatema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatema_n_rel" ] ]. anato_n1 := n_intr_count_le & [ STEM < "anato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mat, PRED "_anato_n_rel" ] ]. anatocismo_n1 := n_intr_uncount_le & [ STEM < "anatocismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatocismo_n_rel" ] ]. anatomicoforense_a1 := a_rel_nonprd_intr_le & [ STEM < "anatomicoforense" >, SYNSEM.LKEYS.KEYREL.PRED "_anatomicoforense_a_rel" ]. anatomicoforense_n1 := n_intr_count_le & [ STEM < "anatomicoforense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anatomicoforense_n_rel" ] ]. anatomista_n1 := n_intr_count_le & [ STEM < "anatomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anatomista_n_rel" ] ]. anatomía_n1 := n_intr_count_le & [ STEM < "anatomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatomía_n_rel" ] ]. anatoxina_n1 := n_intr_count_le & [ STEM < "anatoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anatoxina_n_rel" ] ]. anatómicamente_x1 := av_i_spr_le & [ STEM < "anatómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anatómicamente_x_rel" ]. anatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "anatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_anatómico_a_rel" ]. anca_n1 := n_ppcomp_count_le & [ STEM < "anca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_anca_n_rel" ] ]. ancestral_a1 := a_rel_prd_le & [ STEM < "ancestral" >, SYNSEM.LKEYS.KEYREL.PRED "_ancestral_a_rel" ]. ancestro_n1 := n_intr_count_le & [ STEM < "ancestro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ancestro_n_rel" ] ]. ancho_a1 := a_qual_intr_scopal_le & [ STEM < "ancho" >, SYNSEM.LKEYS.KEYREL.PRED "_ancho_a_rel" ]. anchoa_n1 := n_intr_count_le & [ STEM < "anchoa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anchoa_n_rel" ] ]. anchura_n1 := n_intr_mass_le & [ STEM < "anchura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_anchura_n_rel" ] ]. ancianidad_n1 := n_ppcomp_uncount_le & [ STEM < "ancianidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ancianidad_n_rel" ] ]. anciano_a1 := a_qual_intr_ser_le & [ STEM < "anciano" >, SYNSEM.LKEYS.KEYREL.PRED "_anciano_a_rel" ]. anciano_n1 := n_intr_count_le & [ STEM < "anciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anciano_n_rel" ] ]. ancla_n1 := n_intr_count_le & [ STEM < "ancla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ancla_n_rel" ] ]. anclaje_n1 := n_event-result_intr_le & [ STEM < "anclaje" >, SYNSEM.LKEYS.KEYREL.PRED "_anclaje_n_rel" ]. anclar_v := v_trans_np_caus_le & [ STEM < "anclar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_anclar_v_rel" ] ]. anclote_n1 := n_intr_count_le & [ STEM < "anclote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anclote_n_rel" ] ]. andada_n1 := n_event-result_intr_le & [ STEM < "andada" >, SYNSEM.LKEYS.KEYREL.PRED "_andada_n_rel" ]. andadura_n1 := n_result_intr_le & [ STEM < "andadura" >, SYNSEM.LKEYS.KEYREL.PRED "_andadura_n_rel" ]. andalucista_a1 := a_rel_prd_le & [ STEM < "andalucista" >, SYNSEM.LKEYS.KEYREL.PRED "_andalucista_a_rel" ]. andalucista_n1 := n_intr_count_le & [ STEM < "andalucista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andalucista_n_rel" ] ]. andalucita_n1 := n_intr_count_le & [ STEM < "andalucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andalucita_n_rel" ] ]. andaluz_a1 := a_rel_prd_le & [ STEM < "andaluz" >, SYNSEM.LKEYS.KEYREL.PRED "_andaluz_a_rel" ]. andaluz_n1 := n_intr_count_le & [ STEM < "andaluz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andaluz_n_rel" ] ]. andamiada_n1 := n_intr_count_le & [ STEM < "andamiada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamiada_n_rel" ] ]. andamiaje_n1 := n_intr_coll_le & [ STEM < "andamiaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamiaje_n_rel" ] ]. andamio_n1 := n_intr_count_le & [ STEM < "andamio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamio_n_rel" ] ]. andana_n1 := n_intr_count_le & [ STEM < "andana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andana_n_rel" ] ]. andante_a1 := a_rel_nonprd_intr_le & [ STEM < "andante" >, SYNSEM.LKEYS.KEYREL.PRED "_andante_a_rel" ]. andante_n1 := n_intr_count_le & [ STEM < "andante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andante_n_rel" ] ]. andantino_n1 := n_intr_count_le & [ STEM < "andantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andantino_n_rel" ] ]. andanza_n1 := n_result_intr_le & [ STEM < "andanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andanza_n_rel" ] ]. andarivel_n1 := n_intr_count_le & [ STEM < "andarivel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andarivel_n_rel" ] ]. andesina_n1 := n_intr_count_le & [ STEM < "andesina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andesina_n_rel" ] ]. andesita_n1 := n_intr_count_le & [ STEM < "andesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andesita_n_rel" ] ]. andideportivo_a1 := a_rel_prd_le & [ STEM < "andideportivo" >, SYNSEM.LKEYS.KEYREL.PRED "_andideportivo_a_rel" ]. andino_a1 := a_rel_prd_le & [ STEM < "andino" >, SYNSEM.LKEYS.KEYREL.PRED "_andino_a_rel" ]. andino_n1 := n_intr_count_le & [ STEM < "andino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andino_n_rel" ] ]. andorrano_a1 := a_rel_prd_le & [ STEM < "andorrano" >, SYNSEM.LKEYS.KEYREL.PRED "_andorrano_a_rel" ]. andorrano_n1 := n_intr_count_le & [ STEM < "andorrano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andorrano_n_rel" ] ]. andradita_n1 := n_intr_count_le & [ STEM < "andradita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andradita_n_rel" ] ]. andrajoso_a1 := a_qual_intr_ser_le & [ STEM < "andrajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_andrajoso_a_rel" ]. androide_n1 := n_intr_count_le & [ STEM < "androide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_androide_n_rel" ] ]. andrología_n1 := n_intr_uncount_le & [ STEM < "andrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andrología_n_rel" ] ]. androna_n1 := n_intr_count_le & [ STEM < "androna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_androna_n_rel" ] ]. androsterona_n1 := n_intr_count_le & [ STEM < "androsterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_androsterona_n_rel" ] ]. andrógino_a1 := a_qual_intr_ser_le & [ STEM < "andrógino" >, SYNSEM.LKEYS.KEYREL.PRED "_andrógino_a_rel" ]. andén_n1 := n_intr_count_le & [ STEM < "andén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_andén_n_rel" ] ]. anea_n1 := n_intr_count_le & [ STEM < "anea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_anea_n_rel" ] ]. anecdotista_n1 := n_intr_count_le & [ STEM < "anecdotista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anecdotista_n_rel" ] ]. anecdótico_a1 := a_rel_prd_le & [ STEM < "anecdótico" >, SYNSEM.LKEYS.KEYREL.PRED "_anecdótico_a_rel" ]. anecoico_a1 := a_rel_nonprd_intr_le & [ STEM < "anecoico" >, SYNSEM.LKEYS.KEYREL.PRED "_anecoico_a_rel" ]. anegar_v := v_trans_np_le & [ STEM < "anegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_mat_soc, PRED "_anegar_v_rel" ] ]. anejo_a1 := a_rel_nonprd_intr_le & [ STEM < "anejo" >, SYNSEM.LKEYS.KEYREL.PRED "_anejo_a_rel" ]. anejo_n1 := n_intr_count_le & [ STEM < "anejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anejo_n_rel" ] ]. anelasticidad_n1 := n_intr_uncount_le & [ STEM < "anelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anelasticidad_n_rel" ] ]. anemia_n1 := n_intr_uncount_pl_le & [ STEM < "anemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anemia_n_rel" ] ]. anemometría_n1 := n_intr_uncount_le & [ STEM < "anemometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anemometría_n_rel" ] ]. anemométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "anemométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_anemométrico_a_rel" ]. anemoscopio_n1 := n_intr_count_le & [ STEM < "anemoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemoscopio_n_rel" ] ]. anemógrafo_n1 := n_intr_count_le & [ STEM < "anemógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemógrafo_n_rel" ] ]. anemómetro_n1 := n_intr_count_le & [ STEM < "anemómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemómetro_n_rel" ] ]. anergia_n1 := n_intr_uncount_pl_le & [ STEM < "anergia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anergia_n_rel" ] ]. aneroide_a1 := a_rel_nonprd_intr_le & [ STEM < "aneroide" >, SYNSEM.LKEYS.KEYREL.PRED "_aneroide_a_rel" ]. anestesia_n1 := n_intr_mass_le & [ STEM < "anestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anestesia_n_rel" ] ]. anestesiar_v1 := v_ditrans*_le & [ STEM < "anestesiar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_anestesiar_v_rel" ] ]. anestesiar_v2 := v_trans_np_le & [ STEM < "anestesiar" >, SYNSEM.LKEYS.KEYREL.PRED "_anestesiar_v_rel" ]. anestesiología_n1 := n_intr_uncount_le & [ STEM < "anestesiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anestesiología_n_rel" ] ]. anestesista_n1 := n_intr_count_le & [ STEM < "anestesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anestesista_n_rel" ] ]. anestesiólogo_n1 := n_intr_count_le & [ STEM < "anestesiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anestesiólogo_n_rel" ] ]. anestésico_a1 := a_rel_nonprd_intr_le & [ STEM < "anestésico" >, SYNSEM.LKEYS.KEYREL.PRED "_anestésico_a_rel" ]. anetol_n1 := n_intr_count_le & [ STEM < "anetol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anetol_n_rel" ] ]. aneuploidia_n1 := n_intr_uncount_le & [ STEM < "aneuploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aneuploidia_n_rel" ] ]. aneurisma_n1 := n_intr_count_le & [ STEM < "aneurisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aneurisma_n_rel" ] ]. anexión_n1 := n_trans_le & [ STEM < "anexión" >, SYNSEM.LKEYS.KEYREL.PRED "_anexión_n_rel" ]. anexo_a1 := a_qual_trans*_ser_le & [ STEM < "anexo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_anexo_a_rel" ] ]. anexo_n1 := n_intr_count_le & [ STEM < "anexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_sem, PRED "_anexo_n_rel" ] ]. anfetamina_n1 := n_intr_count_le & [ STEM < "anfetamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anfetamina_n_rel" ] ]. anfiaster_n1 := n_intr_count_le & [ STEM < "anfiaster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anfiaster_n_rel" ] ]. anfibio_a1 := a_rel_nonprd_intr_le & [ STEM < "anfibio" >, SYNSEM.LKEYS.KEYREL.PRED "_anfibio_a_rel" ]. anfibio_n1 := n_intr_count_le & [ STEM < "anfibio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anfibio_n_rel" ] ]. anfibología_n1 := n_intr_uncount_le & [ STEM < "anfibología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfibología_n_rel" ] ]. anfidiploidia_n1 := n_intr_uncount_le & [ STEM < "anfidiploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfidiploidia_n_rel" ] ]. anfidrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "anfidrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_anfidrómico_a_rel" ]. anfigonia_n1 := n_intr_uncount_le & [ STEM < "anfigonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfigonia_n_rel" ] ]. anfimixis_n1 := n_intr_uncount_le & [ STEM < "anfimixis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfimixis_n_rel" ] ]. anfipróstilo_a1 := a_rel_nonprd_intr_le & [ STEM < "anfipróstilo" >, SYNSEM.LKEYS.KEYREL.PRED "_anfipróstilo_a_rel" ]. anfipático_a1 := a_rel_nonprd_intr_le & [ STEM < "anfipático" >, SYNSEM.LKEYS.KEYREL.PRED "_anfipático_a_rel" ]. anfiteatro_n1 := n_intr_count_le & [ STEM < "anfiteatro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_anfiteatro_n_rel" ] ]. anfitrión_n1 := n_intr_count_le & [ STEM < "anfitrión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anfitrión_n_rel" ] ]. anfogenia_n1 := n_intr_uncount_le & [ STEM < "anfogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfogenia_n_rel" ] ]. anforisco_n1 := n_intr_count_le & [ STEM < "anforisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anforisco_n_rel" ] ]. anfólito_n1 := n_intr_count_le & [ STEM < "anfólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anfólito_n_rel" ] ]. anfótero_a1 := a_rel_nonprd_intr_le & [ STEM < "anfótero" >, SYNSEM.LKEYS.KEYREL.PRED "_anfótero_a_rel" ]. angaria_n1 := n_intr_uncount_le & [ STEM < "angaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angaria_n_rel" ] ]. angeitis_n1 := n_intr_uncount_le & [ STEM < "angeitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angeitis_n_rel" ] ]. angelical_a1 := a_rel_prd_le & [ STEM < "angelical" >, SYNSEM.LKEYS.KEYREL.PRED "_angelical_a_rel" ]. angelito_n1 := n_intr_count_le & [ STEM < "angelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angelito_n_rel" ] ]. angina_n1 := n_intr_uncount_pl_le & [ STEM < "angina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angina_n_rel" ] ]. angioblasto_n1 := n_intr_count_le & [ STEM < "angioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioblasto_n_rel" ] ]. angioedema_n1 := n_intr_count_le & [ STEM < "angioedema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioedema_n_rel" ] ]. angiofibroma_n1 := n_intr_count_le & [ STEM < "angiofibroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angiofibroma_n_rel" ] ]. angiografía_n1 := n_intr_count_le & [ STEM < "angiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiografía_n_rel" ] ]. angiomatosis_n1 := n_intr_uncount_le & [ STEM < "angiomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiomatosis_n_rel" ] ]. angioscotoma_n1 := n_intr_count_le & [ STEM < "angioscotoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angioscotoma_n_rel" ] ]. angioscotometría_n1 := n_intr_count_le & [ STEM < "angioscotometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioscotometría_n_rel" ] ]. angiosperma_n1 := n_intr_count_le & [ STEM < "angiosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_angiosperma_n_rel" ] ]. angiotensina_n1 := n_intr_uncount_le & [ STEM < "angiotensina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiotensina_n_rel" ] ]. anglesita_n1 := n_intr_count_le & [ STEM < "anglesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anglesita_n_rel" ] ]. anglicanismo_n1 := n_ppcomp_uncount_le & [ STEM < "anglicanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglicanismo_n_rel" ] ]. anglicano_a1 := a_rel_prd_le & [ STEM < "anglicano" >, SYNSEM.LKEYS.KEYREL.PRED "_anglicano_a_rel" ]. anglicano_n1 := n_intr_count_le & [ STEM < "anglicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglicano_n_rel" ] ]. anglicismo_n1 := n_intr_count_le & [ STEM < "anglicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglicismo_n_rel" ] ]. anglicista_n1 := n_intr_count_le & [ STEM < "anglicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglicista_n_rel" ] ]. angloamericano_a1 := a_rel_prd_le & [ STEM < "angloamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_angloamericano_a_rel" ]. angloamericano_n1 := n_intr_count_le & [ STEM < "angloamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angloamericano_n_rel" ] ]. anglofobia_n1 := n_intr_uncount_le & [ STEM < "anglofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglofobia_n_rel" ] ]. angloparlante_a1 := a_qual_intr_ser_le & [ STEM < "angloparlante" >, SYNSEM.LKEYS.KEYREL.PRED "_angloparlante_a_rel" ]. angloparlante_n1 := n_intr_count_le & [ STEM < "angloparlante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angloparlante_n_rel" ] ]. anglosajón_a1 := a_rel_prd_le & [ STEM < "anglosajón" >, SYNSEM.LKEYS.KEYREL.PRED "_anglosajón_a_rel" ]. anglófilo_a1 := a_qual_intr_ser_le & [ STEM < "anglófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_anglófilo_a_rel" ]. anglófilo_n1 := n_intr_count_le & [ STEM < "anglófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófilo_n_rel" ] ]. anglófobo_n1 := n_intr_count_le & [ STEM < "anglófobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófobo_n_rel" ] ]. anglófono_n1 := n_intr_count_le & [ STEM < "anglófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófono_n_rel" ] ]. angolense_n1 := n_intr_count_le & [ STEM < "angolense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angolense_n_rel" ] ]. angoleño_a1 := a_rel_prd_le & [ STEM < "angoleño" >, SYNSEM.LKEYS.KEYREL.PRED "_angoleño_a_rel" ]. angoleño_n1 := n_intr_count_le & [ STEM < "angoleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angoleño_n_rel" ] ]. angolés_n1 := n_intr_count_le & [ STEM < "angolés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angolés_n_rel" ] ]. angora_n1 := n_intr_count_le & [ STEM < "angora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angora_n_rel" ] ]. angostamente_x1 := av_i_spr_le & [ STEM < "angostamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angostamente_x_rel" ]. angostar_v := v_trans_np_caus_le & [ STEM < "angostar" >, SYNSEM.LKEYS.KEYREL.PRED "_angostar_v_rel" ]. angosto_a1 := a_qual_intr_scopal_le & [ STEM < "angosto" >, SYNSEM.LKEYS.KEYREL.PRED "_angosto_a_rel" ]. angostura_n1 := n_ppcomp_uncount_le & [ STEM < "angostura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angostura_n_rel" ] ]. angrelado_a1 := a_qual_intr_ser_le & [ STEM < "angrelado" >, SYNSEM.LKEYS.KEYREL.PRED "_angrelado_a_rel" ]. angstrom_n := n_intr_count_le & [ STEM < "angstrom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_angstrom_n_rel" ] ]. angstromio_n := n_intr_count_le & [ STEM < "angstromio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_angstromio_n_rel" ] ]. anguila_n1 := n_intr_count_le & [ STEM < "anguila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anguila_n_rel" ] ]. anguilicultura_n1 := n_intr_uncount_le & [ STEM < "anguilicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anguilicultura_n_rel" ] ]. angula_n1 := n_intr_count_le & [ STEM < "angula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angula_n_rel" ] ]. angular_a1 := a_qual_intr_ser_le & [ STEM < "angular" >, SYNSEM.LKEYS.KEYREL.PRED "_angular_a_rel" ]. angular_n1 := n_intr_count_le & [ STEM < "angular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_angular_n_rel" ] ]. angularmente_x1 := av_i_spr_le & [ STEM < "angularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_angularmente_x_rel" ]. anguloso_a1 := a_qual_intr_ser_le & [ STEM < "anguloso" >, SYNSEM.LKEYS.KEYREL.PRED "_anguloso_a_rel" ]. angustia_n1 := n_intr_mass_le & [ STEM < "angustia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angustia_n_rel" ] ]. angustiadamente_x1 := av_i_spr_le & [ STEM < "angustiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiadamente_x_rel" ]. angustiar_v1 := v_intr_io*_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_angustiar_v_rel" ] ]. angustiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiar_v_rel" ]. angustiar_v3 := v_trans_np_caus_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_angustiar_v_rel" ] ]. angustiosamente_x1 := av_i_spr_le & [ STEM < "angustiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiosamente_x_rel" ]. angustioso_a1 := a_qual_intr_scopal_le & [ STEM < "angustioso" >, SYNSEM.LKEYS.KEYREL.PRED "_angustioso_a_rel" ]. angélica_n1 := n_intr_count_le & [ STEM < "angélica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_angélica_n_rel" ] ]. angélicamente_x1 := av_i_spr_le & [ STEM < "angélicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angélicamente_x_rel" ]. anhelación_n1 := n_trans_le & [ STEM < "anhelación" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelación_n_rel" ]. anhelante_a1 := a_qual_intr_ser_le & [ STEM < "anhelante" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelante_a_rel" ]. anhelantemente_x1 := av_i_spr_le & [ STEM < "anhelantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelantemente_x_rel" ]. anhelar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "anhelar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ] ]. anhelar_v2 := v_intr_mrkd_np_le & [ STEM < "anhelar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ] ]. anhelar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "anhelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ]. anhelar_v4 := v_trans_np_le & [ STEM < "anhelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ]. anhelo_n1 := n_intr_count_le & [ STEM < "anhelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anhelo_n_rel" ] ]. anhidrita_n1 := n_intr_count_le & [ STEM < "anhidrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anhidrita_n_rel" ] ]. anhidro_a1 := a_rel_nonprd_intr_le & [ STEM < "anhidro" >, SYNSEM.LKEYS.KEYREL.PRED "_anhidro_a_rel" ]. anhisterético_a1 := a_rel_nonprd_intr_le & [ STEM < "anhisterético" >, SYNSEM.LKEYS.KEYREL.PRED "_anhisterético_a_rel" ]. anhídrido_n1 := n_intr_mass_le & [ STEM < "anhídrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anhídrido_n_rel" ] ]. anidable_a1 := a_qual_intr_scopal_le & [ STEM < "anidable" >, SYNSEM.LKEYS.KEYREL.PRED "_anidable_a_rel" ]. anidación_n1 := n_trans_le & [ STEM < "anidación" >, SYNSEM.LKEYS.KEYREL.PRED "_anidación_n_rel" ]. anidación_n2 := n_result_intr_ppcomp_le & [ STEM < "anidación" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_anidación_n_rel" ] ]. anidamiento_n1 := n_result_intr_le & [ STEM < "anidamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_anidamiento_n_rel" ]. anidar_v := v_intr_le & [ STEM < "anidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_anidar_v_rel" ] ]. anilida_n1 := n_intr_count_le & [ STEM < "anilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anilida_n_rel" ] ]. anilina_n1 := n_intr_mass_le & [ STEM < "anilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anilina_n_rel" ] ]. anilla_n1 := n_intr_count_le & [ STEM < "anilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anilla_n_rel" ] ]. anillar_v := v_trans_np_le & [ STEM < "anillar" >, SYNSEM.LKEYS.KEYREL.PRED "_anillar_v_rel" ]. anillo_n1 := n_intr_count_le & [ STEM < "anillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anillo_n_rel" ] ]. animación_n1 := n_trans_le & [ STEM < "animación" >, SYNSEM.LKEYS.KEYREL.PRED "_animación_n_rel" ]. animadamente_x1 := av_i_spr_le & [ STEM < "animadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_animadamente_x_rel" ]. animador_n1 := n_subj-nom_le & [ STEM < "animador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_animador_n_rel" ] ]. animadversión_n1 := n_intr_mass_le & [ STEM < "animadversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animadversión_n_rel" ] ]. animal_a1 := a_rel_nonprd_intr_le & [ STEM < "animal" >, SYNSEM.LKEYS.KEYREL.PRED "_animal_a_rel" ]. animal_n1 := n_intr_count_le & [ STEM < "animal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_animal_n_rel" ] ]. animalada_n1 := n_intr_count_le & [ STEM < "animalada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animalada_n_rel" ] ]. animar_v1 := v_intr_io*_le & [ STEM < "animar" >, SYNSEM.LKEYS.KEYREL.PRED "_animar_v_rel" ]. animar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "animar" >, SYNSEM.LKEYS.KEYREL.PRED "_animar_v_rel" ]. animar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animar_v5 := v_trans_np_mrkd_np*_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animatismo_n1 := n_intr_uncount_le & [ STEM < "animatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animatismo_n_rel" ] ]. animismo_n1 := n_intr_uncount_le & [ STEM < "animismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animismo_n_rel" ] ]. animosamente_x1 := av_i_spr_le & [ STEM < "animosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_animosamente_x_rel" ]. animosidad_n1 := n_intr_mass_le & [ STEM < "animosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animosidad_n_rel" ] ]. animoso_a1 := a_qual_intr_ser_le & [ STEM < "animoso" >, SYNSEM.LKEYS.KEYREL.PRED "_animoso_a_rel" ]. aniquilación_n1 := n_trans_le & [ STEM < "aniquilación" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilación_n_rel" ]. aniquilar_v1 := v_intr_io*_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilar_v_rel" ]. aniquilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilar_v_rel" ]. aniquilar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aniquilar_v_rel" ] ]. aniquilar_v4 := v_trans_np_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aniquilar_v_rel" ] ]. aniridia_n1 := n_intr_uncount_le & [ STEM < "aniridia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniridia_n_rel" ] ]. anisado_n1 := n_intr_count_le & [ STEM < "anisado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anisado_n_rel" ] ]. aniseiconía_n1 := n_intr_uncount_le & [ STEM < "aniseiconía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniseiconía_n_rel" ] ]. aniseicónico_a1 := a_rel_nonprd_intr_le & [ STEM < "aniseicónico" >, SYNSEM.LKEYS.KEYREL.PRED "_aniseicónico_a_rel" ]. anisete_n1 := n_intr_count_le & [ STEM < "anisete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anisete_n_rel" ] ]. anisidina_n1 := n_intr_count_le & [ STEM < "anisidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anisidina_n_rel" ] ]. anisocitosis_n1 := n_intr_uncount_le & [ STEM < "anisocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisocitosis_n_rel" ] ]. anisocoria_n1 := n_intr_uncount_le & [ STEM < "anisocoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisocoria_n_rel" ] ]. anisognato_a1 := a_rel_nonprd_intr_le & [ STEM < "anisognato" >, SYNSEM.LKEYS.KEYREL.PRED "_anisognato_a_rel" ]. anisoiconía_n1 := n_intr_uncount_le & [ STEM < "anisoiconía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisoiconía_n_rel" ] ]. anisol_n1 := n_intr_mass-or-count_le & [ STEM < "anisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_anisol_n_rel" ] ]. anisometropía_n1 := n_intr_uncount_le & [ STEM < "anisometropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisometropía_n_rel" ] ]. anisomérico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisomérico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisomérico_a_rel" ]. anisométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisométrico_a_rel" ]. anisotropia_n1 := n_intr_uncount_le & [ STEM < "anisotropia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisotropia_n_rel" ] ]. anisotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisotrópico_a_rel" ]. anisotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisotónico_a_rel" ]. anisócrono_a1 := a_rel_nonprd_intr_le & [ STEM < "anisócrono" >, SYNSEM.LKEYS.KEYREL.PRED "_anisócrono_a_rel" ]. anisótropo_a1 := a_rel_nonprd_intr_le & [ STEM < "anisótropo" >, SYNSEM.LKEYS.KEYREL.PRED "_anisótropo_a_rel" ]. aniversario_n1 := n_intr_count_le & [ STEM < "aniversario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniversario_n_rel" ] ]. anión_n1 := n_intr_count_le & [ STEM < "anión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anión_n_rel" ] ]. aniónico_a1 := a_rel_nonprd_intr_le & [ STEM < "aniónico" >, SYNSEM.LKEYS.KEYREL.PRED "_aniónico_a_rel" ]. ano_n1 := n_ppcomp_count_le & [ STEM < "ano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ano_n_rel" ] ]. anobido_n1 := n_intr_count_le & [ STEM < "anobido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_anobido_n_rel" ] ]. anoche_n1 := av_deic_tmp_le & [ STEM < "anoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anoche_x_rel" ]. anochecer_n1 := n_result_intr_le & [ STEM < "anochecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anochecer_n_rel" ] ]. anochecer_v := v_impers_strict_intr_le & [ STEM < "anochecer" >, SYNSEM.LKEYS.KEYREL.PRED "_anochecer_v_rel" ]. anocutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "anocutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_anocutáneo_a_rel" ]. anodinamente_x1 := av_i_spr_le & [ STEM < "anodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anodinamente_x_rel" ]. anodino_a1 := a_qual_intr_scopal_le & [ STEM < "anodino" >, SYNSEM.LKEYS.KEYREL.PRED "_anodino_a_rel" ]. anodizar_v := v_trans_np_le & [ STEM < "anodizar" >, SYNSEM.LKEYS.KEYREL.PRED "_anodizar_v_rel" ]. anodoncia_n1 := n_intr_uncount_le & [ STEM < "anodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anodoncia_n_rel" ] ]. anoftalmía_n1 := n_intr_uncount_le & [ STEM < "anoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoftalmía_n_rel" ] ]. anolito_n1 := n_intr_count_le & [ STEM < "anolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anolito_n_rel" ] ]. anomalopía_n1 := n_intr_uncount_le & [ STEM < "anomalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomalopía_n_rel" ] ]. anomaloscopio_n1 := n_intr_count_le & [ STEM < "anomaloscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anomaloscopio_n_rel" ] ]. anomalía_n1 := n_intr_count_le & [ STEM < "anomalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomalía_n_rel" ] ]. anomia_n1 := n_intr_uncount_le & [ STEM < "anomia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomia_n_rel" ] ]. anonadar_v1 := v_intr_io*_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonadar_v_rel" ]. anonadar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonadar_v_rel" ]. anonadar_v3 := v_trans_np_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_anonadar_v_rel" ] ]. anonimato_n1 := n_intr_uncount_le & [ STEM < "anonimato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anonimato_n_rel" ] ]. anonimizar_v := v_trans_np_le & [ STEM < "anonimizar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonimizar_v_rel" ]. anopsia_n1 := n_intr_uncount_le & [ STEM < "anopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anopsia_n_rel" ] ]. anorac_n1 := n_intr_count_le & [ STEM < "anorac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anorac_n_rel" ] ]. anorak_n1 := n_intr_count_le & [ STEM < "anorak" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anorak_n_rel" ] ]. anorexia_n1 := n_intr_uncount_le & [ STEM < "anorexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anorexia_n_rel" ] ]. anormal_a1 := a_qual_intr_scopal_le & [ STEM < "anormal" >, SYNSEM.LKEYS.KEYREL.PRED "_anormal_a_rel" ]. anormalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "anormalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anormalidad_n_rel" ] ]. anormalmente_x1 := av_i_spr_le & [ STEM < "anormalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anormalmente_x_rel" ]. anorrectal_a1 := a_rel_nonprd_intr_le & [ STEM < "anorrectal" >, SYNSEM.LKEYS.KEYREL.PRED "_anorrectal_a_rel" ]. anortita_n1 := n_intr_count_le & [ STEM < "anortita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anortita_n_rel" ] ]. anortoclasa_n1 := n_intr_mass-or-count_le & [ STEM < "anortoclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_anortoclasa_n_rel" ] ]. anortopía_n1 := n_intr_uncount_le & [ STEM < "anortopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anortopía_n_rel" ] ]. anortosita_n1 := n_intr_count_le & [ STEM < "anortosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anortosita_n_rel" ] ]. anosmia_n1 := n_intr_uncount_le & [ STEM < "anosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anosmia_n_rel" ] ]. anotación_n1 := n_intr_count_le & [ STEM < "anotación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_anotación_n_rel" ] ]. anotador_a1 := a_rel_nonprd_intr_le & [ STEM < "anotador" >, SYNSEM.LKEYS.KEYREL.PRED "_anotador_a_rel" ]. anotador_n1 := n_subj-nom_le & [ STEM < "anotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anotador_n_rel" ] ]. anotar_v1 := v_trans_cp_prop_fin_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anotar_v_rel" ] ]. anotar_v2 := v_trans_cp_semi_ques_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL.PRED "_anotar_v_rel" ]. anotar_v3 := v_trans_np_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL.PRED "_anotar_v_rel" ]. anotia_n1 := n_intr_uncount_le & [ STEM < "anotia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anotia_n_rel" ] ]. anotropía_n1 := n_intr_uncount_le & [ STEM < "anotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anotropía_n_rel" ] ]. anoxemia_n1 := n_intr_uncount_le & [ STEM < "anoxemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoxemia_n_rel" ] ]. anoxia_n1 := n_intr_uncount_le & [ STEM < "anoxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoxia_n_rel" ] ]. anquerita_n1 := n_intr_count_le & [ STEM < "anquerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anquerita_n_rel" ] ]. anquiloglosia_n1 := n_intr_uncount_le & [ STEM < "anquiloglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anquiloglosia_n_rel" ] ]. anquilosamiento_n1 := n_trans_le & [ STEM < "anquilosamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_anquilosamiento_n_rel" ]. anquilosis_n1 := n_intr_uncount_le & [ STEM < "anquilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anquilosis_n_rel" ] ]. anquirina_n1 := n_intr_count_le & [ STEM < "anquirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anquirina_n_rel" ] ]. anserino_n1 := n_intr_count_le & [ STEM < "anserino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anserino_n_rel" ] ]. ansia_n1 := n_intr_uncount_pl_le & [ STEM < "ansia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ansia_n_rel" ] ]. ansiar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ansiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ] ]. ansiar_v2 := v_intr_mrkd_np_le & [ STEM < "ansiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ] ]. ansiar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "ansiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ]. ansiar_v4 := v_trans_np_le & [ STEM < "ansiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_ansiar_v_rel" ] ]. ansiedad_n1 := n_intr_mass-or-count_le & [ STEM < "ansiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ansiedad_n_rel" ] ]. ansiosamente_x1 := av_i_spr_le & [ STEM < "ansiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ansiosamente_x_rel" ]. ansioso_a1 := a_qual_trans*_ser_le & [ STEM < "ansioso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_ansioso_a_rel" ] ]. ansioso_a2 := a_sctrl_estar_le & [ STEM < "ansioso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_ansioso_a_rel" ] ]. anta_n1 := n_intr_count_le & [ STEM < "anta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_anta_n_rel" ] ]. antagonismo_n1 := n_intr_mass_le & [ STEM < "antagonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antagonismo_n_rel" ] ]. antagonista_a1 := a_qual_intr_ser_le & [ STEM < "antagonista" >, SYNSEM.LKEYS.KEYREL.PRED "_antagonista_a_rel" ]. antagonista_n1 := n_intr_count_le & [ STEM < "antagonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antagonista_n_rel" ] ]. antagónico_a1 := a_rel_prd_le & [ STEM < "antagónico" >, SYNSEM.LKEYS.KEYREL.PRED "_antagónico_a_rel" ]. antaño_n1 := av_deic_tmp_le & [ STEM < "antaño" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antaño_x_rel" ]. ante_n1 := n_intr_mass_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ante_n_rel" ] ]. ante_p_nmod := p_nmod_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL.PRED _ante_p_rel ]. ante_p_vmod := p_vmod_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL.PRED _ante_p_rel ]. anteanoche_n1 := av_deic_tmp_le & [ STEM < "anteanoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteanoche_x_rel" ]. anteanteayer_n1 := av_deic_tmp_le & [ STEM < "anteanteayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteanteayer_x_rel" ]. anteayer_n1 := av_deic_tmp_le & [ STEM < "anteayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteayer_x_rel" ]. antebrazo_n1 := n_ppcomp_count_le & [ STEM < "antebrazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antebrazo_n_rel" ] ]. antecedencia_n1 := n_intr_count_le & [ STEM < "antecedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antecedencia_n_rel" ] ]. antecedente_a1 := a_rel_nonprd_intr_le & [ STEM < "antecedente" >, SYNSEM.LKEYS.KEYREL.PRED "_antecedente_a_rel" ]. antecedente_n1 := n_intr_count_le & [ STEM < "antecedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antecedente_n_rel" ] ]. antecesor_n1 := n_subj-nom_le & [ STEM < "antecesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antecesor_n_rel" ] ]. antecocina_n1 := n_intr_count_le & [ STEM < "antecocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antecocina_n_rel" ] ]. antecámara_n1 := n_intr_count_le & [ STEM < "antecámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antecámara_n_rel" ] ]. antedatación_n1 := n_trans_le & [ STEM < "antedatación" >, SYNSEM.LKEYS.KEYREL.PRED "_antedatación_n_rel" ]. antediluviano_a1 := a_rel_nonprd_intr_le & [ STEM < "antediluviano" >, SYNSEM.LKEYS.KEYREL.PRED "_antediluviano_a_rel" ]. antefirma_n1 := n_intr_count_le & [ STEM < "antefirma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antefirma_n_rel" ] ]. antegreen_n1 := n_intr_count_le & [ STEM < "antegreen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_antegreen_n_rel" ] ]. antejuicio_n1 := n_intr_count_le & [ STEM < "antejuicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antejuicio_n_rel" ] ]. antelación_n1 := n_intr_mass_le & [ STEM < "antelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antelación_n_rel" ] ]. antemano_n1 := n_ppcomp_count_le & [ STEM < "antemano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antemano_n_rel" ] ]. antemural_n1 := n_intr_count_le & [ STEM < "antemural" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antemural_n_rel" ] ]. antemuro_n1 := n_intr_count_le & [ STEM < "antemuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antemuro_n_rel" ] ]. antena_n1 := n_intr_count_le & [ STEM < "antena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_antena_n_rel" ] ]. anteojera_n1 := n_intr_count_le & [ STEM < "anteojera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anteojera_n_rel" ] ]. anteojo_n1 := n_intr_count_le & [ STEM < "anteojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anteojo_n_rel" ] ]. antepalco_n1 := n_intr_count_le & [ STEM < "antepalco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antepalco_n_rel" ] ]. antepasado_n1 := n_intr_count_le & [ STEM < "antepasado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antepasado_n_rel" ] ]. antepecho_n2 := n_ppcomp_count_le & [ STEM < "antepecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antepecho_n_rel" ] ]. anteponer_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "anteponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_anteponer_v_rel" ] ]. anteproyecto_n1 := n_intr_count_le & [ STEM < "anteproyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anteproyecto_n_rel" ] ]. antepuerto_n1 := n_intr_count_le & [ STEM < "antepuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antepuerto_n_rel" ] ]. antera_n1 := n_intr_count_le & [ STEM < "antera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antera_n_rel" ] ]. anterior_a1 := a_compar_alt_le & [ STEM < "anterior" >, SYNSEM.LKEYS.KEYREL.PRED "_anterior_a_rel" ]. anterioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "anterioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anterioridad_n_rel" ] ]. anteriormente_a_p_vmod := p_vmod_le & [ STEM < "anteriormente_a" >, SYNSEM.LKEYS.KEYREL.PRED _anteriormente_a_p_rel ]. anteriormente_x1 := av_i_spr_le & [ STEM < "anteriormente" >, SYNSEM.LKEYS.KEYREL.PRED "_anteriormente_x_rel" ]. anterolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "anterolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_anterolateral_a_rel" ]. anteroposterior_a1 := a_rel_nonprd_intr_le & [ STEM < "anteroposterior" >, SYNSEM.LKEYS.KEYREL.PRED "_anteroposterior_a_rel" ]. antes_bien_x1 := av_i_le & [ STEM < "antes_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_bien_x_rel" ]. antes_de_anoche_n1 := av_deic_tmp_le & [ STEM < "antes_de_anoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antes_de_anoche_x_rel" ]. antes_de_ayer_n1 := av_deic_tmp_le & [ STEM < "antes_de_ayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antes_de_ayer_x_rel" ]. antes_de_p_vmod := p_vmod_le & [ STEM < "antes_de" >, SYNSEM.LKEYS.KEYREL.PRED _antes_de_p_rel ]. antes_pues_x1 := av_i_le & [ STEM < "antes_pues" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_pues_x_rel" ]. antes_que_nada_x1 := av_i_le & [ STEM < "antes_que_nada" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_que_nada_x_rel" ]. antes_x1 := av_i_spr_le & [ STEM < "antes" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_x_rel" ]. antesala_n1 := n_intr_count_le & [ STEM < "antesala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antesala_n_rel" ] ]. anti_a1 := a_adv_int_le & [ STEM < "anti" >, SYNSEM.LKEYS.KEYREL.PRED "_anti_a_rel" ]. antiabrasivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiabrasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiabrasivo_a_rel" ]. antiadherente_a1 := a_rel_prd_le & [ STEM < "antiadherente" >, SYNSEM.LKEYS.KEYREL.PRED "_antiadherente_a_rel" ]. antiadhesivo_n1 := n_intr_count_le & [ STEM < "antiadhesivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiadhesivo_n_rel" ] ]. antialbumosa_n1 := n_intr_mass-or-count_le & [ STEM < "antialbumosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_antialbumosa_n_rel" ] ]. antialcalino_a1 := a_rel_nonprd_intr_le & [ STEM < "antialcalino" >, SYNSEM.LKEYS.KEYREL.PRED "_antialcalino_a_rel" ]. antialdoxima_n1 := n_intr_count_le & [ STEM < "antialdoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antialdoxima_n_rel" ] ]. antialotipo_n1 := n_intr_count_le & [ STEM < "antialotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antialotipo_n_rel" ] ]. antiatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiatómico_a_rel" ]. antiaéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiaéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiaéreo_a_rel" ]. antibalanceador_a1 := a_rel_nonprd_intr_le & [ STEM < "antibalanceador" >, SYNSEM.LKEYS.KEYREL.PRED "_antibalanceador_a_rel" ]. antibariona_n1 := n_intr_count_le & [ STEM < "antibariona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antibariona_n_rel" ] ]. antibiosis_n1 := n_intr_uncount_le & [ STEM < "antibiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antibiosis_n_rel" ] ]. antibiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "antibiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_antibiótico_a_rel" ]. antibiótico_n1 := n_intr_mass_le & [ STEM < "antibiótico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antibiótico_n_rel" ] ]. anticadencia_n1 := n_intr_uncount_le & [ STEM < "anticadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticadencia_n_rel" ] ]. anticapacitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapacitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapacitativo_a_rel" ]. anticapacitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapacitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapacitivo_a_rel" ]. anticapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapilar_a_rel" ]. anticarbonilla_n1 := n_intr_count_le & [ STEM < "anticarbonilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticarbonilla_n_rel" ] ]. anticariógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "anticariógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_anticariógeno_a_rel" ]. anticastrista_a1 := a_qual_intr_ser_le & [ STEM < "anticastrista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticastrista_a_rel" ]. anticastrista_n1 := n_intr_count_le & [ STEM < "anticastrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticastrista_n_rel" ] ]. anticatalanista_a1 := a_qual_intr_ser_le & [ STEM < "anticatalanista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticatalanista_a_rel" ]. anticatalanista_n1 := n_intr_count_le & [ STEM < "anticatalanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticatalanista_n_rel" ] ]. anticatalizador_n1 := n_intr_count_le & [ STEM < "anticatalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_anticatalizador_n_rel" ] ]. anticiclón_n1 := n_intr_count_le & [ STEM < "anticiclón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_anticiclón_n_rel" ] ]. anticiclónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anticiclónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anticiclónico_a_rel" ]. anticipación_n1 := n_trans_le & [ STEM < "anticipación" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipación_n_rel" ]. anticipar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anticipar_v_rel" ] ]. anticipar_v2 := v_ditrans*_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_anticipar_v_rel" ] ]. anticipar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipar_v_rel" ]. anticipar_v4 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "anticipar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_anticipar_v_rel" ] ]. anticipar_v5 := v_trans_np_mrkd_np*_caus_le & [ STEM < "anticipar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_anticipar_v_rel" ] ] ]. anticipativo_a1 := a_rel_prd_le & [ STEM < "anticipativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipativo_a_rel" ]. anticipo_n1 := n_trans_le & [ STEM < "anticipo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipo_n_rel" ]. anticlerical_a1 := a_rel_nonprd_intr_le & [ STEM < "anticlerical" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlerical_a_rel" ]. anticlericalismo_n1 := n_intr_uncount_le & [ STEM < "anticlericalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticlericalismo_n_rel" ] ]. anticlericalmente_x1 := av_i_spr_le & [ STEM < "anticlericalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlericalmente_x_rel" ]. anticlinal_a1 := a_rel_nonprd_intr_le & [ STEM < "anticlinal" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlinal_a_rel" ]. anticlinalmente_x1 := av_i_spr_le & [ STEM < "anticlinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlinalmente_x_rel" ]. anticloro_n1 := n_intr_mass_le & [ STEM < "anticloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticloro_n_rel" ] ]. anticlímax_n1 := n_intr_count_le & [ STEM < "anticlímax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticlímax_n_rel" ] ]. anticoagulante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticoagulante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticoagulante_a_rel" ]. anticoagulante_n1 := n_intr_count_le & [ STEM < "anticoagulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticoagulante_n_rel" ] ]. anticoagulina_n1 := n_intr_count_le & [ STEM < "anticoagulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticoagulina_n_rel" ] ]. anticolonialismo_n1 := n_intr_uncount_le & [ STEM < "anticolonialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticolonialismo_n_rel" ] ]. anticomplementario_a1 := a_rel_nonprd_intr_le & [ STEM < "anticomplementario" >, SYNSEM.LKEYS.KEYREL.PRED "_anticomplementario_a_rel" ]. anticomunismo_n1 := n_intr_uncount_le & [ STEM < "anticomunismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticomunismo_n_rel" ] ]. anticomunista_a1 := a_qual_intr_ser_le & [ STEM < "anticomunista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticomunista_a_rel" ]. anticonceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticonceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonceptivo_a_rel" ]. anticondensación_n1 := n_intr_uncount_le & [ STEM < "anticondensación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticondensación_n_rel" ] ]. anticongelante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticongelante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticongelante_a_rel" ]. anticongelante_n1 := n_intr_mass_le & [ STEM < "anticongelante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticongelante_n_rel" ] ]. anticonstitucional_a1 := a_rel_nonprd_intr_le & [ STEM < "anticonstitucional" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonstitucional_a_rel" ]. anticonstitucionalmente_x1 := av_i_spr_le & [ STEM < "anticonstitucionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonstitucionalmente_x_rel" ]. anticontaminante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticontaminante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticontaminante_a_rel" ]. anticorrosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticorrosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticorrosivo_a_rel" ]. anticorrosión_n1 := n_intr_uncount_le & [ STEM < "anticorrosión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticorrosión_n_rel" ] ]. anticresis_n1 := n_intr_uncount_pl_le & [ STEM < "anticresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticresis_n_rel" ] ]. anticresista_n1 := n_intr_count_le & [ STEM < "anticresista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticresista_n_rel" ] ]. anticristo_n1 := n_intr_count_le & [ STEM < "anticristo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticristo_n_rel" ] ]. anticrético_a1 := a_rel_nonprd_intr_le & [ STEM < "anticrético" >, SYNSEM.LKEYS.KEYREL.PRED "_anticrético_a_rel" ]. anticuario_n1 := n_intr_count_le & [ STEM < "anticuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticuario_n_rel" ] ]. anticuerpo_n1 := n_intr_count_le & [ STEM < "anticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticuerpo_n_rel" ] ]. anticuerpo_n2 := n_ppcomp_count_le & [ STEM < "anticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_anticuerpo_n_rel" ] ]. anticátodo_n1 := n_intr_count_le & [ STEM < "anticátodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticátodo_n_rel" ] ]. anticíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "anticíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_anticíclico_a_rel" ]. antideflagrante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideflagrante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideflagrante_a_rel" ]. antidemocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "antidemocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_antidemocrático_a_rel" ]. antideportivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antideportivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antideportivo_a_rel" ]. antiderivada_n1 := n_intr_count_le & [ STEM < "antiderivada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiderivada_n_rel" ] ]. antiderrapante_a1 := a_rel_nonprd_intr_le & [ STEM < "antiderrapante" >, SYNSEM.LKEYS.KEYREL.PRED "_antiderrapante_a_rel" ]. antideslizante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideslizante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideslizante_a_rel" ]. antideslizante_n1 := n_intr_uncount_pl_le & [ STEM < "antideslizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antideslizante_n_rel" ] ]. antideslumbrante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideslumbrante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideslumbrante_a_rel" ]. antidesvanecedor_a1 := a_rel_nonprd_intr_le & [ STEM < "antidesvanecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_antidesvanecedor_a_rel" ]. antidetonante_a1 := a_rel_nonprd_intr_le & [ STEM < "antidetonante" >, SYNSEM.LKEYS.KEYREL.PRED "_antidetonante_a_rel" ]. antiduna_n1 := n_intr_count_le & [ STEM < "antiduna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antiduna_n_rel" ] ]. antieconómico_a1 := a_rel_nonprd_intr_le & [ STEM < "antieconómico" >, SYNSEM.LKEYS.KEYREL.PRED "_antieconómico_a_rel" ]. antienzima_n1 := n_intr_count_le & [ STEM < "antienzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antienzima_n_rel" ] ]. antiepicentro_n1 := n_intr_count_le & [ STEM < "antiepicentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antiepicentro_n_rel" ] ]. antierosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antierosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antierosivo_a_rel" ]. antiestático_a1 := a_rel_nonprd_intr_le & [ STEM < "antiestático" >, SYNSEM.LKEYS.KEYREL.PRED "_antiestático_a_rel" ]. antiestético_a1 := a_rel_nonprd_intr_le & [ STEM < "antiestético" >, SYNSEM.LKEYS.KEYREL.PRED "_antiestético_a_rel" ]. antiexplosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiexplosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiexplosivo_a_rel" ]. antifaz_n1 := n_intr_count_le & [ STEM < "antifaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antifaz_n_rel" ] ]. antifederalista_a1 := a_qual_intr_ser_le & [ STEM < "antifederalista" >, SYNSEM.LKEYS.KEYREL.PRED "_antifederalista_a_rel" ]. antiferromagnetismo_n1 := n_intr_uncount_le & [ STEM < "antiferromagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiferromagnetismo_n_rel" ] ]. antiferromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "antiferromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_antiferromagnético_a_rel" ]. antifibrinolisina_n1 := n_intr_count_le & [ STEM < "antifibrinolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antifibrinolisina_n_rel" ] ]. antifranquista_a1 := a_qual_intr_ser_le & [ STEM < "antifranquista" >, SYNSEM.LKEYS.KEYREL.PRED "_antifranquista_a_rel" ]. antifranquista_n1 := n_intr_count_le & [ STEM < "antifranquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antifranquista_n_rel" ] ]. antifricción_n1 := n_intr_uncount_le & [ STEM < "antifricción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antifricción_n_rel" ] ]. antifuncional_a1 := a_rel_nonprd_intr_le & [ STEM < "antifuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_antifuncional_a_rel" ]. antigenicidad_n1 := n_intr_uncount_le & [ STEM < "antigenicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antigenicidad_n_rel" ] ]. antiglobulina_n1 := n_intr_count_le & [ STEM < "antiglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiglobulina_n_rel" ] ]. antigorita_n1 := n_intr_count_le & [ STEM < "antigorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antigorita_n_rel" ] ]. antigualla_n1 := n_intr_count_le & [ STEM < "antigualla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antigualla_n_rel" ] ]. antiguamente_x1 := av_i_spr_le & [ STEM < "antiguamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguamente_x_rel" ]. antigubernamental_a1 := a_rel_nonprd_intr_le & [ STEM < "antigubernamental" >, SYNSEM.LKEYS.KEYREL.PRED "_antigubernamental_a_rel" ]. antiguo_a1 := a_adv_event_le & [ STEM < "antiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguo_a_rel" ]. antiguo_a2 := a_qual_intr_scopal_le & [ STEM < "antiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguo_a_rel" ]. antigénico_a1 := a_rel_nonprd_intr_le & [ STEM < "antigénico" >, SYNSEM.LKEYS.KEYREL.PRED "_antigénico_a_rel" ]. antigüedad_n1 := n_intr_count_le & [ STEM < "antigüedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antigüedad_n_rel" ] ]. antigüedad_n2 := n_intr_temp_le & [ STEM < "antigüedad" > ]. antiherrumbroso_a1 := a_rel_nonprd_intr_le & [ STEM < "antiherrumbroso" >, SYNSEM.LKEYS.KEYREL.PRED "_antiherrumbroso_a_rel" ]. antihigiénico_a1 := a_rel_nonprd_intr_le & [ STEM < "antihigiénico" >, SYNSEM.LKEYS.KEYREL.PRED "_antihigiénico_a_rel" ]. antihiperglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "antihiperglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_antihiperglucemiante_a_rel" ]. antihipoglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "antihipoglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_antihipoglucemiante_a_rel" ]. antihistamina_n1 := n_intr_count_le & [ STEM < "antihistamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antihistamina_n_rel" ] ]. antihistamínico_a1 := a_rel_nonprd_intr_le & [ STEM < "antihistamínico" >, SYNSEM.LKEYS.KEYREL.PRED "_antihistamínico_a_rel" ]. antihistamínico_n1 := n_intr_uncount_pl_le & [ STEM < "antihistamínico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antihistamínico_n_rel" ] ]. antihiático_a1 := a_rel_nonprd_intr_le & [ STEM < "antihiático" >, SYNSEM.LKEYS.KEYREL.PRED "_antihiático_a_rel" ]. antihormona_n1 := n_intr_count_le & [ STEM < "antihormona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antihormona_n_rel" ] ]. antihéroe_n1 := n_intr_count_le & [ STEM < "antihéroe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antihéroe_n_rel" ] ]. antiidiotipo_n1 := n_intr_count_le & [ STEM < "antiidiotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiidiotipo_n_rel" ] ]. antiidiotopo_n1 := n_intr_count_le & [ STEM < "antiidiotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiidiotopo_n_rel" ] ]. antiincrustante_a1 := a_rel_nonprd_intr_le & [ STEM < "antiincrustante" >, SYNSEM.LKEYS.KEYREL.PRED "_antiincrustante_a_rel" ]. antiinductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiinductivo_a_rel" ]. antiinflacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiinflacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiinflacionario_a_rel" ]. antijuricidad_n1 := n_intr_uncount_le & [ STEM < "antijuricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antijuricidad_n_rel" ] ]. antijuridicidad_n1 := n_ppcomp_uncount_le & [ STEM < "antijuridicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antijuridicidad_n_rel" ] ]. antilinfocitario_a1 := a_rel_nonprd_intr_le & [ STEM < "antilinfocitario" >, SYNSEM.LKEYS.KEYREL.PRED "_antilinfocitario_a_rel" ]. antilinfocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antilinfocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antilinfocítico_a_rel" ]. antilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "antilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_antilocal_a_rel" ]. antilogaritmo_n1 := n_intr_count_le & [ STEM < "antilogaritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antilogaritmo_n_rel" ] ]. antimagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "antimagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_antimagnético_a_rel" ]. antimaquinismo_n1 := n_intr_uncount_le & [ STEM < "antimaquinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimaquinismo_n_rel" ] ]. antimateria_n1 := n_intr_uncount_pl_le & [ STEM < "antimateria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimateria_n_rel" ] ]. antimeridiano_n1 := n_intr_count_le & [ STEM < "antimeridiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimeridiano_n_rel" ] ]. antimetabolito_n1 := n_intr_count_le & [ STEM < "antimetabolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimetabolito_n_rel" ] ]. antimicina_n1 := n_intr_count_le & [ STEM < "antimicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimicina_n_rel" ] ]. antimicrobiano_a1 := a_rel_nonprd_intr_le & [ STEM < "antimicrobiano" >, SYNSEM.LKEYS.KEYREL.PRED "_antimicrobiano_a_rel" ]. antimicrobios_a1 := a_rel_nonprd_intr_le & [ STEM < "antimicrobios" >, SYNSEM.LKEYS.KEYREL.PRED "_antimicrobios_a_rel" ]. antimilitarismo_n1 := n_intr_uncount_le & [ STEM < "antimilitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimilitarismo_n_rel" ] ]. antimilitarista_a1 := a_qual_intr_ser_le & [ STEM < "antimilitarista" >, SYNSEM.LKEYS.KEYREL.PRED "_antimilitarista_a_rel" ]. antimoda_n1 := n_intr_uncount_pl_le & [ STEM < "antimoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimoda_n_rel" ] ]. antimoho_n1 := n_intr_count_le & [ STEM < "antimoho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimoho_n_rel" ] ]. antimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonial_a_rel" ]. antimoniato_n1 := n_intr_count_le & [ STEM < "antimoniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimoniato_n_rel" ] ]. antimonio_n1 := n_intr_mass_le & [ STEM < "antimonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimonio_n_rel" ] ]. antimonioso_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonioso_a_rel" ]. antimonita_n1 := n_intr_count_le & [ STEM < "antimonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimonita_n_rel" ] ]. antimoniuro_n1 := n_intr_mass_le & [ STEM < "antimoniuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimoniuro_n_rel" ] ]. antimonopolio_n1 := n_intr_count_le & [ STEM < "antimonopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimonopolio_n_rel" ] ]. antimonárquico_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonárquico_a_rel" ]. antimunicipalista_a1 := a_rel_nonprd_intr_le & [ STEM < "antimunicipalista" >, SYNSEM.LKEYS.KEYREL.PRED "_antimunicipalista_a_rel" ]. antinatural_a1 := a_rel_nonprd_intr_le & [ STEM < "antinatural" >, SYNSEM.LKEYS.KEYREL.PRED "_antinatural_a_rel" ]. antinaturalmente_x1 := av_i_spr_le & [ STEM < "antinaturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_antinaturalmente_x_rel" ]. antinodo_n1 := n_intr_count_le & [ STEM < "antinodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_antinodo_n_rel" ] ]. antinomia_n1 := n_intr_uncount_pl_le & [ STEM < "antinomia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antinomia_n_rel" ] ]. antinuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "antinuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_antinuclear_a_rel" ]. antiofídico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiofídico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiofídico_a_rel" ]. antioxidante_a1 := a_qual_intr_scopal_le & [ STEM < "antioxidante" >, SYNSEM.LKEYS.KEYREL.PRED "_antioxidante_a_rel" ]. antioxidante_n1 := n_intr_count_le & [ STEM < "antioxidante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antioxidante_n_rel" ] ]. antiozonizante_n1 := n_intr_count_le & [ STEM < "antiozonizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiozonizante_n_rel" ] ]. antiparalelo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparalelo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparalelo_a_rel" ]. antiparasitario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparasitario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparasitario_a_rel" ]. antiparlamentario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparlamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparlamentario_a_rel" ]. antipatrióticamente_x1 := av_i_spr_le & [ STEM < "antipatrióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antipatrióticamente_x_rel" ]. antipatriótico_a1 := a_qual_intr_ser_le & [ STEM < "antipatriótico" >, SYNSEM.LKEYS.KEYREL.PRED "_antipatriótico_a_rel" ]. antipatía_n1 := n_intr_mass_le & [ STEM < "antipatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antipatía_n_rel" ] ]. antipendio_n1 := n_intr_count_le & [ STEM < "antipendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antipendio_n_rel" ] ]. antipirina_n1 := n_intr_count_le & [ STEM < "antipirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antipirina_n_rel" ] ]. antiplasmina_n1 := n_intr_count_le & [ STEM < "antiplasmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiplasmina_n_rel" ] ]. antiproteccionista_a1 := a_qual_intr_ser_le & [ STEM < "antiproteccionista" >, SYNSEM.LKEYS.KEYREL.PRED "_antiproteccionista_a_rel" ]. antipático_a1 := a_qual_intr_ser_le & [ STEM < "antipático" >, SYNSEM.LKEYS.KEYREL.PRED "_antipático_a_rel" ]. antireflexivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antireflexivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antireflexivo_a_rel" ]. antirracismo_n1 := n_intr_uncount_le & [ STEM < "antirracismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antirracismo_n_rel" ] ]. antirreflejante_a1 := a_rel_nonprd_intr_le & [ STEM < "antirreflejante" >, SYNSEM.LKEYS.KEYREL.PRED "_antirreflejante_a_rel" ]. antirresonancia_n1 := n_intr_count_le & [ STEM < "antirresonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antirresonancia_n_rel" ] ]. antirresonante_a1 := a_rel_nonprd_intr_le & [ STEM < "antirresonante" >, SYNSEM.LKEYS.KEYREL.PRED "_antirresonante_a_rel" ]. antirrevolucionario_a1 := a_qual_intr_ser_le & [ STEM < "antirrevolucionario" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrevolucionario_a_rel" ]. antirrobo_a1 := a_rel_nonprd_intr_le & [ STEM < "antirrobo" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrobo_a_rel" ]. antirrotatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "antirrotatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrotatorio_a_rel" ]. antiselección_n1 := n_trans_le & [ STEM < "antiselección" >, SYNSEM.LKEYS.KEYREL.PRED "_antiselección_n_rel" ]. antisemita_a1 := a_qual_intr_ser_le & [ STEM < "antisemita" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemita_a_rel" ]. antisemitismo_n1 := n_intr_uncount_le & [ STEM < "antisemitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antisemitismo_n_rel" ] ]. antisemíticamente_x1 := av_i_spr_le & [ STEM < "antisemíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemíticamente_x_rel" ]. antisemítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisemítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemítico_a_rel" ]. antisepsia_n1 := n_intr_uncount_le & [ STEM < "antisepsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antisepsia_n_rel" ] ]. antisifilítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisifilítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisifilítico_a_rel" ]. antisimétricamente_x1 := av_i_spr_le & [ STEM < "antisimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisimétricamente_x_rel" ]. antisimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisimétrico_a_rel" ]. antisocial_a1 := a_rel_nonprd_intr_le & [ STEM < "antisocial" >, SYNSEM.LKEYS.KEYREL.PRED "_antisocial_a_rel" ]. antisocialmente_x1 := av_i_spr_le & [ STEM < "antisocialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisocialmente_x_rel" ]. antisolar_a1 := a_rel_nonprd_intr_le & [ STEM < "antisolar" >, SYNSEM.LKEYS.KEYREL.PRED "_antisolar_a_rel" ]. antisonoramente_x1 := av_i_spr_le & [ STEM < "antisonoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisonoramente_x_rel" ]. antisonoro_a1 := a_rel_nonprd_intr_le & [ STEM < "antisonoro" >, SYNSEM.LKEYS.KEYREL.PRED "_antisonoro_a_rel" ]. antistrofa_n1 := n_intr_count_le & [ STEM < "antistrofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antistrofa_n_rel" ] ]. antisuero_n1 := n_intr_count_le & [ STEM < "antisuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antisuero_n_rel" ] ]. antiséptico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiséptico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiséptico_a_rel" ]. antiséptico_n1 := n_intr_mass_le & [ STEM < "antiséptico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiséptico_n_rel" ] ]. antisísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisísmico_a_rel" ]. antitabaquista_n1 := n_intr_count_le & [ STEM < "antitabaquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antitabaquista_n_rel" ] ]. antiterrorista_a1 := a_rel_nonprd_intr_le & [ STEM < "antiterrorista" >, SYNSEM.LKEYS.KEYREL.PRED "_antiterrorista_a_rel" ]. antitoxina_n1 := n_intr_count_le & [ STEM < "antitoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitoxina_n_rel" ] ]. antitrago_n1 := n_intr_count_le & [ STEM < "antitrago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitrago_n_rel" ] ]. antitranspirante_n1 := n_intr_count_le & [ STEM < "antitranspirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitranspirante_n_rel" ] ]. antitrombina_n1 := n_intr_count_le & [ STEM < "antitrombina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitrombina_n_rel" ] ]. antitético_a1 := a_rel_prd_le & [ STEM < "antitético" >, SYNSEM.LKEYS.KEYREL.PRED "_antitético_a_rel" ]. antivalencia_n1 := n_intr_uncount_le & [ STEM < "antivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antivalencia_n_rel" ] ]. antiveneno_n1 := n_intr_count_le & [ STEM < "antiveneno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiveneno_n_rel" ] ]. antivibratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "antivibratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_antivibratorio_a_rel" ]. antivírico_a1 := a_rel_nonprd_intr_le & [ STEM < "antivírico" >, SYNSEM.LKEYS.KEYREL.PRED "_antivírico_a_rel" ]. antiácido_a1 := a_rel_nonprd_intr_le & [ STEM < "antiácido" >, SYNSEM.LKEYS.KEYREL.PRED "_antiácido_a_rel" ]. antiácido_n1 := n_intr_uncount_pl_le & [ STEM < "antiácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiácido_n_rel" ] ]. antofilita_n1 := n_intr_count_le & [ STEM < "antofilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antofilita_n_rel" ] ]. antojadizamente_x1 := av_i_spr_le & [ STEM < "antojadizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antojadizamente_x_rel" ]. antojadizo_a1 := a_qual_intr_ser_le & [ STEM < "antojadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_antojadizo_a_rel" ]. antojar_v1 := v_pron_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "antojar" >, SYNSEM.LKEYS.KEYREL.PRED "_antojar_v_rel" ]. antojar_v2 := v_trans_np_le & [ STEM < "antojar" >, SYNSEM.LKEYS.KEYREL.PRED "_antojar_v_rel" ]. antojo_n1 := n_intr_count_le & [ STEM < "antojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antojo_n_rel" ] ]. antología_n1 := n_intr_count_le & [ STEM < "antología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antología_n_rel" ] ]. antológicamente_x1 := av_i_spr_le & [ STEM < "antológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antológicamente_x_rel" ]. antológico_a1 := a_rel_nonprd_intr_le & [ STEM < "antológico" >, SYNSEM.LKEYS.KEYREL.PRED "_antológico_a_rel" ]. antonimia_n1 := n_intr_uncount_le & [ STEM < "antonimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antonimia_n_rel" ] ]. antoniniano_n1 := n_intr_count_le & [ STEM < "antoniniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antoniniano_n_rel" ] ]. antonomasia_n1 := n_intr_uncount_le & [ STEM < "antonomasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antonomasia_n_rel" ] ]. antorcha_n1 := n_intr_count_le & [ STEM < "antorcha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antorcha_n_rel" ] ]. antozoario_n1 := n_intr_count_le & [ STEM < "antozoario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_antozoario_n_rel" ] ]. antraceno_n1 := n_intr_count_le & [ STEM < "antraceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraceno_n_rel" ] ]. antraciclina_n1 := n_intr_mass_le & [ STEM < "antraciclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraciclina_n_rel" ] ]. antracita_n1 := n_intr_mass_le & [ STEM < "antracita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antracita_n_rel" ] ]. antracoanálisis_n1 := n_intr_count_le & [ STEM < "antracoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antracoanálisis_n_rel" ] ]. antracología_n1 := n_intr_uncount_le & [ STEM < "antracología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antracología_n_rel" ] ]. antraflavina_n1 := n_intr_count_le & [ STEM < "antraflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraflavina_n_rel" ] ]. antranilato_n1 := n_intr_count_le & [ STEM < "antranilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antranilato_n_rel" ] ]. antranol_n1 := n_intr_count_le & [ STEM < "antranol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antranol_n_rel" ] ]. antraquinona_n1 := n_intr_mass-or-count_le & [ STEM < "antraquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_antraquinona_n_rel" ] ]. antrarrobina_n1 := n_intr_count_le & [ STEM < "antrarrobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antrarrobina_n_rel" ] ]. antrax_n1 := n_intr_uncount_le & [ STEM < "antrax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrax_n_rel" ] ]. antrectomía_n1 := n_intr_count_le & [ STEM < "antrectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrectomía_n_rel" ] ]. antro_n1 := n_intr_count_le & [ STEM < "antro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antro_n_rel" ] ]. antropocentrismo_n1 := n_intr_uncount_le & [ STEM < "antropocentrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropocentrismo_n_rel" ] ]. antropofagia_n1 := n_intr_uncount_le & [ STEM < "antropofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropofagia_n_rel" ] ]. antropogeografía_n1 := n_intr_uncount_le & [ STEM < "antropogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropogeografía_n_rel" ] ]. antropoide_a1 := a_rel_nonprd_intr_le & [ STEM < "antropoide" >, SYNSEM.LKEYS.KEYREL.PRED "_antropoide_a_rel" ]. antropoide_n1 := n_intr_count_le & [ STEM < "antropoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_antropoide_n_rel" ] ]. antropología_n1 := n_intr_uncount_le & [ STEM < "antropología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropología_n_rel" ] ]. antropológicamente_x1 := av_i_spr_le & [ STEM < "antropológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antropológicamente_x_rel" ]. antropológico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropológico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropológico_a_rel" ]. antropometría_n1 := n_intr_count_le & [ STEM < "antropometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropometría_n_rel" ] ]. antropomorfismo_n1 := n_ppcomp_uncount_le & [ STEM < "antropomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropomorfismo_n_rel" ] ]. antropométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropométrico_a_rel" ]. antropomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropomórfico_a_rel" ]. antroponimia_n1 := n_intr_uncount_le & [ STEM < "antroponimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antroponimia_n_rel" ] ]. antropófago_a1 := a_qual_intr_ser_le & [ STEM < "antropófago" >, SYNSEM.LKEYS.KEYREL.PRED "_antropófago_a_rel" ]. antropófago_n1 := n_intr_count_le & [ STEM < "antropófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antropófago_n_rel" ] ]. antropólogo_n1 := n_intr_count_le & [ STEM < "antropólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antropólogo_n_rel" ] ]. antropómetro_n1 := n_intr_count_le & [ STEM < "antropómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antropómetro_n_rel" ] ]. antropónimo_n1 := n_intr_count_le & [ STEM < "antropónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropónimo_n_rel" ] ]. antrotomía_n1 := n_intr_count_le & [ STEM < "antrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrotomía_n_rel" ] ]. antártico_a1 := a_rel_nonprd_intr_le & [ STEM < "antártico" >, SYNSEM.LKEYS.KEYREL.PRED "_antártico_a_rel" ]. antídoto_n1 := n_intr_mass_le & [ STEM < "antídoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antídoto_n_rel" ] ]. antífona_n1 := n_intr_count_le & [ STEM < "antífona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antífona_n_rel" ] ]. antífrasis_n1 := n_intr_uncount_pl_le & [ STEM < "antífrasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antífrasis_n_rel" ] ]. antígeno_n1 := n_intr_count_le & [ STEM < "antígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antígeno_n_rel" ] ]. antílope_n1 := n_intr_count_le & [ STEM < "antílope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_antílope_n_rel" ] ]. antípoda_n1 := n_intr_count_le & [ STEM < "antípoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antípoda_n_rel" ] ]. antítesis_n1 := n_intr_count_le & [ STEM < "antítesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antítesis_n_rel" ] ]. antónimo_n1 := n_intr_count_le & [ STEM < "antónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antónimo_n_rel" ] ]. anual_a1 := a_rel_prd_le & [ STEM < "anual" >, SYNSEM.LKEYS.KEYREL.PRED "_anual_a_rel" ]. anualidad_n1 := n_intr_count_le & [ STEM < "anualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_anualidad_n_rel" ] ]. anualmente_x1 := av_s_prhd_le & [ STEM < "anualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anualmente_x_rel" ]. anualmente_x2 := av_i_psthd_le & [ STEM < "anualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anualmente_x_rel" ]. anuario_n1 := n_intr_count_le & [ STEM < "anuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anuario_n_rel" ] ]. anudar_v := v_ditrans*_le & [ STEM < "anudar" >, SYNSEM.LKEYS.KEYREL.PRED "_anudar_v_rel" ]. anulabilidad_n1 := n_intr_uncount_le & [ STEM < "anulabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anulabilidad_n_rel" ] ]. anulable_a1 := a_rel_prd_le & [ STEM < "anulable" >, SYNSEM.LKEYS.KEYREL.PRED "_anulable_a_rel" ]. anulación_n1 := n_trans_le & [ STEM < "anulación" >, SYNSEM.LKEYS.KEYREL.PRED "_anulación_n_rel" ]. anulador_a1 := a_qual_intr_ser_le & [ STEM < "anulador" >, SYNSEM.LKEYS.KEYREL.PRED "_anulador_a_rel" ]. anulador_n1 := n_intr_count_le & [ STEM < "anulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anulador_n_rel" ] ]. anular_a1 := a_rel_nonprd_intr_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_a_rel" ]. anular_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_v_rel" ]. anular_v2 := v_trans_np_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_v_rel" ]. anularmente_x1 := av_i_spr_le & [ STEM < "anularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anularmente_x_rel" ]. anulativo_a1 := a_rel_prd_le & [ STEM < "anulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anulativo_a_rel" ]. anulatorio_a1 := a_rel_prd_le & [ STEM < "anulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_anulatorio_a_rel" ]. anunciación_n1 := n_trans_le & [ STEM < "anunciación" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciación_n_rel" ]. anunciador_a1 := a_qual_intr_ser_le & [ STEM < "anunciador" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciador_a_rel" ]. anunciador_n1 := n_intr_count_le & [ STEM < "anunciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anunciador_n_rel" ] ]. anunciante_n1 := n_subj-nom_le & [ STEM < "anunciante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anunciante_n_rel" ] ]. anunciar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anunciar_v_rel" ] ]. anunciar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciar_v_rel" ]. anunciar_v3 := v_ditrans*_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_anunciar_v_rel" ] ]. anuncio_n1 := n_intr_count_le & [ STEM < "anuncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anuncio_n_rel" ] ]. anuria_n1 := n_intr_uncount_le & [ STEM < "anuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anuria_n_rel" ] ]. anuro_n1 := n_intr_count_le & [ STEM < "anuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anuro_n_rel" ] ]. anverso_n1 := n_intr_count_le & [ STEM < "anverso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anverso_n_rel" ] ]. anzuelo_n1 := n_intr_count_le & [ STEM < "anzuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anzuelo_n_rel" ] ]. anáfora_n1 := n_intr_uncount_le & [ STEM < "anáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáfora_n_rel" ] ]. anáfora_n2 := n_intr_count_le & [ STEM < "anáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáfora_n_rel" ] ]. anáglifo_n1 := n_intr_count_le & [ STEM < "anáglifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáglifo_n_rel" ] ]. análisis_n1 := n_intr_count_le & [ STEM < "análisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_análisis_n_rel" ] ]. análogamente_x1 := av_i_spr_le & [ STEM < "análogamente" >, SYNSEM.LKEYS.KEYREL.PRED "_análogamente_x_rel" ]. análogo_a1 := a_qual_trans*_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. análogo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. análogo_a3 := a_qual_cp_ques_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. anárquico_a1 := a_qual_intr_scopal_le & [ STEM < "anárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_anárquico_a_rel" ]. anástrofe_n1 := n_intr_uncount_pl_le & [ STEM < "anástrofe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anástrofe_n_rel" ] ]. anécdota_n1 := n_intr_count_le & [ STEM < "anécdota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anécdota_n_rel" ] ]. anélido_n1 := n_intr_count_le & [ STEM < "anélido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anélido_n_rel" ] ]. anémico_a1 := a_qual_intr_scopal_le & [ STEM < "anémico" >, SYNSEM.LKEYS.KEYREL.PRED "_anémico_a_rel" ]. anémona_n1 := n_intr_count_le & [ STEM < "anémona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_anémona_n_rel" ] ]. anímicamente_x1 := av_i_spr_le & [ STEM < "anímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anímicamente_x_rel" ]. anímico_a1 := a_rel_nonprd_intr_le & [ STEM < "anímico" >, SYNSEM.LKEYS.KEYREL.PRED "_anímico_a_rel" ]. anís_n1 := n_intr_mass_le & [ STEM < "anís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anís_n_rel" ] ]. anódico_a1 := a_rel_nonprd_intr_le & [ STEM < "anódico" >, SYNSEM.LKEYS.KEYREL.PRED "_anódico_a_rel" ]. anómalo_a1 := a_rel_nonprd_intr_le & [ STEM < "anómalo" >, SYNSEM.LKEYS.KEYREL.PRED "_anómalo_a_rel" ]. anónimo_a1 := a_rel_prd_le & [ STEM < "anónimo" >, SYNSEM.LKEYS.KEYREL.PRED "_anónimo_a_rel" ]. anónimo_n1 := n_intr_count_le & [ STEM < "anónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anónimo_n_rel" ] ]. anóxico_a1 := a_rel_nonprd_intr_le & [ STEM < "anóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_anóxico_a_rel" ]. aoristo_n1 := n_intr_count_le & [ STEM < "aoristo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aoristo_n_rel" ] ]. aorta_n1 := n_intr_count_le & [ STEM < "aorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aorta_n_rel" ] ]. aorticoabdominal_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticoabdominal" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticoabdominal_a_rel" ]. aorticorrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticorrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticorrenal_a_rel" ]. aorticotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticotorácico_a_rel" ]. apabullante_a1 := a_qual_intr_scopal_le & [ STEM < "apabullante" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullante_a_rel" ]. apabullar_v := v_trans_np_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apabullar_v1 := v_intr_io*_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apabullar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apache_n1 := n_intr_count_le & [ STEM < "apache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apache_n_rel" ] ]. apacibilidad_n1 := n_ppcomp_mass_le & [ STEM < "apacibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apacibilidad_n_rel" ] ]. apacible_a1 := a_qual_intr_scopal_le & [ STEM < "apacible" >, SYNSEM.LKEYS.KEYREL.PRED "_apacible_a_rel" ]. apaciblemente_x1 := av_i_spr_le & [ STEM < "apaciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciblemente_x_rel" ]. apaciguamiento_n1 := n_trans_le & [ STEM < "apaciguamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguamiento_n_rel" ]. apaciguar_v1 := v_intr_io*_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apaciguar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apaciguar_v3 := v_trans_np_caus_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apadrinamiento_n1 := n_trans_le & [ STEM < "apadrinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apadrinamiento_n_rel" ]. apadrinar_v := v_trans_np_le & [ STEM < "apadrinar" >, SYNSEM.LKEYS.KEYREL.PRED "_apadrinar_v_rel" ]. apagachispas_n1 := n_intr_count_le & [ STEM < "apagachispas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apagachispas_n_rel" ] ]. apagafuegos_n1 := n_intr_count_le & [ STEM < "apagafuegos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apagafuegos_n_rel" ] ]. apagar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "apagar" >, SYNSEM.LKEYS.KEYREL.PRED "_apagar_v_rel" ]. apagar_v2 := v_trans_np_caus_le & [ STEM < "apagar" >, SYNSEM.LKEYS.KEYREL.PRED "_apagar_v_rel" ]. apagón_n1 := n_intr_count_le & [ STEM < "apagón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apagón_n_rel" ] ]. apainelado_a1 := a_rel_nonprd_intr_le & [ STEM < "apainelado" >, SYNSEM.LKEYS.KEYREL.PRED "_apainelado_a_rel" ]. apalabrar_v := v_trans_np_le & [ STEM < "apalabrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apalabrar_v_rel" ]. apalancamiento_n1 := n_trans_le & [ STEM < "apalancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apalancamiento_n_rel" ]. apalancar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apalancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apalancar_v_rel" ] ] ]. apalancar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apalancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apalancar_v_rel" ] ] ]. apalancar_v3 := v_trans_np_caus_le & [ STEM < "apalancar" >, SYNSEM.LKEYS.KEYREL.PRED "_apalancar_v_rel" ]. apaleamiento_n1 := n_trans_le & [ STEM < "apaleamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apaleamiento_n_rel" ]. apalear_v := v_trans_np_le & [ STEM < "apalear" >, SYNSEM.LKEYS.KEYREL.PRED "_apalear_v_rel" ]. apanar_v := v_trans_np_le & [ STEM < "apanar" >, SYNSEM.LKEYS.KEYREL.PRED "_apanar_v_rel" ]. apantalladamente_x1 := av_i_spr_le & [ STEM < "apantalladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apantalladamente_x_rel" ]. apantallamiento_n1 := n_trans_le & [ STEM < "apantallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apantallamiento_n_rel" ]. apantallar_v := v_trans_np_le & [ STEM < "apantallar" >, SYNSEM.LKEYS.KEYREL.PRED "_apantallar_v_rel" ]. aparador_n1 := n_intr_count_le & [ STEM < "aparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparador_n_rel" ] ]. aparamenta_n1 := n_intr_count_le & [ STEM < "aparamenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparamenta_n_rel" ] ]. aparato_n1 := n_intr_count_le & [ STEM < "aparato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparato_n_rel" ] ]. aparatología_n1 := n_intr_uncount_le & [ STEM < "aparatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparatología_n_rel" ] ]. aparatosamente_x1 := av_i_spr_le & [ STEM < "aparatosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparatosamente_x_rel" ]. aparatosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aparatosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparatosidad_n_rel" ] ]. aparatoso_a1 := a_qual_intr_scopal_le & [ STEM < "aparatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aparatoso_a_rel" ]. aparcamiento_n1 := n_intr_count_le & [ STEM < "aparcamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aparcamiento_n_rel" ] ]. aparcar_v := v_trans_np*_le & [ STEM < "aparcar" >, SYNSEM.LKEYS.KEYREL.PRED "_aparcar_v_rel" ]. aparcero_n1 := n_intr_count_le & [ STEM < "aparcero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aparcero_n_rel" ] ]. apareamiento_n1 := n_trans_le & [ STEM < "apareamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apareamiento_n_rel" ]. aparear_v1 := v_pron_intr_le & [ STEM < "aparear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_aparear_v_rel" ] ]. aparear_v2 := v_trans_np_le & [ STEM < "aparear" >, SYNSEM.LKEYS.KEYREL.PRED "_aparear_v_rel" ]. aparecer_v1 := v_intr_io*_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparecer_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v3 := v_intr_mrkd_np_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v4 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v5 := v_pron_intr_mrkd_np_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v6 := v_subj_cp_prop_fin_unacc_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparecer_v7 := v_unacc_lcomp_loc*_perf_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparejador_n1 := n_intr_count_le & [ STEM < "aparejador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparejador_n_rel" ] ]. aparejo_n1 := n_intr_count_le & [ STEM < "aparejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparejo_n_rel" ] ]. aparellaje_n1 := n_intr_mass_le & [ STEM < "aparellaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparellaje_n_rel" ] ]. aparentar_v1 := v_trans_cp_prop_fin_le & [ STEM < "aparentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aparentar_v_rel" ] ]. aparentar_v2 := v_trans_np_le & [ STEM < "aparentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aparentar_v_rel" ] ]. aparente_a1 := a_rel_nonprd_intr_le & [ STEM < "aparente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparente_a_rel" ]. aparentemente_x1 := av_s_prhd_le & [ STEM < "aparentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparentemente_x_rel" ]. aparición_n1 := n_event-result_intr_le & [ STEM < "aparición" >, SYNSEM.LKEYS.KEYREL.PRED "_aparición_n_rel" ]. apariencia_n1 := n_intr_count_le & [ STEM < "apariencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apariencia_n_rel" ] ]. apartadero_n1 := n_intr_count_le & [ STEM < "apartadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apartadero_n_rel" ] ]. apartado_n1 := n_trans_le & [ STEM < "apartado" >, SYNSEM.LKEYS.KEYREL.PRED "_apartado_n_rel" ]. apartahotel_n1 := n_intr_count_le & [ STEM < "apartahotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_apartahotel_n_rel" ] ]. apartamento_n1 := n_intr_count_le & [ STEM < "apartamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_apartamento_n_rel" ] ]. apartamiento_n1 := n_trans_le & [ STEM < "apartamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apartamiento_n_rel" ]. apartar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apartar_v_rel" ] ] ]. apartar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apartar_v_rel" ] ] ]. apartar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apartar_v_rel" ] ]. apartar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apartar_v_rel" ] ]. aparte_de_p_vmod := p_vmod_le & [ STEM < "aparte_de" >, SYNSEM.LKEYS.KEYREL.PRED _aparte_de_p_rel ]. aparte_n1 := n_intr_count_le & [ STEM < "aparte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparte_n_rel" ] ]. aparte_x1 := av_i_psthd_le & [ STEM < "aparte" >, SYNSEM.LKEYS.KEYREL.PRED "_aparte_x_rel" ]. apartheid_n1 := n_intr_uncount_le & [ STEM < "apartheid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apartheid_n_rel" ] ]. aparthotel_n1 := n_intr_count_le & [ STEM < "aparthotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aparthotel_n_rel" ] ]. apasionadamente_x1 := av_i_spr_le & [ STEM < "apasionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionadamente_x_rel" ]. apasionamiento_n1 := n_trans_le & [ STEM < "apasionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionamiento_n_rel" ]. apasionante_a1 := a_qual_intr_scopal_le & [ STEM < "apasionante" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionante_a_rel" ]. apasionar_v1 := v_intr_io*_le & [ STEM < "apasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionar_v_rel" ]. apasionar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apasionar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_apasionar_v_rel" ] ]. apasionar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionar_v_rel" ]. apatito_n1 := n_intr_count_le & [ STEM < "apatito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apatito_n_rel" ] ]. apatridia_n1 := n_intr_uncount_le & [ STEM < "apatridia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apatridia_n_rel" ] ]. apatía_n1 := n_intr_mass_le & [ STEM < "apatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apatía_n_rel" ] ]. apaãâ±ar_v := v_trans_np_caus_le & [ STEM < "apañar" >, SYNSEM.LKEYS.KEYREL.PRED "_apañar_v_rel" ]. apaño_n1 := n_trans_le & [ STEM < "apaño" >, SYNSEM.LKEYS.KEYREL.PRED "_apaño_n_rel" ]. apeadero_n1 := n_intr_count_le & [ STEM < "apeadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apeadero_n_rel" ] ]. apear_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apear_v_rel" ] ] ]. apear_v2 := v_pron_unacc_lcomp_dir*_le & [ STEM < "apear" >, SYNSEM.LKEYS.KEYREL.PRED "_apear_v_rel" ]. apear_v3 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apear_v_rel" ] ]. apear_v4 := v_trans_np_mrkd_np*_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apear_v_rel" ] ]. apechugar_v1 := v_intr_mrkd_np_le & [ STEM < "apechugar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_apechugar_v_rel" ] ]. apechugar_v2 := v_trans_np_le & [ STEM < "apechugar" >, SYNSEM.LKEYS.KEYREL.PRED "_apechugar_v_rel" ]. apectomía_n1 := n_intr_count_le & [ STEM < "apectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apectomía_n_rel" ] ]. apedreamiento_n1 := n_trans_le & [ STEM < "apedreamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apedreamiento_n_rel" ]. apedrear_v := v_trans_np_le & [ STEM < "apedrear" >, SYNSEM.LKEYS.KEYREL.PRED "_apedrear_v_rel" ]. apedreo_n1 := n_trans_le & [ STEM < "apedreo" >, SYNSEM.LKEYS.KEYREL.PRED "_apedreo_n_rel" ]. apego_n1 := n_trans_le & [ STEM < "apego" >, SYNSEM.LKEYS.KEYREL.PRED "_apego_n_rel" ]. apelable_a1 := a_rel_prd_le & [ STEM < "apelable" >, SYNSEM.LKEYS.KEYREL.PRED "_apelable_a_rel" ]. apelación_n1 := n_result_intr_le & [ STEM < "apelación" >, SYNSEM.LKEYS.KEYREL.PRED "_apelación_n_rel" ]. apelado_n1 := n_intr_count_le & [ STEM < "apelado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apelado_n_rel" ] ]. apelante_a1 := a_rel_nonprd_intr_le & [ STEM < "apelante" >, SYNSEM.LKEYS.KEYREL.PRED "_apelante_a_rel" ]. apelante_n1 := n_intr_count_le & [ STEM < "apelante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apelante_n_rel" ] ]. apelar_v := v_intr_mrkd_np*_le & [ STEM < "apelar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apelar_v_rel" ] ]. apelativo_a1 := a_rel_nonprd_intr_le & [ STEM < "apelativo" >, SYNSEM.LKEYS.KEYREL.PRED "_apelativo_a_rel" ]. apelativo_n1 := n_intr_count_le & [ STEM < "apelativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apelativo_n_rel" ] ]. apellido_n1 := n_intr_count_le & [ STEM < "apellido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apellido_n_rel" ] ]. apelmazar_v := v_trans_np_caus_le & [ STEM < "apelmazar" >, SYNSEM.LKEYS.KEYREL.PRED "_apelmazar_v_rel" ]. apelotonar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apelotonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apelotonar_v_rel" ] ] ]. apelotonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apelotonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apelotonar_v_rel" ] ] ]. apenar_v1 := v_intr_io*_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_apenar_v_rel" ] ]. apenar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL.PRED "_apenar_v_rel" ]. apenar_v3 := v_trans_np_caus_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_apenar_v_rel" ] ]. apenas_x1 := av_i_foc_prehd_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apenas_x2 := av_s_cp_prop_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apenas_x3 := av_i_np-foc_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apendicitis_n1 := n_intr_uncount_le & [ STEM < "apendicitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apendicitis_n_rel" ] ]. apendicular_a1 := a_rel_nonprd_intr_le & [ STEM < "apendicular" >, SYNSEM.LKEYS.KEYREL.PRED "_apendicular_a_rel" ]. apeo_n1 := n_trans_le & [ STEM < "apeo" >, SYNSEM.LKEYS.KEYREL.PRED "_apeo_n_rel" ]. apercebimiento_n1 := n_trans_le & [ STEM < "apercebimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apercebimiento_n_rel" ]. apercepción_n1 := n_trans_le & [ STEM < "apercepción" >, SYNSEM.LKEYS.KEYREL.PRED "_apercepción_n_rel" ]. apercibimiento_n1 := n_trans_le & [ STEM < "apercibimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apercibimiento_n_rel" ]. apercibir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apercibir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apercibir_v_rel" ] ] ]. apercibir_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "apercibir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_apercibir_v_rel" ] ] ]. aperitivo_n1 := n_intr_count_le & [ STEM < "aperitivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_aperitivo_n_rel" ] ]. aperiódicamente_x1 := av_i_spr_le & [ STEM < "aperiódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aperiódicamente_x_rel" ]. aperiódico_a1 := a_rel_prd_le & [ STEM < "aperiódico" >, SYNSEM.LKEYS.KEYREL.PRED "_aperiódico_a_rel" ]. apero_n1 := n_intr_count_le & [ STEM < "apero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apero_n_rel" ] ]. apertura_n1 := n_trans_le & [ STEM < "apertura" >, SYNSEM.LKEYS.KEYREL.PRED "_apertura_n_rel" ]. aperturar_v := v_trans_np_le & [ STEM < "aperturar" >, SYNSEM.LKEYS.KEYREL.PRED "_aperturar_v_rel" ]. aperturista_a1 := a_qual_intr_ser_le & [ STEM < "aperturista" >, SYNSEM.LKEYS.KEYREL.PRED "_aperturista_a_rel" ]. apesadumbrar_v1 := v_intr_io*_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apesadumbrar_v_rel" ]. apesadumbrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesadumbrar_v_rel" ] ] ]. apesadumbrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesadumbrar_v_rel" ] ] ]. apesadumbrar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apesadumbrar_v_rel" ]. apesarar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apesarar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesarar_v_rel" ] ] ]. apesarar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apesarar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesarar_v_rel" ] ] ]. apestar_v := v_intr_le & [ STEM < "apestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, PRED "_apestar_v_rel" ] ]. apestosamente_x1 := av_i_spr_le & [ STEM < "apestosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apestosamente_x_rel" ]. apestoso_a1 := a_qual_intr_scopal_le & [ STEM < "apestoso" >, SYNSEM.LKEYS.KEYREL.PRED "_apestoso_a_rel" ]. apetecer_v1 := v_intr_io*_le & [ STEM < "apetecer" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecer_v_rel" ]. apetecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apetecer" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecer_v_rel" ]. apetecible_a1 := a_qual_intr_scopal_le & [ STEM < "apetecible" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecible_a_rel" ]. apetencia_n1 := n_intr_uncount_le & [ STEM < "apetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apetencia_n_rel" ] ]. apetito_n1 := n_intr_mass_le & [ STEM < "apetito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apetito_n_rel" ] ]. apetitoso_a1 := a_qual_intr_scopal_le & [ STEM < "apetitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_apetitoso_a_rel" ]. apiadar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apiadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiadar_v_rel" ] ] ]. apiadar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apiadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiadar_v_rel" ] ] ]. apical_a1 := a_rel_nonprd_intr_le & [ STEM < "apical" >, SYNSEM.LKEYS.KEYREL.PRED "_apical_a_rel" ]. apicoalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "apicoalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_apicoalveolar_a_rel" ]. apicodental_a1 := a_rel_nonprd_intr_le & [ STEM < "apicodental" >, SYNSEM.LKEYS.KEYREL.PRED "_apicodental_a_rel" ]. apicultor_n1 := n_intr_count_le & [ STEM < "apicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apicultor_n_rel" ] ]. apicultura_n1 := n_intr_uncount_le & [ STEM < "apicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apicultura_n_rel" ] ]. apilabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "apilabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apilabilidad_n_rel" ] ]. apilable_a1 := a_rel_prd_le & [ STEM < "apilable" >, SYNSEM.LKEYS.KEYREL.PRED "_apilable_a_rel" ]. apilador_n1 := n_intr_count_le & [ STEM < "apilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apilador_n_rel" ] ]. apiladora_n1 := n_intr_count_le & [ STEM < "apiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apiladora_n_rel" ] ]. apilamiento_n1 := n_trans_le & [ STEM < "apilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apilamiento_n_rel" ]. apilar_v := v_trans_np_caus_le & [ STEM < "apilar" >, SYNSEM.LKEYS.KEYREL.PRED "_apilar_v_rel" ]. apio_n1 := n_intr_mass-or-count_le & [ STEM < "apio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_apio_n_rel" ] ]. apisonado_n1 := n_trans_le & [ STEM < "apisonado" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonado_n_rel" ]. apisonadora_n1 := n_intr_count_le & [ STEM < "apisonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apisonadora_n_rel" ] ]. apisonamiento_n1 := n_trans_le & [ STEM < "apisonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonamiento_n_rel" ]. apisonar_v := v_trans_np_le & [ STEM < "apisonar" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonar_v_rel" ]. apiãâ±ar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apiñar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiñar_v_rel" ] ] ]. apiãâ±ar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apiñar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiñar_v_rel" ] ] ]. apiãâ±ar_v3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "apiñar" >, SYNSEM.LKEYS.KEYREL.PRED "_apiñar_v_rel" ]. apiãâ±ar_v4 := v_trans_np_le & [ STEM < "apiñar" >, SYNSEM.LKEYS.KEYREL.PRED "_apiñar_v_rel" ]. aplacar_v := v_ditrans*_le & [ STEM < "aplacar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplacar_v_rel" ]. aplanado_n1 := n_trans_le & [ STEM < "aplanado" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanado_n_rel" ]. aplanador_n1 := n_intr_count_le & [ STEM < "aplanador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplanador_n_rel" ] ]. aplanadora_n1 := n_intr_count_le & [ STEM < "aplanadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplanadora_n_rel" ] ]. aplanamiento_n1 := n_trans_le & [ STEM < "aplanamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanamiento_n_rel" ]. aplanar_v := v_trans_np_le & [ STEM < "aplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanar_v_rel" ]. aplantillar_v := v_trans_np_le & [ STEM < "aplantillar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplantillar_v_rel" ]. aplanético_a1 := a_rel_nonprd_intr_le & [ STEM < "aplanético" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanético_a_rel" ]. aplasia_n1 := n_intr_uncount_le & [ STEM < "aplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplasia_n_rel" ] ]. aplastamiento_n1 := n_trans_le & [ STEM < "aplastamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastamiento_n_rel" ]. aplastante_a1 := a_rel_prd_le & [ STEM < "aplastante" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastante_a_rel" ]. aplastar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "aplastar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastar_v_rel" ]. aplastar_v2 := v_trans_np_le & [ STEM < "aplastar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastar_v_rel" ]. aplaudir_v1 := v_trans_cp_prop_fin_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aplaudir_v_rel" ] ]. aplaudir_v2 := v_trans_cp_semi_ques_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL.PRED "_aplaudir_v_rel" ]. aplaudir_v3 := v_trans_np_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aplaudir_v_rel" ] ]. aplauso_n1 := n_trans_le & [ STEM < "aplauso" >, SYNSEM.LKEYS.KEYREL.PRED "_aplauso_n_rel" ]. aplazamiento_n1 := n_trans_le & [ STEM < "aplazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplazamiento_n_rel" ]. aplazar_v := v_trans_np_le & [ STEM < "aplazar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplazar_v_rel" ]. aplicabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aplicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplicabilidad_n_rel" ] ]. aplicable_a1 := a_qual_trans*_ser_le & [ STEM < "aplicable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aplicable_a_rel" ] ]. aplicación_n1 := n_trans_le & [ STEM < "aplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicación_n_rel" ]. aplicadamente_x1 := av_i_spr_le & [ STEM < "aplicadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicadamente_x_rel" ]. aplicador_a1 := a_rel_nonprd_intr_le & [ STEM < "aplicador" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicador_a_rel" ]. aplicador_n1 := n_intr_count_le & [ STEM < "aplicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplicador_n_rel" ] ]. aplicar_v1 := v_ditrans*_le & [ STEM < "aplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicar_v_rel" ]. aplicar_v2 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aplicar_v_rel" ] ]. aplicar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_aplicar_v_rel" ] ]. aplicar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_aplicar_v_rel" ] ] ]. aplicar_v5 := v_pron_intr_mrkd_np_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_aplicar_v_rel" ] ] ]. aplique_n1 := n_intr_count_le & [ STEM < "aplique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplique_n_rel" ] ]. aplomar_v := v_trans_np_caus_le & [ STEM < "aplomar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplomar_v_rel" ]. aplomo_n1 := n_intr_mass_le & [ STEM < "aplomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplomo_n_rel" ] ]. aplásico_a1 := a_rel_nonprd_intr_le & [ STEM < "aplásico" >, SYNSEM.LKEYS.KEYREL.PRED "_aplásico_a_rel" ]. apnea_n1 := n_intr_uncount_le & [ STEM < "apnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apnea_n_rel" ] ]. apocadamente_x1 := av_i_spr_le & [ STEM < "apocadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apocadamente_x_rel" ]. apocalipsis_n1 := n_intr_uncount_le & [ STEM < "apocalipsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apocalipsis_n_rel" ] ]. apocalípticamente_x1 := av_i_spr_le & [ STEM < "apocalípticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apocalípticamente_x_rel" ]. apocalíptico_a1 := a_rel_prd_le & [ STEM < "apocalíptico" >, SYNSEM.LKEYS.KEYREL.PRED "_apocalíptico_a_rel" ]. apocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "apocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_apocromático_a_rel" ]. apoderado_n1 := n_intr_count_le & [ STEM < "apoderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apoderado_n_rel" ] ]. apoderamiento_n1 := n_result_intr_ppcomp_le & [ STEM < "apoderamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apoderamiento_n_rel" ] ]. apoderar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "apoderar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_apoderar_v_rel" ] ]. apoderar_v2 := v_trans_np_le & [ STEM < "apoderar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoderar_v_rel" ]. apodo_n1 := n_trans_le & [ STEM < "apodo" >, SYNSEM.LKEYS.KEYREL.PRED "_apodo_n_rel" ]. apodíctico_a1 := a_rel_prd_le & [ STEM < "apodíctico" >, SYNSEM.LKEYS.KEYREL.PRED "_apodíctico_a_rel" ]. apoenzima_n1 := n_intr_count_le & [ STEM < "apoenzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoenzima_n_rel" ] ]. apoferritina_n1 := n_intr_count_le & [ STEM < "apoferritina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoferritina_n_rel" ] ]. apofilita_n1 := n_intr_count_le & [ STEM < "apofilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apofilita_n_rel" ] ]. apofántica_n1 := n_intr_uncount_le & [ STEM < "apofántica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apofántica_n_rel" ] ]. apogamia_n1 := n_intr_uncount_le & [ STEM < "apogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apogamia_n_rel" ] ]. apogeo_n1 := n_intr_count_le & [ STEM < "apogeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apogeo_n_rel" ] ]. apolillar_v := v_trans_np_caus_le & [ STEM < "apolillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apolillar_v_rel" ]. apologista_n1 := n_intr_count_le & [ STEM < "apologista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apologista_n_rel" ] ]. apologética_n1 := n_intr_uncount_le & [ STEM < "apologética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apologética_n_rel" ] ]. apologético_a1 := a_qual_intr_scopal_le & [ STEM < "apologético" >, SYNSEM.LKEYS.KEYREL.PRED "_apologético_a_rel" ]. apología_n1 := n_intr_uncount_pl_le & [ STEM < "apología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apología_n_rel" ] ]. apolítico_a1 := a_qual_intr_ser_le & [ STEM < "apolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_apolítico_a_rel" ]. apológico_a1 := a_rel_prd_le & [ STEM < "apológico" >, SYNSEM.LKEYS.KEYREL.PRED "_apológico_a_rel" ]. apomazar_v := v_trans_np_le & [ STEM < "apomazar" >, SYNSEM.LKEYS.KEYREL.PRED "_apomazar_v_rel" ]. apomorfina_n1 := n_intr_count_le & [ STEM < "apomorfina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apomorfina_n_rel" ] ]. aponeurosis_n1 := n_intr_uncount_le & [ STEM < "aponeurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aponeurosis_n_rel" ] ]. aponeurótico_a1 := a_qual_intr_ser_le & [ STEM < "aponeurótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aponeurótico_a_rel" ]. apoplasto_n1 := n_intr_count_le & [ STEM < "apoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoplasto_n_rel" ] ]. apoplejía_n1 := n_intr_uncount_le & [ STEM < "apoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoplejía_n_rel" ] ]. apoplético_a1 := a_rel_nonprd_intr_le & [ STEM < "apoplético" >, SYNSEM.LKEYS.KEYREL.PRED "_apoplético_a_rel" ]. apoplético_a2 := a_qual_intr_ser_le & [ STEM < "apoplético" >, SYNSEM.LKEYS.KEYREL.PRED "_apoplético_a_rel" ]. apoptosis_n1 := n_intr_uncount_le & [ STEM < "apoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoptosis_n_rel" ] ]. aporcador_n1 := n_intr_count_le & [ STEM < "aporcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aporcador_n_rel" ] ]. aporema_n1 := n_intr_count_le & [ STEM < "aporema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aporema_n_rel" ] ]. aporrear_v := v_trans_np_le & [ STEM < "aporrear" >, SYNSEM.LKEYS.KEYREL.PRED "_aporrear_v_rel" ]. aporreo_n1 := n_trans_le & [ STEM < "aporreo" >, SYNSEM.LKEYS.KEYREL.PRED "_aporreo_n_rel" ]. aportable_a1 := a_qual_trans*_ser_le & [ STEM < "aportable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aportable_a_rel" ] ]. aportación_n1 := n_trans_le & [ STEM < "aportación" >, SYNSEM.LKEYS.KEYREL.PRED "_aportación_n_rel" ]. aportar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aportar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_aportar_v_rel" ] ]. aportar_v2 := v_ditrans*_le & [ STEM < "aportar" >, SYNSEM.LKEYS.KEYREL.PRED "_aportar_v_rel" ]. aportar_v3 := v_trans_np_mrkd_np_le & [ STEM < "aportar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_aportar_v_rel" ] ] ]. aporte_n1 := n_trans_le & [ STEM < "aporte" >, SYNSEM.LKEYS.KEYREL.PRED "_aporte_n_rel" ]. aporía_n1 := n_intr_count_le & [ STEM < "aporía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aporía_n_rel" ] ]. aposento_n1 := n_intr_count_le & [ STEM < "aposento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aposento_n_rel" ] ]. aposición_n1 := n_intr_count_le & [ STEM < "aposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aposición_n_rel" ] ]. aposta_x1 := av_i_psthd_le & [ STEM < "aposta" >, SYNSEM.LKEYS.KEYREL.PRED "_aposta_x_rel" ]. apostadero_n1 := n_intr_count_le & [ STEM < "apostadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apostadero_n_rel" ] ]. apostante_n1 := n_intr_count_le & [ STEM < "apostante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apostante_n_rel" ] ]. apostar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v2 := v_intr_mrkd_np_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v3 := v_non_pass_np_mrkd_cp_prop_fin_ind_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v5 := v_non_pass_np_mrkd_np*_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_apostar_v_rel" ] ]. apostar_v6 := v_trans_cp_prop_fin_le & [ STEM < "apostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ]. apostar_v7 := v_trans_np_le & [ STEM < "apostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apostar_v_rel" ] ]. apostasía_n1 := n_result_intr_le & [ STEM < "apostasía" >, SYNSEM.LKEYS.KEYREL.PRED "_apostasía_n_rel" ]. apostilla_n1 := n_intr_count_le & [ STEM < "apostilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apostilla_n_rel" ] ]. apostillar_v1 := v_trans_np*_le & [ STEM < "apostillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apostillar_v_rel" ]. apostillar_v2 := v_trans_cp_semi_ques_le & [ STEM < "apostillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apostillar_v_rel" ]. apostolado_n1 := n_intr_count_le & [ STEM < "apostolado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apostolado_n_rel" ] ]. apostrofar_v := v_trans_np_le & [ STEM < "apostrofar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_sem_soc, PRED "_apostrofar_v_rel" ] ]. apostólicamente_x1 := av_i_spr_le & [ STEM < "apostólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apostólicamente_x_rel" ]. apostólico_a1 := a_rel_nonprd_intr_le & [ STEM < "apostólico" >, SYNSEM.LKEYS.KEYREL.PRED "_apostólico_a_rel" ]. apotegma_n1 := n_intr_count_le & [ STEM < "apotegma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apotegma_n_rel" ] ]. apotema_n1 := n_intr_count_le & [ STEM < "apotema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apotema_n_rel" ] ]. apoteosis_n1 := n_intr_uncount_le & [ STEM < "apoteosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoteosis_n_rel" ] ]. apoteósicamente_x1 := av_i_spr_le & [ STEM < "apoteósicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apoteósicamente_x_rel" ]. apoteósico_a1 := a_rel_nonprd_intr_le & [ STEM < "apoteósico" >, SYNSEM.LKEYS.KEYREL.PRED "_apoteósico_a_rel" ]. apoyabarbas_n1 := n_intr_count_le & [ STEM < "apoyabarbas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyabarbas_n_rel" ] ]. apoyabrazos_n1 := n_intr_count_le & [ STEM < "apoyabrazos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyabrazos_n_rel" ] ]. apoyacabezas_n1 := n_intr_count_le & [ STEM < "apoyacabezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyacabezas_n_rel" ] ]. apoyamanos_n1 := n_intr_count_le & [ STEM < "apoyamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyamanos_n_rel" ] ]. apoyapiés_n1 := n_intr_count_le & [ STEM < "apoyapiés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyapiés_n_rel" ] ]. apoyar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyar_v6 := v_trans_cp_prop_fin_sub_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ]. apoyar_v7 := v_trans_np_mrkd_np_caus_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v8 := v_trans_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyo_n1 := n_result_intr_ppcomp_le & [ STEM < "apoyo" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_apoyo_n_rel" ] ]. apreciable_a1 := a_qual_intr_scopal_le & [ STEM < "apreciable" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciable_a_rel" ]. apreciablemente_x1 := av_i_spr_le & [ STEM < "apreciablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciablemente_x_rel" ]. apreciación_n1 := n_trans_le & [ STEM < "apreciación" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciación_n_rel" ]. apreciar_v1 := v_trans_cp_prop_fin_le & [ STEM < "apreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apreciar_v_rel" ] ]. apreciar_v2 := v_trans_np_le & [ STEM < "apreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apreciar_v_rel" ] ]. apreciativo_a1 := a_qual_intr_ser_le & [ STEM < "apreciativo" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciativo_a_rel" ]. aprecio_n1 := n_trans_le & [ STEM < "aprecio" >, SYNSEM.LKEYS.KEYREL.PRED "_aprecio_n_rel" ]. aprehender_v1 := v_trans_cp_prop_fin_le & [ STEM < "aprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprehender_v_rel" ] ]. aprehender_v2 := v_trans_np_le & [ STEM < "aprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprehender_v_rel" ] ]. aprehensible_a1 := a_rel_prd_le & [ STEM < "aprehensible" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensible_a_rel" ]. aprehensiblemente_x1 := av_i_spr_le & [ STEM < "aprehensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensiblemente_x_rel" ]. aprehensión_n1 := n_trans_le & [ STEM < "aprehensión" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensión_n_rel" ]. apremiante_a1 := a_qual_intr_scopal_le & [ STEM < "apremiante" >, SYNSEM.LKEYS.KEYREL.PRED "_apremiante_a_rel" ]. apremiar_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremiar_v2 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremiar_v3 := v_non_pass_np_mrkd_np*_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremio_n1 := n_trans_le & [ STEM < "apremio" >, SYNSEM.LKEYS.KEYREL.PRED "_apremio_n_rel" ]. aprender_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "aprender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aprender_v_rel" ] ]. aprender_v2 := v_pron_trans_np_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_aprender_v_rel" ] ]. aprender_v3 := v_trans_cp_prop_fin_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprender_v_rel" ] ]. aprender_v4 := v_trans_cp_semi_ques_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL.PRED "_aprender_v_rel" ]. aprender_v5 := v_trans_np_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprender_v_rel" ] ]. aprendiz_n1 := n_intr_count_le & [ STEM < "aprendiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aprendiz_n_rel" ] ]. aprendizaje_n1 := n_trans_le & [ STEM < "aprendizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_aprendizaje_n_rel" ]. aprensivamente_x1 := av_i_spr_le & [ STEM < "aprensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aprensivamente_x_rel" ]. aprensivo_a1 := a_qual_intr_ser_le & [ STEM < "aprensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aprensivo_a_rel" ]. aprensión_n1 := n_intr_count_le & [ STEM < "aprensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aprensión_n_rel" ] ]. apresador_n1 := n_intr_count_le & [ STEM < "apresador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apresador_n_rel" ] ]. apresamiento_n1 := n_trans_le & [ STEM < "apresamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apresamiento_n_rel" ]. apresar_v := v_trans_np_le & [ STEM < "apresar" >, SYNSEM.LKEYS.KEYREL.PRED "_apresar_v_rel" ]. apresto_n1 := n_intr_mass_le & [ STEM < "apresto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apresto_n_rel" ] ]. apresuradamente_x1 := av_i_spr_le & [ STEM < "apresuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apresuradamente_x_rel" ]. apresuramiento_n1 := n_trans_le & [ STEM < "apresuramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apresuramiento_n_rel" ]. apresurar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "apresurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apresurar_v_rel" ] ]. apresurar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apresurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apresurar_v_rel" ] ]. apresurar_v3 := v_trans_np_le & [ STEM < "apresurar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_apresurar_v_rel" ] ]. apretar_v1 := v_ditrans*_le & [ STEM < "apretar" >, SYNSEM.LKEYS.KEYREL.PRED "_apretar_v_rel" ]. apretar_v2 := v_intr_le & [ STEM < "apretar" >, SYNSEM.LKEYS.KEYREL.PRED "_apretar_v_rel" ]. apretar_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "apretar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apretar_v_rel" ] ]. apretujar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apretujar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apretujar_v_rel" ] ] ]. apretujar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apretujar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apretujar_v_rel" ] ] ]. apretujón_n1 := n_trans_le & [ STEM < "apretujón" >, SYNSEM.LKEYS.KEYREL.PRED "_apretujón_n_rel" ]. apretón_n1 := n_trans_le & [ STEM < "apretón" >, SYNSEM.LKEYS.KEYREL.PRED "_apretón_n_rel" ]. aprieto_n1 := n_trans_le & [ STEM < "aprieto" >, SYNSEM.LKEYS.KEYREL.PRED "_aprieto_n_rel" ]. apriorismo_n1 := n_intr_count_le & [ STEM < "apriorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apriorismo_n_rel" ] ]. apriorísticamente_x1 := av_i_spr_le & [ STEM < "apriorísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apriorísticamente_x_rel" ]. apriorístico_a1 := a_rel_prd_le & [ STEM < "apriorístico" >, SYNSEM.LKEYS.KEYREL.PRED "_apriorístico_a_rel" ]. aprisco_n1 := n_intr_count_le & [ STEM < "aprisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aprisco_n_rel" ] ]. aprisionar_v := v_trans_np_le & [ STEM < "aprisionar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprisionar_v_rel" ]. aprobación_n1 := n_trans_le & [ STEM < "aprobación" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobación_n_rel" ]. aprobado_n1 := n_intr_count_le & [ STEM < "aprobado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aprobado_n_rel" ] ]. aprobar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprobar_v_rel" ] ]. aprobar_v2 := v_trans_cp_semi_ques_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobar_v_rel" ]. aprobar_v3 := v_trans_np_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprobar_v_rel" ] ]. aprobatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "aprobatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobatorio_a_rel" ]. aproblemático_a1 := a_rel_nonprd_intr_le & [ STEM < "aproblemático" >, SYNSEM.LKEYS.KEYREL.PRED "_aproblemático_a_rel" ]. aprontar_v := v_trans_np_le & [ STEM < "aprontar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprontar_v_rel" ]. apropiación_n1 := n_trans_le & [ STEM < "apropiación" >, SYNSEM.LKEYS.KEYREL.PRED "_apropiación_n_rel" ]. apropiadamente_x1 := av_i_spr_le & [ STEM < "apropiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apropiadamente_x_rel" ]. apropiar_v := v_pron_intr_mrkd_np_le & [ STEM < "apropiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_apropiar_v_rel" ] ]. apropincuar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apropincuar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apropincuar_v_rel" ] ] ]. apropincuar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apropincuar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apropincuar_v_rel" ] ] ]. aprovechable_a1 := a_qual_intr_scopal_le & [ STEM < "aprovechable" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovechable_a_rel" ]. aprovechamiento_n1 := n_trans_le & [ STEM < "aprovechamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovechamiento_n_rel" ]. aprovechar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aprovechar_v_rel" ] ] ]. aprovechar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aprovechar_v_rel" ] ] ]. aprovechar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprovechar_v_rel" ] ]. aprovechar_v4 := v_trans_np_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprovechar_v_rel" ] ]. aprovisionamiento_n1 := n_trans_le & [ STEM < "aprovisionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovisionamiento_n_rel" ]. aprovisionar_v := v_trans_np_mrkd_np_caus_le & [ STEM < "aprovisionar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_aprovisionar_v_rel" ] ]. aproximación_n1 := n_result_intr_ppcomp_le & [ STEM < "aproximación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_aproximación_n_rel" ] ]. aproximadamente_x1 := av_s_spr_le & [ STEM < "aproximadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximadamente_x_rel" ]. aproximante_a1 := a_rel_nonprd_intr_le & [ STEM < "aproximante" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximante_a_rel" ]. aproximar_v1 := v_pron_intr_io_le & [ STEM < "aproximar" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximar_v_rel" ]. aproximar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aproximar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aproximar_v_rel" ] ] ]. aproximar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "aproximar" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximar_v_rel" ]. aproximativo_a1 := a_qual_intr_scopal_le & [ STEM < "aproximativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximativo_a_rel" ]. aptamente_x1 := av_i_spr_le & [ STEM < "aptamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aptamente_x_rel" ]. aptialismo_n1 := n_intr_uncount_le & [ STEM < "aptialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aptialismo_n_rel" ] ]. aptitud_n1 := n_intr_mass_le & [ STEM < "aptitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aptitud_n_rel" ] ]. apto_a1 := a_qual_trans*_ser_le & [ STEM < "apto" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_apto_a_rel" ] ]. apuesta_n1 := n_trans_le & [ STEM < "apuesta" >, SYNSEM.LKEYS.KEYREL.PRED "_apuesta_n_rel" ]. apuesto_a1 := a_qual_intr_scopal_le & [ STEM < "apuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_apuesto_a_rel" ]. apuntador_n1 := n_intr_count_le & [ STEM < "apuntador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apuntador_n_rel" ] ]. apuntador_n2 := n_subj-nom_le & [ STEM < "apuntador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apuntador_n_rel" ] ]. apuntalamiento_n1 := n_trans_le & [ STEM < "apuntalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntalamiento_n_rel" ]. apuntalar_v := v_trans_np_le & [ STEM < "apuntalar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_apuntalar_v_rel" ] ]. apuntamiento_n1 := n_trans_le & [ STEM < "apuntamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntamiento_n_rel" ]. apuntar_v1 := v_trans_cp_prop_fin_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apuntar_v_rel" ] ]. apuntar_v2 := v_trans_cp_semi_ques_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntar_v_rel" ]. apuntar_v3 := v_trans_np*_lcomp_dir_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apuntar_v_rel" ] ]. apuntar_v4 := v_trans_np_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apuntar_v_rel" ] ]. apunte_n1 := n_intr_count_le & [ STEM < "apunte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_apunte_n_rel" ] ]. apuntillar_v := v_trans_np_le & [ STEM < "apuntillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntillar_v_rel" ]. apuradamente_x1 := av_i_spr_le & [ STEM < "apuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apuradamente_x_rel" ]. apurar_v1 := v_intr_io*_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apurar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apurar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apurar_v_rel" ] ] ]. apurar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apurar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apurar_v_rel" ] ] ]. apurar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apurar_v5 := v_trans_np_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apuro_n1 := n_trans_le & [ STEM < "apuro" >, SYNSEM.LKEYS.KEYREL.PRED "_apuro_n_rel" ]. apuãâ±alar_v := v_trans_np_le & [ STEM < "apuñalar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuñalar_v_rel" ]. apuñalamiento_n1 := n_trans_le & [ STEM < "apuñalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuñalamiento_n_rel" ]. apáticamente_x1 := av_i_spr_le & [ STEM < "apáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apáticamente_x_rel" ]. apático_a1 := a_qual_intr_ser_le & [ STEM < "apático" >, SYNSEM.LKEYS.KEYREL.PRED "_apático_a_rel" ]. apátrida_a1 := a_qual_intr_ser_le & [ STEM < "apátrida" >, SYNSEM.LKEYS.KEYREL.PRED "_apátrida_a_rel" ]. apátrida_n1 := n_intr_count_le & [ STEM < "apátrida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apátrida_n_rel" ] ]. apéndice_n1 := n_intr_count_le & [ STEM < "apéndice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_apéndice_n_rel" ] ]. apócope_n1 := n_intr_count_le & [ STEM < "apócope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apócope_n_rel" ] ]. apócrifamente_x1 := av_i_spr_le & [ STEM < "apócrifamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apócrifamente_x_rel" ]. apócrifo_a1 := a_rel_nonprd_intr_le & [ STEM < "apócrifo" >, SYNSEM.LKEYS.KEYREL.PRED "_apócrifo_a_rel" ]. apódosis_n1 := n_intr_count_le & [ STEM < "apódosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apódosis_n_rel" ] ]. apófisis_n1 := n_intr_count_le & [ STEM < "apófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apófisis_n_rel" ] ]. apógrafo_n1 := n_intr_count_le & [ STEM < "apógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apógrafo_n_rel" ] ]. apósito_n1 := n_intr_count_le & [ STEM < "apósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apósito_n_rel" ] ]. apóstata_n1 := n_intr_count_le & [ STEM < "apóstata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apóstata_n_rel" ] ]. apóstol_n1 := n_intr_count_le & [ STEM < "apóstol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apóstol_n_rel" ] ]. apóstrofe_n1 := n_intr_count_le & [ STEM < "apóstrofe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apóstrofe_n_rel" ] ]. apóstrofo_n1 := n_intr_count_le & [ STEM < "apóstrofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apóstrofo_n_rel" ] ]. aqueilia_n1 := n_intr_uncount_le & [ STEM < "aqueilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aqueilia_n_rel" ] ]. aquejar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "aquejar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_aquejar_v_rel" ] ]. aquejar_v2 := v_intr_io_le & [ STEM < "aquejar" >, SYNSEM.LKEYS.KEYREL.PRED "_aquejar_v_rel" ]. aquel_d := d_dem_aquel_le & [ STEM < "aquel" > ]. aquel_p := pr_dem_le & [ STEM < "aquel" >, SYNSEM.LKEYS.ALTKEYREL.PRED _aquel_q_rel ]. aquelarre_n1 := n_intr_count_le & [ STEM < "aquelarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aquelarre_n_rel" ] ]. aquende_n1 := av_deic_place_le & [ STEM < "aquende" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_aquende_x_rel" ]. aqueo_n1 := n_intr_count_le & [ STEM < "aqueo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aqueo_n_rel" ] ]. aquiescencia_n1 := n_intr_uncount_le & [ STEM < "aquiescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aquiescencia_n_rel" ] ]. aquiescente_a1 := a_qual_intr_ser_le & [ STEM < "aquiescente" >, SYNSEM.LKEYS.KEYREL.PRED "_aquiescente_a_rel" ]. aquilino_a1 := a_qual_intr_ser_le & [ STEM < "aquilino" >, SYNSEM.LKEYS.KEYREL.PRED "_aquilino_a_rel" ]. aquillado_a1 := a_qual_intr_ser_le & [ STEM < "aquillado" >, SYNSEM.LKEYS.KEYREL.PRED "_aquillado_a_rel" ]. aquitano_n1 := n_intr_count_le & [ STEM < "aquitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aquitano_n_rel" ] ]. aquí_n1 := av_deic_place_le & [ STEM < "aquí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_aquí_x_rel" ]. arabesco_a1 := a_rel_prd_le & [ STEM < "arabesco" >, SYNSEM.LKEYS.KEYREL.PRED "_arabesco_a_rel" ]. arabesco_n1 := n_intr_count_le & [ STEM < "arabesco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arabesco_n_rel" ] ]. arabinosa_n1 := n_intr_count_le & [ STEM < "arabinosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arabinosa_n_rel" ] ]. arabismo_n1 := n_intr_count_le & [ STEM < "arabismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arabismo_n_rel" ] ]. arabista_n1 := n_intr_count_le & [ STEM < "arabista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arabista_n_rel" ] ]. arable_a1 := a_rel_prd_le & [ STEM < "arable" >, SYNSEM.LKEYS.KEYREL.PRED "_arable_a_rel" ]. arac_n1 := n_intr_mass_le & [ STEM < "arac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arac_n_rel" ] ]. aracnoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "aracnoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_aracnoideo_a_rel" ]. aracnoides_n1 := n_intr_uncount_le & [ STEM < "aracnoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aracnoides_n_rel" ] ]. arado_n1 := n_intr_count_le & [ STEM < "arado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arado_n_rel" ] ]. aragonesismo_n1 := n_intr_mass-or-count_le & [ STEM < "aragonesismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aragonesismo_n_rel" ] ]. aragonito_n1 := n_intr_count_le & [ STEM < "aragonito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aragonito_n_rel" ] ]. aragonés_a1 := a_rel_prd_le & [ STEM < "aragonés" >, SYNSEM.LKEYS.KEYREL.PRED "_aragonés_a_rel" ]. aragonés_n1 := n_intr_count_le & [ STEM < "aragonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aragonés_n_rel" ] ]. arameo_a1 := a_rel_prd_le & [ STEM < "arameo" >, SYNSEM.LKEYS.KEYREL.PRED "_arameo_a_rel" ]. arancel_n1 := n_intr_count_le & [ STEM < "arancel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arancel_n_rel" ] ]. arancelario_a1 := a_rel_nonprd_intr_le & [ STEM < "arancelario" >, SYNSEM.LKEYS.KEYREL.PRED "_arancelario_a_rel" ]. arandela_n1 := n_intr_count_le & [ STEM < "arandela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arandela_n_rel" ] ]. aranés_a1 := a_rel_prd_le & [ STEM < "aranés" >, SYNSEM.LKEYS.KEYREL.PRED "_aranés_a_rel" ]. aranés_n1 := n_intr_count_le & [ STEM < "aranés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aranés_n_rel" ] ]. arao_n1 := n_intr_count_le & [ STEM < "arao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arao_n_rel" ] ]. araquidato_n1 := n_intr_count_le & [ STEM < "araquidato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_araquidato_n_rel" ] ]. arar_v := v_trans_np*_le & [ STEM < "arar" >, SYNSEM.LKEYS.KEYREL.PRED "_arar_v_rel" ]. araucano_a1 := a_rel_prd_le & [ STEM < "araucano" >, SYNSEM.LKEYS.KEYREL.PRED "_araucano_a_rel" ]. araucano_n1 := n_intr_count_le & [ STEM < "araucano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_araucano_n_rel" ] ]. araãâ±ar_v := v_trans_np_le & [ STEM < "arañar" >, SYNSEM.LKEYS.KEYREL.PRED "_arañar_v_rel" ]. araña_n1 := n_intr_count_le & [ STEM < "araña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_araña_n_rel" ] ]. arañazo_n1 := n_intr_count_le & [ STEM < "arañazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arañazo_n_rel" ] ]. arbitraje_n1 := n_trans_le & [ STEM < "arbitraje" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitraje_n_rel" ]. arbitral_a1 := a_rel_prd_le & [ STEM < "arbitral" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitral_a_rel" ]. arbitralmente_x1 := av_i_spr_le & [ STEM < "arbitralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitralmente_x_rel" ]. arbitrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "arbitrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arbitrar_v_rel" ] ]. arbitrar_v2 := v_trans_np*_le & [ STEM < "arbitrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_arbitrar_v_rel" ] ]. arbitrariamente_x1 := av_i_spr_le & [ STEM < "arbitrariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrariamente_x_rel" ]. arbitrariedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "arbitrariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arbitrariedad_n_rel" ] ]. arbitrario_a1 := a_qual_intr_scopal_le & [ STEM < "arbitrario" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrario_a_rel" ]. arbitrativamente_x1 := av_i_spr_le & [ STEM < "arbitrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrativamente_x_rel" ]. arbitrativo_a1 := a_rel_prd_le & [ STEM < "arbitrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrativo_a_rel" ]. arbitrio_n1 := n_intr_count_le & [ STEM < "arbitrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arbitrio_n_rel" ] ]. arbolado_a1 := a_qual_intr_scopal_le & [ STEM < "arbolado" >, SYNSEM.LKEYS.KEYREL.PRED "_arbolado_a_rel" ]. arbolado_n1 := n_intr_count_le & [ STEM < "arbolado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arbolado_n_rel" ] ]. arboladura_n1 := n_intr_coll_le & [ STEM < "arboladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arboladura_n_rel" ] ]. arbolar_v := v_trans_np_le & [ STEM < "arbolar" >, SYNSEM.LKEYS.KEYREL.PRED "_arbolar_v_rel" ]. arboleda_n1 := n_intr_count_le & [ STEM < "arboleda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arboleda_n_rel" ] ]. arborescente_a1 := a_rel_nonprd_intr_le & [ STEM < "arborescente" >, SYNSEM.LKEYS.KEYREL.PRED "_arborescente_a_rel" ]. arboricultura_n1 := n_intr_uncount_le & [ STEM < "arboricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arboricultura_n_rel" ] ]. arbotante_n1 := n_intr_count_le & [ STEM < "arbotante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arbotante_n_rel" ] ]. arbustivo_a1 := a_rel_nonprd_intr_le & [ STEM < "arbustivo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbustivo_a_rel" ]. arbusto_n1 := n_intr_count_le & [ STEM < "arbusto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arbusto_n_rel" ] ]. arbóreamente_x1 := av_i_spr_le & [ STEM < "arbóreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbóreamente_x_rel" ]. arbóreo_a1 := a_rel_nonprd_intr_le & [ STEM < "arbóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbóreo_a_rel" ]. arca_n1 := n_intr_count_le & [ STEM < "arca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arca_n_rel" ] ]. arcabucero_n1 := n_intr_count_le & [ STEM < "arcabucero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcabucero_n_rel" ] ]. arcabuz_n1 := n_intr_count_le & [ STEM < "arcabuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arcabuz_n_rel" ] ]. arcada_n1 := n_intr_count_le & [ STEM < "arcada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_arcada_n_rel" ] ]. arcadia_n1 := n_intr_count_le & [ STEM < "arcadia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_arcadia_n_rel" ] ]. arcaicamente_x1 := av_i_spr_le & [ STEM < "arcaicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaicamente_x_rel" ]. arcaico_a1 := a_qual_intr_scopal_le & [ STEM < "arcaico" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaico_a_rel" ]. arcaizante_a1 := a_rel_prd_le & [ STEM < "arcaizante" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaizante_a_rel" ]. arcaizantemente_x1 := av_i_spr_le & [ STEM < "arcaizantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaizantemente_x_rel" ]. arcano_a1 := a_rel_nonprd_intr_le & [ STEM < "arcano" >, SYNSEM.LKEYS.KEYREL.PRED "_arcano_a_rel" ]. arcaísmo_n1 := n_intr_count_le & [ STEM < "arcaísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcaísmo_n_rel" ] ]. arce_n1 := n_intr_count_le & [ STEM < "arce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arce_n_rel" ] ]. arcedianato_n1 := n_intr_uncount_le & [ STEM < "arcedianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcedianato_n_rel" ] ]. arcediano_n1 := n_intr_count_le & [ STEM < "arcediano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcediano_n_rel" ] ]. archidiácono_n1 := n_intr_count_le & [ STEM < "archidiácono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archidiácono_n_rel" ] ]. archidiócesis_n1 := n_intr_count_le & [ STEM < "archidiócesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archidiócesis_n_rel" ] ]. archiduque_n1 := n_intr_count_le & [ STEM < "archiduque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archiduque_n_rel" ] ]. archiduquesa_n1 := n_intr_count_le & [ STEM < "archiduquesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archiduquesa_n_rel" ] ]. archienemigo_n1 := n_intr_count_le & [ STEM < "archienemigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archienemigo_n_rel" ] ]. archifonema_n1 := n_intr_count_le & [ STEM < "archifonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archifonema_n_rel" ] ]. archifonemático_a1 := a_rel_nonprd_intr_le & [ STEM < "archifonemático" >, SYNSEM.LKEYS.KEYREL.PRED "_archifonemático_a_rel" ]. archipelágico_a1 := a_rel_nonprd_intr_le & [ STEM < "archipelágico" >, SYNSEM.LKEYS.KEYREL.PRED "_archipelágico_a_rel" ]. archipiélago_n1 := n_intr_count_le & [ STEM < "archipiélago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_archipiélago_n_rel" ] ]. archivación_n1 := n_trans_le & [ STEM < "archivación" >, SYNSEM.LKEYS.KEYREL.PRED "_archivación_n_rel" ]. archivador_n1 := n_intr_count_le & [ STEM < "archivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivador_n_rel" ] ]. archivar_v := v_trans_np_le & [ STEM < "archivar" >, SYNSEM.LKEYS.KEYREL.PRED "_archivar_v_rel" ]. archivero_n1 := n_intr_count_le & [ STEM < "archivero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivero_n_rel" ] ]. archivista_n1 := n_intr_count_le & [ STEM < "archivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archivista_n_rel" ] ]. archivo_n1 := n_trans_le & [ STEM < "archivo" >, SYNSEM.LKEYS.KEYREL.PRED "_archivo_n_rel" ]. archivo_n2 := n_intr_count_le & [ STEM < "archivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_archivo_n_rel" ] ]. archivolta_n1 := n_intr_count_le & [ STEM < "archivolta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivolta_n_rel" ] ]. archivística_n1 := n_intr_uncount_le & [ STEM < "archivística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archivística_n_rel" ] ]. archivístico_a1 := a_rel_nonprd_intr_le & [ STEM < "archivístico" >, SYNSEM.LKEYS.KEYREL.PRED "_archivístico_a_rel" ]. arciforme_a1 := a_qual_intr_ser_le & [ STEM < "arciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_arciforme_a_rel" ]. arcilla_n1 := n_intr_mass_le & [ STEM < "arcilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arcilla_n_rel" ] ]. arcilloso_a1 := a_qual_intr_scopal_le & [ STEM < "arcilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_arcilloso_a_rel" ]. arciloso_a1 := a_qual_intr_scopal_le & [ STEM < "arciloso" >, SYNSEM.LKEYS.KEYREL.PRED "_arciloso_a_rel" ]. arciprestazgo_n1 := n_intr_count_le & [ STEM < "arciprestazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arciprestazgo_n_rel" ] ]. arcipreste_n1 := n_intr_count_le & [ STEM < "arcipreste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcipreste_n_rel" ] ]. arco_n1 := n_intr_count_le & [ STEM < "arco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_arco_n_rel" ] ]. arcocoseno_n1 := n_intr_count_le & [ STEM < "arcocoseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcocoseno_n_rel" ] ]. arconte_n1 := n_intr_count_le & [ STEM < "arconte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arconte_n_rel" ] ]. arcoseno_n1 := n_intr_count_le & [ STEM < "arcoseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcoseno_n_rel" ] ]. arcuado_a1 := a_qual_intr_ser_le & [ STEM < "arcuado" >, SYNSEM.LKEYS.KEYREL.PRED "_arcuado_a_rel" ]. arcángel_n1 := n_intr_count_le & [ STEM < "arcángel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcángel_n_rel" ] ]. arcén_n1 := n_intr_count_le & [ STEM < "arcén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arcén_n_rel" ] ]. arder_v := v_unacc_le & [ STEM < "arder" >, SYNSEM.LKEYS.KEYREL.PRED "_arder_v_rel" ]. ardid_n1 := n_intr_count_le & [ STEM < "ardid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardid_n_rel" ] ]. ardiente_a1 := a_qual_intr_scopal_le & [ STEM < "ardiente" >, SYNSEM.LKEYS.KEYREL.PRED "_ardiente_a_rel" ]. ardientemente_x1 := av_i_spr_le & [ STEM < "ardientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ardientemente_x_rel" ]. ardilla_n1 := n_intr_count_le & [ STEM < "ardilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ardilla_n_rel" ] ]. ardite_n := n_intr_count_le & [ STEM < "ardite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ardite_n_rel" ] ]. ardor_n1 := n_intr_mass_le & [ STEM < "ardor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardor_n_rel" ] ]. ardor_n2 := n_intr_uncount_pl_le & [ STEM < "ardor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardor_n_rel" ] ]. ardoroso_a1 := a_qual_intr_ser_le & [ STEM < "ardoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ardoroso_a_rel" ]. arduamente_x1 := av_i_spr_le & [ STEM < "arduamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arduamente_x_rel" ]. arduidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "arduidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arduidad_n_rel" ] ]. arduo_a1 := a_qual_intr_scopal_le & [ STEM < "arduo" >, SYNSEM.LKEYS.KEYREL.PRED "_arduo_a_rel" ]. arena_n1 := n_intr_mass_le & [ STEM < "arena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arena_n_rel" ] ]. arena_n2 := n_intr_count_le & [ STEM < "arena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arena_n_rel" ] ]. arenado_n1 := n_trans_le & [ STEM < "arenado" >, SYNSEM.LKEYS.KEYREL.PRED "_arenado_n_rel" ]. arenador_n1 := n_intr_count_le & [ STEM < "arenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenador_n_rel" ] ]. arenal_n1 := n_intr_count_le & [ STEM < "arenal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arenal_n_rel" ] ]. arenar_v := v_trans_np_le & [ STEM < "arenar" >, SYNSEM.LKEYS.KEYREL.PRED "_arenar_v_rel" ]. arenero_n1 := n_intr_count_le & [ STEM < "arenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenero_n_rel" ] ]. arenga_n1 := n_intr_count_le & [ STEM < "arenga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arenga_n_rel" ] ]. arengar_v := v_trans_np*_le & [ STEM < "arengar" >, SYNSEM.LKEYS.KEYREL.PRED "_arengar_v_rel" ]. arenilla_n1 := n_intr_mass_le & [ STEM < "arenilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenilla_n_rel" ] ]. arenisca_n1 := n_intr_mass_le & [ STEM < "arenisca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arenisca_n_rel" ] ]. arenoso_a1 := a_qual_intr_scopal_le & [ STEM < "arenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_arenoso_a_rel" ]. arenosol_n1 := n_intr_count_le & [ STEM < "arenosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenosol_n_rel" ] ]. arenque_n1 := n_intr_count_le & [ STEM < "arenque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arenque_n_rel" ] ]. arenáceo_a1 := a_qual_intr_scopal_le & [ STEM < "arenáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_arenáceo_a_rel" ]. areola_n1 := n_intr_count_le & [ STEM < "areola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areola_n_rel" ] ]. areola_n2 := n_ppcomp_count_le & [ STEM < "areola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_areola_n_rel" ] ]. areolar_a1 := a_rel_nonprd_intr_le & [ STEM < "areolar" >, SYNSEM.LKEYS.KEYREL.PRED "_areolar_a_rel" ]. areopagita_n1 := n_intr_count_le & [ STEM < "areopagita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_areopagita_n_rel" ] ]. areopicnómetro_n1 := n_intr_count_le & [ STEM < "areopicnómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areopicnómetro_n_rel" ] ]. arete_n1 := n_intr_count_le & [ STEM < "arete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arete_n_rel" ] ]. areómetro_n1 := n_intr_count_le & [ STEM < "areómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areómetro_n_rel" ] ]. areópago_n1 := n_intr_count_le & [ STEM < "areópago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_areópago_n_rel" ] ]. argamasa_n1 := n_intr_mass_le & [ STEM < "argamasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argamasa_n_rel" ] ]. argelino_a1 := a_rel_prd_le & [ STEM < "argelino" >, SYNSEM.LKEYS.KEYREL.PRED "_argelino_a_rel" ]. argelino_n1 := n_intr_count_le & [ STEM < "argelino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argelino_n_rel" ] ]. argentino_a1 := a_rel_prd_le & [ STEM < "argentino" >, SYNSEM.LKEYS.KEYREL.PRED "_argentino_a_rel" ]. argentino_n1 := n_intr_count_le & [ STEM < "argentino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argentino_n_rel" ] ]. argentita_n1 := n_intr_count_le & [ STEM < "argentita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argentita_n_rel" ] ]. arginina_n1 := n_intr_count_le & [ STEM < "arginina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arginina_n_rel" ] ]. argol_n1 := n_intr_count_le & [ STEM < "argol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argol_n_rel" ] ]. argolla_n1 := n_intr_count_le & [ STEM < "argolla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_argolla_n_rel" ] ]. argos_n1 := n_intr_count_le & [ STEM < "argos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argos_n_rel" ] ]. argot_n1 := n_intr_count_le & [ STEM < "argot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argot_n_rel" ] ]. argucia_n1 := n_intr_mass_le & [ STEM < "argucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argucia_n_rel" ] ]. argumentación_n1 := n_trans_le & [ STEM < "argumentación" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentación_n_rel" ]. argumental_a1 := a_rel_nonprd_intr_le & [ STEM < "argumental" >, SYNSEM.LKEYS.KEYREL.PRED "_argumental_a_rel" ]. argumentar_v1 := v_trans_cp_prop_fin_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_argumentar_v_rel" ] ]. argumentar_v2 := v_trans_cp_semi_ques_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentar_v_rel" ]. argumentar_v3 := v_trans_np_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_argumentar_v_rel" ] ]. argumentativo_a1 := a_rel_prd_le & [ STEM < "argumentativo" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentativo_a_rel" ]. argumento_n1 := n_intr_count_le & [ STEM < "argumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argumento_n_rel" ] ]. argã£â¼ir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "argüir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_argüir_v_rel" ] ]. argã£â¼ir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "argüir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_argüir_v_rel" ] ] ]. argénteo_a1 := a_rel_nonprd_intr_le & [ STEM < "argénteo" >, SYNSEM.LKEYS.KEYREL.PRED "_argénteo_a_rel" ]. argón_n1 := n_intr_mass_le & [ STEM < "argón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argón_n_rel" ] ]. aria_n1 := n_intr_count_le & [ STEM < "aria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_aria_n_rel" ] ]. aridad_n1 := n_intr_uncount_le & [ STEM < "aridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aridad_n_rel" ] ]. aridez_n1 := n_ppcomp_mass_le & [ STEM < "aridez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aridez_n_rel" ] ]. arieta_n1 := n_intr_count_le & [ STEM < "arieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arieta_n_rel" ] ]. ariete_n1 := n_intr_count_le & [ STEM < "ariete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ariete_n_rel" ] ]. ario_n1 := n_intr_count_le & [ STEM < "ario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ario_n_rel" ] ]. arisco_a1 := a_qual_intr_ser_le & [ STEM < "arisco" >, SYNSEM.LKEYS.KEYREL.PRED "_arisco_a_rel" ]. arista_n1 := n_intr_count_le & [ STEM < "arista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arista_n_rel" ] ]. aristocracia_n1 := n_intr_count_le & [ STEM < "aristocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aristocracia_n_rel" ] ]. aristocráticamente_x1 := av_i_spr_le & [ STEM < "aristocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aristocráticamente_x_rel" ]. aristocrático_a1 := a_qual_intr_ser_le & [ STEM < "aristocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_aristocrático_a_rel" ]. aristotélico_a1 := a_rel_nonprd_intr_le & [ STEM < "aristotélico" >, SYNSEM.LKEYS.KEYREL.PRED "_aristotélico_a_rel" ]. aristotélico_n1 := n_intr_count_le & [ STEM < "aristotélico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aristotélico_n_rel" ] ]. aristócrata_n1 := n_intr_count_le & [ STEM < "aristócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aristócrata_n_rel" ] ]. aritenoepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "aritenoepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aritenoepiglótico_a_rel" ]. aritenoidectomía_n1 := n_intr_count_le & [ STEM < "aritenoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenoidectomía_n_rel" ] ]. aritenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "aritenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_aritenoideo_a_rel" ]. aritenoidopexia_n1 := n_intr_uncount_le & [ STEM < "aritenoidopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenoidopexia_n_rel" ] ]. aritenopexia_n1 := n_intr_uncount_le & [ STEM < "aritenopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenopexia_n_rel" ] ]. aritmética_n1 := n_intr_uncount_le & [ STEM < "aritmética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritmética_n_rel" ] ]. aritméticamente_x1 := av_i_spr_le & [ STEM < "aritméticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aritméticamente_x_rel" ]. aritmético_a1 := a_rel_nonprd_intr_le & [ STEM < "aritmético" >, SYNSEM.LKEYS.KEYREL.PRED "_aritmético_a_rel" ]. aritmómetro_n1 := n_intr_count_le & [ STEM < "aritmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aritmómetro_n_rel" ] ]. arlequín_n1 := n_intr_count_le & [ STEM < "arlequín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arlequín_n_rel" ] ]. arma_n1 := n_intr_count_le & [ STEM < "arma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arma_n_rel" ] ]. arma_nuclear_n1 := n_intr_count_le & [ STEM < "arma_nuclear" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arma_nuclear_n_rel" ] ]. armada_n1 := n_intr_coll_le & [ STEM < "armada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armada_n_rel" ] ]. armador_n1 := n_intr_count_le & [ STEM < "armador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armador_n_rel" ] ]. armadura_n1 := n_intr_count_le & [ STEM < "armadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armadura_n_rel" ] ]. armadía_n1 := n_intr_count_le & [ STEM < "armadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armadía_n_rel" ] ]. armajal_n1 := n_intr_count_le & [ STEM < "armajal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_armajal_n_rel" ] ]. armamentismo_n1 := n_intr_uncount_le & [ STEM < "armamentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armamentismo_n_rel" ] ]. armamentista_a1 := a_qual_intr_ser_le & [ STEM < "armamentista" >, SYNSEM.LKEYS.KEYREL.PRED "_armamentista_a_rel" ]. armamento_n1 := n_intr_mass_le & [ STEM < "armamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armamento_n_rel" ] ]. armamentístico_a1 := a_rel_nonprd_intr_le & [ STEM < "armamentístico" >, SYNSEM.LKEYS.KEYREL.PRED "_armamentístico_a_rel" ]. armar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "armar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_armar_v_rel" ] ]. armar_v2 := v_trans_np_le & [ STEM < "armar" >, SYNSEM.LKEYS.KEYREL.PRED "_armar_v_rel" ]. armario_n1 := n_intr_count_le & [ STEM < "armario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armario_n_rel" ] ]. armazón_n1 := n_intr_count_le & [ STEM < "armazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armazón_n_rel" ] ]. armañac_n1 := n_intr_count_le & [ STEM < "armañac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armañac_n_rel" ] ]. armenio_a1 := a_rel_prd_le & [ STEM < "armenio" >, SYNSEM.LKEYS.KEYREL.PRED "_armenio_a_rel" ]. armenio_n1 := n_intr_count_le & [ STEM < "armenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armenio_n_rel" ] ]. armero_n1 := n_intr_count_le & [ STEM < "armero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armero_n_rel" ] ]. armería_n1 := n_intr_count_le & [ STEM < "armería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_armería_n_rel" ] ]. armisticio_n1 := n_intr_count_le & [ STEM < "armisticio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armisticio_n_rel" ] ]. armiño_n1 := n_intr_count_le & [ STEM < "armiño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_armiño_n_rel" ] ]. armonicista_a1 := a_qual_intr_ser_le & [ STEM < "armonicista" >, SYNSEM.LKEYS.KEYREL.PRED "_armonicista_a_rel" ]. armonio_n1 := n_intr_count_le & [ STEM < "armonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armonio_n_rel" ] ]. armoniosamente_x1 := av_i_spr_le & [ STEM < "armoniosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_armoniosamente_x_rel" ]. armonioso_a1 := a_qual_intr_scopal_le & [ STEM < "armonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_armonioso_a_rel" ]. armonista_n1 := n_intr_count_le & [ STEM < "armonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armonista_n_rel" ] ]. armonización_n1 := n_trans_le & [ STEM < "armonización" >, SYNSEM.LKEYS.KEYREL.PRED "_armonización_n_rel" ]. armonizar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "armonizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_armonizar_v_rel" ] ]. armonizar_v2 := v_trans_np_caus_le & [ STEM < "armonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_armonizar_v_rel" ]. armonía_n1 := n_intr_mass_le & [ STEM < "armonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armonía_n_rel" ] ]. armónica_n1 := n_intr_count_le & [ STEM < "armónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armónica_n_rel" ] ]. armónicamente_x1 := av_i_spr_le & [ STEM < "armónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_armónicamente_x_rel" ]. armónico_a1 := a_qual_intr_scopal_le & [ STEM < "armónico" >, SYNSEM.LKEYS.KEYREL.PRED "_armónico_a_rel" ]. armónico_n1 := n_intr_count_le & [ STEM < "armónico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armónico_n_rel" ] ]. arnés_n1 := n_intr_count_le & [ STEM < "arnés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arnés_n_rel" ] ]. aro_n1 := n_intr_count_le & [ STEM < "aro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aro_n_rel" ] ]. aroma_n1 := n_intr_mass_le & [ STEM < "aroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aroma_n_rel" ] ]. aromaticidad_n1 := n_ppcomp_uncount_le & [ STEM < "aromaticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aromaticidad_n_rel" ] ]. aromatización_n1 := n_trans_le & [ STEM < "aromatización" >, SYNSEM.LKEYS.KEYREL.PRED "_aromatización_n_rel" ]. aromatizar_v := v_trans_np_le & [ STEM < "aromatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aromatizar_v_rel" ]. aromático_a1 := a_qual_intr_scopal_le & [ STEM < "aromático" >, SYNSEM.LKEYS.KEYREL.PRED "_aromático_a_rel" ]. arpa_n1 := n_intr_count_le & [ STEM < "arpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arpa_n_rel" ] ]. arpegio_n1 := n_intr_count_le & [ STEM < "arpegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_arpegio_n_rel" ] ]. arpillera_n1 := n_intr_mass-or-count_le & [ STEM < "arpillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_arpillera_n_rel" ] ]. arpista_n1 := n_intr_count_le & [ STEM < "arpista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arpista_n_rel" ] ]. arponero_n1 := n_intr_count_le & [ STEM < "arponero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arponero_n_rel" ] ]. arpía_n1 := n_intr_count_le & [ STEM < "arpía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arpía_n_rel" ] ]. arpón_n1 := n_intr_count_le & [ STEM < "arpón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arpón_n_rel" ] ]. arqueaje_n1 := n_intr_mass_le & [ STEM < "arqueaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_arqueaje_n_rel" ] ]. arqueamiento_n1 := n_intr_mass_le & [ STEM < "arqueamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_arqueamiento_n_rel" ] ]. arquear_v := v_trans_np_caus_le & [ STEM < "arquear" >, SYNSEM.LKEYS.KEYREL.PRED "_arquear_v_rel" ]. arqueo_n1 := n_trans_le & [ STEM < "arqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_arqueo_n_rel" ]. arqueobotánica_n1 := n_intr_uncount_le & [ STEM < "arqueobotánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueobotánica_n_rel" ] ]. arqueobotánico_n1 := n_intr_count_le & [ STEM < "arqueobotánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arqueobotánico_n_rel" ] ]. arqueografía_n1 := n_intr_uncount_le & [ STEM < "arqueografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueografía_n_rel" ] ]. arqueología_n1 := n_intr_uncount_le & [ STEM < "arqueología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueología_n_rel" ] ]. arqueológico_a1 := a_rel_nonprd_intr_le & [ STEM < "arqueológico" >, SYNSEM.LKEYS.KEYREL.PRED "_arqueológico_a_rel" ]. arqueomagnetismo_n1 := n_intr_uncount_le & [ STEM < "arqueomagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueomagnetismo_n_rel" ] ]. arqueozoología_n1 := n_intr_uncount_le & [ STEM < "arqueozoología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueozoología_n_rel" ] ]. arquero_n1 := n_intr_count_le & [ STEM < "arquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arquero_n_rel" ] ]. arquería_n1 := n_intr_count_le & [ STEM < "arquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquería_n_rel" ] ]. arqueta_n1 := n_intr_count_le & [ STEM < "arqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arqueta_n_rel" ] ]. arquetipo_n1 := n_intr_count_le & [ STEM < "arquetipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquetipo_n_rel" ] ]. arqueólogo_n1 := n_intr_count_le & [ STEM < "arqueólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arqueólogo_n_rel" ] ]. arquillo_n1 := n_intr_count_le & [ STEM < "arquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquillo_n_rel" ] ]. arquimediano_a1 := a_rel_nonprd_intr_le & [ STEM < "arquimediano" >, SYNSEM.LKEYS.KEYREL.PRED "_arquimediano_a_rel" ]. arquitecto_n1 := n_intr_count_le & [ STEM < "arquitecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arquitecto_n_rel" ] ]. arquitectura_n1 := n_intr_count_le & [ STEM < "arquitectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquitectura_n_rel" ] ]. arquitectural_a1 := a_rel_nonprd_intr_le & [ STEM < "arquitectural" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectural_a_rel" ]. arquitecturalmente_x1 := av_i_spr_le & [ STEM < "arquitecturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitecturalmente_x_rel" ]. arquitectónicamente_x1 := av_i_spr_le & [ STEM < "arquitectónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectónicamente_x_rel" ]. arquitectónico_a1 := a_rel_nonprd_intr_le & [ STEM < "arquitectónico" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectónico_a_rel" ]. arquitrabe_n1 := n_intr_count_le & [ STEM < "arquitrabe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquitrabe_n_rel" ] ]. arquivolta_n1 := n_intr_count_le & [ STEM < "arquivolta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquivolta_n_rel" ] ]. arrabal_n1 := n_intr_count_le & [ STEM < "arrabal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrabal_n_rel" ] ]. arrabio_n1 := n_intr_count_le & [ STEM < "arrabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrabio_n_rel" ] ]. arracimar_v := v_pron_unacc_perf_le & [ STEM < "arracimar" >, SYNSEM.LKEYS.KEYREL.PRED "_arracimar_v_rel" ]. arraigar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "arraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_arraigar_v_rel" ]. arraigar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "arraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_arraigar_v_rel" ]. arraigo_n1 := n_result_intr_ppcomp_le & [ STEM < "arraigo" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_arraigo_n_rel" ] ]. arrancaclavos_n1 := n_intr_count_le & [ STEM < "arrancaclavos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancaclavos_n_rel" ] ]. arrancada_n1 := n_intr_count_le & [ STEM < "arrancada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrancada_n_rel" ] ]. arrancador_n1 := n_intr_count_le & [ STEM < "arrancador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancador_n_rel" ] ]. arrancadora_n1 := n_intr_count_le & [ STEM < "arrancadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancadora_n_rel" ] ]. arrancamiento_n1 := n_trans_le & [ STEM < "arrancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancamiento_n_rel" ]. arrancar_5 := v_trans_np_mrkd_np_le & [ STEM < "arrancar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrancar_v_rel" ] ]. arrancar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrancar_v_rel" ] ]. arrancar_v2 := v_ditrans*_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancar_v_rel" ]. arrancar_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "arrancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_arrancar_v_rel" ] ]. arrancar_v4 := v_unacc_lcomp_dir_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancar_v_rel" ]. arranque_n1 := n_trans_le & [ STEM < "arranque" >, SYNSEM.LKEYS.KEYREL.PRED "_arranque_n_rel" ]. arras_n1 := n_intr_count_pl_le & [ STEM < "arras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arras_n_rel" ] ]. arrasamiento_n1 := n_trans_le & [ STEM < "arrasamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrasamiento_n_rel" ]. arrasamiento_n2 := n_result_intr_ppcomp_le & [ STEM < "arrasamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_arrasamiento_n_rel" ] ]. arrasar_v1 := v_trans_np_le & [ STEM < "arrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrasar_v_rel" ]. arrastrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrastrar_v_rel" ] ] ]. arrastrar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastrar_v_rel" ]. arrastrar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrastrar_v_rel" ] ] ]. arrastre_n1 := n_trans_le & [ STEM < "arrastre" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastre_n_rel" ]. arrastrero_a1 := a_rel_nonprd_intr_le & [ STEM < "arrastrero" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastrero_a_rel" ]. arrayanal_n1 := n_intr_count_le & [ STEM < "arrayanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arrayanal_n_rel" ] ]. arrayán_n1 := n_intr_count_le & [ STEM < "arrayán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arrayán_n_rel" ] ]. arrebatamiento_n1 := n_trans_le & [ STEM < "arrebatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebatamiento_n_rel" ]. arrebatar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrebatar_v_rel" ] ]. arrebatar_v2 := v_ditrans*_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebatar_v_rel" ]. arrebatar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrebatar_v_rel" ] ]. arrebatar_v4 := v_trans_np_mrkd_np_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrebatar_v_rel" ] ]. arrebato_n1 := n_trans_le & [ STEM < "arrebato" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebato_n_rel" ]. arreciar_v := v_intr_le & [ STEM < "arreciar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreciar_v_rel" ]. arrecife_n1 := n_intr_count_le & [ STEM < "arrecife" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrecife_n_rel" ] ]. arredrar_v1 := v_intr_io*_le & [ STEM < "arredrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arredrar_v_rel" ]. arredrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "arredrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arredrar_v_rel" ]. arreglador_n1 := n_subj-nom_le & [ STEM < "arreglador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arreglador_n_rel" ] ]. arreglar_v1 := v_ditrans*_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v4 := v_trans_cp_prop_fin_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arreglar_v_rel" ] ]. arreglista_n1 := n_intr_count_le & [ STEM < "arreglista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arreglista_n_rel" ] ]. arreglo_n1 := n_trans_le & [ STEM < "arreglo" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglo_n_rel" ]. arremeter_v1 := v_intr_mrkd_np*_le & [ STEM < "arremeter" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_arremeter_v_rel" ] ]. arremeter_v2 := v_trans_np_mrkd_np_le & [ STEM < "arremeter" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_or_contra_p_sel_rel, KEYREL.PRED "_arremeter_v_rel" ] ]. arremetida_n1 := n_result_intr_ppcomp_le & [ STEM < "arremetida" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_arremetida_n_rel" ] ]. arremolinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arremolinar_v_rel" ] ] ]. arremolinar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arremolinar_v_rel" ] ] ]. arremolinar_v3 := v_pron_unacc_perf_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arremolinar_v_rel" ]. arrendable_a1 := a_rel_nonprd_intr_le & [ STEM < "arrendable" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendable_a_rel" ]. arrendador_n1 := n_subj-nom_le & [ STEM < "arrendador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrendador_n_rel" ] ]. arrendajo_n1 := n_intr_count_le & [ STEM < "arrendajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arrendajo_n_rel" ] ]. arrendamiento_n1 := n_trans_le & [ STEM < "arrendamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendamiento_n_rel" ]. arrendar_v := v_ditrans*_le & [ STEM < "arrendar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendar_v_rel" ]. arrendatario_n1 := n_intr_count_le & [ STEM < "arrendatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrendatario_n_rel" ] ]. arrepentimiento_n1 := n_ppcomp_mass_le & [ STEM < "arrepentimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrepentimiento_n_rel" ] ]. arrepentir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "arrepentir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_arrepentir_v_rel" ] ] ]. arrepentir_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "arrepentir" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_arrepentir_v_rel" ] ] ]. arrestar_v1 := v_trans_np_le & [ STEM < "arrestar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrestar_v_rel" ]. arresto_n1 := n_trans_le & [ STEM < "arresto" >, SYNSEM.LKEYS.KEYREL.PRED "_arresto_n_rel" ]. arriar_v := v_trans_np_le & [ STEM < "arriar" >, SYNSEM.LKEYS.KEYREL.PRED "_arriar_v_rel" ]. arriate_n1 := n_intr_count_le & [ STEM < "arriate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arriate_n_rel" ] ]. arriba_de_p_vmod := p_vmod_le & [ STEM < "arriba_de" >, SYNSEM.LKEYS.KEYREL.PRED _arriba_de_p_rel ]. arriba_x1 := av_i_spr_le & [ STEM < "arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_arriba_x_rel" ]. arribada_n1 := n_event-result_intr_le & [ STEM < "arribada" >, SYNSEM.LKEYS.KEYREL.PRED "_arribada_n_rel" ]. arribar_v := v_unacc_lcomp_dir*_perf_le & [ STEM < "arribar" >, SYNSEM.LKEYS.KEYREL.PRED "_arribar_v_rel" ]. arribismo_n1 := n_intr_uncount_le & [ STEM < "arribismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arribismo_n_rel" ] ]. arribista_n1 := n_intr_count_le & [ STEM < "arribista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arribista_n_rel" ] ]. arriendo_n1 := n_trans_le & [ STEM < "arriendo" >, SYNSEM.LKEYS.KEYREL.PRED "_arriendo_n_rel" ]. arriesgadamente_x1 := av_i_spr_le & [ STEM < "arriesgadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arriesgadamente_x_rel" ]. arriesgar_v1 := v_trans_np_le & [ STEM < "arriesgar" >, SYNSEM.LKEYS.KEYREL.PRED "_arriesgar_v_rel" ]. arrimador_n1 := n_intr_count_le & [ STEM < "arrimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrimador_n_rel" ] ]. arrimar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrimar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrimar_v_rel" ] ] ]. arrimar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "arrimar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrimar_v_rel" ] ] ]. arrinconar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrinconar_v_rel" ] ] ]. arrinconar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrinconar_v_rel" ] ] ]. arrinconar_v3 := v_trans_np_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrinconar_v_rel" ]. arriostramiento_n1 := n_trans_le & [ STEM < "arriostramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arriostramiento_n_rel" ]. arritmia_n1 := n_intr_uncount_le & [ STEM < "arritmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arritmia_n_rel" ] ]. arriñonado_a1 := a_qual_intr_ser_le & [ STEM < "arriñonado" >, SYNSEM.LKEYS.KEYREL.PRED "_arriñonado_a_rel" ]. arroba_n1 := n_intr_count_le & [ STEM < "arroba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arroba_n_rel" ] ]. arrocero_n1 := n_intr_count_le & [ STEM < "arrocero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrocero_n_rel" ] ]. arrodillar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrodillar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrodillar_v_rel" ] ] ]. arrodillar_v2 := v_pron_intr_le & [ STEM < "arrodillar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrodillar_v_rel" ]. arrogación_n1 := n_trans_le & [ STEM < "arrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogación_n_rel" ]. arrogancia_n1 := n_intr_mass_le & [ STEM < "arrogancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrogancia_n_rel" ] ]. arrogante_a1 := a_qual_intr_ser_le & [ STEM < "arrogante" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogante_a_rel" ]. arrogar_v1 := v_pron_trans_np_le & [ STEM < "arrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogar_v_rel" ]. arrogar_v2 := v_trans_np_le & [ STEM < "arrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogar_v_rel" ]. arrojar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrojar_v_rel" ] ]. arrojar_v2 := v_ditrans*_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_arrojar_v_rel" ] ]. arrojar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrojar_v_rel" ]. arrojar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "arrojar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrojar_v_rel" ] ] ]. arrojo_n1 := n_trans_le & [ STEM < "arrojo" >, SYNSEM.LKEYS.KEYREL.PRED "_arrojo_n_rel" ]. arrolladamente_x1 := av_i_spr_le & [ STEM < "arrolladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrolladamente_x_rel" ]. arrollador_a1 := a_rel_nonprd_intr_le & [ STEM < "arrollador" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollador_a_rel" ]. arrolladormente_x1 := av_i_spr_le & [ STEM < "arrolladormente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrolladormente_x_rel" ]. arrollamiento_n1 := n_trans_le & [ STEM < "arrollamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollamiento_n_rel" ]. arrollar_v1 := v_trans_np*_le & [ STEM < "arrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollar_v_rel" ]. arrompido_n1 := n_intr_count_le & [ STEM < "arrompido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrompido_n_rel" ] ]. arropar_v1 := v_trans_np_caus_le & [ STEM < "arropar" >, SYNSEM.LKEYS.KEYREL.PRED "_arropar_v_rel" ]. arroyada_n1 := n_intr_count_le & [ STEM < "arroyada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arroyada_n_rel" ] ]. arroyamiento_n1 := n_trans_le & [ STEM < "arroyamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arroyamiento_n_rel" ]. arroyo_n1 := n_intr_count_le & [ STEM < "arroyo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arroyo_n_rel" ] ]. arroyuelo_n1 := n_intr_count_le & [ STEM < "arroyuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arroyuelo_n_rel" ] ]. arroz_n1 := n_intr_mass_le & [ STEM < "arroz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arroz_n_rel" ] ]. arrozal_n1 := n_intr_count_le & [ STEM < "arrozal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arrozal_n_rel" ] ]. arruga_n1 := n_intr_count_le & [ STEM < "arruga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arruga_n_rel" ] ]. arrugamiento_n1 := n_trans_le & [ STEM < "arrugamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrugamiento_n_rel" ]. arrugar_v1 := v_trans_np_caus_le & [ STEM < "arrugar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrugar_v_rel" ]. arruinar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "arruinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arruinar_v_rel" ]. arruinar_v2 := v_trans_np_caus_le & [ STEM < "arruinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arruinar_v_rel" ]. arrullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrullar_v_rel" ] ]. arrullar_v2 := v_ditrans*_le & [ STEM < "arrullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_arrullar_v_rel" ] ]. arrullo_n1 := n_result_intr_le & [ STEM < "arrullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrullo_n_rel" ] ]. arruruz_n1 := n_intr_count_le & [ STEM < "arruruz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arruruz_n_rel" ] ]. arrítmicamente_x1 := av_i_spr_le & [ STEM < "arrítmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrítmicamente_x_rel" ]. arrítmico_a1 := a_rel_prd_le & [ STEM < "arrítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_arrítmico_a_rel" ]. arsanilato_n1 := n_intr_count_le & [ STEM < "arsanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsanilato_n_rel" ] ]. arsenal_n1 := n_intr_count_le & [ STEM < "arsenal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_arsenal_n_rel" ] ]. arseniato_n1 := n_intr_mass-or-count_le & [ STEM < "arseniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_arseniato_n_rel" ] ]. arsenical_a1 := a_rel_nonprd_intr_le & [ STEM < "arsenical" >, SYNSEM.LKEYS.KEYREL.PRED "_arsenical_a_rel" ]. arsenito_n1 := n_intr_count_le & [ STEM < "arsenito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsenito_n_rel" ] ]. arseniuro_n1 := n_intr_mass_le & [ STEM < "arseniuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arseniuro_n_rel" ] ]. arsenopirita_n1 := n_intr_count_le & [ STEM < "arsenopirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsenopirita_n_rel" ] ]. arsfenamina_n1 := n_intr_count_le & [ STEM < "arsfenamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsfenamina_n_rel" ] ]. arsina_n1 := n_intr_mass_le & [ STEM < "arsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsina_n_rel" ] ]. arsénico_n1 := n_intr_mass_le & [ STEM < "arsénico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsénico_n_rel" ] ]. arte_n1 := n_intr_mass-or-count_le & [ STEM < "arte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arte_n_rel" ] ]. arte_n2 := n_intr_uncount_le & [ STEM < "arte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arte_n_rel" ] ]. artefacto_n1 := n_intr_count_le & [ STEM < "artefacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artefacto_n_rel" ] ]. arteria_n1 := n_intr_count_le & [ STEM < "arteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arteria_n_rel" ] ]. arterial_a1 := a_rel_nonprd_intr_le & [ STEM < "arterial" >, SYNSEM.LKEYS.KEYREL.PRED "_arterial_a_rel" ]. arteriola_n1 := n_intr_count_le & [ STEM < "arteriola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arteriola_n_rel" ] ]. arteriola_n2 := n_ppcomp_count_le & [ STEM < "arteriola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_arteriola_n_rel" ] ]. arteriosclerosis_n1 := n_intr_uncount_le & [ STEM < "arteriosclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arteriosclerosis_n_rel" ] ]. arterioso_a1 := a_rel_nonprd_intr_le & [ STEM < "arterioso" >, SYNSEM.LKEYS.KEYREL.PRED "_arterioso_a_rel" ]. arteriovenoso_a1 := a_rel_nonprd_intr_le & [ STEM < "arteriovenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_arteriovenoso_a_rel" ]. arteritis_n1 := n_intr_uncount_le & [ STEM < "arteritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arteritis_n_rel" ] ]. artesa_n1 := n_intr_count_le & [ STEM < "artesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesa_n_rel" ] ]. artesanado_n1 := n_intr_mass_le & [ STEM < "artesanado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_artesanado_n_rel" ] ]. artesanal_a1 := a_qual_intr_scopal_le & [ STEM < "artesanal" >, SYNSEM.LKEYS.KEYREL.PRED "_artesanal_a_rel" ]. artesanalmente_x1 := av_i_spr_le & [ STEM < "artesanalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_artesanalmente_x_rel" ]. artesano_a1 := a_rel_nonprd_intr_le & [ STEM < "artesano" >, SYNSEM.LKEYS.KEYREL.PRED "_artesano_a_rel" ]. artesano_n1 := n_intr_count_le & [ STEM < "artesano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artesano_n_rel" ] ]. artesanía_n1 := n_intr_mass_le & [ STEM < "artesanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesanía_n_rel" ] ]. artesiano_a1 := a_rel_prd_le & [ STEM < "artesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_artesiano_a_rel" ]. artesonado_n1 := n_intr_mass_le & [ STEM < "artesonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesonado_n_rel" ] ]. artesón_n1 := n_intr_count_le & [ STEM < "artesón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesón_n_rel" ] ]. articulación_n1 := n_trans_le & [ STEM < "articulación" >, SYNSEM.LKEYS.KEYREL.PRED "_articulación_n_rel" ]. articuladamente_x1 := av_i_spr_le & [ STEM < "articuladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_articuladamente_x_rel" ]. articulador_n1 := n_intr_count_le & [ STEM < "articulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_articulador_n_rel" ] ]. articular_a1 := a_rel_nonprd_intr_le & [ STEM < "articular" >, SYNSEM.LKEYS.KEYREL.PRED "_articular_a_rel" ]. articular_v1 := v_trans_np_caus_le & [ STEM < "articular" >, SYNSEM.LKEYS.KEYREL.PRED "_articular_v_rel" ]. articulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "articulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_articulatorio_a_rel" ]. articulista_n1 := n_intr_count_le & [ STEM < "articulista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_articulista_n_rel" ] ]. artificero_n1 := n_intr_count_le & [ STEM < "artificero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artificero_n_rel" ] ]. artificial_a1 := a_qual_intr_scopal_le & [ STEM < "artificial" >, SYNSEM.LKEYS.KEYREL.PRED "_artificial_a_rel" ]. artificialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "artificialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artificialidad_n_rel" ] ]. artificialmente_x1 := av_i_spr_le & [ STEM < "artificialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_artificialmente_x_rel" ]. artificiero_n1 := n_intr_count_le & [ STEM < "artificiero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artificiero_n_rel" ] ]. artificio_n1 := n_intr_mass-or-count_le & [ STEM < "artificio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artificio_n_rel" ] ]. artificiosamente_x1 := av_i_spr_le & [ STEM < "artificiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_artificiosamente_x_rel" ]. artificioso_a1 := a_rel_nonprd_intr_le & [ STEM < "artificioso" >, SYNSEM.LKEYS.KEYREL.PRED "_artificioso_a_rel" ]. artiga_n1 := n_trans_le & [ STEM < "artiga" >, SYNSEM.LKEYS.KEYREL.PRED "_artiga_n_rel" ]. artiga_n2 := n_intr_count_le & [ STEM < "artiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_artiga_n_rel" ] ]. artillero_n1 := n_intr_count_le & [ STEM < "artillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artillero_n_rel" ] ]. artillería_n1 := n_intr_mass_le & [ STEM < "artillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artillería_n_rel" ] ]. artilugio_n1 := n_intr_count_le & [ STEM < "artilugio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artilugio_n_rel" ] ]. artimaña_n1 := n_intr_count_le & [ STEM < "artimaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artimaña_n_rel" ] ]. artista_n1 := n_intr_count_le & [ STEM < "artista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artista_n_rel" ] ]. artoplastia_n1 := n_intr_count_le & [ STEM < "artoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artoplastia_n_rel" ] ]. artralgia_n1 := n_intr_uncount_le & [ STEM < "artralgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artralgia_n_rel" ] ]. artritis_n1 := n_intr_uncount_le & [ STEM < "artritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artritis_n_rel" ] ]. artrodia_n1 := n_intr_count_le & [ STEM < "artrodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrodia_n_rel" ] ]. artrografía_n1 := n_intr_count_le & [ STEM < "artrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrografía_n_rel" ] ]. artroplastia_n1 := n_intr_count_le & [ STEM < "artroplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artroplastia_n_rel" ] ]. artroscopia_n1 := n_intr_count_le & [ STEM < "artroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artroscopia_n_rel" ] ]. artrosis_n1 := n_intr_uncount_le & [ STEM < "artrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrosis_n_rel" ] ]. artrotomía_n1 := n_intr_count_le & [ STEM < "artrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrotomía_n_rel" ] ]. artrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "artrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_artrítico_a_rel" ]. artrópodo_n1 := n_intr_count_le & [ STEM < "artrópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_artrópodo_n_rel" ] ]. artículo_n1 := n_intr_count_le & [ STEM < "artículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_artículo_n_rel" ] ]. artífice_n1 := n_intr_count_le & [ STEM < "artífice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artífice_n_rel" ] ]. artísticamente_x1 := av_i_spr_le & [ STEM < "artísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_artísticamente_x_rel" ]. artístico_a1 := a_qual_intr_scopal_le & [ STEM < "artístico" >, SYNSEM.LKEYS.KEYREL.PRED "_artístico_a_rel" ]. artúrico_a1 := a_rel_prd_le & [ STEM < "artúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_artúrico_a_rel" ]. arvense_a1 := a_rel_nonprd_intr_le & [ STEM < "arvense" >, SYNSEM.LKEYS.KEYREL.PRED "_arvense_a_rel" ]. arxivístico_a1 := a_rel_nonprd_intr_le & [ STEM < "arxivístico" >, SYNSEM.LKEYS.KEYREL.PRED "_arxivístico_a_rel" ]. arzobispado_n1 := n_intr_count_le & [ STEM < "arzobispado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc_soc, PRED "_arzobispado_n_rel" ] ]. arzobispo_n1 := n_intr_count_le & [ STEM < "arzobispo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arzobispo_n_rel" ] ]. arzón_n1 := n_intr_count_le & [ STEM < "arzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arzón_n_rel" ] ]. arábigo_a1 := a_rel_prd_le & [ STEM < "arábigo" >, SYNSEM.LKEYS.KEYREL.PRED "_arábigo_a_rel" ]. arácnido_n1 := n_intr_count_le & [ STEM < "arácnido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arácnido_n_rel" ] ]. arándano_n1 := n_intr_count_le & [ STEM < "arándano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arándano_n_rel" ] ]. arénico_a1 := a_qual_intr_scopal_le & [ STEM < "arénico" >, SYNSEM.LKEYS.KEYREL.PRED "_arénico_a_rel" ]. aréola_n1 := n_intr_count_le & [ STEM < "aréola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aréola_n_rel" ] ]. aríbalo_n1 := n_intr_count_le & [ STEM < "aríbalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aríbalo_n_rel" ] ]. as_n1 := n_intr_count_le & [ STEM < "as" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_as_n_rel" ] ]. asa_n1 := n_intr_count_le & [ STEM < "asa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asa_n_rel" ] ]. asado_n1 := n_trans_le & [ STEM < "asado" >, SYNSEM.LKEYS.KEYREL.PRED "_asado_n_rel" ]. asador_n1 := n_intr_count_le & [ STEM < "asador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asador_n_rel" ] ]. asalariado_n1 := n_intr_count_le & [ STEM < "asalariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asalariado_n_rel" ] ]. asalariar_v1 := v_trans_np_le & [ STEM < "asalariar" >, SYNSEM.LKEYS.KEYREL.PRED "_asalariar_v_rel" ]. asalmerar_v1 := v_trans_np_le & [ STEM < "asalmerar" >, SYNSEM.LKEYS.KEYREL.PRED "_asalmerar_v_rel" ]. asaltante_n1 := n_intr_count_le & [ STEM < "asaltante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asaltante_n_rel" ] ]. asaltar_v1 := v_trans_np_le & [ STEM < "asaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_asaltar_v_rel" ]. asalto_n1 := n_trans_le & [ STEM < "asalto" >, SYNSEM.LKEYS.KEYREL.PRED "_asalto_n_rel" ]. asamblea_n1 := n_intr_count_le & [ STEM < "asamblea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_asamblea_n_rel" ] ]. asambleario_a1 := a_rel_nonprd_intr_le & [ STEM < "asambleario" >, SYNSEM.LKEYS.KEYREL.PRED "_asambleario_a_rel" ]. asambleísta_n1 := n_intr_count_le & [ STEM < "asambleísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asambleísta_n_rel" ] ]. asar_v1 := v_trans_np_caus_le & [ STEM < "asar" >, SYNSEM.LKEYS.KEYREL.PRED "_asar_v_rel" ]. asbesto_n1 := n_intr_mass_le & [ STEM < "asbesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asbesto_n_rel" ] ]. asbolana_n1 := n_intr_count_le & [ STEM < "asbolana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asbolana_n_rel" ] ]. ascaridol_n1 := n_intr_count_le & [ STEM < "ascaridol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ascaridol_n_rel" ] ]. ascendencia_n1 := n_intr_count_le & [ STEM < "ascendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascendencia_n_rel" ] ]. ascendente_a1 := a_rel_prd_le & [ STEM < "ascendente" >, SYNSEM.LKEYS.KEYREL.PRED "_ascendente_a_rel" ]. ascender_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ascender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ascender_v_rel" ] ] ]. ascender_v3 := v_trans_np_mrkd_np*_le & [ STEM < "ascender" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_ascender_v_rel" ] ]. ascender_v4 := v_unacc_lcomp_dir*_perf_le & [ STEM < "ascender" >, SYNSEM.LKEYS.KEYREL.PRED "_ascender_v_rel" ]. ascendiente_n1 := n_intr_count_le & [ STEM < "ascendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ascendiente_n_rel" ] ]. ascensional_a1 := a_rel_nonprd_intr_le & [ STEM < "ascensional" >, SYNSEM.LKEYS.KEYREL.PRED "_ascensional_a_rel" ]. ascensión_n1 := n_event-result_intr_le & [ STEM < "ascensión" >, SYNSEM.LKEYS.KEYREL.PRED "_ascensión_n_rel" ]. ascenso_n1 := n_event-result_intr_le & [ STEM < "ascenso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascenso_n_rel" ] ]. ascensor_n1 := n_intr_count_le & [ STEM < "ascensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ascensor_n_rel" ] ]. ascensorista_n1 := n_intr_count_le & [ STEM < "ascensorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ascensorista_n_rel" ] ]. asceta_n1 := n_intr_count_le & [ STEM < "asceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asceta_n_rel" ] ]. ascetismo_n1 := n_intr_uncount_le & [ STEM < "ascetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascetismo_n_rel" ] ]. ascitis_n1 := n_intr_uncount_le & [ STEM < "ascitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascitis_n_rel" ] ]. asco_n1 := n_intr_mass_le & [ STEM < "asco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asco_n_rel" ] ]. ascomiceto_n1 := n_intr_count_le & [ STEM < "ascomiceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ascomiceto_n_rel" ] ]. ascorbato_n1 := n_intr_count_le & [ STEM < "ascorbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ascorbato_n_rel" ] ]. ascua_n1 := n_intr_count_le & [ STEM < "ascua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ascua_n_rel" ] ]. ascética_n1 := n_intr_uncount_le & [ STEM < "ascética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascética_n_rel" ] ]. ascético_a1 := a_qual_intr_ser_le & [ STEM < "ascético" >, SYNSEM.LKEYS.KEYREL.PRED "_ascético_a_rel" ]. ascórbico_a1 := a_rel_nonprd_intr_le & [ STEM < "ascórbico" >, SYNSEM.LKEYS.KEYREL.PRED "_ascórbico_a_rel" ]. aseadamente_x1 := av_i_spr_le & [ STEM < "aseadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aseadamente_x_rel" ]. asear_v1 := v_trans_np_caus_le & [ STEM < "asear" >, SYNSEM.LKEYS.KEYREL.PRED "_asear_v_rel" ]. asechanza_n1 := n_trans_le & [ STEM < "asechanza" >, SYNSEM.LKEYS.KEYREL.PRED "_asechanza_n_rel" ]. asediador_n1 := n_subj-nom_le & [ STEM < "asediador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asediador_n_rel" ] ]. asediante_a1 := a_qual_intr_scopal_le & [ STEM < "asediante" >, SYNSEM.LKEYS.KEYREL.PRED "_asediante_a_rel" ]. asediante_n1 := n_intr_count_le & [ STEM < "asediante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asediante_n_rel" ] ]. asediar_v1 := v_trans_np_le & [ STEM < "asediar" >, SYNSEM.LKEYS.KEYREL.PRED "_asediar_v_rel" ]. asedio_n1 := n_trans_le & [ STEM < "asedio" >, SYNSEM.LKEYS.KEYREL.PRED "_asedio_n_rel" ]. asegurabilidad_n1 := n_intr_uncount_le & [ STEM < "asegurabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asegurabilidad_n_rel" ] ]. asegurable_a1 := a_rel_prd_le & [ STEM < "asegurable" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurable_a_rel" ]. asegurado_n1 := n_intr_count_le & [ STEM < "asegurado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asegurado_n_rel" ] ]. asegurador_a1 := a_rel_nonprd_intr_le & [ STEM < "asegurador" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurador_a_rel" ]. asegurador_n1 := n_subj-nom_le & [ STEM < "asegurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asegurador_n_rel" ] ]. aseguramiento_n1 := n_trans_le & [ STEM < "aseguramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aseguramiento_n_rel" ]. asegurar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asegurar_v_rel" ] ]. asegurar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurar_v_rel" ]. asegurar_v3 := v_ditrans*_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asegurar_v_rel" ] ]. asegurar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "asegurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asegurar_v_rel" ] ] ]. asegurar_v5 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "asegurar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asegurar_v_rel" ] ] ]. asegurar_v6 := v_trans_np_lcomp_loc_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurar_v_rel" ]. asemejar_v1 := v_trans_np_mrkd_np*_caus_le & [ SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_asemejar_v_rel" ] ]. asentador_n1 := n_intr_count_le & [ STEM < "asentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asentador_n_rel" ] ]. asentamiento_n1 := n_trans_le & [ STEM < "asentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asentamiento_n_rel" ]. asentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "asentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asentar_v_rel" ] ] ]. asentar_v2 := v_pron_unacc_lcomp_loc*_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL.PRED "_asentar_v_rel" ]. asentar_v3 := v_trans_cp_prop_fin_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_asentar_v_rel" ] ]. asentar_v4 := v_trans_np_caus_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_asentar_v_rel" ] ]. asentimiento_n1 := n_trans_le & [ STEM < "asentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asentimiento_n_rel" ]. asentir_v1 := v_intr_mrkd_np*_le & [ STEM < "asentir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_pro, PRED "_asentir_v_rel" ] ] ]. aseo_n1 := n_intr_mass-or-count_le & [ STEM < "aseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aseo_n_rel" ] ]. asequibilidad_n1 := n_intr_uncount_le & [ STEM < "asequibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asequibilidad_n_rel" ] ]. asequible_a1 := a_qual_intr_scopal_le & [ STEM < "asequible" >, SYNSEM.LKEYS.KEYREL.PRED "_asequible_a_rel" ]. aserción_n1 := n_trans_le & [ STEM < "aserción" >, SYNSEM.LKEYS.KEYREL.PRED "_aserción_n_rel" ]. aserradero_n1 := n_intr_count_le & [ STEM < "aserradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aserradero_n_rel" ] ]. aserradizo_a1 := a_rel_prd_le & [ STEM < "aserradizo" >, SYNSEM.LKEYS.KEYREL.PRED "_aserradizo_a_rel" ]. aserrado_n1 := n_trans_le & [ STEM < "aserrado" >, SYNSEM.LKEYS.KEYREL.PRED "_aserrado_n_rel" ]. aserradora_n1 := n_intr_count_le & [ STEM < "aserradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aserradora_n_rel" ] ]. aserradura_n1 := n_intr_count_le & [ STEM < "aserradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aserradura_n_rel" ] ]. asertar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "asertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asertar_v_rel" ] ]. asertar_v2 := v_trans_np_le & [ STEM < "asertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_asertar_v_rel" ] ]. asertivo_a1 := a_rel_prd_le & [ STEM < "asertivo" >, SYNSEM.LKEYS.KEYREL.PRED "_asertivo_a_rel" ]. aserto_n1 := n_intr_count_le & [ STEM < "aserto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aserto_n_rel" ] ]. asertórico_a1 := a_rel_nonprd_intr_le & [ STEM < "asertórico" >, SYNSEM.LKEYS.KEYREL.PRED "_asertórico_a_rel" ]. asesinar_v1 := v_trans_np_le & [ STEM < "asesinar" >, SYNSEM.LKEYS.KEYREL.PRED "_asesinar_v_rel" ]. asesinato_n1 := n_trans_le & [ STEM < "asesinato" >, SYNSEM.LKEYS.KEYREL.PRED "_asesinato_n_rel" ]. asesino_a1 := a_rel_nonprd_intr_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL.PRED "_asesino_a_rel" ]. asesino_a2 := a_qual_intr_ser_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL.PRED "_asesino_a_rel" ]. asesino_n1 := n_intr_count_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asesino_n_rel" ] ]. asesor_a1 := a_qual_intr_ser_le & [ STEM < "asesor" >, SYNSEM.LKEYS.KEYREL.PRED "_asesor_a_rel" ]. asesor_n1 := n_subj-nom_le & [ STEM < "asesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asesor_n_rel" ] ]. asesoramiento_n1 := n_trans_le & [ STEM < "asesoramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asesoramiento_n_rel" ]. asesorar_v1 := v_trans_np_le & [ STEM < "asesorar" >, SYNSEM.LKEYS.KEYREL.PRED "_asesorar_v_rel" ]. asesoría_n1 := n_intr_count_le & [ STEM < "asesoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asesoría_n_rel" ] ]. asestar_v1 := v_ditrans*_le & [ STEM < "asestar" >, SYNSEM.LKEYS.KEYREL.PRED "_asestar_v_rel" ]. asestar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "asestar" >, SYNSEM.LKEYS.KEYREL.PRED "_asestar_v_rel" ]. asestar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "asestar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_asestar_v_rel" ] ] ]. aseveración_n1 := n_trans_le & [ STEM < "aseveración" >, SYNSEM.LKEYS.KEYREL.PRED "_aseveración_n_rel" ]. aseverar_v1 := v_trans_np_le & [ STEM < "aseverar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, ARG2.SORT abs_cnc, PRED "_aseverar_v_rel" ] ]. aseverar_v2 := v_trans_cp_prop_fin_ind_le & [ STEM < "aseverar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_aseverar_v_rel" ] ]. aseverativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aseverativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aseverativo_a_rel" ]. asexuado_a1 := a_rel_prd_le & [ STEM < "asexuado" >, SYNSEM.LKEYS.KEYREL.PRED "_asexuado_a_rel" ]. asexual_a1 := a_rel_prd_le & [ STEM < "asexual" >, SYNSEM.LKEYS.KEYREL.PRED "_asexual_a_rel" ]. asfaltado_n1 := n_trans_le & [ STEM < "asfaltado" >, SYNSEM.LKEYS.KEYREL.PRED "_asfaltado_n_rel" ]. asfaltar_v1 := v_trans_np_le & [ STEM < "asfaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfaltar_v_rel" ]. asfalteno_n1 := n_intr_mass-or-count_le & [ STEM < "asfalteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_asfalteno_n_rel" ] ]. asfaltita_n1 := n_intr_count_le & [ STEM < "asfaltita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asfaltita_n_rel" ] ]. asfalto_n1 := n_intr_mass-or-count_le & [ STEM < "asfalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_asfalto_n_rel" ] ]. asfixia_n1 := n_intr_uncount_pl_le & [ STEM < "asfixia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asfixia_n_rel" ] ]. asfixiante_a1 := a_qual_intr_scopal_le & [ STEM < "asfixiante" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiante_a_rel" ]. asfixiantemente_x1 := av_i_spr_le & [ STEM < "asfixiantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiantemente_x_rel" ]. asfixiar_v1 := v_intr_io*_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfixiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfixiar_v3 := v_trans_np_caus_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfáltico_a1 := a_rel_nonprd_intr_le & [ STEM < "asfáltico" >, SYNSEM.LKEYS.KEYREL.PRED "_asfáltico_a_rel" ]. asféricamente_x1 := av_i_spr_le & [ STEM < "asféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asféricamente_x_rel" ]. asialia_n1 := n_intr_uncount_le & [ STEM < "asialia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asialia_n_rel" ] ]. asibilación_n1 := n_trans_le & [ STEM < "asibilación" >, SYNSEM.LKEYS.KEYREL.PRED "_asibilación_n_rel" ]. asible_a1 := a_rel_prd_le & [ STEM < "asible" >, SYNSEM.LKEYS.KEYREL.PRED "_asible_a_rel" ]. asidero_n1 := n_intr_count_le & [ STEM < "asidero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asidero_n_rel" ] ]. asiduamente_x1 := av_i_spr_le & [ STEM < "asiduamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduamente_x_rel" ]. asiduidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "asiduidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asiduidad_n_rel" ] ]. asiduo_a1 := a_adv_event_le & [ STEM < "asiduo" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduo_a_rel" ]. asiduo_a2 := a_qual_intr_scopal_le & [ STEM < "asiduo" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduo_a_rel" ]. asiento_n1 := n_intr_count_le & [ STEM < "asiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asiento_n_rel" ] ]. asignable_a1 := a_rel_nonprd_trans_le & [ STEM < "asignable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_asignable_a_rel" ] ]. asignación_n1 := n_trans_le & [ STEM < "asignación" >, SYNSEM.LKEYS.KEYREL.PRED "_asignación_n_rel" ]. asignador_n1 := n_subj-nom_le & [ STEM < "asignador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asignador_n_rel" ] ]. asignar_v1 := v_ditrans*_le & [ STEM < "asignar" >, SYNSEM.LKEYS.KEYREL.PRED "_asignar_v_rel" ]. asignar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "asignar" >, SYNSEM.LKEYS.KEYREL.PRED "_asignar_v_rel" ]. asignar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "asignar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_asignar_v_rel" ] ] ]. asignatario_n1 := n_intr_count_le & [ STEM < "asignatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asignatario_n_rel" ] ]. asignatura_n1 := n_intr_count_le & [ STEM < "asignatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asignatura_n_rel" ] ]. asilado_n1 := n_intr_count_le & [ STEM < "asilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asilado_n_rel" ] ]. asilo_n1 := n_intr_count_le & [ STEM < "asilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_asilo_n_rel" ] ]. asilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "asilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_asilábico_a_rel" ]. asimetría_n1 := n_intr_count_le & [ STEM < "asimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asimetría_n_rel" ] ]. asimilable_a1 := a_qual_trans*_ser_le & [ STEM < "asimilable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_asimilable_a_rel" ] ]. asimilación_n1 := n_trans_le & [ STEM < "asimilación" >, SYNSEM.LKEYS.KEYREL.PRED "_asimilación_n_rel" ]. asimilar_v1 := v_trans_cp_prop_fin_le & [ STEM < "asimilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asimilar_v_rel" ] ]. asimilar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "asimilar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_asimilar_v_rel" ] ]. asimismo_x1 := av_i_foc_prehd_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimismo_x2 := av_s_cp_prop_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimismo_x3 := av_i_np-foc_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimétricamente_x1 := av_i_spr_le & [ STEM < "asimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asimétricamente_x_rel" ]. asimétrico_a1 := a_qual_intr_ser_le & [ STEM < "asimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_asimétrico_a_rel" ]. asincronismo_n1 := n_intr_uncount_le & [ STEM < "asincronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asincronismo_n_rel" ] ]. asincrónicamente_x1 := av_i_spr_le & [ STEM < "asincrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asincrónicamente_x_rel" ]. asincrónico_a1 := a_rel_prd_le & [ STEM < "asincrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_asincrónico_a_rel" ]. asindético_a1 := a_rel_nonprd_intr_le & [ STEM < "asindético" >, SYNSEM.LKEYS.KEYREL.PRED "_asindético_a_rel" ]. asintóticamente_x1 := av_i_spr_le & [ STEM < "asintóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asintóticamente_x_rel" ]. asintótico_a1 := a_rel_nonprd_intr_le & [ STEM < "asintótico" >, SYNSEM.LKEYS.KEYREL.PRED "_asintótico_a_rel" ]. asirio_a1 := a_rel_prd_le & [ STEM < "asirio" >, SYNSEM.LKEYS.KEYREL.PRED "_asirio_a_rel" ]. asirio_n1 := n_intr_count_le & [ STEM < "asirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asirio_n_rel" ] ]. asistencia_n1 := n_intr_uncount_pl_le & [ STEM < "asistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asistencia_n_rel" ] ]. asistencia_n2 := n_intr_count_le & [ STEM < "asistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asistencia_n_rel" ] ]. asistencial_a1 := a_rel_nonprd_intr_le & [ STEM < "asistencial" >, SYNSEM.LKEYS.KEYREL.PRED "_asistencial_a_rel" ]. asistenta_n1 := n_ppcomp_count_le & [ STEM < "asistenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asistenta_n_rel" ] ]. asistente_n1 := n_ppcomp_count_le & [ STEM < "asistente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asistente_n_rel" ] ]. asistir_v1 := v_intr_mrkd_np*_le & [ STEM < "asistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT loc, PRED "_asistir_v_rel" ] ] ]. asistir_v2 := v_trans_np_le & [ STEM < "asistir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_asistir_v_rel" ] ]. asistir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "asistir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_asistir_v_rel" ] ] ]. asiático_a1 := a_rel_prd_le & [ STEM < "asiático" >, SYNSEM.LKEYS.KEYREL.PRED "_asiático_a_rel" ]. asiático_n1 := n_intr_count_le & [ STEM < "asiático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asiático_n_rel" ] ]. asma_n1 := n_intr_uncount_le & [ STEM < "asma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asma_n_rel" ] ]. asmático_a1 := a_qual_intr_ser_le & [ STEM < "asmático" >, SYNSEM.LKEYS.KEYREL.PRED "_asmático_a_rel" ]. asno_n1 := n_intr_count_le & [ STEM < "asno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_asno_n_rel" ] ]. asociable_a1 := a_rel_prd_le & [ STEM < "asociable" >, SYNSEM.LKEYS.KEYREL.PRED "_asociable_a_rel" ]. asociacionismo_n1 := n_intr_uncount_le & [ STEM < "asociacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asociacionismo_n_rel" ] ]. asociación_n1 := n_trans_le & [ STEM < "asociación" >, SYNSEM.LKEYS.KEYREL.PRED "_asociación_n_rel" ]. asociado_n1 := n_intr_count_le & [ STEM < "asociado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asociado_n_rel" ] ]. asocial_a1 := a_rel_prd_le & [ STEM < "asocial" >, SYNSEM.LKEYS.KEYREL.PRED "_asocial_a_rel" ]. asociar_v1 := v_trans_np_mrkd_np_sym_le & [ STEM < "asociar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_asociar_v_rel" ] ]. asociatividad_n1 := n_intr_uncount_le & [ STEM < "asociatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asociatividad_n_rel" ] ]. asociativo_a1 := a_rel_prd_le & [ STEM < "asociativo" >, SYNSEM.LKEYS.KEYREL.PRED "_asociativo_a_rel" ]. asolar_v1 := v_trans_np_le & [ STEM < "asolar" >, SYNSEM.LKEYS.KEYREL.PRED "_asolar_v_rel" ]. asomar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asomar_v_rel" ] ] ]. asomar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --COMPKEY a_or_por_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asomar_v_rel" ] ] ]. asomar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_por_p_sel_rel, KEYREL [ ARG2.SORT bpart_cnc, PRED "_asomar_v_rel" ] ] ]. asombrar_v1 := v_intr_io*_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_asombrar_v_rel" ] ]. asombrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "asombrar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asombrar_v_rel" ] ] ]. asombrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "asombrar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asombrar_v_rel" ] ] ]. asombrar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrar_v_rel" ]. asombrar_v5 := v_trans_np_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrar_v_rel" ]. asombro_n1 := n_trans_le & [ STEM < "asombro" >, SYNSEM.LKEYS.KEYREL.PRED "_asombro_n_rel" ]. asombrosamente_x1 := av_s_spr_le & [ STEM < "asombrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrosamente_x_rel" ]. asombroso_a1 := a_qual_intr_scopal_le & [ STEM < "asombroso" >, SYNSEM.LKEYS.KEYREL.PRED "_asombroso_a_rel" ]. asomo_n1 := n_trans_le & [ STEM < "asomo" >, SYNSEM.LKEYS.KEYREL.PRED "_asomo_n_rel" ]. asonada_n1 := n_intr_count_le & [ STEM < "asonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asonada_n_rel" ] ]. asonancia_n1 := n_result_intr_le & [ STEM < "asonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asonancia_n_rel" ] ]. asonante_a1 := a_rel_nonprd_intr_le & [ STEM < "asonante" >, SYNSEM.LKEYS.KEYREL.PRED "_asonante_a_rel" ]. asonantemente_x1 := av_i_spr_le & [ STEM < "asonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_asonantemente_x_rel" ]. aspa_n1 := n_intr_count_le & [ STEM < "aspa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspa_n_rel" ] ]. aspaviento_n1 := n_trans_le & [ STEM < "aspaviento" >, SYNSEM.LKEYS.KEYREL.PRED "_aspaviento_n_rel" ]. aspecto_n1 := n_intr_count_le & [ STEM < "aspecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspecto_n_rel" ] ]. aspectual_a1 := a_rel_nonprd_intr_le & [ STEM < "aspectual" >, SYNSEM.LKEYS.KEYREL.PRED "_aspectual_a_rel" ]. aspectualmente_x1 := av_i_spr_le & [ STEM < "aspectualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_aspectualmente_x_rel" ]. aspereza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aspereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspereza_n_rel" ] ]. aspergilosis_n1 := n_intr_uncount_le & [ STEM < "aspergilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspergilosis_n_rel" ] ]. aspersión_n1 := n_trans_le & [ STEM < "aspersión" >, SYNSEM.LKEYS.KEYREL.PRED "_aspersión_n_rel" ]. aspillera_n1 := n_intr_count_le & [ STEM < "aspillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aspillera_n_rel" ] ]. aspiración_n1 := n_trans_le & [ STEM < "aspiración" >, SYNSEM.LKEYS.KEYREL.PRED "_aspiración_n_rel" ]. aspirador_n1 := n_intr_count_le & [ STEM < "aspirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirador_n_rel" ] ]. aspiradora_n1 := n_intr_count_le & [ STEM < "aspiradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aspiradora_n_rel" ] ]. aspirante_a1 := a_qual_trans*_ser_le & [ STEM < "aspirante" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirante_a_rel" ] ]. aspirante_a2 := a_sctrl_ser_le & [ STEM < "aspirante" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirante_a_rel" ] ]. aspirante_n1 := n_intr_count_le & [ STEM < "aspirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aspirante_n_rel" ] ]. aspirar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aspirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirar_v_rel" ] ]. aspirar_v2 := v_intr_mrkd_np_le & [ STEM < "aspirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirar_v_rel" ] ]. aspirar_v3 := v_trans_np*_le & [ STEM < "aspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_aspirar_v_rel" ]. aspirina_n1 := n_intr_mass_le & [ STEM < "aspirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirina_n_rel" ] ]. aspirotermómetro_n1 := n_intr_count_le & [ STEM < "aspirotermómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirotermómetro_n_rel" ] ]. aspártico_a1 := a_rel_nonprd_intr_le & [ STEM < "aspártico" >, SYNSEM.LKEYS.KEYREL.PRED "_aspártico_a_rel" ]. asqueante_a1 := a_qual_intr_scopal_le & [ STEM < "asqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_asqueante_a_rel" ]. asquear_v1 := v_intr_io*_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL.PRED "_asquear_v_rel" ]. asquear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL.PRED "_asquear_v_rel" ]. asquear_v3 := v_trans_np_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_asquear_v_rel" ] ]. asquerosamente_x1 := av_i_spr_le & [ STEM < "asquerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asquerosamente_x_rel" ]. asquerosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "asquerosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asquerosidad_n_rel" ] ]. asqueroso_a1 := a_qual_intr_scopal_le & [ STEM < "asqueroso" >, SYNSEM.LKEYS.KEYREL.PRED "_asqueroso_a_rel" ]. asta_n1 := n_intr_count_le & [ STEM < "asta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asta_n_rel" ] ]. astado_a1 := a_rel_nonprd_intr_le & [ STEM < "astado" >, SYNSEM.LKEYS.KEYREL.PRED "_astado_a_rel" ]. astado_n1 := n_intr_count_le & [ STEM < "astado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_astado_n_rel" ] ]. astatino_n1 := n_intr_mass_le & [ STEM < "astatino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astatino_n_rel" ] ]. astato_n1 := n_intr_mass_le & [ STEM < "astato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astato_n_rel" ] ]. astenia_n1 := n_intr_uncount_le & [ STEM < "astenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenia_n_rel" ] ]. astenopía_n1 := n_intr_uncount_le & [ STEM < "astenopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenopía_n_rel" ] ]. astenosfera_n1 := n_intr_uncount_pl_le & [ STEM < "astenosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenosfera_n_rel" ] ]. aster_n1 := n_intr_mass_le & [ STEM < "aster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aster_n_rel" ] ]. asterisco_n1 := n_intr_count_le & [ STEM < "asterisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asterisco_n_rel" ] ]. asterismo_n1 := n_intr_count_le & [ STEM < "asterismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asterismo_n_rel" ] ]. asteroide_n1 := n_intr_count_le & [ STEM < "asteroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asteroide_n_rel" ] ]. astigmatismo_n1 := n_intr_uncount_le & [ STEM < "astigmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astigmatismo_n_rel" ] ]. astigmático_a1 := a_rel_nonprd_intr_le & [ STEM < "astigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_astigmático_a_rel" ]. astigmático_a2 := a_qual_intr_ser_le & [ STEM < "astigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_astigmático_a_rel" ]. astilla_n1 := n_intr_count_le & [ STEM < "astilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astilla_n_rel" ] ]. astilladora_n1 := n_intr_count_le & [ STEM < "astilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astilladora_n_rel" ] ]. astillamiento_n1 := n_trans_le & [ STEM < "astillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_astillamiento_n_rel" ]. astillar_v1 := v_trans_np_caus_le & [ STEM < "astillar" >, SYNSEM.LKEYS.KEYREL.PRED "_astillar_v_rel" ]. astillero_n1 := n_intr_count_le & [ STEM < "astillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_astillero_n_rel" ] ]. astilloso_a1 := a_qual_intr_scopal_le & [ STEM < "astilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_astilloso_a_rel" ]. astracán_n1 := n_intr_count_le & [ STEM < "astracán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astracán_n_rel" ] ]. astral_a1 := a_rel_nonprd_intr_le & [ STEM < "astral" >, SYNSEM.LKEYS.KEYREL.PRED "_astral_a_rel" ]. astralmente_x1 := av_i_spr_le & [ STEM < "astralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_astralmente_x_rel" ]. astringente_a1 := a_qual_intr_scopal_le & [ STEM < "astringente" >, SYNSEM.LKEYS.KEYREL.PRED "_astringente_a_rel" ]. astro_n1 := n_intr_count_le & [ STEM < "astro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astro_n_rel" ] ]. astrocito_n1 := n_intr_count_le & [ STEM < "astrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astrocito_n_rel" ] ]. astrofísica_n1 := n_intr_uncount_le & [ STEM < "astrofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrofísica_n_rel" ] ]. astrogeología_n1 := n_intr_uncount_le & [ STEM < "astrogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrogeología_n_rel" ] ]. astrografía_n1 := n_intr_uncount_le & [ STEM < "astrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrografía_n_rel" ] ]. astroide_n1 := n_intr_count_le & [ STEM < "astroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astroide_n_rel" ] ]. astrolabio_n1 := n_intr_count_le & [ STEM < "astrolabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrolabio_n_rel" ] ]. astrología_n1 := n_intr_uncount_le & [ STEM < "astrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrología_n_rel" ] ]. astrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "astrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_astrológico_a_rel" ]. astrometría_n1 := n_intr_uncount_le & [ STEM < "astrometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrometría_n_rel" ] ]. astronauta_n1 := n_intr_count_le & [ STEM < "astronauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astronauta_n_rel" ] ]. astronave_n1 := n_intr_count_le & [ STEM < "astronave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astronave_n_rel" ] ]. astronomía_n1 := n_intr_uncount_le & [ STEM < "astronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astronomía_n_rel" ] ]. astronáutica_n1 := n_intr_uncount_le & [ STEM < "astronáutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astronáutica_n_rel" ] ]. astronómicamente_x1 := av_i_spr_le & [ STEM < "astronómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astronómicamente_x_rel" ]. astronómico_a1 := a_rel_nonprd_intr_le & [ STEM < "astronómico" >, SYNSEM.LKEYS.KEYREL.PRED "_astronómico_a_rel" ]. astronónicamente_x1 := av_i_spr_le & [ STEM < "astronónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astronónicamente_x_rel" ]. astrágalo_n1 := n_intr_count_le & [ STEM < "astrágalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astrágalo_n_rel" ] ]. astrólogo_n1 := n_intr_count_le & [ STEM < "astrólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astrólogo_n_rel" ] ]. astrónomo_n1 := n_intr_count_le & [ STEM < "astrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astrónomo_n_rel" ] ]. astucia_n1 := n_intr_mass_le & [ STEM < "astucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astucia_n_rel" ] ]. asturiano_a1 := a_rel_prd_le & [ STEM < "asturiano" >, SYNSEM.LKEYS.KEYREL.PRED "_asturiano_a_rel" ]. asturiano_n1 := n_intr_count_le & [ STEM < "asturiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asturiano_n_rel" ] ]. astutamente_x1 := av_s_spr_le & [ STEM < "astutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astutamente_x_rel" ]. astutamente_x2 := av_i_psthd_spr_le & [ STEM < "astutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astutamente_x_rel" ]. astuto_a1 := a_qual_intr_ser_le & [ STEM < "astuto" >, SYNSEM.LKEYS.KEYREL.PRED "_astuto_a_rel" ]. astático_a1 := a_rel_nonprd_intr_le & [ STEM < "astático" >, SYNSEM.LKEYS.KEYREL.PRED "_astático_a_rel" ]. asténico_a1 := a_rel_nonprd_intr_le & [ STEM < "asténico" >, SYNSEM.LKEYS.KEYREL.PRED "_asténico_a_rel" ]. asueto_n1 := n_intr_count_le & [ STEM < "asueto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asueto_n_rel" ] ]. asumible_a1 := a_rel_prd_le & [ STEM < "asumible" >, SYNSEM.LKEYS.KEYREL.PRED "_asumible_a_rel" ]. asumir_v1 := v_trans_cp_prop_fin_le & [ STEM < "asumir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asumir_v_rel" ] ]. asumir_v2 := v_trans_np_le & [ STEM < "asumir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_asumir_v_rel" ] ]. asunción_n1 := n_trans_le & [ STEM < "asunción" >, SYNSEM.LKEYS.KEYREL.PRED "_asunción_n_rel" ]. asunto_n1 := n_intr_count_le & [ STEM < "asunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_asunto_n_rel" ] ]. asustadizamente_x1 := av_i_spr_le & [ STEM < "asustadizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asustadizamente_x_rel" ]. asustadizo_a1 := a_qual_intr_ser_le & [ STEM < "asustadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_asustadizo_a_rel" ]. asustar_v1 := v_intr_io*_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL.PRED "_asustar_v_rel" ]. asustar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "asustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asustar_v_rel" ] ] ]. asustar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "asustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asustar_v_rel" ] ] ]. asustar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL.PRED "_asustar_v_rel" ]. asustar_v5 := v_trans_np*_caus_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_asustar_v_rel" ] ]. asépticamente_x1 := av_i_spr_le & [ STEM < "asépticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asépticamente_x_rel" ]. aséptico_a1 := a_qual_intr_ser_le & [ STEM < "aséptico" >, SYNSEM.LKEYS.KEYREL.PRED "_aséptico_a_rel" ]. así-como_cc := cc_corr_así-como_le & [ STEM < "así_como" > ]. así_como_también_x1 := av_i_le & [ STEM < "así_como_también" >, SYNSEM.LKEYS.KEYREL.PRED "_así_como_también_x_rel" ]. así_como_tampoco_x1 := av_i_le & [ STEM < "así_como_tampoco" >, SYNSEM.LKEYS.KEYREL.PRED "_así_como_tampoco_x_rel" ]. así_n1 := av_deic_manner_le & [ STEM < "así" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_así_x_rel" ]. así_pues_x1 := av_i_le & [ STEM < "así_pues" >, SYNSEM.LKEYS.KEYREL.PRED "_así_pues_x_rel" ]. así_y_todo_x1 := av_i_le & [ STEM < "así_y_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_así_y_todo_x_rel" ]. asíncronamente_x1 := av_i_spr_le & [ STEM < "asíncronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asíncronamente_x_rel" ]. asíncrono_a1 := a_rel_nonprd_intr_le & [ STEM < "asíncrono" >, SYNSEM.LKEYS.KEYREL.PRED "_asíncrono_a_rel" ]. asíndeton_n1 := n_intr_count_le & [ STEM < "asíndeton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asíndeton_n_rel" ] ]. asíntota_n1 := n_intr_count_le & [ STEM < "asíntota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asíntota_n_rel" ] ]. atacable_a1 := a_rel_prd_le & [ STEM < "atacable" >, SYNSEM.LKEYS.KEYREL.PRED "_atacable_a_rel" ]. atacadera_n1 := n_intr_count_le & [ STEM < "atacadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atacadera_n_rel" ] ]. atacador_n1 := n_subj-nom_le & [ STEM < "atacador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atacador_n_rel" ] ]. atacamita_n1 := n_intr_count_le & [ STEM < "atacamita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atacamita_n_rel" ] ]. atacante_a1 := a_rel_nonprd_intr_le & [ STEM < "atacante" >, SYNSEM.LKEYS.KEYREL.PRED "_atacante_a_rel" ]. atacante_n1 := n_intr_count_le & [ STEM < "atacante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atacante_n_rel" ] ]. atacar_v1 := v_trans_np_le & [ STEM < "atacar" >, SYNSEM.LKEYS.KEYREL.PRED "_atacar_v_rel" ]. atado_n1 := n_intr_count_le & [ STEM < "atado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atado_n_rel" ] ]. atadora_n1 := n_intr_count_le & [ STEM < "atadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atadora_n_rel" ] ]. atadura_n1 := n_intr_count_le & [ STEM < "atadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_atadura_n_rel" ] ]. ataguía_n1 := n_intr_count_le & [ STEM < "ataguía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataguía_n_rel" ] ]. atajador_n1 := n_intr_count_le & [ STEM < "atajador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atajador_n_rel" ] ]. atajar_v := v_trans_np*_le & [ STEM < "atajar" >, SYNSEM.LKEYS.KEYREL.PRED "_atajar_v_rel" ]. atajo_n1 := n_intr_count_le & [ STEM < "atajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atajo_n_rel" ] ]. atalaya_n1 := n_intr_count_le & [ STEM < "atalaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atalaya_n_rel" ] ]. atanasia_n1 := n_intr_count_le & [ STEM < "atanasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atanasia_n_rel" ] ]. ataque_n1 := n_result_intr_ppcomp_le & [ STEM < "ataque" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_ataque_n_rel" ] ]. atar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "atar" >, SYNSEM.LKEYS.KEYREL.PRED "_atar_v_rel" ]. atar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "atar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_atar_v_rel" ] ] ]. atar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "atar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_atar_v_rel" ] ]. ataraxia_n1 := n_intr_uncount_le & [ STEM < "ataraxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataraxia_n_rel" ] ]. atardecer_n1 := n_intr_count_le & [ STEM < "atardecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_atardecer_n_rel" ] ]. atardecer_v := v_impers_strict_intr_le & [ STEM < "atardecer" >, SYNSEM.LKEYS.KEYREL.PRED "_atardecer_v_rel" ]. atascamiento_n1 := n_trans_le & [ STEM < "atascamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atascamiento_n_rel" ]. atascar_v := v_trans_np_caus_le & [ STEM < "atascar" >, SYNSEM.LKEYS.KEYREL.PRED "_atascar_v_rel" ]. atasco_n1 := n_trans_le & [ STEM < "atasco" >, SYNSEM.LKEYS.KEYREL.PRED "_atasco_n_rel" ]. ataviar_v1 := v_trans_np_caus_le & [ STEM < "ataviar" >, SYNSEM.LKEYS.KEYREL.PRED "_ataviar_v_rel" ]. atavismo_n1 := n_intr_uncount_le & [ STEM < "atavismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atavismo_n_rel" ] ]. atavío_n1 := n_trans_le & [ STEM < "atavío" >, SYNSEM.LKEYS.KEYREL.PRED "_atavío_n_rel" ]. ataxia_n1 := n_intr_uncount_le & [ STEM < "ataxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataxia_n_rel" ] ]. ataãâ±er_v1 := v_intr_io*_le & [ STEM < "atañer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_atañer_v_rel" ] ]. ataãâ±er_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "atañer" >, SYNSEM.LKEYS.KEYREL.PRED "_atañer_v_rel" ]. ataúd_n1 := n_intr_count_le & [ STEM < "ataúd" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ataúd_n_rel" ] ]. atemorizar_v1 := v_intr_io*_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_atemorizar_v_rel" ] ]. atemorizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atemorizar_v_rel" ]. atemorizar_v3 := v_trans_np_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_atemorizar_v_rel" ] ]. atemperador_n1 := n_intr_count_le & [ STEM < "atemperador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atemperador_n_rel" ] ]. atemperar_v := v_trans_np_le & [ STEM < "atemperar" >, SYNSEM.LKEYS.KEYREL.PRED "_atemperar_v_rel" ]. atenazar_v := v_trans_np_le & [ STEM < "atenazar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum, ARG2.SORT abs_hum, PRED "_atenazar_v_rel" ] ]. atención_n1 := n_trans_le & [ STEM < "atención" >, SYNSEM.LKEYS.KEYREL.PRED "_atención_n_rel" ]. atender_v1 := v_intr_io*_le & [ STEM < "atender" >, SYNSEM.LKEYS.KEYREL.PRED "_atender_v_rel" ]. atender_v2 := v_trans_np_le & [ STEM < "atender" >, SYNSEM.LKEYS.KEYREL.PRED "_atender_v_rel" ]. atendible_a1 := a_rel_prd_le & [ STEM < "atendible" >, SYNSEM.LKEYS.KEYREL.PRED "_atendible_a_rel" ]. ateneo_n1 := n_intr_mass-or-count_le & [ STEM < "ateneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ateneo_n_rel" ] ]. atener_v := v_pron_intr_mrkd_np_le & [ STEM < "atener" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atener_v_rel" ] ]. ateniense_a1 := a_rel_prd_le & [ STEM < "ateniense" >, SYNSEM.LKEYS.KEYREL.PRED "_ateniense_a_rel" ]. ateniense_n1 := n_intr_count_le & [ STEM < "ateniense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ateniense_n_rel" ] ]. atenolol_n1 := n_intr_count_le & [ STEM < "atenolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atenolol_n_rel" ] ]. atentado_n1 := n_result_intr_ppcomp_le & [ STEM < "atentado" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentado_n_rel" ] ]. atentamente_x1 := av_i_spr_le & [ STEM < "atentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atentamente_x_rel" ]. atentar_v1 := v_intr_mrkd_np_le & [ STEM < "atentar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentar_v_rel" ] ]. atentar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "atentar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentar_v_rel" ] ]. atento_a1 := a_qual_trans*_ser_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a2 := a_qual_trans*_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a3 := a_qual_cp_prop_fin_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a4 := a_qual_cp_ques_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atenuación_n1 := n_trans_le & [ STEM < "atenuación" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuación_n_rel" ]. atenuador_a1 := a_qual_intr_ser_le & [ STEM < "atenuador" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuador_a_rel" ]. atenuador_n1 := n_intr_count_le & [ STEM < "atenuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atenuador_n_rel" ] ]. atenuante_a1 := a_qual_intr_scopal_le & [ STEM < "atenuante" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuante_a_rel" ]. atenuante_n1 := n_intr_count_le & [ STEM < "atenuante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atenuante_n_rel" ] ]. atenuar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "atenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuar_v_rel" ]. atenuar_v2 := v_trans_np_caus_le & [ STEM < "atenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuar_v_rel" ]. ateo_n1 := n_intr_count_le & [ STEM < "ateo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ateo_n_rel" ] ]. aterciopelado_a1 := a_qual_intr_scopal_le & [ STEM < "aterciopelado" >, SYNSEM.LKEYS.KEYREL.PRED "_aterciopelado_a_rel" ]. ateridamente_x1 := av_i_spr_le & [ STEM < "ateridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ateridamente_x_rel" ]. aterotrombótico_a1 := a_rel_nonprd_intr_le & [ STEM < "aterotrombótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aterotrombótico_a_rel" ]. aterrador_a1 := a_qual_intr_scopal_le & [ STEM < "aterrador" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrador_a_rel" ]. aterradormente_x1 := av_i_spr_le & [ STEM < "aterradormente" >, SYNSEM.LKEYS.KEYREL.PRED "_aterradormente_x_rel" ]. aterramiento_n1 := n_trans_le & [ STEM < "aterramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aterramiento_n_rel" ]. aterrar_v1 := v_intr_io*_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrar_v_rel" ]. aterrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrar_v_rel" ]. aterrar_v3 := v_trans_np_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aterrar_v_rel" ] ]. aterrizaje_n1 := n_event-result_intr_le & [ STEM < "aterrizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrizaje_n_rel" ]. aterrizar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aterrizar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrizar_v_rel" ] ] ]. aterrizar_v2 := v_unacc_lcomp_loc*_perf_le & [ STEM < "aterrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrizar_v_rel" ]. aterrorizar_v1 := v_intr_io*_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrorizar_v_rel" ]. aterrorizar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrorizar_v_rel" ] ] ]. aterrorizar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrorizar_v_rel" ] ] ]. aterrorizar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrorizar_v_rel" ]. atesoramiento_n1 := n_intr_uncount_le & [ STEM < "atesoramiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atesoramiento_n_rel" ] ]. atesorar_v := v_trans_np_le & [ STEM < "atesorar" >, SYNSEM.LKEYS.KEYREL.PRED "_atesorar_v_rel" ]. atestación_n1 := n_intr_count_le & [ STEM < "atestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atestación_n_rel" ] ]. atestado_n1 := n_intr_count_le & [ STEM < "atestado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_atestado_n_rel" ] ]. atestar_v1 := v_intr_le & [ STEM < "atestar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestar_v_rel" ]. atestar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "atestar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_atestar_v_rel" ] ]. atestiguación_n1 := n_trans_le & [ STEM < "atestiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguación_n_rel" ]. atestiguar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguar_v_rel" ]. atestiguar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguar_v_rel" ]. atestiguar_v3 := v_trans_cp_prop_fin_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_atestiguar_v_rel" ] ]. atestiguar_v4 := v_trans_np*_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_atestiguar_v_rel" ] ]. atetosis_n1 := n_intr_uncount_le & [ STEM < "atetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atetosis_n_rel" ] ]. ateísmo_n1 := n_intr_uncount_le & [ STEM < "ateísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ateísmo_n_rel" ] ]. ateísta_a1 := a_qual_intr_ser_le & [ STEM < "ateísta" >, SYNSEM.LKEYS.KEYREL.PRED "_ateísta_a_rel" ]. atiborrar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "atiborrar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_atiborrar_v_rel" ] ]. aticitis_n1 := n_intr_uncount_le & [ STEM < "aticitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticitis_n_rel" ] ]. aticoantrotomía_n1 := n_intr_count_le & [ STEM < "aticoantrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticoantrotomía_n_rel" ] ]. aticotomía_n1 := n_intr_count_le & [ STEM < "aticotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticotomía_n_rel" ] ]. atigrado_a1 := a_qual_intr_ser_le & [ STEM < "atigrado" >, SYNSEM.LKEYS.KEYREL.PRED "_atigrado_a_rel" ]. atinar_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "atinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atinar_v_rel" ] ]. atinar_v2 := v_intr_mrkd_np_le & [ STEM < "atinar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_atinar_v_rel" ] ]. atinar_v3 := v_trans_np*_le & [ STEM < "atinar" >, SYNSEM.LKEYS.KEYREL.PRED "_atinar_v_rel" ]. atipicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "atipicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atipicidad_n_rel" ] ]. atirantar_v := v_trans_np_le & [ STEM < "atirantar" >, SYNSEM.LKEYS.KEYREL.PRED "_atirantar_v_rel" ]. atisbar_v := v_trans_np_le & [ STEM < "atisbar" >, SYNSEM.LKEYS.KEYREL.PRED "_atisbar_v_rel" ]. atisbo_n1 := n_trans_le & [ STEM < "atisbo" >, SYNSEM.LKEYS.KEYREL.PRED "_atisbo_n_rel" ]. atizador_n1 := n_intr_count_le & [ STEM < "atizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atizador_n_rel" ] ]. atizar_v := v_trans_np_le & [ STEM < "atizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atizar_v_rel" ]. atlantoaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "atlantoaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_atlantoaxial_a_rel" ]. atlantooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "atlantooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_atlantooccipital_a_rel" ]. atlas_n1 := n_intr_count_le & [ STEM < "atlas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atlas_n_rel" ] ]. atleta_n1 := n_intr_count_le & [ STEM < "atleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atleta_n_rel" ] ]. atletismo_n1 := n_intr_uncount_le & [ STEM < "atletismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atletismo_n_rel" ] ]. atlántico_a1 := a_rel_nonprd_intr_le & [ STEM < "atlántico" >, SYNSEM.LKEYS.KEYREL.PRED "_atlántico_a_rel" ]. atléticamente_x1 := av_i_spr_le & [ STEM < "atléticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atléticamente_x_rel" ]. atlético_a1 := a_qual_intr_ser_le & [ STEM < "atlético" >, SYNSEM.LKEYS.KEYREL.PRED "_atlético_a_rel" ]. atmosférico_a1 := a_rel_nonprd_intr_le & [ STEM < "atmosférico" >, SYNSEM.LKEYS.KEYREL.PRED "_atmosférico_a_rel" ]. atmólisis_n1 := n_intr_uncount_le & [ STEM < "atmólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atmólisis_n_rel" ] ]. atmósfera_n := n_intr_count_le & [ STEM < "atmósfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_unit, PRED "_atmósfera_n_rel" ] ]. atolladero_n1 := n_intr_count_le & [ STEM < "atolladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_atolladero_n_rel" ] ]. atolondradamente_x1 := av_i_spr_le & [ STEM < "atolondradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondradamente_x_rel" ]. atolondrar_v1 := v_intr_io*_le & [ STEM < "atolondrar" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondrar_v_rel" ]. atolondrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atolondrar" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondrar_v_rel" ]. atolón_n1 := n_intr_count_le & [ STEM < "atolón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_atolón_n_rel" ] ]. atomicidad_n1 := n_intr_uncount_le & [ STEM < "atomicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atomicidad_n_rel" ] ]. atomismo_n1 := n_intr_uncount_le & [ STEM < "atomismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atomismo_n_rel" ] ]. atomista_n1 := n_intr_count_le & [ STEM < "atomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atomista_n_rel" ] ]. atomización_n1 := n_trans_le & [ STEM < "atomización" >, SYNSEM.LKEYS.KEYREL.PRED "_atomización_n_rel" ]. atomizador_n1 := n_intr_count_le & [ STEM < "atomizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atomizador_n_rel" ] ]. atomizar_v := v_trans_np_caus_le & [ STEM < "atomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atomizar_v_rel" ]. atomístico_a1 := a_rel_nonprd_intr_le & [ STEM < "atomístico" >, SYNSEM.LKEYS.KEYREL.PRED "_atomístico_a_rel" ]. atonal_a1 := a_rel_nonprd_intr_le & [ STEM < "atonal" >, SYNSEM.LKEYS.KEYREL.PRED "_atonal_a_rel" ]. atonalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "atonalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonalidad_n_rel" ] ]. atonalmente_x1 := av_i_spr_le & [ STEM < "atonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_atonalmente_x_rel" ]. atonicidad_n1 := n_intr_uncount_le & [ STEM < "atonicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonicidad_n_rel" ] ]. atontamiento_n1 := n_trans_le & [ STEM < "atontamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atontamiento_n_rel" ]. atontar_v1 := v_intr_io*_le & [ STEM < "atontar" >, SYNSEM.LKEYS.KEYREL.PRED "_atontar_v_rel" ]. atontar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atontar" >, SYNSEM.LKEYS.KEYREL.PRED "_atontar_v_rel" ]. atonía_n1 := n_intr_uncount_pl_le & [ STEM < "atonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonía_n_rel" ] ]. atopia_n1 := n_intr_uncount_le & [ STEM < "atopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atopia_n_rel" ] ]. atormentador_a1 := a_qual_intr_scopal_le & [ STEM < "atormentador" >, SYNSEM.LKEYS.KEYREL.PRED "_atormentador_a_rel" ]. atormentar_v1 := v_intr_io*_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_atormentar_v_rel" ] ]. atormentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL.PRED "_atormentar_v_rel" ]. atormetar_v3 := v_trans_np_caus_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_atormentar_v_rel" ] ]. atornillador_n1 := n_intr_count_le & [ STEM < "atornillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atornillador_n_rel" ] ]. atornillamiento_n1 := n_trans_le & [ STEM < "atornillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atornillamiento_n_rel" ]. atornillar_v := v_trans_np_le & [ STEM < "atornillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_atornillar_v_rel" ] ]. atracada_n1 := n_event-result_intr_le & [ STEM < "atracada" >, SYNSEM.LKEYS.KEYREL.PRED "_atracada_n_rel" ]. atracada_n2 := n_trans_le & [ STEM < "atracada" >, SYNSEM.LKEYS.KEYREL.PRED "_atracada_n_rel" ]. atracadero_n1 := n_intr_count_le & [ STEM < "atracadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atracadero_n_rel" ] ]. atracador_n1 := n_subj-nom_le & [ STEM < "atracador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atracador_n_rel" ] ]. atracar_v1 := v_pron_trans_np_le & [ STEM < "atracar" >, SYNSEM.LKEYS [ KEYREL [ ARG2.SORT cnc_hum_loc_pot_soc, PRED "_atracar_v_rel" ] ] ]. atracar_v2 := v_intr_mrkd_np*_le & [ STEM < "atracar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT cnc_pot, PRED "_atracar_v_rel" ] ] ]. atracción_n1 := n_ppde_ppcomp_mass_le & [ STEM < "atracción" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_atracción_n_rel" ] ] ]. atracción_n2 := n_intr_count_le & [ STEM < "atracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_atracción_n_rel" ] ]. atraco_n1 := n_trans_le & [ STEM < "atraco" >, SYNSEM.LKEYS.KEYREL.PRED "_atraco_n_rel" ]. atractividad_n1 := n_intr_mass_le & [ STEM < "atractividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atractividad_n_rel" ] ]. atractivo_a1 := a_qual_intr_scopal_le & [ STEM < "atractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_atractivo_a_rel" ]. atractivo_n1 := n_intr_mass_le & [ STEM < "atractivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atractivo_n_rel" ] ]. atraer_v1 := v_ditrans*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v2 := v_intr_io*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "atraer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_atraer_v_rel" ] ] ]. atraer_v5 := v_trans_np_mrkd_np_le & [ STEM < "atraer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_atraer_v_rel" ] ] ]. atragantar_v := v_trans_np_caus_le & [ STEM < "atragantar" >, SYNSEM.LKEYS.KEYREL.PRED "_atragantar_v_rel" ]. atrancar_v := v_trans_np_caus_le & [ STEM < "atrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrancar_v_rel" ]. atrapainsectos_n1 := n_intr_count_le & [ STEM < "atrapainsectos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atrapainsectos_n_rel" ] ]. atrapar_v := v_trans_np_le & [ STEM < "atrapar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrapar_v_rel" ]. atraque_n1 := n_intr_count_le & [ STEM < "atraque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atraque_n_rel" ] ]. atrasar_v1 := v_pron_unacc_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_atrasar_v_rel" ] ]. atrasar_v2 := v_trans_np_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrasar_v_rel" ]. atrasar_v3 := v_unacc_lcomp_dir*_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrasar_v_rel" ]. atraso_n1 := n_trans_le & [ STEM < "atraso" >, SYNSEM.LKEYS.KEYREL.PRED "_atraso_n_rel" ]. atravesar_v := v_trans_np_le & [ STEM < "atravesar" >, SYNSEM.LKEYS.KEYREL.PRED "_atravesar_v_rel" ]. atrayente_a1 := a_qual_intr_scopal_le & [ STEM < "atrayente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrayente_a_rel" ]. atresia_n1 := n_intr_uncount_le & [ STEM < "atresia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atresia_n_rel" ] ]. atrever_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "atrever" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atrever_v_rel" ] ]. atrever_v2 := v_pron_intr_mrkd_np_le & [ STEM < "atrever" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_atrever_v_rel" ] ]. atrevidamente_x1 := av_i_spr_le & [ STEM < "atrevidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrevidamente_x_rel" ]. atrevido_n1 := n_intr_count_le & [ STEM < "atrevido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atrevido_n_rel" ] ]. atrevimiento_n1 := n_result_intr_ppcomp_le & [ STEM < "atrevimiento" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_atrevimiento_n_rel" ] ]. atrezzista_n1 := n_intr_count_le & [ STEM < "atrezzista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atrezzista_n_rel" ] ]. atribución_n1 := n_trans_le & [ STEM < "atribución" >, SYNSEM.LKEYS.KEYREL.PRED "_atribución_n_rel" ]. atribuible_a1 := a_qual_trans*_ser_le & [ STEM < "atribuible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atribuible_a_rel" ] ]. atribuir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "atribuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_atribuir_v_rel" ] ]. atribuir_v2 := v_ditrans*_le & [ STEM < "atribuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_atribuir_v_rel" ] ]. atribuir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_atribuir_v_rel" ] ] ]. atribuir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_atribuir_v_rel" ] ] ]. atribuir_v5 := v_trans_np_mrkd_np_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_atribuir_v_rel" ] ] ]. atribular_v1 := v_intr_io*_le & [ STEM < "atribular" >, SYNSEM.LKEYS.KEYREL.PRED "_atribular_v_rel" ]. atribular_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atribular" >, SYNSEM.LKEYS.KEYREL.PRED "_atribular_v_rel" ]. atributivo_a1 := a_rel_nonprd_intr_le & [ STEM < "atributivo" >, SYNSEM.LKEYS.KEYREL.PRED "_atributivo_a_rel" ]. atributo_n1 := n_intr_count_le & [ STEM < "atributo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atributo_n_rel" ] ]. atrición_n1 := n_intr_uncount_le & [ STEM < "atrición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrición_n_rel" ] ]. atril_n1 := n_intr_count_le & [ STEM < "atril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atril_n_rel" ] ]. atrincherar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_atrincherar_v_rel" ] ] ]. atrincherar_v2 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrincherar_v_rel" ]. atrincherar_v3 := v_trans_np_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_atrincherar_v_rel" ] ]. atrio_n1 := n_intr_count_le & [ STEM < "atrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atrio_n_rel" ] ]. atrioventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "atrioventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_atrioventricular_a_rel" ]. atrocidad_n1 := n_intr_count_le & [ STEM < "atrocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrocidad_n_rel" ] ]. atrofia_n1 := n_intr_count_le & [ STEM < "atrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrofia_n_rel" ] ]. atrofiar_v := v_trans_np_caus_le & [ STEM < "atrofiar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrofiar_v_rel" ]. atronador_a1 := a_rel_nonprd_intr_le & [ STEM < "atronador" >, SYNSEM.LKEYS.KEYREL.PRED "_atronador_a_rel" ]. atropellar_v := v_trans_np_le & [ STEM < "atropellar" >, SYNSEM.LKEYS.KEYREL.PRED "_atropellar_v_rel" ]. atropello_n1 := n_trans_le & [ STEM < "atropello" >, SYNSEM.LKEYS.KEYREL.PRED "_atropello_n_rel" ]. atropina_n1 := n_intr_count_le & [ STEM < "atropina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atropina_n_rel" ] ]. atroz_a1 := a_qual_intr_scopal_le & [ STEM < "atroz" >, SYNSEM.LKEYS.KEYREL.PRED "_atroz_a_rel" ]. atrozmente_x1 := av_i_spr_le & [ STEM < "atrozmente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrozmente_x_rel" ]. atruchado_a1 := a_rel_nonprd_intr_le & [ STEM < "atruchado" >, SYNSEM.LKEYS.KEYREL.PRED "_atruchado_a_rel" ]. atrás_x1 := av_i_spr_le & [ STEM < "atrás" >, SYNSEM.LKEYS.KEYREL.PRED "_atrás_x_rel" ]. atrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "atrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_atrófico_a_rel" ]. atuendo_n1 := n_intr_uncount_pl_le & [ STEM < "atuendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atuendo_n_rel" ] ]. aturdimiento_n1 := n_ppcomp_mass_le & [ STEM < "aturdimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aturdimiento_n_rel" ] ]. aturdir_v1 := v_intr_io*_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL.PRED "_aturdir_v_rel" ]. aturdir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL.PRED "_aturdir_v_rel" ]. aturdir_v3 := v_trans_np_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aturdir_v_rel" ] ]. aturullar_v1 := v_intr_io*_le & [ STEM < "aturullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aturullar_v_rel" ]. aturullar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aturullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aturullar_v_rel" ]. atávicamente_x1 := av_i_spr_le & [ STEM < "atávicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atávicamente_x_rel" ]. atávico_a1 := a_rel_nonprd_intr_le & [ STEM < "atávico" >, SYNSEM.LKEYS.KEYREL.PRED "_atávico_a_rel" ]. atérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "atérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_atérmico_a_rel" ]. atíncar_n1 := n_intr_mass_le & [ STEM < "atíncar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atíncar_n_rel" ] ]. atípicamente_x1 := av_i_spr_le & [ STEM < "atípicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atípicamente_x_rel" ]. atípico_a1 := a_qual_intr_scopal_le & [ STEM < "atípico" >, SYNSEM.LKEYS.KEYREL.PRED "_atípico_a_rel" ]. atómicamente_x1 := av_i_spr_le & [ STEM < "atómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atómicamente_x_rel" ]. atómico_a1 := a_rel_nonprd_intr_le & [ STEM < "atómico" >, SYNSEM.LKEYS.KEYREL.PRED "_atómico_a_rel" ]. atónito_a1 := a_qual_intr_estar_le & [ STEM < "atónito" >, SYNSEM.LKEYS.KEYREL.PRED "_atónito_a_rel" ]. atún_n1 := n_intr_count_le & [ STEM < "atún" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_atún_n_rel" ] ]. audacia_n1 := n_intr_mass_le & [ STEM < "audacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audacia_n_rel" ] ]. audaz_a1 := a_qual_intr_ser_le & [ STEM < "audaz" >, SYNSEM.LKEYS.KEYREL.PRED "_audaz_a_rel" ]. audazmente_x1 := av_i_spr_le & [ STEM < "audazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_audazmente_x_rel" ]. audencia_n1 := n_intr_mass_le & [ STEM < "audiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_audiencia_n_rel" ] ]. audibilidad_n1 := n_ppcomp_mass_le & [ STEM < "audibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audibilidad_n_rel" ] ]. audible_a1 := a_rel_prd_le & [ STEM < "audible" >, SYNSEM.LKEYS.KEYREL.PRED "_audible_a_rel" ]. audiblemente_x1 := av_i_spr_le & [ STEM < "audiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_audiblemente_x_rel" ]. audición_n1 := n_trans_le & [ STEM < "audición" >, SYNSEM.LKEYS.KEYREL.PRED "_audición_n_rel" ]. audición_n2 := n_intr_count_le & [ STEM < "audición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audición_n_rel" ] ]. audio-visual_a1 := a_rel_nonprd_intr_le & [ STEM < "audio-visual" >, SYNSEM.LKEYS.KEYREL.PRED "_audio-visual_a_rel" ]. audio_n1 := n_intr_count_le & [ STEM < "audio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_audio_n_rel" ] ]. audioanalgesia_n1 := n_intr_uncount_le & [ STEM < "audioanalgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audioanalgesia_n_rel" ] ]. audioconferencia_n1 := n_intr_count_le & [ STEM < "audioconferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audioconferencia_n_rel" ] ]. audiograma_n1 := n_intr_count_le & [ STEM < "audiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_audiograma_n_rel" ] ]. audiogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "audiogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_audiogénico_a_rel" ]. audiología_n1 := n_intr_uncount_pl_le & [ STEM < "audiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiología_n_rel" ] ]. audiomensajería_n1 := n_intr_uncount_le & [ STEM < "audiomensajería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiomensajería_n_rel" ] ]. audiometría_n1 := n_intr_count_le & [ STEM < "audiometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiometría_n_rel" ] ]. audioprotesista_n1 := n_intr_count_le & [ STEM < "audioprotesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_audioprotesista_n_rel" ] ]. audioprótesis_n1 := n_intr_count_le & [ STEM < "audioprótesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audioprótesis_n_rel" ] ]. audiovisual_a1 := a_rel_nonprd_intr_le & [ STEM < "audiovisual" >, SYNSEM.LKEYS.KEYREL.PRED "_audiovisual_a_rel" ]. audiovisualmente_x1 := av_i_spr_le & [ STEM < "audiovisualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_audiovisualmente_x_rel" ]. auditar_v := v_trans_np_le & [ STEM < "auditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_hum_soc, PRED "_auditar_v_rel" ] ]. auditivo_a1 := a_rel_nonprd_intr_le & [ STEM < "auditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_auditivo_a_rel" ]. auditor_n1 := n_subj-nom_le & [ STEM < "auditor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auditor_n_rel" ] ]. auditorio_a1 := a_rel_nonprd_intr_le & [ STEM < "auditorio" >, SYNSEM.LKEYS.KEYREL.PRED "_auditorio_a_rel" ]. auditorio_n1 := n_intr_count_le & [ STEM < "auditorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_auditorio_n_rel" ] ]. auditoría_n1 := n_intr_count_le & [ STEM < "auditoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auditoría_n_rel" ] ]. audiófono_n1 := n_intr_count_le & [ STEM < "audiófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audiófono_n_rel" ] ]. audiómetro_n1 := n_intr_count_le & [ STEM < "audiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audiómetro_n_rel" ] ]. audífono_n1 := n_intr_count_le & [ STEM < "audífono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audífono_n_rel" ] ]. audímetro_n1 := n_intr_count_le & [ STEM < "audímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audímetro_n_rel" ] ]. auge_n1 := n_intr_mass_le & [ STEM < "auge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auge_n_rel" ] ]. augelita_n1 := n_intr_mass_le & [ STEM < "augelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_augelita_n_rel" ] ]. augita_n1 := n_intr_count_le & [ STEM < "augita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_augita_n_rel" ] ]. augur_n1 := n_intr_count_le & [ STEM < "augur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_augur_n_rel" ] ]. augurar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "augurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_augurar_v_rel" ] ]. augurar_v2 := v_ditrans*_le & [ STEM < "augurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_augurar_v_rel" ] ]. augurio_n1 := n_intr_count_le & [ STEM < "augurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_augurio_n_rel" ] ]. aula_n1 := n_intr_count_le & [ STEM < "aula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aula_n_rel" ] ]. aullador_a1 := a_rel_nonprd_intr_le & [ STEM < "aullador" >, SYNSEM.LKEYS.KEYREL.PRED "_aullador_a_rel" ]. aullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aullar_v_rel" ] ]. aullar_v2 := v_ditrans*_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aullar_v_rel" ] ]. aullar_v3 := v_intr_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aullar_v_rel" ]. aullido_n1 := n_result_intr_le & [ STEM < "aullido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aullido_n_rel" ] ]. aumentar_v1 := v_ditrans_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentar_v3 := v_trans_np_caus_int_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aumentativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentativo_a_rel" ]. aumento_n1 := n_trans_le & [ STEM < "aumento" >, SYNSEM.LKEYS.KEYREL.PRED "_aumento_n_rel" ]. aun_sc := sc_prop_fin_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_subord_rel" ]. aun_x1 := av_i_foc_prehd_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aun_x2 := av_s_cp_prop_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aun_x3 := av_i_np-foc_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aunar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aunar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aunar_v_rel" ] ] ]. aunar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aunar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aunar_v_rel" ] ] ]. aunar_v3 := v_trans_np_le & [ STEM < "aunar" >, SYNSEM.LKEYS.KEYREL.PRED "_aunar_v_rel" ]. aunque_cc := cc_advers_aunque_le & [ STEM < "aunque" > ]. aupar_v := v_trans_np_le & [ STEM < "aupar" >, SYNSEM.LKEYS.KEYREL.PRED "_aupar_v_rel" ]. aura_n1 := n_intr_count_le & [ STEM < "aura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aura_n_rel" ] ]. aural_a1 := a_rel_nonprd_intr_le & [ STEM < "aural" >, SYNSEM.LKEYS.KEYREL.PRED "_aural_a_rel" ]. auramina_n1 := n_intr_mass_le & [ STEM < "auramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_auramina_n_rel" ] ]. aureola_n1 := n_intr_count_le & [ STEM < "aureola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_aureola_n_rel" ] ]. auricular_a1 := a_rel_nonprd_intr_le & [ STEM < "auricular" >, SYNSEM.LKEYS.KEYREL.PRED "_auricular_a_rel" ]. auricular_n1 := n_intr_count_le & [ STEM < "auricular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auricular_n_rel" ] ]. auriculocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculocervical_a_rel" ]. auriculotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculotemporal_a_rel" ]. auriculoventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculoventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculoventricular_a_rel" ]. auriforme_a1 := a_qual_intr_ser_le & [ STEM < "auriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_auriforme_a_rel" ]. auriga_n1 := n_intr_count_le & [ STEM < "auriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auriga_n_rel" ] ]. aurina_n1 := n_intr_count_le & [ STEM < "aurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aurina_n_rel" ] ]. aurora_n1 := n_intr_count_le & [ STEM < "aurora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_aurora_n_rel" ] ]. aurosoma_n1 := n_intr_count_le & [ STEM < "aurosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aurosoma_n_rel" ] ]. aurícula_n1 := n_intr_count_le & [ STEM < "aurícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aurícula_n_rel" ] ]. auscultación_n1 := n_trans_le & [ STEM < "auscultación" >, SYNSEM.LKEYS.KEYREL.PRED "_auscultación_n_rel" ]. auscultar_v := v_trans_np_le & [ STEM < "auscultar" >, SYNSEM.LKEYS.KEYREL.PRED "_auscultar_v_rel" ]. ausencia_n1 := n_intr_uncount_pl_le & [ STEM < "ausencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ausencia_n_rel" ] ]. ausencia_n2 := n_result_intr_le & [ STEM < "ausencia" >, SYNSEM.LKEYS.KEYREL.PRED "_ausencia_n_rel" ]. ausentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausentar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausente_a1 := a_qual_trans*_estar_le & [ STEM < "ausente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_ausente_a_rel" ] ]. ausentismo_n1 := n_intr_mass_le & [ STEM < "ausentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ausentismo_n_rel" ] ]. auspiciar_v := v_trans_np_le & [ STEM < "auspiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_auspiciar_v_rel" ]. auspicio_n1 := n_intr_count_le & [ STEM < "auspicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auspicio_n_rel" ] ]. austemple_n1 := n_intr_uncount_le & [ STEM < "austemple" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_austemple_n_rel" ] ]. austeniconformado_n1 := n_intr_count_le & [ STEM < "austeniconformado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austeniconformado_n_rel" ] ]. austenita_n1 := n_intr_mass-or-count_le & [ STEM < "austenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_austenita_n_rel" ] ]. austenitizar_v := v_trans_np_le & [ STEM < "austenitizar" >, SYNSEM.LKEYS.KEYREL.PRED "_austenitizar_v_rel" ]. austeníticamente_x1 := av_i_spr_le & [ STEM < "austeníticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_austeníticamente_x_rel" ]. austeramente_x1 := av_i_spr_le & [ STEM < "austeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_austeramente_x_rel" ]. austeridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "austeridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_austeridad_n_rel" ] ]. austero_a1 := a_qual_intr_ser_le & [ STEM < "austero" >, SYNSEM.LKEYS.KEYREL.PRED "_austero_a_rel" ]. austral_a1 := a_rel_prd_le & [ STEM < "austral" >, SYNSEM.LKEYS.KEYREL.PRED "_austral_a_rel" ]. australiano_a1 := a_rel_prd_le & [ STEM < "australiano" >, SYNSEM.LKEYS.KEYREL.PRED "_australiano_a_rel" ]. australiano_n1 := n_intr_count_le & [ STEM < "australiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_australiano_n_rel" ] ]. australita_n1 := n_intr_count_le & [ STEM < "australita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_australita_n_rel" ] ]. austriaco_a1 := a_rel_prd_le & [ STEM < "austriaco" >, SYNSEM.LKEYS.KEYREL.PRED "_austriaco_a_rel" ]. austriaco_n1 := n_intr_count_le & [ STEM < "austriaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austriaco_n_rel" ] ]. austrohúngaro_a1 := a_rel_prd_le & [ STEM < "austrohúngaro" >, SYNSEM.LKEYS.KEYREL.PRED "_austrohúngaro_a_rel" ]. austrohúngaro_n1 := n_intr_count_le & [ STEM < "austrohúngaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austrohúngaro_n_rel" ] ]. austríaco_a1 := a_rel_prd_le & [ STEM < "austríaco" >, SYNSEM.LKEYS.KEYREL.PRED "_austríaco_a_rel" ]. austríaco_n1 := n_intr_count_le & [ STEM < "austríaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austríaco_n_rel" ] ]. autarquía_n1 := n_intr_count_le & [ STEM < "autarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autarquía_n_rel" ] ]. autenticación_n1 := n_trans_le & [ STEM < "autenticación" >, SYNSEM.LKEYS.KEYREL.PRED "_autenticación_n_rel" ]. autenticar_v := v_trans_np_le & [ STEM < "autenticar" >, SYNSEM.LKEYS.KEYREL.PRED "_autenticar_v_rel" ]. autenticidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "autenticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autenticidad_n_rel" ] ]. autentificación_n1 := n_trans_le & [ STEM < "autentificación" >, SYNSEM.LKEYS.KEYREL.PRED "_autentificación_n_rel" ]. autentificar_v := v_trans_np_le & [ STEM < "autentificar" >, SYNSEM.LKEYS.KEYREL.PRED "_autentificar_v_rel" ]. autillo_n1 := n_intr_count_le & [ STEM < "autillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_autillo_n_rel" ] ]. autismo_n1 := n_intr_uncount_le & [ STEM < "autismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autismo_n_rel" ] ]. autista_a1 := a_qual_intr_ser_le & [ STEM < "autista" >, SYNSEM.LKEYS.KEYREL.PRED "_autista_a_rel" ]. auto_n1 := n_intr_count_le & [ STEM < "auto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_auto_n_rel" ] ]. autoabastecimiento_n1 := n_trans_le & [ STEM < "autoabastecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_autoabastecimiento_n_rel" ]. autoacusación_n1 := n_intr_count_le & [ STEM < "autoacusación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoacusación_n_rel" ] ]. autoadaptable_a1 := a_qual_trans*_ser_le & [ STEM < "autoadaptable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_autoadaptable_a_rel" ] ]. autoadaptación_n1 := n_result_intr_ppcomp_le & [ STEM < "autoadaptación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_autoadaptación_n_rel" ] ]. autoadhesivo_a1 := a_rel_prd_le & [ STEM < "autoadhesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoadhesivo_a_rel" ]. autoafirmación_n1 := n_intr_mass_le & [ STEM < "autoafirmación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoafirmación_n_rel" ] ]. autoafirmar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autoafirmar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_autoafirmar_v_rel" ] ]. autoaglutinina_n1 := n_intr_count_le & [ STEM < "autoaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoaglutinina_n_rel" ] ]. autoanalizador_n1 := n_intr_count_le & [ STEM < "autoanalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoanalizador_n_rel" ] ]. autoanticuerpo_n2 := n_ppcomp_count_le & [ STEM < "autoanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_autoanticuerpo_n_rel" ] ]. autoantígeno_n1 := n_intr_count_le & [ STEM < "autoantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoantígeno_n_rel" ] ]. autoaprendizaje_n1 := n_intr_uncount_le & [ STEM < "autoaprendizaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoaprendizaje_n_rel" ] ]. autoayuda_n1 := n_intr_uncount_le & [ STEM < "autoayuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoayuda_n_rel" ] ]. autobiografía_n1 := n_intr_count_le & [ STEM < "autobiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autobiografía_n_rel" ] ]. autobiográficamente_x1 := av_i_spr_le & [ STEM < "autobiográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autobiográficamente_x_rel" ]. autobiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "autobiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_autobiográfico_a_rel" ]. autobomba_n1 := n_intr_count_le & [ STEM < "autobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autobomba_n_rel" ] ]. autobús_n1 := n_intr_count_le & [ STEM < "autobús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autobús_n_rel" ] ]. autocalentamiento_n1 := n_result_intr_le & [ STEM < "autocalentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_autocalentamiento_n_rel" ]. autocar_n1 := n_intr_count_le & [ STEM < "autocar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autocar_n_rel" ] ]. autocargable_a1 := a_rel_prd_le & [ STEM < "autocargable" >, SYNSEM.LKEYS.KEYREL.PRED "_autocargable_a_rel" ]. autocargar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autocargar" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_autocargar_v_rel" ] ]. autocastigo_n1 := n_intr_uncount_pl_le & [ STEM < "autocastigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocastigo_n_rel" ] ]. autocatalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "autocatalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_autocatalítico_a_rel" ]. autocatálisis_n1 := n_intr_uncount_le & [ STEM < "autocatálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocatálisis_n_rel" ] ]. autocentrador_n1 := n_intr_count_le & [ STEM < "autocentrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autocentrador_n_rel" ] ]. autocentrante_a1 := a_rel_nonprd_intr_le & [ STEM < "autocentrante" >, SYNSEM.LKEYS.KEYREL.PRED "_autocentrante_a_rel" ]. autocine_n1 := n_intr_count_le & [ STEM < "autocine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autocine_n_rel" ] ]. autocitólisis_n1 := n_intr_uncount_le & [ STEM < "autocitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocitólisis_n_rel" ] ]. autoclave_n1 := n_intr_count_le & [ STEM < "autoclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoclave_n_rel" ] ]. autoconciencia_n1 := n_intr_uncount_le & [ STEM < "autoconciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconciencia_n_rel" ] ]. autoconfianza_n1 := n_intr_mass_le & [ STEM < "autoconfianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconfianza_n_rel" ] ]. autoconfigurador_n1 := n_intr_count_le & [ STEM < "autoconfigurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoconfigurador_n_rel" ] ]. autoconsumo_n1 := n_intr_uncount_le & [ STEM < "autoconsumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconsumo_n_rel" ] ]. autocontrol_n1 := n_intr_mass_le & [ STEM < "autocontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocontrol_n_rel" ] ]. autocontroladamente_x1 := av_i_spr_le & [ STEM < "autocontroladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autocontroladamente_x_rel" ]. autocorrección_n1 := n_intr_count_le & [ STEM < "autocorrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrección_n_rel" ] ]. autocorrelación_n1 := n_intr_count_le & [ STEM < "autocorrelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrelación_n_rel" ] ]. autocorrelador_n1 := n_intr_count_le & [ STEM < "autocorrelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrelador_n_rel" ] ]. autocracia_n1 := n_intr_count_le & [ STEM < "autocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocracia_n_rel" ] ]. autocráticamente_x1 := av_i_spr_le & [ STEM < "autocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autocráticamente_x_rel" ]. autocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "autocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_autocrático_a_rel" ]. autocrítica_n1 := n_intr_count_le & [ STEM < "autocrítica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocrítica_n_rel" ] ]. autodefensa_n1 := n_intr_uncount_le & [ STEM < "autodefensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodefensa_n_rel" ] ]. autodefinible_a1 := a_rel_prd_le & [ STEM < "autodefinible" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinible_a_rel" ]. autodefinir_v := v_pron_intr_le & [ STEM < "autodefinir" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinir_v_rel" ]. autodefinitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "autodefinitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinitorio_a_rel" ]. autodegradación_n1 := n_event-result_intr_le & [ STEM < "autodegradación" >, SYNSEM.LKEYS.KEYREL.PRED "_autodegradación_n_rel" ]. autodepuración_n1 := n_result_intr_le & [ STEM < "autodepuración" >, SYNSEM.LKEYS.KEYREL.PRED "_autodepuración_n_rel" ]. autodesarrollo_n1 := n_intr_uncount_le & [ STEM < "autodesarrollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodesarrollo_n_rel" ] ]. autodescargable_a1 := a_rel_nonprd_intr_le & [ STEM < "autodescargable" >, SYNSEM.LKEYS.KEYREL.PRED "_autodescargable_a_rel" ]. autodestructible_a1 := a_rel_prd_le & [ STEM < "autodestructible" >, SYNSEM.LKEYS.KEYREL.PRED "_autodestructible_a_rel" ]. autodestructivo_a1 := a_rel_prd_le & [ STEM < "autodestructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autodestructivo_a_rel" ]. autodeterminación_n1 := n_intr_mass_le & [ STEM < "autodeterminación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodeterminación_n_rel" ] ]. autodidacta_a1 := a_qual_intr_ser_le & [ STEM < "autodidacta" >, SYNSEM.LKEYS.KEYREL.PRED "_autodidacta_a_rel" ]. autodidacta_n1 := n_intr_count_le & [ STEM < "autodidacta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autodidacta_n_rel" ] ]. autodidáctico_a1 := a_rel_prd_le & [ STEM < "autodidáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_autodidáctico_a_rel" ]. autodifusión_n1 := n_result_intr_le & [ STEM < "autodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_autodifusión_n_rel" ]. autodinamente_x1 := av_i_spr_le & [ STEM < "autodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinamente_x_rel" ]. autodinámicamente_x1 := av_i_spr_le & [ STEM < "autodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinámicamente_x_rel" ]. autodinámico_a1 := a_rel_prd_le & [ STEM < "autodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinámico_a_rel" ]. autodisciplina_n1 := n_intr_mass_le & [ STEM < "autodisciplina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodisciplina_n_rel" ] ]. autodominio_n1 := n_intr_mass_le & [ STEM < "autodominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodominio_n_rel" ] ]. autoecología_n1 := n_intr_uncount_le & [ STEM < "autoecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoecología_n_rel" ] ]. autoeducación_n1 := n_intr_mass_le & [ STEM < "autoeducación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoeducación_n_rel" ] ]. autoempleo_n1 := n_intr_uncount_pl_le & [ STEM < "autoempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoempleo_n_rel" ] ]. autoencendido_n1 := n_result_intr_le & [ STEM < "autoencendido" >, SYNSEM.LKEYS.KEYREL.PRED "_autoencendido_n_rel" ]. autoengaño_n1 := n_intr_mass_le & [ STEM < "autoengaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoengaño_n_rel" ] ]. autoequilibrador_a1 := a_rel_prd_le & [ STEM < "autoequilibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_autoequilibrador_a_rel" ]. autoescuela_n1 := n_intr_count_le & [ STEM < "autoescuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_autoescuela_n_rel" ] ]. autoestable_a1 := a_rel_prd_le & [ STEM < "autoestable" >, SYNSEM.LKEYS.KEYREL.PRED "_autoestable_a_rel" ]. autoevaluación_n1 := n_trans_le & [ STEM < "autoevaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoevaluación_n_rel" ]. autoexcitación_n1 := n_result_intr_le & [ STEM < "autoexcitación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoexcitación_n_rel" ]. autoexplicativo_a1 := a_rel_prd_le & [ STEM < "autoexplicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoexplicativo_a_rel" ]. autoextintor_a1 := a_rel_prd_le & [ STEM < "autoextintor" >, SYNSEM.LKEYS.KEYREL.PRED "_autoextintor_a_rel" ]. autofagia_n1 := n_intr_uncount_le & [ STEM < "autofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autofagia_n_rel" ] ]. autofagosoma_n1 := n_intr_count_le & [ STEM < "autofagosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autofagosoma_n_rel" ] ]. autofinanciación_n1 := n_result_intr_le & [ STEM < "autofinanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_autofinanciación_n_rel" ]. autofonía_n1 := n_intr_uncount_le & [ STEM < "autofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autofonía_n_rel" ] ]. autoformación_n1 := n_result_intr_le & [ STEM < "autoformación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoformación_n_rel" ]. autofágico_a1 := a_rel_prd_le & [ STEM < "autofágico" >, SYNSEM.LKEYS.KEYREL.PRED "_autofágico_a_rel" ]. autogamia_n1 := n_intr_uncount_pl_le & [ STEM < "autogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogamia_n_rel" ] ]. autogestionario_a1 := a_rel_prd_le & [ STEM < "autogestionario" >, SYNSEM.LKEYS.KEYREL.PRED "_autogestionario_a_rel" ]. autogestión_n1 := n_intr_mass_le & [ STEM < "autogestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogestión_n_rel" ] ]. autogobierno_n1 := n_intr_uncount_pl_le & [ STEM < "autogobierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogobierno_n_rel" ] ]. autogol_n1 := n_intr_count_le & [ STEM < "autogol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogol_n_rel" ] ]. autohemoterapia_n1 := n_intr_uncount_le & [ STEM < "autohemoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autohemoterapia_n_rel" ] ]. autohemólisis_n1 := n_intr_uncount_le & [ STEM < "autohemólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autohemólisis_n_rel" ] ]. autoigualador_a1 := a_rel_prd_le & [ STEM < "autoigualador" >, SYNSEM.LKEYS.KEYREL.PRED "_autoigualador_a_rel" ]. autoinducción_n1 := n_result_intr_le & [ STEM < "autoinducción" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinducción_n_rel" ]. autoinductivamente_x1 := av_i_spr_le & [ STEM < "autoinductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinductivamente_x_rel" ]. autoinductivo_a1 := a_rel_prd_le & [ STEM < "autoinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinductivo_a_rel" ]. autoinflamación_n1 := n_result_intr_le & [ STEM < "autoinflamación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinflamación_n_rel" ]. autoinjerto_n1 := n_trans_le & [ STEM < "autoinjerto" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinjerto_n_rel" ]. autoinmune_a1 := a_rel_prd_le & [ STEM < "autoinmune" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinmune_a_rel" ]. autoinmunidad_n1 := n_intr_uncount_le & [ STEM < "autoinmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoinmunidad_n_rel" ] ]. autoinmunitario_a1 := a_rel_prd_le & [ STEM < "autoinmunitario" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinmunitario_a_rel" ]. autoinmunización_n1 := n_intr_mass_le & [ STEM < "autoinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoinmunización_n_rel" ] ]. autoliquidación_n1 := n_intr_count_le & [ STEM < "autoliquidación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoliquidación_n_rel" ] ]. autolisosoma_n1 := n_intr_count_le & [ STEM < "autolisosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autolisosoma_n_rel" ] ]. autolubricante_a1 := a_rel_prd_le & [ STEM < "autolubricante" >, SYNSEM.LKEYS.KEYREL.PRED "_autolubricante_a_rel" ]. autolubrificación_n1 := n_result_intr_le & [ STEM < "autolubrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_autolubrificación_n_rel" ]. automatismo_n1 := n_intr_uncount_le & [ STEM < "automatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automatismo_n_rel" ] ]. automatizable_a1 := a_rel_prd_le & [ STEM < "automatizable" >, SYNSEM.LKEYS.KEYREL.PRED "_automatizable_a_rel" ]. automatización_n1 := n_trans_le & [ STEM < "automatización" >, SYNSEM.LKEYS.KEYREL.PRED "_automatización_n_rel" ]. automatizar_v := v_trans_np_le & [ STEM < "automatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_automatizar_v_rel" ]. automoción_n1 := n_intr_mass_le & [ STEM < "automoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automoción_n_rel" ] ]. automorfismo_n1 := n_intr_uncount_le & [ STEM < "automorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automorfismo_n_rel" ] ]. automotor_n1 := n_intr_count_le & [ STEM < "automotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_automotor_n_rel" ] ]. automovilismo_n1 := n_intr_uncount_le & [ STEM < "automovilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automovilismo_n_rel" ] ]. automovilista_n1 := n_intr_count_le & [ STEM < "automovilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_automovilista_n_rel" ] ]. automovilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "automovilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_automovilístico_a_rel" ]. automáticamente_x1 := av_i_spr_le & [ STEM < "automáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_automáticamente_x_rel" ]. automático_a1 := a_rel_prd_le & [ STEM < "automático" >, SYNSEM.LKEYS.KEYREL.PRED "_automático_a_rel" ]. automóvil_n1 := n_intr_count_le & [ STEM < "automóvil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_automóvil_n_rel" ] ]. autoniveladora_n1 := n_intr_count_le & [ STEM < "autoniveladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoniveladora_n_rel" ] ]. autonomismo_n1 := n_intr_uncount_le & [ STEM < "autonomismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autonomismo_n_rel" ] ]. autonomista_n1 := n_intr_count_le & [ STEM < "autonomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autonomista_n_rel" ] ]. autonomizar_v := v_pron_intr_le & [ STEM < "autonomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_autonomizar_v_rel" ]. autonomía_n1 := n_intr_mass-or-count_le & [ STEM < "autonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autonomía_n_rel" ] ]. autonómicamente_x1 := av_i_spr_le & [ STEM < "autonómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autonómicamente_x_rel" ]. autonómico_a1 := a_rel_prd_le & [ STEM < "autonómico" >, SYNSEM.LKEYS.KEYREL.PRED "_autonómico_a_rel" ]. autooscilación_n1 := n_result_intr_le & [ STEM < "autooscilación" >, SYNSEM.LKEYS.KEYREL.PRED "_autooscilación_n_rel" ]. autooscilador_a1 := a_rel_prd_le & [ STEM < "autooscilador" >, SYNSEM.LKEYS.KEYREL.PRED "_autooscilador_a_rel" ]. autopase_n1 := n_intr_count_le & [ STEM < "autopase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopase_n_rel" ] ]. autopista_n1 := n_intr_count_le & [ STEM < "autopista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autopista_n_rel" ] ]. autopolarizado_a1 := a_rel_prd_le & [ STEM < "autopolarizado" >, SYNSEM.LKEYS.KEYREL.PRED "_autopolarizado_a_rel" ]. autopolimerización_n1 := n_intr_mass_le & [ STEM < "autopolimerización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopolimerización_n_rel" ] ]. autoproductor_n1 := n_intr_count_le & [ STEM < "autoproductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoproductor_n_rel" ] ]. autoproductor_n2 := n_subj-nom_le & [ STEM < "autoproductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autoproductor_n_rel" ] ]. autopropulsión_n1 := n_intr_mass_le & [ STEM < "autopropulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopropulsión_n_rel" ] ]. autopropulsor_a1 := a_rel_prd_le & [ STEM < "autopropulsor" >, SYNSEM.LKEYS.KEYREL.PRED "_autopropulsor_a_rel" ]. autopsia_n1 := n_intr_count_le & [ STEM < "autopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopsia_n_rel" ] ]. autor_n1 := n_intr_count_le & [ STEM < "autor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autor_n_rel" ] ]. autoreparación_n1 := n_trans_le & [ STEM < "autoreparación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoreparación_n_rel" ]. autoridad_n1 := n_intr_mass_le & [ STEM < "autoridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_autoridad_n_rel" ] ]. autoritariamente_x1 := av_i_spr_le & [ STEM < "autoritariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autoritariamente_x_rel" ]. autoritario_a1 := a_qual_intr_ser_le & [ STEM < "autoritario" >, SYNSEM.LKEYS.KEYREL.PRED "_autoritario_a_rel" ]. autoritarismo_n1 := n_ppcomp_mass_le & [ STEM < "autoritarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoritarismo_n_rel" ] ]. autorización_n1 := n_trans_le & [ STEM < "autorización" >, SYNSEM.LKEYS.KEYREL.PRED "_autorización_n_rel" ]. autorizar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorizar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorizar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorradio_n1 := n_intr_count_le & [ STEM < "autorradio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autorradio_n_rel" ] ]. autorradiografía_n1 := n_intr_count_le & [ STEM < "autorradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autorradiografía_n_rel" ] ]. autorradiólisis_n1 := n_intr_uncount_le & [ STEM < "autorradiólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autorradiólisis_n_rel" ] ]. autorreactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "autorreactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autorreactivo_a_rel" ]. autorregenerador_a1 := a_rel_prd_le & [ STEM < "autorregenerador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregenerador_a_rel" ]. autorregistrador_a1 := a_rel_nonprd_intr_le & [ STEM < "autorregistrador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregistrador_a_rel" ]. autorregresivo_a1 := a_rel_prd_le & [ STEM < "autorregresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregresivo_a_rel" ]. autorregulación_n1 := n_result_intr_le & [ STEM < "autorregulación" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulación_n_rel" ]. autorregulador_a1 := a_rel_prd_le & [ STEM < "autorregulador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulador_a_rel" ]. autorregulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "autorregulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulatorio_a_rel" ]. autorretrato_n1 := n_intr_count_le & [ STEM < "autorretrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autorretrato_n_rel" ] ]. autoría_n1 := n_intr_uncount_pl_le & [ STEM < "autoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoría_n_rel" ] ]. autosatisfacción_n1 := n_intr_mass_le & [ STEM < "autosatisfacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosatisfacción_n_rel" ] ]. autosaturación_n1 := n_result_intr_le & [ STEM < "autosaturación" >, SYNSEM.LKEYS.KEYREL.PRED "_autosaturación_n_rel" ]. autoseguro_n1 := n_intr_count_le & [ STEM < "autoseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoseguro_n_rel" ] ]. autoservicio_n1 := n_intr_count_le & [ STEM < "autoservicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autoservicio_n_rel" ] ]. autosincronizar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autosincronizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_autosincronizar_v_rel" ] ]. autosoma_n1 := n_intr_count_le & [ STEM < "autosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autosoma_n_rel" ] ]. autostop_n1 := n_intr_uncount_le & [ STEM < "autostop" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autostop_n_rel" ] ]. autostopista_n1 := n_intr_count_le & [ STEM < "autostopista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autostopista_n_rel" ] ]. autosuficiencia_n1 := n_intr_mass_le & [ STEM < "autosuficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosuficiencia_n_rel" ] ]. autosuficiente_a1 := a_qual_intr_ser_le & [ STEM < "autosuficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_autosuficiente_a_rel" ]. autosuficientemente_x1 := av_i_spr_le & [ STEM < "autosuficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_autosuficientemente_x_rel" ]. autosugestión_n1 := n_intr_mass_le & [ STEM < "autosugestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosugestión_n_rel" ] ]. autotolerancia_n1 := n_intr_uncount_le & [ STEM < "autotolerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autotolerancia_n_rel" ] ]. autotoque_n1 := n_intr_count_le & [ STEM < "autotoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autotoque_n_rel" ] ]. autotransductor_n1 := n_intr_count_le & [ STEM < "autotransductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autotransductor_n_rel" ] ]. autotransformador_n1 := n_intr_count_le & [ STEM < "autotransformador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autotransformador_n_rel" ] ]. autovalor_n1 := n_intr_count_le & [ STEM < "autovalor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autovalor_n_rel" ] ]. autovaloración_n1 := n_result_intr_le & [ STEM < "autovaloración" >, SYNSEM.LKEYS.KEYREL.PRED "_autovaloración_n_rel" ]. autovector_n1 := n_intr_count_le & [ STEM < "autovector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autovector_n_rel" ] ]. autovolquete_n1 := n_intr_count_le & [ STEM < "autovolquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autovolquete_n_rel" ] ]. autovía_n1 := n_intr_count_le & [ STEM < "autovía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_autovía_n_rel" ] ]. autunita_n1 := n_intr_count_le & [ STEM < "autunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_autunita_n_rel" ] ]. auténticamente_x1 := av_i_spr_le & [ STEM < "auténticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_auténticamente_x_rel" ]. auténtico_a1 := a_qual_intr_scopal_le & [ STEM < "auténtico" >, SYNSEM.LKEYS.KEYREL.PRED "_auténtico_a_rel" ]. autísticamente_x1 := av_i_spr_le & [ STEM < "autísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autísticamente_x_rel" ]. autístico_a1 := a_rel_nonprd_intr_le & [ STEM < "autístico" >, SYNSEM.LKEYS.KEYREL.PRED "_autístico_a_rel" ]. autócrata_n1 := n_intr_count_le & [ STEM < "autócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autócrata_n_rel" ] ]. autóctono_a1 := a_qual_trans*_ser_le & [ STEM < "autóctono" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_autóctono_a_rel" ] ]. autógenamente_x1 := av_i_spr_le & [ STEM < "autógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autógenamente_x_rel" ]. autógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "autógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_autógeno_a_rel" ]. autógrafo_n1 := n_intr_count_le & [ STEM < "autógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autógrafo_n_rel" ] ]. autólisis_n1 := n_intr_uncount_le & [ STEM < "autólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autólisis_n_rel" ] ]. autómata_n1 := n_intr_count_le & [ STEM < "autómata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autómata_n_rel" ] ]. autónomamente_x1 := av_i_spr_le & [ STEM < "autónomamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autónomamente_x_rel" ]. autónomo_a1 := a_rel_prd_le & [ STEM < "autónomo" >, SYNSEM.LKEYS.KEYREL.PRED "_autónomo_a_rel" ]. autótrofo_a1 := a_rel_prd_le & [ STEM < "autótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_autótrofo_a_rel" ]. autótrofo_n1 := n_intr_count_le & [ STEM < "autótrofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autótrofo_n_rel" ] ]. auxiliador_n1 := n_subj-nom_le & [ STEM < "auxiliador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auxiliador_n_rel" ] ]. auxiliar_a1 := a_rel_nonprd_intr_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_auxiliar_a_rel" ]. auxiliar_n1 := n_intr_count_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auxiliar_n_rel" ] ]. auxiliar_v := v_trans_np_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_auxiliar_v_rel" ]. auxilio_n1 := n_intr_uncount_pl_le & [ STEM < "auxilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auxilio_n_rel" ] ]. auxocito_n1 := n_intr_count_le & [ STEM < "auxocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auxocito_n_rel" ] ]. auxocromo_n1 := n_intr_count_le & [ STEM < "auxocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auxocromo_n_rel" ] ]. aval_n1 := n_intr_count_le & [ STEM < "aval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aval_n_rel" ] ]. avalador_n1 := n_subj-nom_le & [ STEM < "avalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avalador_n_rel" ] ]. avalancha_n1 := n_intr_count_le & [ STEM < "avalancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avalancha_n_rel" ] ]. avalar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "avalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, PRED "_avalar_v_rel" ] ]. avalar_v2 := v_trans_np_le & [ STEM < "avalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_avalar_v_rel" ] ]. avalista_n1 := n_intr_count_le & [ STEM < "avalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avalista_n_rel" ] ]. avalúo_n1 := n_trans_le & [ STEM < "avalúo" >, SYNSEM.LKEYS.KEYREL.PRED "_avalúo_n_rel" ]. avance_n1 := n_event-result_intr_le & [ STEM < "avance" >, SYNSEM.LKEYS.KEYREL.PRED "_avance_n_rel" ]. avantrén_n1 := n_intr_count_le & [ STEM < "avantrén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avantrén_n_rel" ] ]. avanzadilla_n1 := n_intr_count_le & [ STEM < "avanzadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avanzadilla_n_rel" ] ]. avanzar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_avanzar_v_rel" ] ]. avanzar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avanzar_v_rel" ] ] ]. avanzar_v3 := v_trans_np_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avanzar_v_rel" ]. avanzar_v4 := v_unacc_lcomp_dir*_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avanzar_v_rel" ]. avaricia_n1 := n_intr_mass_le & [ STEM < "avaricia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avaricia_n_rel" ] ]. avariciosamente_x1 := av_i_spr_le & [ STEM < "avariciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_avariciosamente_x_rel" ]. avaricioso_a1 := a_qual_intr_ser_le & [ STEM < "avaricioso" >, SYNSEM.LKEYS.KEYREL.PRED "_avaricioso_a_rel" ]. avaro_a1 := a_qual_intr_ser_le & [ STEM < "avaro" >, SYNSEM.LKEYS.KEYREL.PRED "_avaro_a_rel" ]. avaro_n1 := n_intr_count_le & [ STEM < "avaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avaro_n_rel" ] ]. avasallador_a1 := a_qual_intr_ser_le & [ STEM < "avasallador" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallador_a_rel" ]. avasalladormente_x1 := av_i_spr_le & [ STEM < "avasalladormente" >, SYNSEM.LKEYS.KEYREL.PRED "_avasalladormente_x_rel" ]. avasallamiento_n1 := n_trans_le & [ STEM < "avasallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallamiento_n_rel" ]. avasallar_v := v_trans_np_le & [ STEM < "avasallar" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallar_v_rel" ]. avatar_n1 := n_intr_count_le & [ STEM < "avatar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avatar_n_rel" ] ]. ave_n1 := n_intr_count_le & [ STEM < "ave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ave_n_rel" ] ]. avecinar_v1 := v_pron_intr_io*_le & [ STEM < "avecinar" >, SYNSEM.LKEYS.KEYREL.PRED "_avecinar_v_rel" ]. avecindar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avecindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avecindar_v_rel" ] ] ]. avecindar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "avecindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avecindar_v_rel" ] ] ]. avefría_n1 := n_intr_count_le & [ STEM < "avefría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avefría_n_rel" ] ]. avellana_n1 := n_intr_mass_le & [ STEM < "avellana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avellana_n_rel" ] ]. avellanado_n1 := n_trans_le & [ STEM < "avellanado" >, SYNSEM.LKEYS.KEYREL.PRED "_avellanado_n_rel" ]. avellanador_n1 := n_intr_count_le & [ STEM < "avellanador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avellanador_n_rel" ] ]. avellanar_n1 := n_intr_count_le & [ STEM < "avellanar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avellanar_n_rel" ] ]. avellaneda_n1 := n_intr_count_le & [ STEM < "avellaneda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avellaneda_n_rel" ] ]. avellanero_n1 := n_intr_count_le & [ STEM < "avellanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_avellanero_n_rel" ] ]. avellano_n1 := n_intr_count_le & [ STEM < "avellano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_avellano_n_rel" ] ]. avena_n1 := n_intr_mass_le & [ STEM < "avena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avena_n_rel" ] ]. avenencia_n1 := n_intr_count_le & [ STEM < "avenencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avenencia_n_rel" ] ]. avenida_n1 := n_intr_count_le & [ STEM < "avenida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avenida_n_rel" ] ]. avenir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. avenir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. avenir_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. aventador_a1 := a_rel_nonprd_intr_le & [ STEM < "aventador" >, SYNSEM.LKEYS.KEYREL.PRED "_aventador_a_rel" ]. aventador_a2 := a_qual_intr_ser_le & [ STEM < "aventador" >, SYNSEM.LKEYS.KEYREL.PRED "_aventador_a_rel" ]. aventadora_n1 := n_intr_count_le & [ STEM < "aventadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aventadora_n_rel" ] ]. aventajar_v := v_trans_np_mrkd_np*_le & [ STEM < "aventajar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_aventajar_v_rel" ] ]. aventar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aventar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aventar_v_rel" ] ] ]. aventar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aventar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_aventar_v_rel" ] ] ]. aventura_n1 := n_intr_count_le & [ STEM < "aventura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aventura_n_rel" ] ]. aventurar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aventurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aventurar_v_rel" ] ]. aventurar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "aventurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aventurar_v_rel" ] ]. aventurar_v3 := v_trans_cp_prop_fin_le & [ STEM < "aventurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aventurar_v_rel" ] ]. aventurar_v4 := v_trans_np_le & [ STEM < "aventurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aventurar_v_rel" ] ]. aventureramente_x1 := av_i_spr_le & [ STEM < "aventureramente" >, SYNSEM.LKEYS.KEYREL.PRED "_aventureramente_x_rel" ]. aventurero_a1 := a_qual_intr_ser_le & [ STEM < "aventurero" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurero_a_rel" ]. aventurero_n1 := n_intr_count_le & [ STEM < "aventurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aventurero_n_rel" ] ]. aventurina_n1 := n_intr_count_le & [ STEM < "aventurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aventurina_n_rel" ] ]. aventurinado_a1 := a_qual_intr_ser_le & [ STEM < "aventurinado" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurinado_a_rel" ]. aventurine_n1 := n_intr_mass_le & [ STEM < "aventurine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aventurine_n_rel" ] ]. aventurinee_n1 := n_intr_mass_le & [ STEM < "aventurinee" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aventurinee_n_rel" ] ]. aventurino_a1 := a_qual_intr_ser_le & [ STEM < "aventurino" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurino_a_rel" ]. avergonzar_v1 := v_intr_io*_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avergonzar_v_rel" ]. avergonzar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avergonzar_v_rel" ] ] ]. avergonzar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_avergonzar_v_rel" ] ]. avergonzar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avergonzar_v_rel" ]. averiar_v := v_trans_np_caus_le & [ STEM < "averiar" >, SYNSEM.LKEYS.KEYREL.PRED "_averiar_v_rel" ]. averiguable_a1 := a_rel_nonprd_intr_le & [ STEM < "averiguable" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguable_a_rel" ]. averiguación_n1 := n_trans_le & [ STEM < "averiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguación_n_rel" ]. averiguar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_averiguar_v_rel" ] ]. averiguar_v2 := v_trans_cp_semi_ques_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguar_v_rel" ]. averiguar_v3 := v_trans_np_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_averiguar_v_rel" ] ]. averrugado_a1 := a_qual_intr_ser_le & [ STEM < "averrugado" >, SYNSEM.LKEYS.KEYREL.PRED "_averrugado_a_rel" ]. aversión_n1 := n_intr_mass-or-count_le & [ STEM < "aversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aversión_n_rel" ] ]. avería_n1 := n_intr_count_le & [ STEM < "avería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avería_n_rel" ] ]. avestruz_n1 := n_intr_count_le & [ STEM < "avestruz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avestruz_n_rel" ] ]. avetoro_n1 := n_intr_count_le & [ STEM < "avetoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avetoro_n_rel" ] ]. aviación_n1 := n_intr_uncount_le & [ STEM < "aviación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aviación_n_rel" ] ]. aviador_n1 := n_intr_count_le & [ STEM < "aviador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aviador_n_rel" ] ]. aviar_v := v_trans_np_le & [ STEM < "aviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aviar_v_rel" ]. avicultor_n1 := n_intr_count_le & [ STEM < "avicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avicultor_n_rel" ] ]. avicultura_n1 := n_intr_uncount_le & [ STEM < "avicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avicultura_n_rel" ] ]. avidez_n1 := n_ppcomp_uncount_le & [ STEM < "avidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avidez_n_rel" ] ]. avidina_n1 := n_intr_count_le & [ STEM < "avidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avidina_n_rel" ] ]. avilense_n1 := n_intr_count_le & [ STEM < "avilense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avilense_n_rel" ] ]. avilés_a1 := a_qual_intr_ser_le & [ STEM < "avilés" >, SYNSEM.LKEYS.KEYREL.PRED "_avilés_a_rel" ]. avilés_n1 := n_intr_count_le & [ STEM < "avilés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avilés_n_rel" ] ]. avioneta_n1 := n_intr_count_le & [ STEM < "avioneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avioneta_n_rel" ] ]. avisador_a1 := a_qual_intr_ser_le & [ STEM < "avisador" >, SYNSEM.LKEYS.KEYREL.PRED "_avisador_a_rel" ]. avisador_n1 := n_intr_count_le & [ STEM < "avisador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avisador_n_rel" ] ]. avisar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "avisar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_avisar_v_rel" ] ]. avisar_v2 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_ind_le & [ STEM < "avisar" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL.PRED "_avisar_v_rel" ] ]. aviso_n1 := n_intr_mass_le & [ STEM < "aviso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_aviso_n_rel" ] ]. avispa_n1 := n_intr_count_le & [ STEM < "avispa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avispa_n_rel" ] ]. avispadamente_x1 := av_i_spr_le & [ STEM < "avispadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_avispadamente_x_rel" ]. avispero_n1 := n_intr_count_le & [ STEM < "avispero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_avispero_n_rel" ] ]. avispón_n1 := n_intr_count_le & [ STEM < "avispón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avispón_n_rel" ] ]. avistamiento_n1 := n_trans_le & [ STEM < "avistamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avistamiento_n_rel" ]. avistar_v := v_trans_np_le & [ STEM < "avistar" >, SYNSEM.LKEYS.KEYREL.PRED "_avistar_v_rel" ]. avituallamiento_n1 := n_trans_le & [ STEM < "avituallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avituallamiento_n_rel" ]. avivamiento_n1 := n_trans_le & [ STEM < "avivamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avivamiento_n_rel" ]. avivar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "avivar" >, SYNSEM.LKEYS.KEYREL.PRED "_avivar_v_rel" ]. avivar_v2 := v_trans_np_le & [ STEM < "avivar" >, SYNSEM.LKEYS.KEYREL.PRED "_avivar_v_rel" ]. avión_n1 := n_intr_count_le & [ STEM < "avión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avión_n_rel" ] ]. avocación_n1 := n_trans_le & [ STEM < "avocación" >, SYNSEM.LKEYS.KEYREL.PRED "_avocación_n_rel" ]. avocar_v := v_trans_np_mrkd_np*_le & [ STEM < "avocar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_avocar_v_rel" ] ]. avulsión_n1 := n_intr_count_le & [ STEM < "avulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avulsión_n_rel" ] ]. avutarda_n1 := n_intr_count_le & [ STEM < "avutarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avutarda_n_rel" ] ]. avícola_a1 := a_rel_nonprd_intr_le & [ STEM < "avícola" >, SYNSEM.LKEYS.KEYREL.PRED "_avícola_a_rel" ]. avío_n1 := n_intr_count_le & [ STEM < "avío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avío_n_rel" ] ]. axial_a1 := a_rel_nonprd_intr_le & [ STEM < "axial" >, SYNSEM.LKEYS.KEYREL.PRED "_axial_a_rel" ]. axialmente_x1 := av_i_spr_le & [ STEM < "axialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_axialmente_x_rel" ]. axil_a1 := a_rel_nonprd_intr_le & [ STEM < "axil" >, SYNSEM.LKEYS.KEYREL.PRED "_axil_a_rel" ]. axila_n1 := n_ppcomp_count_le & [ STEM < "axila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_axila_n_rel" ] ]. axilar_a1 := a_rel_nonprd_intr_le & [ STEM < "axilar" >, SYNSEM.LKEYS.KEYREL.PRED "_axilar_a_rel" ]. axinita_n1 := n_intr_count_le & [ STEM < "axinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_axinita_n_rel" ] ]. axiodistal_a1 := a_rel_nonprd_intr_le & [ STEM < "axiodistal" >, SYNSEM.LKEYS.KEYREL.PRED "_axiodistal_a_rel" ]. axiolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "axiolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_axiolingual_a_rel" ]. axiología_n1 := n_intr_uncount_le & [ STEM < "axiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axiología_n_rel" ] ]. axioma_n1 := n_intr_count_le & [ STEM < "axioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_axioma_n_rel" ] ]. axiomesial_a1 := a_rel_nonprd_intr_le & [ STEM < "axiomesial" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomesial_a_rel" ]. axiomática_n1 := n_intr_uncount_le & [ STEM < "axiomática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axiomática_n_rel" ] ]. axiomáticamente_x1 := av_i_spr_le & [ STEM < "axiomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomáticamente_x_rel" ]. axiomático_a1 := a_rel_nonprd_intr_le & [ STEM < "axiomático" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomático_a_rel" ]. axis_n1 := n_intr_count_le & [ STEM < "axis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axis_n_rel" ] ]. axolema_n1 := n_intr_count_le & [ STEM < "axolema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_axolema_n_rel" ] ]. axonema_n1 := n_intr_count_le & [ STEM < "axonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axonema_n_rel" ] ]. axonometría_n1 := n_intr_uncount_le & [ STEM < "axonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axonometría_n_rel" ] ]. axonométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "axonométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_axonométrico_a_rel" ]. axón_n1 := n_intr_count_le & [ STEM < "axón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_axón_n_rel" ] ]. axónico_a1 := a_rel_nonprd_intr_le & [ STEM < "axónico" >, SYNSEM.LKEYS.KEYREL.PRED "_axónico_a_rel" ]. axópodo_n1 := n_intr_count_le & [ STEM < "axópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axópodo_n_rel" ] ]. ayatolá_n1 := n_intr_count_le & [ STEM < "ayatolá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ayatolá_n_rel" ] ]. ayer_n1 := av_deic_tmp_le & [ STEM < "ayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ayer_x_rel" ]. ayer_noche_x1 := av_i_le & [ STEM < "ayer_noche" >, SYNSEM.LKEYS.KEYREL.PRED "_ayer_noche_x_rel" ]. ayuda_humanitaria_n1 := n_intr_mass_le & [ STEM < "ayuda_humanitaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ayuda_humanitaria_n_rel" ] ]. ayuda_n1 := n_trans_le & [ STEM < "ayuda" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuda_n_rel" ]. ayudante_n1 := n_intr_count_le & [ STEM < "ayudante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ayudante_n_rel" ] ]. ayudantía_n1 := n_intr_count_le & [ STEM < "ayudantía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_loc, PRED "_ayudantía_n_rel" ] ]. ayudar_v1 := v_intr_io*_le & [ STEM < "ayudar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayudar_v_rel" ]. ayudar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ayudar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayudar_v_rel" ]. ayudar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "ayudar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ayudar_v_rel" ] ] ]. ayudar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "ayudar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ayudar_v_rel" ] ] ]. ayunar_v := v_intr_le & [ STEM < "ayunar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayunar_v_rel" ]. ayuno_n1 := n_result_intr_le & [ STEM < "ayuno" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuno_n_rel" ]. ayuntamiento_n1 := n_intr_count_le & [ STEM < "ayuntamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_ayuntamiento_n_rel" ] ]. ayustar_v := v_trans_np_le & [ STEM < "ayustar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayustar_v_rel" ]. ayuste_n1 := n_trans_le & [ STEM < "ayuste" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuste_n_rel" ]. azabache_n1 := n_intr_mass_le & [ STEM < "azabache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azabache_n_rel" ] ]. azada_n1 := n_intr_count_le & [ STEM < "azada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azada_n_rel" ] ]. azadilla_n1 := n_intr_count_le & [ STEM < "azadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azadilla_n_rel" ] ]. azadón_n1 := n_intr_count_le & [ STEM < "azadón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azadón_n_rel" ] ]. azafata_n1 := n_intr_count_le & [ STEM < "azafata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azafata_n_rel" ] ]. azafrán_n1 := n_intr_mass_le & [ STEM < "azafrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_azafrán_n_rel" ] ]. azahar_n1 := n_intr_count_le & [ STEM < "azahar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azahar_n_rel" ] ]. azalea_n1 := n_intr_count_le & [ STEM < "azalea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azalea_n_rel" ] ]. azar_n1 := n_intr_uncount_le & [ STEM < "azar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azar_n_rel" ] ]. azar_n2 := n_intr_count_le & [ STEM < "azar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azar_n_rel" ] ]. azarar_v1 := v_intr_io*_le & [ STEM < "azarar" >, SYNSEM.LKEYS.KEYREL.PRED "_azarar_v_rel" ]. azarar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "azarar" >, SYNSEM.LKEYS.KEYREL.PRED "_azarar_v_rel" ]. azaroso_a1 := a_qual_intr_ser_le & [ STEM < "azaroso" >, SYNSEM.LKEYS.KEYREL.PRED "_azaroso_a_rel" ]. azaserina_n1 := n_intr_count_le & [ STEM < "azaserina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azaserina_n_rel" ] ]. azatioprina_n1 := n_intr_count_le & [ STEM < "azatioprina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azatioprina_n_rel" ] ]. azelato_n1 := n_intr_count_le & [ STEM < "azelato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azelato_n_rel" ] ]. azerbaijano_a1 := a_rel_prd_le & [ STEM < "azerbaijano" >, SYNSEM.LKEYS.KEYREL.PRED "_azerbaijano_a_rel" ]. azerbaijano_n1 := n_intr_count_le & [ STEM < "azerbaijano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azerbaijano_n_rel" ] ]. azida_n1 := n_intr_count_le & [ STEM < "azida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azida_n_rel" ] ]. azimutal_a1 := a_rel_nonprd_intr_le & [ STEM < "azimutal" >, SYNSEM.LKEYS.KEYREL.PRED "_azimutal_a_rel" ]. azina_n1 := n_intr_count_le & [ STEM < "azina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azina_n_rel" ] ]. azobenceno_n1 := n_intr_count_le & [ STEM < "azobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azobenceno_n_rel" ] ]. azofenina_n1 := n_intr_count_le & [ STEM < "azofenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azofenina_n_rel" ] ]. azoimida_n1 := n_intr_count_le & [ STEM < "azoimida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azoimida_n_rel" ] ]. azoospermia_n1 := n_intr_uncount_le & [ STEM < "azoospermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azoospermia_n_rel" ] ]. azor_n1 := n_intr_count_le & [ STEM < "azor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_azor_n_rel" ] ]. azorar_v1 := v_intr_io*_le & [ STEM < "azorar" >, SYNSEM.LKEYS.KEYREL.PRED "_azorar_v_rel" ]. azorar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "azorar" >, SYNSEM.LKEYS.KEYREL.PRED "_azorar_v_rel" ]. azoreño_n1 := n_intr_count_le & [ STEM < "azoreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azoreño_n_rel" ] ]. azotaina_n1 := n_intr_uncount_le & [ STEM < "azotaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azotaina_n_rel" ] ]. azotar_v1 := v_trans_np_caus_le & [ STEM < "azotar" >, SYNSEM.LKEYS.KEYREL.PRED "_azotar_v_rel" ]. azote_n1 := n_intr_count_le & [ STEM < "azote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azote_n_rel" ] ]. azotea_n1 := n_intr_count_le & [ STEM < "azotea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_azotea_n_rel" ] ]. azotómetro_n1 := n_intr_count_le & [ STEM < "azotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azotómetro_n_rel" ] ]. azteca_a1 := a_rel_prd_le & [ STEM < "azteca" >, SYNSEM.LKEYS.KEYREL.PRED "_azteca_a_rel" ]. azteca_n1 := n_intr_count_le & [ STEM < "azteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azteca_n_rel" ] ]. azucarera_n1 := n_intr_count_le & [ STEM < "azucarera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarera_n_rel" ] ]. azucarero_a1 := a_rel_nonprd_intr_le & [ STEM < "azucarero" >, SYNSEM.LKEYS.KEYREL.PRED "_azucarero_a_rel" ]. azucarero_n1 := n_intr_count_le & [ STEM < "azucarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarero_n_rel" ] ]. azucarería_n1 := n_intr_count_le & [ STEM < "azucarería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarería_n_rel" ] ]. azucarillo_n1 := n_intr_count_le & [ STEM < "azucarillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarillo_n_rel" ] ]. azucena_n1 := n_intr_count_le & [ STEM < "azucena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_azucena_n_rel" ] ]. azuche_n1 := n_intr_count_le & [ STEM < "azuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azuche_n_rel" ] ]. azud_n1 := n_intr_count_le & [ STEM < "azud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azud_n_rel" ] ]. azuda_n1 := n_intr_count_le & [ STEM < "azuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_azuda_n_rel" ] ]. azuela_n1 := n_intr_count_le & [ STEM < "azuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azuela_n_rel" ] ]. azufaifa_n1 := n_intr_count_le & [ STEM < "azufaifa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_azufaifa_n_rel" ] ]. azufre_n1 := n_intr_mass_le & [ STEM < "azufre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azufre_n_rel" ] ]. azufrera_n1 := n_intr_count_le & [ STEM < "azufrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_azufrera_n_rel" ] ]. azufroso_a1 := a_rel_nonprd_intr_le & [ STEM < "azufroso" >, SYNSEM.LKEYS.KEYREL.PRED "_azufroso_a_rel" ]. azul_a1 := a_qual_intr_ser_le & [ STEM < "azul" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_a_rel" ]. azul_acero_a1 := a_qual_intr_ser_le & [ STEM < "azul_acero" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_acero_a_rel" ]. azul_celeste_a1 := a_qual_intr_ser_le & [ STEM < "azul_celeste" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_celeste_a_rel" ]. azul_cielo_a1 := a_qual_intr_ser_le & [ STEM < "azul_cielo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_cielo_a_rel" ]. azul_claro_a1 := a_qual_intr_ser_le & [ STEM < "azul_claro" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_claro_a_rel" ]. azul_cobalto_a1 := a_qual_intr_ser_le & [ STEM < "azul_cobalto" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_cobalto_a_rel" ]. azul_gris_a1 := a_qual_intr_ser_le & [ STEM < "azul_gris" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_gris_a_rel" ]. azul_marino_a1 := a_qual_intr_ser_le & [ STEM < "azul_marino" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_marino_a_rel" ]. azul_pardo_a1 := a_qual_intr_ser_le & [ STEM < "azul_pardo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_pardo_a_rel" ]. azul_índigo_a1 := a_qual_intr_ser_le & [ STEM < "azul_índigo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_índigo_a_rel" ]. azulejo_n1 := n_intr_count_le & [ STEM < "azulejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azulejo_n_rel" ] ]. azulgrana_a1 := a_qual_intr_ser_le & [ STEM < "azulgrana" >, SYNSEM.LKEYS.KEYREL.PRED "_azulgrana_a_rel" ]. azur_a1 := a_qual_intr_ser_le & [ STEM < "azur" >, SYNSEM.LKEYS.KEYREL.PRED "_azur_a_rel" ]. azurita_n1 := n_intr_count_le & [ STEM < "azurita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azurita_n_rel" ] ]. azurmalaquita_n1 := n_intr_mass_le & [ STEM < "azurmalaquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azurmalaquita_n_rel" ] ]. azurófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "azurófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_azurófilo_a_rel" ]. azuzar_v1 := v_trans_np_le & [ STEM < "azuzar" >, SYNSEM.LKEYS.KEYREL.PRED "_azuzar_v_rel" ]. azuzar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "azuzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_azuzar_v_rel" ] ] ]. azuzar_v3 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "azuzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_azuzar_v_rel" ] ] ]. azúcar_n1 := n_intr_mass_le & [ STEM < "azúcar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azúcar_n_rel" ] ]. aãâ±adir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_añadir_v_rel" ] ]. aãâ±adir_v2 := v_ditrans*_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_añadir_v_rel" ] ]. aãâ±adir_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL.PRED "_añadir_v_rel" ]. aãâ±adir_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "añadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_añadir_v_rel" ] ] ]. aãâ±adir_v5 := v_trans_np_mrkd_np_le & [ STEM < "añadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_añadir_v_rel" ] ] ]. aãâ±orar_v1 := v_trans_cp_prop_fin_le & [ STEM < "añorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_añorar_v_rel" ] ]. aãâ±orar_v2 := v_trans_np_le & [ STEM < "añorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_añorar_v_rel" ] ]. aéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "aéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_aéreo_a_rel" ]. añadido_n1 := n_trans_le & [ STEM < "añadido" >, SYNSEM.LKEYS.KEYREL.PRED "_añadido_n_rel" ]. añejo_a1 := a_qual_intr_scopal_le & [ STEM < "añejo" >, SYNSEM.LKEYS.KEYREL.PRED "_añejo_a_rel" ]. añico_n1 := n_intr_count_le & [ STEM < "añico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_añico_n_rel" ] ]. año_n1 := n_pseudo-part_temp_le & [ STEM < "año" >, SYNSEM.LKEYS.KEYREL.PRED "_año_n_rel" ]. año_n2 := n_intr_temp_le & [ STEM < "año" > ]. añojal_n1 := n_intr_count_le & [ STEM < "añojal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_añojal_n_rel" ] ]. añojo_n1 := n_intr_count_le & [ STEM < "añojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_añojo_n_rel" ] ]. añoranza_n1 := n_trans_le & [ STEM < "añoranza" >, SYNSEM.LKEYS.KEYREL.PRED "_añoranza_n_rel" ]. aórtico_a1 := a_rel_nonprd_intr_le & [ STEM < "aórtico" >, SYNSEM.LKEYS.KEYREL.PRED "_aórtico_a_rel" ]. aún_así_x1 := av_i_le & [ STEM < "aún_así" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_así_x_rel" ]. aún_con_eso_x1 := av_i_le & [ STEM < "aún_con_eso" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_con_eso_x_rel" ]. aún_cuando_x1 := av_i_le & [ STEM < "aún_cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_cuando_x_rel" ]. aún_x1 := av_i_le & [ STEM < "aún" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_x_rel" ]. baba_n1 := n_intr_mass_le & [ STEM < "baba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baba_n_rel" ] ]. babero_n1 := n_intr_count_le & [ STEM < "babero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_babero_n_rel" ] ]. babilla_n1 := n_intr_count_le & [ STEM < "babilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_babilla_n_rel" ] ]. babilónico_a1 := a_rel_nonprd_intr_le & [ STEM < "babilónico" >, SYNSEM.LKEYS.KEYREL.PRED "_babilónico_a_rel" ]. bable_n1 := n_intr_count_le & [ STEM < "bable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bable_n_rel" ] ]. babor_n1 := n_intr_count_le & [ STEM < "babor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_babor_n_rel" ] ]. babosa_n1 := n_intr_count_le & [ STEM < "babosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_babosa_n_rel" ] ]. baboso_a1 := a_qual_intr_ser_le & [ STEM < "baboso" >, SYNSEM.LKEYS.KEYREL.PRED "_baboso_a_rel" ]. babucha_n1 := n_intr_count_le & [ STEM < "babucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_babucha_n_rel" ] ]. babuino_n1 := n_intr_count_le & [ STEM < "babuino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_babuino_n_rel" ] ]. baca_n1 := n_intr_count_le & [ STEM < "baca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baca_n_rel" ] ]. bacaladero_n1 := n_intr_count_le & [ STEM < "bacaladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bacaladero_n_rel" ] ]. bacaladilla_n1 := n_intr_count_le & [ STEM < "bacaladilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacaladilla_n_rel" ] ]. bacalao_n1 := n_intr_count_le & [ STEM < "bacalao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacalao_n_rel" ] ]. bacanal_n1 := n_intr_count_le & [ STEM < "bacanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacanal_n_rel" ] ]. bacante_n1 := n_intr_count_le & [ STEM < "bacante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bacante_n_rel" ] ]. bacará_n1 := n_intr_count_le & [ STEM < "bacará" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacará_n_rel" ] ]. bache_n1 := n_intr_count_le & [ STEM < "bache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bache_n_rel" ] ]. bachiller_n1 := n_intr_count_le & [ STEM < "bachiller" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bachiller_n_rel" ] ]. bachillerato_n1 := n_intr_count_le & [ STEM < "bachillerato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bachillerato_n_rel" ] ]. bacilo_n1 := n_intr_count_le & [ STEM < "bacilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacilo_n_rel" ] ]. bacitracina_n1 := n_intr_count_le & [ STEM < "bacitracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bacitracina_n_rel" ] ]. backgamon_n1 := n_intr_uncount_le & [ STEM < "backgamon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_backgamon_n_rel" ] ]. bacon_n1 := n_intr_count_le & [ STEM < "bacon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacon_n_rel" ] ]. bacteria_n1 := n_intr_count_le & [ STEM < "bacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacteria_n_rel" ] ]. bacteriano_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriano" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriano_a_rel" ]. bactericida_a1 := a_rel_nonprd_intr_le & [ STEM < "bactericida" >, SYNSEM.LKEYS.KEYREL.PRED "_bactericida_a_rel" ]. bactericida_n1 := n_intr_mass_le & [ STEM < "bactericida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bactericida_n_rel" ] ]. bactericidina_n1 := n_intr_count_le & [ STEM < "bactericidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bactericidina_n_rel" ] ]. bacteriocina_n1 := n_intr_count_le & [ STEM < "bacteriocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriocina_n_rel" ] ]. bacteriolisina_n1 := n_intr_count_le & [ STEM < "bacteriolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriolisina_n_rel" ] ]. bacteriología_n1 := n_intr_uncount_le & [ STEM < "bacteriología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriología_n_rel" ] ]. bacteriológicamente_x1 := av_i_spr_le & [ STEM < "bacteriológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriológicamente_x_rel" ]. bacteriológico_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriológico" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriológico_a_rel" ]. bacteriorrodopsina_n1 := n_intr_count_le & [ STEM < "bacteriorrodopsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriorrodopsina_n_rel" ] ]. bacteriosis_n1 := n_intr_uncount_le & [ STEM < "bacteriosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriosis_n_rel" ] ]. bacteriostato_n1 := n_intr_count_le & [ STEM < "bacteriostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriostato_n_rel" ] ]. bacteriostático_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriostático" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriostático_a_rel" ]. bacteriófago_n1 := n_intr_count_le & [ STEM < "bacteriófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacteriófago_n_rel" ] ]. bacteriógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriógeno_a_rel" ]. bacteriólisis_n1 := n_intr_uncount_le & [ STEM < "bacteriólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriólisis_n_rel" ] ]. bacteriólogo_n1 := n_intr_count_le & [ STEM < "bacteriólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bacteriólogo_n_rel" ] ]. bacterióstasis_n1 := n_intr_uncount_le & [ STEM < "bacterióstasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacterióstasis_n_rel" ] ]. baculiforme_a1 := a_qual_intr_ser_le & [ STEM < "baculiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_baculiforme_a_rel" ]. badajo_n1 := n_intr_count_le & [ STEM < "badajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badajo_n_rel" ] ]. badalonés_a1 := a_qual_intr_ser_le & [ STEM < "badalonés" >, SYNSEM.LKEYS.KEYREL.PRED "_badalonés_a_rel" ]. badalonés_n1 := n_intr_count_le & [ STEM < "badalonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_badalonés_n_rel" ] ]. badana_n1 := n_intr_count_le & [ STEM < "badana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badana_n_rel" ] ]. badeleyita_n1 := n_intr_count_le & [ STEM < "badeleyita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badeleyita_n_rel" ] ]. badén_n1 := n_intr_count_le & [ STEM < "badén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badén_n_rel" ] ]. bagaje_n1 := n_intr_mass_le & [ STEM < "bagaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bagaje_n_rel" ] ]. bagatela_n1 := n_intr_count_le & [ STEM < "bagatela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bagatela_n_rel" ] ]. bagazo_n1 := n_intr_count_le & [ STEM < "bagazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bagazo_n_rel" ] ]. bagurense_n1 := n_intr_count_le & [ STEM < "bagurense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bagurense_n_rel" ] ]. bahameño_a1 := a_qual_intr_ser_le & [ STEM < "bahameño" >, SYNSEM.LKEYS.KEYREL.PRED "_bahameño_a_rel" ]. bahameño_n1 := n_intr_count_le & [ STEM < "bahameño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bahameño_n_rel" ] ]. bahía_n1 := n_intr_count_le & [ STEM < "bahía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bahía_n_rel" ] ]. bailable_a1 := a_rel_nonprd_intr_le & [ STEM < "bailable" >, SYNSEM.LKEYS.KEYREL.PRED "_bailable_a_rel" ]. bailar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "bailar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ] ]. bailar_v2 := v_intr_mrkd_np_le & [ STEM < "bailar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ] ]. bailar_v3 := v_trans_np*_le & [ STEM < "bailar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ]. bailarín_n1 := n_intr_count_le & [ STEM < "bailarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bailarín_n_rel" ] ]. baile_n1 := n_result_intr_le & [ STEM < "baile" >, SYNSEM.LKEYS.KEYREL.PRED "_baile_n_rel" ]. baile_n2 := n_intr_count_le & [ STEM < "baile" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baile_n_rel" ] ]. bailotear_v := v_trans_np*_le & [ STEM < "bailotear" >, SYNSEM.LKEYS.KEYREL.PRED "_bailotear_v_rel" ]. bainita_n1 := n_intr_mass-or-count_le & [ STEM < "bainita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_bainita_n_rel" ] ]. baja_n1 := n_event-result_intr_le & [ STEM < "baja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baja_n_rel" ] ]. bajalengua_n1 := n_intr_count_le & [ STEM < "bajalengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajalengua_n_rel" ] ]. bajamar_n1 := n_intr_count_le & [ STEM < "bajamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajamar_n_rel" ] ]. bajante_n1 := n_intr_count_le & [ STEM < "bajante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajante_n_rel" ] ]. bajapieles_n1 := n_intr_count_le & [ STEM < "bajapieles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajapieles_n_rel" ] ]. bajar_v1 := v_intr_mrkd_np_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_bajar_v_rel" ] ]. bajar_v2 := v_non_pass_np_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mea, PRED "_bajar_v_rel" ] ]. bajar_v3 := v_pron_unacc_lcomp_dir*_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL.PRED "_bajar_v_rel" ]. bajar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bajar_v_rel" ] ] ]. bajar_v5 := v_trans_np_mrkd_np*_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_bajar_v_rel" ] ]. bajar_v6 := v_trans_np*_lcomp_dir_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL.PRED "_bajar_v_rel" ]. bajel_n1 := n_intr_count_le & [ STEM < "bajel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajel_n_rel" ] ]. bajero_a1 := a_rel_nonprd_intr_le & [ STEM < "bajero" >, SYNSEM.LKEYS.KEYREL.PRED "_bajero_a_rel" ]. bajeza_n1 := n_ppcomp_count_le & [ STEM < "bajeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajeza_n_rel" ] ]. bajista_a1 := a_rel_nonprd_intr_le & [ STEM < "bajista" >, SYNSEM.LKEYS.KEYREL.PRED "_bajista_a_rel" ]. bajista_n1 := n_intr_count_le & [ STEM < "bajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bajista_n_rel" ] ]. bajo_a1 := a_qual_intr_scopal_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_a_rel" ]. bajo_cuerda_x1 := av_i_le & [ STEM < "bajo_cuerda" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_cuerda_x_rel" ]. bajo_juramento_x1 := av_i_le & [ STEM < "bajo_juramento" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_juramento_x_rel" ]. bajo_llave_x1 := av_i_le & [ STEM < "bajo_llave" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_llave_x_rel" ]. bajo_mano_x1 := av_i_le & [ STEM < "bajo_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_mano_x_rel" ]. bajo_n1 := n_intr_count_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_bajo_n_rel" ] ]. bajo_ningún_concepto_x1 := av_i_le & [ STEM < "bajo_ningún_concepto" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_ningún_concepto_x_rel" ]. bajo_p_nmod := p_nmod_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED _bajo_p_rel ]. bajo_p_vmod := p_vmod_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED _bajo_p_rel ]. bajo_siete_llaves_x1 := av_i_le & [ STEM < "bajo_siete_llaves" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_siete_llaves_x_rel" ]. bajocarda_n1 := n_intr_count_le & [ STEM < "bajocarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajocarda_n_rel" ] ]. bajorrelieve_n1 := n_intr_count_le & [ STEM < "bajorrelieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajorrelieve_n_rel" ] ]. bajura_n1 := n_ppcomp_count_le & [ STEM < "bajura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajura_n_rel" ] ]. bajío_n1 := n_intr_count_le & [ STEM < "bajío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bajío_n_rel" ] ]. bajón_n1 := n_intr_count_le & [ STEM < "bajón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajón_n_rel" ] ]. bala_n1 := n_intr_count_le & [ STEM < "bala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bala_n_rel" ] ]. balada_n1 := n_intr_count_le & [ STEM < "balada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balada_n_rel" ] ]. baladí_a1 := a_rel_nonprd_intr_le & [ STEM < "baladí" >, SYNSEM.LKEYS.KEYREL.PRED "_baladí_a_rel" ]. balalaica_n1 := n_intr_count_le & [ STEM < "balalaica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balalaica_n_rel" ] ]. balance_n1 := n_intr_count_le & [ STEM < "balance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balance_n_rel" ] ]. balanceante_a1 := a_rel_nonprd_intr_le & [ STEM < "balanceante" >, SYNSEM.LKEYS.KEYREL.PRED "_balanceante_a_rel" ]. balancear_v := v_trans_np_caus_le & [ STEM < "balancear" >, SYNSEM.LKEYS.KEYREL.PRED "_balancear_v_rel" ]. balanceo_n1 := n_trans_le & [ STEM < "balanceo" >, SYNSEM.LKEYS.KEYREL.PRED "_balanceo_n_rel" ]. balancímetro_n1 := n_intr_count_le & [ STEM < "balancímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balancímetro_n_rel" ] ]. balancín_n1 := n_intr_count_le & [ STEM < "balancín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balancín_n_rel" ] ]. balandra_n1 := n_intr_count_le & [ STEM < "balandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balandra_n_rel" ] ]. balandro_n1 := n_intr_count_le & [ STEM < "balandro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balandro_n_rel" ] ]. balanza_n1 := n_intr_count_le & [ STEM < "balanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_balanza_n_rel" ] ]. balar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balar_v_rel" ] ]. balar_v2 := v_ditrans*_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balar_v_rel" ] ]. balar_v3 := v_intr_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_balar_v_rel" ] ]. balasto_n1 := n_intr_mass_le & [ STEM < "balasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balasto_n_rel" ] ]. balata_n1 := n_intr_count_le & [ STEM < "balata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_balata_n_rel" ] ]. balaustrada_n1 := n_intr_count_le & [ STEM < "balaustrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balaustrada_n_rel" ] ]. balaustre_n1 := n_intr_count_le & [ STEM < "balaustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balaustre_n_rel" ] ]. balazo_n1 := n_intr_count_le & [ STEM < "balazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balazo_n_rel" ] ]. balbucear_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucear_v_rel" ] ]. balbucear_v2 := v_ditrans_cp_ques_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL.PRED "_balbucear_v_rel" ]. balbucear_v3 := v_ditrans*_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucear_v_rel" ] ]. balbuceo_n1 := n_result_intr_le & [ STEM < "balbuceo" >, SYNSEM.LKEYS.KEYREL.PRED "_balbuceo_n_rel" ]. balbucir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "balbucir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucir_v_rel" ] ]. balbucir_v2 := v_ditrans*_le & [ STEM < "balbucir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_balbucir_v_rel" ] ]. balcanización_n1 := n_trans_le & [ STEM < "balcanización" >, SYNSEM.LKEYS.KEYREL.PRED "_balcanización_n_rel" ]. balcanizar_v := v_trans_np_caus_le & [ STEM < "balcanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_balcanizar_v_rel" ]. balcánico_a1 := a_rel_prd_le & [ STEM < "balcánico" >, SYNSEM.LKEYS.KEYREL.PRED "_balcánico_a_rel" ]. balcón_n1 := n_intr_count_le & [ STEM < "balcón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_balcón_n_rel" ] ]. balde_n1 := n_intr_count_le & [ STEM < "balde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balde_n_rel" ] ]. baldosa_n1 := n_intr_count_le & [ STEM < "baldosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baldosa_n_rel" ] ]. baldosín_n1 := n_intr_count_le & [ STEM < "baldosín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baldosín_n_rel" ] ]. baldíamente_x1 := av_i_spr_le & [ STEM < "baldíamente" >, SYNSEM.LKEYS.KEYREL.PRED "_baldíamente_x_rel" ]. baldío_a1 := a_rel_prd_le & [ STEM < "baldío" >, SYNSEM.LKEYS.KEYREL.PRED "_baldío_a_rel" ]. baldío_n1 := n_intr_count_le & [ STEM < "baldío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_baldío_n_rel" ] ]. balear_a1 := a_rel_prd_le & [ STEM < "balear" >, SYNSEM.LKEYS.KEYREL.PRED "_balear_a_rel" ]. balear_n1 := n_intr_count_le & [ STEM < "balear" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balear_n_rel" ] ]. balido_n1 := n_result_intr_le & [ STEM < "balido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balido_n_rel" ] ]. baliza_n1 := n_intr_count_le & [ STEM < "baliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baliza_n_rel" ] ]. balizamiento_n1 := n_trans_le & [ STEM < "balizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_balizamiento_n_rel" ]. balizar_v := v_trans_np_le & [ STEM < "balizar" >, SYNSEM.LKEYS.KEYREL.PRED "_balizar_v_rel" ]. ballena_n1 := n_intr_count_le & [ STEM < "ballena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ballena_n_rel" ] ]. ballenera_n1 := n_intr_count_le & [ STEM < "ballenera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ballenera_n_rel" ] ]. ballenero_a1 := a_rel_nonprd_intr_le & [ STEM < "ballenero" >, SYNSEM.LKEYS.KEYREL.PRED "_ballenero_a_rel" ]. ballenero_n1 := n_intr_count_le & [ STEM < "ballenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ballenero_n_rel" ] ]. ballesta_n1 := n_intr_count_le & [ STEM < "ballesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballesta_n_rel" ] ]. ballestero_n1 := n_intr_count_le & [ STEM < "ballestero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ballestero_n_rel" ] ]. ballestrinque_n1 := n_intr_count_le & [ STEM < "ballestrinque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballestrinque_n_rel" ] ]. ballestón_n1 := n_intr_count_le & [ STEM < "ballestón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballestón_n_rel" ] ]. ballet_n1 := n_intr_uncount_pl_le & [ STEM < "ballet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ballet_n_rel" ] ]. balneario_n1 := n_intr_count_le & [ STEM < "balneario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_balneario_n_rel" ] ]. balneoterapia_n1 := n_intr_uncount_le & [ STEM < "balneoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balneoterapia_n_rel" ] ]. balompié_n1 := n_intr_uncount_le & [ STEM < "balompié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balompié_n_rel" ] ]. baloncestista_n1 := n_intr_count_le & [ STEM < "baloncestista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_baloncestista_n_rel" ] ]. baloncesto_n1 := n_intr_uncount_le & [ STEM < "baloncesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baloncesto_n_rel" ] ]. balonmanista_n1 := n_intr_count_le & [ STEM < "balonmanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balonmanista_n_rel" ] ]. balonmano_n1 := n_intr_uncount_le & [ STEM < "balonmano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balonmano_n_rel" ] ]. balonvolea_n1 := n_intr_uncount_le & [ STEM < "balonvolea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balonvolea_n_rel" ] ]. balsa_n1 := n_intr_count_le & [ STEM < "balsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balsa_n_rel" ] ]. balsero_n1 := n_intr_count_le & [ STEM < "balsero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balsero_n_rel" ] ]. balsámico_a1 := a_rel_nonprd_intr_le & [ STEM < "balsámico" >, SYNSEM.LKEYS.KEYREL.PRED "_balsámico_a_rel" ]. baluarte_n1 := n_intr_count_le & [ STEM < "baluarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baluarte_n_rel" ] ]. baluma_n1 := n_intr_count_le & [ STEM < "baluma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baluma_n_rel" ] ]. balín_n1 := n_intr_count_le & [ STEM < "balín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balín_n_rel" ] ]. balística_n1 := n_intr_uncount_le & [ STEM < "balística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balística_n_rel" ] ]. balístico_a1 := a_rel_nonprd_intr_le & [ STEM < "balístico" >, SYNSEM.LKEYS.KEYREL.PRED "_balístico_a_rel" ]. bamba_n1 := n_intr_count_le & [ STEM < "bamba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bamba_n_rel" ] ]. bambalinón_n1 := n_intr_count_le & [ STEM < "bambalinón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bambalinón_n_rel" ] ]. bambolear_v := v_trans_np_caus_le & [ STEM < "bambolear" >, SYNSEM.LKEYS.KEYREL.PRED "_bambolear_v_rel" ]. bamboleo_n1 := n_trans_le & [ STEM < "bamboleo" >, SYNSEM.LKEYS.KEYREL.PRED "_bamboleo_n_rel" ]. bambú_n1 := n_intr_mass_le & [ STEM < "bambú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_bambú_n_rel" ] ]. banal_a1 := a_qual_intr_scopal_le & [ STEM < "banal" >, SYNSEM.LKEYS.KEYREL.PRED "_banal_a_rel" ]. banalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "banalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_banalidad_n_rel" ] ]. banalizar_v := v_trans_np_le & [ STEM < "banalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_banalizar_v_rel" ]. banana_n1 := n_intr_mass_le & [ STEM < "banana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banana_n_rel" ] ]. bananero_a1 := a_rel_nonprd_intr_le & [ STEM < "bananero" >, SYNSEM.LKEYS.KEYREL.PRED "_bananero_a_rel" ]. bananero_n1 := n_intr_count_le & [ STEM < "bananero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_bananero_n_rel" ] ]. banca_n1 := n_intr_count_le & [ STEM < "banca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_banca_n_rel" ] ]. bancada_n1 := n_intr_count_le & [ STEM < "bancada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancada_n_rel" ] ]. bancal_n1 := n_intr_count_le & [ STEM < "bancal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bancal_n_rel" ] ]. bancario_a1 := a_rel_nonprd_intr_le & [ STEM < "bancario" >, SYNSEM.LKEYS.KEYREL.PRED "_bancario_a_rel" ]. bancarrota_n1 := n_intr_uncount_le & [ STEM < "bancarrota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bancarrota_n_rel" ] ]. bancaza_n1 := n_intr_count_le & [ STEM < "bancaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancaza_n_rel" ] ]. banco_n1 := n_intr_count_le & [ STEM < "banco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_banco_n_rel" ] ]. banco_n2 := n_group_le & [ STEM < "banco" >, SYNSEM.LKEYS.KEYREL.PRED "_banco_n_rel" ]. bancocracia_n1 := n_intr_uncount_pl_le & [ STEM < "bancocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bancocracia_n_rel" ] ]. bancón_n1 := n_intr_count_le & [ STEM < "bancón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancón_n_rel" ] ]. banda_n1 := n_intr_count_le & [ STEM < "banda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_banda_n_rel" ] ]. bandada_n1 := n_intr_count_le & [ STEM < "bandada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bandada_n_rel" ] ]. bandeja_n1 := n_intr_count_le & [ STEM < "bandeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandeja_n_rel" ] ]. bandera_n1 := n_intr_count_le & [ STEM < "bandera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandera_n_rel" ] ]. banderilla_n1 := n_intr_count_le & [ STEM < "banderilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderilla_n_rel" ] ]. banderillero_n1 := n_intr_count_le & [ STEM < "banderillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_banderillero_n_rel" ] ]. banderita_n1 := n_intr_count_le & [ STEM < "banderita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderita_n_rel" ] ]. banderola_n1 := n_intr_count_le & [ STEM < "banderola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderola_n_rel" ] ]. banderín_n1 := n_intr_count_le & [ STEM < "banderín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderín_n_rel" ] ]. bandidaje_n1 := n_intr_mass_le & [ STEM < "bandidaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bandidaje_n_rel" ] ]. bandido_n1 := n_intr_count_le & [ STEM < "bandido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bandido_n_rel" ] ]. bando_n1 := n_intr_count_le & [ STEM < "bando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem_soc, PRED "_bando_n_rel" ] ]. bandolera_n1 := n_intr_count_le & [ STEM < "bandolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandolera_n_rel" ] ]. bandolero_n1 := n_intr_count_le & [ STEM < "bandolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bandolero_n_rel" ] ]. bandurria_n1 := n_intr_count_le & [ STEM < "bandurria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandurria_n_rel" ] ]. banjo_n1 := n_intr_count_le & [ STEM < "banjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banjo_n_rel" ] ]. banquero_n1 := n_intr_count_le & [ STEM < "banquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_banquero_n_rel" ] ]. banqueta_n1 := n_intr_count_le & [ STEM < "banqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banqueta_n_rel" ] ]. banquete_n1 := n_intr_count_le & [ STEM < "banquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_banquete_n_rel" ] ]. banquillo_n1 := n_intr_count_le & [ STEM < "banquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_banquillo_n_rel" ] ]. banquisa_n1 := n_intr_count_le & [ STEM < "banquisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banquisa_n_rel" ] ]. bantú_n1 := n_intr_count_le & [ STEM < "bantú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bantú_n_rel" ] ]. bao_n1 := n_intr_count_le & [ STEM < "bao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bao_n_rel" ] ]. baobab_n1 := n_intr_count_le & [ STEM < "baobab" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_baobab_n_rel" ] ]. baptisterio_n1 := n_intr_count_le & [ STEM < "baptisterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baptisterio_n_rel" ] ]. baquelita_n1 := n_intr_mass_le & [ STEM < "baquelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_baquelita_n_rel" ] ]. baqueta_n1 := n_intr_count_le & [ STEM < "baqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baqueta_n_rel" ] ]. baquetilla_n1 := n_intr_count_le & [ STEM < "baquetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baquetilla_n_rel" ] ]. bar_n1 := n_intr_count_le & [ STEM < "bar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bar_n_rel" ] ]. baraja_n1 := n_intr_count_le & [ STEM < "baraja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baraja_n_rel" ] ]. barajar_v := v_trans_np*_le & [ STEM < "barajar" >, SYNSEM.LKEYS.KEYREL.PRED "_barajar_v_rel" ]. baranda_n1 := n_intr_count_le & [ STEM < "baranda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baranda_n_rel" ] ]. barandilla_n1 := n_intr_count_le & [ STEM < "barandilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barandilla_n_rel" ] ]. baratería_n1 := n_intr_uncount_le & [ STEM < "baratería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baratería_n_rel" ] ]. baratija_n1 := n_intr_count_le & [ STEM < "baratija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baratija_n_rel" ] ]. baratillo_n1 := n_intr_count_le & [ STEM < "baratillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baratillo_n_rel" ] ]. barato_a1 := a_qual_intr_scopal_le & [ STEM < "barato" >, SYNSEM.LKEYS.KEYREL.PRED "_barato_a_rel" ]. baratura_n1 := n_ppcomp_count_le & [ STEM < "baratura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baratura_n_rel" ] ]. barba_n1 := n_intr_count_le & [ STEM < "barba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barba_n_rel" ] ]. barbacana_n1 := n_intr_count_le & [ STEM < "barbacana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_barbacana_n_rel" ] ]. barbacoa_n1 := n_intr_count_le & [ STEM < "barbacoa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_barbacoa_n_rel" ] ]. barbada_n1 := n_intr_count_le & [ STEM < "barbada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_barbada_n_rel" ] ]. barbar_v1 := v_intr_le & [ STEM < "barbar" >, SYNSEM.LKEYS.KEYREL.PRED "_barbar_v_rel" ]. barbar_v2 := v_trans_np_le & [ STEM < "barbar" >, SYNSEM.LKEYS.KEYREL.PRED "_barbar_v_rel" ]. barbaridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "barbaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbaridad_n_rel" ] ]. barbarie_n1 := n_intr_mass-or-count_le & [ STEM < "barbarie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbarie_n_rel" ] ]. barbarismo_n1 := n_intr_count_le & [ STEM < "barbarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbarismo_n_rel" ] ]. barbastelo_n1 := n_intr_count_le & [ STEM < "barbastelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbastelo_n_rel" ] ]. barbecho_n1 := n_trans_le & [ STEM < "barbecho" >, SYNSEM.LKEYS.KEYREL.PRED "_barbecho_n_rel" ]. barbecho_n2 := n_intr_count_le & [ STEM < "barbecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barbecho_n_rel" ] ]. barbero_n1 := n_intr_count_le & [ STEM < "barbero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barbero_n_rel" ] ]. barbería_n1 := n_intr_count_le & [ STEM < "barbería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barbería_n_rel" ] ]. barbilampiño_a1 := a_qual_intr_ser_le & [ STEM < "barbilampiño" >, SYNSEM.LKEYS.KEYREL.PRED "_barbilampiño_a_rel" ]. barbilla_n1 := n_ppcomp_count_le & [ STEM < "barbilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_barbilla_n_rel" ] ]. barbillón_n1 := n_intr_count_le & [ STEM < "barbillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbillón_n_rel" ] ]. barbital_n1 := n_intr_count_le & [ STEM < "barbital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barbital_n_rel" ] ]. barbitona_n1 := n_intr_count_le & [ STEM < "barbitona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barbitona_n_rel" ] ]. barbitúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "barbitúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_barbitúrico_a_rel" ]. barbitúrico_n1 := n_intr_count_le & [ STEM < "barbitúrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbitúrico_n_rel" ] ]. barbo_n1 := n_intr_count_le & [ STEM < "barbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbo_n_rel" ] ]. barboteo_n1 := n_result_intr_le & [ STEM < "barboteo" >, SYNSEM.LKEYS.KEYREL.PRED "_barboteo_n_rel" ]. barbotina_n1 := n_intr_count_le & [ STEM < "barbotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbotina_n_rel" ] ]. barbour_n1 := n_intr_count_le & [ STEM < "barbour" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbour_n_rel" ] ]. barbudo_a1 := a_qual_intr_ser_le & [ STEM < "barbudo" >, SYNSEM.LKEYS.KEYREL.PRED "_barbudo_a_rel" ]. barbullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "barbullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barbullar_v_rel" ] ]. barbullar_v2 := v_ditrans*_le & [ STEM < "barbullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_barbullar_v_rel" ] ]. barbáricamente_x1 := av_i_spr_le & [ STEM < "barbáricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_barbáricamente_x_rel" ]. barbárico_a1 := a_qual_intr_scopal_le & [ STEM < "barbárico" >, SYNSEM.LKEYS.KEYREL.PRED "_barbárico_a_rel" ]. barca_n1 := n_intr_count_le & [ STEM < "barca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barca_n_rel" ] ]. barcarola_n1 := n_intr_count_le & [ STEM < "barcarola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barcarola_n_rel" ] ]. barcaza_n1 := n_intr_count_le & [ STEM < "barcaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barcaza_n_rel" ] ]. barcelonismo_n1 := n_intr_count_le & [ STEM < "barcelonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barcelonismo_n_rel" ] ]. barcelonista_a1 := a_rel_prd_le & [ STEM < "barcelonista" >, SYNSEM.LKEYS.KEYREL.PRED "_barcelonista_a_rel" ]. barcelonista_n1 := n_intr_count_le & [ STEM < "barcelonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barcelonista_n_rel" ] ]. barcelonés_a1 := a_rel_prd_le & [ STEM < "barcelonés" >, SYNSEM.LKEYS.KEYREL.PRED "_barcelonés_a_rel" ]. barcelonés_n1 := n_intr_count_le & [ STEM < "barcelonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barcelonés_n_rel" ] ]. barco_n1 := n_intr_count_le & [ STEM < "barco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barco_n_rel" ] ]. bardo_n1 := n_intr_count_le & [ STEM < "bardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bardo_n_rel" ] ]. baremo_n1 := n_intr_count_le & [ STEM < "baremo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baremo_n_rel" ] ]. baricentro_n1 := n_intr_count_le & [ STEM < "baricentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baricentro_n_rel" ] ]. baricéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "baricéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_baricéntrico_a_rel" ]. bario_n1 := n_intr_mass_le & [ STEM < "bario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bario_n_rel" ] ]. barisfera_n1 := n_intr_count_le & [ STEM < "barisfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barisfera_n_rel" ] ]. barita_n1 := n_intr_mass_le & [ STEM < "barita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barita_n_rel" ] ]. baritina_n1 := n_intr_mass-or-count_le & [ STEM < "baritina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_baritina_n_rel" ] ]. barloa_n1 := n_intr_count_le & [ STEM < "barloa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barloa_n_rel" ] ]. barlovento_n1 := n_intr_uncount_le & [ STEM < "barlovento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barlovento_n_rel" ] ]. barniz_n1 := n_intr_mass_le & [ STEM < "barniz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barniz_n_rel" ] ]. barnizado_n1 := n_trans_le & [ STEM < "barnizado" >, SYNSEM.LKEYS.KEYREL.PRED "_barnizado_n_rel" ]. barnizador_n1 := n_subj-nom_le & [ STEM < "barnizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barnizador_n_rel" ] ]. barnizar_v := v_trans_np_le & [ STEM < "barnizar" >, SYNSEM.LKEYS.KEYREL.PRED "_barnizar_v_rel" ]. baroclínico_a1 := a_rel_nonprd_intr_le & [ STEM < "baroclínico" >, SYNSEM.LKEYS.KEYREL.PRED "_baroclínico_a_rel" ]. barodifusión_n1 := n_trans_le & [ STEM < "barodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_barodifusión_n_rel" ]. barodontalgia_n1 := n_intr_uncount_le & [ STEM < "barodontalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barodontalgia_n_rel" ] ]. barométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "barométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_barométrico_a_rel" ]. baronesa_n1 := n_intr_count_le & [ STEM < "baronesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_baronesa_n_rel" ] ]. baronía_n1 := n_intr_count_le & [ STEM < "baronía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baronía_n_rel" ] ]. barotitis_n1 := n_intr_uncount_le & [ STEM < "barotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barotitis_n_rel" ] ]. barotraumatismo_n1 := n_intr_count_le & [ STEM < "barotraumatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barotraumatismo_n_rel" ] ]. barotraumático_a1 := a_rel_nonprd_intr_le & [ STEM < "barotraumático" >, SYNSEM.LKEYS.KEYREL.PRED "_barotraumático_a_rel" ]. barotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "barotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_barotrópico_a_rel" ]. barquero_n1 := n_intr_count_le & [ STEM < "barquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barquero_n_rel" ] ]. barquilla_n1 := n_intr_count_le & [ STEM < "barquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquilla_n_rel" ] ]. barquillo_n1 := n_intr_count_le & [ STEM < "barquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquillo_n_rel" ] ]. barquita_n1 := n_intr_count_le & [ STEM < "barquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquita_n_rel" ] ]. barra_n1 := n_intr_count_le & [ STEM < "barra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barra_n_rel" ] ]. barra_n2 := n_pseudo-part_le & [ STEM < "barra" >, SYNSEM.LKEYS.KEYREL.PRED "_barra_n_rel" ]. barraca_n1 := n_intr_count_le & [ STEM < "barraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barraca_n_rel" ] ]. barracuda_n1 := n_intr_count_le & [ STEM < "barracuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barracuda_n_rel" ] ]. barracón_n1 := n_intr_count_le & [ STEM < "barracón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barracón_n_rel" ] ]. barranco_n1 := n_intr_count_le & [ STEM < "barranco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barranco_n_rel" ] ]. barranquismo_n1 := n_intr_uncount_le & [ STEM < "barranquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barranquismo_n_rel" ] ]. barrar_v := v_trans_np_le & [ STEM < "barrar" >, SYNSEM.LKEYS.KEYREL.PRED "_barrar_v_rel" ]. barrear_v := v_trans_np_le & [ STEM < "barrear" >, SYNSEM.LKEYS.KEYREL.PRED "_barrear_v_rel" ]. barredora_n1 := n_intr_count_le & [ STEM < "barredora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barredora_n_rel" ] ]. barredura_n1 := n_intr_mass_le & [ STEM < "barredura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barredura_n_rel" ] ]. barreminas_n1 := n_intr_count_le & [ STEM < "barreminas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barreminas_n_rel" ] ]. barrena_n1 := n_intr_count_le & [ STEM < "barrena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrena_n_rel" ] ]. barrenador_n1 := n_intr_count_le & [ STEM < "barrenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrenador_n_rel" ] ]. barrenar_v := v_trans_np_le & [ STEM < "barrenar" >, SYNSEM.LKEYS.KEYREL.PRED "_barrenar_v_rel" ]. barrendero_n1 := n_intr_count_le & [ STEM < "barrendero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barrendero_n_rel" ] ]. barreno_n1 := n_intr_count_le & [ STEM < "barreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreno_n_rel" ] ]. barrer_v1 := v_trans_np_le & [ STEM < "barrer" >, SYNSEM.LKEYS.KEYREL.PRED "_barrer_v_rel" ]. barrer_v2 := v_intr_le & [ STEM < "barrer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barrer_v_rel" ] ]. barrera_n1 := n_intr_count_le & [ STEM < "barrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_barrera_n_rel" ] ]. barreta_n1 := n_intr_count_le & [ STEM < "barreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreta_n_rel" ] ]. barreño_n1 := n_intr_count_le & [ STEM < "barreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreño_n_rel" ] ]. barriada_n1 := n_intr_count_le & [ STEM < "barriada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barriada_n_rel" ] ]. barrica_n1 := n_intr_count_le & [ STEM < "barrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrica_n_rel" ] ]. barricada_n1 := n_intr_count_le & [ STEM < "barricada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barricada_n_rel" ] ]. barrido_n1 := n_trans_le & [ STEM < "barrido" >, SYNSEM.LKEYS.KEYREL.PRED "_barrido_n_rel" ]. barriga_n1 := n_ppcomp_count_le & [ STEM < "barriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_barriga_n_rel" ] ]. barril_n1 := n_intr_count_le & [ STEM < "barril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barril_n_rel" ] ]. barrilete_n1 := n_intr_count_le & [ STEM < "barrilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrilete_n_rel" ] ]. barrilla_n1 := n_intr_count_le & [ STEM < "barrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrilla_n_rel" ] ]. barrio_n1 := n_intr_count_le & [ STEM < "barrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barrio_n_rel" ] ]. barrita_n1 := n_intr_count_le & [ STEM < "barrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrita_n_rel" ] ]. barrizal_n1 := n_intr_count_le & [ STEM < "barrizal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barrizal_n_rel" ] ]. barro_n1 := n_intr_mass-or-count_le & [ STEM < "barro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_barro_n_rel" ] ]. barrocamente_x1 := av_i_spr_le & [ STEM < "barrocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_barrocamente_x_rel" ]. barroco_a1 := a_rel_nonprd_intr_le & [ STEM < "barroco" >, SYNSEM.LKEYS.KEYREL.PRED "_barroco_a_rel" ]. barroquismo_n1 := n_intr_uncount_le & [ STEM < "barroquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barroquismo_n_rel" ] ]. barrote_n1 := n_intr_count_le & [ STEM < "barrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrote_n_rel" ] ]. barruntar_v1 := v_trans_cp_prop_fin_le & [ STEM < "barruntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barruntar_v_rel" ] ]. barruntar_v2 := v_trans_np_le & [ STEM < "barruntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barruntar_v_rel" ] ]. bartrina_n1 := n_intr_count_le & [ STEM < "bartrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bartrina_n_rel" ] ]. barullo_n1 := n_intr_mass_le & [ STEM < "barullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barullo_n_rel" ] ]. barítono_n1 := n_intr_count_le & [ STEM < "barítono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barítono_n_rel" ] ]. barógrafo_n1 := n_intr_count_le & [ STEM < "barógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barógrafo_n_rel" ] ]. barómetro_n1 := n_intr_count_le & [ STEM < "barómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barómetro_n_rel" ] ]. barón_n1 := n_intr_count_le & [ STEM < "barón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barón_n_rel" ] ]. basal_a1 := a_rel_nonprd_intr_le & [ STEM < "basal" >, SYNSEM.LKEYS.KEYREL.PRED "_basal_a_rel" ]. basalto_n1 := n_intr_mass_le & [ STEM < "basalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_basalto_n_rel" ] ]. basamento_n1 := n_intr_count_le & [ STEM < "basamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basamento_n_rel" ] ]. basar_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "basar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_basar_v_rel" ] ]. basar_v2 := v_trans_np_mrkd_cp_prop_fin_ind_caus_le & [ STEM < "basar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_basar_v_rel" ] ]. basculable_a1 := a_rel_nonprd_intr_le & [ STEM < "basculable" >, SYNSEM.LKEYS.KEYREL.PRED "_basculable_a_rel" ]. basculación_n1 := n_event-result_intr_le & [ STEM < "basculación" >, SYNSEM.LKEYS.KEYREL.PRED "_basculación_n_rel" ]. basculador_n1 := n_intr_count_le & [ STEM < "basculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basculador_n_rel" ] ]. basculante_a1 := a_rel_nonprd_intr_le & [ STEM < "basculante" >, SYNSEM.LKEYS.KEYREL.PRED "_basculante_a_rel" ]. bascular_v := v_trans_np*_le & [ STEM < "bascular" >, SYNSEM.LKEYS.KEYREL.PRED "_bascular_v_rel" ]. base_n1 := n_intr_count_le & [ STEM < "base" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_hum, PRED "_base_n_rel" ] ]. basialveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "basialveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_basialveolar_a_rel" ]. basicidad_n1 := n_ppcomp_mass_le & [ STEM < "basicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basicidad_n_rel" ] ]. basicraneal_a1 := a_rel_nonprd_intr_le & [ STEM < "basicraneal" >, SYNSEM.LKEYS.KEYREL.PRED "_basicraneal_a_rel" ]. basifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "basifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_basifacial_a_rel" ]. basilar_a1 := a_rel_nonprd_intr_le & [ STEM < "basilar" >, SYNSEM.LKEYS.KEYREL.PRED "_basilar_a_rel" ]. basilisco_n1 := n_intr_count_le & [ STEM < "basilisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basilisco_n_rel" ] ]. basimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "basimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_basimétrico_a_rel" ]. basiogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "basiogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_basiogloso_a_rel" ]. basivertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "basivertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_basivertebral_a_rel" ]. basión_n1 := n_intr_count_le & [ STEM < "basión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basión_n_rel" ] ]. basión_n2 := n_ppcomp_count_le & [ STEM < "basión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_basión_n_rel" ] ]. basket_n1 := n_intr_uncount_le & [ STEM < "basket" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basket_n_rel" ] ]. basocito_n1 := n_intr_count_le & [ STEM < "basocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basocito_n_rel" ] ]. basofilia_n1 := n_intr_uncount_le & [ STEM < "basofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basofilia_n_rel" ] ]. basolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "basolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_basolateral_a_rel" ]. bastamente_x1 := av_i_spr_le & [ STEM < "bastamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bastamente_x_rel" ]. bastante_d := d_qnt-evl-dv_bast_le & [ STEM < "bastante" > ]. bastante_p := pr_part_bastant_le & [ STEM < "bastante" >, SYNSEM.LKEYS.ALTKEYREL.PRED _bastante_q_rel ]. bastante_x1 := av_qnt-deg_le & [ STEM < "bastante" >, SYNSEM.LKEYS.KEYREL.PRED "_bastante_x_deg_rel" ]. bastante_x2 := av_qnt-pron_bast_le & [ STEM < "bastante" > ]. bastantear_v := v_trans_np_le & [ STEM < "bastantear" >, SYNSEM.LKEYS.KEYREL.PRED "_bastantear_v_rel" ]. bastanteo_n1 := n_result_intr_le & [ STEM < "bastanteo" >, SYNSEM.LKEYS.KEYREL.PRED "_bastanteo_n_rel" ]. bastar_v1 := v_intr_io*_le & [ STEM < "bastar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_bastar_v_rel" ] ]. bastar_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "bastar" >, SYNSEM.LKEYS.KEYREL.PRED "_bastar_v_rel" ]. bastardo_a1 := a_rel_nonprd_intr_le & [ STEM < "bastardo" >, SYNSEM.LKEYS.KEYREL.PRED "_bastardo_a_rel" ]. bastardo_n1 := n_intr_count_le & [ STEM < "bastardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bastardo_n_rel" ] ]. bastecer_v := v_trans_np_mrkd_np_le & [ STEM < "bastecer" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_bastecer_v_rel" ] ]. bastidor_n1 := n_intr_count_le & [ STEM < "bastidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bastidor_n_rel" ] ]. bastimento_n1 := n_intr_count_le & [ STEM < "bastimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastimento_n_rel" ] ]. bastión_n1 := n_intr_count_le & [ STEM < "bastión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastión_n_rel" ] ]. bastnesita_n1 := n_intr_count_le & [ STEM < "bastnesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bastnesita_n_rel" ] ]. basto_a1 := a_qual_intr_ser_le & [ STEM < "basto" >, SYNSEM.LKEYS.KEYREL.PRED "_basto_a_rel" ]. basto_n1 := n_intr_count_le & [ STEM < "basto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_basto_n_rel" ] ]. bastoncillo_n1 := n_intr_count_le & [ STEM < "bastoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastoncillo_n_rel" ] ]. bastón_n1 := n_intr_count_le & [ STEM < "bastón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastón_n_rel" ] ]. basura_n1 := n_intr_mass_le & [ STEM < "basura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basura_n_rel" ] ]. basurero_n1 := n_intr_count_le & [ STEM < "basurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_basurero_n_rel" ] ]. basáltico_a1 := a_rel_nonprd_intr_le & [ STEM < "basáltico" >, SYNSEM.LKEYS.KEYREL.PRED "_basáltico_a_rel" ]. basílica_n1 := n_intr_count_le & [ STEM < "basílica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_basílica_n_rel" ] ]. basófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "basófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_basófilo_a_rel" ]. basófilo_n1 := n_intr_count_le & [ STEM < "basófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basófilo_n_rel" ] ]. bata_n1 := n_intr_count_le & [ STEM < "bata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bata_n_rel" ] ]. batacazo_n1 := n_intr_count_le & [ STEM < "batacazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batacazo_n_rel" ] ]. batalla_n1 := n_result_intr_ppcomp_le & [ STEM < "batalla" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_batalla_n_rel" ] ]. batallar_v := v_intr_le & [ STEM < "batallar" >, SYNSEM.LKEYS.KEYREL.PRED "_batallar_v_rel" ]. batanero_n1 := n_intr_count_le & [ STEM < "batanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_batanero_n_rel" ] ]. batanga_n1 := n_intr_count_le & [ STEM < "batanga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batanga_n_rel" ] ]. batata_n1 := n_intr_count_le & [ STEM < "batata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_batata_n_rel" ] ]. batazo_n1 := n_intr_count_le & [ STEM < "batazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batazo_n_rel" ] ]. bate_n1 := n_intr_count_le & [ STEM < "bate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bate_n_rel" ] ]. batea_n1 := n_intr_count_le & [ STEM < "batea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batea_n_rel" ] ]. bateador_a1 := a_rel_nonprd_intr_le & [ STEM < "bateador" >, SYNSEM.LKEYS.KEYREL.PRED "_bateador_a_rel" ]. bateador_n1 := n_subj-nom_le & [ STEM < "bateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bateador_n_rel" ] ]. batefuegos_n1 := n_intr_count_le & [ STEM < "batefuegos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batefuegos_n_rel" ] ]. bateo_n1 := n_trans_le & [ STEM < "bateo" >, SYNSEM.LKEYS.KEYREL.PRED "_bateo_n_rel" ]. batería_n1 := n_intr_count_le & [ STEM < "batería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batería_n_rel" ] ]. batial_a1 := a_rel_nonprd_intr_le & [ STEM < "batial" >, SYNSEM.LKEYS.KEYREL.PRED "_batial_a_rel" ]. batiburrillo_n1 := n_intr_uncount_pl_le & [ STEM < "batiburrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batiburrillo_n_rel" ] ]. batida_n1 := n_intr_count_le & [ STEM < "batida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batida_n_rel" ] ]. batidera_n1 := n_intr_count_le & [ STEM < "batidera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batidera_n_rel" ] ]. batido_n1 := n_intr_mass_le & [ STEM < "batido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batido_n_rel" ] ]. batidor_n1 := n_intr_count_le & [ STEM < "batidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batidor_n_rel" ] ]. batidora_n1 := n_intr_count_le & [ STEM < "batidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_batidora_n_rel" ] ]. batiente_n1 := n_intr_count_le & [ STEM < "batiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batiente_n_rel" ] ]. batik_n1 := n_intr_uncount_le & [ STEM < "batik" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batik_n_rel" ] ]. batimetría_n1 := n_intr_count_le & [ STEM < "batimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batimetría_n_rel" ] ]. batimiento_n1 := n_trans_le & [ STEM < "batimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_batimiento_n_rel" ]. batimétricamente_x1 := av_i_spr_le & [ STEM < "batimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_batimétricamente_x_rel" ]. batimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "batimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_batimétrico_a_rel" ]. batipelágico_a1 := a_rel_nonprd_intr_le & [ STEM < "batipelágico" >, SYNSEM.LKEYS.KEYREL.PRED "_batipelágico_a_rel" ]. batir_v1 := v_pron_intr_mrkd_np_sym_le & [ STEM < "batir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_batir_v_rel" ] ]. batir_v2 := v_trans_np_le & [ STEM < "batir" >, SYNSEM.LKEYS.KEYREL.PRED "_batir_v_rel" ]. batiscafo_n1 := n_intr_count_le & [ STEM < "batiscafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batiscafo_n_rel" ] ]. batisfera_n1 := n_intr_count_le & [ STEM < "batisfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batisfera_n_rel" ] ]. batista_n1 := n_intr_mass_le & [ STEM < "batista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_batista_n_rel" ] ]. batitermógrafo_n1 := n_intr_count_le & [ STEM < "batitermógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batitermógrafo_n_rel" ] ]. batuta_n1 := n_intr_count_le & [ STEM < "batuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batuta_n_rel" ] ]. batán_n1 := n_intr_count_le & [ STEM < "batán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batán_n_rel" ] ]. batímetro_n1 := n_intr_count_le & [ STEM < "batímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batímetro_n_rel" ] ]. baud_n := n_intr_count_le & [ STEM < "baud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_baud_n_rel" ] ]. baudio_n := n_intr_count_le & [ STEM < "baudio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_baudio_n_rel" ] ]. bautismal_a1 := a_rel_nonprd_intr_le & [ STEM < "bautismal" >, SYNSEM.LKEYS.KEYREL.PRED "_bautismal_a_rel" ]. bautismo_n1 := n_intr_count_le & [ STEM < "bautismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bautismo_n_rel" ] ]. bautizo_n1 := n_event-result_intr_le & [ STEM < "bautizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bautizo_n_rel" ] ]. bauxita_n1 := n_intr_mass_le & [ STEM < "bauxita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bauxita_n_rel" ] ]. baya_n1 := n_intr_count_le & [ STEM < "baya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baya_n_rel" ] ]. bayadera_n1 := n_intr_count_le & [ STEM < "bayadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bayadera_n_rel" ] ]. bayesiano_a1 := a_rel_nonprd_intr_le & [ STEM < "bayesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_bayesiano_a_rel" ]. bayeta_n1 := n_intr_count_le & [ STEM < "bayeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bayeta_n_rel" ] ]. bayoneta_n1 := n_intr_count_le & [ STEM < "bayoneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bayoneta_n_rel" ] ]. baza_n1 := n_intr_count_le & [ STEM < "baza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baza_n_rel" ] ]. bazar_n1 := n_intr_count_le & [ STEM < "bazar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bazar_n_rel" ] ]. bazo_n1 := n_intr_count_le & [ STEM < "bazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bazo_n_rel" ] ]. bazofia_n1 := n_intr_mass_le & [ STEM < "bazofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bazofia_n_rel" ] ]. bañador_n1 := n_intr_count_le & [ STEM < "bañador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bañador_n_rel" ] ]. bañera_n1 := n_intr_count_le & [ STEM < "bañera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bañera_n_rel" ] ]. bañista_n1 := n_intr_count_le & [ STEM < "bañista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bañista_n_rel" ] ]. baño_n1 := n_intr_count_le & [ STEM < "baño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_baño_n_rel" ] ]. baúl_n1 := n_intr_count_le & [ STEM < "baúl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baúl_n_rel" ] ]. beatamente_x1 := av_i_spr_le & [ STEM < "beatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_beatamente_x_rel" ]. beatificación_n1 := n_trans_le & [ STEM < "beatificación" >, SYNSEM.LKEYS.KEYREL.PRED "_beatificación_n_rel" ]. beatitud_n1 := n_intr_uncount_le & [ STEM < "beatitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beatitud_n_rel" ] ]. beatnik_n1 := n_intr_count_le & [ STEM < "beatnik" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beatnik_n_rel" ] ]. beato_a1 := a_qual_intr_ser_le & [ STEM < "beato" >, SYNSEM.LKEYS.KEYREL.PRED "_beato_a_rel" ]. beato_n1 := n_intr_count_le & [ STEM < "beato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beato_n_rel" ] ]. beatífico_a1 := a_rel_nonprd_intr_le & [ STEM < "beatífico" >, SYNSEM.LKEYS.KEYREL.PRED "_beatífico_a_rel" ]. bebedero_n1 := n_intr_count_le & [ STEM < "bebedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bebedero_n_rel" ] ]. bebedor_n1 := n_subj-nom_le & [ STEM < "bebedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bebedor_n_rel" ] ]. beber_v1 := v_pron_trans_np_le & [ STEM < "beber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_beber_v_rel" ] ]. beber_v2 := v_trans_np*_le & [ STEM < "beber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_beber_v_rel" ] ]. bebible_a1 := a_qual_intr_scopal_le & [ STEM < "bebible" >, SYNSEM.LKEYS.KEYREL.PRED "_bebible_a_rel" ]. bebida_n1 := n_intr_mass_le & [ STEM < "bebida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bebida_n_rel" ] ]. bebé_n1 := n_intr_count_le & [ STEM < "bebé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bebé_n_rel" ] ]. beca_n1 := n_intr_count_le & [ STEM < "beca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beca_n_rel" ] ]. becada_n1 := n_intr_count_le & [ STEM < "becada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_becada_n_rel" ] ]. becar_v := v_trans_np_le & [ STEM < "becar" >, SYNSEM.LKEYS.KEYREL.PRED "_becar_v_rel" ]. becario_n1 := n_intr_count_le & [ STEM < "becario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_becario_n_rel" ] ]. becerro_n1 := n_intr_count_le & [ STEM < "becerro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_becerro_n_rel" ] ]. bechamel_n1 := n_intr_count_le & [ STEM < "bechamel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bechamel_n_rel" ] ]. becquerel_n := n_intr_count_le & [ STEM < "becquerel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_becquerel_n_rel" ] ]. becuadro_n1 := n_intr_count_le & [ STEM < "becuadro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_becuadro_n_rel" ] ]. bedel_n1 := n_intr_count_le & [ STEM < "bedel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bedel_n_rel" ] ]. beduino_a1 := a_rel_prd_le & [ STEM < "beduino" >, SYNSEM.LKEYS.KEYREL.PRED "_beduino_a_rel" ]. beduino_n1 := n_intr_count_le & [ STEM < "beduino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beduino_n_rel" ] ]. begonia_n1 := n_intr_count_le & [ STEM < "begonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_begonia_n_rel" ] ]. behaviorismo_n1 := n_intr_uncount_le & [ STEM < "behaviorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_behaviorismo_n_rel" ] ]. behenato_n1 := n_intr_count_le & [ STEM < "behenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_behenato_n_rel" ] ]. beige_a1 := a_qual_intr_ser_le & [ STEM < "beige" >, SYNSEM.LKEYS.KEYREL.PRED "_beige_a_rel" ]. beisbolista_n1 := n_intr_count_le & [ STEM < "beisbolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beisbolista_n_rel" ] ]. beldad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "beldad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beldad_n_rel" ] ]. beleño_n1 := n_intr_count_le & [ STEM < "beleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_beleño_n_rel" ] ]. belga_a1 := a_rel_prd_le & [ STEM < "belga" >, SYNSEM.LKEYS.KEYREL.PRED "_belga_a_rel" ]. belga_n1 := n_intr_count_le & [ STEM < "belga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_belga_n_rel" ] ]. beliceño_a1 := a_rel_prd_le & [ STEM < "beliceño" >, SYNSEM.LKEYS.KEYREL.PRED "_beliceño_a_rel" ]. beliceño_n1 := n_intr_count_le & [ STEM < "beliceño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beliceño_n_rel" ] ]. belicismo_n1 := n_ppcomp_uncount_le & [ STEM < "belicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_belicismo_n_rel" ] ]. belicista_a1 := a_qual_intr_ser_le & [ STEM < "belicista" >, SYNSEM.LKEYS.KEYREL.PRED "_belicista_a_rel" ]. belicista_n1 := n_intr_count_le & [ STEM < "belicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_belicista_n_rel" ] ]. belicosamente_x1 := av_i_spr_le & [ STEM < "belicosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_belicosamente_x_rel" ]. belicoso_a1 := a_rel_nonprd_intr_le & [ STEM < "belicoso" >, SYNSEM.LKEYS.KEYREL.PRED "_belicoso_a_rel" ]. beligerancia_n1 := n_ppcomp_uncount_le & [ STEM < "beligerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beligerancia_n_rel" ] ]. beligerante_a1 := a_rel_nonprd_intr_le & [ STEM < "beligerante" >, SYNSEM.LKEYS.KEYREL.PRED "_beligerante_a_rel" ]. beligerantemente_x1 := av_i_spr_le & [ STEM < "beligerantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_beligerantemente_x_rel" ]. belinógrafo_n1 := n_intr_count_le & [ STEM < "belinógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_belinógrafo_n_rel" ] ]. bellaco_n1 := n_intr_count_le & [ STEM < "bellaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bellaco_n_rel" ] ]. belladona_n1 := n_intr_mass-or-count_le & [ STEM < "belladona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_belladona_n_rel" ] ]. bellamente_x1 := av_i_spr_le & [ STEM < "bellamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bellamente_x_rel" ]. bellaquería_n1 := n_intr_uncount_pl_le & [ STEM < "bellaquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bellaquería_n_rel" ] ]. belleza_n1 := n_ppcomp_uncount_le & [ STEM < "belleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_belleza_n_rel" ] ]. bello_a1 := a_qual_intr_scopal_le & [ STEM < "bello" >, SYNSEM.LKEYS.KEYREL.PRED "_bello_a_rel" ]. bellota_n1 := n_intr_mass_le & [ STEM < "bellota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bellota_n_rel" ] ]. bemol_n1 := n_intr_count_le & [ STEM < "bemol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bemol_n_rel" ] ]. benceno_n1 := n_intr_mass_le & [ STEM < "benceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benceno_n_rel" ] ]. bencenofosfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bencenofosfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bencenofosfónico_a_rel" ]. bencenosulfonbutilamida_n1 := n_intr_count_le & [ STEM < "bencenosulfonbutilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bencenosulfonbutilamida_n_rel" ] ]. bencenosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bencenosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bencenosulfónico_a_rel" ]. bencidina_n1 := n_intr_count_le & [ STEM < "bencidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bencidina_n_rel" ] ]. bencilanilina_n1 := n_intr_count_le & [ STEM < "bencilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bencilanilina_n_rel" ] ]. bencina_n1 := n_intr_mass_le & [ STEM < "bencina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bencina_n_rel" ] ]. bendecir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "bendecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bendecir_v_rel" ] ]. bendecir_v2 := v_trans_np_le & [ STEM < "bendecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bendecir_v_rel" ] ]. bendición_n1 := n_trans_le & [ STEM < "bendición" >, SYNSEM.LKEYS.KEYREL.PRED "_bendición_n_rel" ]. bendito_a1 := a_rel_nonprd_intr_le & [ STEM < "bendito" >, SYNSEM.LKEYS.KEYREL.PRED "_bendito_a_rel" ]. benedictino_n1 := n_intr_count_le & [ STEM < "benedictino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benedictino_n_rel" ] ]. benefactor_n1 := n_intr_count_le & [ STEM < "benefactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benefactor_n_rel" ] ]. beneficencia_n1 := n_intr_mass_le & [ STEM < "beneficencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beneficencia_n_rel" ] ]. beneficiar_v1 := v_intr_io*_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_beneficiar_v_rel" ] ] ]. beneficiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_pro, PRED "_beneficiar_v_rel" ] ] ]. beneficiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v6 := v_trans_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiario_a1 := a_qual_intr_ser_le & [ STEM < "beneficiario" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiario_a_rel" ]. beneficiario_n1 := n_intr_count_le & [ STEM < "beneficiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beneficiario_n_rel" ] ]. beneficio_n1 := n_intr_mass_le & [ STEM < "beneficio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beneficio_n_rel" ] ]. beneficioso_a1 := a_qual_trans*_ser_le & [ STEM < "beneficioso" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_beneficioso_a_rel" ] ]. beneplácito_n1 := n_intr_uncount_pl_le & [ STEM < "beneplácito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beneplácito_n_rel" ] ]. benevolencia_n1 := n_intr_mass_le & [ STEM < "benevolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_benevolencia_n_rel" ] ]. benevolente_a1 := a_qual_intr_ser_le & [ STEM < "benevolente" >, SYNSEM.LKEYS.KEYREL.PRED "_benevolente_a_rel" ]. benevolentemente_x1 := av_i_spr_le & [ STEM < "benevolentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_benevolentemente_x_rel" ]. bengala_n1 := n_intr_count_le & [ STEM < "bengala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bengala_n_rel" ] ]. bengalí_a1 := a_rel_prd_le & [ STEM < "bengalí" >, SYNSEM.LKEYS.KEYREL.PRED "_bengalí_a_rel" ]. bengalí_n1 := n_intr_count_le & [ STEM < "bengalí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bengalí_n_rel" ] ]. benignamente_x1 := av_i_spr_le & [ STEM < "benignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_benignamente_x_rel" ]. benignidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "benignidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_benignidad_n_rel" ] ]. benigno_a1 := a_qual_intr_scopal_le & [ STEM < "benigno" >, SYNSEM.LKEYS.KEYREL.PRED "_benigno_a_rel" ]. beninés_n1 := n_intr_count_le & [ STEM < "beninés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beninés_n_rel" ] ]. benjamín_n1 := n_intr_count_le & [ STEM < "benjamín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benjamín_n_rel" ] ]. benjuí_n1 := n_intr_count_le & [ STEM < "benjuí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benjuí_n_rel" ] ]. bentonita_n1 := n_intr_mass_le & [ STEM < "bentonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bentonita_n_rel" ] ]. bentos_n1 := n_intr_coll_le & [ STEM < "bentos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bentos_n_rel" ] ]. bentónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bentónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bentónico_a_rel" ]. benzalconio_n1 := n_intr_count_le & [ STEM < "benzalconio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzalconio_n_rel" ] ]. benzaldehído_n1 := n_intr_mass_le & [ STEM < "benzaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzaldehído_n_rel" ] ]. benzamida_n1 := n_intr_count_le & [ STEM < "benzamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzamida_n_rel" ] ]. benzamina_n1 := n_intr_count_le & [ STEM < "benzamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzamina_n_rel" ] ]. benzanilida_n1 := n_intr_count_le & [ STEM < "benzanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzanilida_n_rel" ] ]. benzedrina_n1 := n_intr_count_le & [ STEM < "benzedrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzedrina_n_rel" ] ]. benzoacetato_n1 := n_intr_count_le & [ STEM < "benzoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoacetato_n_rel" ] ]. benzoato_n1 := n_intr_count_le & [ STEM < "benzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoato_n_rel" ] ]. benzocaína_n1 := n_intr_count_le & [ STEM < "benzocaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzocaína_n_rel" ] ]. benzodiacepina_n1 := n_intr_count_le & [ STEM < "benzodiacepina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzodiacepina_n_rel" ] ]. benzofenona_n1 := n_intr_count_le & [ STEM < "benzofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzofenona_n_rel" ] ]. benzoguanimina_n1 := n_intr_count_le & [ STEM < "benzoguanimina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoguanimina_n_rel" ] ]. benzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "benzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_benzoico_a_rel" ]. benzoilbenzoato_n1 := n_intr_count_le & [ STEM < "benzoilbenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoilbenzoato_n_rel" ] ]. benzol_n1 := n_intr_mass-or-count_le & [ STEM < "benzol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_benzol_n_rel" ] ]. benzonitrilo_n1 := n_intr_mass-or-count_le & [ STEM < "benzonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_benzonitrilo_n_rel" ] ]. benzotricloruro_n1 := n_intr_count_le & [ STEM < "benzotricloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzotricloruro_n_rel" ] ]. benzotrifluoruro_n1 := n_intr_count_le & [ STEM < "benzotrifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzotrifluoruro_n_rel" ] ]. benéfico_a1 := a_rel_nonprd_intr_le & [ STEM < "benéfico" >, SYNSEM.LKEYS.KEYREL.PRED "_benéfico_a_rel" ]. benévolamente_x1 := av_i_spr_le & [ STEM < "benévolamente" >, SYNSEM.LKEYS.KEYREL.PRED "_benévolamente_x_rel" ]. benévolo_a1 := a_qual_intr_ser_le & [ STEM < "benévolo" >, SYNSEM.LKEYS.KEYREL.PRED "_benévolo_a_rel" ]. beodamente_x1 := av_i_spr_le & [ STEM < "beodamente" >, SYNSEM.LKEYS.KEYREL.PRED "_beodamente_x_rel" ]. beque_n1 := n_intr_count_le & [ STEM < "beque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beque_n_rel" ] ]. berberamina_n1 := n_intr_count_le & [ STEM < "berberamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berberamina_n_rel" ] ]. berberecho_n1 := n_intr_count_le & [ STEM < "berberecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_berberecho_n_rel" ] ]. berbiquí_n1 := n_intr_count_le & [ STEM < "berbiquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berbiquí_n_rel" ] ]. bereber_n1 := n_intr_count_le & [ STEM < "bereber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bereber_n_rel" ] ]. berenjena_n1 := n_intr_mass_le & [ STEM < "berenjena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berenjena_n_rel" ] ]. bergamota_n1 := n_intr_count_le & [ STEM < "bergamota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bergamota_n_rel" ] ]. bergantín_n1 := n_intr_count_le & [ STEM < "bergantín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bergantín_n_rel" ] ]. berilio_n1 := n_intr_mass_le & [ STEM < "berilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berilio_n_rel" ] ]. berilo_n1 := n_intr_count_le & [ STEM < "berilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berilo_n_rel" ] ]. berilonita_n1 := n_intr_count_le & [ STEM < "berilonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berilonita_n_rel" ] ]. berkelio_n1 := n_intr_mass_le & [ STEM < "berkelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berkelio_n_rel" ] ]. berlina_n1 := n_intr_count_le & [ STEM < "berlina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berlina_n_rel" ] ]. berlinga_n1 := n_intr_count_le & [ STEM < "berlinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berlinga_n_rel" ] ]. berlinés_a1 := a_rel_prd_le & [ STEM < "berlinés" >, SYNSEM.LKEYS.KEYREL.PRED "_berlinés_a_rel" ]. berlinés_n1 := n_intr_count_le & [ STEM < "berlinés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_berlinés_n_rel" ] ]. berma_n1 := n_intr_count_le & [ STEM < "berma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_berma_n_rel" ] ]. bermejo_a1 := a_qual_intr_ser_le & [ STEM < "bermejo" >, SYNSEM.LKEYS.KEYREL.PRED "_bermejo_a_rel" ]. bermudas_n1 := n_intr_count_le & [ STEM < "bermudas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bermudas_n_rel" ] ]. bermudiana_n1 := n_intr_count_le & [ STEM < "bermudiana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bermudiana_n_rel" ] ]. bernés_a1 := a_rel_prd_le & [ STEM < "bernés" >, SYNSEM.LKEYS.KEYREL.PRED "_bernés_a_rel" ]. bernés_n1 := n_intr_count_le & [ STEM < "bernés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bernés_n_rel" ] ]. berquelio_n1 := n_intr_mass_le & [ STEM < "berquelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berquelio_n_rel" ] ]. berrar_v := v_unacc_lcomp_loc*_le & [ STEM < "berrar" >, SYNSEM.LKEYS.KEYREL.PRED "_berrar_v_rel" ]. berrear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "berrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_berrear_v_rel" ] ]. berrear_v2 := v_ditrans*_le & [ STEM < "berrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_berrear_v_rel" ] ]. berrido_n1 := n_result_intr_le & [ STEM < "berrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_berrido_n_rel" ] ]. berro_n1 := n_intr_mass_le & [ STEM < "berro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_berro_n_rel" ] ]. berrocal_n1 := n_intr_count_le & [ STEM < "berrocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_berrocal_n_rel" ] ]. beso_n1 := n_intr_count_le & [ STEM < "beso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beso_n_rel" ] ]. beso_n2 := n_trans_le & [ STEM < "beso" >, SYNSEM.LKEYS.KEYREL.PRED "_beso_n_rel" ]. bestia_n1 := n_intr_count_le & [ STEM < "bestia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bestia_n_rel" ] ]. bestial_a1 := a_qual_intr_scopal_le & [ STEM < "bestial" >, SYNSEM.LKEYS.KEYREL.PRED "_bestial_a_rel" ]. bestialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "bestialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bestialidad_n_rel" ] ]. bestialmente_x1 := av_i_spr_le & [ STEM < "bestialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bestialmente_x_rel" ]. bestiario_n1 := n_intr_count_le & [ STEM < "bestiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bestiario_n_rel" ] ]. besugo_n1 := n_intr_count_le & [ STEM < "besugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_besugo_n_rel" ] ]. besuguera_n1 := n_intr_count_le & [ STEM < "besuguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_besuguera_n_rel" ] ]. besuqueo_n1 := n_trans_le & [ STEM < "besuqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_besuqueo_n_rel" ]. beta_n1 := n_intr_count_le & [ STEM < "beta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beta_n_rel" ] ]. betabloqueante_n1 := n_intr_count_le & [ STEM < "betabloqueante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betabloqueante_n_rel" ] ]. betacismo_n1 := n_intr_uncount_le & [ STEM < "betacismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_betacismo_n_rel" ] ]. betafita_n1 := n_intr_count_le & [ STEM < "betafita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_betafita_n_rel" ] ]. betaglobulina_n1 := n_intr_count_le & [ STEM < "betaglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betaglobulina_n_rel" ] ]. betalipoproteina_n1 := n_intr_count_le & [ STEM < "betalipoproteina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betalipoproteina_n_rel" ] ]. betatalasemia_n1 := n_intr_count_le & [ STEM < "betatalasemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betatalasemia_n_rel" ] ]. betel_n1 := n_intr_mass_le & [ STEM < "betel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_betel_n_rel" ] ]. betún_n1 := n_intr_mass_le & [ STEM < "betún" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betún_n_rel" ] ]. bhutanés_n1 := n_intr_count_le & [ STEM < "bhutanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bhutanés_n_rel" ] ]. biangular_a1 := a_rel_prd_le & [ STEM < "biangular" >, SYNSEM.LKEYS.KEYREL.PRED "_biangular_a_rel" ]. bianual_a1 := a_rel_prd_le & [ STEM < "bianual" >, SYNSEM.LKEYS.KEYREL.PRED "_bianual_a_rel" ]. biarticular_a1 := a_rel_prd_le & [ STEM < "biarticular" >, SYNSEM.LKEYS.KEYREL.PRED "_biarticular_a_rel" ]. biatlón_n1 := n_intr_count_le & [ STEM < "biatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biatlón_n_rel" ] ]. biauditivo_a1 := a_rel_prd_le & [ STEM < "biauditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_biauditivo_a_rel" ]. biauricular_a1 := a_rel_prd_le & [ STEM < "biauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_biauricular_a_rel" ]. biaxial_a1 := a_rel_prd_le & [ STEM < "biaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_biaxial_a_rel" ]. biberón_n1 := n_intr_count_le & [ STEM < "biberón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biberón_n_rel" ] ]. biblia_n1 := n_intr_count_le & [ STEM < "biblia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_biblia_n_rel" ] ]. bibliofilia_n1 := n_intr_uncount_le & [ STEM < "bibliofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bibliofilia_n_rel" ] ]. bibliografía_n1 := n_intr_mass_le & [ STEM < "bibliografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bibliografía_n_rel" ] ]. bibliográficamente_x1 := av_i_spr_le & [ STEM < "bibliográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bibliográficamente_x_rel" ]. bibliográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "bibliográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_bibliográfico_a_rel" ]. bibliometría_n1 := n_intr_count_le & [ STEM < "bibliometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bibliometría_n_rel" ] ]. biblioteca_n1 := n_intr_count_le & [ STEM < "biblioteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_biblioteca_n_rel" ] ]. bibliotecario_n1 := n_intr_count_le & [ STEM < "bibliotecario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliotecario_n_rel" ] ]. biblioteconomía_n1 := n_intr_uncount_le & [ STEM < "biblioteconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biblioteconomía_n_rel" ] ]. bibliófilo_n1 := n_intr_count_le & [ STEM < "bibliófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliófilo_n_rel" ] ]. bibliógrafo_n1 := n_intr_count_le & [ STEM < "bibliógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliógrafo_n_rel" ] ]. bicable_n1 := n_intr_count_le & [ STEM < "bicable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicable_n_rel" ] ]. bicameral_a1 := a_rel_nonprd_intr_le & [ STEM < "bicameral" >, SYNSEM.LKEYS.KEYREL.PRED "_bicameral_a_rel" ]. bicameralismo_n1 := n_intr_uncount_le & [ STEM < "bicameralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicameralismo_n_rel" ] ]. bicampeón_n1 := n_intr_count_le & [ STEM < "bicampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bicampeón_n_rel" ] ]. bicapa_n1 := n_intr_count_le & [ STEM < "bicapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicapa_n_rel" ] ]. bicarbonato_n1 := n_intr_mass_le & [ STEM < "bicarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bicarbonato_n_rel" ] ]. bicasco_n1 := n_intr_count_le & [ STEM < "bicasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicasco_n_rel" ] ]. bicefalia_n1 := n_intr_uncount_le & [ STEM < "bicefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicefalia_n_rel" ] ]. bicelular_a1 := a_rel_prd_le & [ STEM < "bicelular" >, SYNSEM.LKEYS.KEYREL.PRED "_bicelular_a_rel" ]. bicentenario_n1 := n_intr_count_le & [ STEM < "bicentenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicentenario_n_rel" ] ]. bichero_n1 := n_intr_count_le & [ STEM < "bichero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bichero_n_rel" ] ]. bichito_n1 := n_intr_count_le & [ STEM < "bichito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bichito_n_rel" ] ]. bicho_n1 := n_intr_count_le & [ STEM < "bicho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bicho_n_rel" ] ]. bicicleta_n1 := n_intr_count_le & [ STEM < "bicicleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bicicleta_n_rel" ] ]. bicicros_n1 := n_intr_uncount_le & [ STEM < "bicicros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicicros_n_rel" ] ]. bicigomático_a1 := a_rel_prd_le & [ STEM < "bicigomático" >, SYNSEM.LKEYS.KEYREL.PRED "_bicigomático_a_rel" ]. bicipital_a1 := a_rel_prd_le & [ STEM < "bicipital" >, SYNSEM.LKEYS.KEYREL.PRED "_bicipital_a_rel" ]. bicloruro_n1 := n_intr_count_le & [ STEM < "bicloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bicloruro_n_rel" ] ]. bicolor_a1 := a_rel_prd_le & [ STEM < "bicolor" >, SYNSEM.LKEYS.KEYREL.PRED "_bicolor_a_rel" ]. bicompuesto_a1 := a_rel_prd_le & [ STEM < "bicompuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_bicompuesto_a_rel" ]. bicondíleo_a1 := a_rel_prd_le & [ STEM < "bicondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicondíleo_a_rel" ]. biconvexo_a1 := a_qual_intr_ser_le & [ STEM < "biconvexo" >, SYNSEM.LKEYS.KEYREL.PRED "_biconvexo_a_rel" ]. bicristal_n1 := n_intr_mass-or-count_le & [ STEM < "bicristal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_bicristal_n_rel" ] ]. bicromático_a1 := a_rel_nonprd_intr_le & [ STEM < "bicromático" >, SYNSEM.LKEYS.KEYREL.PRED "_bicromático_a_rel" ]. bicuadrado_a1 := a_qual_intr_ser_le & [ STEM < "bicuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_bicuadrado_a_rel" ]. bicuadrática_n1 := n_intr_count_le & [ STEM < "bicuadrática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicuadrática_n_rel" ] ]. bicéfalo_a1 := a_rel_prd_le & [ STEM < "bicéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicéfalo_a_rel" ]. bicóncavo_a1 := a_rel_prd_le & [ STEM < "bicóncavo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicóncavo_a_rel" ]. bicónico_a1 := a_rel_prd_le & [ STEM < "bicónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bicónico_a_rel" ]. bicúspide_a1 := a_rel_nonprd_intr_le & [ STEM < "bicúspide" >, SYNSEM.LKEYS.KEYREL.PRED "_bicúspide_a_rel" ]. bidimensional_a1 := a_rel_prd_le & [ STEM < "bidimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_bidimensional_a_rel" ]. bidimensionalmente_x1 := av_i_spr_le & [ STEM < "bidimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bidimensionalmente_x_rel" ]. bidimensión_n1 := n_intr_uncount_le & [ STEM < "bidimensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bidimensión_n_rel" ] ]. bidireccional_a1 := a_rel_prd_le & [ STEM < "bidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_bidireccional_a_rel" ]. bidireccionalmente_x1 := av_i_spr_le & [ STEM < "bidireccionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bidireccionalmente_x_rel" ]. bidé_n1 := n_intr_count_le & [ STEM < "bidé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bidé_n_rel" ] ]. bidón_n1 := n_intr_count_le & [ STEM < "bidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bidón_n_rel" ] ]. biela_n1 := n_intr_count_le & [ STEM < "biela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biela_n_rel" ] ]. bielda_n1 := n_intr_count_le & [ STEM < "bielda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bielda_n_rel" ] ]. bieldo_n1 := n_intr_count_le & [ STEM < "bieldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bieldo_n_rel" ] ]. bielorruso_a1 := a_rel_prd_le & [ STEM < "bielorruso" >, SYNSEM.LKEYS.KEYREL.PRED "_bielorruso_a_rel" ]. bielorruso_n1 := n_intr_count_le & [ STEM < "bielorruso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bielorruso_n_rel" ] ]. bien_cc1 := cc_disj_bien_le & [ STEM < "bien" > ]. bien_cc2 := cc_disj_bien-bien_le & [ STEM < "bien" > ]. bien_cc3 := cc_disj_obien_le & [ STEM < "o_bien" > ]. bien_cc4 := cc_disj_obien-bien_le & [ STEM < "o_bien" > ]. bien_cc5 := cc_disj_obien-obien_le & [ STEM < "o_bien" > ]. bien_entendido_que_sc := sc_prop_fin_le & [ STEM < "bien_entendido_que" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_entendido_que_x_subord_rel" ]. bien_mirado_x1 := av_i_le & [ STEM < "bien_mirado" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_mirado_x_rel" ]. bien_n1 := n_intr_count_le & [ STEM < "bien" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_bien_n_rel" ] ]. bien_que_mal_x1 := av_i_le & [ STEM < "bien_que_mal" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_que_mal_x_rel" ]. bien_sabe_dios_que_sc := sc_prop_fin_le & [ STEM < "bien_sabe_Dios_que" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_sabe_Dios_que_x_subord_rel" ]. bien_x1 := av_i_spr_le & [ STEM < "bien" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_x_rel" ]. bienal_a1 := a_rel_prd_le & [ STEM < "bienal" >, SYNSEM.LKEYS.KEYREL.PRED "_bienal_a_rel" ]. bienal_n1 := n_intr_count_le & [ STEM < "bienal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bienal_n_rel" ] ]. bienalmente_x1 := av_s_prhd_le & [ STEM < "bienalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienalmente_x_rel" ]. bienalmente_x2 := av_i_psthd_le & [ STEM < "bienalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienalmente_x_rel" ]. bienandante_a1 := a_qual_intr_ser_le & [ STEM < "bienandante" >, SYNSEM.LKEYS.KEYREL.PRED "_bienandante_a_rel" ]. bienandanza_n1 := n_intr_uncount_pl_le & [ STEM < "bienandanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienandanza_n_rel" ] ]. bienestar_n1 := n_intr_mass_le & [ STEM < "bienestar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienestar_n_rel" ] ]. bienhablado_a1 := a_qual_intr_ser_le & [ STEM < "bienhablado" >, SYNSEM.LKEYS.KEYREL.PRED "_bienhablado_a_rel" ]. bienhechor_a1 := a_qual_intr_ser_le & [ STEM < "bienhechor" >, SYNSEM.LKEYS.KEYREL.PRED "_bienhechor_a_rel" ]. bienhechor_n1 := n_intr_count_le & [ STEM < "bienhechor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bienhechor_n_rel" ] ]. bienintencionadamente_x1 := av_i_spr_le & [ STEM < "bienintencionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienintencionadamente_x_rel" ]. bienintencionado_a1 := a_qual_intr_ser_le & [ STEM < "bienintencionado" >, SYNSEM.LKEYS.KEYREL.PRED "_bienintencionado_a_rel" ]. bienio_n1 := n_pseudo-part_temp_le & [ STEM < "bienio" >, SYNSEM.LKEYS.KEYREL.PRED "_bienio_n_rel" ]. bienio_n2 := n_intr_temp_le & [ STEM < "bienio" > ]. bienvenida_n1 := n_intr_count_le & [ STEM < "bienvenida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienvenida_n_rel" ] ]. bienvenido_a1 := a_qual_intr_ser_le & [ STEM < "bienvenido" >, SYNSEM.LKEYS.KEYREL.PRED "_bienvenido_a_rel" ]. bies_n1 := n_intr_count_le & [ STEM < "bies" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bies_n_rel" ] ]. biesfenoide_n1 := n_intr_count_le & [ STEM < "biesfenoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biesfenoide_n_rel" ] ]. biestable_a1 := a_rel_prd_le & [ STEM < "biestable" >, SYNSEM.LKEYS.KEYREL.PRED "_biestable_a_rel" ]. bifacial_a1 := a_rel_prd_le & [ STEM < "bifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_bifacial_a_rel" ]. bifidobacteria_n1 := n_intr_count_le & [ STEM < "bifidobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bifidobacteria_n_rel" ] ]. bifilar_a1 := a_rel_nonprd_intr_le & [ STEM < "bifilar" >, SYNSEM.LKEYS.KEYREL.PRED "_bifilar_a_rel" ]. bifluoruro_n1 := n_intr_count_le & [ STEM < "bifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bifluoruro_n_rel" ] ]. bifocal_a1 := a_rel_nonprd_intr_le & [ STEM < "bifocal" >, SYNSEM.LKEYS.KEYREL.PRED "_bifocal_a_rel" ]. bifosfato_n1 := n_intr_count_le & [ STEM < "bifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bifosfato_n_rel" ] ]. bifurcación_n1 := n_ppcomp_count_le & [ STEM < "bifurcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bifurcación_n_rel" ] ]. bifurcación_n2 := n_intr_count_le & [ STEM < "bifurcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bifurcación_n_rel" ] ]. bifurcar_v := v_unacc_perf_le & [ STEM < "bifurcar" >, SYNSEM.LKEYS.KEYREL.PRED "_bifurcar_v_rel" ]. bifásicamente_x1 := av_i_spr_le & [ STEM < "bifásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bifásicamente_x_rel" ]. bifásico_a1 := a_rel_prd_le & [ STEM < "bifásico" >, SYNSEM.LKEYS.KEYREL.PRED "_bifásico_a_rel" ]. bigamia_n1 := n_intr_uncount_pl_le & [ STEM < "bigamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bigamia_n_rel" ] ]. bigeminado_a1 := a_rel_nonprd_intr_le & [ STEM < "bigeminado" >, SYNSEM.LKEYS.KEYREL.PRED "_bigeminado_a_rel" ]. bigenérico_a1 := a_rel_nonprd_intr_le & [ STEM < "bigenérico" >, SYNSEM.LKEYS.KEYREL.PRED "_bigenérico_a_rel" ]. bigornia_n1 := n_intr_count_le & [ STEM < "bigornia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigornia_n_rel" ] ]. bigote_n1 := n_intr_count_le & [ STEM < "bigote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigote_n_rel" ] ]. bigotera_n1 := n_intr_count_le & [ STEM < "bigotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigotera_n_rel" ] ]. bigotudo_a1 := a_qual_intr_ser_le & [ STEM < "bigotudo" >, SYNSEM.LKEYS.KEYREL.PRED "_bigotudo_a_rel" ]. bigudí_n1 := n_intr_count_le & [ STEM < "bigudí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigudí_n_rel" ] ]. bikini_n1 := n_intr_count_le & [ STEM < "bikini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bikini_n_rel" ] ]. bilabial_a1 := a_rel_nonprd_intr_le & [ STEM < "bilabial" >, SYNSEM.LKEYS.KEYREL.PRED "_bilabial_a_rel" ]. bilateral_a1 := a_rel_nonprd_intr_le & [ STEM < "bilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_bilateral_a_rel" ]. bilateralidad_n1 := n_intr_uncount_le & [ STEM < "bilateralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilateralidad_n_rel" ] ]. bilateralismo_n1 := n_intr_uncount_le & [ STEM < "bilateralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilateralismo_n_rel" ] ]. bilateralmente_x1 := av_i_spr_le & [ STEM < "bilateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bilateralmente_x_rel" ]. bilbaíno_a1 := a_rel_prd_le & [ STEM < "bilbaíno" >, SYNSEM.LKEYS.KEYREL.PRED "_bilbaíno_a_rel" ]. bilbaíno_n1 := n_intr_count_le & [ STEM < "bilbaíno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bilbaíno_n_rel" ] ]. biliar_a1 := a_rel_nonprd_intr_le & [ STEM < "biliar" >, SYNSEM.LKEYS.KEYREL.PRED "_biliar_a_rel" ]. bilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "bilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_bilineal_a_rel" ]. bilinealidad_n1 := n_intr_uncount_le & [ STEM < "bilinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilinealidad_n_rel" ] ]. bilinealmente_x1 := av_i_spr_le & [ STEM < "bilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bilinealmente_x_rel" ]. bilinear_a1 := a_rel_nonprd_intr_le & [ STEM < "bilinear" >, SYNSEM.LKEYS.KEYREL.PRED "_bilinear_a_rel" ]. bilingã¼e_a1 := a_rel_nonprd_intr_le & [ STEM < "bilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_bilingüe_a_rel" ]. bilingã¼e_a2 := a_qual_intr_ser_le & [ STEM < "bilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_bilingüe_a_rel" ]. bilingüismo_n1 := n_ppcomp_uncount_le & [ STEM < "bilingüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilingüismo_n_rel" ] ]. bilirrubinemia_n1 := n_intr_uncount_le & [ STEM < "bilirrubinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilirrubinemia_n_rel" ] ]. bilis_n1 := n_intr_mass_le & [ STEM < "bilis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bilis_n_rel" ] ]. biliverdina_n1 := n_intr_count_le & [ STEM < "biliverdina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biliverdina_n_rel" ] ]. billar_n1 := n_intr_count_le & [ STEM < "billar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_billar_n_rel" ] ]. billetaje_n1 := n_intr_uncount_le & [ STEM < "billetaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_billetaje_n_rel" ] ]. billete_n1 := n_intr_count_le & [ STEM < "billete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_billete_n_rel" ] ]. billetero_n1 := n_intr_count_le & [ STEM < "billetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_billetero_n_rel" ] ]. billonario_n1 := n_intr_count_le & [ STEM < "billonario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_billonario_n_rel" ] ]. billón_n1 := n_intr_count_le & [ STEM < "billón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_billón_n_rel" ] ]. bilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "bilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_bilocal_a_rel" ]. bilocalidad_n1 := n_intr_uncount_le & [ STEM < "bilocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilocalidad_n_rel" ] ]. bilámina_n1 := n_intr_count_le & [ STEM < "bilámina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bilámina_n_rel" ] ]. bimaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "bimaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_bimaxilar_a_rel" ]. bimensual_a1 := a_rel_prd_le & [ STEM < "bimensual" >, SYNSEM.LKEYS.KEYREL.PRED "_bimensual_a_rel" ]. bimestral_a1 := a_rel_prd_le & [ STEM < "bimestral" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestral_a_rel" ]. bimestralmente_x1 := av_s_prhd_le & [ STEM < "bimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestralmente_x_rel" ]. bimestralmente_x2 := av_i_psthd_le & [ STEM < "bimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestralmente_x_rel" ]. bimetalismo_n1 := n_intr_uncount_le & [ STEM < "bimetalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bimetalismo_n_rel" ] ]. bimetálico_a1 := a_rel_nonprd_intr_le & [ STEM < "bimetálico" >, SYNSEM.LKEYS.KEYREL.PRED "_bimetálico_a_rel" ]. bimodal_a1 := a_rel_prd_le & [ STEM < "bimodal" >, SYNSEM.LKEYS.KEYREL.PRED "_bimodal_a_rel" ]. bimolecular_a1 := a_rel_prd_le & [ STEM < "bimolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_bimolecular_a_rel" ]. bimotor_a1 := a_rel_prd_le & [ STEM < "bimotor" >, SYNSEM.LKEYS.KEYREL.PRED "_bimotor_a_rel" ]. bimórficamente_x1 := av_i_spr_le & [ STEM < "bimórficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimórficamente_x_rel" ]. bimórfico_a1 := a_qual_intr_ser_le & [ STEM < "bimórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_bimórfico_a_rel" ]. binariamente_x1 := av_i_spr_le & [ STEM < "binariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_binariamente_x_rel" ]. binario_a1 := a_rel_prd_le & [ STEM < "binario" >, SYNSEM.LKEYS.KEYREL.PRED "_binario_a_rel" ]. binarismo_n1 := n_intr_uncount_le & [ STEM < "binarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binarismo_n_rel" ] ]. binasal_a1 := a_rel_prd_le & [ STEM < "binasal" >, SYNSEM.LKEYS.KEYREL.PRED "_binasal_a_rel" ]. binaural_a1 := a_rel_prd_le & [ STEM < "binaural" >, SYNSEM.LKEYS.KEYREL.PRED "_binaural_a_rel" ]. binauralmente_x1 := av_i_spr_le & [ STEM < "binauralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_binauralmente_x_rel" ]. binauricular_a1 := a_rel_prd_le & [ STEM < "binauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_binauricular_a_rel" ]. bingo_n1 := n_intr_count_le & [ STEM < "bingo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bingo_n_rel" ] ]. binocular_a1 := a_rel_prd_le & [ STEM < "binocular" >, SYNSEM.LKEYS.KEYREL.PRED "_binocular_a_rel" ]. binocular_n1 := n_intr_count_le & [ STEM < "binocular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_binocular_n_rel" ] ]. binodo_n1 := n_intr_count_le & [ STEM < "binodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binodo_n_rel" ] ]. binomial_a1 := a_rel_prd_le & [ STEM < "binomial" >, SYNSEM.LKEYS.KEYREL.PRED "_binomial_a_rel" ]. binomialmente_x1 := av_i_spr_le & [ STEM < "binomialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_binomialmente_x_rel" ]. binomio_n1 := n_intr_count_le & [ STEM < "binomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binomio_n_rel" ] ]. binómico_a1 := a_rel_prd_le & [ STEM < "binómico" >, SYNSEM.LKEYS.KEYREL.PRED "_binómico_a_rel" ]. bioacumulación_n1 := n_result_intr_le & [ STEM < "bioacumulación" >, SYNSEM.LKEYS.KEYREL.PRED "_bioacumulación_n_rel" ]. bioalcohol_n1 := n_intr_count_le & [ STEM < "bioalcohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioalcohol_n_rel" ] ]. bioblasto_n1 := n_intr_count_le & [ STEM < "bioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioblasto_n_rel" ] ]. biocenosis_n1 := n_intr_uncount_le & [ STEM < "biocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocenosis_n_rel" ] ]. biocida_n1 := n_intr_count_le & [ STEM < "biocida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biocida_n_rel" ] ]. bioclima_n1 := n_intr_count_le & [ STEM < "bioclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioclima_n_rel" ] ]. bioclimatología_n1 := n_intr_uncount_le & [ STEM < "bioclimatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioclimatología_n_rel" ] ]. biocombustible_n1 := n_intr_count_le & [ STEM < "biocombustible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biocombustible_n_rel" ] ]. biocompatible_a1 := a_rel_prd_le & [ STEM < "biocompatible" >, SYNSEM.LKEYS.KEYREL.PRED "_biocompatible_a_rel" ]. bioconstrucción_n1 := n_trans_le & [ STEM < "bioconstrucción" >, SYNSEM.LKEYS.KEYREL.PRED "_bioconstrucción_n_rel" ]. biocora_n1 := n_intr_uncount_pl_le & [ STEM < "biocora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocora_n_rel" ] ]. biocosmética_n1 := n_intr_uncount_le & [ STEM < "biocosmética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocosmética_n_rel" ] ]. biocronología_n1 := n_intr_uncount_le & [ STEM < "biocronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocronología_n_rel" ] ]. biodegradable_a1 := a_rel_prd_le & [ STEM < "biodegradable" >, SYNSEM.LKEYS.KEYREL.PRED "_biodegradable_a_rel" ]. biodegradablemente_x1 := av_i_spr_le & [ STEM < "biodegradablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_biodegradablemente_x_rel" ]. biodegradación_n1 := n_intr_uncount_le & [ STEM < "biodegradación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biodegradación_n_rel" ] ]. biodiversidad_n1 := n_intr_uncount_le & [ STEM < "biodiversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biodiversidad_n_rel" ] ]. biodiésel_n1 := n_intr_mass-or-count_le & [ STEM < "biodiésel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_biodiésel_n_rel" ] ]. bioenergética_n1 := n_intr_uncount_le & [ STEM < "bioenergética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioenergética_n_rel" ] ]. bioenergía_n1 := n_intr_uncount_pl_le & [ STEM < "bioenergía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioenergía_n_rel" ] ]. bioerosión_n1 := n_intr_mass_le & [ STEM < "bioerosión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioerosión_n_rel" ] ]. bioestadística_n1 := n_intr_mass_le & [ STEM < "bioestadística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bioestadística_n_rel" ] ]. bioestadísticamente_x1 := av_i_spr_le & [ STEM < "bioestadísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bioestadísticamente_x_rel" ]. bioestadístico_a1 := a_rel_prd_le & [ STEM < "bioestadístico" >, SYNSEM.LKEYS.KEYREL.PRED "_bioestadístico_a_rel" ]. bioetanol_n1 := n_intr_mass_le & [ STEM < "bioetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioetanol_n_rel" ] ]. biofotómetro_n1 := n_intr_count_le & [ STEM < "biofotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biofotómetro_n_rel" ] ]. biofísica_n1 := n_intr_uncount_le & [ STEM < "biofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biofísica_n_rel" ] ]. biofísico_a1 := a_rel_prd_le & [ STEM < "biofísico" >, SYNSEM.LKEYS.KEYREL.PRED "_biofísico_a_rel" ]. biofísico_n1 := n_intr_count_le & [ STEM < "biofísico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biofísico_n_rel" ] ]. biogenética_n1 := n_intr_uncount_le & [ STEM < "biogenética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogenética_n_rel" ] ]. biogenético_a1 := a_rel_prd_le & [ STEM < "biogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_biogenético_a_rel" ]. biogeocenosis_n1 := n_intr_uncount_le & [ STEM < "biogeocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogeocenosis_n_rel" ] ]. biogeografía_n1 := n_intr_uncount_le & [ STEM < "biogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogeografía_n_rel" ] ]. biogeoquímicamente_x1 := av_i_spr_le & [ STEM < "biogeoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biogeoquímicamente_x_rel" ]. biogeoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "biogeoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_biogeoquímico_a_rel" ]. biografía_n1 := n_intr_count_le & [ STEM < "biografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_biografía_n_rel" ] ]. biográfico_a1 := a_rel_prd_le & [ STEM < "biográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_biográfico_a_rel" ]. biogás_n1 := n_intr_mass_le & [ STEM < "biogás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biogás_n_rel" ] ]. biogénesis_n1 := n_intr_uncount_le & [ STEM < "biogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogénesis_n_rel" ] ]. biogénico_a1 := a_rel_prd_le & [ STEM < "biogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_biogénico_a_rel" ]. biohermo_n1 := n_intr_uncount_pl_le & [ STEM < "biohermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biohermo_n_rel" ] ]. bioindicador_n1 := n_intr_count_le & [ STEM < "bioindicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioindicador_n_rel" ] ]. bioingeniero_n1 := n_intr_count_le & [ STEM < "bioingeniero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bioingeniero_n_rel" ] ]. biología_n1 := n_intr_uncount_le & [ STEM < "biología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biología_n_rel" ] ]. bioluminiscencia_n1 := n_intr_uncount_le & [ STEM < "bioluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioluminiscencia_n_rel" ] ]. biolíticamente_x1 := av_i_spr_le & [ STEM < "biolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biolíticamente_x_rel" ]. biolítico_a1 := a_rel_prd_le & [ STEM < "biolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_biolítico_a_rel" ]. biológicamente_x1 := av_i_spr_le & [ STEM < "biológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biológicamente_x_rel" ]. biológico_a1 := a_rel_prd_le & [ STEM < "biológico" >, SYNSEM.LKEYS.KEYREL.PRED "_biológico_a_rel" ]. bioma_n1 := n_intr_count_le & [ STEM < "bioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioma_n_rel" ] ]. biomasa_n1 := n_intr_count_le & [ STEM < "biomasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomasa_n_rel" ] ]. biombo_n1 := n_intr_count_le & [ STEM < "biombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biombo_n_rel" ] ]. biomecánica_n1 := n_intr_uncount_le & [ STEM < "biomecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomecánica_n_rel" ] ]. biomedicina_n1 := n_intr_uncount_le & [ STEM < "biomedicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomedicina_n_rel" ] ]. biometanización_n1 := n_trans_le & [ STEM < "biometanización" >, SYNSEM.LKEYS.KEYREL.PRED "_biometanización_n_rel" ]. biometano_n1 := n_intr_mass-or-count_le & [ STEM < "biometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_biometano_n_rel" ] ]. biometrista_n1 := n_intr_count_le & [ STEM < "biometrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biometrista_n_rel" ] ]. biometría_n1 := n_intr_count_le & [ STEM < "biometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biometría_n_rel" ] ]. biomicroscopia_n1 := n_intr_count_le & [ STEM < "biomicroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomicroscopia_n_rel" ] ]. biomédico_a1 := a_rel_prd_le & [ STEM < "biomédico" >, SYNSEM.LKEYS.KEYREL.PRED "_biomédico_a_rel" ]. biométrico_a1 := a_rel_prd_le & [ STEM < "biométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_biométrico_a_rel" ]. biomórfico_a1 := a_rel_prd_le & [ STEM < "biomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_biomórfico_a_rel" ]. bionomía_n1 := n_intr_uncount_le & [ STEM < "bionomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bionomía_n_rel" ] ]. biopolímero_n1 := n_intr_count_le & [ STEM < "biopolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biopolímero_n_rel" ] ]. biopsia_n1 := n_intr_count_le & [ STEM < "biopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopsia_n_rel" ] ]. biopsicología_n1 := n_intr_uncount_le & [ STEM < "biopsicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopsicología_n_rel" ] ]. biopulpectomía_n1 := n_intr_count_le & [ STEM < "biopulpectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopulpectomía_n_rel" ] ]. biopulpotomía_n1 := n_intr_count_le & [ STEM < "biopulpotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopulpotomía_n_rel" ] ]. bioquímica_n1 := n_intr_uncount_le & [ STEM < "bioquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioquímica_n_rel" ] ]. bioquímicamente_x1 := av_i_spr_le & [ STEM < "bioquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bioquímicamente_x_rel" ]. bioquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "bioquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_bioquímico_a_rel" ]. bioquímico_n1 := n_intr_count_le & [ STEM < "bioquímico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bioquímico_n_rel" ] ]. biorrealimentación_n1 := n_intr_mass_le & [ STEM < "biorrealimentación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biorrealimentación_n_rel" ] ]. biorretroalimentación_n1 := n_trans_le & [ STEM < "biorretroalimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_biorretroalimentación_n_rel" ]. biorritmo_n1 := n_intr_count_le & [ STEM < "biorritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biorritmo_n_rel" ] ]. biosecuencia_n1 := n_intr_count_le & [ STEM < "biosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biosecuencia_n_rel" ] ]. bioseguridad_n1 := n_intr_uncount_le & [ STEM < "bioseguridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioseguridad_n_rel" ] ]. biosfera_n1 := n_intr_count_le & [ STEM < "biosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biosfera_n_rel" ] ]. biostasia_n1 := n_intr_uncount_le & [ STEM < "biostasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostasia_n_rel" ] ]. biostratigrafía_n1 := n_intr_uncount_le & [ STEM < "biostratigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostratigrafía_n_rel" ] ]. biostroma_n1 := n_intr_count_le & [ STEM < "biostroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostroma_n_rel" ] ]. biosíntesis_n1 := n_intr_uncount_le & [ STEM < "biosíntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biosíntesis_n_rel" ] ]. biotecnología_n1 := n_intr_uncount_le & [ STEM < "biotecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biotecnología_n_rel" ] ]. biotina_n1 := n_intr_count_le & [ STEM < "biotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biotina_n_rel" ] ]. biotipo_n1 := n_intr_count_le & [ STEM < "biotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biotipo_n_rel" ] ]. biotita_n1 := n_intr_count_le & [ STEM < "biotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biotita_n_rel" ] ]. biotopo_n1 := n_intr_count_le & [ STEM < "biotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biotopo_n_rel" ] ]. bioturbación_n1 := n_trans_le & [ STEM < "bioturbación" >, SYNSEM.LKEYS.KEYREL.PRED "_bioturbación_n_rel" ]. bioxalato_n1 := n_intr_count_le & [ STEM < "bioxalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioxalato_n_rel" ] ]. bioética_n1 := n_intr_uncount_le & [ STEM < "bioética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioética_n_rel" ] ]. bioórgano_n1 := n_intr_count_le & [ STEM < "bioórgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bioórgano_n_rel" ] ]. bioórgano_n2 := n_ppcomp_count_le & [ STEM < "bioórgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bioórgano_n_rel" ] ]. bipartición_n1 := n_intr_uncount_le & [ STEM < "bipartición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipartición_n_rel" ] ]. bipartidismo_n1 := n_intr_count_le & [ STEM < "bipartidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipartidismo_n_rel" ] ]. bipartitamente_x1 := av_i_spr_le & [ STEM < "bipartitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bipartitamente_x_rel" ]. bipartito_a1 := a_rel_prd_le & [ STEM < "bipartito" >, SYNSEM.LKEYS.KEYREL.PRED "_bipartito_a_rel" ]. bipedalismo_n1 := n_intr_uncount_le & [ STEM < "bipedalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipedalismo_n_rel" ] ]. bipiramidal_a1 := a_rel_prd_le & [ STEM < "bipiramidal" >, SYNSEM.LKEYS.KEYREL.PRED "_bipiramidal_a_rel" ]. bipirámide_n1 := n_intr_count_le & [ STEM < "bipirámide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bipirámide_n_rel" ] ]. biplano_n1 := n_intr_count_le & [ STEM < "biplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_biplano_n_rel" ] ]. biplaza_n1 := n_intr_count_le & [ STEM < "biplaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_biplaza_n_rel" ] ]. bipolar_a1 := a_rel_prd_le & [ STEM < "bipolar" >, SYNSEM.LKEYS.KEYREL.PRED "_bipolar_a_rel" ]. bipolarmente_x1 := av_i_spr_le & [ STEM < "bipolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bipolarmente_x_rel" ]. bipolo_n1 := n_intr_count_le & [ STEM < "bipolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipolo_n_rel" ] ]. bipolímero_n1 := n_intr_count_le & [ STEM < "bipolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bipolímero_n_rel" ] ]. biposte_a1 := a_rel_prd_le & [ STEM < "biposte" >, SYNSEM.LKEYS.KEYREL.PRED "_biposte_a_rel" ]. biprocesador_n1 := n_intr_count_le & [ STEM < "biprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biprocesador_n_rel" ] ]. bipuerta_n1 := n_intr_count_le & [ STEM < "bipuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bipuerta_n_rel" ] ]. bipátrida_n1 := n_intr_count_le & [ STEM < "bipátrida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bipátrida_n_rel" ] ]. biquinario_a1 := a_rel_prd_le & [ STEM < "biquinario" >, SYNSEM.LKEYS.KEYREL.PRED "_biquinario_a_rel" ]. biquini_n1 := n_intr_count_le & [ STEM < "biquini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biquini_n_rel" ] ]. birmano_a1 := a_rel_prd_le & [ STEM < "birmano" >, SYNSEM.LKEYS.KEYREL.PRED "_birmano_a_rel" ]. birmano_n1 := n_intr_count_le & [ STEM < "birmano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_birmano_n_rel" ] ]. birreactor_n1 := n_intr_count_le & [ STEM < "birreactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_birreactor_n_rel" ] ]. birrefringencia_n1 := n_intr_uncount_le & [ STEM < "birrefringencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_birrefringencia_n_rel" ] ]. bis_n1 := n_intr_count_le & [ STEM < "bis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bis_n_rel" ] ]. bisabuelo_n1 := n_intr_count_le & [ STEM < "bisabuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bisabuelo_n_rel" ] ]. bisagra_n1 := n_intr_count_le & [ STEM < "bisagra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisagra_n_rel" ] ]. bisalto_n1 := n_intr_count_le & [ STEM < "bisalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisalto_n_rel" ] ]. bisbisear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "bisbisear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bisbisear_v_rel" ] ]. bisbisear_v2 := v_ditrans*_le & [ STEM < "bisbisear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_bisbisear_v_rel" ] ]. biscote_n1 := n_intr_count_le & [ STEM < "biscote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biscote_n_rel" ] ]. bisecar_v := v_trans_np_le & [ STEM < "bisecar" >, SYNSEM.LKEYS.KEYREL.PRED "_bisecar_v_rel" ]. biseccionar_v := v_trans_np_le & [ STEM < "biseccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_biseccionar_v_rel" ]. bisección_n1 := n_trans_le & [ STEM < "bisección" >, SYNSEM.LKEYS.KEYREL.PRED "_bisección_n_rel" ]. bisector_a1 := a_rel_nonprd_intr_le & [ STEM < "bisector" >, SYNSEM.LKEYS.KEYREL.PRED "_bisector_a_rel" ]. bisectriz_n1 := n_intr_count_le & [ STEM < "bisectriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisectriz_n_rel" ] ]. bisel_n1 := n_intr_count_le & [ STEM < "bisel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisel_n_rel" ] ]. biseladamente_x1 := av_i_spr_le & [ STEM < "biseladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biseladamente_x_rel" ]. biselar_v := v_trans_np_le & [ STEM < "biselar" >, SYNSEM.LKEYS.KEYREL.PRED "_biselar_v_rel" ]. bisemanal_a1 := a_rel_prd_le & [ STEM < "bisemanal" >, SYNSEM.LKEYS.KEYREL.PRED "_bisemanal_a_rel" ]. bisexual_a1 := a_rel_prd_le & [ STEM < "bisexual" >, SYNSEM.LKEYS.KEYREL.PRED "_bisexual_a_rel" ]. bisexualidad_n1 := n_ppcomp_uncount_le & [ STEM < "bisexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisexualidad_n_rel" ] ]. bisfenol_n1 := n_intr_count_le & [ STEM < "bisfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisfenol_n_rel" ] ]. bishidroxicumarina_n1 := n_intr_count_le & [ STEM < "bishidroxicumarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bishidroxicumarina_n_rel" ] ]. bisiesto_a1 := a_rel_prd_le & [ STEM < "bisiesto" >, SYNSEM.LKEYS.KEYREL.PRED "_bisiesto_a_rel" ]. bisilábico_a1 := a_rel_prd_le & [ STEM < "bisilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_bisilábico_a_rel" ]. bisistema_n1 := n_intr_count_le & [ STEM < "bisistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisistema_n_rel" ] ]. bismalva_n1 := n_intr_count_le & [ STEM < "bismalva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bismalva_n_rel" ] ]. bismanol_n1 := n_intr_count_le & [ STEM < "bismanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bismanol_n_rel" ] ]. bismita_n1 := n_intr_count_le & [ STEM < "bismita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismita_n_rel" ] ]. bismutinita_n1 := n_intr_count_le & [ STEM < "bismutinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismutinita_n_rel" ] ]. bismutita_n1 := n_intr_count_le & [ STEM < "bismutita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismutita_n_rel" ] ]. bismuto_n1 := n_intr_mass_le & [ STEM < "bismuto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismuto_n_rel" ] ]. bisnieto_n1 := n_intr_count_le & [ STEM < "bisnieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bisnieto_n_rel" ] ]. bisonte_n1 := n_intr_count_le & [ STEM < "bisonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bisonte_n_rel" ] ]. bisoprolol_n1 := n_intr_count_le & [ STEM < "bisoprolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisoprolol_n_rel" ] ]. bistec_n1 := n_intr_count_le & [ STEM < "bistec" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bistec_n_rel" ] ]. bistorta_n1 := n_intr_count_le & [ STEM < "bistorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bistorta_n_rel" ] ]. bisturí_n1 := n_intr_count_le & [ STEM < "bisturí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisturí_n_rel" ] ]. bisté_n1 := n_intr_count_le & [ STEM < "bisté" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisté_n_rel" ] ]. bisulfato_n1 := n_intr_count_le & [ STEM < "bisulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfato_n_rel" ] ]. bisulfito_n1 := n_intr_count_le & [ STEM < "bisulfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfito_n_rel" ] ]. bisulfuro_n1 := n_intr_count_le & [ STEM < "bisulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfuro_n_rel" ] ]. bisutería_n1 := n_intr_uncount_pl_le & [ STEM < "bisutería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisutería_n_rel" ] ]. bit_n := n_intr_count_le & [ STEM < "bit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_bit_n_rel" ] ]. bita_n1 := n_intr_count_le & [ STEM < "bita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bita_n_rel" ] ]. bitangente_n1 := n_intr_count_le & [ STEM < "bitangente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bitangente_n_rel" ] ]. bitartrato_n1 := n_intr_count_le & [ STEM < "bitartrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bitartrato_n_rel" ] ]. bitemporal_a1 := a_rel_prd_le & [ STEM < "bitemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_bitemporal_a_rel" ]. bitionol_n1 := n_intr_count_le & [ STEM < "bitionol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bitionol_n_rel" ] ]. bitonal_a1 := a_rel_prd_le & [ STEM < "bitonal" >, SYNSEM.LKEYS.KEYREL.PRED "_bitonal_a_rel" ]. bitumen_n1 := n_intr_mass_le & [ STEM < "bitumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bitumen_n_rel" ] ]. bituminado_a1 := a_rel_prd_le & [ STEM < "bituminado" >, SYNSEM.LKEYS.KEYREL.PRED "_bituminado_a_rel" ]. bituminadora_n1 := n_intr_count_le & [ STEM < "bituminadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bituminadora_n_rel" ] ]. bituminoso_a1 := a_rel_prd_le & [ STEM < "bituminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bituminoso_a_rel" ]. bitácora_n1 := n_intr_count_le & [ STEM < "bitácora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bitácora_n_rel" ] ]. biunívocamente_x1 := av_i_spr_le & [ STEM < "biunívocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biunívocamente_x_rel" ]. biunívoco_a1 := a_rel_prd_le & [ STEM < "biunívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_biunívoco_a_rel" ]. biureto_n1 := n_intr_count_le & [ STEM < "biureto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biureto_n_rel" ] ]. bivalencia_n1 := n_intr_count_le & [ STEM < "bivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bivalencia_n_rel" ] ]. bivalente_a1 := a_rel_prd_le & [ STEM < "bivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_bivalente_a_rel" ]. bivalvo_a1 := a_rel_prd_le & [ STEM < "bivalvo" >, SYNSEM.LKEYS.KEYREL.PRED "_bivalvo_a_rel" ]. bivalvo_n1 := n_intr_count_le & [ STEM < "bivalvo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bivalvo_n_rel" ] ]. bivariable_a1 := a_rel_prd_le & [ STEM < "bivariable" >, SYNSEM.LKEYS.KEYREL.PRED "_bivariable_a_rel" ]. bivariante_a1 := a_rel_prd_le & [ STEM < "bivariante" >, SYNSEM.LKEYS.KEYREL.PRED "_bivariante_a_rel" ]. biyección_n1 := n_intr_count_le & [ STEM < "biyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biyección_n_rel" ] ]. biyectivo_a1 := a_rel_prd_le & [ STEM < "biyectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_biyectivo_a_rel" ]. bizantino_a1 := a_rel_prd_le & [ STEM < "bizantino" >, SYNSEM.LKEYS.KEYREL.PRED "_bizantino_a_rel" ]. bizantino_n1 := n_intr_count_le & [ STEM < "bizantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bizantino_n_rel" ] ]. bizcamente_x1 := av_i_spr_le & [ STEM < "bizcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bizcamente_x_rel" ]. bizco_a1 := a_qual_intr_scopal_le & [ STEM < "bizco" >, SYNSEM.LKEYS.KEYREL.PRED "_bizco_a_rel" ]. bizcocho_n1 := n_intr_mass_le & [ STEM < "bizcocho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bizcocho_n_rel" ] ]. biznieto_n1 := n_intr_count_le & [ STEM < "biznieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biznieto_n_rel" ] ]. biáxico_a1 := a_rel_prd_le & [ STEM < "biáxico" >, SYNSEM.LKEYS.KEYREL.PRED "_biáxico_a_rel" ]. biógeno_a1 := a_rel_prd_le & [ STEM < "biógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_biógeno_a_rel" ]. biógrafo_n1 := n_intr_count_le & [ STEM < "biógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biógrafo_n_rel" ] ]. biólogo_n1 := n_intr_count_le & [ STEM < "biólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biólogo_n_rel" ] ]. biónica_n1 := n_intr_uncount_le & [ STEM < "biónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biónica_n_rel" ] ]. biónico_a1 := a_rel_prd_le & [ STEM < "biónico" >, SYNSEM.LKEYS.KEYREL.PRED "_biónico_a_rel" ]. bióticamente_x1 := av_i_spr_le & [ STEM < "bióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bióticamente_x_rel" ]. biótico_a1 := a_rel_nonprd_intr_le & [ STEM < "biótico" >, SYNSEM.LKEYS.KEYREL.PRED "_biótico_a_rel" ]. bióxido_n1 := n_intr_mass_le & [ STEM < "bióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bióxido_n_rel" ] ]. blanco_a1 := a_qual_intr_ser_le & [ STEM < "blanco" >, SYNSEM.LKEYS.KEYREL.PRED "_blanco_a_rel" ]. blancura_n1 := n_ppcomp_uncount_le & [ STEM < "blancura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blancura_n_rel" ] ]. blancuzcamente_x1 := av_i_spr_le & [ STEM < "blancuzcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_blancuzcamente_x_rel" ]. blancuzco_a1 := a_qual_intr_ser_le & [ STEM < "blancuzco" >, SYNSEM.LKEYS.KEYREL.PRED "_blancuzco_a_rel" ]. blandir_v := v_trans_np_le & [ STEM < "blandir" >, SYNSEM.LKEYS.KEYREL.PRED "_blandir_v_rel" ]. blando_a1 := a_qual_intr_scopal_le & [ STEM < "blando" >, SYNSEM.LKEYS.KEYREL.PRED "_blando_a_rel" ]. blandura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "blandura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blandura_n_rel" ] ]. blanduzcamente_x1 := av_i_spr_le & [ STEM < "blanduzcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_blanduzcamente_x_rel" ]. blanduzco_a1 := a_qual_intr_scopal_le & [ STEM < "blanduzco" >, SYNSEM.LKEYS.KEYREL.PRED "_blanduzco_a_rel" ]. blanqueador_n1 := n_intr_count_le & [ STEM < "blanqueador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blanqueador_n_rel" ] ]. blanqueante_a1 := a_rel_nonprd_intr_le & [ STEM < "blanqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_blanqueante_a_rel" ]. blanquear_v := v_trans_np_caus_le & [ STEM < "blanquear" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquear_v_rel" ]. blanquecino_a1 := a_qual_intr_ser_le & [ STEM < "blanquecino" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquecino_a_rel" ]. blanqueo_n1 := n_trans_le & [ STEM < "blanqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_blanqueo_n_rel" ]. blanquiazul_a1 := a_qual_intr_ser_le & [ STEM < "blanquiazul" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquiazul_a_rel" ]. blanquiazul_n1 := n_intr_count_le & [ STEM < "blanquiazul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blanquiazul_n_rel" ] ]. blanquillo_a1 := a_qual_intr_ser_le & [ STEM < "blanquillo" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquillo_a_rel" ]. blasfemar_v := v_intr_le & [ STEM < "blasfemar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_blasfemar_v_rel" ] ]. blasfemia_n1 := n_intr_count_le & [ STEM < "blasfemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blasfemia_n_rel" ] ]. blasfemo_a1 := a_qual_intr_ser_le & [ STEM < "blasfemo" >, SYNSEM.LKEYS.KEYREL.PRED "_blasfemo_a_rel" ]. blasonador_n1 := n_intr_count_le & [ STEM < "blasonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blasonador_n_rel" ] ]. blastema_n1 := n_intr_count_le & [ STEM < "blastema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastema_n_rel" ] ]. blastocelo_n1 := n_intr_count_le & [ STEM < "blastocelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastocelo_n_rel" ] ]. blastocisto_n1 := n_intr_count_le & [ STEM < "blastocisto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastocisto_n_rel" ] ]. blastodermo_n1 := n_intr_count_le & [ STEM < "blastodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastodermo_n_rel" ] ]. blastodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "blastodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_blastodérmico_a_rel" ]. blastoide_a1 := a_rel_nonprd_intr_le & [ STEM < "blastoide" >, SYNSEM.LKEYS.KEYREL.PRED "_blastoide_a_rel" ]. blastomicosis_n1 := n_intr_uncount_le & [ STEM < "blastomicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blastomicosis_n_rel" ] ]. blastosfera_n1 := n_intr_count_le & [ STEM < "blastosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastosfera_n_rel" ] ]. blastómero_n1 := n_intr_count_le & [ STEM < "blastómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastómero_n_rel" ] ]. blasón_n1 := n_intr_count_le & [ STEM < "blasón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blasón_n_rel" ] ]. blaugrana_a1 := a_qual_intr_ser_le & [ STEM < "blaugrana" >, SYNSEM.LKEYS.KEYREL.PRED "_blaugrana_a_rel" ]. blaugrana_n1 := n_intr_count_le & [ STEM < "blaugrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blaugrana_n_rel" ] ]. bledo_n1 := n_intr_count_le & [ STEM < "bledo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bledo_n_rel" ] ]. blefarectomía_n1 := n_intr_count_le & [ STEM < "blefarectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarectomía_n_rel" ] ]. blefarismo_n1 := n_intr_uncount_le & [ STEM < "blefarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarismo_n_rel" ] ]. blefaritis_n1 := n_intr_uncount_le & [ STEM < "blefaritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaritis_n_rel" ] ]. blefarocalasia_n1 := n_intr_uncount_le & [ STEM < "blefarocalasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarocalasia_n_rel" ] ]. blefaroclono_n1 := n_intr_count_le & [ STEM < "blefaroclono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blefaroclono_n_rel" ] ]. blefaroconjuntivitis_n1 := n_intr_uncount_le & [ STEM < "blefaroconjuntivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroconjuntivitis_n_rel" ] ]. blefarodiastasis_n1 := n_intr_uncount_le & [ STEM < "blefarodiastasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarodiastasis_n_rel" ] ]. blefaroespasmo_n1 := n_intr_count_le & [ STEM < "blefaroespasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroespasmo_n_rel" ] ]. blefarofimosis_n1 := n_intr_uncount_le & [ STEM < "blefarofimosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarofimosis_n_rel" ] ]. blefaroplastia_n1 := n_intr_count_le & [ STEM < "blefaroplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroplastia_n_rel" ] ]. blefaroplasto_n1 := n_intr_count_le & [ STEM < "blefaroplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blefaroplasto_n_rel" ] ]. blefaroplejía_n1 := n_intr_uncount_le & [ STEM < "blefaroplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroplejía_n_rel" ] ]. blefaroptosis_n1 := n_intr_uncount_le & [ STEM < "blefaroptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroptosis_n_rel" ] ]. blefarorrafia_n1 := n_intr_uncount_le & [ STEM < "blefarorrafia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarorrafia_n_rel" ] ]. blefarosfinterectomía_n1 := n_intr_count_le & [ STEM < "blefarosfinterectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarosfinterectomía_n_rel" ] ]. blefarotomía_n1 := n_intr_count_le & [ STEM < "blefarotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarotomía_n_rel" ] ]. blefaróstato_n1 := n_intr_count_le & [ STEM < "blefaróstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaróstato_n_rel" ] ]. blenda_n1 := n_intr_count_le & [ STEM < "blenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blenda_n_rel" ] ]. blenoftalmía_n1 := n_intr_uncount_le & [ STEM < "blenoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blenoftalmía_n_rel" ] ]. blindaje_n1 := n_trans_le & [ STEM < "blindaje" >, SYNSEM.LKEYS.KEYREL.PRED "_blindaje_n_rel" ]. blindar_v := v_trans_np*_le & [ STEM < "blindar" >, SYNSEM.LKEYS.KEYREL.PRED "_blindar_v_rel" ]. bloc_n1 := n_intr_count_le & [ STEM < "bloc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bloc_n_rel" ] ]. blocaje_n1 := n_intr_uncount_le & [ STEM < "blocaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blocaje_n_rel" ] ]. blocar_v := v_trans_np_le & [ STEM < "blocar" >, SYNSEM.LKEYS.KEYREL.PRED "_blocar_v_rel" ]. blonda_n1 := n_intr_count_le & [ STEM < "blonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blonda_n_rel" ] ]. bloque_n1 := n_intr_count_le & [ STEM < "bloque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bloque_n_rel" ] ]. bloqueable_a1 := a_rel_prd_le & [ STEM < "bloqueable" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueable_a_rel" ]. bloqueador_a1 := a_rel_nonprd_intr_le & [ STEM < "bloqueador" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueador_a_rel" ]. bloqueador_n1 := n_subj-nom_le & [ STEM < "bloqueador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bloqueador_n_rel" ] ]. bloqueante_a1 := a_rel_nonprd_intr_le & [ STEM < "bloqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueante_a_rel" ]. bloquear_v1 := v_intr_io*_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_bloquear_v_rel" ] ]. bloquear_v6 := v_trans_np_caus_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_bloquear_v_rel" ] ]. bloqueo_n1 := n_trans_le & [ STEM < "bloqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueo_n_rel" ]. blusa_n1 := n_intr_count_le & [ STEM < "blusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blusa_n_rel" ] ]. blástico_a1 := a_rel_nonprd_intr_le & [ STEM < "blástico" >, SYNSEM.LKEYS.KEYREL.PRED "_blástico_a_rel" ]. blástula_n1 := n_intr_count_le & [ STEM < "blástula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_blástula_n_rel" ] ]. boa_n1 := n_intr_count_le & [ STEM < "boa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_boa_n_rel" ] ]. boato_n1 := n_intr_uncount_le & [ STEM < "boato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boato_n_rel" ] ]. bob_n1 := n_intr_count_le & [ STEM < "bob" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bob_n_rel" ] ]. bobada_n1 := n_intr_count_le & [ STEM < "bobada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bobada_n_rel" ] ]. bobina_n1 := n_intr_count_le & [ STEM < "bobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bobina_n_rel" ] ]. bobinado_n1 := n_intr_mass_le & [ STEM < "bobinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobinado_n_rel" ] ]. bobinadora_n1 := n_intr_count_le & [ STEM < "bobinadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobinadora_n_rel" ] ]. bobinar_v := v_trans_np_le & [ STEM < "bobinar" >, SYNSEM.LKEYS.KEYREL.PRED "_bobinar_v_rel" ]. bobo_a1 := a_qual_intr_ser_le & [ STEM < "bobo" >, SYNSEM.LKEYS.KEYREL.PRED "_bobo_a_rel" ]. bobsleigh_n1 := n_intr_count_le & [ STEM < "bobsleigh" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobsleigh_n_rel" ] ]. boca_arriba_x1 := av_i_le & [ STEM < "boca_arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_boca_arriba_x_rel" ]. boca_n1 := n_intr_count_le & [ STEM < "boca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boca_n_rel" ] ]. boca_n2 := n_ppcomp_count_le & [ STEM < "boca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_boca_n_rel" ] ]. bocacalle_n1 := n_intr_count_le & [ STEM < "bocacalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bocacalle_n_rel" ] ]. bocadillería_n1 := n_intr_count_le & [ STEM < "bocadillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bocadillería_n_rel" ] ]. bocadillo_n1 := n_intr_mass_le & [ STEM < "bocadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocadillo_n_rel" ] ]. bocado_n1 := n_intr_count_le & [ STEM < "bocado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocado_n_rel" ] ]. bocana_n1 := n_intr_count_le & [ STEM < "bocana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bocana_n_rel" ] ]. bocanada_n1 := n_intr_count_le & [ STEM < "bocanada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocanada_n_rel" ] ]. bocanada_n2 := n_pseudo-part_le & [ STEM < "bocanada" >, SYNSEM.LKEYS.KEYREL.PRED "_bocanada_n_rel" ]. bocanegra_n1 := n_intr_count_le & [ STEM < "bocanegra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bocanegra_n_rel" ] ]. bocarte_n1 := n_intr_count_le & [ STEM < "bocarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocarte_n_rel" ] ]. bocata_n1 := n_intr_count_le & [ STEM < "bocata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocata_n_rel" ] ]. bocateja_n1 := n_intr_count_le & [ STEM < "bocateja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocateja_n_rel" ] ]. bocazas_n1 := n_intr_count_le & [ STEM < "bocazas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bocazas_n_rel" ] ]. bocelón_n1 := n_intr_count_le & [ STEM < "bocelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocelón_n_rel" ] ]. bocetista_n1 := n_intr_count_le & [ STEM < "bocetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bocetista_n_rel" ] ]. boceto_n1 := n_intr_count_le & [ STEM < "boceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boceto_n_rel" ] ]. bochorno_n1 := n_intr_mass_le & [ STEM < "bochorno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bochorno_n_rel" ] ]. bochornosamente_x1 := av_i_spr_le & [ STEM < "bochornosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bochornosamente_x_rel" ]. bochornoso_a1 := a_qual_intr_scopal_le & [ STEM < "bochornoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bochornoso_a_rel" ]. bocina_n1 := n_intr_count_le & [ STEM < "bocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocina_n_rel" ] ]. bocinazo_n1 := n_intr_count_le & [ STEM < "bocinazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocinazo_n_rel" ] ]. bocio_n1 := n_intr_count_le & [ STEM < "bocio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocio_n_rel" ] ]. boda_n1 := n_intr_count_le & [ STEM < "boda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boda_n_rel" ] ]. bodega_n1 := n_intr_count_le & [ STEM < "bodega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bodega_n_rel" ] ]. bodeguero_n1 := n_intr_count_le & [ STEM < "bodeguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bodeguero_n_rel" ] ]. bodeguilla_n1 := n_intr_count_le & [ STEM < "bodeguilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bodeguilla_n_rel" ] ]. bodegón_n1 := n_intr_count_le & [ STEM < "bodegón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bodegón_n_rel" ] ]. body_n1 := n_intr_count_le & [ STEM < "body" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_body_n_rel" ] ]. bofetada_n1 := n_intr_count_le & [ STEM < "bofetada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bofetada_n_rel" ] ]. boga_n1 := n_intr_count_le & [ STEM < "boga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boga_n_rel" ] ]. boga_n2 := n_event-result_intr_le & [ STEM < "boga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boga_n_rel" ] ]. bogador_n1 := n_intr_count_le & [ STEM < "bogador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bogador_n_rel" ] ]. bogar_v := v_intr_le & [ STEM < "bogar" >, SYNSEM.LKEYS.KEYREL.PRED "_bogar_v_rel" ]. bogavante_n1 := n_intr_count_le & [ STEM < "bogavante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_bogavante_n_rel" ] ]. bogotano_n1 := n_intr_count_le & [ STEM < "bogotano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bogotano_n_rel" ] ]. bohemio_a1 := a_qual_intr_ser_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemio_a_rel" ]. bohemio_a2 := a_rel_prd_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemio_a_rel" ]. bohemio_n1 := n_intr_count_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bohemio_n_rel" ] ]. bohemo_a1 := a_rel_prd_le & [ STEM < "bohemo" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemo_a_rel" ]. bohemo_n1 := n_intr_count_le & [ STEM < "bohemo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bohemo_n_rel" ] ]. boicot_n1 := n_intr_count_le & [ STEM < "boicot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boicot_n_rel" ] ]. boicoteador_n1 := n_subj-nom_le & [ STEM < "boicoteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boicoteador_n_rel" ] ]. boicotear_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "boicotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_boicotear_v_rel" ] ]. boicotear_v2 := v_trans_np_le & [ STEM < "boicotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_boicotear_v_rel" ] ]. boicoteo_n1 := n_trans_le & [ STEM < "boicoteo" >, SYNSEM.LKEYS.KEYREL.PRED "_boicoteo_n_rel" ]. boina_n1 := n_intr_count_le & [ STEM < "boina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boina_n_rel" ] ]. boje_n1 := n_intr_count_le & [ STEM < "boje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boje_n_rel" ] ]. bojedal_n1 := n_intr_count_le & [ STEM < "bojedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bojedal_n_rel" ] ]. bol_n1 := n_intr_count_le & [ STEM < "bol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bol_n_rel" ] ]. bola_n1 := n_intr_count_le & [ STEM < "bola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bola_n_rel" ] ]. bolardo_n1 := n_intr_count_le & [ STEM < "bolardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolardo_n_rel" ] ]. bolchevique_a1 := a_rel_prd_le & [ STEM < "bolchevique" >, SYNSEM.LKEYS.KEYREL.PRED "_bolchevique_a_rel" ]. bolchevismo_n1 := n_intr_uncount_le & [ STEM < "bolchevismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bolchevismo_n_rel" ] ]. bolera_n1 := n_intr_count_le & [ STEM < "bolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bolera_n_rel" ] ]. bolerista_n1 := n_intr_count_le & [ STEM < "bolerista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bolerista_n_rel" ] ]. bolero_n1 := n_intr_count_le & [ STEM < "bolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bolero_n_rel" ] ]. boleto_n1 := n_intr_count_le & [ STEM < "boleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boleto_n_rel" ] ]. boletín_n1 := n_intr_count_le & [ STEM < "boletín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_boletín_n_rel" ] ]. boliche_n1 := n_intr_count_le & [ STEM < "boliche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_boliche_n_rel" ] ]. bolillo_n1 := n_intr_count_le & [ STEM < "bolillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolillo_n_rel" ] ]. bolina_n1 := n_intr_count_le & [ STEM < "bolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolina_n_rel" ] ]. bolita_n1 := n_intr_count_le & [ STEM < "bolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolita_n_rel" ] ]. boliviano_a1 := a_rel_prd_le & [ STEM < "boliviano" >, SYNSEM.LKEYS.KEYREL.PRED "_boliviano_a_rel" ]. boliviano_n1 := n_intr_count_le & [ STEM < "boliviano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boliviano_n_rel" ] ]. bollería_n1 := n_intr_uncount_le & [ STEM < "bollería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bollería_n_rel" ] ]. bollo_n1 := n_intr_count_le & [ STEM < "bollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bollo_n_rel" ] ]. bolo_n1 := n_intr_count_le & [ STEM < "bolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolo_n_rel" ] ]. bolsa_n1 := n_intr_count_le & [ STEM < "bolsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsa_n_rel" ] ]. bolsillo_n1 := n_intr_count_le & [ STEM < "bolsillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsillo_n_rel" ] ]. bolso_n1 := n_intr_count_le & [ STEM < "bolso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolso_n_rel" ] ]. bolsín_n1 := n_intr_count_le & [ STEM < "bolsín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsín_n_rel" ] ]. bolígrafo_n1 := n_intr_count_le & [ STEM < "bolígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolígrafo_n_rel" ] ]. bolómetro_n1 := n_intr_count_le & [ STEM < "bolómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolómetro_n_rel" ] ]. bomba_n1 := n_intr_count_le & [ STEM < "bomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bomba_n_rel" ] ]. bombarda_n1 := n_intr_count_le & [ STEM < "bombarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bombarda_n_rel" ] ]. bombardear_v := v_trans_np*_le & [ STEM < "bombardear" >, SYNSEM.LKEYS.KEYREL.PRED "_bombardear_v_rel" ]. bombardeo_n1 := n_trans_le & [ STEM < "bombardeo" >, SYNSEM.LKEYS.KEYREL.PRED "_bombardeo_n_rel" ]. bombardero_n1 := n_intr_count_le & [ STEM < "bombardero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bombardero_n_rel" ] ]. bombardino_n1 := n_intr_count_le & [ STEM < "bombardino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombardino_n_rel" ] ]. bombardón_n1 := n_intr_count_le & [ STEM < "bombardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombardón_n_rel" ] ]. bombear_v := v_trans_np*_le & [ STEM < "bombear" >, SYNSEM.LKEYS.KEYREL.PRED "_bombear_v_rel" ]. bombeo_n1 := n_trans_le & [ STEM < "bombeo" >, SYNSEM.LKEYS.KEYREL.PRED "_bombeo_n_rel" ]. bombero_n1 := n_intr_count_le & [ STEM < "bombero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bombero_n_rel" ] ]. bombilla_n1 := n_intr_count_le & [ STEM < "bombilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombilla_n_rel" ] ]. bombo_n1 := n_intr_count_le & [ STEM < "bombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombo_n_rel" ] ]. bombona_n1 := n_intr_count_le & [ STEM < "bombona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombona_n_rel" ] ]. bombonera_n1 := n_intr_count_le & [ STEM < "bombonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombonera_n_rel" ] ]. bombonería_n1 := n_intr_count_le & [ STEM < "bombonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bombonería_n_rel" ] ]. bombín_n1 := n_intr_count_le & [ STEM < "bombín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombín_n_rel" ] ]. bombón_n1 := n_intr_mass_le & [ STEM < "bombón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombón_n_rel" ] ]. bonaerense_a1 := a_rel_prd_le & [ STEM < "bonaerense" >, SYNSEM.LKEYS.KEYREL.PRED "_bonaerense_a_rel" ]. bonaerense_n1 := n_intr_count_le & [ STEM < "bonaerense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bonaerense_n_rel" ] ]. bonancible_a1 := a_qual_intr_scopal_le & [ STEM < "bonancible" >, SYNSEM.LKEYS.KEYREL.PRED "_bonancible_a_rel" ]. bonanciblemente_x1 := av_i_spr_le & [ STEM < "bonanciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_bonanciblemente_x_rel" ]. bonanza_n1 := n_intr_mass_le & [ STEM < "bonanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bonanza_n_rel" ] ]. bondad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "bondad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bondad_n_rel" ] ]. bondadosamente_x1 := av_i_spr_le & [ STEM < "bondadosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bondadosamente_x_rel" ]. bondadoso_a1 := a_qual_intr_ser_le & [ STEM < "bondadoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bondadoso_a_rel" ]. bongo_n1 := n_intr_count_le & [ STEM < "bongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bongo_n_rel" ] ]. boniato_n1 := n_intr_count_le & [ STEM < "boniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boniato_n_rel" ] ]. bonificación_n1 := n_trans_le & [ STEM < "bonificación" >, SYNSEM.LKEYS.KEYREL.PRED "_bonificación_n_rel" ]. bonificar_v := v_ditrans*_le & [ STEM < "bonificar" >, SYNSEM.LKEYS.KEYREL.PRED "_bonificar_v_rel" ]. bonito_a1 := a_qual_intr_scopal_le & [ STEM < "bonito" >, SYNSEM.LKEYS.KEYREL.PRED "_bonito_a_rel" ]. bonito_n1 := n_intr_count_le & [ STEM < "bonito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bonito_n_rel" ] ]. bono_n1 := n_intr_count_le & [ STEM < "bono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bono_n_rel" ] ]. bonobo_n1 := n_intr_count_le & [ STEM < "bonobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bonobo_n_rel" ] ]. bonsai_n1 := n_intr_count_le & [ STEM < "bonsai" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bonsai_n_rel" ] ]. bonzo_n1 := n_intr_count_le & [ STEM < "bonzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bonzo_n_rel" ] ]. booleano_a1 := a_rel_nonprd_intr_le & [ STEM < "booleano" >, SYNSEM.LKEYS.KEYREL.PRED "_booleano_a_rel" ]. boom_n1 := n_intr_count_le & [ STEM < "boom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boom_n_rel" ] ]. boomerang_n1 := n_intr_count_le & [ STEM < "boomerang" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boomerang_n_rel" ] ]. boqueada_n1 := n_intr_count_le & [ STEM < "boqueada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boqueada_n_rel" ] ]. boquera_n1 := n_intr_count_le & [ STEM < "boquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquera_n_rel" ] ]. boquerón_n1 := n_intr_count_le & [ STEM < "boquerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_boquerón_n_rel" ] ]. boquete_n1 := n_intr_count_le & [ STEM < "boquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquete_n_rel" ] ]. boquiabierto_a1 := a_qual_intr_estar_le & [ STEM < "boquiabierto" >, SYNSEM.LKEYS.KEYREL.PRED "_boquiabierto_a_rel" ]. boquilla_n1 := n_intr_count_le & [ STEM < "boquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquilla_n_rel" ] ]. boracita_n1 := n_intr_count_le & [ STEM < "boracita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boracita_n_rel" ] ]. borato_n1 := n_intr_count_le & [ STEM < "borato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borato_n_rel" ] ]. borbotear_v := v_intr_le & [ STEM < "borbotear" >, SYNSEM.LKEYS.KEYREL.PRED "_borbotear_v_rel" ]. borbónico_a1 := a_rel_nonprd_intr_le & [ STEM < "borbónico" >, SYNSEM.LKEYS.KEYREL.PRED "_borbónico_a_rel" ]. borda_n1 := n_intr_count_le & [ STEM < "borda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_borda_n_rel" ] ]. bordado_n1 := n_trans_le & [ STEM < "bordado" >, SYNSEM.LKEYS.KEYREL.PRED "_bordado_n_rel" ]. bordador_n1 := n_subj-nom_le & [ STEM < "bordador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bordador_n_rel" ] ]. bordar_v := v_trans_np*_le & [ STEM < "bordar" >, SYNSEM.LKEYS.KEYREL.PRED "_bordar_v_rel" ]. borde_n1 := n_intr_count_le & [ STEM < "borde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borde_n_rel" ] ]. bordear_v := v_trans_np_le & [ STEM < "bordear" >, SYNSEM.LKEYS.KEYREL.PRED "_bordear_v_rel" ]. borderó_n1 := n_intr_count_le & [ STEM < "borderó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_borderó_n_rel" ] ]. bordillo_n1 := n_intr_count_le & [ STEM < "bordillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bordillo_n_rel" ] ]. bordo_n1 := n_intr_count_le & [ STEM < "bordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bordo_n_rel" ] ]. bordonadora_n1 := n_intr_count_le & [ STEM < "bordonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bordonadora_n_rel" ] ]. bordón_n1 := n_intr_count_le & [ STEM < "bordón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bordón_n_rel" ] ]. boreal_a1 := a_rel_nonprd_intr_le & [ STEM < "boreal" >, SYNSEM.LKEYS.KEYREL.PRED "_boreal_a_rel" ]. boreliano_a1 := a_rel_nonprd_intr_le & [ STEM < "boreliano" >, SYNSEM.LKEYS.KEYREL.PRED "_boreliano_a_rel" ]. borgoñón_a1 := a_rel_prd_le & [ STEM < "borgoñón" >, SYNSEM.LKEYS.KEYREL.PRED "_borgoñón_a_rel" ]. borgoñón_n1 := n_intr_count_le & [ STEM < "borgoñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_borgoñón_n_rel" ] ]. boriborato_n1 := n_intr_count_le & [ STEM < "boriborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boriborato_n_rel" ] ]. borla_n1 := n_intr_count_le & [ STEM < "borla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borla_n_rel" ] ]. borne_n1 := n_intr_mass_le & [ STEM < "borne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borne_n_rel" ] ]. borneadura_n1 := n_trans_le & [ STEM < "borneadura" >, SYNSEM.LKEYS.KEYREL.PRED "_borneadura_n_rel" ]. borneo_n1 := n_trans_le & [ STEM < "borneo" >, SYNSEM.LKEYS.KEYREL.PRED "_borneo_n_rel" ]. borneol_n1 := n_intr_mass-or-count_le & [ STEM < "borneol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_borneol_n_rel" ] ]. bornita_n1 := n_intr_count_le & [ STEM < "bornita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bornita_n_rel" ] ]. bornizo_n1 := n_intr_mass_le & [ STEM < "bornizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bornizo_n_rel" ] ]. boro_n1 := n_intr_mass_le & [ STEM < "boro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boro_n_rel" ] ]. borohidruro_n1 := n_intr_count_le & [ STEM < "borohidruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_borohidruro_n_rel" ] ]. borona_n1 := n_intr_count_le & [ STEM < "borona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_borona_n_rel" ] ]. borosilicato_n1 := n_intr_count_le & [ STEM < "borosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_borosilicato_n_rel" ] ]. borra_n1 := n_intr_count_le & [ STEM < "borra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borra_n_rel" ] ]. borrable_a1 := a_rel_prd_le & [ STEM < "borrable" >, SYNSEM.LKEYS.KEYREL.PRED "_borrable_a_rel" ]. borrachera_n1 := n_intr_count_le & [ STEM < "borrachera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrachera_n_rel" ] ]. borracho_a1 := a_qual_intr_estar_le & [ STEM < "borracho" >, SYNSEM.LKEYS.KEYREL.PRED "_borracho_a_rel" ]. borracho_n1 := n_intr_count_le & [ STEM < "borracho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_borracho_n_rel" ] ]. borrachín_n1 := n_intr_count_le & [ STEM < "borrachín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrachín_n_rel" ] ]. borrado_n1 := n_trans_le & [ STEM < "borrado" >, SYNSEM.LKEYS.KEYREL.PRED "_borrado_n_rel" ]. borrador_a1 := a_rel_nonprd_intr_le & [ STEM < "borrador" >, SYNSEM.LKEYS.KEYREL.PRED "_borrador_a_rel" ]. borrador_n1 := n_intr_count_le & [ STEM < "borrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_borrador_n_rel" ] ]. borradura_n1 := n_trans_le & [ STEM < "borradura" >, SYNSEM.LKEYS.KEYREL.PRED "_borradura_n_rel" ]. borraja_n1 := n_intr_count_le & [ STEM < "borraja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_borraja_n_rel" ] ]. borrar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "borrar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_borrar_v_rel" ] ]. borrasca_n1 := n_intr_count_le & [ STEM < "borrasca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrasca_n_rel" ] ]. borrascoso_a1 := a_qual_intr_scopal_le & [ STEM < "borrascoso" >, SYNSEM.LKEYS.KEYREL.PRED "_borrascoso_a_rel" ]. borrego_n1 := n_intr_count_le & [ STEM < "borrego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_borrego_n_rel" ] ]. borroso_a1 := a_qual_intr_scopal_le & [ STEM < "borroso" >, SYNSEM.LKEYS.KEYREL.PRED "_borroso_a_rel" ]. borrén_n1 := n_intr_count_le & [ STEM < "borrén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borrén_n_rel" ] ]. boruro_n1 := n_intr_count_le & [ STEM < "boruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boruro_n_rel" ] ]. boscaje_n1 := n_intr_mass_le & [ STEM < "boscaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_boscaje_n_rel" ] ]. boscoso_a1 := a_rel_nonprd_intr_le & [ STEM < "boscoso" >, SYNSEM.LKEYS.KEYREL.PRED "_boscoso_a_rel" ]. bosnio_a1 := a_rel_prd_le & [ STEM < "bosnio" >, SYNSEM.LKEYS.KEYREL.PRED "_bosnio_a_rel" ]. bosnio_n1 := n_intr_count_le & [ STEM < "bosnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bosnio_n_rel" ] ]. bosque_n1 := n_intr_coll_le & [ STEM < "bosque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_bosque_n_rel" ] ]. bosquejar_v := v_trans_np_le & [ STEM < "bosquejar" >, SYNSEM.LKEYS.KEYREL.PRED "_bosquejar_v_rel" ]. bosquejo_n1 := n_intr_count_le & [ STEM < "bosquejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bosquejo_n_rel" ] ]. bosquete_n1 := n_intr_count_le & [ STEM < "bosquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bosquete_n_rel" ] ]. bosquimano_n1 := n_intr_count_le & [ STEM < "bosquimano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bosquimano_n_rel" ] ]. bostezar_v := v_intr_le & [ STEM < "bostezar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_bostezar_v_rel" ] ]. bostezo_n1 := n_result_intr_le & [ STEM < "bostezo" >, SYNSEM.LKEYS.KEYREL.PRED "_bostezo_n_rel" ]. bostoniano_a1 := a_rel_prd_le & [ STEM < "bostoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_bostoniano_a_rel" ]. bostoniano_n1 := n_intr_count_le & [ STEM < "bostoniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bostoniano_n_rel" ] ]. bota_n1 := n_intr_count_le & [ STEM < "bota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bota_n_rel" ] ]. botador_n1 := n_intr_count_le & [ STEM < "botador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botador_n_rel" ] ]. botadura_n1 := n_event-result_intr_le & [ STEM < "botadura" >, SYNSEM.LKEYS.KEYREL.PRED "_botadura_n_rel" ]. botalón_n1 := n_intr_count_le & [ STEM < "botalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botalón_n_rel" ] ]. botar_v1 := v_trans_np_le & [ STEM < "botar" >, SYNSEM.LKEYS.KEYREL.PRED "_botar_v_rel" ]. botar_v2 := v_unacc_le & [ STEM < "botar" >, SYNSEM.LKEYS.KEYREL.PRED "_botar_v_rel" ]. botavara_n1 := n_intr_count_le & [ STEM < "botavara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botavara_n_rel" ] ]. bote_n1 := n_intr_count_le & [ STEM < "bote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bote_n_rel" ] ]. botella_n1 := n_pseudo-part_le & [ STEM < "botella" >, SYNSEM.LKEYS.KEYREL.PRED "_botella_n_rel" ]. botellero_n1 := n_intr_count_le & [ STEM < "botellero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botellero_n_rel" ] ]. botellín_n1 := n_intr_count_le & [ STEM < "botellín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botellín_n_rel" ] ]. botepronto_n1 := n_intr_uncount_pl_le & [ STEM < "botepronto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botepronto_n_rel" ] ]. botica_n1 := n_intr_count_le & [ STEM < "botica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_botica_n_rel" ] ]. boticario_n1 := n_intr_count_le & [ STEM < "boticario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boticario_n_rel" ] ]. botijo_n1 := n_intr_count_le & [ STEM < "botijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botijo_n_rel" ] ]. botillero_n1 := n_intr_count_le & [ STEM < "botillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botillero_n_rel" ] ]. botiquín_n1 := n_intr_count_le & [ STEM < "botiquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botiquín_n_rel" ] ]. botonadura_n1 := n_intr_count_le & [ STEM < "botonadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botonadura_n_rel" ] ]. botoncito_n1 := n_intr_count_le & [ STEM < "botoncito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botoncito_n_rel" ] ]. botonera_n1 := n_intr_count_le & [ STEM < "botonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botonera_n_rel" ] ]. botones_n1 := n_intr_count_le & [ STEM < "botones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botones_n_rel" ] ]. botulismo_n1 := n_intr_uncount_le & [ STEM < "botulismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botulismo_n_rel" ] ]. botánica_n1 := n_intr_uncount_le & [ STEM < "botánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botánica_n_rel" ] ]. botánicamente_x1 := av_i_spr_le & [ STEM < "botánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_botánicamente_x_rel" ]. botánico_a1 := a_rel_nonprd_intr_le & [ STEM < "botánico" >, SYNSEM.LKEYS.KEYREL.PRED "_botánico_a_rel" ]. botánico_n1 := n_intr_count_le & [ STEM < "botánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botánico_n_rel" ] ]. botín_n1 := n_intr_count_le & [ STEM < "botín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botín_n_rel" ] ]. botón_n1 := n_intr_count_le & [ STEM < "botón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botón_n_rel" ] ]. bournonita_n1 := n_intr_count_le & [ STEM < "bournonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bournonita_n_rel" ] ]. boutique_n1 := n_intr_count_le & [ STEM < "boutique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_boutique_n_rel" ] ]. bovedilla_n1 := n_intr_count_le & [ STEM < "bovedilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bovedilla_n_rel" ] ]. bovino_a1 := a_rel_nonprd_intr_le & [ STEM < "bovino" >, SYNSEM.LKEYS.KEYREL.PRED "_bovino_a_rel" ]. box_n1 := n_intr_count_le & [ STEM < "box" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_box_n_rel" ] ]. boxeador_n1 := n_intr_count_le & [ STEM < "boxeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boxeador_n_rel" ] ]. boxear_v := v_intr_le & [ STEM < "boxear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_boxear_v_rel" ] ]. boxeo_n1 := n_result_intr_le & [ STEM < "boxeo" >, SYNSEM.LKEYS.KEYREL.PRED "_boxeo_n_rel" ]. boya_n1 := n_intr_count_le & [ STEM < "boya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boya_n_rel" ] ]. boyante_a1 := a_rel_nonprd_intr_le & [ STEM < "boyante" >, SYNSEM.LKEYS.KEYREL.PRED "_boyante_a_rel" ]. boyarín_n1 := n_intr_count_le & [ STEM < "boyarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boyarín_n_rel" ] ]. boyero_n1 := n_intr_count_le & [ STEM < "boyero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boyero_n_rel" ] ]. boza_n1 := n_intr_count_le & [ STEM < "boza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boza_n_rel" ] ]. bozal_n1 := n_intr_count_le & [ STEM < "bozal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bozal_n_rel" ] ]. bozo_n1 := n_intr_count_le & [ STEM < "bozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bozo_n_rel" ] ]. braceaje_n1 := n_intr_mass_le & [ STEM < "braceaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braceaje_n_rel" ] ]. bracero_n1 := n_intr_count_le & [ STEM < "bracero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bracero_n_rel" ] ]. bracista_n1 := n_intr_count_le & [ STEM < "bracista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bracista_n_rel" ] ]. bracket_cl_pnct := pnct_fpt_le & [ STEM < "fpt" > ]. bracket_op_pnct := pnct_fpa_le & [ STEM < "fpa" > ]. braco_a1 := a_rel_prd_le & [ STEM < "braco" >, SYNSEM.LKEYS.KEYREL.PRED "_braco_a_rel" ]. bradicardia_n1 := n_intr_uncount_le & [ STEM < "bradicardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradicardia_n_rel" ] ]. bradicinina_n1 := n_intr_mass_le & [ STEM < "bradicinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bradicinina_n_rel" ] ]. bradifagia_n1 := n_intr_uncount_le & [ STEM < "bradifagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradifagia_n_rel" ] ]. bradiglosia_n1 := n_intr_uncount_le & [ STEM < "bradiglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradiglosia_n_rel" ] ]. bradilexia_n1 := n_intr_uncount_le & [ STEM < "bradilexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradilexia_n_rel" ] ]. bradiquinina_n1 := n_intr_count_le & [ STEM < "bradiquinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bradiquinina_n_rel" ] ]. braga_n1 := n_intr_count_le & [ STEM < "braga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braga_n_rel" ] ]. braguero_n1 := n_intr_count_le & [ STEM < "braguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_braguero_n_rel" ] ]. bragueta_n1 := n_intr_count_le & [ STEM < "bragueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bragueta_n_rel" ] ]. braguita_n1 := n_intr_count_le & [ STEM < "braguita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_braguita_n_rel" ] ]. brahmanismo_n1 := n_intr_uncount_le & [ STEM < "brahmanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brahmanismo_n_rel" ] ]. braille_n1 := n_intr_count_le & [ STEM < "braille" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_braille_n_rel" ] ]. bramar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bramar_v_rel" ] ]. bramar_v2 := v_ditrans*_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_bramar_v_rel" ] ]. bramar_v3 := v_unacc_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL.PRED "_bramar_v_rel" ]. bramido_n1 := n_result_intr_le & [ STEM < "bramido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bramido_n_rel" ] ]. bramor_n1 := n_intr_uncount_le & [ STEM < "bramor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bramor_n_rel" ] ]. brandy_n1 := n_intr_mass_le & [ STEM < "brandy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brandy_n_rel" ] ]. branquia_n1 := n_intr_count_le & [ STEM < "branquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_branquia_n_rel" ] ]. branquial_a1 := a_rel_nonprd_intr_le & [ STEM < "branquial" >, SYNSEM.LKEYS.KEYREL.PRED "_branquial_a_rel" ]. branquioma_n1 := n_intr_count_le & [ STEM < "branquioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_branquioma_n_rel" ] ]. braquial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquial_a_rel" ]. braquicefalia_n1 := n_intr_uncount_le & [ STEM < "braquicefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquicefalia_n_rel" ] ]. braquicefalismo_n1 := n_intr_uncount_le & [ STEM < "braquicefalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquicefalismo_n_rel" ] ]. braquicéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "braquicéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_braquicéfalo_a_rel" ]. braquiestafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiestafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiestafilino_a_rel" ]. braquifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquifacial_a_rel" ]. braquignatia_n1 := n_intr_uncount_le & [ STEM < "braquignatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquignatia_n_rel" ] ]. braquimeiosis_n1 := n_intr_uncount_le & [ STEM < "braquimeiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquimeiosis_n_rel" ] ]. braquiocefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiocefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiocefálico_a_rel" ]. braquiodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiodonto_a_rel" ]. braquiorradial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiorradial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiorradial_a_rel" ]. braquiqueilia_n1 := n_intr_uncount_le & [ STEM < "braquiqueilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquiqueilia_n_rel" ] ]. braquistafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "braquistafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_braquistafilino_a_rel" ]. braquiuránico_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiuránico" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiuránico_a_rel" ]. brasa_n1 := n_intr_count_le & [ STEM < "brasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brasa_n_rel" ] ]. brasero_n1 := n_intr_count_le & [ STEM < "brasero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brasero_n_rel" ] ]. brasileño_a1 := a_rel_prd_le & [ STEM < "brasileño" >, SYNSEM.LKEYS.KEYREL.PRED "_brasileño_a_rel" ]. brasileño_n1 := n_intr_count_le & [ STEM < "brasileño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brasileño_n_rel" ] ]. brasilianita_n1 := n_intr_count_le & [ STEM < "brasilianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brasilianita_n_rel" ] ]. bratislavo_n1 := n_intr_count_le & [ STEM < "bratislavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bratislavo_n_rel" ] ]. braunita_n1 := n_intr_count_le & [ STEM < "braunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_braunita_n_rel" ] ]. bravata_n1 := n_intr_count_le & [ STEM < "bravata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bravata_n_rel" ] ]. bravo_a1 := a_qual_intr_scopal_le & [ STEM < "bravo" >, SYNSEM.LKEYS.KEYREL.PRED "_bravo_a_rel" ]. bravura_n1 := n_ppcomp_mass_le & [ STEM < "bravura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bravura_n_rel" ] ]. braza_n1 := n_pseudo-part_le & [ STEM < "braza" >, SYNSEM.LKEYS.KEYREL.PRED "_braza_n_rel" ]. brazada_n1 := n_intr_count_le & [ STEM < "brazada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brazada_n_rel" ] ]. brazal_n1 := n_intr_count_le & [ STEM < "brazal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazal_n_rel" ] ]. brazalera_n1 := n_intr_count_le & [ STEM < "brazalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazalera_n_rel" ] ]. brazalete_n1 := n_intr_count_le & [ STEM < "brazalete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazalete_n_rel" ] ]. brazo_n1 := n_ppcomp_count_le & [ STEM < "brazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_brazo_n_rel" ] ]. brazola_n1 := n_intr_count_le & [ STEM < "brazola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazola_n_rel" ] ]. brea_n1 := n_intr_mass_le & [ STEM < "brea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brea_n_rel" ] ]. brebaje_n1 := n_intr_count_le & [ STEM < "brebaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brebaje_n_rel" ] ]. brecha_n1 := n_intr_count_le & [ STEM < "brecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brecha_n_rel" ] ]. brega_n1 := n_result_intr_le & [ STEM < "brega" >, SYNSEM.LKEYS.KEYREL.PRED "_brega_n_rel" ]. bregar_v := v_intr_mrkd_np*_le & [ STEM < "bregar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL.PRED "_bregar_v_rel" ] ]. bregma_n1 := n_intr_uncount_le & [ STEM < "bregma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bregma_n_rel" ] ]. bregmático_a1 := a_rel_nonprd_intr_le & [ STEM < "bregmático" >, SYNSEM.LKEYS.KEYREL.PRED "_bregmático_a_rel" ]. bretón_a1 := a_rel_prd_le & [ STEM < "bretón" >, SYNSEM.LKEYS.KEYREL.PRED "_bretón_a_rel" ]. bretón_n1 := n_intr_count_le & [ STEM < "bretón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_bretón_n_rel" ] ]. breva_n1 := n_intr_count_le & [ STEM < "breva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_breva_n_rel" ] ]. breve_a1 := a_adv_event_le & [ STEM < "breve" >, SYNSEM.LKEYS.KEYREL.PRED "_breve_a_rel" ]. breve_a2 := a_qual_intr_scopal_le & [ STEM < "breve" >, SYNSEM.LKEYS.KEYREL.PRED "_breve_a_rel" ]. brevedad_n1 := n_ppcomp_mass_le & [ STEM < "brevedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brevedad_n_rel" ] ]. brevemente_x1 := av_i_spr_le & [ STEM < "brevemente" >, SYNSEM.LKEYS.KEYREL.PRED "_brevemente_x_rel" ]. breviario_n1 := n_intr_count_le & [ STEM < "breviario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_breviario_n_rel" ] ]. brevísimo_a1 := a_qual_intr_scopal_le & [ STEM < "brevísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_brevísimo_a_rel" ]. brezal_n1 := n_intr_count_le & [ STEM < "brezal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_brezal_n_rel" ] ]. brezo_n1 := n_intr_count_le & [ STEM < "brezo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_brezo_n_rel" ] ]. bribón_n1 := n_intr_count_le & [ STEM < "bribón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bribón_n_rel" ] ]. brick_n1 := n_intr_count_le & [ STEM < "brick" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brick_n_rel" ] ]. bricolaje_n1 := n_intr_uncount_le & [ STEM < "bricolaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bricolaje_n_rel" ] ]. bricomanía_n1 := n_intr_uncount_le & [ STEM < "bricomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bricomanía_n_rel" ] ]. brida_n1 := n_intr_count_le & [ STEM < "brida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brida_n_rel" ] ]. bridar_v := v_trans_np_le & [ STEM < "bridar" >, SYNSEM.LKEYS.KEYREL.PRED "_bridar_v_rel" ]. bridge_n1 := n_intr_uncount_le & [ STEM < "bridge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bridge_n_rel" ] ]. brigada_n1 := n_intr_coll_le & [ STEM < "brigada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_brigada_n_rel" ] ]. brigadier_n1 := n_intr_count_le & [ STEM < "brigadier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brigadier_n_rel" ] ]. brigadista_n1 := n_intr_count_le & [ STEM < "brigadista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brigadista_n_rel" ] ]. brillancímetro_n1 := n_intr_count_le & [ STEM < "brillancímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillancímetro_n_rel" ] ]. brillante_a1 := a_qual_intr_ser_le & [ STEM < "brillante" >, SYNSEM.LKEYS.KEYREL.PRED "_brillante_a_rel" ]. brillante_n1 := n_intr_count_le & [ STEM < "brillante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brillante_n_rel" ] ]. brillantemente_x1 := av_i_spr_le & [ STEM < "brillantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_brillantemente_x_rel" ]. brillantez_n1 := n_ppcomp_uncount_le & [ STEM < "brillantez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brillantez_n_rel" ] ]. brillantina_n1 := n_intr_mass_le & [ STEM < "brillantina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillantina_n_rel" ] ]. brillar_v := v_intr_le & [ STEM < "brillar" >, SYNSEM.LKEYS.KEYREL.PRED "_brillar_v_rel" ]. brillo_n1 := n_intr_mass_le & [ STEM < "brillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillo_n_rel" ] ]. brillómetro_n1 := n_intr_count_le & [ STEM < "brillómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillómetro_n_rel" ] ]. brincar_v1 := v_intr_le & [ STEM < "brincar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_brincar_v_rel" ] ]. brincar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "brincar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_brincar_v_rel" ] ] ]. brincar_v3 := v_intr_mrkd_np_le & [ STEM < "brincar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_brincar_v_rel" ] ] ]. brinco_n1 := n_result_intr_le & [ STEM < "brinco" >, SYNSEM.LKEYS.KEYREL.PRED "_brinco_n_rel" ]. brindar_v1 := v_ditrans_le & [ STEM < "brincar" >, SYNSEM.LKEYS.KEYREL.PRED "_brincar_v_rel" ]. brindar_v2 := v_intr_mrkd_np*_le & [ STEM < "brindar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_brindar_v_rel" ] ]. brindar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "brindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_brindar_v_rel" ] ]. brindis_n1 := n_result_intr_ppcomp_le & [ STEM < "brindis" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_brindis_n_rel" ] ]. brioche_n1 := n_intr_count_le & [ STEM < "brioche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brioche_n_rel" ] ]. briosamente_x1 := av_i_spr_le & [ STEM < "briosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_briosamente_x_rel" ]. brioso_a1 := a_qual_intr_scopal_le & [ STEM < "brioso" >, SYNSEM.LKEYS.KEYREL.PRED "_brioso_a_rel" ]. briqueta_n1 := n_intr_mass_le & [ STEM < "briqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_briqueta_n_rel" ] ]. brisa_n1 := n_intr_mass_le & [ STEM < "brisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brisa_n_rel" ] ]. británico_a1 := a_rel_prd_le & [ STEM < "británico" >, SYNSEM.LKEYS.KEYREL.PRED "_británico_a_rel" ]. británico_n1 := n_intr_count_le & [ STEM < "británico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_británico_n_rel" ] ]. brizna_n1 := n_pseudo-part_le & [ STEM < "brizna" >, SYNSEM.LKEYS.KEYREL.PRED "_brizna_n_rel" ]. briófito_n1 := n_intr_count_le & [ STEM < "briófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_briófito_n_rel" ] ]. broca_n1 := n_intr_count_le & [ STEM < "broca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broca_n_rel" ] ]. brocado_n1 := n_intr_mass_le & [ STEM < "brocado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocado_n_rel" ] ]. brocal_n1 := n_intr_mass_le & [ STEM < "brocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brocal_n_rel" ] ]. brocantita_n1 := n_intr_count_le & [ STEM < "brocantita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brocantita_n_rel" ] ]. brocha_n1 := n_intr_count_le & [ STEM < "brocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocha_n_rel" ] ]. brochadora_n1 := n_intr_count_le & [ STEM < "brochadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brochadora_n_rel" ] ]. brochal_n1 := n_intr_count_le & [ STEM < "brochal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brochal_n_rel" ] ]. brochazo_n1 := n_intr_count_le & [ STEM < "brochazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brochazo_n_rel" ] ]. broche_n1 := n_intr_count_le & [ STEM < "broche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broche_n_rel" ] ]. brocheta_n1 := n_intr_count_le & [ STEM < "brocheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocheta_n_rel" ] ]. brocárdico_n1 := n_intr_uncount_pl_le & [ STEM < "brocárdico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brocárdico_n_rel" ] ]. broker_n1 := n_intr_count_le & [ STEM < "broker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_broker_n_rel" ] ]. broma_n1 := n_intr_count_le & [ STEM < "broma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_broma_n_rel" ] ]. bromato_n1 := n_intr_count_le & [ STEM < "bromato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromato_n_rel" ] ]. bromatología_n1 := n_intr_uncount_le & [ STEM < "bromatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bromatología_n_rel" ] ]. bromear_v := v_intr_le & [ STEM < "bromear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_bromear_v_rel" ] ]. bromhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "bromhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_bromhídrico_a_rel" ]. bromirita_n1 := n_intr_count_le & [ STEM < "bromirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromirita_n_rel" ] ]. bromista_n1 := n_intr_count_le & [ STEM < "bromista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bromista_n_rel" ] ]. bromo_n1 := n_intr_mass_le & [ STEM < "bromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromo_n_rel" ] ]. bromoacetato_n1 := n_intr_count_le & [ STEM < "bromoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoacetato_n_rel" ] ]. bromoacetona_n1 := n_intr_count_le & [ STEM < "bromoacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoacetona_n_rel" ] ]. bromobenceno_n1 := n_intr_count_le & [ STEM < "bromobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromobenceno_n_rel" ] ]. bromoclorodimetilhidantoína_n1 := n_intr_count_le & [ STEM < "bromoclorodimetilhidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoclorodimetilhidantoína_n_rel" ] ]. bromocloroetano_n1 := n_intr_count_le & [ STEM < "bromocloroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromocloroetano_n_rel" ] ]. bromodietilacetilurea_n1 := n_intr_count_le & [ STEM < "bromodietilacetilurea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromodietilacetilurea_n_rel" ] ]. bromoestirol_n1 := n_intr_count_le & [ STEM < "bromoestirol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoestirol_n_rel" ] ]. bromoformo_n1 := n_intr_count_le & [ STEM < "bromoformo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bromoformo_n_rel" ] ]. bromofosgeno_n1 := n_intr_count_le & [ STEM < "bromofosgeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bromofosgeno_n_rel" ] ]. bromotrifluorometano_n1 := n_intr_count_le & [ STEM < "bromotrifluorometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromotrifluorometano_n_rel" ] ]. bromuro_n1 := n_intr_mass_le & [ STEM < "bromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromuro_n_rel" ] ]. bronca_n1 := n_intr_mass-or-count_le & [ STEM < "bronca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronca_n_rel" ] ]. bronce_n1 := n_intr_count_le & [ STEM < "bronce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bronce_n_rel" ] ]. bronceado_n1 := n_intr_count_le & [ STEM < "bronceado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronceado_n_rel" ] ]. bronceador_n1 := n_intr_count_le & [ STEM < "bronceador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronceador_n_rel" ] ]. broncear_v := v_trans_np_caus_le & [ STEM < "broncear" >, SYNSEM.LKEYS.KEYREL.PRED "_broncear_v_rel" ]. broncita_n1 := n_intr_count_le & [ STEM < "broncita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_broncita_n_rel" ] ]. bronco_a1 := a_qual_intr_ser_le & [ STEM < "bronco" >, SYNSEM.LKEYS.KEYREL.PRED "_bronco_a_rel" ]. broncoesofágico_a1 := a_rel_nonprd_intr_le & [ STEM < "broncoesofágico" >, SYNSEM.LKEYS.KEYREL.PRED "_broncoesofágico_a_rel" ]. broncoespasmo_n1 := n_intr_count_le & [ STEM < "broncoespasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_broncoespasmo_n_rel" ] ]. broncopulmonar_a1 := a_rel_nonprd_intr_le & [ STEM < "broncopulmonar" >, SYNSEM.LKEYS.KEYREL.PRED "_broncopulmonar_a_rel" ]. bronquial_a1 := a_rel_nonprd_intr_le & [ STEM < "bronquial" >, SYNSEM.LKEYS.KEYREL.PRED "_bronquial_a_rel" ]. bronquio_n1 := n_intr_count_le & [ STEM < "bronquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronquio_n_rel" ] ]. bronquiolo_n1 := n_intr_count_le & [ STEM < "bronquiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronquiolo_n_rel" ] ]. bronquiolo_n2 := n_ppcomp_count_le & [ STEM < "bronquiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bronquiolo_n_rel" ] ]. bronquitis_n1 := n_intr_uncount_le & [ STEM < "bronquitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronquitis_n_rel" ] ]. brontosauro_n1 := n_intr_count_le & [ STEM < "brontosauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_brontosauro_n_rel" ] ]. broqueta_n1 := n_intr_count_le & [ STEM < "broqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broqueta_n_rel" ] ]. brotar_v1 := v_trans_np_le & [ STEM < "brotar" >, SYNSEM.LKEYS.KEYREL.PRED "_brotar_v_rel" ]. brotar_v2 := v_unacc_lcomp_loc*_perf_le & [ STEM < "brotar" >, SYNSEM.LKEYS.KEYREL.PRED "_brotar_v_rel" ]. brote_n1 := n_event-result_intr_le & [ STEM < "brote" >, SYNSEM.LKEYS.KEYREL.PRED "_brote_n_rel" ]. browniano_a1 := a_rel_prd_le & [ STEM < "browniano" >, SYNSEM.LKEYS.KEYREL.PRED "_browniano_a_rel" ]. broza_n1 := n_intr_count_le & [ STEM < "broza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_broza_n_rel" ] ]. brucina_n1 := n_intr_count_le & [ STEM < "brucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brucina_n_rel" ] ]. brucita_n1 := n_intr_count_le & [ STEM < "brucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brucita_n_rel" ] ]. brujería_n1 := n_intr_uncount_pl_le & [ STEM < "brujería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brujería_n_rel" ] ]. brujo_n1 := n_intr_count_le & [ STEM < "brujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brujo_n_rel" ] ]. bruma_n1 := n_intr_mass_le & [ STEM < "bruma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bruma_n_rel" ] ]. brumario_n1 := n_intr_uncount_le & [ STEM < "brumario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brumario_n_rel" ] ]. brumosamente_x1 := av_i_spr_le & [ STEM < "brumosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_brumosamente_x_rel" ]. brumoso_a1 := a_qual_intr_scopal_le & [ STEM < "brumoso" >, SYNSEM.LKEYS.KEYREL.PRED "_brumoso_a_rel" ]. bruscamente_x1 := av_i_spr_le & [ STEM < "bruscamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bruscamente_x_rel" ]. brusco_a1 := a_qual_intr_ser_le & [ STEM < "brusco" >, SYNSEM.LKEYS.KEYREL.PRED "_brusco_a_rel" ]. bruselense_n1 := n_intr_count_le & [ STEM < "bruselense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bruselense_n_rel" ] ]. brusquedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "brusquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brusquedad_n_rel" ] ]. brutal_a1 := a_adv_int_le & [ STEM < "brutal" >, SYNSEM.LKEYS.KEYREL.PRED "_brutal_a_rel" ]. brutal_a2 := a_qual_intr_scopal_le & [ STEM < "brutal" >, SYNSEM.LKEYS.KEYREL.PRED "_brutal_a_rel" ]. brutalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "brutalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brutalidad_n_rel" ] ]. brutalizar_v1 := v_pron_intr_le & [ STEM < "brutalizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_brutalizar_v_rel" ] ]. brutalizar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "brutalizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_soc, PRED "_brutalizar_v_rel" ] ]. brutalmente_x1 := av_i_spr_le & [ STEM < "brutalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_brutalmente_x_rel" ]. bruteza_n1 := n_ppcomp_uncount_le & [ STEM < "bruteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bruteza_n_rel" ] ]. bruto_a1 := a_qual_intr_ser_le & [ STEM < "bruto" >, SYNSEM.LKEYS.KEYREL.PRED "_bruto_a_rel" ]. bruto_n1 := n_intr_count_le & [ STEM < "bruto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bruto_n_rel" ] ]. bruxomanía_n1 := n_intr_uncount_le & [ STEM < "bruxomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bruxomanía_n_rel" ] ]. bruñidamente_x1 := av_i_spr_le & [ STEM < "bruñidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bruñidamente_x_rel" ]. bruñido_n1 := n_trans_le & [ STEM < "bruñido" >, SYNSEM.LKEYS.KEYREL.PRED "_bruñido_n_rel" ]. bruñidor_n1 := n_intr_count_le & [ STEM < "bruñidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bruñidor_n_rel" ] ]. bruñidora_n1 := n_intr_count_le & [ STEM < "bruñidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bruñidora_n_rel" ] ]. bruñimiento_n1 := n_trans_le & [ STEM < "bruñimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_bruñimiento_n_rel" ]. bruñir_v := v_trans_np_le & [ STEM < "bruñir" >, SYNSEM.LKEYS.KEYREL.PRED "_bruñir_v_rel" ]. bráctea_n1 := n_intr_count_le & [ STEM < "bráctea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bráctea_n_rel" ] ]. brío_n1 := n_intr_mass_le & [ STEM < "brío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brío_n_rel" ] ]. bróculi_n1 := n_intr_count_le & [ STEM < "bróculi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bróculi_n_rel" ] ]. brújula_n1 := n_intr_count_le & [ STEM < "brújula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brújula_n_rel" ] ]. bubónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bubónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bubónico_a_rel" ]. bucal_a1 := a_rel_nonprd_intr_le & [ STEM < "bucal" >, SYNSEM.LKEYS.KEYREL.PRED "_bucal_a_rel" ]. bucanero_n1 := n_intr_count_le & [ STEM < "bucanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bucanero_n_rel" ] ]. buccinatofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "buccinatofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_buccinatofaríngeo_a_rel" ]. buceador_n1 := n_intr_count_le & [ STEM < "buceador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_buceador_n_rel" ] ]. bucear_v := v_intr_le & [ STEM < "bucear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_bucear_v_rel" ] ]. buceo_n1 := n_result_intr_le & [ STEM < "buceo" >, SYNSEM.LKEYS.KEYREL.PRED "_buceo_n_rel" ]. bucle_n1 := n_intr_count_le & [ STEM < "bucle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bucle_n_rel" ] ]. bucocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "bucocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_bucocervical_a_rel" ]. bucofaringe_n1 := n_ppcomp_count_le & [ STEM < "bucofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bucofaringe_n_rel" ] ]. bucofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "bucofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_bucofaríngeo_a_rel" ]. bucoglosofaringitis_n1 := n_intr_uncount_le & [ STEM < "bucoglosofaringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bucoglosofaringitis_n_rel" ] ]. bucolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "bucolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_bucolabial_a_rel" ]. bucolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "bucolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_bucolingual_a_rel" ]. bucólicamente_x1 := av_i_spr_le & [ STEM < "bucólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bucólicamente_x_rel" ]. bucólico_a1 := a_qual_intr_scopal_le & [ STEM < "bucólico" >, SYNSEM.LKEYS.KEYREL.PRED "_bucólico_a_rel" ]. budinadora_n1 := n_intr_count_le & [ STEM < "budinadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_budinadora_n_rel" ] ]. budismo_n1 := n_intr_uncount_le & [ STEM < "budismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_budismo_n_rel" ] ]. budista_a1 := a_qual_intr_ser_le & [ STEM < "budista" >, SYNSEM.LKEYS.KEYREL.PRED "_budista_a_rel" ]. budista_n1 := n_intr_count_le & [ STEM < "budista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_budista_n_rel" ] ]. budistamente_x1 := av_i_spr_le & [ STEM < "budistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_budistamente_x_rel" ]. budión_n1 := n_intr_count_le & [ STEM < "budión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_budión_n_rel" ] ]. budrier_n1 := n_intr_count_le & [ STEM < "budrier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_budrier_n_rel" ] ]. budín_n1 := n_intr_count_le & [ STEM < "budín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_budín_n_rel" ] ]. bueno_a1 := a_qual_intr_scopal_le & [ STEM < "bueno" >, SYNSEM.LKEYS.KEYREL.PRED "_bueno_a_rel" ]. buenísimo_a1 := a_qual_intr_scopal_le & [ STEM < "buenísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_buenísimo_a_rel" ]. buey_n1 := n_intr_count_le & [ STEM < "buey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_buey_n_rel" ] ]. bufadero_n1 := n_intr_count_le & [ STEM < "bufadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bufadero_n_rel" ] ]. bufanda_n1 := n_intr_count_le & [ STEM < "bufanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bufanda_n_rel" ] ]. bufar_v := v_trans_np*_le & [ STEM < "bufar" >, SYNSEM.LKEYS.KEYREL.PRED "_bufar_v_rel" ]. bufete_n1 := n_intr_count_le & [ STEM < "bufete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_bufete_n_rel" ] ]. bufido_n1 := n_result_intr_le & [ STEM < "bufido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bufido_n_rel" ] ]. bufonería_n1 := n_intr_uncount_le & [ STEM < "bufonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bufonería_n_rel" ] ]. bufonescamente_x1 := av_i_spr_le & [ STEM < "bufonescamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bufonescamente_x_rel" ]. bufonesco_a1 := a_qual_intr_scopal_le & [ STEM < "bufonesco" >, SYNSEM.LKEYS.KEYREL.PRED "_bufonesco_a_rel" ]. buftalmía_n1 := n_intr_uncount_le & [ STEM < "buftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_buftalmía_n_rel" ] ]. bufé_n1 := n_intr_count_le & [ STEM < "bufé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bufé_n_rel" ] ]. bufón_n1 := n_intr_count_le & [ STEM < "bufón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bufón_n_rel" ] ]. buganvilla_n1 := n_intr_count_le & [ STEM < "buganvilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_buganvilla_n_rel" ] ]. buhardilla_n1 := n_intr_count_le & [ STEM < "buhardilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_buhardilla_n_rel" ] ]. buhonero_n1 := n_intr_count_le & [ STEM < "buhonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_buhonero_n_rel" ] ]. buhonería_n1 := n_intr_uncount_le & [ STEM < "buhonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_buhonería_n_rel" ] ]. buitre_n1 := n_intr_count_le & [ STEM < "buitre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_buitre_n_rel" ] ]. buje_n1 := n_intr_count_le & [ STEM < "buje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buje_n_rel" ] ]. bujeda_n1 := n_intr_count_le & [ STEM < "bujeda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bujeda_n_rel" ] ]. bujedal_n1 := n_intr_count_le & [ STEM < "bujedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bujedal_n_rel" ] ]. bujedo_n1 := n_intr_count_le & [ STEM < "bujedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bujedo_n_rel" ] ]. bujía_n1 := n_intr_count_le & [ STEM < "bujía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bujía_n_rel" ] ]. bulbar_a1 := a_rel_nonprd_intr_le & [ STEM < "bulbar" >, SYNSEM.LKEYS.KEYREL.PRED "_bulbar_a_rel" ]. bulbiforme_a1 := a_qual_intr_ser_le & [ STEM < "bulbiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_bulbiforme_a_rel" ]. bulbillo_n1 := n_intr_count_le & [ STEM < "bulbillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bulbillo_n_rel" ] ]. bulbo_n1 := n_intr_count_le & [ STEM < "bulbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bulbo_n_rel" ] ]. bulbocapnina_n1 := n_intr_count_le & [ STEM < "bulbocapnina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bulbocapnina_n_rel" ] ]. bulbocavernoso_a1 := a_rel_nonprd_intr_le & [ STEM < "bulbocavernoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bulbocavernoso_a_rel" ]. bulbocerebeloso_a1 := a_rel_nonprd_intr_le & [ STEM < "bulbocerebeloso" >, SYNSEM.LKEYS.KEYREL.PRED "_bulbocerebeloso_a_rel" ]. bulboso_a1 := a_qual_intr_scopal_le & [ STEM < "bulboso" >, SYNSEM.LKEYS.KEYREL.PRED "_bulboso_a_rel" ]. bulbouretral_a1 := a_rel_nonprd_intr_le & [ STEM < "bulbouretral" >, SYNSEM.LKEYS.KEYREL.PRED "_bulbouretral_a_rel" ]. buldog_n1 := n_intr_count_le & [ STEM < "buldog" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_buldog_n_rel" ] ]. bulevar_n1 := n_intr_count_le & [ STEM < "bulevar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bulevar_n_rel" ] ]. bulimia_n1 := n_intr_uncount_le & [ STEM < "bulimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bulimia_n_rel" ] ]. bullabesa_n1 := n_intr_count_le & [ STEM < "bullabesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bullabesa_n_rel" ] ]. bullangero_a1 := a_qual_intr_ser_le & [ STEM < "bullangero" >, SYNSEM.LKEYS.KEYREL.PRED "_bullangero_a_rel" ]. bulldog_n1 := n_intr_count_le & [ STEM < "bulldog" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bulldog_n_rel" ] ]. bulldozer_n1 := n_intr_count_le & [ STEM < "bulldozer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bulldozer_n_rel" ] ]. bullicio_n1 := n_intr_mass_le & [ STEM < "bullicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bullicio_n_rel" ] ]. bulliciosamente_x1 := av_i_spr_le & [ STEM < "bulliciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bulliciosamente_x_rel" ]. bullicioso_a1 := a_qual_intr_scopal_le & [ STEM < "bullicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_bullicioso_a_rel" ]. bullicioso_a2 := a_qual_intr_ser_le & [ STEM < "bullicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_bullicioso_a_rel" ]. bullir_v1 := v_trans_np_caus_int_le & [ STEM < "bullir" >, SYNSEM.LKEYS.KEYREL.PRED "_bullir_v_rel" ]. bulo_n1 := n_intr_count_le & [ STEM < "bulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bulo_n_rel" ] ]. bulto_n1 := n_intr_count_le & [ STEM < "bulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bulto_n_rel" ] ]. bulímico_a1 := a_qual_intr_ser_le & [ STEM < "bulímico" >, SYNSEM.LKEYS.KEYREL.PRED "_bulímico_a_rel" ]. bulón_n1 := n_intr_count_le & [ STEM < "bulón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bulón_n_rel" ] ]. bumerang_n1 := n_intr_count_le & [ STEM < "bumerang" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bumerang_n_rel" ] ]. buna_n1 := n_intr_count_le & [ STEM < "buna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buna_n_rel" ] ]. bungalow_n1 := n_intr_count_le & [ STEM < "bungalow" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bungalow_n_rel" ] ]. bunker_n1 := n_intr_count_le & [ STEM < "bunker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bunker_n_rel" ] ]. buque_n1 := n_intr_count_le & [ STEM < "buque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_buque_n_rel" ] ]. burbuja_n1 := n_intr_count_le & [ STEM < "burbuja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_burbuja_n_rel" ] ]. burbujeante_a1 := a_qual_intr_scopal_le & [ STEM < "burbujeante" >, SYNSEM.LKEYS.KEYREL.PRED "_burbujeante_a_rel" ]. burbujear_v := v_intr_le & [ STEM < "burbujear" >, SYNSEM.LKEYS.KEYREL.PRED "_burbujear_v_rel" ]. burbujeo_n1 := n_result_intr_le & [ STEM < "burbujeo" >, SYNSEM.LKEYS.KEYREL.PRED "_burbujeo_n_rel" ]. burda_n1 := n_intr_count_le & [ STEM < "burda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_burda_n_rel" ] ]. burdel_n1 := n_intr_count_le & [ STEM < "burdel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_burdel_n_rel" ] ]. burdo_a1 := a_qual_intr_ser_le & [ STEM < "burdo" >, SYNSEM.LKEYS.KEYREL.PRED "_burdo_a_rel" ]. burelado_a1 := a_rel_nonprd_intr_le & [ STEM < "burelado" >, SYNSEM.LKEYS.KEYREL.PRED "_burelado_a_rel" ]. burelete_n1 := n_intr_count_le & [ STEM < "burelete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_burelete_n_rel" ] ]. bureta_n1 := n_intr_count_le & [ STEM < "bureta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bureta_n_rel" ] ]. burgalés_a1 := a_rel_prd_le & [ STEM < "burgalés" >, SYNSEM.LKEYS.KEYREL.PRED "_burgalés_a_rel" ]. burgalés_n1 := n_intr_count_le & [ STEM < "burgalés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burgalés_n_rel" ] ]. burgo_n1 := n_intr_count_le & [ STEM < "burgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_burgo_n_rel" ] ]. burgomaestre_n1 := n_intr_count_le & [ STEM < "burgomaestre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burgomaestre_n_rel" ] ]. burgrave_n1 := n_intr_count_le & [ STEM < "burgrave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burgrave_n_rel" ] ]. burguesía_n1 := n_intr_coll_le & [ STEM < "burguesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burguesía_n_rel" ] ]. burgués_a1 := a_qual_intr_ser_le & [ STEM < "burgués" >, SYNSEM.LKEYS.KEYREL.PRED "_burgués_a_rel" ]. burgués_n1 := n_intr_count_le & [ STEM < "burgués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burgués_n_rel" ] ]. buril_n1 := n_intr_count_le & [ STEM < "buril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buril_n_rel" ] ]. burla_n1 := n_intr_count_le & [ STEM < "burla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_burla_n_rel" ] ]. burladero_n1 := n_intr_count_le & [ STEM < "burladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_burladero_n_rel" ] ]. burlar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "burlar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_burlar_v_rel" ] ] ]. burlar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "burlar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_burlar_v_rel" ] ]. burlar_v3 := v_trans_np_le & [ STEM < "burlar" >, SYNSEM.LKEYS.KEYREL.PRED "_burlar_v_rel" ]. burlescamente_x1 := av_i_spr_le & [ STEM < "burlescamente" >, SYNSEM.LKEYS.KEYREL.PRED "_burlescamente_x_rel" ]. burlesco_a1 := a_qual_intr_scopal_le & [ STEM < "burlesco" >, SYNSEM.LKEYS.KEYREL.PRED "_burlesco_a_rel" ]. burlete_n1 := n_intr_mass-or-count_le & [ STEM < "burlete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_burlete_n_rel" ] ]. burlón_a1 := a_qual_intr_ser_le & [ STEM < "burlón" >, SYNSEM.LKEYS.KEYREL.PRED "_burlón_a_rel" ]. burmita_n1 := n_intr_count_le & [ STEM < "burmita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_burmita_n_rel" ] ]. burocracia_n1 := n_intr_mass_le & [ STEM < "burocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_burocracia_n_rel" ] ]. burocratización_n1 := n_trans_le & [ STEM < "burocratización" >, SYNSEM.LKEYS.KEYREL.PRED "_burocratización_n_rel" ]. burocráticamente_x1 := av_i_spr_le & [ STEM < "burocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_burocráticamente_x_rel" ]. burocrático_a1 := a_qual_intr_scopal_le & [ STEM < "burocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_burocrático_a_rel" ]. burrada_n1 := n_intr_count_le & [ STEM < "burrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_burrada_n_rel" ] ]. burrada_n2 := n_intr_coll_le & [ STEM < "burrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_burrada_n_rel" ] ]. burro_n1 := n_intr_count_le & [ STEM < "burro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_burro_n_rel" ] ]. bursatilidad_n1 := n_intr_uncount_le & [ STEM < "bursatilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bursatilidad_n_rel" ] ]. bursátil_a1 := a_rel_nonprd_intr_le & [ STEM < "bursátil" >, SYNSEM.LKEYS.KEYREL.PRED "_bursátil_a_rel" ]. burócrata_n1 := n_intr_count_le & [ STEM < "burócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_burócrata_n_rel" ] ]. bus_n1 := n_intr_count_le & [ STEM < "bus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bus_n_rel" ] ]. busca_n1 := n_trans_le & [ STEM < "busca" >, SYNSEM.LKEYS.KEYREL.PRED "_busca_n_rel" ]. busca_n2 := n_intr_count_le & [ STEM < "busca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_busca_n_rel" ] ]. buscador_n1 := n_subj-nom_le & [ STEM < "buscador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_buscador_n_rel" ] ]. buscar_v1 := v_trans_np_lcomp_loc*_le & [ STEM < "buscar" >, SYNSEM.LKEYS.KEYREL.PRED "_buscar_v_rel" ]. buscar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "buscar" >, SYNSEM.LKEYS.KEYREL.PRED "_buscar_v_rel" ]. buscar_v3 := v_trans_cp_semi_ques_le & [ STEM < "buscar" >, SYNSEM.LKEYS.KEYREL.PRED "_buscar_v_rel" ]. busolfan_n1 := n_intr_count_le & [ STEM < "busolfan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_busolfan_n_rel" ] ]. busto_n1 := n_intr_count_le & [ STEM < "busto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_busto_n_rel" ] ]. butaca_n1 := n_intr_count_le & [ STEM < "butaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_butaca_n_rel" ] ]. butacón_n1 := n_intr_count_le & [ STEM < "butacón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_butacón_n_rel" ] ]. butadieno_n1 := n_intr_mass_le & [ STEM < "butadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butadieno_n_rel" ] ]. butanero_n1 := n_intr_count_le & [ STEM < "butanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_butanero_n_rel" ] ]. butano_n1 := n_intr_mass_le & [ STEM < "butano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butano_n_rel" ] ]. buteno_n1 := n_intr_mass_le & [ STEM < "buteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_buteno_n_rel" ] ]. buterola_n1 := n_intr_count_le & [ STEM < "buterola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buterola_n_rel" ] ]. butifarra_n1 := n_intr_count_le & [ STEM < "butifarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_butifarra_n_rel" ] ]. butileno_n1 := n_intr_mass_le & [ STEM < "butileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butileno_n_rel" ] ]. butilfosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "butilfosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_butilfosfórico_a_rel" ]. butilo_n1 := n_intr_mass_le & [ STEM < "butilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butilo_n_rel" ] ]. butinodiol_n1 := n_intr_count_le & [ STEM < "butinodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butinodiol_n_rel" ] ]. butinol_n1 := n_intr_count_le & [ STEM < "butinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butinol_n_rel" ] ]. butiral_n1 := n_intr_count_le & [ STEM < "butiral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butiral_n_rel" ] ]. butirato_n1 := n_intr_count_le & [ STEM < "butirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butirato_n_rel" ] ]. butirolactona_n1 := n_intr_count_le & [ STEM < "butirolactona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butirolactona_n_rel" ] ]. butironitrilo_n1 := n_intr_count_le & [ STEM < "butironitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butironitrilo_n_rel" ] ]. butonato_n1 := n_intr_count_le & [ STEM < "butonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butonato_n_rel" ] ]. butopironoxilo_n1 := n_intr_count_le & [ STEM < "butopironoxilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_butopironoxilo_n_rel" ] ]. butronero_n1 := n_intr_count_le & [ STEM < "butronero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_butronero_n_rel" ] ]. butírico_a1 := a_rel_nonprd_intr_le & [ STEM < "butírico" >, SYNSEM.LKEYS.KEYREL.PRED "_butírico_a_rel" ]. buzamiento_n1 := n_intr_uncount_le & [ STEM < "buzamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_buzamiento_n_rel" ] ]. buzo_n1 := n_intr_count_le & [ STEM < "buzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_buzo_n_rel" ] ]. buzoneo_n1 := n_result_intr_le & [ STEM < "buzoneo" >, SYNSEM.LKEYS.KEYREL.PRED "_buzoneo_n_rel" ]. buzón_n1 := n_intr_count_le & [ STEM < "buzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buzón_n_rel" ] ]. buñolería_n1 := n_intr_count_le & [ STEM < "buñolería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_buñolería_n_rel" ] ]. buñuelo_n1 := n_intr_count_le & [ STEM < "buñuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_buñuelo_n_rel" ] ]. byte_n := n_intr_count_le & [ STEM < "byte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_byte_n_rel" ] ]. báculo_n1 := n_intr_count_le & [ STEM < "báculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_báculo_n_rel" ] ]. bádminton_n1 := n_intr_uncount_le & [ STEM < "bádminton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bádminton_n_rel" ] ]. bálago_n1 := n_intr_mass_le & [ STEM < "bálago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bálago_n_rel" ] ]. bálsamo_n1 := n_intr_mass_le & [ STEM < "bálsamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bálsamo_n_rel" ] ]. báltico_a1 := a_rel_prd_le & [ STEM < "báltico" >, SYNSEM.LKEYS.KEYREL.PRED "_báltico_a_rel" ]. báltico_n1 := n_intr_count_le & [ STEM < "báltico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_báltico_n_rel" ] ]. bárbaramente_x1 := av_i_spr_le & [ STEM < "bárbaramente" >, SYNSEM.LKEYS.KEYREL.PRED "_bárbaramente_x_rel" ]. bárbaro_a1 := a_rel_prd_le & [ STEM < "bárbaro" >, SYNSEM.LKEYS.KEYREL.PRED "_bárbaro_a_rel" ]. bárbaro_n1 := n_intr_count_le & [ STEM < "bárbaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bárbaro_n_rel" ] ]. bártulo_n1 := n_intr_count_le & [ STEM < "bártulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bártulo_n_rel" ] ]. báscula_n1 := n_intr_count_le & [ STEM < "báscula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_báscula_n_rel" ] ]. básicamente_x1 := av_i_spr_le & [ STEM < "básicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_básicamente_x_rel" ]. básico_a1 := a_qual_intr_scopal_le & [ STEM < "básico" >, SYNSEM.LKEYS.KEYREL.PRED "_básico_a_rel" ]. básquet_n1 := n_intr_uncount_le & [ STEM < "básquet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_básquet_n_rel" ] ]. bávaro_a1 := a_rel_prd_le & [ STEM < "bávaro" >, SYNSEM.LKEYS.KEYREL.PRED "_bávaro_a_rel" ]. bávaro_n1 := n_intr_count_le & [ STEM < "bávaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bávaro_n_rel" ] ]. béisbol_n1 := n_intr_uncount_le & [ STEM < "béisbol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_béisbol_n_rel" ] ]. bélicamente_x1 := av_i_spr_le & [ STEM < "bélicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bélicamente_x_rel" ]. bélico_a1 := a_rel_nonprd_intr_le & [ STEM < "bélico" >, SYNSEM.LKEYS.KEYREL.PRED "_bélico_a_rel" ]. bético_a1 := a_rel_prd_le & [ STEM < "bético" >, SYNSEM.LKEYS.KEYREL.PRED "_bético_a_rel" ]. bético_n1 := n_intr_count_le & [ STEM < "bético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bético_n_rel" ] ]. bíblico_a1 := a_rel_nonprd_intr_le & [ STEM < "bíblico" >, SYNSEM.LKEYS.KEYREL.PRED "_bíblico_a_rel" ]. bíceps_n1 := n_ppcomp_count_le & [ STEM < "bíceps" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bíceps_n_rel" ] ]. bífido_a1 := a_rel_prd_le & [ STEM < "bífido" >, SYNSEM.LKEYS.KEYREL.PRED "_bífido_a_rel" ]. bífidus_n1 := n_intr_count_le & [ STEM < "bífidus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bífidus_n_rel" ] ]. bígamo_a1 := a_qual_intr_ser_le & [ STEM < "bígamo" >, SYNSEM.LKEYS.KEYREL.PRED "_bígamo_a_rel" ]. bígamo_n1 := n_intr_count_le & [ STEM < "bígamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bígamo_n_rel" ] ]. bínubo_n1 := n_intr_count_le & [ STEM < "bínubo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bínubo_n_rel" ] ]. bíparo_a1 := a_rel_prd_le & [ STEM < "bíparo" >, SYNSEM.LKEYS.KEYREL.PRED "_bíparo_a_rel" ]. bípedo_n1 := n_intr_count_le & [ STEM < "bípedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bípedo_n_rel" ] ]. bípode_n1 := n_intr_count_le & [ STEM < "bípode" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bípode_n_rel" ] ]. bóbilis_bóbilis_x1 := av_i_le & [ STEM < "bóbilis_bóbilis" >, SYNSEM.LKEYS.KEYREL.PRED "_bóbilis_bóbilis_x_rel" ]. bólido_n1 := n_intr_count_le & [ STEM < "bólido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bólido_n_rel" ] ]. bórax_n1 := n_intr_count_le & [ STEM < "bórax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bórax_n_rel" ] ]. bóricamente_x1 := av_i_spr_le & [ STEM < "bóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bóricamente_x_rel" ]. bórico_a1 := a_rel_nonprd_intr_le & [ STEM < "bórico" >, SYNSEM.LKEYS.KEYREL.PRED "_bórico_a_rel" ]. bóveda_n1 := n_intr_count_le & [ STEM < "bóveda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bóveda_n_rel" ] ]. búfalo_n1 := n_intr_count_le & [ STEM < "búfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_búfalo_n_rel" ] ]. búfer_n1 := n_intr_count_le & [ STEM < "búfer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_búfer_n_rel" ] ]. búho_n1 := n_intr_count_le & [ STEM < "búho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_búho_n_rel" ] ]. búlgaro_a1 := a_rel_prd_le & [ STEM < "búlgaro" >, SYNSEM.LKEYS.KEYREL.PRED "_búlgaro_a_rel" ]. búlgaro_n1 := n_intr_count_le & [ STEM < "búlgaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_búlgaro_n_rel" ] ]. búnker_n1 := n_intr_count_le & [ STEM < "búnker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_búnker_n_rel" ] ]. búsqueda_n1 := n_trans_le & [ STEM < "búsqueda" >, SYNSEM.LKEYS.KEYREL.PRED "_búsqueda_n_rel" ]. búteo_n1 := n_intr_count_le & [ STEM < "búteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_búteo_n_rel" ] ]. cabal_a1 := a_qual_intr_scopal_le & [ STEM < "cabal" >, SYNSEM.LKEYS.KEYREL.PRED "_cabal_a_rel" ]. cabalgada_n1 := n_result_intr_le & [ STEM < "cabalgada" >, SYNSEM.LKEYS.KEYREL.PRED "_cabalgada_n_rel" ]. cabalgadura_n1 := n_intr_count_le & [ STEM < "cabalgadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabalgadura_n_rel" ] ]. cabalgamiento_n1 := n_event-result_intr_le & [ STEM < "cabalgamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cabalgamiento_n_rel" ]. cabalgar_v1 := v_trans_np_le & [ STEM < "cabalgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT ani, PRED "_cabalgar_v_rel" ] ]. cabalgar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "cabalgar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_cabalgar_v_rel" ] ]. cabalgata_n1 := n_intr_count_le & [ STEM < "cabalgata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabalgata_n_rel" ] ]. cabalista_n1 := n_intr_count_le & [ STEM < "cabalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabalista_n_rel" ] ]. caballa_n1 := n_intr_count_le & [ STEM < "caballa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caballa_n_rel" ] ]. caballaje_n1 := n_trans_le & [ STEM < "caballaje" >, SYNSEM.LKEYS.KEYREL.PRED "_caballaje_n_rel" ]. caballar_a1 := a_rel_nonprd_intr_le & [ STEM < "caballar" >, SYNSEM.LKEYS.KEYREL.PRED "_caballar_a_rel" ]. caballeresco_a1 := a_rel_nonprd_intr_le & [ STEM < "caballeresco" >, SYNSEM.LKEYS.KEYREL.PRED "_caballeresco_a_rel" ]. caballeriza_n1 := n_intr_count_le & [ STEM < "caballeriza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_caballeriza_n_rel" ] ]. caballero_n1 := n_intr_count_le & [ STEM < "caballero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caballero_n_rel" ] ]. caballerosamente_x1 := av_i_spr_le & [ STEM < "caballerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caballerosamente_x_rel" ]. caballerosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "caballerosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caballerosidad_n_rel" ] ]. caballeroso_a1 := a_qual_intr_ser_le & [ STEM < "caballeroso" >, SYNSEM.LKEYS.KEYREL.PRED "_caballeroso_a_rel" ]. caballería_n1 := n_intr_coll_le & [ STEM < "caballería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caballería_n_rel" ] ]. caballete_n1 := n_intr_count_le & [ STEM < "caballete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caballete_n_rel" ] ]. caballito_n1 := n_intr_count_le & [ STEM < "caballito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caballito_n_rel" ] ]. caballo_n1 := n_intr_count_le & [ STEM < "caballo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caballo_n_rel" ] ]. caballón_n1 := n_intr_count_le & [ STEM < "caballón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_caballón_n_rel" ] ]. cabalmente_x1 := av_i_spr_le & [ STEM < "cabalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cabalmente_x_rel" ]. cabalístico_a1 := a_rel_nonprd_intr_le & [ STEM < "cabalístico" >, SYNSEM.LKEYS.KEYREL.PRED "_cabalístico_a_rel" ]. cabaret_n1 := n_intr_count_le & [ STEM < "cabaret" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_cabaret_n_rel" ] ]. cabaretera_n1 := n_intr_count_le & [ STEM < "cabaretera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabaretera_n_rel" ] ]. cabaña_n1 := n_intr_count_le & [ STEM < "cabaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabaña_n_rel" ] ]. cabe_p_nmod := p_nmod_le & [ STEM < "cabe" >, SYNSEM.LKEYS.KEYREL.PRED _cabe_p_rel ]. cabe_p_vmod := p_vmod_le & [ STEM < "cabe" >, SYNSEM.LKEYS.KEYREL.PRED _cabe_p_rel ]. cabecear_v := v_unacc_lcomp_dir*_le & [ STEM < "cabecear" >, SYNSEM.LKEYS.KEYREL.PRED "_cabecear_v_rel" ]. cabeceo_n1 := n_event-result_intr_le & [ STEM < "cabeceo" >, SYNSEM.LKEYS.KEYREL.PRED "_cabeceo_n_rel" ]. cabecera_n1 := n_intr_count_le & [ STEM < "cabecera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabecera_n_rel" ] ]. cabecero_n1 := n_intr_count_le & [ STEM < "cabecero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabecero_n_rel" ] ]. cabecilla_n1 := n_intr_count_le & [ STEM < "cabecilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabecilla_n_rel" ] ]. cabellera_n1 := n_intr_count_le & [ STEM < "cabellera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabellera_n_rel" ] ]. cabelludo_a1 := a_rel_nonprd_intr_le & [ STEM < "cabelludo" >, SYNSEM.LKEYS.KEYREL.PRED "_cabelludo_a_rel" ]. caber_v1 := v_intr_io*_le & [ STEM < "caber" >, SYNSEM.LKEYS.KEYREL.PRED "_caber_v_rel" ]. caber_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "caber" >, SYNSEM.LKEYS.KEYREL.PRED "_caber_v_rel" ]. caber_v3 := v_unacc_lcomp_loc_le & [ STEM < "caber" >, SYNSEM.LKEYS.KEYREL.PRED "_caber_v_rel" ]. cabestrante_n1 := n_intr_count_le & [ STEM < "cabestrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabestrante_n_rel" ] ]. cabestrillo_n1 := n_intr_count_le & [ STEM < "cabestrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabestrillo_n_rel" ] ]. cabestro_n1 := n_intr_count_le & [ STEM < "cabestro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_cabestro_n_rel" ] ]. cabeza_n1 := n_pseudo-part_le & [ STEM < "cabeza" >, SYNSEM.LKEYS.KEYREL.PRED "_cabeza_n_rel" ]. cabeza_n2 := n_ppcomp_count_le & [ STEM < "cabeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_bpart_cnc_hum, PRED "_cabeza_n_rel" ] ]. cabezada_n1 := n_intr_count_le & [ STEM < "cabezada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabezada_n_rel" ] ]. cabezal_n1 := n_intr_count_le & [ STEM < "cabezal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabezal_n_rel" ] ]. cabezazo_n1 := n_intr_count_le & [ STEM < "cabezazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabezazo_n_rel" ] ]. cabezudo_a1 := a_qual_intr_ser_le & [ STEM < "cabezudo" >, SYNSEM.LKEYS.KEYREL.PRED "_cabezudo_a_rel" ]. cabezuela_n1 := n_intr_count_le & [ STEM < "cabezuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cabezuela_n_rel" ] ]. cabezón_a1 := a_qual_intr_ser_le & [ STEM < "cabezón" >, SYNSEM.LKEYS.KEYREL.PRED "_cabezón_a_rel" ]. cabida_n1 := n_intr_mass_le & [ STEM < "cabida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabida_n_rel" ] ]. cabildeo_n1 := n_result_intr_le & [ STEM < "cabildeo" >, SYNSEM.LKEYS.KEYREL.PRED "_cabildeo_n_rel" ]. cabildero_n1 := n_intr_count_le & [ STEM < "cabildero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabildero_n_rel" ] ]. cabildo_n1 := n_intr_count_le & [ STEM < "cabildo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabildo_n_rel" ] ]. cabina_n1 := n_intr_count_le & [ STEM < "cabina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabina_n_rel" ] ]. cabinete_n1 := n_intr_count_le & [ STEM < "cabinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabinete_n_rel" ] ]. cabio_n1 := n_intr_count_le & [ STEM < "cabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabio_n_rel" ] ]. cabizbajo_a1 := a_qual_intr_estar_le & [ STEM < "cabizbajo" >, SYNSEM.LKEYS.KEYREL.PRED "_cabizbajo_a_rel" ]. cable_n1 := n_intr_count_le & [ STEM < "cable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cable_n_rel" ] ]. cableado_n1 := n_trans_le & [ STEM < "cableado" >, SYNSEM.LKEYS.KEYREL.PRED "_cableado_n_rel" ]. cableadora_n1 := n_intr_count_le & [ STEM < "cableadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cableadora_n_rel" ] ]. cablear_v := v_trans_np*_le & [ STEM < "cablear" >, SYNSEM.LKEYS.KEYREL.PRED "_cablear_v_rel" ]. cablegrafiar_v := v_ditrans*_le & [ STEM < "cablegrafiar" >, SYNSEM.LKEYS.KEYREL.PRED "_cablegrafiar_v_rel" ]. cablegrama_n1 := n_intr_count_le & [ STEM < "cablegrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cablegrama_n_rel" ] ]. cablegráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cablegráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cablegráfico_a_rel" ]. cablero_n1 := n_intr_count_le & [ STEM < "cablero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cablero_n_rel" ] ]. cabo_n1 := n_intr_count_le & [ STEM < "cabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_loc, PRED "_cabo_n_rel" ] ]. cabotaje_n1 := n_intr_uncount_le & [ STEM < "cabotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabotaje_n_rel" ] ]. cabotaje_n2 := n_intr_count_le & [ STEM < "cabotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabotaje_n_rel" ] ]. cabra_n1 := n_intr_count_le & [ STEM < "cabra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cabra_n_rel" ] ]. cabrear_v1 := v_intr_io*_le & [ STEM < "cabrear" >, SYNSEM.LKEYS.KEYREL.PRED "_cabrear_v_rel" ]. cabrear_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "cabrear" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_cabrear_v_rel" ] ] ]. cabrear_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "cabrear" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_cabrear_v_rel" ] ] ]. cabrear_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cabrear" >, SYNSEM.LKEYS.KEYREL.PRED "_cabrear_v_rel" ]. cabrero_n1 := n_intr_count_le & [ STEM < "cabrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabrero_n_rel" ] ]. cabrestante_n1 := n_intr_count_le & [ STEM < "cabrestante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabrestante_n_rel" ] ]. cabria_n1 := n_intr_count_le & [ STEM < "cabria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabria_n_rel" ] ]. cabrilla_n1 := n_intr_count_le & [ STEM < "cabrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cabrilla_n_rel" ] ]. cabrio_n1 := n_intr_count_le & [ STEM < "cabrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cabrio_n_rel" ] ]. cabriola_n1 := n_intr_count_le & [ STEM < "cabriola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cabriola_n_rel" ] ]. cabriolet_n1 := n_intr_count_le & [ STEM < "cabriolet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cabriolet_n_rel" ] ]. cabriolé_n1 := n_intr_count_le & [ STEM < "cabriolé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cabriolé_n_rel" ] ]. cabritilla_n1 := n_intr_mass_le & [ STEM < "cabritilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cabritilla_n_rel" ] ]. cabrito_n1 := n_intr_count_le & [ STEM < "cabrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cabrito_n_rel" ] ]. cabrío_a1 := a_rel_nonprd_intr_le & [ STEM < "cabrío" >, SYNSEM.LKEYS.KEYREL.PRED "_cabrío_a_rel" ]. cabrón_n1 := n_intr_count_le & [ STEM < "cabrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cabrón_n_rel" ] ]. cabujón_n1 := n_intr_mass_le & [ STEM < "cabujón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cabujón_n_rel" ] ]. cacahuete_n1 := n_intr_mass-or-count_le & [ STEM < "cacahuete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cacahuete_n_rel" ] ]. cacao_n1 := n_intr_mass_le & [ STEM < "cacao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_cacao_n_rel" ] ]. cacarear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "cacarear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cacarear_v_rel" ] ]. cacarear_v2 := v_ditrans*_le & [ STEM < "cacarear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_cacarear_v_rel" ] ]. cacareo_n1 := n_result_intr_le & [ STEM < "cacareo" >, SYNSEM.LKEYS.KEYREL.PRED "_cacareo_n_rel" ]. cacatúa_n1 := n_intr_count_le & [ STEM < "cacatúa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cacatúa_n_rel" ] ]. cacereño_n1 := n_intr_count_le & [ STEM < "cacereño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cacereño_n_rel" ] ]. cacerola_n1 := n_intr_count_le & [ STEM < "cacerola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cacerola_n_rel" ] ]. cacería_n1 := n_intr_count_le & [ STEM < "cacería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cacería_n_rel" ] ]. cachalote_n1 := n_intr_count_le & [ STEM < "cachalote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cachalote_n_rel" ] ]. cacharro_n1 := n_intr_count_le & [ STEM < "cacharro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cacharro_n_rel" ] ]. cache_n1 := n_intr_count_le & [ STEM < "cache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cache_n_rel" ] ]. cachear_v := v_trans_np_le & [ STEM < "cachear" >, SYNSEM.LKEYS.KEYREL.PRED "_cachear_v_rel" ]. cachemir_n1 := n_intr_count_le & [ STEM < "cachemir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cachemir_n_rel" ] ]. cacheo_n1 := n_trans_le & [ STEM < "cacheo" >, SYNSEM.LKEYS.KEYREL.PRED "_cacheo_n_rel" ]. cachiporra_n1 := n_intr_count_le & [ STEM < "cachiporra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cachiporra_n_rel" ] ]. cacho_n1 := n_pseudo-part_le & [ STEM < "cacho" >, SYNSEM.LKEYS.KEYREL.PRED "_cacho_n_rel" ]. cachondeo_n1 := n_intr_mass_le & [ STEM < "cachondeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cachondeo_n_rel" ] ]. cachorro_n1 := n_intr_count_le & [ STEM < "cachorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cachorro_n_rel" ] ]. caché_n1 := n_intr_mass-or-count_le & [ STEM < "caché" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caché_n_rel" ] ]. cachón_n1 := n_intr_count_le & [ STEM < "cachón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cachón_n_rel" ] ]. cacicazgo_n1 := n_intr_uncount_le & [ STEM < "cacicazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cacicazgo_n_rel" ] ]. cacique_n1 := n_intr_count_le & [ STEM < "cacique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cacique_n_rel" ] ]. caciquismo_n1 := n_intr_uncount_le & [ STEM < "caciquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caciquismo_n_rel" ] ]. caco_n1 := n_intr_count_le & [ STEM < "caco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caco_n_rel" ] ]. cacodilato_n1 := n_intr_count_le & [ STEM < "cacodilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cacodilato_n_rel" ] ]. cacodílico_a1 := a_rel_nonprd_intr_le & [ STEM < "cacodílico" >, SYNSEM.LKEYS.KEYREL.PRED "_cacodílico_a_rel" ]. cacofonía_n1 := n_intr_uncount_le & [ STEM < "cacofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cacofonía_n_rel" ] ]. cacofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "cacofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_cacofónico_a_rel" ]. cacografía_n1 := n_intr_count_le & [ STEM < "cacografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cacografía_n_rel" ] ]. cacosmia_n1 := n_intr_uncount_le & [ STEM < "cacosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cacosmia_n_rel" ] ]. cactus_n1 := n_intr_count_le & [ STEM < "cactus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cactus_n_rel" ] ]. cactácea_n1 := n_intr_count_le & [ STEM < "cactácea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cactácea_n_rel" ] ]. cacuminal_a1 := a_rel_nonprd_intr_le & [ STEM < "cacuminal" >, SYNSEM.LKEYS.KEYREL.PRED "_cacuminal_a_rel" ]. cada_cosa_por_su_lado_x1 := av_i_le & [ STEM < "cada_cosa_por_su_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_cada_cosa_por_su_lado_x_rel" ]. cada_d := d_qnt-df_cada_le & [ STEM < "cada" > ]. cada_dos_por_tres_x1 := av_i_le & [ STEM < "cada_dos_por_tres" >, SYNSEM.LKEYS.KEYREL.PRED "_cada_dos_por_tres_x_rel" ]. cadalso_n1 := n_intr_count_le & [ STEM < "cadalso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cadalso_n_rel" ] ]. cadavérico_a1 := a_qual_intr_scopal_le & [ STEM < "cadavérico" >, SYNSEM.LKEYS.KEYREL.PRED "_cadavérico_a_rel" ]. cadena_n1 := n_intr_count_le & [ STEM < "cadena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cadena_n_rel" ] ]. cadencia_n1 := n_intr_mass_le & [ STEM < "cadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cadencia_n_rel" ] ]. cadenciosamente_x1 := av_i_spr_le & [ STEM < "cadenciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cadenciosamente_x_rel" ]. cadencioso_a1 := a_qual_intr_scopal_le & [ STEM < "cadencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_cadencioso_a_rel" ]. cadenciómetro_n1 := n_intr_count_le & [ STEM < "cadenciómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cadenciómetro_n_rel" ] ]. cadera_n1 := n_intr_count_le & [ STEM < "cadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cadera_n_rel" ] ]. cadete_n1 := n_intr_count_le & [ STEM < "cadete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cadete_n_rel" ] ]. cadmiar_v := v_trans_np*_le & [ STEM < "cadmiar" >, SYNSEM.LKEYS.KEYREL.PRED "_cadmiar_v_rel" ]. cadmio_n1 := n_intr_mass_le & [ STEM < "cadmio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cadmio_n_rel" ] ]. caducar_v := v_unacc_perf_le & [ STEM < "caducar" >, SYNSEM.LKEYS.KEYREL.PRED "_caducar_v_rel" ]. caducidad_n1 := n_ppcomp_uncount_le & [ STEM < "caducidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caducidad_n_rel" ] ]. caducifolio_a1 := a_rel_nonprd_intr_le & [ STEM < "caducifolio" >, SYNSEM.LKEYS.KEYREL.PRED "_caducifolio_a_rel" ]. caduco_a1 := a_qual_intr_scopal_le & [ STEM < "caduco" >, SYNSEM.LKEYS.KEYREL.PRED "_caduco_a_rel" ]. cadáver_n1 := n_intr_count_le & [ STEM < "cadáver" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cadáver_n_rel" ] ]. cafetal_n1 := n_intr_count_le & [ STEM < "cafetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cafetal_n_rel" ] ]. cafetera_n1 := n_intr_count_le & [ STEM < "cafetera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cafetera_n_rel" ] ]. cafetería_n1 := n_intr_count_le & [ STEM < "cafetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cafetería_n_rel" ] ]. cafeína_n1 := n_intr_mass_le & [ STEM < "cafeína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cafeína_n_rel" ] ]. caftán_n1 := n_intr_count_le & [ STEM < "caftán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caftán_n_rel" ] ]. café_n1 := n_intr_mass-or-count_le & [ STEM < "café" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_café_n_rel" ] ]. cagafierro_n1 := n_intr_count_le & [ STEM < "cagafierro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cagafierro_n_rel" ] ]. cagar_v := v_trans_np*_le & [ STEM < "cagar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_cagar_v_rel" ] ]. cailón_n1 := n_intr_count_le & [ STEM < "cailón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cailón_n_rel" ] ]. caimán_n1 := n_intr_count_le & [ STEM < "caimán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caimán_n_rel" ] ]. caja_n1 := n_intr_count_le & [ STEM < "caja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caja_n_rel" ] ]. cajero_n1 := n_intr_count_le & [ STEM < "cajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_pot, PRED "_cajero_n_rel" ] ]. cajetilla_n1 := n_intr_count_le & [ STEM < "cajetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cajetilla_n_rel" ] ]. cajetín_n1 := n_intr_count_le & [ STEM < "cajetín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cajetín_n_rel" ] ]. cajista_n1 := n_intr_count_le & [ STEM < "cajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cajista_n_rel" ] ]. cajonada_n1 := n_intr_count_le & [ STEM < "cajonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cajonada_n_rel" ] ]. cajón_n1 := n_intr_count_le & [ STEM < "cajón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cajón_n_rel" ] ]. cal_n1 := n_intr_mass_le & [ STEM < "cal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cal_n_rel" ] ]. cala_n1 := n_trans_le & [ STEM < "cala" >, SYNSEM.LKEYS.KEYREL.PRED "_cala_n_rel" ]. cala_n2 := n_intr_count_le & [ STEM < "cala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cala_n_rel" ] ]. calabacín_n1 := n_intr_mass-or-count_le & [ STEM < "calabacín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_calabacín_n_rel" ] ]. calabaza_n1 := n_intr_mass_le & [ STEM < "calabaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calabaza_n_rel" ] ]. calabozo_n1 := n_intr_count_le & [ STEM < "calabozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_calabozo_n_rel" ] ]. calabrote_n1 := n_intr_count_le & [ STEM < "calabrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calabrote_n_rel" ] ]. calabrés_a1 := a_rel_prd_le & [ STEM < "calabrés" >, SYNSEM.LKEYS.KEYREL.PRED "_calabrés_a_rel" ]. calabrés_n1 := n_intr_count_le & [ STEM < "calabrés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calabrés_n_rel" ] ]. caladero_n1 := n_intr_count_le & [ STEM < "caladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_caladero_n_rel" ] ]. calado_n1 := n_trans_le & [ STEM < "calado" >, SYNSEM.LKEYS.KEYREL.PRED "_calado_n_rel" ]. calador_n1 := n_intr_count_le & [ STEM < "calador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calador_n_rel" ] ]. calafate_n1 := n_intr_count_le & [ STEM < "calafate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calafate_n_rel" ] ]. calafateador_n1 := n_subj-nom_le & [ STEM < "calafateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calafateador_n_rel" ] ]. calafatear_v := v_trans_np_le & [ STEM < "calafatear" >, SYNSEM.LKEYS.KEYREL.PRED "_calafatear_v_rel" ]. calaita_n1 := n_intr_count_le & [ STEM < "calaita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calaita_n_rel" ] ]. calamar_n1 := n_intr_count_le & [ STEM < "calamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_calamar_n_rel" ] ]. calambre_n1 := n_intr_count_le & [ STEM < "calambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calambre_n_rel" ] ]. calamidad_n1 := n_intr_count_le & [ STEM < "calamidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calamidad_n_rel" ] ]. calamina_n1 := n_intr_count_le & [ STEM < "calamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calamina_n_rel" ] ]. calamitoso_a1 := a_qual_intr_scopal_le & [ STEM < "calamitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_calamitoso_a_rel" ]. calamón_n1 := n_intr_count_le & [ STEM < "calamón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calamón_n_rel" ] ]. calandra_n1 := n_intr_count_le & [ STEM < "calandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calandra_n_rel" ] ]. calandrado_n1 := n_trans_le & [ STEM < "calandrado" >, SYNSEM.LKEYS.KEYREL.PRED "_calandrado_n_rel" ]. calandrar_v := v_trans_np_le & [ STEM < "calandrar" >, SYNSEM.LKEYS.KEYREL.PRED "_calandrar_v_rel" ]. calandria := n_intr_count_le & [ STEM < "calandria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc_pot, PRED "_calandria_n_rel" ] ]. calapié_n1 := n_intr_count_le & [ STEM < "calapié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calapié_n_rel" ] ]. calar_v1 := v_pron_intr_le & [ STEM < "calar" >, SYNSEM.LKEYS.KEYREL.PRED "_calar_v_rel" ]. calar_v2 := v_trans_np_le & [ STEM < "calar" >, SYNSEM.LKEYS.KEYREL.PRED "_calar_v_rel" ]. calar_v3 := v_unacc_lcomp_loc*_le & [ STEM < "calar" >, SYNSEM.LKEYS.KEYREL.PRED "_calar_v_rel" ]. calavera_n1 := n_intr_count_le & [ STEM < "calavera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calavera_n_rel" ] ]. calcado_n1 := n_trans_le & [ STEM < "calcado" >, SYNSEM.LKEYS.KEYREL.PRED "_calcado_n_rel" ]. calcaneocuboideo_a1 := a_rel_nonprd_intr_le & [ STEM < "calcaneocuboideo" >, SYNSEM.LKEYS.KEYREL.PRED "_calcaneocuboideo_a_rel" ]. calcaneonavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "calcaneonavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_calcaneonavicular_a_rel" ]. calcantita_n1 := n_intr_count_le & [ STEM < "calcantita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcantita_n_rel" ] ]. calcarino_a1 := a_rel_nonprd_intr_le & [ STEM < "calcarino" >, SYNSEM.LKEYS.KEYREL.PRED "_calcarino_a_rel" ]. calcedonia_n1 := n_intr_count_le & [ STEM < "calcedonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcedonia_n_rel" ] ]. calcetería_n1 := n_intr_uncount_pl_le & [ STEM < "calcetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calcetería_n_rel" ] ]. calcetín_n1 := n_intr_count_le & [ STEM < "calcetín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calcetín_n_rel" ] ]. calcificación_n1 := n_trans_le & [ STEM < "calcificación" >, SYNSEM.LKEYS.KEYREL.PRED "_calcificación_n_rel" ]. calcificar_v := v_trans_np_caus_le & [ STEM < "calcificar" >, SYNSEM.LKEYS.KEYREL.PRED "_calcificar_v_rel" ]. calcimagnésico_a1 := a_rel_nonprd_intr_le & [ STEM < "calcimagnésico" >, SYNSEM.LKEYS.KEYREL.PRED "_calcimagnésico_a_rel" ]. calcinación_n1 := n_trans_le & [ STEM < "calcinación" >, SYNSEM.LKEYS.KEYREL.PRED "_calcinación_n_rel" ]. calcinar_v := v_trans_np_caus_le & [ STEM < "calcinar" >, SYNSEM.LKEYS.KEYREL.PRED "_calcinar_v_rel" ]. calcio_n1 := n_intr_mass_le & [ STEM < "calcio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcio_n_rel" ] ]. calcita_n1 := n_intr_mass_le & [ STEM < "calcita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcita_n_rel" ] ]. calco_n1 := n_trans_le & [ STEM < "calco" >, SYNSEM.LKEYS.KEYREL.PRED "_calco_n_rel" ]. calcocita_n1 := n_intr_count_le & [ STEM < "calcocita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcocita_n_rel" ] ]. calcogenuro_n1 := n_intr_count_le & [ STEM < "calcogenuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcogenuro_n_rel" ] ]. calcografía_n1 := n_intr_count_le & [ STEM < "calcografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calcografía_n_rel" ] ]. calcomanía_n1 := n_intr_count_le & [ STEM < "calcomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_calcomanía_n_rel" ] ]. calcopirita_n1 := n_intr_count_le & [ STEM < "calcopirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcopirita_n_rel" ] ]. calcostibita_n1 := n_intr_count_le & [ STEM < "calcostibita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcostibita_n_rel" ] ]. calcotriquita_n1 := n_intr_count_le & [ STEM < "calcotriquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calcotriquita_n_rel" ] ]. calculabilidad_n1 := n_intr_uncount_le & [ STEM < "calculabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calculabilidad_n_rel" ] ]. calculable_a1 := a_rel_prd_le & [ STEM < "calculable" >, SYNSEM.LKEYS.KEYREL.PRED "_calculable_a_rel" ]. calculadamente_x1 := av_i_spr_le & [ STEM < "calculadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calculadamente_x_rel" ]. calculador_a1 := a_rel_nonprd_intr_le & [ STEM < "calculador" >, SYNSEM.LKEYS.KEYREL.PRED "_calculador_a_rel" ]. calculador_a2 := a_qual_intr_ser_le & [ STEM < "calculador" >, SYNSEM.LKEYS.KEYREL.PRED "_calculador_a_rel" ]. calculador_n1 := n_intr_count_le & [ STEM < "calculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calculador_n_rel" ] ]. calculadora_n1 := n_intr_count_le & [ STEM < "calculadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_calculadora_n_rel" ] ]. calcular_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "calcular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_calcular_v_rel" ] ]. calcular_v2 := v_trans_cp_prop_fin_le & [ STEM < "calcular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro_sem, PRED "_calcular_v_rel" ] ]. calcular_v3 := v_trans_np_le & [ STEM < "calcular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_calcular_v_rel" ] ]. calculista_a1 := a_qual_intr_ser_le & [ STEM < "calculista" >, SYNSEM.LKEYS.KEYREL.PRED "_calculista_a_rel" ]. calcáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "calcáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_calcáneo_a_rel" ]. calcáreo_a1 := a_rel_nonprd_intr_le & [ STEM < "calcáreo" >, SYNSEM.LKEYS.KEYREL.PRED "_calcáreo_a_rel" ]. calcícola_a1 := a_rel_nonprd_intr_le & [ STEM < "calcícola" >, SYNSEM.LKEYS.KEYREL.PRED "_calcícola_a_rel" ]. calcífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "calcífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_calcífugo_a_rel" ]. calcímetro_n1 := n_intr_count_le & [ STEM < "calcímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calcímetro_n_rel" ] ]. calcógrafo_n1 := n_intr_count_le & [ STEM < "calcógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calcógrafo_n_rel" ] ]. caldario_n1 := n_intr_count_le & [ STEM < "caldario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caldario_n_rel" ] ]. caldear_v := v_trans_np_caus_le & [ STEM < "caldear" >, SYNSEM.LKEYS.KEYREL.PRED "_caldear_v_rel" ]. caldera_n1 := n_intr_count_le & [ STEM < "caldera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caldera_n_rel" ] ]. calderero_n1 := n_intr_count_le & [ STEM < "calderero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calderero_n_rel" ] ]. calderería_n1 := n_intr_count_le & [ STEM < "calderería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calderería_n_rel" ] ]. calderilla_n1 := n_intr_count_le & [ STEM < "calderilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calderilla_n_rel" ] ]. caldero_n1 := n_intr_count_le & [ STEM < "caldero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caldero_n_rel" ] ]. calderón_n1 := n_intr_count_le & [ STEM < "calderón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_calderón_n_rel" ] ]. caldo_n1 := n_intr_mass_le & [ STEM < "caldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caldo_n_rel" ] ]. calefacción_n1 := n_trans_le & [ STEM < "calefacción" >, SYNSEM.LKEYS.KEYREL.PRED "_calefacción_n_rel" ]. calefacción_n2 := n_intr_mass_le & [ STEM < "calefacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calefacción_n_rel" ] ]. calefactor_a1 := a_rel_nonprd_intr_le & [ STEM < "calefactor" >, SYNSEM.LKEYS.KEYREL.PRED "_calefactor_a_rel" ]. calefactor_n1 := n_intr_count_le & [ STEM < "calefactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calefactor_n_rel" ] ]. caleidoscopio_n1 := n_intr_count_le & [ STEM < "caleidoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caleidoscopio_n_rel" ] ]. caleidoscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "caleidoscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_caleidoscópico_a_rel" ]. calendario_n1 := n_intr_count_le & [ STEM < "calendario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_calendario_n_rel" ] ]. calentador_a1 := a_rel_nonprd_intr_le & [ STEM < "calentador" >, SYNSEM.LKEYS.KEYREL.PRED "_calentador_a_rel" ]. calentador_n1 := n_intr_count_le & [ STEM < "calentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calentador_n_rel" ] ]. calentamiento_n1 := n_trans_le & [ STEM < "calentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_calentamiento_n_rel" ]. calentar_v := v_trans_np_caus_le & [ STEM < "calentar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_mat_pot, PRED "_calentar_v_rel" ] ]. calero_n1 := n_intr_count_le & [ STEM < "calero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calero_n_rel" ] ]. calesa_n1 := n_intr_count_le & [ STEM < "calesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calesa_n_rel" ] ]. caleño_a1 := a_rel_prd_le & [ STEM < "caleño" >, SYNSEM.LKEYS.KEYREL.PRED "_caleño_a_rel" ]. calibrable_a1 := a_rel_prd_le & [ STEM < "calibrable" >, SYNSEM.LKEYS.KEYREL.PRED "_calibrable_a_rel" ]. calibración_n1 := n_trans_le & [ STEM < "calibración" >, SYNSEM.LKEYS.KEYREL.PRED "_calibración_n_rel" ]. calibrador_a1 := a_rel_nonprd_intr_le & [ STEM < "calibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_calibrador_a_rel" ]. calibrador_n1 := n_intr_count_le & [ STEM < "calibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calibrador_n_rel" ] ]. calibre_n1 := n_intr_count_le & [ STEM < "calibre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calibre_n_rel" ] ]. calicanto_n1 := n_intr_count_le & [ STEM < "calicanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calicanto_n_rel" ] ]. caliche_n1 := n_intr_count_le & [ STEM < "caliche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caliche_n_rel" ] ]. caliciforme_a1 := a_rel_nonprd_intr_le & [ STEM < "caliciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_caliciforme_a_rel" ]. calicreína_n1 := n_intr_count_le & [ STEM < "calicreína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calicreína_n_rel" ] ]. calidad_n1 := n_intr_mass-or-count_le & [ STEM < "calidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calidad_n_rel" ] ]. calidina_n1 := n_intr_count_le & [ STEM < "calidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calidina_n_rel" ] ]. calidoscopio_n1 := n_intr_count_le & [ STEM < "calidoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calidoscopio_n_rel" ] ]. caliente_a1 := a_qual_intr_estar_le & [ STEM < "caliente" >, SYNSEM.LKEYS.KEYREL.PRED "_caliente_a_rel" ]. califa_n1 := n_intr_count_le & [ STEM < "califa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_califa_n_rel" ] ]. califato_n1 := n_intr_count_le & [ STEM < "califato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_califato_n_rel" ] ]. calificable_a1 := a_qual_trans_ser_le & [ STEM < "calificable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_calificable_a_rel" ] ]. calificación_n1 := n_trans_le & [ STEM < "calificación" >, SYNSEM.LKEYS.KEYREL.PRED "_calificación_n_rel" ]. calificador_a1 := a_qual_intr_ser_le & [ STEM < "calificador" >, SYNSEM.LKEYS.KEYREL.PRED "_calificador_a_rel" ]. calificativo_a1 := a_rel_nonprd_intr_le & [ STEM < "calificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_calificativo_a_rel" ]. calificativo_n1 := n_intr_count_le & [ STEM < "calificativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calificativo_n_rel" ] ]. californiano_a1 := a_rel_prd_le & [ STEM < "californiano" >, SYNSEM.LKEYS.KEYREL.PRED "_californiano_a_rel" ]. californiano_n1 := n_intr_count_le & [ STEM < "californiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_californiano_n_rel" ] ]. californio_n1 := n_intr_mass_le & [ STEM < "californio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_californio_n_rel" ] ]. californita_n1 := n_intr_mass_le & [ STEM < "californita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_californita_n_rel" ] ]. caligrafía_n1 := n_intr_uncount_pl_le & [ STEM < "caligrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caligrafía_n_rel" ] ]. caligráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "caligráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_caligráfico_a_rel" ]. calima_n1 := n_intr_count_le & [ STEM < "calima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calima_n_rel" ] ]. calina_n1 := n_intr_count_le & [ STEM < "calina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_calina_n_rel" ] ]. caliza_n1 := n_intr_mass-or-count_le & [ STEM < "caliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_caliza_n_rel" ] ]. calizamente_x1 := av_i_spr_le & [ STEM < "calizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calizamente_x_rel" ]. calizo_a1 := a_rel_nonprd_intr_le & [ STEM < "calizo" >, SYNSEM.LKEYS.KEYREL.PRED "_calizo_a_rel" ]. calladamente_x1 := av_i_spr_le & [ STEM < "calladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calladamente_x_rel" ]. callar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "callar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_callar_v_rel" ] ]. callar_v2 := v_ditrans*_le & [ STEM < "callar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_callar_v_rel" ] ]. callar_v3 := v_pron_intr_le & [ STEM < "callar" >, SYNSEM.LKEYS.KEYREL.PRED "_callar_v_rel" ]. calle_n1 := n_intr_count_le & [ STEM < "calle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_calle_n_rel" ] ]. callejeo_n1 := n_event-result_intr_le & [ STEM < "callejeo" >, SYNSEM.LKEYS.KEYREL.PRED "_callejeo_n_rel" ]. callejero_a1 := a_rel_nonprd_intr_le & [ STEM < "callejero" >, SYNSEM.LKEYS.KEYREL.PRED "_callejero_a_rel" ]. callejero_n1 := n_intr_count_le & [ STEM < "callejero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_callejero_n_rel" ] ]. callejuela_n1 := n_intr_count_le & [ STEM < "callejuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_callejuela_n_rel" ] ]. callejón_n1 := n_intr_count_le & [ STEM < "callejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_callejón_n_rel" ] ]. callera_n1 := n_intr_count_le & [ STEM < "callera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_callera_n_rel" ] ]. callicida_n1 := n_intr_mass_le & [ STEM < "callicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_callicida_n_rel" ] ]. callista_n1 := n_intr_count_le & [ STEM < "callista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_callista_n_rel" ] ]. callo_n1 := n_intr_count_le & [ STEM < "callo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_callo_n_rel" ] ]. callosidad_n1 := n_ppcomp_uncount_le & [ STEM < "callosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_callosidad_n_rel" ] ]. calloso_a1 := a_rel_nonprd_intr_le & [ STEM < "calloso" >, SYNSEM.LKEYS.KEYREL.PRED "_calloso_a_rel" ]. calma_n1 := n_intr_mass_le & [ STEM < "calma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calma_n_rel" ] ]. calmante_n1 := n_intr_count_le & [ STEM < "calmante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calmante_n_rel" ] ]. calmar_v1 := v_intr_io*_le & [ STEM < "calmar" >, SYNSEM.LKEYS.KEYREL.PRED "_calmar_v_rel" ]. calmar_v2 := v_pron_intr_le & [ STEM < "calmar" >, SYNSEM.LKEYS.KEYREL.PRED "_calmar_v_rel" ]. calmar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "calmar" >, SYNSEM.LKEYS.KEYREL.PRED "_calmar_v_rel" ]. calmar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "calmar" >, SYNSEM.LKEYS.KEYREL.PRED "_calmar_v_rel" ]. calmar_v5 := v_trans_np_le & [ STEM < "calmar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_calmar_v_rel" ] ]. calmodulina_n1 := n_intr_mass-or-count_le & [ STEM < "calmodulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_calmodulina_n_rel" ] ]. calmoso_a1 := a_qual_intr_scopal_le & [ STEM < "calmoso" >, SYNSEM.LKEYS.KEYREL.PRED "_calmoso_a_rel" ]. calmoso_a2 := a_qual_intr_ser_le & [ STEM < "calmoso" >, SYNSEM.LKEYS.KEYREL.PRED "_calmoso_a_rel" ]. calomelanos_n1 := n_intr_count_le & [ STEM < "calomelanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_calomelanos_n_rel" ] ]. calor_n1 := n_intr_mass_le & [ STEM < "calor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calor_n_rel" ] ]. calorifugadamente_x1 := av_i_spr_le & [ STEM < "calorifugadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calorifugadamente_x_rel" ]. calorifugado_a1 := a_rel_nonprd_intr_le & [ STEM < "calorifugado" >, SYNSEM.LKEYS.KEYREL.PRED "_calorifugado_a_rel" ]. calorimetría_n1 := n_intr_count_le & [ STEM < "calorimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calorimetría_n_rel" ] ]. calorimétricamente_x1 := av_i_spr_le & [ STEM < "calorimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calorimétricamente_x_rel" ]. calorimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "calorimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_calorimétrico_a_rel" ]. calorizar_v := v_trans_np_caus_le & [ STEM < "calorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_calorizar_v_rel" ]. caloría_n := n_intr_count_le & [ STEM < "caloría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_caloría_n_rel" ] ]. caloríferamente_x1 := av_i_spr_le & [ STEM < "caloríferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caloríferamente_x_rel" ]. calorífero_a1 := a_rel_nonprd_intr_le & [ STEM < "calorífero" >, SYNSEM.LKEYS.KEYREL.PRED "_calorífero_a_rel" ]. calorífero_n1 := n_intr_count_le & [ STEM < "calorífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calorífero_n_rel" ] ]. caloríficamente_x1 := av_i_spr_le & [ STEM < "caloríficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caloríficamente_x_rel" ]. calorífico_a1 := a_rel_nonprd_intr_le & [ STEM < "calorífico" >, SYNSEM.LKEYS.KEYREL.PRED "_calorífico_a_rel" ]. calorífugamente_x1 := av_i_spr_le & [ STEM < "calorífugamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calorífugamente_x_rel" ]. calorífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "calorífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_calorífugo_a_rel" ]. calorímetro_n1 := n_intr_count_le & [ STEM < "calorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calorímetro_n_rel" ] ]. caloto_n1 := n_intr_count_le & [ STEM < "caloto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caloto_n_rel" ] ]. calumnia_n1 := n_intr_count_le & [ STEM < "calumnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calumnia_n_rel" ] ]. calumniador_n1 := n_subj-nom_le & [ STEM < "calumniador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calumniador_n_rel" ] ]. calumnioso_a1 := a_qual_intr_scopal_le & [ STEM < "calumnioso" >, SYNSEM.LKEYS.KEYREL.PRED "_calumnioso_a_rel" ]. calurosamente_x1 := av_i_spr_le & [ STEM < "calurosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_calurosamente_x_rel" ]. caluroso_a1 := a_qual_intr_scopal_le & [ STEM < "caluroso" >, SYNSEM.LKEYS.KEYREL.PRED "_caluroso_a_rel" ]. calva_n1 := n_intr_count_le & [ STEM < "calva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calva_n_rel" ] ]. calvados_n1 := n_intr_mass_le & [ STEM < "calvados" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calvados_n_rel" ] ]. calvario_n1 := n_intr_count_le & [ STEM < "calvario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calvario_n_rel" ] ]. calvicie_n1 := n_intr_uncount_le & [ STEM < "calvicie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calvicie_n_rel" ] ]. calvinismo_n1 := n_intr_uncount_le & [ STEM < "calvinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calvinismo_n_rel" ] ]. calvinista_n1 := n_intr_count_le & [ STEM < "calvinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calvinista_n_rel" ] ]. calvo_a1 := a_qual_intr_scopal_le & [ STEM < "calvo" >, SYNSEM.LKEYS.KEYREL.PRED "_calvo_a_rel" ]. calza_n1 := n_intr_count_le & [ STEM < "calza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calza_n_rel" ] ]. calzada_n1 := n_intr_count_le & [ STEM < "calzada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_calzada_n_rel" ] ]. calzado_n1 := n_intr_uncount_le & [ STEM < "calzado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calzado_n_rel" ] ]. calzado_n2 := n_intr_count_le & [ STEM < "calzado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_calzado_n_rel" ] ]. calzador_n1 := n_intr_count_le & [ STEM < "calzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calzador_n_rel" ] ]. calzar_v1 := v_ditrans*_le & [ STEM < "calzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc, PRED "_calzar_v_rel" ] ]. calzar_v2 := v_trans_np*_caus_le & [ STEM < "calzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT ani_hum, PRED "_calzar_v_rel" ] ]. calzo_n1 := n_intr_count_le & [ STEM < "calzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calzo_n_rel" ] ]. calzoncillos_n1 := n_intr_count_le & [ STEM < "calzoncillos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calzoncillos_n_rel" ] ]. calzón_n1 := n_intr_count_le & [ STEM < "calzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_calzón_n_rel" ] ]. caléndula_n1 := n_intr_count_le & [ STEM < "caléndula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_caléndula_n_rel" ] ]. calígrafo_n1 := n_intr_count_le & [ STEM < "calígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_calígrafo_n_rel" ] ]. caló_n1 := n_intr_uncount_le & [ STEM < "caló" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caló_n_rel" ] ]. calórico_a1 := a_rel_nonprd_intr_le & [ STEM < "calórico" >, SYNSEM.LKEYS.KEYREL.PRED "_calórico_a_rel" ]. cama_n1 := n_intr_count_le & [ STEM < "cama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cama_n_rel" ] ]. camada_n1 := n_intr_count_le & [ STEM < "camada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camada_n_rel" ] ]. camafeo_n1 := n_intr_count_le & [ STEM < "camafeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camafeo_n_rel" ] ]. camaleón_n1 := n_intr_count_le & [ STEM < "camaleón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_camaleón_n_rel" ] ]. camamila_n1 := n_intr_mass_le & [ STEM < "camamila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_camamila_n_rel" ] ]. camarada_n1 := n_intr_count_le & [ STEM < "camarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camarada_n_rel" ] ]. camaradería_n1 := n_intr_mass_le & [ STEM < "camaradería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_camaradería_n_rel" ] ]. camarero_n1 := n_intr_count_le & [ STEM < "camarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camarero_n_rel" ] ]. camareta_n1 := n_intr_count_le & [ STEM < "camareta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camareta_n_rel" ] ]. camarilla_n1 := n_intr_coll_le & [ STEM < "camarilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_camarilla_n_rel" ] ]. camarlengo_n1 := n_intr_count_le & [ STEM < "camarlengo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camarlengo_n_rel" ] ]. camarote_n1 := n_intr_count_le & [ STEM < "camarote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camarote_n_rel" ] ]. camarín_n1 := n_intr_count_le & [ STEM < "camarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camarín_n_rel" ] ]. camarón_n1 := n_intr_count_le & [ STEM < "camarón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_camarón_n_rel" ] ]. camastro_n1 := n_intr_count_le & [ STEM < "camastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camastro_n_rel" ] ]. cambiable_a1 := a_qual_intr_scopal_le & [ STEM < "cambiable" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiable_a_rel" ]. cambiador_n1 := n_intr_count_le & [ STEM < "cambiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cambiador_n_rel" ] ]. cambiador_n2 := n_subj-nom_le & [ STEM < "cambiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cambiador_n_rel" ] ]. cambial_a1 := a_rel_nonprd_intr_le & [ STEM < "cambial" >, SYNSEM.LKEYS.KEYREL.PRED "_cambial_a_rel" ]. cambiante_a1 := a_qual_intr_scopal_le & [ STEM < "cambiante" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiante_a_rel" ]. cambiar_v1 := v_ditrans_le & [ STEM < "cambiar" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiar_v_rel" ]. cambiar_v2 := v_intr_mrkd_np_le & [ STEM < "cambiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_cambiar_v_rel" ] ]. cambiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "cambiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_cambiar_v_rel" ] ]. cambiar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "cambiar" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiar_v_rel" ]. cambiar_v5 := v_trans_np*_le & [ STEM < "cambiar" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiar_v_rel" ]. cambiar_v6 := v_trans_np_mrkd_np_le & [ STEM < "cambiar" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_por_p_sel_rel, KEYREL.PRED "_cambiar_v_rel" ] ]. cambiario_a1 := a_rel_nonprd_intr_le & [ STEM < "cambiario" >, SYNSEM.LKEYS.KEYREL.PRED "_cambiario_a_rel" ]. cambio_n1 := n_trans_le & [ STEM < "cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_cambio_n_rel" ]. cambista_n1 := n_intr_count_le & [ STEM < "cambista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cambista_n_rel" ] ]. camboyano_a1 := a_rel_prd_le & [ STEM < "camboyano" >, SYNSEM.LKEYS.KEYREL.PRED "_camboyano_a_rel" ]. camboyano_n1 := n_intr_count_le & [ STEM < "camboyano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camboyano_n_rel" ] ]. camelia_n1 := n_intr_count_le & [ STEM < "camelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_camelia_n_rel" ] ]. camello_n1 := n_intr_count_le & [ STEM < "camello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_camello_n_rel" ] ]. camembert_n1 := n_intr_count_le & [ STEM < "camembert" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camembert_n_rel" ] ]. camerino_n1 := n_intr_count_le & [ STEM < "camerino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camerino_n_rel" ] ]. camerunés_a1 := a_rel_prd_le & [ STEM < "camerunés" >, SYNSEM.LKEYS.KEYREL.PRED "_camerunés_a_rel" ]. camerunés_n1 := n_intr_count_le & [ STEM < "camerunés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camerunés_n_rel" ] ]. camilla_n1 := n_intr_count_le & [ STEM < "camilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camilla_n_rel" ] ]. camillero_n1 := n_intr_count_le & [ STEM < "camillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camillero_n_rel" ] ]. caminante_n1 := n_intr_count_le & [ STEM < "caminante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caminante_n_rel" ] ]. caminar_v1 := v_unacc_lcomp_dir*_le & [ STEM < "caminar" >, SYNSEM.LKEYS.KEYREL.PRED "_caminar_v_rel" ]. caminata_n1 := n_intr_count_le & [ STEM < "caminata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caminata_n_rel" ] ]. caminero_a1 := a_rel_nonprd_intr_le & [ STEM < "caminero" >, SYNSEM.LKEYS.KEYREL.PRED "_caminero_a_rel" ]. camino_n1 := n_intr_count_le & [ STEM < "camino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camino_n_rel" ] ]. camionero_n1 := n_intr_count_le & [ STEM < "camionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camionero_n_rel" ] ]. camioneta_n1 := n_intr_count_le & [ STEM < "camioneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_camioneta_n_rel" ] ]. camisa_n1 := n_intr_count_le & [ STEM < "camisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camisa_n_rel" ] ]. camisero_a1 := a_rel_nonprd_intr_le & [ STEM < "camisero" >, SYNSEM.LKEYS.KEYREL.PRED "_camisero_a_rel" ]. camisero_n1 := n_intr_count_le & [ STEM < "camisero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camisero_n_rel" ] ]. camiseta_n1 := n_intr_count_le & [ STEM < "camiseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camiseta_n_rel" ] ]. camisola_n1 := n_intr_count_le & [ STEM < "camisola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camisola_n_rel" ] ]. camisón_n1 := n_intr_count_le & [ STEM < "camisón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camisón_n_rel" ] ]. camión_n1 := n_intr_count_le & [ STEM < "camión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_camión_n_rel" ] ]. camomila_n1 := n_intr_mass_le & [ STEM < "camomila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_camomila_n_rel" ] ]. camorrista_n1 := n_intr_count_le & [ STEM < "camorrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_camorrista_n_rel" ] ]. campal_a1 := a_rel_nonprd_intr_le & [ STEM < "campal" >, SYNSEM.LKEYS.KEYREL.PRED "_campal_a_rel" ]. campamento_n1 := n_intr_count_le & [ STEM < "campamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_campamento_n_rel" ] ]. campana_n1 := n_intr_count_le & [ STEM < "campana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_campana_n_rel" ] ]. campanada_n1 := n_intr_count_le & [ STEM < "campanada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campanada_n_rel" ] ]. campanario_n1 := n_intr_count_le & [ STEM < "campanario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_campanario_n_rel" ] ]. campanero_n1 := n_intr_count_le & [ STEM < "campanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_campanero_n_rel" ] ]. campaniforme_a1 := a_qual_intr_ser_le & [ STEM < "campaniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_campaniforme_a_rel" ]. campanilla_n1 := n_intr_count_le & [ STEM < "campanilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_campanilla_n_rel" ] ]. campanilleo_n1 := n_intr_uncount_pl_le & [ STEM < "campanilleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campanilleo_n_rel" ] ]. campanología_n1 := n_intr_uncount_le & [ STEM < "campanología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campanología_n_rel" ] ]. campar_v := v_unacc_lcomp_loc*_le & [ STEM < "campar" >, SYNSEM.LKEYS.KEYREL.PRED "_campar_v_rel" ]. campaña_n1 := n_intr_count_le & [ STEM < "campaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_campaña_n_rel" ] ]. campechanamente_x1 := av_i_spr_le & [ STEM < "campechanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_campechanamente_x_rel" ]. campechano_a1 := a_qual_intr_ser_le & [ STEM < "campechano" >, SYNSEM.LKEYS.KEYREL.PRED "_campechano_a_rel" ]. campeonato_n1 := n_intr_count_le & [ STEM < "campeonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campeonato_n_rel" ] ]. campesinado_n1 := n_intr_coll_le & [ STEM < "campesinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_campesinado_n_rel" ] ]. campesino_n1 := n_intr_count_le & [ STEM < "campesino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_campesino_n_rel" ] ]. campestre_a1 := a_qual_intr_scopal_le & [ STEM < "campestre" >, SYNSEM.LKEYS.KEYREL.PRED "_campestre_a_rel" ]. campeón_n1 := n_intr_count_le & [ STEM < "campeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_campeón_n_rel" ] ]. campimetría_n1 := n_intr_uncount_le & [ STEM < "campimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campimetría_n_rel" ] ]. camping_n1 := n_intr_count_le & [ STEM < "camping" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camping_n_rel" ] ]. campista_n1 := n_intr_count_le & [ STEM < "campista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_campista_n_rel" ] ]. campiña_n1 := n_intr_count_le & [ STEM < "campiña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_campiña_n_rel" ] ]. campo_n1 := n_intr_count_le & [ STEM < "campo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_campo_n_rel" ] ]. camposanto_n1 := n_intr_count_le & [ STEM < "camposanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_camposanto_n_rel" ] ]. campus_n1 := n_intr_count_le & [ STEM < "campus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_campus_n_rel" ] ]. campánula_n1 := n_intr_count_le & [ STEM < "campánula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_campánula_n_rel" ] ]. campímetro_n1 := n_intr_count_le & [ STEM < "campímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_campímetro_n_rel" ] ]. camuflaje_n1 := n_trans_le & [ STEM < "camuflaje" >, SYNSEM.LKEYS.KEYREL.PRED "_camuflaje_n_rel" ]. camuflamiento_n1 := n_trans_le & [ STEM < "camuflamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_camuflamiento_n_rel" ]. camuflar_v := v_trans_np_caus_le & [ STEM < "camuflar" >, SYNSEM.LKEYS.KEYREL.PRED "_camuflar_v_rel" ]. caméfito_n1 := n_intr_count_le & [ STEM < "caméfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caméfito_n_rel" ] ]. cana_n1 := n_intr_count_le & [ STEM < "cana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cana_n_rel" ] ]. canaco_n1 := n_intr_count_le & [ STEM < "canaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canaco_n_rel" ] ]. canadiense_a1 := a_rel_prd_le & [ STEM < "canadiense" >, SYNSEM.LKEYS.KEYREL.PRED "_canadiense_a_rel" ]. canadiense_n1 := n_intr_count_le & [ STEM < "canadiense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canadiense_n_rel" ] ]. canal_n1 := n_intr_count_le & [ STEM < "canal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_canal_n_rel" ] ]. canaladura_n1 := n_intr_count_le & [ STEM < "canaladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canaladura_n_rel" ] ]. canaleta_n1 := n_intr_count_le & [ STEM < "canaleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canaleta_n_rel" ] ]. canalización_n1 := n_trans_le & [ STEM < "canalización" >, SYNSEM.LKEYS.KEYREL.PRED "_canalización_n_rel" ]. canalizar_v := v_trans_np_le & [ STEM < "canalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_canalizar_v_rel" ]. canalizo_n1 := n_intr_count_le & [ STEM < "canalizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canalizo_n_rel" ] ]. canallada_n1 := n_intr_count_le & [ STEM < "canallada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canallada_n_rel" ] ]. canalón_n1 := n_intr_count_le & [ STEM < "canalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canalón_n_rel" ] ]. canana_n1 := n_intr_count_le & [ STEM < "canana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canana_n_rel" ] ]. canapé_n1 := n_intr_count_le & [ STEM < "canapé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canapé_n_rel" ] ]. canario_a1 := a_rel_prd_le & [ STEM < "canario" >, SYNSEM.LKEYS.KEYREL.PRED "_canario_a_rel" ]. canario_n1 := n_intr_count_le & [ STEM < "canario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_canario_n_rel" ] ]. canasta_n1 := n_intr_count_le & [ STEM < "canasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canasta_n_rel" ] ]. canastilla_n1 := n_intr_count_le & [ STEM < "canastilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canastilla_n_rel" ] ]. canasto_n1 := n_intr_count_le & [ STEM < "canasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canasto_n_rel" ] ]. cancela_n1 := n_intr_count_le & [ STEM < "cancela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cancela_n_rel" ] ]. cancelación_n1 := n_trans_le & [ STEM < "cancelación" >, SYNSEM.LKEYS.KEYREL.PRED "_cancelación_n_rel" ]. cancelar_v := v_trans_np_le & [ STEM < "cancelar" >, SYNSEM.LKEYS.KEYREL.PRED "_cancelar_v_rel" ]. cancellería_n1 := n_intr_count_le & [ STEM < "cancellería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cancellería_n_rel" ] ]. canceroso_a1 := a_rel_nonprd_intr_le & [ STEM < "canceroso" >, SYNSEM.LKEYS.KEYREL.PRED "_canceroso_a_rel" ]. cancerígeno_a1 := a_rel_nonprd_intr_le & [ STEM < "cancerígeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cancerígeno_a_rel" ]. cancerínico_a1 := a_rel_nonprd_intr_le & [ STEM < "cancerínico" >, SYNSEM.LKEYS.KEYREL.PRED "_cancerínico_a_rel" ]. cancha_n1 := n_intr_count_le & [ STEM < "cancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cancha_n_rel" ] ]. canchal_n1 := n_intr_count_le & [ STEM < "canchal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_canchal_n_rel" ] ]. canchero_n1 := n_intr_count_le & [ STEM < "canchero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canchero_n_rel" ] ]. canciller_n1 := n_intr_count_le & [ STEM < "canciller" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canciller_n_rel" ] ]. cancillería_n1 := n_intr_count_le & [ STEM < "cancillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_cancillería_n_rel" ] ]. cancionero_n1 := n_intr_count_le & [ STEM < "cancionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cancionero_n_rel" ] ]. canción_n1 := n_intr_count_le & [ STEM < "canción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canción_n_rel" ] ]. cancrinita_n1 := n_intr_count_le & [ STEM < "cancrinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cancrinita_n_rel" ] ]. cancro_n1 := n_intr_count_le & [ STEM < "cancro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cancro_n_rel" ] ]. cancán_n1 := n_intr_count_le & [ STEM < "cancán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cancán_n_rel" ] ]. candado_n1 := n_intr_count_le & [ STEM < "candado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candado_n_rel" ] ]. candela_n1 := n_intr_count_le & [ STEM < "candela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candela_n_rel" ] ]. candelabro_n1 := n_intr_count_le & [ STEM < "candelabro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candelabro_n_rel" ] ]. candelero_n1 := n_intr_count_le & [ STEM < "candelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candelero_n_rel" ] ]. candente_a1 := a_qual_intr_scopal_le & [ STEM < "candente" >, SYNSEM.LKEYS.KEYREL.PRED "_candente_a_rel" ]. candidato_n1 := n_intr_count_le & [ STEM < "candidato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_candidato_n_rel" ] ]. candidatura_n1 := n_intr_count_le & [ STEM < "candidatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_candidatura_n_rel" ] ]. candidez_n1 := n_ppcomp_uncount_le & [ STEM < "candidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_candidez_n_rel" ] ]. candidiasis_n1 := n_intr_uncount_le & [ STEM < "candidiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_candidiasis_n_rel" ] ]. candil_n1 := n_intr_count_le & [ STEM < "candil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candil_n_rel" ] ]. candileja_n1 := n_intr_count_le & [ STEM < "candileja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_candileja_n_rel" ] ]. candor_n1 := n_intr_uncount_pl_le & [ STEM < "candor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_candor_n_rel" ] ]. canela_n1 := n_intr_mass_le & [ STEM < "canela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canela_n_rel" ] ]. canelo_n1 := n_intr_count_le & [ STEM < "canelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_canelo_n_rel" ] ]. canelón_n1 := n_intr_count_le & [ STEM < "canelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canelón_n_rel" ] ]. canesú_n1 := n_intr_count_le & [ STEM < "canesú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canesú_n_rel" ] ]. canfano_n1 := n_intr_count_le & [ STEM < "canfano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_canfano_n_rel" ] ]. canfeno_n1 := n_intr_count_le & [ STEM < "canfeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_canfeno_n_rel" ] ]. canfosulfonato_n1 := n_intr_count_le & [ STEM < "canfosulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_canfosulfonato_n_rel" ] ]. cangilón_n1 := n_intr_count_le & [ STEM < "cangilón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cangilón_n_rel" ] ]. cangrejo_n1 := n_intr_count_le & [ STEM < "cangrejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cangrejo_n_rel" ] ]. canguro_n1 := n_intr_count_le & [ STEM < "canguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_canguro_n_rel" ] ]. canibalismo_n1 := n_intr_uncount_le & [ STEM < "canibalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canibalismo_n_rel" ] ]. canica_n1 := n_intr_count_le & [ STEM < "canica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canica_n_rel" ] ]. caniche_n1 := n_intr_count_le & [ STEM < "caniche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caniche_n_rel" ] ]. canilla_n1 := n_intr_count_le & [ STEM < "canilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canilla_n_rel" ] ]. canilla_n2 := n_ppcomp_count_le & [ STEM < "canilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_canilla_n_rel" ] ]. canino_a1 := a_rel_nonprd_intr_le & [ STEM < "canino" >, SYNSEM.LKEYS.KEYREL.PRED "_canino_a_rel" ]. canje_n1 := n_trans_le & [ STEM < "canje" >, SYNSEM.LKEYS.KEYREL.PRED "_canje_n_rel" ]. canjeable_a1 := a_rel_prd_le & [ STEM < "canjeable" >, SYNSEM.LKEYS.KEYREL.PRED "_canjeable_a_rel" ]. canjear_v := v_trans_np_mrkd_np*_le & [ STEM < "canjear" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_canjear_v_rel" ] ]. canoa_n1 := n_intr_count_le & [ STEM < "canoa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_canoa_n_rel" ] ]. canon_n1 := n_intr_count_le & [ STEM < "canon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canon_n_rel" ] ]. canonista_n1 := n_intr_count_le & [ STEM < "canonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canonista_n_rel" ] ]. canonización_n1 := n_trans_le & [ STEM < "canonización" >, SYNSEM.LKEYS.KEYREL.PRED "_canonización_n_rel" ]. canonizar_v := v_trans_np_le & [ STEM < "canonizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum, PRED "_canonizar_v_rel" ] ]. canonjía_n1 := n_intr_count_le & [ STEM < "canonjía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_canonjía_n_rel" ] ]. canoso_a1 := a_qual_intr_scopal_le & [ STEM < "canoso" >, SYNSEM.LKEYS.KEYREL.PRED "_canoso_a_rel" ]. canoísta_n1 := n_intr_count_le & [ STEM < "canoísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canoísta_n_rel" ] ]. cansador_a1 := a_qual_intr_scopal_le & [ STEM < "cansador" >, SYNSEM.LKEYS.KEYREL.PRED "_cansador_a_rel" ]. cansancio_n1 := n_event-result_intr_le & [ STEM < "cansancio" >, SYNSEM.LKEYS.KEYREL.PRED "_cansancio_n_rel" ]. cansar_v1 := v_intr_io*_le & [ STEM < "cansar" >, SYNSEM.LKEYS.KEYREL.PRED "_cansar_v_rel" ]. cansar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "cansar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cansar_v_rel" ] ] ]. cansar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "cansar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cansar_v_rel" ] ] ]. cansar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cansar" >, SYNSEM.LKEYS.KEYREL.PRED "_cansar_v_rel" ]. cansino_a1 := a_qual_intr_scopal_le & [ STEM < "cansino" >, SYNSEM.LKEYS.KEYREL.PRED "_cansino_a_rel" ]. cantal_n1 := n_intr_mass_le & [ STEM < "cantal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cantal_n_rel" ] ]. cantante_a1 := a_rel_nonprd_intr_le & [ STEM < "cantante" >, SYNSEM.LKEYS.KEYREL.PRED "_cantante_a_rel" ]. cantante_n1 := n_intr_count_le & [ STEM < "cantante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantante_n_rel" ] ]. cantar_v1 := v_trans_np*_io*_le & [ STEM < "cantar" >, SYNSEM.LKEYS.KEYREL.PRED "_cantar_v_rel" ]. cantarela_n1 := n_intr_count_le & [ STEM < "cantarela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cantarela_n_rel" ] ]. cantata_n1 := n_intr_count_le & [ STEM < "cantata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cantata_n_rel" ] ]. cantautor_n1 := n_intr_count_le & [ STEM < "cantautor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantautor_n_rel" ] ]. cante_n1 := n_trans_le & [ STEM < "cante" >, SYNSEM.LKEYS.KEYREL.PRED "_cante_n_rel" ]. cantear_v := v_trans_np_le & [ STEM < "cantear" >, SYNSEM.LKEYS.KEYREL.PRED "_cantear_v_rel" ]. cantera_n1 := n_intr_count_le & [ STEM < "cantera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cantera_n_rel" ] ]. canterano_n1 := n_intr_count_le & [ STEM < "canterano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canterano_n_rel" ] ]. cantidad_n1 := n_intr_count_le & [ STEM < "cantidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cantidad_n_rel" ] ]. cantilena_n1 := n_intr_count_le & [ STEM < "cantilena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cantilena_n_rel" ] ]. cantimplora_n1 := n_intr_count_le & [ STEM < "cantimplora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cantimplora_n_rel" ] ]. cantina_n1 := n_intr_count_le & [ STEM < "cantina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cantina_n_rel" ] ]. cantinela_n1 := n_intr_count_le & [ STEM < "cantinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cantinela_n_rel" ] ]. cantinero_n1 := n_intr_count_le & [ STEM < "cantinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantinero_n_rel" ] ]. canto_n1 := n_result_intr_le & [ STEM < "canto" >, SYNSEM.LKEYS.KEYREL.PRED "_canto_n_rel" ]. cantograma_n1 := n_intr_count_le & [ STEM < "cantograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cantograma_n_rel" ] ]. cantonal_a1 := a_rel_nonprd_intr_le & [ STEM < "cantonal" >, SYNSEM.LKEYS.KEYREL.PRED "_cantonal_a_rel" ]. cantonalismo_n1 := n_intr_uncount_le & [ STEM < "cantonalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cantonalismo_n_rel" ] ]. cantonalista_a1 := a_rel_nonprd_intr_le & [ STEM < "cantonalista" >, SYNSEM.LKEYS.KEYREL.PRED "_cantonalista_a_rel" ]. cantonalista_n1 := n_intr_count_le & [ STEM < "cantonalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantonalista_n_rel" ] ]. cantonero_n1 := n_intr_count_le & [ STEM < "cantonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantonero_n_rel" ] ]. cantonés_a1 := a_rel_prd_le & [ STEM < "cantonés" >, SYNSEM.LKEYS.KEYREL.PRED "_cantonés_a_rel" ]. cantonés_n1 := n_intr_count_le & [ STEM < "cantonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cantonés_n_rel" ] ]. cantor_a1 := a_rel_nonprd_intr_le & [ STEM < "cantor" >, SYNSEM.LKEYS.KEYREL.PRED "_cantor_a_rel" ]. canturral_n1 := n_intr_mass_le & [ STEM < "canturral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_canturral_n_rel" ] ]. canturrear_v := v_trans_np*_le & [ STEM < "canturrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_canturrear_v_rel" ] ]. cantábrico_a1 := a_rel_prd_le & [ STEM < "cantábrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cantábrico_a_rel" ]. cantárida_n1 := n_intr_count_le & [ STEM < "cantárida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cantárida_n_rel" ] ]. cantón_n1 := n_intr_count_le & [ STEM < "cantón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cantón_n_rel" ] ]. caníbal_n1 := n_intr_count_le & [ STEM < "caníbal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caníbal_n_rel" ] ]. canícula_n1 := n_intr_uncount_le & [ STEM < "canícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_canícula_n_rel" ] ]. canódromo_n1 := n_intr_count_le & [ STEM < "canódromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_canódromo_n_rel" ] ]. canónica_n1 := n_intr_count_le & [ STEM < "canónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_canónica_n_rel" ] ]. canónicamente_x1 := av_i_spr_le & [ STEM < "canónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_canónicamente_x_rel" ]. canónico_a1 := a_rel_nonprd_intr_le & [ STEM < "canónico" >, SYNSEM.LKEYS.KEYREL.PRED "_canónico_a_rel" ]. canónigo_n1 := n_intr_count_le & [ STEM < "canónigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_canónigo_n_rel" ] ]. caoba_n1 := n_intr_mass_le & [ STEM < "caoba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caoba_n_rel" ] ]. caolinita_n1 := n_intr_count_le & [ STEM < "caolinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caolinita_n_rel" ] ]. caolín_n1 := n_intr_mass_le & [ STEM < "caolín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caolín_n_rel" ] ]. caos_n1 := n_intr_mass_le & [ STEM < "caos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caos_n_rel" ] ]. capa_n1 := n_intr_count_le & [ STEM < "capa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capa_n_rel" ] ]. capacete_n1 := n_intr_count_le & [ STEM < "capacete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capacete_n_rel" ] ]. capacho_n1 := n_intr_count_le & [ STEM < "capacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capacho_n_rel" ] ]. capacidad_n1 := n_intr_mass_le & [ STEM < "capacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_capacidad_n_rel" ] ]. capacitación_n1 := n_trans_le & [ STEM < "capacitación" >, SYNSEM.LKEYS.KEYREL.PRED "_capacitación_n_rel" ]. capacitancia_n1 := n_intr_uncount_le & [ STEM < "capacitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capacitancia_n_rel" ] ]. capacitar_v := v_trans_np_mrkd_np*_le & [ STEM < "capacitar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_capacitar_v_rel" ] ]. capacitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "capacitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_capacitativo_a_rel" ]. capacitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "capacitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_capacitivo_a_rel" ]. capacímetro_n1 := n_intr_count_le & [ STEM < "capacímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capacímetro_n_rel" ] ]. capar_v := v_trans_np_le & [ STEM < "capar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT ani_hum, PRED "_capar_v_rel" ] ]. caparazón_n1 := n_intr_count_le & [ STEM < "caparazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caparazón_n_rel" ] ]. capataz_n1 := n_intr_count_le & [ STEM < "capataz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_capataz_n_rel" ] ]. capaz_a1 := a_qual_trans*_ser_le & [ STEM < "capaz" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_capaz_a_rel" ] ]. capaz_a2 := a_sctrl_ser_le & [ STEM < "capaz" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_capaz_a_rel" ] ]. capazo_n1 := n_intr_count_le & [ STEM < "capazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capazo_n_rel" ] ]. capcioso_a1 := a_qual_intr_scopal_le & [ STEM < "capcioso" >, SYNSEM.LKEYS.KEYREL.PRED "_capcioso_a_rel" ]. capear_v := v_trans_np_le & [ STEM < "capear" >, SYNSEM.LKEYS.KEYREL.PRED "_capear_v_rel" ]. capelina_n1 := n_intr_count_le & [ STEM < "capelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capelina_n_rel" ] ]. capellanía_n1 := n_intr_count_le & [ STEM < "capellanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_capellanía_n_rel" ] ]. capellán_n1 := n_intr_count_le & [ STEM < "capellán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_capellán_n_rel" ] ]. caperuza_n1 := n_intr_count_le & [ STEM < "caperuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caperuza_n_rel" ] ]. capilar_a1 := a_rel_nonprd_intr_le & [ STEM < "capilar" >, SYNSEM.LKEYS.KEYREL.PRED "_capilar_a_rel" ]. capilar_n1 := n_intr_count_le & [ STEM < "capilar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capilar_n_rel" ] ]. capilaridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "capilaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capilaridad_n_rel" ] ]. capilla_n1 := n_intr_count_le & [ STEM < "capilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_capilla_n_rel" ] ]. capirote_n1 := n_intr_count_le & [ STEM < "capirote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capirote_n_rel" ] ]. capitación_n1 := n_intr_uncount_le & [ STEM < "capitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capitación_n_rel" ] ]. capital_a1 := a_rel_nonprd_intr_le & [ STEM < "capital" >, SYNSEM.LKEYS.KEYREL.PRED "_capital_a_rel" ]. capital_n1 := n_intr_count_le & [ STEM < "capital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capital_n_rel" ] ]. capitalidad_n1 := n_intr_uncount_le & [ STEM < "capitalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capitalidad_n_rel" ] ]. capitalino_a1 := a_rel_nonprd_intr_le & [ STEM < "capitalino" >, SYNSEM.LKEYS.KEYREL.PRED "_capitalino_a_rel" ]. capitalismo_n1 := n_intr_uncount_le & [ STEM < "capitalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capitalismo_n_rel" ] ]. capitalista_a1 := a_rel_nonprd_intr_le & [ STEM < "capitalista" >, SYNSEM.LKEYS.KEYREL.PRED "_capitalista_a_rel" ]. capitalista_n1 := n_intr_count_le & [ STEM < "capitalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_capitalista_n_rel" ] ]. capitalización_n1 := n_trans_le & [ STEM < "capitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_capitalización_n_rel" ]. capitalizar_v := v_trans_np_le & [ STEM < "capitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_capitalizar_v_rel" ]. capitanear_v := v_trans_np_le & [ STEM < "capitanear" >, SYNSEM.LKEYS.KEYREL.PRED "_capitanear_v_rel" ]. capitanía_n1 := n_intr_count_le & [ STEM < "capitanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capitanía_n_rel" ] ]. capitel_n1 := n_intr_count_le & [ STEM < "capitel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capitel_n_rel" ] ]. capitolio_n1 := n_intr_count_le & [ STEM < "capitolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capitolio_n_rel" ] ]. capitulación_n1 := n_intr_count_le & [ STEM < "capitulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capitulación_n_rel" ] ]. capitular_a1 := a_rel_nonprd_intr_le & [ STEM < "capitular" >, SYNSEM.LKEYS.KEYREL.PRED "_capitular_a_rel" ]. capitular_v := v_intr_le & [ STEM < "capitular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_capitular_v_rel" ] ]. capitán_n1 := n_intr_count_le & [ STEM < "capitán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_capitán_n_rel" ] ]. capota_n1 := n_intr_count_le & [ STEM < "capota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capota_n_rel" ] ]. capote_n1 := n_intr_count_le & [ STEM < "capote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capote_n_rel" ] ]. caprato_n1 := n_intr_count_le & [ STEM < "caprato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caprato_n_rel" ] ]. capricho_n1 := n_intr_count_le & [ STEM < "capricho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capricho_n_rel" ] ]. caprichosamente_x1 := av_i_spr_le & [ STEM < "caprichosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caprichosamente_x_rel" ]. caprichoso_a1 := a_qual_intr_ser_le & [ STEM < "caprichoso" >, SYNSEM.LKEYS.KEYREL.PRED "_caprichoso_a_rel" ]. capricornio_n1 := n_intr_count_le & [ STEM < "capricornio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_capricornio_n_rel" ] ]. caprilato_n1 := n_intr_count_le & [ STEM < "caprilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caprilato_n_rel" ] ]. caproato_n1 := n_intr_count_le & [ STEM < "caproato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caproato_n_rel" ] ]. capsular_a1 := a_rel_nonprd_intr_le & [ STEM < "capsular" >, SYNSEM.LKEYS.KEYREL.PRED "_capsular_a_rel" ]. capsulectomía_n1 := n_intr_count_le & [ STEM < "capsulectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capsulectomía_n_rel" ] ]. capsulitis_n1 := n_intr_uncount_le & [ STEM < "capsulitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capsulitis_n_rel" ] ]. capsulotomía_n1 := n_intr_count_le & [ STEM < "capsulotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_capsulotomía_n_rel" ] ]. capsómero_n1 := n_intr_count_le & [ STEM < "capsómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capsómero_n_rel" ] ]. captación_n1 := n_trans_le & [ STEM < "captación" >, SYNSEM.LKEYS.KEYREL.PRED "_captación_n_rel" ]. captador_n1 := n_intr_count_le & [ STEM < "captador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_captador_n_rel" ] ]. captador_n2 := n_subj-nom_le & [ STEM < "captador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_captador_n_rel" ] ]. captano_n1 := n_intr_count_le & [ STEM < "captano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_captano_n_rel" ] ]. captar_v1 := v_trans_cp_prop_fin_le & [ STEM < "captar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_captar_v_rel" ] ]. captar_v2 := v_trans_np_le & [ STEM < "captar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_captar_v_rel" ] ]. captividad_n1 := n_intr_uncount_le & [ STEM < "captividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_captividad_n_rel" ] ]. captura_n1 := n_trans_le & [ STEM < "captura" >, SYNSEM.LKEYS.KEYREL.PRED "_captura_n_rel" ]. capturar_v := v_trans_np_le & [ STEM < "capturar" >, SYNSEM.LKEYS.KEYREL.PRED "_capturar_v_rel" ]. capucha_n1 := n_intr_count_le & [ STEM < "capucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capucha_n_rel" ] ]. capuchino_n1 := n_intr_count_le & [ STEM < "capuchino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capuchino_n_rel" ] ]. capuchón_n1 := n_intr_count_le & [ STEM < "capuchón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capuchón_n_rel" ] ]. capullo_n1 := n_intr_count_le & [ STEM < "capullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capullo_n_rel" ] ]. capuz_n1 := n_intr_count_le & [ STEM < "capuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capuz_n_rel" ] ]. capítulo_n1 := n_intr_count_le & [ STEM < "capítulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_capítulo_n_rel" ] ]. capó_n1 := n_intr_count_le & [ STEM < "capó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_capó_n_rel" ] ]. capón_n1 := n_intr_count_le & [ STEM < "capón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_capón_n_rel" ] ]. caqui_n1 := n_intr_mass_le & [ STEM < "caqui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caqui_n_rel" ] ]. cara_a_cara_x1 := av_i_le & [ STEM < "cara_a_cara" >, SYNSEM.LKEYS.KEYREL.PRED "_cara_a_cara_x_rel" ]. cara_abajo_x1 := av_i_le & [ STEM < "cara_abajo" >, SYNSEM.LKEYS.KEYREL.PRED "_cara_abajo_x_rel" ]. cara_arriba_x1 := av_i_le & [ STEM < "cara_arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_cara_arriba_x_rel" ]. cara_n1 := n_intr_mass_le & [ STEM < "cara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cara_n_rel" ] ]. cara_n2 := n_ppcomp_count_le & [ STEM < "cara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cara_n_rel" ] ]. carabela_n1 := n_intr_count_le & [ STEM < "carabela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carabela_n_rel" ] ]. carabina_n1 := n_intr_count_le & [ STEM < "carabina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_carabina_n_rel" ] ]. carabinero_n1 := n_intr_count_le & [ STEM < "carabinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carabinero_n_rel" ] ]. caracol_n1 := n_intr_count_le & [ STEM < "caracol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caracol_n_rel" ] ]. caracolada_n1 := n_intr_count_le & [ STEM < "caracolada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caracolada_n_rel" ] ]. caracoleo_n1 := n_result_intr_le & [ STEM < "caracoleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caracoleo_n_rel" ] ]. caracterización_n1 := n_trans_le & [ STEM < "caracterización" >, SYNSEM.LKEYS.KEYREL.PRED "_caracterización_n_rel" ]. caracterizar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "caracterizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_caracterizar_v_rel" ] ]. caracterizar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "caracterizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_caracterizar_v_rel" ] ]. caracterizar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "caracterizar" >, SYNSEM.LKEYS.KEYREL.PRED "_caracterizar_v_rel" ]. caracterizar_v4 := v_trans_np_le & [ STEM < "caracterizar" >, SYNSEM.LKEYS.KEYREL.PRED "_caracterizar_v_rel" ]. caracterología_n1 := n_intr_uncount_le & [ STEM < "caracterología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caracterología_n_rel" ] ]. caracterológico_a1 := a_rel_nonprd_intr_le & [ STEM < "caracterológico" >, SYNSEM.LKEYS.KEYREL.PRED "_caracterológico_a_rel" ]. característica_n1 := n_intr_count_le & [ STEM < "característica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_característica_n_rel" ] ]. característicamente_x1 := av_i_spr_le & [ STEM < "característicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_característicamente_x_rel" ]. característico_a1 := a_qual_trans*_ser_le & [ STEM < "característico" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_característico_a_rel" ] ]. carajillo_n1 := n_intr_count_le & [ STEM < "carajillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carajillo_n_rel" ] ]. carambola_n1 := n_intr_count_le & [ STEM < "carambola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carambola_n_rel" ] ]. caramelizar_v := v_trans_np_le & [ STEM < "caramelizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, ARG2.SORT cnc_mat, PRED "_caramelizar_v_rel" ] ]. caramelo_n1 := n_intr_mass_le & [ STEM < "caramelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caramelo_n_rel" ] ]. caramillo_n1 := n_intr_count_le & [ STEM < "caramillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caramillo_n_rel" ] ]. caraqueño_n1 := n_intr_count_le & [ STEM < "caraqueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caraqueño_n_rel" ] ]. caravana_n1 := n_intr_count_le & [ STEM < "caravana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_caravana_n_rel" ] ]. caravanero_n1 := n_intr_count_le & [ STEM < "caravanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caravanero_n_rel" ] ]. carbamato_n1 := n_intr_count_le & [ STEM < "carbamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbamato_n_rel" ] ]. carbamida_n1 := n_intr_count_le & [ STEM < "carbamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbamida_n_rel" ] ]. carbanilida_n1 := n_intr_count_le & [ STEM < "carbanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbanilida_n_rel" ] ]. carbasona_n1 := n_intr_count_le & [ STEM < "carbasona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbasona_n_rel" ] ]. carbato_n1 := n_intr_count_le & [ STEM < "carbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbato_n_rel" ] ]. carbazol_n1 := n_intr_count_le & [ STEM < "carbazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbazol_n_rel" ] ]. carbeno_n1 := n_intr_count_le & [ STEM < "carbeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbeno_n_rel" ] ]. carbinol_n1 := n_intr_count_le & [ STEM < "carbinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbinol_n_rel" ] ]. carbocatión_n1 := n_intr_count_le & [ STEM < "carbocatión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carbocatión_n_rel" ] ]. carbocloración_n1 := n_trans_le & [ STEM < "carbocloración" >, SYNSEM.LKEYS.KEYREL.PRED "_carbocloración_n_rel" ]. carbocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "carbocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_carbocíclico_a_rel" ]. carbohidrasa_n1 := n_intr_count_le & [ STEM < "carbohidrasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbohidrasa_n_rel" ] ]. carbohidrato_n1 := n_intr_mass_le & [ STEM < "carbohidrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbohidrato_n_rel" ] ]. carbomicina_n1 := n_intr_count_le & [ STEM < "carbomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbomicina_n_rel" ] ]. carbonado_n1 := n_intr_count_le & [ STEM < "carbonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carbonado_n_rel" ] ]. carbonar_v := v_pron_intr_le & [ STEM < "carbonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, PRED "_carbonar_v_rel" ] ]. carbonatador_n1 := n_intr_count_le & [ STEM < "carbonatador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carbonatador_n_rel" ] ]. carbonatar_v := v_trans_np_le & [ STEM < "carbonatar" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonatar_v_rel" ]. carbonato_n1 := n_intr_mass_le & [ STEM < "carbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbonato_n_rel" ] ]. carboneo_n1 := n_trans_le & [ STEM < "carboneo" >, SYNSEM.LKEYS.KEYREL.PRED "_carboneo_n_rel" ]. carbonera_n1 := n_intr_count_le & [ STEM < "carbonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_carbonera_n_rel" ] ]. carbonero_a1 := a_rel_nonprd_intr_le & [ STEM < "carbonero" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonero_a_rel" ]. carbonero_n1 := n_intr_count_le & [ STEM < "carbonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carbonero_n_rel" ] ]. carbonilación_n1 := n_trans_le & [ STEM < "carbonilación" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonilación_n_rel" ]. carbonilla_n1 := n_intr_mass_le & [ STEM < "carbonilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carbonilla_n_rel" ] ]. carbonilo_n1 := n_intr_count_le & [ STEM < "carbonilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbonilo_n_rel" ] ]. carbonitruración_n1 := n_trans_le & [ STEM < "carbonitruración" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonitruración_n_rel" ]. carbonización_n1 := n_trans_le & [ STEM < "carbonización" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonización_n_rel" ]. carbonizar_v := v_trans_np_caus_le & [ STEM < "carbonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonizar_v_rel" ]. carbono_n1 := n_intr_mass_le & [ STEM < "carbono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carbono_n_rel" ] ]. carbonífero_a1 := a_rel_nonprd_intr_le & [ STEM < "carbonífero" >, SYNSEM.LKEYS.KEYREL.PRED "_carbonífero_a_rel" ]. carborundo_n1 := n_intr_count_le & [ STEM < "carborundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carborundo_n_rel" ] ]. carboxihemoglobina_n1 := n_intr_count_le & [ STEM < "carboxihemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carboxihemoglobina_n_rel" ] ]. carboximetilcelulosa_n1 := n_intr_count_le & [ STEM < "carboximetilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carboximetilcelulosa_n_rel" ] ]. carboxílico_a1 := a_rel_nonprd_intr_le & [ STEM < "carboxílico" >, SYNSEM.LKEYS.KEYREL.PRED "_carboxílico_a_rel" ]. carbunclo_n1 := n_intr_count_le & [ STEM < "carbunclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_carbunclo_n_rel" ] ]. carbunco_n1 := n_intr_uncount_le & [ STEM < "carbunco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carbunco_n_rel" ] ]. carburación_n1 := n_trans_le & [ STEM < "carburación" >, SYNSEM.LKEYS.KEYREL.PRED "_carburación_n_rel" ]. carburador_n1 := n_intr_count_le & [ STEM < "carburador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_carburador_n_rel" ] ]. carburante_n1 := n_intr_mass_le & [ STEM < "carburante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carburante_n_rel" ] ]. carburo_n1 := n_intr_mass_le & [ STEM < "carburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carburo_n_rel" ] ]. carbámico_a1 := a_rel_nonprd_intr_le & [ STEM < "carbámico" >, SYNSEM.LKEYS.KEYREL.PRED "_carbámico_a_rel" ]. carbón_n1 := n_intr_mass-or-count_le & [ STEM < "carbón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_carbón_n_rel" ] ]. carbónicamente_x1 := av_i_spr_le & [ STEM < "carbónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_carbónicamente_x_rel" ]. carbónico_a1 := a_rel_nonprd_intr_le & [ STEM < "carbónico" >, SYNSEM.LKEYS.KEYREL.PRED "_carbónico_a_rel" ]. carbúnculo_n1 := n_intr_mass-or-count_le & [ STEM < "carbúnculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_carbúnculo_n_rel" ] ]. carcaj_n1 := n_intr_count_le & [ STEM < "carcaj" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carcaj_n_rel" ] ]. carcajada_n1 := n_intr_count_le & [ STEM < "carcajada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carcajada_n_rel" ] ]. carcasa_n1 := n_intr_count_le & [ STEM < "carcasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carcasa_n_rel" ] ]. carcelario_a1 := a_rel_nonprd_intr_le & [ STEM < "carcelario" >, SYNSEM.LKEYS.KEYREL.PRED "_carcelario_a_rel" ]. carcelero_n1 := n_intr_count_le & [ STEM < "carcelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carcelero_n_rel" ] ]. carcinoembrionario_a1 := a_rel_nonprd_intr_le & [ STEM < "carcinoembrionario" >, SYNSEM.LKEYS.KEYREL.PRED "_carcinoembrionario_a_rel" ]. carcinogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "carcinogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_carcinogénico_a_rel" ]. carcinoma_n1 := n_intr_count_le & [ STEM < "carcinoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carcinoma_n_rel" ] ]. carcinógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "carcinógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_carcinógeno_a_rel" ]. carcoma_n1 := n_intr_count_le & [ STEM < "carcoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_ani, PRED "_carcoma_n_rel" ] ]. carcomer_v1 := v_intr_io*_le & [ STEM < "carcomer" >, SYNSEM.LKEYS.KEYREL.PRED "_carcomer_v_rel" ]. carcomer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "carcomer" >, SYNSEM.LKEYS.KEYREL.PRED "_carcomer_v_rel" ]. carcomer_v3 := v_trans_np_le & [ STEM < "carcomer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_cnc_mat, ARG2.SORT non-hum, PRED "_carcomer_v_rel" ] ]. card_d := nu_card-det_le & [ STEM < "z" > ]. card_p := nu_card-prn_le & [ STEM < "z" > ]. carda_n1 := n_trans_le & [ STEM < "carda" >, SYNSEM.LKEYS.KEYREL.PRED "_carda_n_rel" ]. cardado_n1 := n_trans_le & [ STEM < "cardado" >, SYNSEM.LKEYS.KEYREL.PRED "_cardado_n_rel" ]. cardadura_n1 := n_trans_le & [ STEM < "cardadura" >, SYNSEM.LKEYS.KEYREL.PRED "_cardadura_n_rel" ]. cardamomo_n1 := n_intr_count_le & [ STEM < "cardamomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cardamomo_n_rel" ] ]. cardar_v := v_trans_np*_le & [ STEM < "cardar" >, SYNSEM.LKEYS.KEYREL.PRED "_cardar_v_rel" ]. cardenal_n1 := n_intr_count_le & [ STEM < "cardenal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cardenal_n_rel" ] ]. cardencha_n1 := n_intr_count_le & [ STEM < "cardencha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cardencha_n_rel" ] ]. cardenillo_n1 := n_intr_mass_le & [ STEM < "cardenillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cardenillo_n_rel" ] ]. cardería_n1 := n_intr_count_le & [ STEM < "cardería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cardería_n_rel" ] ]. cardiaco_a1 := a_rel_nonprd_intr_le & [ STEM < "cardiaco" >, SYNSEM.LKEYS.KEYREL.PRED "_cardiaco_a_rel" ]. cardial_a1 := a_rel_nonprd_intr_le & [ STEM < "cardial" >, SYNSEM.LKEYS.KEYREL.PRED "_cardial_a_rel" ]. cardias_n1 := n_ppcomp_count_le & [ STEM < "cardias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cardias_n_rel" ] ]. cardillo_n1 := n_intr_mass_le & [ STEM < "cardillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cardillo_n_rel" ] ]. cardinal_a1 := a_rel_nonprd_intr_le & [ STEM < "cardinal" >, SYNSEM.LKEYS.KEYREL.PRED "_cardinal_a_rel" ]. cardinalidad_n1 := n_intr_count_le & [ STEM < "cardinalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardinalidad_n_rel" ] ]. cardiodepresión_n1 := n_intr_count_le & [ STEM < "cardiodepresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardiodepresión_n_rel" ] ]. cardiografía_n1 := n_intr_count_le & [ STEM < "cardiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cardiografía_n_rel" ] ]. cardiograma_n1 := n_intr_count_le & [ STEM < "cardiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardiograma_n_rel" ] ]. cardioide_n1 := n_intr_count_le & [ STEM < "cardioide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardioide_n_rel" ] ]. cardiología_n1 := n_intr_uncount_le & [ STEM < "cardiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardiología_n_rel" ] ]. cardiopatía_n1 := n_intr_uncount_pl_le & [ STEM < "cardiopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardiopatía_n_rel" ] ]. cardioprotector_a1 := a_rel_nonprd_intr_le & [ STEM < "cardioprotector" >, SYNSEM.LKEYS.KEYREL.PRED "_cardioprotector_a_rel" ]. cardioscopio_n1 := n_intr_count_le & [ STEM < "cardioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cardioscopio_n_rel" ] ]. cardiotoxicidad_n1 := n_intr_uncount_le & [ STEM < "cardiotoxicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cardiotoxicidad_n_rel" ] ]. cardiotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "cardiotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_cardiotónico_a_rel" ]. cardiotóxico_a1 := a_rel_nonprd_intr_le & [ STEM < "cardiotóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_cardiotóxico_a_rel" ]. cardiovascular_a1 := a_rel_nonprd_intr_le & [ STEM < "cardiovascular" >, SYNSEM.LKEYS.KEYREL.PRED "_cardiovascular_a_rel" ]. cardiógrafo_n1 := n_intr_count_le & [ STEM < "cardiógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cardiógrafo_n_rel" ] ]. cardiólogo_n1 := n_intr_count_le & [ STEM < "cardiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cardiólogo_n_rel" ] ]. cardo_n1 := n_intr_mass_le & [ STEM < "cardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cardo_n_rel" ] ]. cardán_n1 := n_intr_count_le & [ STEM < "cardán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cardán_n_rel" ] ]. cardíaco_a1 := a_rel_nonprd_intr_le & [ STEM < "cardíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_cardíaco_a_rel" ]. carear_v1 := v_pron_intr_mrkd_np_le & [ STEM < "carear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_carear_v_rel" ] ]. carear_v2 := v_trans_np_mrkd_np*_le & [ STEM < "carear" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_carear_v_rel" ] ]. carecer_v1 := v_intr_mrkd_np_le & [ STEM < "carecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_carecer_v_rel" ] ]. carecer_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "carecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_carecer_v_rel" ] ]. carena_n1 := n_intr_count_le & [ STEM < "carena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carena_n_rel" ] ]. carenado_n1 := n_trans_le & [ STEM < "carenado" >, SYNSEM.LKEYS.KEYREL.PRED "_carenado_n_rel" ]. carenaje_n1 := n_intr_count_le & [ STEM < "carenaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carenaje_n_rel" ] ]. carencia_n1 := n_intr_mass-or-count_le & [ STEM < "carencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carencia_n_rel" ] ]. carenero_n1 := n_intr_count_le & [ STEM < "carenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carenero_n_rel" ] ]. carente_a1 := a_qual_trans*_ser_le & [ STEM < "carente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_carente_a_rel" ] ]. careo_n1 := n_trans_le & [ STEM < "careo" >, SYNSEM.LKEYS.KEYREL.PRED "_careo_n_rel" ]. carero_a1 := a_qual_intr_ser_le & [ STEM < "carero" >, SYNSEM.LKEYS.KEYREL.PRED "_carero_a_rel" ]. carestía_n1 := n_intr_uncount_pl_le & [ STEM < "carestía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carestía_n_rel" ] ]. careta_n1 := n_intr_count_le & [ STEM < "careta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_careta_n_rel" ] ]. careto_n1 := n_intr_count_le & [ STEM < "careto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_careto_n_rel" ] ]. carga_n1 := n_trans_le & [ STEM < "carga" >, SYNSEM.LKEYS.KEYREL.PRED "_carga_n_rel" ]. carga_n2 := n_result_intr_ppcomp_le & [ STEM < "carga" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_carga_n_rel" ] ]. cargabilidad_n1 := n_intr_uncount_le & [ STEM < "cargabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cargabilidad_n_rel" ] ]. cargable_a1 := a_rel_nonprd_intr_le & [ STEM < "cargable" >, SYNSEM.LKEYS.KEYREL.PRED "_cargable_a_rel" ]. cargador_a1 := a_rel_nonprd_intr_le & [ STEM < "cargador" >, SYNSEM.LKEYS.KEYREL.PRED "_cargador_a_rel" ]. cargador_n1 := n_intr_count_le & [ STEM < "cargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cargador_n_rel" ] ]. cargadora_n1 := n_intr_count_le & [ STEM < "cargadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cargadora_n_rel" ] ]. cargamento_n1 := n_trans_le & [ STEM < "cargamento" >, SYNSEM.LKEYS.KEYREL.PRED "_cargamento_n_rel" ]. cargante_a1 := a_rel_nonprd_intr_le & [ STEM < "cargante" >, SYNSEM.LKEYS.KEYREL.PRED "_cargante_a_rel" ]. cargar_v1 := v_intr_io*_le & [ STEM < "cargar" >, SYNSEM.LKEYS.KEYREL.PRED "_cargar_v_rel" ]. cargar_v2 := v_intr_mrkd_np_le & [ STEM < "cargar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_cargar_v_rel" ] ]. cargar_v3 := v_trans_np_lcomp_loc_caus_le & [ STEM < "cargar" >, SYNSEM.LKEYS.KEYREL.PRED "_cargar_v_rel" ]. cargar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "cargar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_cargar_v_rel" ] ]. cargar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cargar" >, SYNSEM.LKEYS.KEYREL.PRED "_cargar_v_rel" ]. cargo_n1 := n_intr_count_le & [ STEM < "cargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_cargo_n_rel" ] ]. carguero_n1 := n_intr_count_le & [ STEM < "carguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_carguero_n_rel" ] ]. caria_n1 := n_intr_count_le & [ STEM < "caria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_caria_n_rel" ] ]. cariar_v1 := v_pron_intr_le & [ STEM < "cariar" >, SYNSEM.LKEYS.KEYREL.PRED "_cariar_v_rel" ]. cariar_v2 := v_trans_np_le & [ STEM < "cariar" >, SYNSEM.LKEYS.KEYREL.PRED "_cariar_v_rel" ]. caribeño_a1 := a_rel_prd_le & [ STEM < "caribeño" >, SYNSEM.LKEYS.KEYREL.PRED "_caribeño_a_rel" ]. caribú_n1 := n_intr_count_le & [ STEM < "caribú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_caribú_n_rel" ] ]. caricatura_n1 := n_intr_count_le & [ STEM < "caricatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caricatura_n_rel" ] ]. caricaturesco_a1 := a_rel_nonprd_intr_le & [ STEM < "caricaturesco" >, SYNSEM.LKEYS.KEYREL.PRED "_caricaturesco_a_rel" ]. caricaturista_n1 := n_intr_count_le & [ STEM < "caricaturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caricaturista_n_rel" ] ]. caricaturizar_v := v_trans_np_caus_le & [ STEM < "caricaturizar" >, SYNSEM.LKEYS.KEYREL.PRED "_caricaturizar_v_rel" ]. caricia_n1 := n_intr_count_le & [ STEM < "caricia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caricia_n_rel" ] ]. caridad_n1 := n_intr_mass_le & [ STEM < "caridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caridad_n_rel" ] ]. caries_n1 := n_intr_count_le & [ STEM < "caries" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caries_n_rel" ] ]. carillón_n1 := n_intr_count_le & [ STEM < "carillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carillón_n_rel" ] ]. carina_n1 := n_intr_count_le & [ STEM < "carina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carina_n_rel" ] ]. carioca_a1 := a_qual_intr_scopal_le & [ STEM < "carioca" >, SYNSEM.LKEYS.KEYREL.PRED "_carioca_a_rel" ]. carioca_n1 := n_intr_count_le & [ STEM < "carioca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carioca_n_rel" ] ]. cariocinesis_n1 := n_intr_uncount_le & [ STEM < "cariocinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariocinesis_n_rel" ] ]. cariofileno_n1 := n_intr_count_le & [ STEM < "cariofileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cariofileno_n_rel" ] ]. cariogamia_n1 := n_intr_uncount_le & [ STEM < "cariogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariogamia_n_rel" ] ]. cariogénesis_n1 := n_intr_uncount_le & [ STEM < "cariogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariogénesis_n_rel" ] ]. cariogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "cariogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_cariogénico_a_rel" ]. cariología_n1 := n_intr_uncount_le & [ STEM < "cariología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariología_n_rel" ] ]. carioquinesis_n1 := n_intr_uncount_le & [ STEM < "carioquinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carioquinesis_n_rel" ] ]. cariosoma_n1 := n_intr_count_le & [ STEM < "cariosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariosoma_n_rel" ] ]. cariostático_a1 := a_rel_nonprd_intr_le & [ STEM < "cariostático" >, SYNSEM.LKEYS.KEYREL.PRED "_cariostático_a_rel" ]. cariotina_n1 := n_intr_count_le & [ STEM < "cariotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cariotina_n_rel" ] ]. cariotipo_n1 := n_intr_count_le & [ STEM < "cariotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariotipo_n_rel" ] ]. carisma_n1 := n_intr_mass_le & [ STEM < "carisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carisma_n_rel" ] ]. carismático_a1 := a_qual_intr_ser_le & [ STEM < "carismático" >, SYNSEM.LKEYS.KEYREL.PRED "_carismático_a_rel" ]. caritativamente_x1 := av_i_spr_le & [ STEM < "caritativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caritativamente_x_rel" ]. caritativo_a1 := a_qual_intr_ser_le & [ STEM < "caritativo" >, SYNSEM.LKEYS.KEYREL.PRED "_caritativo_a_rel" ]. cariz_n1 := n_intr_count_le & [ STEM < "cariz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariz_n_rel" ] ]. cariátide_n1 := n_intr_count_le & [ STEM < "cariátide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cariátide_n_rel" ] ]. cariño_n1 := n_intr_mass_le & [ STEM < "cariño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_cariño_n_rel" ] ]. cariñosamente_x1 := av_i_spr_le & [ STEM < "cariñosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cariñosamente_x_rel" ]. cariñoso_a1 := a_qual_intr_scopal_le & [ STEM < "cariñoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cariñoso_a_rel" ]. cariógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "cariógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cariógeno_a_rel" ]. cariólisis_n1 := n_intr_uncount_le & [ STEM < "cariólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cariólisis_n_rel" ] ]. carleta_n1 := n_intr_count_le & [ STEM < "carleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carleta_n_rel" ] ]. carlinga_n1 := n_intr_count_le & [ STEM < "carlinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_carlinga_n_rel" ] ]. carmesí_a1 := a_qual_intr_ser_le & [ STEM < "carmesí" >, SYNSEM.LKEYS.KEYREL.PRED "_carmesí_a_rel" ]. carminativo_a1 := a_rel_nonprd_intr_le & [ STEM < "carminativo" >, SYNSEM.LKEYS.KEYREL.PRED "_carminativo_a_rel" ]. carmín_n1 := n_intr_mass_le & [ STEM < "carmín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carmín_n_rel" ] ]. carnal_a1 := a_rel_nonprd_intr_le & [ STEM < "carnal" >, SYNSEM.LKEYS.KEYREL.PRED "_carnal_a_rel" ]. carnalita_n1 := n_intr_count_le & [ STEM < "carnalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carnalita_n_rel" ] ]. carnalmente_x1 := av_i_spr_le & [ STEM < "carnalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_carnalmente_x_rel" ]. carnauba_n1 := n_intr_count_le & [ STEM < "carnauba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_carnauba_n_rel" ] ]. carnaval_n1 := n_intr_count_le & [ STEM < "carnaval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_carnaval_n_rel" ] ]. carne_n1 := n_intr_mass_le & [ STEM < "carne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carne_n_rel" ] ]. carnero_n1 := n_intr_count_le & [ STEM < "carnero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_carnero_n_rel" ] ]. carnet_n1 := n_intr_count_le & [ STEM < "carnet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carnet_n_rel" ] ]. carnicero_n1 := n_intr_count_le & [ STEM < "carnicero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carnicero_n_rel" ] ]. carnicería_n1 := n_intr_count_le & [ STEM < "carnicería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_carnicería_n_rel" ] ]. carnoso_a1 := a_qual_intr_scopal_le & [ STEM < "carnoso" >, SYNSEM.LKEYS.KEYREL.PRED "_carnoso_a_rel" ]. carnotita_n1 := n_intr_count_le & [ STEM < "carnotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carnotita_n_rel" ] ]. carné_n1 := n_intr_count_le & [ STEM < "carné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carné_n_rel" ] ]. carnívoro_a1 := a_rel_nonprd_intr_le & [ STEM < "carnívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_carnívoro_a_rel" ]. carnívoro_n1 := n_intr_count_le & [ STEM < "carnívoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_carnívoro_n_rel" ] ]. caro_a1 := a_qual_intr_scopal_le & [ STEM < "caro" >, SYNSEM.LKEYS.KEYREL.PRED "_caro_a_rel" ]. carolingio_a1 := a_rel_prd_le & [ STEM < "carolingio" >, SYNSEM.LKEYS.KEYREL.PRED "_carolingio_a_rel" ]. caroteno_n1 := n_intr_count_le & [ STEM < "caroteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caroteno_n_rel" ] ]. carotenoide_n1 := n_intr_count_le & [ STEM < "carotenoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carotenoide_n_rel" ] ]. caroticotimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "caroticotimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_caroticotimpánico_a_rel" ]. carotidotimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "carotidotimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_carotidotimpánico_a_rel" ]. carotídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "carotídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_carotídeo_a_rel" ]. carpa_n1 := n_intr_count_le & [ STEM < "carpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_carpa_n_rel" ] ]. carpanel_a1 := a_rel_nonprd_intr_le & [ STEM < "carpanel" >, SYNSEM.LKEYS.KEYREL.PRED "_carpanel_a_rel" ]. carpe_diem_x1 := av_i_le & [ STEM < "carpe_diem" >, SYNSEM.LKEYS.KEYREL.PRED "_carpe_diem_x_rel" ]. carpe_n1 := n_intr_count_le & [ STEM < "carpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_carpe_n_rel" ] ]. carpelo_n1 := n_intr_count_le & [ STEM < "carpelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_carpelo_n_rel" ] ]. carpeta_n1 := n_intr_count_le & [ STEM < "carpeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carpeta_n_rel" ] ]. carpetazo_n1 := n_intr_count_le & [ STEM < "carpetazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carpetazo_n_rel" ] ]. carpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "carpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_carpiano_a_rel" ]. carpintero_n1 := n_intr_count_le & [ STEM < "carpintero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carpintero_n_rel" ] ]. carpintería_n1 := n_intr_mass-or-count_le & [ STEM < "carpintería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_carpintería_n_rel" ] ]. carpo_n1 := n_intr_count_le & [ STEM < "carpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carpo_n_rel" ] ]. carpometacarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "carpometacarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_carpometacarpiano_a_rel" ]. carra_n1 := n_intr_count_le & [ STEM < "carra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carra_n_rel" ] ]. carraca_n1 := n_intr_count_le & [ STEM < "carraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carraca_n_rel" ] ]. carrascal_n1 := n_intr_count_le & [ STEM < "carrascal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_carrascal_n_rel" ] ]. carrasco_n1 := n_intr_count_le & [ STEM < "carrasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_carrasco_n_rel" ] ]. carrera_n1 := n_intr_count_le & [ STEM < "carrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carrera_n_rel" ] ]. carrerilla_n1 := n_intr_count_le & [ STEM < "carrerilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carrerilla_n_rel" ] ]. carreta_n1 := n_intr_count_le & [ STEM < "carreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_carreta_n_rel" ] ]. carretada_n1 := n_pseudo-part_le & [ STEM < "carretada" >, SYNSEM.LKEYS.KEYREL.PRED "_carretada_n_rel" ]. carrete_n1 := n_intr_count_le & [ STEM < "carrete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carrete_n_rel" ] ]. carretel_n1 := n_intr_count_le & [ STEM < "carretel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carretel_n_rel" ] ]. carretera_n1 := n_intr_count_le & [ STEM < "carretera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_carretera_n_rel" ] ]. carretero_n1 := n_intr_count_le & [ STEM < "carretero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carretero_n_rel" ] ]. carretilla_n1 := n_intr_count_le & [ STEM < "carretilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carretilla_n_rel" ] ]. carretón_n1 := n_intr_count_le & [ STEM < "carretón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carretón_n_rel" ] ]. carril_n1 := n_intr_count_le & [ STEM < "carril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_carril_n_rel" ] ]. carrilero_n1 := n_intr_count_le & [ STEM < "carrilero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carrilero_n_rel" ] ]. carrillera_n1 := n_intr_count_le & [ STEM < "carrillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carrillera_n_rel" ] ]. carrillo_n1 := n_ppcomp_count_le & [ STEM < "carrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_carrillo_n_rel" ] ]. carrillón_n1 := n_intr_count_le & [ STEM < "carrillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carrillón_n_rel" ] ]. carrito_n1 := n_intr_count_le & [ STEM < "carrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carrito_n_rel" ] ]. carrizo_n1 := n_intr_count_le & [ STEM < "carrizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_carrizo_n_rel" ] ]. carro_n1 := n_intr_count_le & [ STEM < "carro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carro_n_rel" ] ]. carrocería_n1 := n_intr_count_le & [ STEM < "carrocería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carrocería_n_rel" ] ]. carroza_n1 := n_intr_count_le & [ STEM < "carroza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carroza_n_rel" ] ]. carroña_n1 := n_intr_mass_le & [ STEM < "carroña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_carroña_n_rel" ] ]. carroñero_a1 := a_rel_nonprd_intr_le & [ STEM < "carroñero" >, SYNSEM.LKEYS.KEYREL.PRED "_carroñero_a_rel" ]. carruaje_n1 := n_intr_count_le & [ STEM < "carruaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_carruaje_n_rel" ] ]. carrusel_n1 := n_intr_count_le & [ STEM < "carrusel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_carrusel_n_rel" ] ]. carta-orden_n1 := n_intr_count_le & [ STEM < "carta-orden" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_carta-orden_n_rel" ] ]. carta_n1 := n_intr_count_le & [ STEM < "carta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_carta_n_rel" ] ]. cartabón_n1 := n_intr_count_le & [ STEM < "cartabón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartabón_n_rel" ] ]. cartagenero_n1 := n_intr_count_le & [ STEM < "cartagenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cartagenero_n_rel" ] ]. cartapacio_n1 := n_intr_count_le & [ STEM < "cartapacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartapacio_n_rel" ] ]. cartear_v := v_pron_intr_mrkd_np*_le & [ STEM < "cartear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_cartear_v_rel" ] ]. cartel_n1 := n_intr_count_le & [ STEM < "cartel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cartel_n_rel" ] ]. cartela_n1 := n_intr_count_le & [ STEM < "cartela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartela_n_rel" ] ]. cartelera_n1 := n_intr_count_le & [ STEM < "cartelera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartelera_n_rel" ] ]. cartelito_n1 := n_intr_count_le & [ STEM < "cartelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartelito_n_rel" ] ]. cartelización_n1 := n_intr_uncount_le & [ STEM < "cartelización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartelización_n_rel" ] ]. cartera_n1 := n_intr_count_le & [ STEM < "cartera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartera_n_rel" ] ]. carterista_n1 := n_intr_count_le & [ STEM < "carterista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_carterista_n_rel" ] ]. cartero_n1 := n_intr_count_le & [ STEM < "cartero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cartero_n_rel" ] ]. cartesiano_a1 := a_rel_nonprd_intr_le & [ STEM < "cartesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_cartesiano_a_rel" ]. cartilaginoso_a1 := a_qual_intr_scopal_le & [ STEM < "cartilaginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cartilaginoso_a_rel" ]. cartilla_n1 := n_intr_count_le & [ STEM < "cartilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartilla_n_rel" ] ]. cartismo_n1 := n_intr_uncount_le & [ STEM < "cartismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartismo_n_rel" ] ]. cartodiagrama_n1 := n_intr_count_le & [ STEM < "cartodiagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartodiagrama_n_rel" ] ]. cartografiar_v := v_trans_np_le & [ STEM < "cartografiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_loc, PRED "_cartografiar_v_rel" ] ]. cartografía_n1 := n_trans_le & [ STEM < "cartografía" >, SYNSEM.LKEYS.KEYREL.PRED "_cartografía_n_rel" ]. cartograma_n1 := n_intr_count_le & [ STEM < "cartograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartograma_n_rel" ] ]. cartográficamente_x1 := av_i_spr_le & [ STEM < "cartográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cartográficamente_x_rel" ]. cartográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cartográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cartográfico_a_rel" ]. cartología_n1 := n_intr_uncount_le & [ STEM < "cartología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartología_n_rel" ] ]. cartomancia_n1 := n_intr_uncount_le & [ STEM < "cartomancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartomancia_n_rel" ] ]. cartometría_n1 := n_intr_uncount_le & [ STEM < "cartometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartometría_n_rel" ] ]. cartonaje_n1 := n_intr_uncount_le & [ STEM < "cartonaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cartonaje_n_rel" ] ]. cartoteca_n1 := n_intr_count_le & [ STEM < "cartoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cartoteca_n_rel" ] ]. cartuchera_n1 := n_intr_count_le & [ STEM < "cartuchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartuchera_n_rel" ] ]. cartucho_n1 := n_intr_count_le & [ STEM < "cartucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartucho_n_rel" ] ]. cartulina_n1 := n_intr_mass_le & [ STEM < "cartulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartulina_n_rel" ] ]. cartílago_n1 := n_intr_mass_le & [ STEM < "cartílago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cartílago_n_rel" ] ]. cartógrafo_n1 := n_intr_count_le & [ STEM < "cartógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cartógrafo_n_rel" ] ]. cartón_n1 := n_intr_mass-or-count_le & [ STEM < "cartón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cartón_n_rel" ] ]. carvacrol_n1 := n_intr_mass-or-count_le & [ STEM < "carvacrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_carvacrol_n_rel" ] ]. carvedilol_n1 := n_intr_count_le & [ STEM < "carvedilol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_carvedilol_n_rel" ] ]. carvona_n1 := n_intr_mass-or-count_le & [ STEM < "carvona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_carvona_n_rel" ] ]. carácter_n1 := n_intr_count_le & [ STEM < "carácter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_carácter_n_rel" ] ]. carámbano_n1 := n_intr_count_le & [ STEM < "carámbano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carámbano_n_rel" ] ]. carátula_n1 := n_intr_count_le & [ STEM < "carátula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carátula_n_rel" ] ]. carótida_n1 := n_intr_count_le & [ STEM < "carótida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carótida_n_rel" ] ]. carótido_a1 := a_rel_nonprd_intr_le & [ STEM < "carótido" >, SYNSEM.LKEYS.KEYREL.PRED "_carótido_a_rel" ]. carúncula_n1 := n_intr_count_le & [ STEM < "carúncula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_carúncula_n_rel" ] ]. casa_n1 := n_intr_count_le & [ STEM < "casa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_casa_n_rel" ] ]. casaca_n1 := n_intr_count_le & [ STEM < "casaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casaca_n_rel" ] ]. casación_n1 := n_trans_le & [ STEM < "casación" >, SYNSEM.LKEYS.KEYREL.PRED "_casación_n_rel" ]. casadero_a1 := a_qual_intr_ser_le & [ STEM < "casadero" >, SYNSEM.LKEYS.KEYREL.PRED "_casadero_a_rel" ]. casal_n1 := n_intr_count_le & [ STEM < "casal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_casal_n_rel" ] ]. casamata_n1 := n_intr_count_le & [ STEM < "casamata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casamata_n_rel" ] ]. casamiento_n1 := n_trans_le & [ STEM < "casamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_casamiento_n_rel" ]. casar_v1 := v_trans_np_mrkd_np_caus_le & [ STEM < "casar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_casar_v_rel" ] ]. casar_v2 := v_intr_mrkd_np*_le & [ STEM < "casar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_casar_v_rel" ] ]. cascabel_n1 := n_intr_count_le & [ STEM < "cascabel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascabel_n_rel" ] ]. cascada_n1 := n_intr_count_le & [ STEM < "cascada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascada_n_rel" ] ]. cascajo_n1 := n_intr_count_le & [ STEM < "cascajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cascajo_n_rel" ] ]. cascanueces_n1 := n_intr_count_le & [ STEM < "cascanueces" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascanueces_n_rel" ] ]. cascar_v := v_trans_np*_le & [ STEM < "cascar" >, SYNSEM.LKEYS.KEYREL.PRED "_cascar_v_rel" ]. cascarilla_n1 := n_intr_mass_le & [ STEM < "cascarilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascarilla_n_rel" ] ]. cascarón_n1 := n_intr_count_le & [ STEM < "cascarón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascarón_n_rel" ] ]. casco_n1 := n_intr_count_le & [ STEM < "casco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_casco_n_rel" ] ]. cascote_n1 := n_intr_count_le & [ STEM < "cascote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cascote_n_rel" ] ]. caseinógeno_n1 := n_intr_count_le & [ STEM < "caseinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caseinógeno_n_rel" ] ]. caseoso_a1 := a_rel_nonprd_intr_le & [ STEM < "caseoso" >, SYNSEM.LKEYS.KEYREL.PRED "_caseoso_a_rel" ]. casero_a1 := a_qual_intr_scopal_le & [ STEM < "casero" >, SYNSEM.LKEYS.KEYREL.PRED "_casero_a_rel" ]. caserío_n1 := n_intr_count_le & [ STEM < "caserío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_caserío_n_rel" ] ]. caserón_n1 := n_intr_count_le & [ STEM < "caserón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_caserón_n_rel" ] ]. caseta_n1 := n_intr_count_le & [ STEM < "caseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caseta_n_rel" ] ]. casete_n1 := n_intr_count_le & [ STEM < "casete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_casete_n_rel" ] ]. casetón_n1 := n_intr_count_le & [ STEM < "casetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casetón_n_rel" ] ]. caseína_n1 := n_intr_mass_le & [ STEM < "caseína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caseína_n_rel" ] ]. casi_geostrófico_x1 := av_i_le & [ STEM < "casi_geostrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_casi_geostrófico_x_rel" ]. casi_que_sc := sc_prop_fin_le & [ STEM < "casi_que" >, SYNSEM.LKEYS.KEYREL.PRED "_casi_que_x_subord_rel" ]. casi_x1 := av_qnt-deg_det_le & [ STEM < "casi" >, SYNSEM.LKEYS.KEYREL.PRED "_casi_x_deg_rel" ]. casi_x2 := av_qnt-deg_casi_le & [ STEM < "casi" >, SYNSEM.LKEYS.KEYREL.PRED "_casi_x_deg_rel" ]. casidomicilio_n1 := n_intr_count_le & [ STEM < "casidomicilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casidomicilio_n_rel" ] ]. casilla_n1 := n_intr_count_le & [ STEM < "casilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casilla_n_rel" ] ]. casillero_n1 := n_intr_count_le & [ STEM < "casillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casillero_n_rel" ] ]. casino_n1 := n_intr_count_le & [ STEM < "casino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_casino_n_rel" ] ]. casita_n1 := n_intr_count_le & [ STEM < "casita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_casita_n_rel" ] ]. casiterita_n1 := n_intr_count_le & [ STEM < "casiterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_casiterita_n_rel" ] ]. caso_n1 := n_intr_count_le & [ STEM < "caso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caso_n_rel" ] ]. caspa_n1 := n_intr_mass_le & [ STEM < "caspa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caspa_n_rel" ] ]. casquete_n1 := n_intr_count_le & [ STEM < "casquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_casquete_n_rel" ] ]. casquijo_n1 := n_intr_count_le & [ STEM < "casquijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casquijo_n_rel" ] ]. casquillo_n1 := n_intr_count_le & [ STEM < "casquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_casquillo_n_rel" ] ]. casquivano_a1 := a_qual_intr_ser_le & [ STEM < "casquivano" >, SYNSEM.LKEYS.KEYREL.PRED "_casquivano_a_rel" ]. cassette_n1 := n_intr_count_le & [ STEM < "cassette" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cassette_n_rel" ] ]. casta_n1 := n_intr_coll_le & [ STEM < "casta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_casta_n_rel" ] ]. castaña_n1 := n_intr_mass_le & [ STEM < "castaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_castaña_n_rel" ] ]. castañada_n1 := n_intr_count_le & [ STEM < "castañada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castañada_n_rel" ] ]. castañar_n1 := n_intr_count_le & [ STEM < "castañar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_castañar_n_rel" ] ]. castañetear_v := v_trans_np*_le & [ STEM < "castañetear" >, SYNSEM.LKEYS.KEYREL.PRED "_castañetear_v_rel" ]. castañeteo_n1 := n_result_intr_le & [ STEM < "castañeteo" >, SYNSEM.LKEYS.KEYREL.PRED "_castañeteo_n_rel" ]. castaño_a1 := a_qual_intr_ser_le & [ STEM < "castaño" >, SYNSEM.LKEYS.KEYREL.PRED "_castaño_a_rel" ]. castaño_n1 := n_intr_count_le & [ STEM < "castaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_castaño_n_rel" ] ]. castañuela_n1 := n_intr_count_le & [ STEM < "castañuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_castañuela_n_rel" ] ]. castellanismo_n1 := n_intr_mass-or-count_le & [ STEM < "castellanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castellanismo_n_rel" ] ]. castellanización_n1 := n_trans_le & [ STEM < "castellanización" >, SYNSEM.LKEYS.KEYREL.PRED "_castellanización_n_rel" ]. castellano_a1 := a_rel_prd_le & [ STEM < "castellano" >, SYNSEM.LKEYS.KEYREL.PRED "_castellano_a_rel" ]. castellano_n1 := n_intr_uncount_le & [ STEM < "castellano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castellano_n_rel" ] ]. castellanohablante_a1 := a_rel_prd_le & [ STEM < "castellanohablante" >, SYNSEM.LKEYS.KEYREL.PRED "_castellanohablante_a_rel" ]. castellanohablante_n1 := n_intr_count_le & [ STEM < "castellanohablante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castellanohablante_n_rel" ] ]. castellanoparlante_n1 := n_intr_count_le & [ STEM < "castellanoparlante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_castellanoparlante_n_rel" ] ]. castellonense_a1 := a_rel_prd_le & [ STEM < "castellonense" >, SYNSEM.LKEYS.KEYREL.PRED "_castellonense_a_rel" ]. castellonense_n1 := n_intr_count_le & [ STEM < "castellonense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_castellonense_n_rel" ] ]. casticidad_n1 := n_ppcomp_uncount_le & [ STEM < "casticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_casticidad_n_rel" ] ]. castidad_n1 := n_ppcomp_uncount_le & [ STEM < "castidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castidad_n_rel" ] ]. castigar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "castigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_castigar_v_rel" ] ]. castigar_v2 := v_trans_np_le & [ STEM < "castigar" >, SYNSEM.LKEYS.KEYREL.PRED "_castigar_v_rel" ]. castigar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "castigar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_castigar_v_rel" ] ] ]. castigar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "castigar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_castigar_v_rel" ] ] ]. castigar_v5 := v_trans_np_mrkd_np_le & [ STEM < "castigar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_castigar_v_rel" ] ] ]. castigo_n1 := n_trans_le & [ STEM < "castigo" >, SYNSEM.LKEYS.KEYREL.PRED "_castigo_n_rel" ]. castillete_n1 := n_intr_count_le & [ STEM < "castillete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_castillete_n_rel" ] ]. castillo_n1 := n_intr_count_le & [ STEM < "castillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_castillo_n_rel" ] ]. casting_n1 := n_intr_count_le & [ STEM < "casting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_casting_n_rel" ] ]. castizo_a1 := a_rel_prd_le & [ STEM < "castizo" >, SYNSEM.LKEYS.KEYREL.PRED "_castizo_a_rel" ]. casto_a1 := a_qual_intr_ser_le & [ STEM < "casto" >, SYNSEM.LKEYS.KEYREL.PRED "_casto_a_rel" ]. castor_n1 := n_intr_count_le & [ STEM < "castor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_castor_n_rel" ] ]. castración_n1 := n_trans_le & [ STEM < "castración" >, SYNSEM.LKEYS.KEYREL.PRED "_castración_n_rel" ]. castral_a1 := a_rel_nonprd_intr_le & [ STEM < "castral" >, SYNSEM.LKEYS.KEYREL.PRED "_castral_a_rel" ]. castrar_v := v_trans_np_le & [ STEM < "castrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT ani_hum, PRED "_castrar_v_rel" ] ]. castrense_a1 := a_rel_nonprd_intr_le & [ STEM < "castrense" >, SYNSEM.LKEYS.KEYREL.PRED "_castrense_a_rel" ]. castrismo_n1 := n_intr_uncount_le & [ STEM < "castrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_castrismo_n_rel" ] ]. castrista_a1 := a_rel_nonprd_intr_le & [ STEM < "castrista" >, SYNSEM.LKEYS.KEYREL.PRED "_castrista_a_rel" ]. castrista_n1 := n_intr_count_le & [ STEM < "castrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_castrista_n_rel" ] ]. casual_a1 := a_qual_intr_scopal_le & [ STEM < "casual" >, SYNSEM.LKEYS.KEYREL.PRED "_casual_a_rel" ]. casualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "casualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_casualidad_n_rel" ] ]. casualmente_x1 := av_i_spr_le & [ STEM < "casualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_casualmente_x_rel" ]. casuario_n1 := n_intr_count_le & [ STEM < "casuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_casuario_n_rel" ] ]. casuista_n1 := n_intr_count_le & [ STEM < "casuista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_casuista_n_rel" ] ]. casulamente_x1 := av_i_spr_le & [ STEM < "casulamente" >, SYNSEM.LKEYS.KEYREL.PRED "_casulamente_x_rel" ]. casuística_n1 := n_intr_count_le & [ STEM < "casuística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_casuística_n_rel" ] ]. casuístico_a1 := a_rel_nonprd_intr_le & [ STEM < "casuístico" >, SYNSEM.LKEYS.KEYREL.PRED "_casuístico_a_rel" ]. cata_n1 := n_trans_le & [ STEM < "cata" >, SYNSEM.LKEYS.KEYREL.PRED "_cata_n_rel" ]. catabiosis_n1 := n_intr_uncount_le & [ STEM < "catabiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catabiosis_n_rel" ] ]. catabolismo_n1 := n_intr_uncount_le & [ STEM < "catabolismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catabolismo_n_rel" ] ]. cataclismo_n1 := n_intr_count_le & [ STEM < "cataclismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cataclismo_n_rel" ] ]. catacumba_n1 := n_intr_count_le & [ STEM < "catacumba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_catacumba_n_rel" ] ]. catadióptricamente_x1 := av_i_spr_le & [ STEM < "catadióptricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_catadióptricamente_x_rel" ]. catadióptrico_a1 := a_rel_nonprd_intr_le & [ STEM < "catadióptrico" >, SYNSEM.LKEYS.KEYREL.PRED "_catadióptrico_a_rel" ]. catadióptrico_n1 := n_intr_count_le & [ STEM < "catadióptrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catadióptrico_n_rel" ] ]. catador_n1 := n_intr_count_le & [ STEM < "catador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catador_n_rel" ] ]. catadura_n1 := n_trans_le & [ STEM < "catadura" >, SYNSEM.LKEYS.KEYREL.PRED "_catadura_n_rel" ]. catafalco_n1 := n_intr_count_le & [ STEM < "catafalco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catafalco_n_rel" ] ]. catagénesis_n1 := n_intr_uncount_le & [ STEM < "catagénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catagénesis_n_rel" ] ]. catalanidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "catalanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catalanidad_n_rel" ] ]. catalanismo_n1 := n_ppcomp_mass-or-count_le & [ STEM < "catalanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catalanismo_n_rel" ] ]. catalanista_a1 := a_qual_intr_ser_le & [ STEM < "catalanista" >, SYNSEM.LKEYS.KEYREL.PRED "_catalanista_a_rel" ]. catalanista_n1 := n_intr_count_le & [ STEM < "catalanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catalanista_n_rel" ] ]. catalanización_n1 := n_trans_le & [ STEM < "catalanización" >, SYNSEM.LKEYS.KEYREL.PRED "_catalanización_n_rel" ]. catalanohablante_a1 := a_rel_prd_le & [ STEM < "catalanohablante" >, SYNSEM.LKEYS.KEYREL.PRED "_catalanohablante_a_rel" ]. catalanohablante_n1 := n_intr_count_le & [ STEM < "catalanohablante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catalanohablante_n_rel" ] ]. catalanoparlante_a1 := a_rel_prd_le & [ STEM < "catalanoparlante" >, SYNSEM.LKEYS.KEYREL.PRED "_catalanoparlante_a_rel" ]. catalanoparlante_n1 := n_intr_count_le & [ STEM < "catalanoparlante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catalanoparlante_n_rel" ] ]. catalarc_n1 := n_intr_count_le & [ STEM < "catalarc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catalarc_n_rel" ] ]. catalasa_n1 := n_intr_count_le & [ STEM < "catalasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_catalasa_n_rel" ] ]. catalejo_n1 := n_intr_count_le & [ STEM < "catalejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catalejo_n_rel" ] ]. catalepsia_n1 := n_intr_uncount_le & [ STEM < "catalepsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catalepsia_n_rel" ] ]. catalina_n1 := n_intr_count_le & [ STEM < "catalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catalina_n_rel" ] ]. catalizador_n1 := n_intr_mass-or-count_le & [ STEM < "catalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_catalizador_n_rel" ] ]. catalizar_v := v_trans_np_le & [ STEM < "catalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_catalizar_v_rel" ]. catalogable_a1 := a_rel_prd_le & [ STEM < "catalogable" >, SYNSEM.LKEYS.KEYREL.PRED "_catalogable_a_rel" ]. catalogación_n1 := n_trans_le & [ STEM < "catalogación" >, SYNSEM.LKEYS.KEYREL.PRED "_catalogación_n_rel" ]. catalogar_v := v_trans_np_le & [ STEM < "catalogar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_catalogar_v_rel" ] ]. catalográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "catalográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_catalográfico_a_rel" ]. catalán_a1 := a_rel_prd_le & [ STEM < "catalán" >, SYNSEM.LKEYS.KEYREL.PRED "_catalán_a_rel" ]. catalán_n1 := n_intr_count_le & [ STEM < "catalán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catalán_n_rel" ] ]. cataléctico_a1 := a_rel_nonprd_intr_le & [ STEM < "cataléctico" >, SYNSEM.LKEYS.KEYREL.PRED "_cataléctico_a_rel" ]. catalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "catalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_catalítico_a_rel" ]. catamarán_n1 := n_intr_count_le & [ STEM < "catamarán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_catamarán_n_rel" ] ]. cataplasma_n1 := n_intr_mass_le & [ STEM < "cataplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cataplasma_n_rel" ] ]. catapulta_n1 := n_intr_count_le & [ STEM < "catapulta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catapulta_n_rel" ] ]. catapultar_v := v_trans_np_lcomp_dir*_le & [ STEM < "catapultar" >, SYNSEM.LKEYS.KEYREL.PRED "_catapultar_v_rel" ]. catar_v := v_trans_np_le & [ STEM < "catar" >, SYNSEM.LKEYS.KEYREL.PRED "_catar_v_rel" ]. catarata_n1 := n_intr_count_le & [ STEM < "catarata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_catarata_n_rel" ] ]. catarral_a1 := a_rel_nonprd_intr_le & [ STEM < "catarral" >, SYNSEM.LKEYS.KEYREL.PRED "_catarral_a_rel" ]. catarro_n1 := n_intr_mass_le & [ STEM < "catarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catarro_n_rel" ] ]. catarsis_n1 := n_intr_count_le & [ STEM < "catarsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catarsis_n_rel" ] ]. catastral_a1 := a_rel_nonprd_intr_le & [ STEM < "catastral" >, SYNSEM.LKEYS.KEYREL.PRED "_catastral_a_rel" ]. catastrar_v := v_trans_np_le & [ STEM < "catastrar" >, SYNSEM.LKEYS.KEYREL.PRED "_catastrar_v_rel" ]. catastro_n1 := n_intr_count_le & [ STEM < "catastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catastro_n_rel" ] ]. catastrofismo_n1 := n_intr_uncount_le & [ STEM < "catastrofismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catastrofismo_n_rel" ] ]. catastrofista_a1 := a_qual_intr_ser_le & [ STEM < "catastrofista" >, SYNSEM.LKEYS.KEYREL.PRED "_catastrofista_a_rel" ]. catastróficamente_x1 := av_i_spr_le & [ STEM < "catastróficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_catastróficamente_x_rel" ]. catastrófico_a1 := a_rel_prd_le & [ STEM < "catastrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_catastrófico_a_rel" ]. cataviento_n1 := n_intr_count_le & [ STEM < "cataviento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cataviento_n_rel" ] ]. catecismo_n1 := n_intr_mass_le & [ STEM < "catecismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_catecismo_n_rel" ] ]. catecúmeno_n1 := n_intr_count_le & [ STEM < "catecúmeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catecúmeno_n_rel" ] ]. catedral_n1 := n_intr_count_le & [ STEM < "catedral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_catedral_n_rel" ] ]. catedrático_n1 := n_intr_count_le & [ STEM < "catedrático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catedrático_n_rel" ] ]. categoremático_a1 := a_qual_intr_scopal_le & [ STEM < "categoremático" >, SYNSEM.LKEYS.KEYREL.PRED "_categoremático_a_rel" ]. categorial_a1 := a_rel_prd_le & [ STEM < "categorial" >, SYNSEM.LKEYS.KEYREL.PRED "_categorial_a_rel" ]. categorización_n1 := n_trans_le & [ STEM < "categorización" >, SYNSEM.LKEYS.KEYREL.PRED "_categorización_n_rel" ]. categorizar_v := v_trans_np_le & [ STEM < "categorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_categorizar_v_rel" ]. categoría_n1 := n_intr_count_le & [ STEM < "categoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_categoría_n_rel" ] ]. categóricamente_x1 := av_s_spr_le & [ STEM < "categóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_categóricamente_x_rel" ]. categórico_a1 := a_qual_intr_scopal_le & [ STEM < "categórico" >, SYNSEM.LKEYS.KEYREL.PRED "_categórico_a_rel" ]. catena_n1 := n_intr_count_le & [ STEM < "catena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catena_n_rel" ] ]. catenano_n1 := n_intr_count_le & [ STEM < "catenano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catenano_n_rel" ] ]. catenaria_n1 := n_intr_count_le & [ STEM < "catenaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catenaria_n_rel" ] ]. catepsina_n1 := n_intr_count_le & [ STEM < "catepsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catepsina_n_rel" ] ]. catequesis_n1 := n_intr_uncount_le & [ STEM < "catequesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catequesis_n_rel" ] ]. catequista_n1 := n_intr_count_le & [ STEM < "catequista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_catequista_n_rel" ] ]. catequización_n1 := n_trans_le & [ STEM < "catequización" >, SYNSEM.LKEYS.KEYREL.PRED "_catequización_n_rel" ]. catetómetro_n1 := n_intr_count_le & [ STEM < "catetómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catetómetro_n_rel" ] ]. catexis_n1 := n_intr_uncount_le & [ STEM < "catexis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catexis_n_rel" ] ]. catión_n1 := n_intr_count_le & [ STEM < "catión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catión_n_rel" ] ]. catiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "catiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_catiónico_a_rel" ]. catodoluminiscencia_n1 := n_intr_uncount_le & [ STEM < "catodoluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catodoluminiscencia_n_rel" ] ]. catolicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "catolicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catolicidad_n_rel" ] ]. catolicismo_n1 := n_ppcomp_uncount_le & [ STEM < "catolicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catolicismo_n_rel" ] ]. catolito_n1 := n_intr_mass_le & [ STEM < "catolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_catolito_n_rel" ] ]. catáfora_n1 := n_intr_count_le & [ STEM < "catáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catáfora_n_rel" ] ]. catálisis_n1 := n_intr_uncount_le & [ STEM < "catálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catálisis_n_rel" ] ]. catálogo_n1 := n_intr_count_le & [ STEM < "catálogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catálogo_n_rel" ] ]. catártico_a1 := a_rel_nonprd_intr_le & [ STEM < "catártico" >, SYNSEM.LKEYS.KEYREL.PRED "_catártico_a_rel" ]. catástrofe_n1 := n_intr_count_le & [ STEM < "catástrofe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_catástrofe_n_rel" ] ]. catéter_n1 := n_intr_count_le & [ STEM < "catéter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_catéter_n_rel" ] ]. catódico_a1 := a_rel_nonprd_intr_le & [ STEM < "catódico" >, SYNSEM.LKEYS.KEYREL.PRED "_catódico_a_rel" ]. católicamente_x1 := av_i_spr_le & [ STEM < "católicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_católicamente_x_rel" ]. católico_a1 := a_qual_intr_ser_le & [ STEM < "católico" >, SYNSEM.LKEYS.KEYREL.PRED "_católico_a_rel" ]. católico_n1 := n_intr_count_le & [ STEM < "católico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_católico_n_rel" ] ]. catóptricamente_x1 := av_i_spr_le & [ STEM < "catóptricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_catóptricamente_x_rel" ]. catóptrico_a1 := a_rel_nonprd_intr_le & [ STEM < "catóptrico" >, SYNSEM.LKEYS.KEYREL.PRED "_catóptrico_a_rel" ]. caucasiano_a1 := a_rel_prd_le & [ STEM < "caucasiano" >, SYNSEM.LKEYS.KEYREL.PRED "_caucasiano_a_rel" ]. cauce_n1 := n_intr_count_le & [ STEM < "cauce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cauce_n_rel" ] ]. caucho_n1 := n_intr_mass_le & [ STEM < "caucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_caucho_n_rel" ] ]. cauchutado_a1 := a_rel_nonprd_intr_le & [ STEM < "cauchutado" >, SYNSEM.LKEYS.KEYREL.PRED "_cauchutado_a_rel" ]. caucionable_a1 := a_rel_prd_le & [ STEM < "caucionable" >, SYNSEM.LKEYS.KEYREL.PRED "_caucionable_a_rel" ]. caucionar_v := v_trans_np_le & [ STEM < "caucionar" >, SYNSEM.LKEYS.KEYREL.PRED "_caucionar_v_rel" ]. caución_n1 := n_intr_count_le & [ STEM < "caución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caución_n_rel" ] ]. caucásico_a1 := a_rel_prd_le & [ STEM < "caucásico" >, SYNSEM.LKEYS.KEYREL.PRED "_caucásico_a_rel" ]. caudado_a1 := a_rel_nonprd_intr_le & [ STEM < "caudado" >, SYNSEM.LKEYS.KEYREL.PRED "_caudado_a_rel" ]. caudal_a1 := a_qual_intr_scopal_le & [ STEM < "caudal" >, SYNSEM.LKEYS.KEYREL.PRED "_caudal_a_rel" ]. caudal_n1 := n_intr_count_le & [ STEM < "caudal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caudal_n_rel" ] ]. caudaloso_a1 := a_qual_intr_scopal_le & [ STEM < "caudaloso" >, SYNSEM.LKEYS.KEYREL.PRED "_caudaloso_a_rel" ]. caudalómetro_n1 := n_intr_count_le & [ STEM < "caudalómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caudalómetro_n_rel" ] ]. caudillaje_n1 := n_intr_uncount_le & [ STEM < "caudillaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caudillaje_n_rel" ] ]. caudillaje_n2 := n_intr_count_le & [ STEM < "caudillaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_caudillaje_n_rel" ] ]. caudillo_n1 := n_intr_count_le & [ STEM < "caudillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_caudillo_n_rel" ] ]. causa_n1 := n_intr_count_le & [ STEM < "causa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_causa_n_rel" ] ]. causación_n1 := n_intr_uncount_le & [ STEM < "causación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_causación_n_rel" ] ]. causahabiente_n1 := n_intr_count_le & [ STEM < "causahabiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_causahabiente_n_rel" ] ]. causal_a1 := a_rel_prd_le & [ STEM < "causal" >, SYNSEM.LKEYS.KEYREL.PRED "_causal_a_rel" ]. causalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "causalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_causalidad_n_rel" ] ]. causalismo_n1 := n_intr_uncount_le & [ STEM < "causalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_causalismo_n_rel" ] ]. causalmente_x1 := av_i_spr_le & [ STEM < "causalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_causalmente_x_rel" ]. causante_a1 := a_qual_trans*_ser_le & [ STEM < "causante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_causante_a_rel" ] ]. causante_n1 := n_subj-nom_le & [ STEM < "causante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_causante_n_rel" ] ]. causar_v1 := v_ditrans*_le & [ STEM < "causar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_causar_v_rel" ] ]. causar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "causar" >, SYNSEM.LKEYS.KEYREL.PRED "_causar_v_rel" ]. causar_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "causar" >, SYNSEM.LKEYS.KEYREL.PRED "_causar_v_rel" ]. causar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "causar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_causar_v_rel" ] ] ]. causar_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "causar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_causar_v_rel" ] ]. causativo_a1 := a_rel_prd_le & [ STEM < "causativo" >, SYNSEM.LKEYS.KEYREL.PRED "_causativo_a_rel" ]. causídica_n1 := n_intr_count_le & [ STEM < "causídica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_causídica_n_rel" ] ]. causídico_a1 := a_rel_prd_le & [ STEM < "causídico" >, SYNSEM.LKEYS.KEYREL.PRED "_causídico_a_rel" ]. cautamente_x1 := av_i_spr_le & [ STEM < "cautamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cautamente_x_rel" ]. cautela_n1 := n_intr_mass_le & [ STEM < "cautela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cautela_n_rel" ] ]. cautelar_a1 := a_rel_nonprd_intr_le & [ STEM < "cautelar" >, SYNSEM.LKEYS.KEYREL.PRED "_cautelar_a_rel" ]. cautelarmente_x1 := av_i_spr_le & [ STEM < "cautelarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cautelarmente_x_rel" ]. cautelosamente_x1 := av_s_spr_le & [ STEM < "cautelosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cautelosamente_x_rel" ]. cautelosamente_x2 := av_i_psthd_spr_le & [ STEM < "cautelosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cautelosamente_x_rel" ]. cauteloso_a1 := a_qual_intr_ser_le & [ STEM < "cauteloso" >, SYNSEM.LKEYS.KEYREL.PRED "_cauteloso_a_rel" ]. cauterio_n1 := n_trans_le & [ STEM < "cauterio" >, SYNSEM.LKEYS.KEYREL.PRED "_cauterio_n_rel" ]. cauterizar_v := v_trans_np_le & [ STEM < "cauterizar" >, SYNSEM.LKEYS.KEYREL.PRED "_cauterizar_v_rel" ]. cautivador_a1 := a_qual_intr_scopal_le & [ STEM < "cautivador" >, SYNSEM.LKEYS.KEYREL.PRED "_cautivador_a_rel" ]. cautivar_v1 := v_intr_io*_le & [ STEM < "cautivar" >, SYNSEM.LKEYS.KEYREL.PRED "_cautivar_v_rel" ]. cautivar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cautivar" >, SYNSEM.LKEYS.KEYREL.PRED "_cautivar_v_rel" ]. cautivar_v3 := v_trans_np_le & [ STEM < "cautivar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_cautivar_v_rel" ] ]. cautividad_n1 := n_intr_uncount_le & [ STEM < "cautividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cautividad_n_rel" ] ]. cautivo_a1 := a_qual_intr_estar_le & [ STEM < "cautivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cautivo_a_rel" ]. cautivo_n1 := n_intr_count_le & [ STEM < "cautivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cautivo_n_rel" ] ]. cauto_a1 := a_qual_intr_ser_le & [ STEM < "cauto" >, SYNSEM.LKEYS.KEYREL.PRED "_cauto_a_rel" ]. cava_n1 := n_intr_count_le & [ STEM < "cava" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cava_n_rel" ] ]. cavador_a1 := a_rel_nonprd_intr_le & [ STEM < "cavador" >, SYNSEM.LKEYS.KEYREL.PRED "_cavador_a_rel" ]. cavador_n1 := n_intr_count_le & [ STEM < "cavador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cavador_n_rel" ] ]. cavar_v := v_trans_np*_le & [ STEM < "cavar" >, SYNSEM.LKEYS.KEYREL.PRED "_cavar_v_rel" ]. cavatina_n1 := n_intr_count_le & [ STEM < "cavatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cavatina_n_rel" ] ]. caverna_n1 := n_intr_count_le & [ STEM < "caverna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_caverna_n_rel" ] ]. cavernoso_a1 := a_rel_nonprd_intr_le & [ STEM < "cavernoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cavernoso_a_rel" ]. caviar_n1 := n_intr_mass_le & [ STEM < "caviar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caviar_n_rel" ] ]. cavidad_n1 := n_intr_count_le & [ STEM < "cavidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cavidad_n_rel" ] ]. cavilación_n1 := n_trans_le & [ STEM < "cavilación" >, SYNSEM.LKEYS.KEYREL.PRED "_cavilación_n_rel" ]. cavilar_v := v_intr_le & [ STEM < "cavilar" >, SYNSEM.LKEYS.KEYREL.PRED "_cavilar_v_rel" ]. cayado_n1 := n_intr_count_le & [ STEM < "cayado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cayado_n_rel" ] ]. cayena_n1 := n_intr_mass-or-count_le & [ STEM < "cayena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cayena_n_rel" ] ]. cayo_n1 := n_intr_count_le & [ STEM < "cayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cayo_n_rel" ] ]. caz_n1 := n_intr_count_le & [ STEM < "caz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caz_n_rel" ] ]. caza_n1 := n_trans_le & [ STEM < "caza" >, SYNSEM.LKEYS.KEYREL.PRED "_caza_n_rel" ]. cazador_n1 := n_subj-nom_le & [ STEM < "cazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cazador_n_rel" ] ]. cazadora_n1 := n_intr_count_le & [ STEM < "cazadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cazadora_n_rel" ] ]. cazar_v := v_trans_np*_le & [ STEM < "cazar" >, SYNSEM.LKEYS.KEYREL.PRED "_cazar_v_rel" ]. cazatalentos_n1 := n_intr_count_le & [ STEM < "cazatalentos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_cazatalentos_n_rel" ] ]. cazo_n1 := n_intr_count_le & [ STEM < "cazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cazo_n_rel" ] ]. cazoleta_n1 := n_intr_count_le & [ STEM < "cazoleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cazoleta_n_rel" ] ]. cazuela_n1 := n_intr_count_le & [ STEM < "cazuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cazuela_n_rel" ] ]. caída_n1 := n_event-result_intr_le & [ STEM < "caída" >, SYNSEM.LKEYS.KEYREL.PRED "_caída_n_rel" ]. caña_n1 := n_intr_mass_le & [ STEM < "caña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caña_n_rel" ] ]. cañada_n1 := n_intr_count_le & [ STEM < "cañada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cañada_n_rel" ] ]. cañamazo_n1 := n_intr_mass_le & [ STEM < "cañamazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cañamazo_n_rel" ] ]. cañar_n1 := n_intr_count_le & [ STEM < "cañar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cañar_n_rel" ] ]. cañaveral_n1 := n_intr_count_le & [ STEM < "cañaveral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cañaveral_n_rel" ] ]. cañedo_n1 := n_intr_count_le & [ STEM < "cañedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cañedo_n_rel" ] ]. cañería_n1 := n_intr_count_le & [ STEM < "cañería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cañería_n_rel" ] ]. cañizal_n1 := n_intr_count_le & [ STEM < "cañizal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cañizal_n_rel" ] ]. cañizar_n1 := n_intr_count_le & [ STEM < "cañizar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cañizar_n_rel" ] ]. cañizo_n1 := n_intr_count_le & [ STEM < "cañizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cañizo_n_rel" ] ]. caño_n1 := n_intr_count_le & [ STEM < "caño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_caño_n_rel" ] ]. cañonazo_n1 := n_intr_count_le & [ STEM < "cañonazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cañonazo_n_rel" ] ]. cañonear_v := v_trans_np*_le & [ STEM < "cañonear" >, SYNSEM.LKEYS.KEYREL.PRED "_cañonear_v_rel" ]. cañoneo_n1 := n_trans_le & [ STEM < "cañoneo" >, SYNSEM.LKEYS.KEYREL.PRED "_cañoneo_n_rel" ]. cañonera_n1 := n_intr_count_le & [ STEM < "cañonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cañonera_n_rel" ] ]. cañonero_n1 := n_intr_count_le & [ STEM < "cañonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cañonero_n_rel" ] ]. cañón_n1 := n_intr_count_le & [ STEM < "cañón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cañón_n_rel" ] ]. caóticamente_x1 := av_i_spr_le & [ STEM < "caóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_caóticamente_x_rel" ]. caótico_a1 := a_qual_intr_scopal_le & [ STEM < "caótico" >, SYNSEM.LKEYS.KEYREL.PRED "_caótico_a_rel" ]. cebada_n1 := n_intr_mass_le & [ STEM < "cebada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cebada_n_rel" ] ]. cebadal_n1 := n_intr_count_le & [ STEM < "cebadal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cebadal_n_rel" ] ]. cebado_n1 := n_trans_le & [ STEM < "cebado" >, SYNSEM.LKEYS.KEYREL.PRED "_cebado_n_rel" ]. cebador_n1 := n_intr_count_le & [ STEM < "cebador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cebador_n_rel" ] ]. cebadura_n1 := n_trans_le & [ STEM < "cebadura" >, SYNSEM.LKEYS.KEYREL.PRED "_cebadura_n_rel" ]. cebar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "cebar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_cebar_v_rel" ] ]. cebar_v2 := v_trans_np_le & [ STEM < "cebar" >, SYNSEM.LKEYS.KEYREL.PRED "_cebar_v_rel" ]. cebo_n1 := n_intr_count_le & [ STEM < "cebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cebo_n_rel" ] ]. cebolla_n1 := n_intr_mass_le & [ STEM < "cebolla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cebolla_n_rel" ] ]. cebolleta_n1 := n_intr_count_le & [ STEM < "cebolleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cebolleta_n_rel" ] ]. cebollino_n1 := n_intr_count_le & [ STEM < "cebollino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cebollino_n_rel" ] ]. cebra_n1 := n_intr_count_le & [ STEM < "cebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cebra_n_rel" ] ]. cebrado_a1 := a_qual_intr_ser_le & [ STEM < "cebrado" >, SYNSEM.LKEYS.KEYREL.PRED "_cebrado_a_rel" ]. cebreado_a1 := a_qual_intr_ser_le & [ STEM < "cebreado" >, SYNSEM.LKEYS.KEYREL.PRED "_cebreado_a_rel" ]. cebú_n1 := n_intr_count_le & [ STEM < "cebú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cebú_n_rel" ] ]. ceca_n1 := n_intr_count_le & [ STEM < "ceca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ceca_n_rel" ] ]. cecal_a1 := a_rel_nonprd_intr_le & [ STEM < "cecal" >, SYNSEM.LKEYS.KEYREL.PRED "_cecal_a_rel" ]. cedazo_n1 := n_intr_count_le & [ STEM < "cedazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cedazo_n_rel" ] ]. cedente_n1 := n_intr_count_le & [ STEM < "cedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cedente_n_rel" ] ]. ceder_v1 := v_intr_mrkd_np_le & [ STEM < "ceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ceder_v_rel" ] ]. ceder_v2 := v_trans_np*_io_le & [ STEM < "ceder" >, SYNSEM.LKEYS.KEYREL.PRED "_ceder_v_rel" ]. cedilla_n1 := n_intr_count_le & [ STEM < "cedilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cedilla_n_rel" ] ]. cedro_n1 := n_intr_mass_le & [ STEM < "cedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cedro_n_rel" ] ]. cefalea_n1 := n_intr_uncount_pl_le & [ STEM < "cefalea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cefalea_n_rel" ] ]. cefalograma_n1 := n_intr_count_le & [ STEM < "cefalograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cefalograma_n_rel" ] ]. cefalometría_n1 := n_intr_count_le & [ STEM < "cefalometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cefalometría_n_rel" ] ]. cefalométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "cefalométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cefalométrico_a_rel" ]. cefalorraquídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "cefalorraquídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_cefalorraquídeo_a_rel" ]. cefalostato_n1 := n_intr_count_le & [ STEM < "cefalostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cefalostato_n_rel" ] ]. cefalotórax_n1 := n_intr_count_le & [ STEM < "cefalotórax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cefalotórax_n_rel" ] ]. cefalotórax_n2 := n_ppcomp_count_le & [ STEM < "cefalotórax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cefalotórax_n_rel" ] ]. cefalómetro_n1 := n_intr_count_le & [ STEM < "cefalómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cefalómetro_n_rel" ] ]. cefalópodo_n1 := n_intr_count_le & [ STEM < "cefalópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cefalópodo_n_rel" ] ]. cefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "cefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_cefálico_a_rel" ]. cegador_a1 := a_rel_nonprd_intr_le & [ STEM < "cegador" >, SYNSEM.LKEYS.KEYREL.PRED "_cegador_a_rel" ]. cegar_v1 := v_intr_io*_le & [ STEM < "cegar" >, SYNSEM.LKEYS.KEYREL.PRED "_cegar_v_rel" ]. cegar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cegar" >, SYNSEM.LKEYS.KEYREL.PRED "_cegar_v_rel" ]. cegar_v3 := v_trans_np_le & [ STEM < "cegar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_cegar_v_rel" ] ]. cegato_a1 := a_qual_intr_ser_le & [ STEM < "cegato" >, SYNSEM.LKEYS.KEYREL.PRED "_cegato_a_rel" ]. cegesimal_a1 := a_rel_nonprd_intr_le & [ STEM < "cegesimal" >, SYNSEM.LKEYS.KEYREL.PRED "_cegesimal_a_rel" ]. cegesimalmente_x1 := av_i_spr_le & [ STEM < "cegesimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cegesimalmente_x_rel" ]. ceguera_n1 := n_intr_uncount_pl_le & [ STEM < "ceguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ceguera_n_rel" ] ]. ceiba_n1 := n_intr_count_le & [ STEM < "ceiba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ceiba_n_rel" ] ]. ceilanita_n1 := n_intr_mass_le & [ STEM < "ceilanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ceilanita_n_rel" ] ]. ceilanés_n1 := n_intr_count_le & [ STEM < "ceilanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ceilanés_n_rel" ] ]. ceja_n1 := n_ppcomp_count_le & [ STEM < "ceja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ceja_n_rel" ] ]. celador_n1 := n_intr_count_le & [ STEM < "celador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_celador_n_rel" ] ]. celaje_n1 := n_intr_count_le & [ STEM < "celaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_celaje_n_rel" ] ]. celda_n1 := n_intr_count_le & [ STEM < "celda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_celda_n_rel" ] ]. celdilla_n1 := n_intr_count_le & [ STEM < "celdilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celdilla_n_rel" ] ]. celebración_n1 := n_trans_le & [ STEM < "celebración" >, SYNSEM.LKEYS.KEYREL.PRED "_celebración_n_rel" ]. celebrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "celebrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_celebrar_v_rel" ] ]. celebrar_v2 := v_trans_np_le & [ STEM < "celebrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_celebrar_v_rel" ] ]. celebridad_n1 := n_intr_mass_le & [ STEM < "celebridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_celebridad_n_rel" ] ]. celentéreo_n1 := n_intr_count_le & [ STEM < "celentéreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_celentéreo_n_rel" ] ]. celeridad_n1 := n_intr_mass_le & [ STEM < "celeridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celeridad_n_rel" ] ]. celeste_a1 := a_qual_intr_ser_le & [ STEM < "celeste" >, SYNSEM.LKEYS.KEYREL.PRED "_celeste_a_rel" ]. celestial_a1 := a_qual_intr_scopal_le & [ STEM < "celestial" >, SYNSEM.LKEYS.KEYREL.PRED "_celestial_a_rel" ]. celestina_n1 := n_intr_count_le & [ STEM < "celestina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_celestina_n_rel" ] ]. celibato_n1 := n_ppcomp_uncount_le & [ STEM < "celibato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celibato_n_rel" ] ]. celidonia_n1 := n_intr_count_le & [ STEM < "celidonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_celidonia_n_rel" ] ]. celiprolol_n1 := n_intr_count_le & [ STEM < "celiprolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_celiprolol_n_rel" ] ]. cella_n1 := n_intr_count_le & [ STEM < "cella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cella_n_rel" ] ]. celos_n1 := n_intr_mass_pl_le & [ STEM < "celo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celo_n_rel" ] ]. celo_n1 := n_intr_count_le & [ STEM < "celo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celos_n_rel" ] ]. celofán_n1 := n_intr_mass-or-count_le & [ STEM < "celofán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_celofán_n_rel" ] ]. celosamente_x1 := av_i_spr_le & [ STEM < "celosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_celosamente_x_rel" ]. celoso_a2 := a_qual_trans_estar_le & [ STEM < "celoso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_celoso_a_rel" ] ]. celosía_n1 := n_intr_count_le & [ STEM < "celosía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celosía_n_rel" ] ]. celsio_n := n_intr_count_le & [ STEM < "celsio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_celsio_n_rel" ] ]. celta_a1 := a_rel_prd_le & [ STEM < "celta" >, SYNSEM.LKEYS.KEYREL.PRED "_celta_a_rel" ]. celta_n1 := n_intr_count_le & [ STEM < "celta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_celta_n_rel" ] ]. celtíbero_a1 := a_rel_prd_le & [ STEM < "celtíbero" >, SYNSEM.LKEYS.KEYREL.PRED "_celtíbero_a_rel" ]. celtíbero_n1 := n_intr_count_le & [ STEM < "celtíbero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_celtíbero_n_rel" ] ]. celular_a1 := a_rel_nonprd_intr_le & [ STEM < "celular" >, SYNSEM.LKEYS.KEYREL.PRED "_celular_a_rel" ]. celularmente_x1 := av_i_spr_le & [ STEM < "celularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_celularmente_x_rel" ]. celulitis_n1 := n_intr_uncount_le & [ STEM < "celulitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_celulitis_n_rel" ] ]. celuloide_n1 := n_intr_mass-or-count_le & [ STEM < "celuloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_celuloide_n_rel" ] ]. celulosa_n1 := n_intr_mass_le & [ STEM < "celulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_celulosa_n_rel" ] ]. celulósico_a1 := a_rel_nonprd_intr_le & [ STEM < "celulósico" >, SYNSEM.LKEYS.KEYREL.PRED "_celulósico_a_rel" ]. celíaco_a1 := a_qual_intr_ser_le & [ STEM < "celíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_celíaco_a_rel" ]. cementación_n1 := n_trans_le & [ STEM < "cementación" >, SYNSEM.LKEYS.KEYREL.PRED "_cementación_n_rel" ]. cementado_n1 := n_trans_le & [ STEM < "cementado" >, SYNSEM.LKEYS.KEYREL.PRED "_cementado_n_rel" ]. cementar_v := v_trans_np_le & [ STEM < "cementar" >, SYNSEM.LKEYS.KEYREL.PRED "_cementar_v_rel" ]. cementera_n1 := n_intr_count_le & [ STEM < "cementera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_cementera_n_rel" ] ]. cementerio_n1 := n_intr_count_le & [ STEM < "cementerio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cementerio_n_rel" ] ]. cementicle_n1 := n_intr_count_le & [ STEM < "cementicle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementicle_n_rel" ] ]. cementita_n1 := n_intr_mass-or-count_le & [ STEM < "cementita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cementita_n_rel" ] ]. cementitis_n1 := n_intr_uncount_le & [ STEM < "cementitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementitis_n_rel" ] ]. cemento_n1 := n_intr_mass_le & [ STEM < "cemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cemento_n_rel" ] ]. cementoadamantino_a1 := a_rel_nonprd_intr_le & [ STEM < "cementoadamantino" >, SYNSEM.LKEYS.KEYREL.PRED "_cementoadamantino_a_rel" ]. cementoblasto_n1 := n_intr_count_le & [ STEM < "cementoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementoblasto_n_rel" ] ]. cementoblastoma_n1 := n_intr_count_le & [ STEM < "cementoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementoblastoma_n_rel" ] ]. cementoclasia_n1 := n_intr_uncount_le & [ STEM < "cementoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementoclasia_n_rel" ] ]. cementoclasto_n1 := n_intr_count_le & [ STEM < "cementoclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementoclasto_n_rel" ] ]. cementodentinal_a1 := a_rel_nonprd_intr_le & [ STEM < "cementodentinal" >, SYNSEM.LKEYS.KEYREL.PRED "_cementodentinal_a_rel" ]. cementogénesis_n1 := n_intr_uncount_le & [ STEM < "cementogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementogénesis_n_rel" ] ]. cementoide_a1 := a_rel_nonprd_intr_le & [ STEM < "cementoide" >, SYNSEM.LKEYS.KEYREL.PRED "_cementoide_a_rel" ]. cementoma_n1 := n_intr_count_le & [ STEM < "cementoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementoma_n_rel" ] ]. cementopatía_n1 := n_intr_uncount_le & [ STEM < "cementopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementopatía_n_rel" ] ]. cementoperiostitis_n1 := n_intr_uncount_le & [ STEM < "cementoperiostitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementoperiostitis_n_rel" ] ]. cementosis_n1 := n_intr_uncount_le & [ STEM < "cementosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementosis_n_rel" ] ]. cementostosis_n1 := n_intr_uncount_le & [ STEM < "cementostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cementostosis_n_rel" ] ]. cementículo_n1 := n_intr_count_le & [ STEM < "cementículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cementículo_n_rel" ] ]. cementógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "cementógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cementógeno_a_rel" ]. cena_n1 := n_intr_count_le & [ STEM < "cena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cena_n_rel" ] ]. cenador_n1 := n_intr_count_le & [ STEM < "cenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cenador_n_rel" ] ]. cenagal_n1 := n_intr_count_le & [ STEM < "cenagal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cenagal_n_rel" ] ]. cenagoso_a1 := a_qual_intr_scopal_le & [ STEM < "cenagoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cenagoso_a_rel" ]. cenar_v := v_trans_np*_le & [ STEM < "cenar" >, SYNSEM.LKEYS.KEYREL.PRED "_cenar_v_rel" ]. cencerro_n1 := n_intr_count_le & [ STEM < "cencerro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cencerro_n_rel" ] ]. cenefa_n1 := n_intr_count_le & [ STEM < "cenefa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cenefa_n_rel" ] ]. cenicero_n1 := n_intr_count_le & [ STEM < "cenicero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cenicero_n_rel" ] ]. ceniciento_a1 := a_qual_intr_ser_le & [ STEM < "ceniciento" >, SYNSEM.LKEYS.KEYREL.PRED "_ceniciento_a_rel" ]. cenit_n1 := n_intr_count_le & [ STEM < "cenit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cenit_n_rel" ] ]. cenital_a1 := a_rel_nonprd_intr_le & [ STEM < "cenital" >, SYNSEM.LKEYS.KEYREL.PRED "_cenital_a_rel" ]. ceniza_n1 := n_intr_mass_le & [ STEM < "ceniza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ceniza_n_rel" ] ]. cenizo_a1 := a_qual_intr_ser_le & [ STEM < "cenizo" >, SYNSEM.LKEYS.KEYREL.PRED "_cenizo_a_rel" ]. cenocito_n1 := n_intr_uncount_pl_le & [ STEM < "cenocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cenocito_n_rel" ] ]. cenogameto_n1 := n_intr_count_le & [ STEM < "cenogameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cenogameto_n_rel" ] ]. cenotafio_n1 := n_intr_count_le & [ STEM < "cenotafio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cenotafio_n_rel" ] ]. censal_a1 := a_rel_nonprd_intr_le & [ STEM < "censal" >, SYNSEM.LKEYS.KEYREL.PRED "_censal_a_rel" ]. censal_n1 := n_intr_count_le & [ STEM < "censal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_censal_n_rel" ] ]. censalista_n1 := n_intr_count_le & [ STEM < "censalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_censalista_n_rel" ] ]. censar_v := v_trans_np*_le & [ STEM < "censar" >, SYNSEM.LKEYS.KEYREL.PRED "_censar_v_rel" ]. censatario_n1 := n_intr_count_le & [ STEM < "censatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_censatario_n_rel" ] ]. censo_n1 := n_intr_count_le & [ STEM < "censo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_censo_n_rel" ] ]. censor_n1 := n_subj-nom_le & [ STEM < "censor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_censor_n_rel" ] ]. censual_a1 := a_rel_nonprd_intr_le & [ STEM < "censual" >, SYNSEM.LKEYS.KEYREL.PRED "_censual_a_rel" ]. censualista_n1 := n_intr_count_le & [ STEM < "censualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_censualista_n_rel" ] ]. censura_n1 := n_intr_mass-or-count_le & [ STEM < "censura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_censura_n_rel" ] ]. censurable_a1 := a_qual_intr_scopal_le & [ STEM < "censurable" >, SYNSEM.LKEYS.KEYREL.PRED "_censurable_a_rel" ]. censurar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "censurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_censurar_v_rel" ] ]. censurar_v2 := v_ditrans*_le & [ STEM < "censurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_censurar_v_rel" ] ]. censurista_a1 := a_qual_intr_ser_le & [ STEM < "censurista" >, SYNSEM.LKEYS.KEYREL.PRED "_censurista_a_rel" ]. censurista_n1 := n_intr_count_le & [ STEM < "censurista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_censurista_n_rel" ] ]. centaura_n1 := n_intr_count_le & [ STEM < "centaura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_centaura_n_rel" ] ]. centauro_n1 := n_intr_count_le & [ STEM < "centauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_centauro_n_rel" ] ]. centavo_n1 := n_intr_count_le & [ STEM < "centavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centavo_n_rel" ] ]. centella_n1 := n_intr_count_le & [ STEM < "centella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centella_n_rel" ] ]. centelleante_a1 := a_qual_intr_ser_le & [ STEM < "centelleante" >, SYNSEM.LKEYS.KEYREL.PRED "_centelleante_a_rel" ]. centellear_v := v_intr_le & [ STEM < "centellear" >, SYNSEM.LKEYS.KEYREL.PRED "_centellear_v_rel" ]. centelleo_n1 := n_result_intr_le & [ STEM < "centelleo" >, SYNSEM.LKEYS.KEYREL.PRED "_centelleo_n_rel" ]. centenario_a1 := a_rel_prd_le & [ STEM < "centenario" >, SYNSEM.LKEYS.KEYREL.PRED "_centenario_a_rel" ]. centenario_n1 := n_intr_count_le & [ STEM < "centenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centenario_n_rel" ] ]. centeno_n1 := n_intr_mass_le & [ STEM < "centeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_centeno_n_rel" ] ]. centesimal_a1 := a_rel_prd_le & [ STEM < "centesimal" >, SYNSEM.LKEYS.KEYREL.PRED "_centesimal_a_rel" ]. centesimalmente_x1 := av_i_spr_le & [ STEM < "centesimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_centesimalmente_x_rel" ]. centigramo_n1 := n_pseudo-part_le & [ STEM < "centigramo" >, SYNSEM.LKEYS.KEYREL.PRED "_centigramo_n_rel" ]. centilitro_n1 := n_pseudo-part_le & [ STEM < "centilitro" >, SYNSEM.LKEYS.KEYREL.PRED "_centilitro_n_rel" ]. centinela_n1 := n_intr_count_le & [ STEM < "centinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centinela_n_rel" ] ]. centiárea_n := n_intr_count_le & [ STEM < "centiárea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_centiárea_n_rel" ] ]. centollo_n1 := n_intr_count_le & [ STEM < "centollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_centollo_n_rel" ] ]. centrado_n1 := n_intr_count_le & [ STEM < "centrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centrado_n_rel" ] ]. centrador_n1 := n_intr_count_le & [ STEM < "centrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centrador_n_rel" ] ]. centraje_n1 := n_trans_le & [ STEM < "centraje" >, SYNSEM.LKEYS.KEYREL.PRED "_centraje_n_rel" ]. central_a1 := a_rel_nonprd_intr_le & [ STEM < "central" >, SYNSEM.LKEYS.KEYREL.PRED "_central_a_rel" ]. central_n1 := n_intr_count_le & [ STEM < "central" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_central_n_rel" ] ]. central_nuclear_n1 := n_intr_count_le & [ STEM < "central_nuclear" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_central_nuclear_n_rel" ] ]. centralidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "centralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centralidad_n_rel" ] ]. centralismo_n1 := n_intr_uncount_le & [ STEM < "centralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centralismo_n_rel" ] ]. centralista_a1 := a_qual_intr_ser_le & [ STEM < "centralista" >, SYNSEM.LKEYS.KEYREL.PRED "_centralista_a_rel" ]. centralita_n1 := n_intr_count_le & [ STEM < "centralita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_centralita_n_rel" ] ]. centralización_n1 := n_trans_le & [ STEM < "centralización" >, SYNSEM.LKEYS.KEYREL.PRED "_centralización_n_rel" ]. centralizadamente_x1 := av_i_spr_le & [ STEM < "centralizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_centralizadamente_x_rel" ]. centralizador_a1 := a_rel_nonprd_intr_le & [ STEM < "centralizador" >, SYNSEM.LKEYS.KEYREL.PRED "_centralizador_a_rel" ]. centralizador_n1 := n_intr_count_le & [ STEM < "centralizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centralizador_n_rel" ] ]. centralizar_v := v_trans_np_le & [ STEM < "centralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_centralizar_v_rel" ]. centrar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "centrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_centrar_v_rel" ] ] ]. centrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "centrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_centrar_v_rel" ] ] ]. centrar_v3 := v_trans_np_le & [ STEM < "centrar" >, SYNSEM.LKEYS.KEYREL.PRED "_centrar_v_rel" ]. centrifugación_n1 := n_trans_le & [ STEM < "centrifugación" >, SYNSEM.LKEYS.KEYREL.PRED "_centrifugación_n_rel" ]. centrifugador_a1 := a_rel_nonprd_intr_le & [ STEM < "centrifugador" >, SYNSEM.LKEYS.KEYREL.PRED "_centrifugador_a_rel" ]. centrifugador_n1 := n_intr_count_le & [ STEM < "centrifugador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centrifugador_n_rel" ] ]. centrifugar_v := v_trans_np_le & [ STEM < "centrifugar" >, SYNSEM.LKEYS.KEYREL.PRED "_centrifugar_v_rel" ]. centriolo_n1 := n_intr_count_le & [ STEM < "centriolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centriolo_n_rel" ] ]. centrista_a1 := a_qual_intr_ser_le & [ STEM < "centrista" >, SYNSEM.LKEYS.KEYREL.PRED "_centrista_a_rel" ]. centro_n1 := n_intr_count_le & [ STEM < "centro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_centro_n_rel" ] ]. centroafricano_a1 := a_rel_prd_le & [ STEM < "centroafricano" >, SYNSEM.LKEYS.KEYREL.PRED "_centroafricano_a_rel" ]. centroafricano_n1 := n_intr_count_le & [ STEM < "centroafricano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centroafricano_n_rel" ] ]. centroamericano_a1 := a_rel_prd_le & [ STEM < "centroamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_centroamericano_a_rel" ]. centroamericano_n1 := n_intr_count_le & [ STEM < "centroamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centroamericano_n_rel" ] ]. centroasiático_a1 := a_rel_prd_le & [ STEM < "centroasiático" >, SYNSEM.LKEYS.KEYREL.PRED "_centroasiático_a_rel" ]. centroblasto_n1 := n_intr_count_le & [ STEM < "centroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centroblasto_n_rel" ] ]. centrocampista_n1 := n_intr_count_le & [ STEM < "centrocampista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centrocampista_n_rel" ] ]. centrocito_n1 := n_intr_count_le & [ STEM < "centrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centrocito_n_rel" ] ]. centroeuropeo_a1 := a_rel_prd_le & [ STEM < "centroeuropeo" >, SYNSEM.LKEYS.KEYREL.PRED "_centroeuropeo_a_rel" ]. centroeuropeo_n1 := n_intr_count_le & [ STEM < "centroeuropeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centroeuropeo_n_rel" ] ]. centroidal_a1 := a_rel_nonprd_intr_le & [ STEM < "centroidal" >, SYNSEM.LKEYS.KEYREL.PRED "_centroidal_a_rel" ]. centroidalmente_x1 := av_i_spr_le & [ STEM < "centroidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_centroidalmente_x_rel" ]. centroide_n1 := n_intr_count_le & [ STEM < "centroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centroide_n_rel" ] ]. centroizquierda_n1 := n_intr_uncount_le & [ STEM < "centroizquierda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centroizquierda_n_rel" ] ]. centrooceánico_a1 := a_rel_nonprd_intr_le & [ STEM < "centrooceánico" >, SYNSEM.LKEYS.KEYREL.PRED "_centrooceánico_a_rel" ]. centrosfera_n1 := n_intr_count_le & [ STEM < "centrosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centrosfera_n_rel" ] ]. centrosoma_n1 := n_intr_count_le & [ STEM < "centrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_centrosoma_n_rel" ] ]. centrífuga_n1 := n_intr_count_le & [ STEM < "centrífuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_centrífuga_n_rel" ] ]. centrífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "centrífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_centrífugo_a_rel" ]. centrípeto_a1 := a_qual_intr_ser_le & [ STEM < "centrípeto" >, SYNSEM.LKEYS.KEYREL.PRED "_centrípeto_a_rel" ]. centrómero_n1 := n_intr_count_le & [ STEM < "centrómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_centrómero_n_rel" ] ]. centuria_n1 := n_intr_count_le & [ STEM < "centuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centuria_n_rel" ] ]. centurión_n1 := n_intr_count_le & [ STEM < "centurión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_centurión_n_rel" ] ]. centésima_n := n_intr_count_le & [ STEM < "centésima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_centésima_n_rel" ] ]. centígrado_a1 := a_rel_nonprd_intr_le & [ STEM < "centígrado" >, SYNSEM.LKEYS.KEYREL.PRED "_centígrado_a_rel" ]. centígrado_n1 := n_pseudo-part_le & [ STEM < "centígrado" >, SYNSEM.LKEYS.KEYREL.PRED "_centígrado_n_rel" ]. centígramo_n1 := n_intr_count_le & [ STEM < "centígramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_centígramo_n_rel" ] ]. centímetro_cuadrado_n1 := n_pseudo-part_le & [ STEM < "centímetro_cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_centímetro_cuadrado_n_rel" ]. centímetro_cúbico_n1 := n_pseudo-part_le & [ STEM < "centímetro_cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_centímetro_cúbico_n_rel" ]. centímetro_n1 := n_pseudo-part_le & [ STEM < "centímetro" >, SYNSEM.LKEYS.KEYREL.PRED "_centímetro_n_rel" ]. cepa_n1 := n_intr_count_le & [ STEM < "cepa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cepa_n_rel" ] ]. cepellón_n1 := n_intr_count_le & [ STEM < "cepellón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cepellón_n_rel" ] ]. cepillado_n1 := n_trans_le & [ STEM < "cepillado" >, SYNSEM.LKEYS.KEYREL.PRED "_cepillado_n_rel" ]. cepilladora_n1 := n_intr_count_le & [ STEM < "cepilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cepilladora_n_rel" ] ]. cepillo_n1 := n_intr_count_le & [ STEM < "cepillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cepillo_n_rel" ] ]. cepo_n1 := n_intr_count_le & [ STEM < "cepo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cepo_n_rel" ] ]. cera_n1 := n_intr_mass_le & [ STEM < "cera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cera_n_rel" ] ]. cerametal_n1 := n_intr_mass_le & [ STEM < "cerametal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerametal_n_rel" ] ]. ceramista_n1 := n_intr_count_le & [ STEM < "ceramista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ceramista_n_rel" ] ]. ceratina_n1 := n_intr_count_le & [ STEM < "ceratina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ceratina_n_rel" ] ]. ceratocricoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "ceratocricoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_ceratocricoideo_a_rel" ]. cerbatana_n1 := n_intr_count_le & [ STEM < "cerbatana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerbatana_n_rel" ] ]. cerca_de_p_vmod := p_vmod_le & [ STEM < "cerca_de" >, SYNSEM.LKEYS.KEYREL.PRED _cerca_de_p_rel ]. cerca_x1 := av_i_spr_le & [ STEM < "cerca" >, SYNSEM.LKEYS.KEYREL.PRED "_cerca_x_rel" ]. cercado_n1 := n_intr_count_le & [ STEM < "cercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cercado_n_rel" ] ]. cercano_a1 := a_adv_event_le & [ STEM < "cercano" >, SYNSEM.LKEYS.KEYREL.PRED "_cercano_a_rel" ]. cercano_a2 := a_qual_trans*_ser_le & [ STEM < "cercano" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_cercano_a_rel" ] ]. cercanía_n1 := n_intr_uncount_pl_le & [ STEM < "cercanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cercanía_n_rel" ] ]. cercanía_n2 := n_intr_mass_le & [ STEM < "cercanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cercanía_n_rel" ] ]. cercar_v := v_trans_np_le & [ STEM < "cercar" >, SYNSEM.LKEYS.KEYREL.PRED "_cercar_v_rel" ]. cercenador_a1 := a_qual_intr_scopal_le & [ STEM < "cercenador" >, SYNSEM.LKEYS.KEYREL.PRED "_cercenador_a_rel" ]. cercenadoramente_x1 := av_i_spr_le & [ STEM < "cercenadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_cercenadoramente_x_rel" ]. cercenar_v := v_trans_np_le & [ STEM < "cercenar" >, SYNSEM.LKEYS.KEYREL.PRED "_cercenar_v_rel" ]. cerceta_n1 := n_intr_count_le & [ STEM < "cerceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cerceta_n_rel" ] ]. cerciorar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "cerciorar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_pro, PRED "_cerciorar_v_rel" ] ] ]. cerciorar_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "cerciorar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cerciorar_v_rel" ] ] ]. cerco_n1 := n_intr_count_le & [ STEM < "cerco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerco_n_rel" ] ]. cerda_n1 := n_intr_count_le & [ STEM < "cerda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerda_n_rel" ] ]. cerdo_n1 := n_intr_count_le & [ STEM < "cerdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cerdo_n_rel" ] ]. cereal_n1 := n_intr_mass_le & [ STEM < "cereal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cereal_n_rel" ] ]. cerealicultura_n1 := n_intr_uncount_le & [ STEM < "cerealicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cerealicultura_n_rel" ] ]. cerebelo_n1 := n_ppcomp_count_le & [ STEM < "cerebelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cerebelo_n_rel" ] ]. cerebeloso_a1 := a_rel_nonprd_intr_le & [ STEM < "cerebeloso" >, SYNSEM.LKEYS.KEYREL.PRED "_cerebeloso_a_rel" ]. cerebral_a1 := a_rel_nonprd_intr_le & [ STEM < "cerebral" >, SYNSEM.LKEYS.KEYREL.PRED "_cerebral_a_rel" ]. cerebralmente_x1 := av_i_spr_le & [ STEM < "cerebralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cerebralmente_x_rel" ]. cerebro_n1 := n_ppcomp_count_le & [ STEM < "cerebro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cerebro_n_rel" ] ]. cerebroespinal_a1 := a_rel_nonprd_intr_le & [ STEM < "cerebroespinal" >, SYNSEM.LKEYS.KEYREL.PRED "_cerebroespinal_a_rel" ]. cerebrovascular_a1 := a_rel_nonprd_intr_le & [ STEM < "cerebrovascular" >, SYNSEM.LKEYS.KEYREL.PRED "_cerebrovascular_a_rel" ]. ceremonia_n1 := n_intr_count_le & [ STEM < "ceremonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ceremonia_n_rel" ] ]. ceremonial_a1 := a_rel_nonprd_intr_le & [ STEM < "ceremonial" >, SYNSEM.LKEYS.KEYREL.PRED "_ceremonial_a_rel" ]. ceremonial_n1 := n_intr_count_le & [ STEM < "ceremonial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ceremonial_n_rel" ] ]. ceremoniosamente_x1 := av_i_spr_le & [ STEM < "ceremoniosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ceremoniosamente_x_rel" ]. ceremonioso_a1 := a_qual_intr_ser_le & [ STEM < "ceremonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ceremonioso_a_rel" ]. cerería_n1 := n_intr_count_le & [ STEM < "cerería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cerería_n_rel" ] ]. cereza_n1 := n_intr_mass_le & [ STEM < "cereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cereza_n_rel" ] ]. cerezo_n1 := n_intr_count_le & [ STEM < "cerezo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_cerezo_n_rel" ] ]. cerilla_n1 := n_intr_count_le & [ STEM < "cerilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerilla_n_rel" ] ]. cerio_n1 := n_intr_mass_le & [ STEM < "cerio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerio_n_rel" ] ]. cerita_n1 := n_intr_count_le & [ STEM < "cerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerita_n_rel" ] ]. cermet_n1 := n_intr_mass-or-count_le & [ STEM < "cermet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cermet_n_rel" ] ]. cernedor_n1 := n_intr_count_le & [ STEM < "cernedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cernedor_n_rel" ] ]. cernir_v := v_pron_intr_mrkd_np_le & [ STEM < "cernir" >, SYNSEM.LKEYS [ --COMPKEY _sobre_p_sel_rel, KEYREL.PRED "_cernir_v_rel" ] ]. cernícalo_n1 := n_intr_count_le & [ STEM < "cernícalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cernícalo_n_rel" ] ]. cero_n1 := n_intr_count_le & [ STEM < "cero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cero_n_rel" ] ]. ceroso_a1 := a_rel_nonprd_intr_le & [ STEM < "ceroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ceroso_a_rel" ]. cerotato_n1 := n_intr_count_le & [ STEM < "cerotato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerotato_n_rel" ] ]. cerradero_n1 := n_intr_count_le & [ STEM < "cerradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerradero_n_rel" ] ]. cerradura_n1 := n_intr_count_le & [ STEM < "cerradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerradura_n_rel" ] ]. cerrajero_n1 := n_intr_count_le & [ STEM < "cerrajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cerrajero_n_rel" ] ]. cerrajería_n1 := n_intr_count_le & [ STEM < "cerrajería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cerrajería_n_rel" ] ]. cerramiento_n1 := n_trans_le & [ STEM < "cerramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cerramiento_n_rel" ]. cerrar_v1 := v_ditrans*_le & [ STEM < "cerrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cerrar_v_rel" ]. cerrar_v2 := v_trans_np_caus_le & [ STEM < "cerrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cerrar_v_rel" ]. cerrazón_n1 := n_intr_uncount_le & [ STEM < "cerrazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cerrazón_n_rel" ] ]. cerril_a1 := a_rel_nonprd_intr_le & [ STEM < "cerril" >, SYNSEM.LKEYS.KEYREL.PRED "_cerril_a_rel" ]. cerro_n1 := n_intr_count_le & [ STEM < "cerro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cerro_n_rel" ] ]. cerrojazo_n1 := n_intr_count_le & [ STEM < "cerrojazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cerrojazo_n_rel" ] ]. cerrojo_n1 := n_intr_count_le & [ STEM < "cerrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerrojo_n_rel" ] ]. certamen_n1 := n_intr_count_le & [ STEM < "certamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_certamen_n_rel" ] ]. certeramente_x1 := av_i_spr_le & [ STEM < "certeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_certeramente_x_rel" ]. certero_a1 := a_qual_intr_scopal_le & [ STEM < "certero" >, SYNSEM.LKEYS.KEYREL.PRED "_certero_a_rel" ]. certeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "certeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_certeza_n_rel" ] ]. certidumbre_n1 := n_intr_mass_le & [ STEM < "certidumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_certidumbre_n_rel" ] ]. certificable_a1 := a_rel_prd_le & [ STEM < "certificable" >, SYNSEM.LKEYS.KEYREL.PRED "_certificable_a_rel" ]. certificación_n1 := n_trans_le & [ STEM < "certificación" >, SYNSEM.LKEYS.KEYREL.PRED "_certificación_n_rel" ]. certificado_n1 := n_intr_count_le & [ STEM < "certificado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_certificado_n_rel" ] ]. certificador_a1 := a_qual_intr_ser_le & [ STEM < "certificador" >, SYNSEM.LKEYS.KEYREL.PRED "_certificador_a_rel" ]. certificador_n1 := n_intr_count_le & [ STEM < "certificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_certificador_n_rel" ] ]. certificante_a1 := a_rel_nonprd_intr_le & [ STEM < "certificante" >, SYNSEM.LKEYS.KEYREL.PRED "_certificante_a_rel" ]. certificar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "certificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_certificar_v_rel" ] ]. certificar_v2 := v_ditrans*_le & [ STEM < "certificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_certificar_v_rel" ] ]. certificar_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "certificar" >, SYNSEM.LKEYS.KEYREL.PRED "_certificar_v_rel" ]. certificar_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "certificar" >, SYNSEM.LKEYS.KEYREL.PRED "_certificar_v_rel" ]. certificatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "certificatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_certificatorio_a_rel" ]. certitud_n1 := n_intr_uncount_le & [ STEM < "certitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_certitud_n_rel" ] ]. cerumen_n1 := n_intr_mass_le & [ STEM < "cerumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerumen_n_rel" ] ]. ceruminoma_n1 := n_intr_mass-or-count_le & [ STEM < "ceruminoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ceruminoma_n_rel" ] ]. ceruminosis_n1 := n_intr_uncount_le & [ STEM < "ceruminosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ceruminosis_n_rel" ] ]. ceruminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "ceruminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ceruminoso_a_rel" ]. cerusita_n1 := n_intr_count_le & [ STEM < "cerusita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerusita_n_rel" ] ]. cervantismo_n1 := n_intr_uncount_le & [ STEM < "cervantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cervantismo_n_rel" ] ]. cervato_n1 := n_intr_count_le & [ STEM < "cervato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cervato_n_rel" ] ]. cervecero_n1 := n_intr_count_le & [ STEM < "cervecero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cervecero_n_rel" ] ]. cervecería_n1 := n_intr_count_le & [ STEM < "cervecería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cervecería_n_rel" ] ]. cerveza_n1 := n_intr_mass_le & [ STEM < "cerveza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cerveza_n_rel" ] ]. cervical_a1 := a_rel_nonprd_intr_le & [ STEM < "cervical" >, SYNSEM.LKEYS.KEYREL.PRED "_cervical_a_rel" ]. cervicotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "cervicotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_cervicotorácico_a_rel" ]. cerviz_n1 := n_ppcomp_count_le & [ STEM < "cerviz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cerviz_n_rel" ] ]. cerámica_n1 := n_intr_mass_le & [ STEM < "cerámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cerámica_n_rel" ] ]. cerámico_a1 := a_rel_nonprd_intr_le & [ STEM < "cerámico" >, SYNSEM.LKEYS.KEYREL.PRED "_cerámico_a_rel" ]. cerúleo_a1 := a_rel_nonprd_intr_le & [ STEM < "cerúleo" >, SYNSEM.LKEYS.KEYREL.PRED "_cerúleo_a_rel" ]. cesación_n1 := n_result_intr_le & [ STEM < "cesación" >, SYNSEM.LKEYS.KEYREL.PRED "_cesación_n_rel" ]. cesante_a1 := a_rel_nonprd_intr_le & [ STEM < "cesante" >, SYNSEM.LKEYS.KEYREL.PRED "_cesante_a_rel" ]. cesar_v1 := v_intr_mrkd_vp_ssr_le & [ STEM < "cesar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_cesar_v_rel" ] ]. cesar_v2 := v_intr_le & [ STEM < "cesar" >, SYNSEM.LKEYS.KEYREL.PRED "_cesar_v_rel" ]. cesar_v3 := v_intr_mrkd_np_le & [ STEM < "cesar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_cesar_v_rel" ] ] ]. cesarismo_n1 := n_intr_uncount_le & [ STEM < "cesarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cesarismo_n_rel" ] ]. cesarista_n1 := n_intr_count_le & [ STEM < "cesarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cesarista_n_rel" ] ]. cese_n1 := n_event-result_intr_le & [ STEM < "cese" >, SYNSEM.LKEYS.KEYREL.PRED "_cese_n_rel" ]. cesio_n1 := n_intr_mass_le & [ STEM < "cesio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cesio_n_rel" ] ]. cesionable_a1 := a_rel_nonprd_intr_le & [ STEM < "cesionable" >, SYNSEM.LKEYS.KEYREL.PRED "_cesionable_a_rel" ]. cesionario_n1 := n_intr_count_le & [ STEM < "cesionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cesionario_n_rel" ] ]. cesionista_n1 := n_intr_count_le & [ STEM < "cesionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cesionista_n_rel" ] ]. cesión_n1 := n_trans_le & [ STEM < "cesión" >, SYNSEM.LKEYS.KEYREL.PRED "_cesión_n_rel" ]. cespitoso_a1 := a_rel_nonprd_intr_le & [ STEM < "cespitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cespitoso_a_rel" ]. cesta-punta_n1 := n_intr_count_le & [ STEM < "cesta-punta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cesta-punta_n_rel" ] ]. cesta_n1 := n_intr_count_le & [ STEM < "cesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cesta_n_rel" ] ]. cestero_n1 := n_intr_count_le & [ STEM < "cestero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cestero_n_rel" ] ]. cestería_n1 := n_intr_count_le & [ STEM < "cestería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cestería_n_rel" ] ]. cesto_n1 := n_intr_count_le & [ STEM < "cesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cesto_n_rel" ] ]. cestón_n1 := n_intr_count_le & [ STEM < "cestón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cestón_n_rel" ] ]. cesura_n1 := n_intr_count_le & [ STEM < "cesura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cesura_n_rel" ] ]. cesárea_n1 := n_trans_le & [ STEM < "cesárea" >, SYNSEM.LKEYS.KEYREL.PRED "_cesárea_n_rel" ]. cetano_n1 := n_intr_mass-or-count_le & [ STEM < "cetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cetano_n_rel" ] ]. cetaria_n1 := n_intr_count_le & [ STEM < "cetaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cetaria_n_rel" ] ]. cetena_n1 := n_intr_mass-or-count_le & [ STEM < "cetena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cetena_n_rel" ] ]. cetina_n1 := n_intr_count_le & [ STEM < "cetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cetina_n_rel" ] ]. cetoacidosis_n1 := n_intr_uncount_le & [ STEM < "cetoacidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cetoacidosis_n_rel" ] ]. cetobenzotriazina_n1 := n_intr_count_le & [ STEM < "cetobenzotriazina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cetobenzotriazina_n_rel" ] ]. cetona_n1 := n_intr_count_le & [ STEM < "cetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cetona_n_rel" ] ]. cetonemia_n1 := n_intr_uncount_le & [ STEM < "cetonemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cetonemia_n_rel" ] ]. cetonuria_n1 := n_intr_uncount_le & [ STEM < "cetonuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cetonuria_n_rel" ] ]. cetosa_n1 := n_intr_count_le & [ STEM < "cetosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cetosa_n_rel" ] ]. cetosis_n1 := n_intr_uncount_le & [ STEM < "cetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cetosis_n_rel" ] ]. cetoxima_n1 := n_intr_mass-or-count_le & [ STEM < "cetoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cetoxima_n_rel" ] ]. cetrería_n1 := n_intr_uncount_le & [ STEM < "cetrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cetrería_n_rel" ] ]. cetrino_a1 := a_qual_intr_ser_le & [ STEM < "cetrino" >, SYNSEM.LKEYS.KEYREL.PRED "_cetrino_a_rel" ]. cetro_n1 := n_intr_count_le & [ STEM < "cetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cetro_n_rel" ] ]. cetáceo_n1 := n_intr_count_le & [ STEM < "cetáceo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cetáceo_n_rel" ] ]. cetárea_n1 := n_intr_count_le & [ STEM < "cetárea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cetárea_n_rel" ] ]. cetílico_a1 := a_rel_nonprd_intr_le & [ STEM < "cetílico" >, SYNSEM.LKEYS.KEYREL.PRED "_cetílico_a_rel" ]. cevitámico_a1 := a_rel_nonprd_intr_le & [ STEM < "cevitámico" >, SYNSEM.LKEYS.KEYREL.PRED "_cevitámico_a_rel" ]. ceñidor_a1 := a_rel_nonprd_intr_le & [ STEM < "ceñidor" >, SYNSEM.LKEYS.KEYREL.PRED "_ceñidor_a_rel" ]. ceñir_v1 := v_ditrans*_le & [ STEM < "ceñir" >, SYNSEM.LKEYS.KEYREL.PRED "_ceñir_v_rel" ]. ceñir_v2 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "ceñir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ceñir_v_rel" ] ]. ceñir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "ceñir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ceñir_v_rel" ] ]. ceño_n1 := n_ppcomp_count_le & [ STEM < "ceño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ceño_n_rel" ] ]. ceñudo_a1 := a_qual_intr_ser_le & [ STEM < "ceñudo" >, SYNSEM.LKEYS.KEYREL.PRED "_ceñudo_a_rel" ]. chabola_n1 := n_intr_count_le & [ STEM < "chabola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chabola_n_rel" ] ]. chacal_n1 := n_intr_count_le & [ STEM < "chacal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chacal_n_rel" ] ]. chadiano_a1 := a_rel_prd_le & [ STEM < "chadiano" >, SYNSEM.LKEYS.KEYREL.PRED "_chadiano_a_rel" ]. chadiano_n1 := n_intr_count_le & [ STEM < "chadiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chadiano_n_rel" ] ]. chador_n1 := n_intr_count_le & [ STEM < "chador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chador_n_rel" ] ]. chaflán_n1 := n_intr_count_le & [ STEM < "chaflán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaflán_n_rel" ] ]. chal_n1 := n_intr_count_le & [ STEM < "chal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chal_n_rel" ] ]. chalana_n1 := n_intr_count_le & [ STEM < "chalana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chalana_n_rel" ] ]. chaleco_n1 := n_intr_count_le & [ STEM < "chaleco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaleco_n_rel" ] ]. chalet_n1 := n_intr_count_le & [ STEM < "chalet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_chalet_n_rel" ] ]. chalina_n1 := n_intr_count_le & [ STEM < "chalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chalina_n_rel" ] ]. chalote_n1 := n_intr_count_le & [ STEM < "chalote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_chalote_n_rel" ] ]. chalé_n1 := n_intr_count_le & [ STEM < "chalé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_chalé_n_rel" ] ]. chamanismo_n1 := n_intr_uncount_le & [ STEM < "chamanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chamanismo_n_rel" ] ]. chambelán_n1 := n_intr_count_le & [ STEM < "chambelán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chambelán_n_rel" ] ]. chambrana_n1 := n_intr_count_le & [ STEM < "chambrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chambrana_n_rel" ] ]. chamicera_n1 := n_intr_count_le & [ STEM < "chamicera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chamicera_n_rel" ] ]. chamosita_n1 := n_intr_count_le & [ STEM < "chamosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_chamosita_n_rel" ] ]. chamota_n1 := n_intr_mass_le & [ STEM < "chamota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_chamota_n_rel" ] ]. champaña_n1 := n_intr_mass_le & [ STEM < "champaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_champaña_n_rel" ] ]. champañera_n1 := n_intr_count_le & [ STEM < "champañera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_champañera_n_rel" ] ]. champañería_n1 := n_intr_count_le & [ STEM < "champañería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_champañería_n_rel" ] ]. champiñón_n1 := n_intr_mass_le & [ STEM < "champiñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_champiñón_n_rel" ] ]. champán_n1 := n_intr_mass_le & [ STEM < "champán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_champán_n_rel" ] ]. champú_n1 := n_intr_mass_le & [ STEM < "champú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_champú_n_rel" ] ]. chamuscar_v := v_trans_np_caus_le & [ STEM < "chamuscar" >, SYNSEM.LKEYS.KEYREL.PRED "_chamuscar_v_rel" ]. chamán_n1 := n_intr_count_le & [ STEM < "chamán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chamán_n_rel" ] ]. chancleta_n1 := n_intr_count_le & [ STEM < "chancleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chancleta_n_rel" ] ]. chanclo_n1 := n_intr_count_le & [ STEM < "chanclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chanclo_n_rel" ] ]. chanquete_n1 := n_intr_count_le & [ STEM < "chanquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chanquete_n_rel" ] ]. chantaje_n1 := n_intr_mass_le & [ STEM < "chantaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chantaje_n_rel" ] ]. chantajear_v := v_trans_np_le & [ STEM < "chantajear" >, SYNSEM.LKEYS.KEYREL.PRED "_chantajear_v_rel" ]. chantajista_n1 := n_intr_count_le & [ STEM < "chantajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chantajista_n_rel" ] ]. chantre_n1 := n_intr_count_le & [ STEM < "chantre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chantre_n_rel" ] ]. chanza_n1 := n_intr_count_le & [ STEM < "chanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chanza_n_rel" ] ]. chapa_n1 := n_intr_mass_le & [ STEM < "chapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chapa_n_rel" ] ]. chapaleta_n1 := n_intr_count_le & [ STEM < "chapaleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chapaleta_n_rel" ] ]. chapapote_n1 := n_intr_count_le & [ STEM < "chapapote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chapapote_n_rel" ] ]. chapar_v := v_trans_np_caus_int_le & [ STEM < "chapar" >, SYNSEM.LKEYS.KEYREL.PRED "_chapar_v_rel" ]. chaparral_n1 := n_intr_count_le & [ STEM < "chaparral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_chaparral_n_rel" ] ]. chaparrear_v := v_impers_strict_intr_le & [ STEM < "chaparrear" >, SYNSEM.LKEYS.KEYREL.PRED "_chaparrear_v_rel" ]. chaparrón_n1 := n_intr_count_le & [ STEM < "chaparrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_chaparrón_n_rel" ] ]. chapista_n1 := n_intr_count_le & [ STEM < "chapista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chapista_n_rel" ] ]. chapistería_n1 := n_intr_count_le & [ STEM < "chapistería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chapistería_n_rel" ] ]. chapotear_v1 := v_trans_np_le & [ STEM < "chapotear" >, SYNSEM.LKEYS.KEYREL.PRED "_chapotear_v_rel" ]. chapotear_v2 := v_intr_le & [ STEM < "chapotear" >, SYNSEM.LKEYS.KEYREL.PRED "_chapotear_v_rel" ]. chapoteo_n1 := n_event-result_intr_le & [ STEM < "chapoteo" >, SYNSEM.LKEYS.KEYREL.PRED "_chapoteo_n_rel" ]. chapuceramente_x1 := av_i_spr_le & [ STEM < "chapuceramente" >, SYNSEM.LKEYS.KEYREL.PRED "_chapuceramente_x_rel" ]. chapucero_a1 := a_qual_intr_ser_le & [ STEM < "chapucero" >, SYNSEM.LKEYS.KEYREL.PRED "_chapucero_a_rel" ]. chapucero_n1 := n_intr_count_le & [ STEM < "chapucero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chapucero_n_rel" ] ]. chapucería_n1 := n_intr_mass-or-count_le & [ STEM < "chapucería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chapucería_n_rel" ] ]. chapurrear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "chapurrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_chapurrear_v_rel" ] ]. chapurrear_v2 := v_ditrans*_le & [ STEM < "chapurrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_chapurrear_v_rel" ] ]. chapuza_n1 := n_intr_count_le & [ STEM < "chapuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chapuza_n_rel" ] ]. chapuzón_n1 := n_intr_count_le & [ STEM < "chapuzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chapuzón_n_rel" ] ]. chaqueta_n1 := n_intr_count_le & [ STEM < "chaqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaqueta_n_rel" ] ]. chaquetero_n1 := n_intr_count_le & [ STEM < "chaquetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chaquetero_n_rel" ] ]. chaquetilla_n1 := n_intr_count_le & [ STEM < "chaquetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaquetilla_n_rel" ] ]. chaquetón_n1 := n_intr_count_le & [ STEM < "chaquetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaquetón_n_rel" ] ]. chaqué_n1 := n_intr_count_le & [ STEM < "chaqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaqué_n_rel" ] ]. charanga_n1 := n_intr_coll_le & [ STEM < "charanga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_charanga_n_rel" ] ]. charcal_n1 := n_intr_count_le & [ STEM < "charcal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_charcal_n_rel" ] ]. charco_n1 := n_intr_count_le & [ STEM < "charco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_charco_n_rel" ] ]. charcutero_n1 := n_intr_count_le & [ STEM < "charcutero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_charcutero_n_rel" ] ]. charcutería_n1 := n_intr_count_le & [ STEM < "charcutería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_charcutería_n_rel" ] ]. charla_n1 := n_trans_le & [ STEM < "charla" >, SYNSEM.LKEYS.KEYREL.PRED "_charla_n_rel" ]. charlar_v1 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "charlar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_charlar_v_rel" ] ]. charlar_v2 := v_intr_mrkd_np*_le & [ STEM < "charlar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_charlar_v_rel" ] ]. charlatán_n1 := n_intr_count_le & [ STEM < "charlatán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_charlatán_n_rel" ] ]. charnego_n1 := n_intr_count_le & [ STEM < "charnego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_charnego_n_rel" ] ]. charnela_n1 := n_intr_count_le & [ STEM < "charnela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_charnela_n_rel" ] ]. charol_n1 := n_intr_mass_le & [ STEM < "charol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_charol_n_rel" ] ]. charter_n1 := n_intr_count_le & [ STEM < "charter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_charter_n_rel" ] ]. chasco_n1 := n_intr_count_le & [ STEM < "chasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chasco_n_rel" ] ]. chasis_n1 := n_intr_count_le & [ STEM < "chasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chasis_n_rel" ] ]. chasquido_n1 := n_result_intr_le & [ STEM < "chasquido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chasquido_n_rel" ] ]. chatarra_n1 := n_intr_mass_le & [ STEM < "chatarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chatarra_n_rel" ] ]. chatarrero_n1 := n_intr_count_le & [ STEM < "chatarrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chatarrero_n_rel" ] ]. chatarrería_n1 := n_intr_count_le & [ STEM < "chatarrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chatarrería_n_rel" ] ]. chauvinismo_n1 := n_intr_uncount_le & [ STEM < "chauvinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chauvinismo_n_rel" ] ]. chaval_n1 := n_intr_count_le & [ STEM < "chaval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chaval_n_rel" ] ]. chavalín_n1 := n_intr_count_le & [ STEM < "chavalín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chavalín_n_rel" ] ]. chaveta_n1 := n_intr_count_le & [ STEM < "chaveta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chaveta_n_rel" ] ]. chavetero_n1 := n_intr_count_le & [ STEM < "chavetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chavetero_n_rel" ] ]. chechenio_a1 := a_rel_prd_le & [ STEM < "chechenio" >, SYNSEM.LKEYS.KEYREL.PRED "_chechenio_a_rel" ]. chechenio_n1 := n_intr_count_le & [ STEM < "chechenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chechenio_n_rel" ] ]. checheno_a1 := a_rel_prd_le & [ STEM < "checheno" >, SYNSEM.LKEYS.KEYREL.PRED "_checheno_a_rel" ]. checheno_n1 := n_intr_count_le & [ STEM < "checheno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_checheno_n_rel" ] ]. checo_a1 := a_rel_prd_le & [ STEM < "checo" >, SYNSEM.LKEYS.KEYREL.PRED "_checo_a_rel" ]. checo_n1 := n_intr_count_le & [ STEM < "checo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_checo_n_rel" ] ]. checoslovaco_a1 := a_rel_prd_le & [ STEM < "checoslovaco" >, SYNSEM.LKEYS.KEYREL.PRED "_checoslovaco_a_rel" ]. checoslovaco_n1 := n_intr_count_le & [ STEM < "checoslovaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_checoslovaco_n_rel" ] ]. cheerleader_n1 := n_intr_count_le & [ STEM < "cheerleader" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cheerleader_n_rel" ] ]. chenilla_n1 := n_intr_count_le & [ STEM < "chenilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_chenilla_n_rel" ] ]. cheque_n1 := n_intr_count_le & [ STEM < "cheque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cheque_n_rel" ] ]. chequeo_n1 := n_intr_count_le & [ STEM < "chequeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chequeo_n_rel" ] ]. chercán_n1 := n_intr_count_le & [ STEM < "chercán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chercán_n_rel" ] ]. cheviot_n1 := n_intr_count_le & [ STEM < "cheviot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cheviot_n_rel" ] ]. chic_a1 := a_qual_intr_scopal_le & [ STEM < "chic" >, SYNSEM.LKEYS.KEYREL.PRED "_chic_a_rel" ]. chicana_n1 := n_intr_count_le & [ STEM < "chicana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chicana_n_rel" ] ]. chicharra_n1 := n_intr_count_le & [ STEM < "chicharra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chicharra_n_rel" ] ]. chicharro_n1 := n_intr_count_le & [ STEM < "chicharro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chicharro_n_rel" ] ]. chicharrón_n1 := n_intr_count_le & [ STEM < "chicharrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chicharrón_n_rel" ] ]. chichonera_n1 := n_intr_count_le & [ STEM < "chichonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chichonera_n_rel" ] ]. chicle_n1 := n_intr_mass_le & [ STEM < "chicle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chicle_n_rel" ] ]. chiclé_n1 := n_intr_count_le & [ STEM < "chiclé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chiclé_n_rel" ] ]. chico_a1 := a_qual_intr_ser_le & [ STEM < "chico" >, SYNSEM.LKEYS.KEYREL.PRED "_chico_a_rel" ]. chico_n1 := n_intr_count_le & [ STEM < "chico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chico_n_rel" ] ]. chicoria_n1 := n_intr_count_le & [ STEM < "chicoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chicoria_n_rel" ] ]. chicote_n1 := n_intr_count_le & [ STEM < "chicote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chicote_n_rel" ] ]. chiflar_v1 := v_intr_io*_le & [ STEM < "chiflar" >, SYNSEM.LKEYS.KEYREL.PRED "_chiflar_v_rel" ]. chiflar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "chiflar" >, SYNSEM.LKEYS.KEYREL.PRED "_chiflar_v_rel" ]. chigre_n1 := n_intr_count_le & [ STEM < "chigre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chigre_n_rel" ] ]. chiita_n1 := n_intr_count_le & [ STEM < "chiita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chiita_n_rel" ] ]. chileno_a1 := a_rel_prd_le & [ STEM < "chileno" >, SYNSEM.LKEYS.KEYREL.PRED "_chileno_a_rel" ]. chileno_n1 := n_intr_count_le & [ STEM < "chileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chileno_n_rel" ] ]. chilla_n1 := n_intr_count_le & [ STEM < "chilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chilla_n_rel" ] ]. chillado_n1 := n_intr_count_le & [ STEM < "chillado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chillado_n_rel" ] ]. chillar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "chillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_chillar_v_rel" ] ]. chillar_v2 := v_ditrans_cp_ques_le & [ STEM < "chillar" >, SYNSEM.LKEYS.KEYREL.PRED "_chillar_v_rel" ]. chillar_v3 := v_ditrans*_le & [ STEM < "chillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_chillar_v_rel" ] ]. chillar_v4 := v_intr_le & [ STEM < "chillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_chillar_v_rel" ] ]. chillido_n1 := n_result_intr_le & [ STEM < "chillido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chillido_n_rel" ] ]. chillón_a1 := a_qual_intr_scopal_le & [ STEM < "chillón" >, SYNSEM.LKEYS.KEYREL.PRED "_chillón_a_rel" ]. chimenea_n1 := n_intr_count_le & [ STEM < "chimenea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chimenea_n_rel" ] ]. chimpancé_n1 := n_intr_count_le & [ STEM < "chimpancé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chimpancé_n_rel" ] ]. chinchar_v1 := v_intr_io*_le & [ STEM < "chinchar" >, SYNSEM.LKEYS.KEYREL.PRED "_chinchar_v_rel" ]. chinchar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "chinchar" >, SYNSEM.LKEYS.KEYREL.PRED "_chinchar_v_rel" ]. chinche_n1 := n_intr_count_le & [ STEM < "chinche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chinche_n_rel" ] ]. chincheta_n1 := n_intr_count_le & [ STEM < "chincheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chincheta_n_rel" ] ]. chinchilla_n1 := n_intr_count_le & [ STEM < "chinchilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chinchilla_n_rel" ] ]. chino_a1 := a_rel_prd_le & [ STEM < "chino" >, SYNSEM.LKEYS.KEYREL.PRED "_chino_a_rel" ]. chino_n1 := n_intr_count_le & [ STEM < "chino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chino_n_rel" ] ]. chip_n1 := n_intr_count_le & [ STEM < "chip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chip_n_rel" ] ]. chipirón_n1 := n_intr_count_le & [ STEM < "chipirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chipirón_n_rel" ] ]. chipriota_a1 := a_rel_prd_le & [ STEM < "chipriota" >, SYNSEM.LKEYS.KEYREL.PRED "_chipriota_a_rel" ]. chipriota_n1 := n_intr_count_le & [ STEM < "chipriota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chipriota_n_rel" ] ]. chipriote_a1 := a_rel_prd_le & [ STEM < "chipriote" >, SYNSEM.LKEYS.KEYREL.PRED "_chipriote_a_rel" ]. chipriote_n1 := n_intr_count_le & [ STEM < "chipriote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chipriote_n_rel" ] ]. chiquillo_n1 := n_intr_count_le & [ STEM < "chiquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chiquillo_n_rel" ] ]. chirimoya_n1 := n_intr_count_le & [ STEM < "chirimoya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chirimoya_n_rel" ] ]. chiringuito_n1 := n_intr_count_le & [ STEM < "chiringuito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chiringuito_n_rel" ] ]. chirivía_n1 := n_intr_mass_le & [ STEM < "chirivía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_chirivía_n_rel" ] ]. chirla_n1 := n_intr_count_le & [ STEM < "chirla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chirla_n_rel" ] ]. chirona_n1 := n_intr_count_le & [ STEM < "chirona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chirona_n_rel" ] ]. chirriante_a1 := a_qual_intr_scopal_le & [ STEM < "chirriante" >, SYNSEM.LKEYS.KEYREL.PRED "_chirriante_a_rel" ]. chirriar_v1 := v_intr_le & [ STEM < "chirriar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc, PRED "_chirriar_v_rel" ] ]. chirrido_n1 := n_result_intr_le & [ STEM < "chirrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chirrido_n_rel" ] ]. chisme_n1 := n_intr_count_le & [ STEM < "chisme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chisme_n_rel" ] ]. chismorrear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "chismorrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_chismorrear_v_rel" ] ]. chismorrear_v2 := v_ditrans*_le & [ STEM < "chismorrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_chismorrear_v_rel" ] ]. chismorreo_n1 := n_result_intr_le & [ STEM < "chismorreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chismorreo_n_rel" ] ]. chismoso_a1 := a_qual_intr_ser_le & [ STEM < "chismoso" >, SYNSEM.LKEYS.KEYREL.PRED "_chismoso_a_rel" ]. chismoso_n1 := n_intr_count_le & [ STEM < "chismoso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chismoso_n_rel" ] ]. chispa_n1 := n_intr_count_le & [ STEM < "chispa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chispa_n_rel" ] ]. chispeante_a1 := a_qual_intr_scopal_le & [ STEM < "chispeante" >, SYNSEM.LKEYS.KEYREL.PRED "_chispeante_a_rel" ]. chisporrotear_v := v_intr_le & [ STEM < "chisporrotear" >, SYNSEM.LKEYS.KEYREL.PRED "_chisporrotear_v_rel" ]. chisporroteo_n1 := n_result_intr_le & [ STEM < "chisporroteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chisporroteo_n_rel" ] ]. chispómetro_n1 := n_intr_count_le & [ STEM < "chispómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chispómetro_n_rel" ] ]. chiste_n1 := n_result_intr_le & [ STEM < "chiste" >, SYNSEM.LKEYS.KEYREL.PRED "_chiste_n_rel" ]. chistera_n1 := n_intr_count_le & [ STEM < "chistera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chistera_n_rel" ] ]. chistorra_n1 := n_intr_count_le & [ STEM < "chistorra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chistorra_n_rel" ] ]. chistoso_a1 := a_qual_intr_ser_le & [ STEM < "chistoso" >, SYNSEM.LKEYS.KEYREL.PRED "_chistoso_a_rel" ]. chivo_n1 := n_intr_count_le & [ STEM < "chivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chivo_n_rel" ] ]. chiíta_n1 := n_intr_count_le & [ STEM < "chiíta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chiíta_n_rel" ] ]. chocante_a1 := a_qual_intr_scopal_le & [ STEM < "chocante" >, SYNSEM.LKEYS.KEYREL.PRED "_chocante_a_rel" ]. chocar_v1 := v_intr_io*_le & [ STEM < "chocar" >, SYNSEM.LKEYS.KEYREL.PRED "_chocar_v_rel" ]. chocar_v3 := v_intr_mrkd_np_le & [ STEM < "chocar" >, SYNSEM.LKEYS [ --COMPKEY con_or_contra_p_sel_rel, KEYREL.PRED "_chocar_v_rel" ] ]. chocar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "chocar" >, SYNSEM.LKEYS.KEYREL.PRED "_chocar_v_rel" ]. chocha_n1 := n_intr_count_le & [ STEM < "chocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chocha_n_rel" ] ]. chocho_a1 := a_qual_intr_estar_le & [ STEM < "chocho" >, SYNSEM.LKEYS.KEYREL.PRED "_chocho_a_rel" ]. chocolate_n1 := n_intr_mass_le & [ STEM < "chocolate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chocolate_n_rel" ] ]. chocolatina_n1 := n_intr_count_le & [ STEM < "chocolatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chocolatina_n_rel" ] ]. chopera_n1 := n_intr_count_le & [ STEM < "chopera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_chopera_n_rel" ] ]. chopo_n1 := n_intr_count_le & [ STEM < "chopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_chopo_n_rel" ] ]. choque_n1 := n_result_intr_le & [ STEM < "choque" >, SYNSEM.LKEYS.KEYREL.PRED "_choque_n_rel" ]. chorizo_n1 := n_intr_count_le & [ STEM < "chorizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chorizo_n_rel" ] ]. chorlo_n1 := n_intr_count_le & [ STEM < "chorlo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_chorlo_n_rel" ] ]. chorrada_n1 := n_intr_count_le & [ STEM < "chorrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chorrada_n_rel" ] ]. chorrera_n1 := n_intr_count_le & [ STEM < "chorrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chorrera_n_rel" ] ]. chorro_n1 := n_intr_count_le & [ STEM < "chorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chorro_n_rel" ] ]. chova_n1 := n_intr_count_le & [ STEM < "chova" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_chova_n_rel" ] ]. chovinismo_n1 := n_intr_uncount_le & [ STEM < "chovinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chovinismo_n_rel" ] ]. chovinista_a1 := a_qual_intr_ser_le & [ STEM < "chovinista" >, SYNSEM.LKEYS.KEYREL.PRED "_chovinista_a_rel" ]. chovinista_n1 := n_intr_count_le & [ STEM < "chovinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chovinista_n_rel" ] ]. chovinistamente_x1 := av_i_spr_le & [ STEM < "chovinistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_chovinistamente_x_rel" ]. choza_n1 := n_intr_count_le & [ STEM < "choza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_choza_n_rel" ] ]. chubasco_n1 := n_intr_count_le & [ STEM < "chubasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_chubasco_n_rel" ] ]. chubasquero_n1 := n_intr_count_le & [ STEM < "chubasquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chubasquero_n_rel" ] ]. chuchería_n1 := n_intr_count_le & [ STEM < "chuchería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chuchería_n_rel" ] ]. chufa_n1 := n_intr_count_le & [ STEM < "chufa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_chufa_n_rel" ] ]. chulería_n1 := n_intr_mass-or-count_le & [ STEM < "chulería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_chulería_n_rel" ] ]. chuleta_n1 := n_intr_count_le & [ STEM < "chuleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chuleta_n_rel" ] ]. chuletón_n1 := n_ppcomp_count_le & [ STEM < "chuletón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_chuletón_n_rel" ] ]. chulo_n1 := n_intr_count_le & [ STEM < "chulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chulo_n_rel" ] ]. chumacera_n1 := n_intr_count_le & [ STEM < "chumacera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chumacera_n_rel" ] ]. chumbera_n1 := n_intr_count_le & [ STEM < "chumbera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_chumbera_n_rel" ] ]. chumbo_a1 := a_rel_nonprd_intr_le & [ STEM < "chumbo" >, SYNSEM.LKEYS.KEYREL.PRED "_chumbo_a_rel" ]. chupada_n1 := n_trans_le & [ STEM < "chupada" >, SYNSEM.LKEYS.KEYREL.PRED "_chupada_n_rel" ]. chupador_a1 := a_rel_nonprd_intr_le & [ STEM < "chupador" >, SYNSEM.LKEYS.KEYREL.PRED "_chupador_a_rel" ]. chupete_n1 := n_intr_count_le & [ STEM < "chupete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chupete_n_rel" ] ]. churrero_n1 := n_intr_count_le & [ STEM < "churrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_churrero_n_rel" ] ]. churrería_n1 := n_intr_count_le & [ STEM < "churrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_churrería_n_rel" ] ]. chusma_n1 := n_intr_coll_le & [ STEM < "chusma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chusma_n_rel" ] ]. chut_n1 := n_trans_le & [ STEM < "chut" >, SYNSEM.LKEYS.KEYREL.PRED "_chut_n_rel" ]. chutador_n1 := n_subj-nom_le & [ STEM < "chutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chutador_n_rel" ] ]. chutar_v1 := v_ditrans*_le & [ STEM < "chutar" >, SYNSEM.LKEYS.KEYREL.PRED "_chutar_v_rel" ]. chutar_v2 := v_intr_le & [ STEM < "chutar" >, SYNSEM.LKEYS.KEYREL.PRED "_chutar_v_rel" ]. chutar_v3 := v_trans_np_lcomp_dir*_le & [ STEM < "chutar" >, SYNSEM.LKEYS.KEYREL.PRED "_chutar_v_rel" ]. chutar_v4 := v_trans_np*_lcomp_dir_le & [ STEM < "chutar" >, SYNSEM.LKEYS.KEYREL.PRED "_chutar_v_rel" ]. chándal_n1 := n_intr_count_le & [ STEM < "chándal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_chándal_n_rel" ] ]. chárter_n1 := n_intr_count_le & [ STEM < "chárter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_chárter_n_rel" ] ]. chófer_n1 := n_intr_count_le & [ STEM < "chófer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_chófer_n_rel" ] ]. cianacético_a1 := a_rel_nonprd_intr_le & [ STEM < "cianacético" >, SYNSEM.LKEYS.KEYREL.PRED "_cianacético_a_rel" ]. cianamida_n1 := n_intr_count_le & [ STEM < "cianamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianamida_n_rel" ] ]. cianato_n1 := n_intr_count_le & [ STEM < "cianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianato_n_rel" ] ]. cianhemoglobina_n1 := n_intr_count_le & [ STEM < "cianhemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cianhemoglobina_n_rel" ] ]. cianhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "cianhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cianhídrico_a_rel" ]. cianina_n1 := n_intr_count_le & [ STEM < "cianina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianina_n_rel" ] ]. cianita_n1 := n_intr_count_le & [ STEM < "cianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianita_n_rel" ] ]. cianmetahemoglobina_n1 := n_intr_count_le & [ STEM < "cianmetahemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cianmetahemoglobina_n_rel" ] ]. cianoacetamida_n1 := n_intr_count_le & [ STEM < "cianoacetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianoacetamida_n_rel" ] ]. cianoacetato_n1 := n_intr_count_le & [ STEM < "cianoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianoacetato_n_rel" ] ]. cianoetilado_a1 := a_rel_nonprd_intr_le & [ STEM < "cianoetilado" >, SYNSEM.LKEYS.KEYREL.PRED "_cianoetilado_a_rel" ]. cianoformiato_n1 := n_intr_count_le & [ STEM < "cianoformiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianoformiato_n_rel" ] ]. cianofícea_n1 := n_intr_count_le & [ STEM < "cianofícea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cianofícea_n_rel" ] ]. cianohidrina_n1 := n_intr_count_le & [ STEM < "cianohidrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cianohidrina_n_rel" ] ]. cianopsia_n1 := n_intr_uncount_le & [ STEM < "cianopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cianopsia_n_rel" ] ]. cianotipia_n1 := n_intr_uncount_le & [ STEM < "cianotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cianotipia_n_rel" ] ]. cianurato_n1 := n_intr_count_le & [ STEM < "cianurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianurato_n_rel" ] ]. cianuro_n1 := n_intr_mass_le & [ STEM < "cianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianuro_n_rel" ] ]. cianógeno_n1 := n_intr_count_le & [ STEM < "cianógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cianógeno_n_rel" ] ]. cianúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "cianúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cianúrico_a_rel" ]. ciberarcadia_n1 := n_intr_count_le & [ STEM < "ciberarcadia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_ciberarcadia_n_rel" ] ]. ciberdemocracia_n1 := n_intr_uncount_pl_le & [ STEM < "ciberdemocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciberdemocracia_n_rel" ] ]. ciberespacio_n1 := n_intr_uncount_pl_le & [ STEM < "ciberespacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciberespacio_n_rel" ] ]. cibernética_n1 := n_intr_uncount_le & [ STEM < "cibernética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cibernética_n_rel" ] ]. cibernético_a1 := a_qual_intr_scopal_le & [ STEM < "cibernético" >, SYNSEM.LKEYS.KEYREL.PRED "_cibernético_a_rel" ]. ciborio_n1 := n_intr_count_le & [ STEM < "ciborio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciborio_n_rel" ] ]. cicatriz_n1 := n_intr_count_le & [ STEM < "cicatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cicatriz_n_rel" ] ]. cicatrización_n1 := n_trans_le & [ STEM < "cicatrización" >, SYNSEM.LKEYS.KEYREL.PRED "_cicatrización_n_rel" ]. cicatrizal_a1 := a_rel_nonprd_intr_le & [ STEM < "cicatrizal" >, SYNSEM.LKEYS.KEYREL.PRED "_cicatrizal_a_rel" ]. cicatrizar_v := v_trans_np_caus_int_le & [ STEM < "cicatrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_cicatrizar_v_rel" ]. ciclamato_n1 := n_intr_count_le & [ STEM < "ciclamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclamato_n_rel" ] ]. ciclamen_n1 := n_intr_count_le & [ STEM < "ciclamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ciclamen_n_rel" ] ]. ciclar_v := v_trans_np_le & [ STEM < "ciclar" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclar_v_rel" ]. ciclectomía_n1 := n_intr_uncount_le & [ STEM < "ciclectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclectomía_n_rel" ] ]. cicletrina_n1 := n_intr_count_le & [ STEM < "cicletrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cicletrina_n_rel" ] ]. ciclicidad_n1 := n_intr_uncount_le & [ STEM < "ciclicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclicidad_n_rel" ] ]. ciclismo_n1 := n_intr_uncount_le & [ STEM < "ciclismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclismo_n_rel" ] ]. ciclista_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclista" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclista_a_rel" ]. ciclista_n1 := n_intr_count_le & [ STEM < "ciclista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ciclista_n_rel" ] ]. ciclitis_n1 := n_intr_uncount_le & [ STEM < "ciclitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclitis_n_rel" ] ]. ciclo_n1 := n_intr_count_le & [ STEM < "ciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclo_n_rel" ] ]. ciclobarbital_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclobarbital" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclobarbital_a_rel" ]. ciclocefalia_n1 := n_intr_uncount_le & [ STEM < "ciclocefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclocefalia_n_rel" ] ]. cicloconvertidor_n1 := n_intr_count_le & [ STEM < "cicloconvertidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cicloconvertidor_n_rel" ] ]. ciclocoroiditis_n1 := n_intr_uncount_le & [ STEM < "ciclocoroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclocoroiditis_n_rel" ] ]. ciclocumarol_n1 := n_intr_count_le & [ STEM < "ciclocumarol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclocumarol_n_rel" ] ]. ciclodiatermia_n1 := n_intr_uncount_le & [ STEM < "ciclodiatermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclodiatermia_n_rel" ] ]. ciclodiálisis_n1 := n_intr_uncount_le & [ STEM < "ciclodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclodiálisis_n_rel" ] ]. cicloelectrólisis_n1 := n_intr_uncount_le & [ STEM < "cicloelectrólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cicloelectrólisis_n_rel" ] ]. ciclofilina_n1 := n_intr_count_le & [ STEM < "ciclofilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclofilina_n_rel" ] ]. cicloforia_n1 := n_intr_uncount_le & [ STEM < "cicloforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cicloforia_n_rel" ] ]. cicloforómetro_n1 := n_intr_count_le & [ STEM < "cicloforómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cicloforómetro_n_rel" ] ]. ciclofosfamida_n1 := n_intr_mass_le & [ STEM < "ciclofosfamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclofosfamida_n_rel" ] ]. ciclogénesis_n1 := n_intr_uncount_le & [ STEM < "ciclogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclogénesis_n_rel" ] ]. ciclohexandimetanol_n1 := n_intr_count_le & [ STEM < "ciclohexandimetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexandimetanol_n_rel" ] ]. ciclohexano_n1 := n_intr_count_le & [ STEM < "ciclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexano_n_rel" ] ]. ciclohexanol_n1 := n_intr_count_le & [ STEM < "ciclohexanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexanol_n_rel" ] ]. ciclohexanona_n1 := n_intr_count_le & [ STEM < "ciclohexanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexanona_n_rel" ] ]. ciclohexeno_n1 := n_intr_count_le & [ STEM < "ciclohexeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexeno_n_rel" ] ]. ciclohexilamina_n1 := n_intr_count_le & [ STEM < "ciclohexilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclohexilamina_n_rel" ] ]. cicloidal_a1 := a_rel_nonprd_intr_le & [ STEM < "cicloidal" >, SYNSEM.LKEYS.KEYREL.PRED "_cicloidal_a_rel" ]. cicloidalmente_x1 := av_i_spr_le & [ STEM < "cicloidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cicloidalmente_x_rel" ]. cicloide_a1 := a_rel_nonprd_intr_le & [ STEM < "cicloide" >, SYNSEM.LKEYS.KEYREL.PRED "_cicloide_a_rel" ]. cicloide_n1 := n_intr_count_le & [ STEM < "cicloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cicloide_n_rel" ] ]. ciclomotor_n1 := n_intr_count_le & [ STEM < "ciclomotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclomotor_n_rel" ] ]. ciclomotorista_n1 := n_intr_count_le & [ STEM < "ciclomotorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ciclomotorista_n_rel" ] ]. ciclonal_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclonal" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclonal_a_rel" ]. ciclonalmente_x1 := av_i_spr_le & [ STEM < "ciclonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclonalmente_x_rel" ]. ciclooxigenasa_n1 := n_intr_count_le & [ STEM < "ciclooxigenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclooxigenasa_n_rel" ] ]. cicloparafina_n1 := n_intr_count_le & [ STEM < "cicloparafina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cicloparafina_n_rel" ] ]. ciclopentano_n1 := n_intr_count_le & [ STEM < "ciclopentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclopentano_n_rel" ] ]. ciclopentanol_n1 := n_intr_count_le & [ STEM < "ciclopentanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclopentanol_n_rel" ] ]. ciclopenteno_n1 := n_intr_count_le & [ STEM < "ciclopenteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclopenteno_n_rel" ] ]. ciclopentilpropionato_n1 := n_intr_count_le & [ STEM < "ciclopentilpropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclopentilpropionato_n_rel" ] ]. cicloplejía_n1 := n_intr_uncount_le & [ STEM < "cicloplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cicloplejía_n_rel" ] ]. ciclopropano_n1 := n_intr_count_le & [ STEM < "ciclopropano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclopropano_n_rel" ] ]. ciclopía_n1 := n_intr_uncount_le & [ STEM < "ciclopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclopía_n_rel" ] ]. cicloqueratitis_n1 := n_intr_uncount_le & [ STEM < "cicloqueratitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cicloqueratitis_n_rel" ] ]. ciclorama_n1 := n_intr_count_le & [ STEM < "ciclorama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclorama_n_rel" ] ]. ciclosilicato_n1 := n_intr_count_le & [ STEM < "ciclosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclosilicato_n_rel" ] ]. ciclosiloxano_n1 := n_intr_count_le & [ STEM < "ciclosiloxano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ciclosiloxano_n_rel" ] ]. ciclosis_n1 := n_intr_uncount_le & [ STEM < "ciclosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclosis_n_rel" ] ]. ciclosporina_n1 := n_intr_count_le & [ STEM < "ciclosporina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclosporina_n_rel" ] ]. ciclotimia_n1 := n_intr_uncount_pl_le & [ STEM < "ciclotimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclotimia_n_rel" ] ]. ciclotomía_n1 := n_intr_uncount_pl_le & [ STEM < "ciclotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclotomía_n_rel" ] ]. ciclotropía_n1 := n_intr_uncount_le & [ STEM < "ciclotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciclotropía_n_rel" ] ]. ciclotrón_n1 := n_intr_count_le & [ STEM < "ciclotrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciclotrón_n_rel" ] ]. ciclotrónicamente_x1 := av_i_spr_le & [ STEM < "ciclotrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclotrónicamente_x_rel" ]. ciclotrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclotrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclotrónico_a_rel" ]. cicloturista_n1 := n_intr_count_le & [ STEM < "cicloturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cicloturista_n_rel" ] ]. ciclón_n1 := n_intr_count_le & [ STEM < "ciclón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_ciclón_n_rel" ] ]. ciclónicamente_x1 := av_i_spr_le & [ STEM < "ciclónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclónicamente_x_rel" ]. ciclónico_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclónico" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclónico_a_rel" ]. ciclópeo_a1 := a_rel_nonprd_intr_le & [ STEM < "ciclópeo" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclópeo_a_rel" ]. ciclótomamente_x1 := av_i_spr_le & [ STEM < "ciclótomamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciclótomamente_x_rel" ]. cicuta_n1 := n_intr_mass_le & [ STEM < "cicuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cicuta_n_rel" ] ]. cidra_n1 := n_intr_count_le & [ STEM < "cidra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cidra_n_rel" ] ]. ciegamente_x1 := av_i_spr_le & [ STEM < "ciegamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciegamente_x_rel" ]. ciego_a1 := a_qual_intr_scopal_le & [ STEM < "ciego" >, SYNSEM.LKEYS.KEYREL.PRED "_ciego_a_rel" ]. ciego_n1 := n_intr_count_le & [ STEM < "ciego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ciego_n_rel" ] ]. cielo_n1 := n_intr_mass_le & [ STEM < "cielo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cielo_n_rel" ] ]. ciempiés_n1 := n_intr_count_le & [ STEM < "ciempiés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ciempiés_n_rel" ] ]. cien_por_cien_x1 := av_i_le & [ STEM < "cien_por_cien" >, SYNSEM.LKEYS.KEYREL.PRED "_cien_por_cien_x_rel" ]. ciencia_n1 := n_intr_count_le & [ STEM < "ciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciencia_n_rel" ] ]. cieno_n1 := n_intr_mass_le & [ STEM < "cieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cieno_n_rel" ] ]. cientificismo_n1 := n_intr_uncount_le & [ STEM < "cientificismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cientificismo_n_rel" ] ]. ciento_por_ciento_x1 := av_i_le & [ STEM < "ciento_por_ciento" >, SYNSEM.LKEYS.KEYREL.PRED "_ciento_por_ciento_x_rel" ]. ciento_y_la_madre_x1 := av_i_le & [ STEM < "ciento_y_la_madre" >, SYNSEM.LKEYS.KEYREL.PRED "_ciento_y_la_madre_x_rel" ]. científicamente_x1 := av_i_spr_le & [ STEM < "científicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_científicamente_x_rel" ]. científico-técnicamente_x1 := av_i_spr_le & [ STEM < "científico-técnicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_científico-técnicamente_x_rel" ]. científico-técnico_a1 := a_rel_nonprd_intr_le & [ STEM < "científico-técnico" >, SYNSEM.LKEYS.KEYREL.PRED "_científico-técnico_a_rel" ]. científico_a1 := a_rel_nonprd_intr_le & [ STEM < "científico" >, SYNSEM.LKEYS.KEYREL.PRED "_científico_a_rel" ]. científico_n1 := n_intr_count_le & [ STEM < "científico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_científico_n_rel" ] ]. cierre_n1 := n_intr_count_le & [ STEM < "cierre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cierre_n_rel" ] ]. ciertamente_x1 := av_s_prhd_le & [ STEM < "ciertamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ciertamente_x_rel" ]. cierto_a1 := a_adv_int_le & [ STEM < "cierto" >, SYNSEM.LKEYS.KEYREL.PRED "_cierto_a_rel" ]. cierto_a2 := a_qual_intr_scopal_le & [ STEM < "cierto" >, SYNSEM.LKEYS.KEYREL.PRED "_cierto_a_rel" ]. ciervo_n1 := n_intr_count_le & [ STEM < "ciervo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ciervo_n_rel" ] ]. cierzo_n1 := n_intr_uncount_le & [ STEM < "cierzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cierzo_n_rel" ] ]. cifra_n1 := n_intr_count_le & [ STEM < "cifra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cifra_n_rel" ] ]. cifrar_v := v_trans_np_mrkd_np_le & [ STEM < "cifrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_cifrar_v_rel" ] ]. cigala_n1 := n_intr_count_le & [ STEM < "cigala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cigala_n_rel" ] ]. cigarra_n1 := n_intr_count_le & [ STEM < "cigarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cigarra_n_rel" ] ]. cigarrera_n1 := n_intr_count_le & [ STEM < "cigarrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigarrera_n_rel" ] ]. cigarrillo_n1 := n_intr_count_le & [ STEM < "cigarrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigarrillo_n_rel" ] ]. cigarro_n1 := n_intr_count_le & [ STEM < "cigarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigarro_n_rel" ] ]. cigoma_n1 := n_intr_count_le & [ STEM < "cigoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigoma_n_rel" ] ]. cigoma_n2 := n_ppcomp_count_le & [ STEM < "cigoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cigoma_n_rel" ] ]. cigomaticofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomaticofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomaticofacial_a_rel" ]. cigomaticofrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomaticofrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomaticofrontal_a_rel" ]. cigomaticomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomaticomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomaticomaxilar_a_rel" ]. cigomaticotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomaticotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomaticotemporal_a_rel" ]. cigomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomaxilar_a_rel" ]. cigomaxilar_n1 := n_intr_count_le & [ STEM < "cigomaxilar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigomaxilar_n_rel" ] ]. cigomático_a1 := a_rel_nonprd_intr_le & [ STEM < "cigomático" >, SYNSEM.LKEYS.KEYREL.PRED "_cigomático_a_rel" ]. cigosoma_n1 := n_intr_count_le & [ STEM < "cigosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigosoma_n_rel" ] ]. cigotena_n1 := n_intr_uncount_le & [ STEM < "cigotena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cigotena_n_rel" ] ]. cigoto_n1 := n_intr_count_le & [ STEM < "cigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigoto_n_rel" ] ]. cigotoblasto_n1 := n_intr_count_le & [ STEM < "cigotoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigotoblasto_n_rel" ] ]. cigotonúcleo_n1 := n_intr_mass_le & [ STEM < "cigotonúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigotonúcleo_n_rel" ] ]. cigoñal_n1 := n_intr_count_le & [ STEM < "cigoñal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigoñal_n_rel" ] ]. cigüeña_n1 := n_intr_count_le & [ STEM < "cigüeña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cigüeña_n_rel" ] ]. cigüeñal_n1 := n_intr_count_le & [ STEM < "cigüeñal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cigüeñal_n_rel" ] ]. cilantro_n1 := n_intr_mass_le & [ STEM < "cilantro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cilantro_n_rel" ] ]. ciliar_a1 := a_rel_nonprd_intr_le & [ STEM < "ciliar" >, SYNSEM.LKEYS.KEYREL.PRED "_ciliar_a_rel" ]. ciliaroscopio_n1 := n_intr_count_le & [ STEM < "ciliaroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciliaroscopio_n_rel" ] ]. ciliarotomía_n1 := n_intr_uncount_le & [ STEM < "ciliarotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciliarotomía_n_rel" ] ]. cilicotomía_n1 := n_intr_count_le & [ STEM < "cilicotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cilicotomía_n_rel" ] ]. ciliectomía_n1 := n_intr_count_le & [ STEM < "ciliectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciliectomía_n_rel" ] ]. cilindrada_n1 := n_intr_mass_le & [ STEM < "cilindrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_cilindrada_n_rel" ] ]. cilindricidad_n1 := n_ppcomp_uncount_le & [ STEM < "cilindricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cilindricidad_n_rel" ] ]. cilindro_n1 := n_intr_count_le & [ STEM < "cilindro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cilindro_n_rel" ] ]. cilindroide_n1 := n_intr_count_le & [ STEM < "cilindroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cilindroide_n_rel" ] ]. cilio_n1 := n_intr_count_le & [ STEM < "cilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cilio_n_rel" ] ]. cilíndrico_a1 := a_qual_intr_ser_le & [ STEM < "cilíndrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cilíndrico_a_rel" ]. cima_n1 := n_intr_count_le & [ STEM < "cima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cima_n_rel" ] ]. cimacio_n1 := n_intr_count_le & [ STEM < "cimacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimacio_n_rel" ] ]. cimborio_n1 := n_intr_count_le & [ STEM < "cimborio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimborio_n_rel" ] ]. cimbra_n1 := n_intr_count_le & [ STEM < "cimbra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimbra_n_rel" ] ]. cimbreo_n1 := n_trans_le & [ STEM < "cimbreo" >, SYNSEM.LKEYS.KEYREL.PRED "_cimbreo_n_rel" ]. cimbro_n1 := n_intr_count_le & [ STEM < "cimbro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cimbro_n_rel" ] ]. cimeno_n1 := n_intr_mass-or-count_le & [ STEM < "cimeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cimeno_n_rel" ] ]. cimentación_n1 := n_trans_le & [ STEM < "cimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_cimentación_n_rel" ]. cimentar_v := v_trans_np_caus_le & [ STEM < "cimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_cimentar_v_rel" ]. cimera_n1 := n_intr_count_le & [ STEM < "cimera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimera_n_rel" ] ]. cimero_a1 := a_rel_nonprd_intr_le & [ STEM < "cimero" >, SYNSEM.LKEYS.KEYREL.PRED "_cimero_a_rel" ]. cimetidina_n1 := n_intr_count_le & [ STEM < "cimetidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimetidina_n_rel" ] ]. cimiento_n1 := n_intr_count_le & [ STEM < "cimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimiento_n_rel" ] ]. ciminogenasa_n1 := n_intr_count_le & [ STEM < "ciminogenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciminogenasa_n_rel" ] ]. cimitarra_n1 := n_intr_count_le & [ STEM < "cimitarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cimitarra_n_rel" ] ]. cimófano_n1 := n_intr_count_le & [ STEM < "cimófano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cimófano_n_rel" ] ]. cinabrio_n1 := n_intr_mass_le & [ STEM < "cinabrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinabrio_n_rel" ] ]. cinamato_n1 := n_intr_count_le & [ STEM < "cinamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinamato_n_rel" ] ]. cinc_n1 := n_intr_mass_le & [ STEM < "cinc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinc_n_rel" ] ]. cincado_a1 := a_rel_nonprd_intr_le & [ STEM < "cincado" >, SYNSEM.LKEYS.KEYREL.PRED "_cincado_a_rel" ]. cincar_v := v_trans_np_le & [ STEM < "cincar" >, SYNSEM.LKEYS.KEYREL.PRED "_cincar_v_rel" ]. cincel_n1 := n_intr_count_le & [ STEM < "cincel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cincel_n_rel" ] ]. cincelador_n1 := n_subj-nom_le & [ STEM < "cincelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cincelador_n_rel" ] ]. cincelar_v := v_trans_np_le & [ STEM < "cincelar" >, SYNSEM.LKEYS.KEYREL.PRED "_cincelar_v_rel" ]. cincha_n1 := n_intr_count_le & [ STEM < "cincha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cincha_n_rel" ] ]. cinchera_n1 := n_intr_count_le & [ STEM < "cinchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinchera_n_rel" ] ]. cincita_n1 := n_intr_mass_le & [ STEM < "cincita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cincita_n_rel" ] ]. cincograbado_n1 := n_intr_count_le & [ STEM < "cincograbado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cincograbado_n_rel" ] ]. cinconidina_n1 := n_intr_count_le & [ STEM < "cinconidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinconidina_n_rel" ] ]. cincuentenario_n1 := n_intr_count_le & [ STEM < "cincuentenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_cincuentenario_n_rel" ] ]. cincuentón_n1 := n_intr_count_le & [ STEM < "cincuentón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cincuentón_n_rel" ] ]. cincófeno_n1 := n_intr_count_le & [ STEM < "cincófeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cincófeno_n_rel" ] ]. cine_n1 := n_intr_count_le & [ STEM < "cine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_cine_n_rel" ] ]. cineasta_n1 := n_intr_count_le & [ STEM < "cineasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cineasta_n_rel" ] ]. cinecámara_n1 := n_intr_count_le & [ STEM < "cinecámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinecámara_n_rel" ] ]. cinegética_n1 := n_intr_uncount_le & [ STEM < "cinegética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinegética_n_rel" ] ]. cinegéticamente_x1 := av_i_spr_le & [ STEM < "cinegéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cinegéticamente_x_rel" ]. cinegético_a1 := a_rel_nonprd_intr_le & [ STEM < "cinegético" >, SYNSEM.LKEYS.KEYREL.PRED "_cinegético_a_rel" ]. cinematografía_n1 := n_intr_uncount_le & [ STEM < "cinematografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinematografía_n_rel" ] ]. cinematográficamente_x1 := av_i_spr_le & [ STEM < "cinematográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cinematográficamente_x_rel" ]. cinematográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cinematográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cinematográfico_a_rel" ]. cinematógrafo_n1 := n_intr_count_le & [ STEM < "cinematógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinematógrafo_n_rel" ] ]. cinemática_n1 := n_intr_uncount_le & [ STEM < "cinemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinemática_n_rel" ] ]. cinemáticamente_x1 := av_i_spr_le & [ STEM < "cinemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cinemáticamente_x_rel" ]. cinemático_a1 := a_rel_nonprd_intr_le & [ STEM < "cinemático" >, SYNSEM.LKEYS.KEYREL.PRED "_cinemático_a_rel" ]. cinemómetro_n1 := n_intr_count_le & [ STEM < "cinemómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinemómetro_n_rel" ] ]. cinerama_n1 := n_intr_uncount_le & [ STEM < "cinerama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinerama_n_rel" ] ]. cinerina_n1 := n_intr_count_le & [ STEM < "cinerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinerina_n_rel" ] ]. cinescopio_n1 := n_intr_count_le & [ STEM < "cinescopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinescopio_n_rel" ] ]. cinesiología_n1 := n_intr_uncount_le & [ STEM < "cinesiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinesiología_n_rel" ] ]. cinesiterapeuta_n1 := n_intr_count_le & [ STEM < "cinesiterapeuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cinesiterapeuta_n_rel" ] ]. cinesiterapia_n1 := n_intr_uncount_le & [ STEM < "cinesiterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinesiterapia_n_rel" ] ]. cinetocoro_n1 := n_intr_count_le & [ STEM < "cinetocoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinetocoro_n_rel" ] ]. cinetocórico_a1 := a_rel_nonprd_intr_le & [ STEM < "cinetocórico" >, SYNSEM.LKEYS.KEYREL.PRED "_cinetocórico_a_rel" ]. cinetoplasma_n1 := n_intr_count_le & [ STEM < "cinetoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinetoplasma_n_rel" ] ]. cinetosis_n1 := n_intr_uncount_le & [ STEM < "cinetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinetosis_n_rel" ] ]. cinetosoma_n1 := n_intr_count_le & [ STEM < "cinetosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinetosoma_n_rel" ] ]. cingalés_a1 := a_rel_prd_le & [ STEM < "cingalés" >, SYNSEM.LKEYS.KEYREL.PRED "_cingalés_a_rel" ]. cingalés_n1 := n_intr_count_le & [ STEM < "cingalés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cingalés_n_rel" ] ]. cinina_n1 := n_intr_mass_le & [ STEM < "cinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinina_n_rel" ] ]. cininógeno_n1 := n_intr_count_le & [ STEM < "cininógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cininógeno_n_rel" ] ]. cinismo_n1 := n_intr_uncount_le & [ STEM < "cinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinismo_n_rel" ] ]. cinodontismo_n1 := n_intr_uncount_le & [ STEM < "cinodontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinodontismo_n_rel" ] ]. cinodonto_n1 := n_ppcomp_count_le & [ STEM < "cinodonto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cinodonto_n_rel" ] ]. cinoplasma_n1 := n_intr_count_le & [ STEM < "cinoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinoplasma_n_rel" ] ]. cinosoma_n1 := n_intr_count_le & [ STEM < "cinosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinosoma_n_rel" ] ]. cinta_n1 := n_intr_count_le & [ STEM < "cinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinta_n_rel" ] ]. cinteado_a1 := a_qual_intr_estar_le & [ STEM < "cinteado" >, SYNSEM.LKEYS.KEYREL.PRED "_cinteado_a_rel" ]. cintilar_v := v_intr_le & [ STEM < "cintilar" >, SYNSEM.LKEYS.KEYREL.PRED "_cintilar_v_rel" ]. cintilla_n1 := n_ppcomp_count_le & [ STEM < "cintilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cintilla_n_rel" ] ]. cintra_n1 := n_intr_uncount_pl_le & [ STEM < "cintra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cintra_n_rel" ] ]. cintura_n1 := n_intr_count_le & [ STEM < "cintura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cintura_n_rel" ] ]. cinturilla_n1 := n_intr_count_le & [ STEM < "cinturilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinturilla_n_rel" ] ]. cinturón_n1 := n_intr_count_le & [ STEM < "cinturón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cinturón_n_rel" ] ]. cintón_n1 := n_intr_count_le & [ STEM < "cintón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cintón_n_rel" ] ]. cinzita_n1 := n_intr_mass_le & [ STEM < "cinzita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cinzita_n_rel" ] ]. cinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "cinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_cinámico_a_rel" ]. cinéfilo_n1 := n_intr_count_le & [ STEM < "cinéfilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cinéfilo_n_rel" ] ]. cinéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "cinéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_cinéreo_a_rel" ]. cinética_n1 := n_intr_uncount_le & [ STEM < "cinética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cinética_n_rel" ] ]. cinéticamente_x1 := av_i_spr_le & [ STEM < "cinéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cinéticamente_x_rel" ]. cinético_a1 := a_rel_nonprd_intr_le & [ STEM < "cinético" >, SYNSEM.LKEYS.KEYREL.PRED "_cinético_a_rel" ]. cipeita_n1 := n_intr_count_le & [ STEM < "cipeita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cipeita_n_rel" ] ]. cipo_n1 := n_intr_count_le & [ STEM < "cipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cipo_n_rel" ] ]. cipresal_n1 := n_intr_count_le & [ STEM < "cipresal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cipresal_n_rel" ] ]. ciprio_a1 := a_rel_prd_le & [ STEM < "ciprio" >, SYNSEM.LKEYS.KEYREL.PRED "_ciprio_a_rel" ]. ciprio_n1 := n_intr_count_le & [ STEM < "ciprio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ciprio_n_rel" ] ]. cipriota_a1 := a_rel_prd_le & [ STEM < "cipriota" >, SYNSEM.LKEYS.KEYREL.PRED "_cipriota_a_rel" ]. cipriota_n1 := n_intr_count_le & [ STEM < "cipriota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cipriota_n_rel" ] ]. ciprés_n1 := n_intr_count_le & [ STEM < "ciprés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ciprés_n_rel" ] ]. circasiano_n1 := n_intr_count_le & [ STEM < "circasiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_circasiano_n_rel" ] ]. circo_n1 := n_intr_count_le & [ STEM < "circo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_soc, PRED "_circo_n_rel" ] ]. circona_n1 := n_intr_mass_le & [ STEM < "circona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_circona_n_rel" ] ]. circonio_n1 := n_intr_mass_le & [ STEM < "circonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_circonio_n_rel" ] ]. circuito_n1 := n_intr_count_le & [ STEM < "circuito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_circuito_n_rel" ] ]. circulación_n1 := n_result_intr_ppcomp_le & [ STEM < "circulación" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_circulación_n_rel" ] ]. circulante_a1 := a_rel_nonprd_intr_le & [ STEM < "circulante" >, SYNSEM.LKEYS.KEYREL.PRED "_circulante_a_rel" ]. circular_a1 := a_qual_intr_ser_le & [ STEM < "circular" >, SYNSEM.LKEYS.KEYREL.PRED "_circular_a_rel" ]. circular_n1 := n_intr_count_le & [ STEM < "circular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_circular_n_rel" ] ]. circular_v := v_unacc_lcomp_dir*_le & [ STEM < "circular" >, SYNSEM.LKEYS.KEYREL.PRED "_circular_v_rel" ]. circularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "circularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circularidad_n_rel" ] ]. circularmente_x1 := av_i_le & [ STEM < "circularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_circularmente_x_rel" ]. circulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "circulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_circulatorio_a_rel" ]. circumanal_a1 := a_rel_nonprd_intr_le & [ STEM < "circumanal" >, SYNSEM.LKEYS.KEYREL.PRED "_circumanal_a_rel" ]. circuncentro_n1 := n_intr_count_le & [ STEM < "circuncentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circuncentro_n_rel" ] ]. circuncidar_v := v_trans_np_le & [ STEM < "circuncidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_circuncidar_v_rel" ] ]. circuncisión_n1 := n_trans_le & [ STEM < "circuncisión" >, SYNSEM.LKEYS.KEYREL.PRED "_circuncisión_n_rel" ]. circunciso_a1 := a_qual_intr_ser_le & [ STEM < "circunciso" >, SYNSEM.LKEYS.KEYREL.PRED "_circunciso_a_rel" ]. circundante_a1 := a_rel_nonprd_intr_le & [ STEM < "circundante" >, SYNSEM.LKEYS.KEYREL.PRED "_circundante_a_rel" ]. circunducción_n1 := n_intr_uncount_le & [ STEM < "circunducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunducción_n_rel" ] ]. circunferencia_n1 := n_intr_count_le & [ STEM < "circunferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_circunferencia_n_rel" ] ]. circunferencial_a1 := a_rel_nonprd_intr_le & [ STEM < "circunferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_circunferencial_a_rel" ]. circunflejo_a1 := a_rel_nonprd_intr_le & [ STEM < "circunflejo" >, SYNSEM.LKEYS.KEYREL.PRED "_circunflejo_a_rel" ]. circunflejo_n1 := n_intr_uncount_pl_le & [ STEM < "circunflejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunflejo_n_rel" ] ]. circunlocución_n1 := n_intr_count_le & [ STEM < "circunlocución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunlocución_n_rel" ] ]. circunloquio_n1 := n_intr_count_le & [ STEM < "circunloquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunloquio_n_rel" ] ]. circunnavegación_n1 := n_trans_le & [ STEM < "circunnavegación" >, SYNSEM.LKEYS.KEYREL.PRED "_circunnavegación_n_rel" ]. circunscripción_n1 := n_trans_le & [ STEM < "circunscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_circunscripción_n_rel" ]. circunspección_n1 := n_intr_mass_le & [ STEM < "circunspección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunspección_n_rel" ] ]. circunspecto_a1 := a_rel_nonprd_intr_le & [ STEM < "circunspecto" >, SYNSEM.LKEYS.KEYREL.PRED "_circunspecto_a_rel" ]. circunstancia_n1 := n_intr_count_le & [ STEM < "circunstancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunstancia_n_rel" ] ]. circunstancial_a1 := a_qual_intr_scopal_le & [ STEM < "circunstancial" >, SYNSEM.LKEYS.KEYREL.PRED "_circunstancial_a_rel" ]. circunstancialmente_x1 := av_i_spr_le & [ STEM < "circunstancialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_circunstancialmente_x_rel" ]. circunvalación_n1 := n_trans_le & [ STEM < "circunvalación" >, SYNSEM.LKEYS.KEYREL.PRED "_circunvalación_n_rel" ]. circunvalar_v := v_trans_np_le & [ STEM < "circunvalar" >, SYNSEM.LKEYS.KEYREL.PRED "_circunvalar_v_rel" ]. circunvolución_n1 := n_intr_count_le & [ STEM < "circunvolución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_circunvolución_n_rel" ] ]. circón_n1 := n_intr_count_le & [ STEM < "circón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_circón_n_rel" ] ]. cirio_n1 := n_intr_count_le & [ STEM < "cirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cirio_n_rel" ] ]. cirro_n1 := n_intr_count_le & [ STEM < "cirro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cirro_n_rel" ] ]. cirrocúmulo_n1 := n_intr_count_le & [ STEM < "cirrocúmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cirrocúmulo_n_rel" ] ]. cirroestrato_n1 := n_intr_count_le & [ STEM < "cirroestrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cirroestrato_n_rel" ] ]. cirrosis_n1 := n_intr_uncount_le & [ STEM < "cirrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cirrosis_n_rel" ] ]. cirrostrato_n1 := n_intr_count_le & [ STEM < "cirrostrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cirrostrato_n_rel" ] ]. ciruela_n1 := n_intr_mass_le & [ STEM < "ciruela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ciruela_n_rel" ] ]. ciruelo_n1 := n_intr_count_le & [ STEM < "ciruelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ciruelo_n_rel" ] ]. cirugía_n1 := n_intr_count_le & [ STEM < "cirugía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cirugía_n_rel" ] ]. cirujano_n1 := n_intr_count_le & [ STEM < "cirujano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cirujano_n_rel" ] ]. cisco_n1 := n_intr_count_le & [ STEM < "cisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cisco_n_rel" ] ]. cisjordano_a1 := a_rel_prd_le & [ STEM < "cisjordano" >, SYNSEM.LKEYS.KEYREL.PRED "_cisjordano_a_rel" ]. cisjordano_n1 := n_intr_count_le & [ STEM < "cisjordano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cisjordano_n_rel" ] ]. cisma_n1 := n_intr_uncount_pl_le & [ STEM < "cisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cisma_n_rel" ] ]. cisne_n1 := n_intr_count_le & [ STEM < "cisne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cisne_n_rel" ] ]. cisoide_n1 := n_intr_count_le & [ STEM < "cisoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cisoide_n_rel" ] ]. cista_n1 := n_intr_count_le & [ STEM < "cista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cista_n_rel" ] ]. cisterna_n1 := n_intr_count_le & [ STEM < "cisterna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cisterna_n_rel" ] ]. cistina_n1 := n_intr_count_le & [ STEM < "cistina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cistina_n_rel" ] ]. cistitis_n1 := n_intr_uncount_le & [ STEM < "cistitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cistitis_n_rel" ] ]. cistolito_n1 := n_intr_count_le & [ STEM < "cistolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cistolito_n_rel" ] ]. cisura_n1 := n_intr_count_le & [ STEM < "cisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cisura_n_rel" ] ]. cita_n1 := n_intr_count_le & [ STEM < "cita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_cita_n_rel" ] ]. citación_n1 := n_trans_le & [ STEM < "citación" >, SYNSEM.LKEYS.KEYREL.PRED "_citación_n_rel" ]. citar_v1 := v_trans_np_lcomp_loc_le & [ STEM < "citar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_citar_v_rel" ] ]. citar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "citar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_citar_v_rel" ] ] ]. citar_v3 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "citar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_citar_v_rel" ] ] ]. citar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "citar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_citar_v_rel" ] ]. citatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "citatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_citatorio_a_rel" ]. citoblasto_n1 := n_intr_count_le & [ STEM < "citoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citoblasto_n_rel" ] ]. citocalasina_n1 := n_intr_count_le & [ STEM < "citocalasina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citocalasina_n_rel" ] ]. citocentro_n1 := n_ppcomp_count_le & [ STEM < "citocentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_citocentro_n_rel" ] ]. citocinesis_n1 := n_intr_uncount_le & [ STEM < "citocinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citocinesis_n_rel" ] ]. citocromo_n1 := n_intr_mass-or-count_le & [ STEM < "citocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_citocromo_n_rel" ] ]. citodiéresis_n1 := n_intr_uncount_le & [ STEM < "citodiéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citodiéresis_n_rel" ] ]. citoesqueleto_n1 := n_intr_count_le & [ STEM < "citoesqueleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citoesqueleto_n_rel" ] ]. citoféresis_n1 := n_intr_uncount_le & [ STEM < "citoféresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citoféresis_n_rel" ] ]. citofílico_a1 := a_rel_nonprd_intr_le & [ STEM < "citofílico" >, SYNSEM.LKEYS.KEYREL.PRED "_citofílico_a_rel" ]. citogenética_n1 := n_intr_uncount_le & [ STEM < "citogenética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citogenética_n_rel" ] ]. citogén_n1 := n_intr_count_le & [ STEM < "citogén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citogén_n_rel" ] ]. citogénesis_n1 := n_intr_uncount_le & [ STEM < "citogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citogénesis_n_rel" ] ]. citohistología_n1 := n_intr_uncount_le & [ STEM < "citohistología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citohistología_n_rel" ] ]. citolisina_n1 := n_intr_count_le & [ STEM < "citolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citolisina_n_rel" ] ]. citolisis_n1 := n_intr_uncount_le & [ STEM < "citolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citolisis_n_rel" ] ]. citología_n1 := n_intr_count_le & [ STEM < "citología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citología_n_rel" ] ]. citolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "citolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_citolítico_a_rel" ]. citológico_a1 := a_rel_nonprd_intr_le & [ STEM < "citológico" >, SYNSEM.LKEYS.KEYREL.PRED "_citológico_a_rel" ]. citoma_n1 := n_intr_count_le & [ STEM < "citoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citoma_n_rel" ] ]. citomegalovirus_n1 := n_intr_count_le & [ STEM < "citomegalovirus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_citomegalovirus_n_rel" ] ]. citopenia_n1 := n_intr_count_le & [ STEM < "citopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citopenia_n_rel" ] ]. citoplasma_n1 := n_intr_count_le & [ STEM < "citoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citoplasma_n_rel" ] ]. citoplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "citoplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_citoplasmático_a_rel" ]. citoplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "citoplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_citoplásmico_a_rel" ]. citoqueratina_n1 := n_intr_count_le & [ STEM < "citoqueratina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_citoqueratina_n_rel" ] ]. citoquina_n1 := n_intr_count_le & [ STEM < "citoquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citoquina_n_rel" ] ]. citosol_n1 := n_intr_count_le & [ STEM < "citosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citosol_n_rel" ] ]. citosoma_n1 := n_intr_count_le & [ STEM < "citosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citosoma_n_rel" ] ]. citostoma_n1 := n_intr_count_le & [ STEM < "citostoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citostoma_n_rel" ] ]. citostático_n1 := n_intr_count_le & [ STEM < "citostático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citostático_n_rel" ] ]. citotoxicidad_n1 := n_intr_uncount_le & [ STEM < "citotoxicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citotoxicidad_n_rel" ] ]. citotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "citotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_citotrópico_a_rel" ]. citotóxico_a1 := a_rel_nonprd_intr_le & [ STEM < "citotóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_citotóxico_a_rel" ]. citral_n1 := n_intr_mass-or-count_le & [ STEM < "citral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_citral_n_rel" ] ]. citrato_n1 := n_intr_mass-or-count_le & [ STEM < "citrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_citrato_n_rel" ] ]. citronelal_n1 := n_intr_mass-or-count_le & [ STEM < "citronelal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_citronelal_n_rel" ] ]. citáster_n1 := n_intr_count_le & [ STEM < "citáster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_citáster_n_rel" ] ]. citógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "citógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_citógeno_a_rel" ]. citólisis_n1 := n_intr_uncount_le & [ STEM < "citólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_citólisis_n_rel" ] ]. citólogo_n1 := n_intr_count_le & [ STEM < "citólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_citólogo_n_rel" ] ]. ciudad_n1 := n_intr_count_le & [ STEM < "ciudad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ciudad_n_rel" ] ]. ciudadano_a1 := a_rel_nonprd_intr_le & [ STEM < "ciudadano" >, SYNSEM.LKEYS.KEYREL.PRED "_ciudadano_a_rel" ]. ciudadano_n1 := n_intr_count_le & [ STEM < "ciudadano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ciudadano_n_rel" ] ]. ciudadanía_n1 := n_intr_count_le & [ STEM < "ciudadanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciudadanía_n_rel" ] ]. ciudadela_n1 := n_intr_count_le & [ STEM < "ciudadela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ciudadela_n_rel" ] ]. civeto_n1 := n_intr_count_le & [ STEM < "civeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_civeto_n_rel" ] ]. civil_a1 := a_rel_nonprd_intr_le & [ STEM < "civil" >, SYNSEM.LKEYS.KEYREL.PRED "_civil_a_rel" ]. civil_n1 := n_intr_count_le & [ STEM < "civil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_civil_n_rel" ] ]. civilista_n1 := n_intr_count_le & [ STEM < "civilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_civilista_n_rel" ] ]. civilizable_a1 := a_rel_nonprd_intr_le & [ STEM < "civilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_civilizable_a_rel" ]. civilización_n1 := n_trans_le & [ STEM < "civilización" >, SYNSEM.LKEYS.KEYREL.PRED "_civilización_n_rel" ]. civilizador_a1 := a_rel_nonprd_intr_le & [ STEM < "civilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_civilizador_a_rel" ]. civilizadoramente_x1 := av_i_spr_le & [ STEM < "civilizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_civilizadoramente_x_rel" ]. civilizar_v := v_trans_np_le & [ STEM < "civilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_civilizar_v_rel" ]. civilizatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "civilizatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_civilizatorio_a_rel" ]. civilmente_x1 := av_i_spr_le & [ STEM < "civilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_civilmente_x_rel" ]. civismo_n1 := n_intr_uncount_le & [ STEM < "civismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_civismo_n_rel" ] ]. cizalla_n1 := n_intr_count_le & [ STEM < "cizalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cizalla_n_rel" ] ]. cizallamiento_n1 := n_trans_le & [ STEM < "cizallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cizallamiento_n_rel" ]. cizallar_v := v_trans_np_le & [ STEM < "cizallar" >, SYNSEM.LKEYS.KEYREL.PRED "_cizallar_v_rel" ]. cizaña_n1 := n_intr_count_le & [ STEM < "cizaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cizaña_n_rel" ] ]. cizañero_a1 := a_qual_intr_ser_le & [ STEM < "cizañero" >, SYNSEM.LKEYS.KEYREL.PRED "_cizañero_a_rel" ]. ciática_n1 := n_intr_uncount_le & [ STEM < "ciática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ciática_n_rel" ] ]. ciático_a1 := a_rel_nonprd_intr_le & [ STEM < "ciático" >, SYNSEM.LKEYS.KEYREL.PRED "_ciático_a_rel" ]. ciénaga_n1 := n_intr_count_le & [ STEM < "ciénaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ciénaga_n_rel" ] ]. clado_n1 := n_intr_count_le & [ STEM < "clado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_clado_n_rel" ] ]. cladograma_n1 := n_intr_count_le & [ STEM < "cladograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cladograma_n_rel" ] ]. clamor_n1 := n_intr_uncount_pl_le & [ STEM < "clamor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clamor_n_rel" ] ]. clamorosamente_x1 := av_i_spr_le & [ STEM < "clamorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_clamorosamente_x_rel" ]. clamoroso_a1 := a_qual_intr_scopal_le & [ STEM < "clamoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_clamoroso_a_rel" ]. clan_n1 := n_intr_coll_le & [ STEM < "clan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clan_n_rel" ] ]. clandestinamente_x1 := av_i_spr_le & [ STEM < "clandestinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_clandestinamente_x_rel" ]. clandestinidad_n1 := n_ppcomp_uncount_le & [ STEM < "clandestinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clandestinidad_n_rel" ] ]. clandestino_a1 := a_rel_prd_le & [ STEM < "clandestino" >, SYNSEM.LKEYS.KEYREL.PRED "_clandestino_a_rel" ]. clapa_n1 := n_intr_count_le & [ STEM < "clapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clapa_n_rel" ] ]. claqueta_n1 := n_intr_count_le & [ STEM < "claqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_claqueta_n_rel" ] ]. claqué_n1 := n_intr_uncount_le & [ STEM < "claqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_claqué_n_rel" ] ]. clara_n1 := n_intr_count_le & [ STEM < "clara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clara_n_rel" ] ]. claraboya_n1 := n_intr_count_le & [ STEM < "claraboya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_claraboya_n_rel" ] ]. claramente_x1 := av_i_spr_le & [ STEM < "claramente" >, SYNSEM.LKEYS.KEYREL.PRED "_claramente_x_rel" ]. clarear_v := v_intr_le & [ STEM < "clarear" >, SYNSEM.LKEYS.KEYREL.PRED "_clarear_v_rel" ]. clareo_n1 := n_trans_le & [ STEM < "clareo" >, SYNSEM.LKEYS.KEYREL.PRED "_clareo_n_rel" ]. clarete_a1 := a_qual_intr_ser_le & [ STEM < "clarete" >, SYNSEM.LKEYS.KEYREL.PRED "_clarete_a_rel" ]. clarete_n1 := n_intr_mass_le & [ STEM < "clarete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clarete_n_rel" ] ]. claridad_n1 := n_ppcomp_mass_le & [ STEM < "claridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_claridad_n_rel" ] ]. clarificación_n1 := n_trans_le & [ STEM < "clarificación" >, SYNSEM.LKEYS.KEYREL.PRED "_clarificación_n_rel" ]. clarificador_a1 := a_rel_prd_le & [ STEM < "clarificador" >, SYNSEM.LKEYS.KEYREL.PRED "_clarificador_a_rel" ]. clarificador_n1 := n_intr_count_le & [ STEM < "clarificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clarificador_n_rel" ] ]. clarificar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "clarificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_clarificar_v_rel" ] ]. clarificar_v2 := v_ditrans*_le & [ STEM < "clarificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_clarificar_v_rel" ] ]. clarificar_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "clarificar" >, SYNSEM.LKEYS.KEYREL.PRED "_clarificar_v_rel" ]. clarificar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "clarificar" >, SYNSEM.LKEYS.KEYREL.PRED "_clarificar_v_rel" ]. clarinete_n1 := n_intr_count_le & [ STEM < "clarinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clarinete_n_rel" ] ]. clarinetista_n1 := n_intr_count_le & [ STEM < "clarinetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clarinetista_n_rel" ] ]. clarividencia_n1 := n_intr_uncount_le & [ STEM < "clarividencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clarividencia_n_rel" ] ]. clarividente_a1 := a_qual_intr_ser_le & [ STEM < "clarividente" >, SYNSEM.LKEYS.KEYREL.PRED "_clarividente_a_rel" ]. clarividente_n1 := n_intr_count_le & [ STEM < "clarividente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clarividente_n_rel" ] ]. claro_a1 := a_adv_int_le & [ STEM < "claro" >, SYNSEM.LKEYS.KEYREL.PRED "_claro_a_rel" ]. claro_a2 := a_qual_intr_scopal_le & [ STEM < "claro" >, SYNSEM.LKEYS.KEYREL.PRED "_claro_a_rel" ]. claro_n1 := n_intr_count_le & [ STEM < "claro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_claro_n_rel" ] ]. claroscuro_n1 := n_intr_count_le & [ STEM < "claroscuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_claroscuro_n_rel" ] ]. clarín_n1 := n_intr_count_le & [ STEM < "clarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clarín_n_rel" ] ]. clase_n1 := n_intr_count_le & [ STEM < "clase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_clase_n_rel" ] ]. clasicismo_n1 := n_ppcomp_uncount_le & [ STEM < "clasicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clasicismo_n_rel" ] ]. clasicista_a1 := a_rel_nonprd_intr_le & [ STEM < "clasicista" >, SYNSEM.LKEYS.KEYREL.PRED "_clasicista_a_rel" ]. clasicómano_n1 := n_intr_count_le & [ STEM < "clasicómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clasicómano_n_rel" ] ]. clasificable_a1 := a_qual_trans_ser_le & [ STEM < "clasificable" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL.PRED "_clasificable_a_rel" ] ]. clasificación_n1 := n_trans_le & [ STEM < "clasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_clasificación_n_rel" ]. clasificador_a1 := a_rel_nonprd_intr_le & [ STEM < "clasificador" >, SYNSEM.LKEYS.KEYREL.PRED "_clasificador_a_rel" ]. clasificador_n1 := n_intr_count_le & [ STEM < "clasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clasificador_n_rel" ] ]. clasificadora_n1 := n_intr_count_le & [ STEM < "clasificadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_clasificadora_n_rel" ] ]. clasificatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "clasificatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_clasificatorio_a_rel" ]. clasismo_n1 := n_intr_uncount_pl_le & [ STEM < "clasismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clasismo_n_rel" ] ]. clasista_a1 := a_qual_intr_scopal_le & [ STEM < "clasista" >, SYNSEM.LKEYS.KEYREL.PRED "_clasista_a_rel" ]. clatrato_n1 := n_intr_count_le & [ STEM < "clatrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clatrato_n_rel" ] ]. clatrina_n1 := n_intr_count_le & [ STEM < "clatrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clatrina_n_rel" ] ]. claudicación_n1 := n_result_intr_le & [ STEM < "claudicación" >, SYNSEM.LKEYS.KEYREL.PRED "_claudicación_n_rel" ]. claudicante_a1 := a_qual_intr_scopal_le & [ STEM < "claudicante" >, SYNSEM.LKEYS.KEYREL.PRED "_claudicante_a_rel" ]. claudicar_v1 := v_intr_le & [ STEM < "claudicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_claudicar_v_rel" ] ]. clausal_a1 := a_rel_nonprd_intr_le & [ STEM < "clausal" >, SYNSEM.LKEYS.KEYREL.PRED "_clausal_a_rel" ]. claustro_n1 := n_intr_count_le & [ STEM < "claustro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc_soc, PRED "_claustro_n_rel" ] ]. claustrofobia_n1 := n_intr_uncount_le & [ STEM < "claustrofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_claustrofobia_n_rel" ] ]. claustrofóbico_a1 := a_qual_intr_ser_le & [ STEM < "claustrofóbico" >, SYNSEM.LKEYS.KEYREL.PRED "_claustrofóbico_a_rel" ]. clausura_n1 := n_intr_count_le & [ STEM < "clausura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clausura_n_rel" ] ]. clausurar_v := v_trans_np_le & [ STEM < "clausurar" >, SYNSEM.LKEYS.KEYREL.PRED "_clausurar_v_rel" ]. clavadora_n1 := n_intr_count_le & [ STEM < "clavadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavadora_n_rel" ] ]. clavar_v := v_trans_np_le & [ STEM < "clavar" >, SYNSEM.LKEYS.KEYREL.PRED "_clavar_v_rel" ]. clave_n1 := n_intr_count_le & [ STEM < "clave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clave_n_rel" ] ]. clavel_n1 := n_intr_count_le & [ STEM < "clavel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_clavel_n_rel" ] ]. clavera_n1 := n_intr_count_le & [ STEM < "clavera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavera_n_rel" ] ]. clavero_n1 := n_intr_count_le & [ STEM < "clavero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_clavero_n_rel" ] ]. clavicembalista_n1 := n_intr_count_le & [ STEM < "clavicembalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clavicembalista_n_rel" ] ]. clavicordio_n1 := n_intr_count_le & [ STEM < "clavicordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavicordio_n_rel" ] ]. clavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "clavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_clavicular_a_rel" ]. clavicémbalo_n1 := n_intr_count_le & [ STEM < "clavicémbalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavicémbalo_n_rel" ] ]. clavija_n1 := n_intr_count_le & [ STEM < "clavija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavija_n_rel" ] ]. clavijero_n1 := n_intr_count_le & [ STEM < "clavijero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavijero_n_rel" ] ]. clavipectoral_a1 := a_rel_nonprd_intr_le & [ STEM < "clavipectoral" >, SYNSEM.LKEYS.KEYREL.PRED "_clavipectoral_a_rel" ]. clavo_n1 := n_intr_count_le & [ STEM < "clavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clavo_n_rel" ] ]. clavícula_n1 := n_ppcomp_count_le & [ STEM < "clavícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_clavícula_n_rel" ] ]. claxon_n1 := n_intr_count_le & [ STEM < "claxon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_claxon_n_rel" ] ]. cleidocraneal_a1 := a_rel_nonprd_intr_le & [ STEM < "cleidocraneal" >, SYNSEM.LKEYS.KEYREL.PRED "_cleidocraneal_a_rel" ]. clemencia_n1 := n_intr_mass_le & [ STEM < "clemencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clemencia_n_rel" ] ]. clemente_a1 := a_qual_intr_ser_le & [ STEM < "clemente" >, SYNSEM.LKEYS.KEYREL.PRED "_clemente_a_rel" ]. clementina_n1 := n_intr_mass_le & [ STEM < "clementina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clementina_n_rel" ] ]. clemátide_n1 := n_intr_count_le & [ STEM < "clemátide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_clemátide_n_rel" ] ]. cleptomanía_n1 := n_intr_uncount_le & [ STEM < "cleptomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cleptomanía_n_rel" ] ]. cleptómano_n1 := n_intr_count_le & [ STEM < "cleptómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cleptómano_n_rel" ] ]. clerical_a1 := a_rel_nonprd_intr_le & [ STEM < "clerical" >, SYNSEM.LKEYS.KEYREL.PRED "_clerical_a_rel" ]. clericalismo_n1 := n_intr_uncount_le & [ STEM < "clericalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clericalismo_n_rel" ] ]. clericato_n1 := n_intr_count_le & [ STEM < "clericato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_clericato_n_rel" ] ]. clero_n1 := n_intr_coll_le & [ STEM < "clero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clero_n_rel" ] ]. clic_n1 := n_intr_count_le & [ STEM < "clic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clic_n_rel" ] ]. cliché_n1 := n_intr_count_le & [ STEM < "cliché" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cliché_n_rel" ] ]. cliente_n1 := n_ppcomp_count_le & [ STEM < "cliente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cliente_n_rel" ] ]. clientela_n1 := n_intr_coll_le & [ STEM < "clientela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clientela_n_rel" ] ]. clima_n1 := n_intr_count_le & [ STEM < "clima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clima_n_rel" ] ]. climaterio_n1 := n_intr_count_le & [ STEM < "climaterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_climaterio_n_rel" ] ]. climatización_n1 := n_trans_le & [ STEM < "climatización" >, SYNSEM.LKEYS.KEYREL.PRED "_climatización_n_rel" ]. climatizador_n1 := n_intr_count_le & [ STEM < "climatizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_climatizador_n_rel" ] ]. climatizar_v := v_trans_np_le & [ STEM < "climatizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_climatizar_v_rel" ] ]. climatología_n1 := n_intr_uncount_le & [ STEM < "climatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_climatología_n_rel" ] ]. climatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "climatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_climatológico_a_rel" ]. climatérico_a1 := a_rel_nonprd_intr_le & [ STEM < "climatérico" >, SYNSEM.LKEYS.KEYREL.PRED "_climatérico_a_rel" ]. climograma_n1 := n_intr_count_le & [ STEM < "climograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_climograma_n_rel" ] ]. climosecuencia_n1 := n_intr_count_le & [ STEM < "climosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_climosecuencia_n_rel" ] ]. climácico_a1 := a_rel_nonprd_intr_le & [ STEM < "climácico" >, SYNSEM.LKEYS.KEYREL.PRED "_climácico_a_rel" ]. climático_a1 := a_rel_nonprd_intr_le & [ STEM < "climático" >, SYNSEM.LKEYS.KEYREL.PRED "_climático_a_rel" ]. clina_n1 := n_intr_uncount_pl_le & [ STEM < "clina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clina_n_rel" ] ]. clinca_n1 := n_intr_count_le & [ STEM < "clinca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clinca_n_rel" ] ]. clinker_n1 := n_intr_count_le & [ STEM < "clinker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clinker_n_rel" ] ]. clinosecuencia_n1 := n_intr_count_le & [ STEM < "clinosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clinosecuencia_n_rel" ] ]. clinozoisita_n1 := n_intr_count_le & [ STEM < "clinozoisita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clinozoisita_n_rel" ] ]. clintonita_n1 := n_intr_mass_le & [ STEM < "clintonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clintonita_n_rel" ] ]. clinómetro_n1 := n_intr_count_le & [ STEM < "clinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clinómetro_n_rel" ] ]. clip_n1 := n_intr_count_le & [ STEM < "clip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clip_n_rel" ] ]. cliquear_v := v_trans_np*_lcomp_loc_le & [ STEM < "cliquear" >, SYNSEM.LKEYS.KEYREL.PRED "_cliquear_v_rel" ]. clisado_n1 := n_trans_le & [ STEM < "clisado" >, SYNSEM.LKEYS.KEYREL.PRED "_clisado_n_rel" ]. clisis_n1 := n_intr_uncount_le & [ STEM < "clisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clisis_n_rel" ] ]. clisé_n1 := n_intr_count_le & [ STEM < "clisé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clisé_n_rel" ] ]. clitelo_n1 := n_intr_count_le & [ STEM < "clitelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clitelo_n_rel" ] ]. clitoridectomía_n1 := n_intr_count_le & [ STEM < "clitoridectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clitoridectomía_n_rel" ] ]. cloaca_n1 := n_intr_count_le & [ STEM < "cloaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloaca_n_rel" ] ]. clofeno_n1 := n_intr_count_le & [ STEM < "clofeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clofeno_n_rel" ] ]. clon_n1 := n_intr_count_le & [ STEM < "clon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clon_n_rel" ] ]. clonación_n1 := n_trans_le & [ STEM < "clonación" >, SYNSEM.LKEYS.KEYREL.PRED "_clonación_n_rel" ]. clonal_a1 := a_rel_nonprd_intr_le & [ STEM < "clonal" >, SYNSEM.LKEYS.KEYREL.PRED "_clonal_a_rel" ]. clonar_v := v_trans_np_le & [ STEM < "clonar" >, SYNSEM.LKEYS.KEYREL.PRED "_clonar_v_rel" ]. clonicotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "clonicotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_clonicotónico_a_rel" ]. clonotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "clonotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_clonotípico_a_rel" ]. cloque_n1 := n_intr_count_le & [ STEM < "cloque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloque_n_rel" ] ]. cloquear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "cloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cloquear_v_rel" ] ]. cloquear_v2 := v_ditrans*_le & [ STEM < "cloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cloquear_v_rel" ] ]. cloracetaldehído_n1 := n_intr_mass_le & [ STEM < "cloracetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloracetaldehído_n_rel" ] ]. cloración_n1 := n_trans_le & [ STEM < "cloración" >, SYNSEM.LKEYS.KEYREL.PRED "_cloración_n_rel" ]. clorador_n1 := n_intr_count_le & [ STEM < "clorador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clorador_n_rel" ] ]. cloral_n1 := n_intr_count_le & [ STEM < "cloral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloral_n_rel" ] ]. clorambucil_n1 := n_intr_count_le & [ STEM < "clorambucil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clorambucil_n_rel" ] ]. cloramfenicol_n1 := n_intr_count_le & [ STEM < "cloramfenicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloramfenicol_n_rel" ] ]. cloramina_n1 := n_intr_count_le & [ STEM < "cloramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloramina_n_rel" ] ]. cloranilo_n1 := n_intr_count_le & [ STEM < "cloranilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloranilo_n_rel" ] ]. clorato_n1 := n_intr_count_le & [ STEM < "clorato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorato_n_rel" ] ]. clorbensida_n1 := n_intr_count_le & [ STEM < "clorbensida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorbensida_n_rel" ] ]. clorbutanol_n1 := n_intr_count_le & [ STEM < "clorbutanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorbutanol_n_rel" ] ]. clorhexidina_n1 := n_intr_count_le & [ STEM < "clorhexidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clorhexidina_n_rel" ] ]. clorhidrato_n1 := n_intr_count_le & [ STEM < "clorhidrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorhidrato_n_rel" ] ]. clorhidrina_n1 := n_intr_count_le & [ STEM < "clorhidrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorhidrina_n_rel" ] ]. clorhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "clorhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_clorhídrico_a_rel" ]. clorinidad_n1 := n_intr_mass_le & [ STEM < "clorinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clorinidad_n_rel" ] ]. clorita_n1 := n_intr_count_le & [ STEM < "clorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorita_n_rel" ] ]. clorito_n1 := n_intr_mass_le & [ STEM < "clorito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorito_n_rel" ] ]. clormerodrina_n1 := n_intr_count_le & [ STEM < "clormerodrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clormerodrina_n_rel" ] ]. cloro_n1 := n_intr_mass_le & [ STEM < "cloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloro_n_rel" ] ]. cloroacetato_n1 := n_intr_count_le & [ STEM < "cloroacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroacetato_n_rel" ] ]. cloroacetona_n1 := n_intr_count_le & [ STEM < "cloroacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroacetona_n_rel" ] ]. cloroacético_a1 := a_rel_nonprd_intr_le & [ STEM < "cloroacético" >, SYNSEM.LKEYS.KEYREL.PRED "_cloroacético_a_rel" ]. cloroazodina_n1 := n_intr_count_le & [ STEM < "cloroazodina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroazodina_n_rel" ] ]. clorobenceno_n1 := n_intr_count_le & [ STEM < "clorobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorobenceno_n_rel" ] ]. clorobutanol_n1 := n_intr_count_le & [ STEM < "clorobutanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorobutanol_n_rel" ] ]. clorocarbonato_n1 := n_intr_count_le & [ STEM < "clorocarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorocarbonato_n_rel" ] ]. clorocromato_n1 := n_intr_count_le & [ STEM < "clorocromato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorocromato_n_rel" ] ]. clorodibromuro_n1 := n_intr_count_le & [ STEM < "clorodibromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorodibromuro_n_rel" ] ]. clorodifluometano_n1 := n_intr_count_le & [ STEM < "clorodifluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorodifluometano_n_rel" ] ]. clorodifluoroacético_a1 := a_rel_nonprd_intr_le & [ STEM < "clorodifluoroacético" >, SYNSEM.LKEYS.KEYREL.PRED "_clorodifluoroacético_a_rel" ]. clorofenol_n1 := n_intr_count_le & [ STEM < "clorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorofenol_n_rel" ] ]. clorofibra_n1 := n_intr_mass-or-count_le & [ STEM < "clorofibra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_clorofibra_n_rel" ] ]. clorofila_n1 := n_intr_mass_le & [ STEM < "clorofila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorofila_n_rel" ] ]. clorofluorocarbono_n1 := n_intr_count_le & [ STEM < "clorofluorocarbono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorofluorocarbono_n_rel" ] ]. clorofluorocarburo_n1 := n_intr_mass_le & [ STEM < "clorofluorocarburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorofluorocarburo_n_rel" ] ]. cloroformiato_n1 := n_intr_count_le & [ STEM < "cloroformiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroformiato_n_rel" ] ]. cloroformo_n1 := n_intr_mass_le & [ STEM < "cloroformo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroformo_n_rel" ] ]. clorofílico_a1 := a_rel_nonprd_intr_le & [ STEM < "clorofílico" >, SYNSEM.LKEYS.KEYREL.PRED "_clorofílico_a_rel" ]. clorohidroquinona_n1 := n_intr_count_le & [ STEM < "clorohidroquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorohidroquinona_n_rel" ] ]. cloromaleico_a1 := a_rel_nonprd_intr_le & [ STEM < "cloromaleico" >, SYNSEM.LKEYS.KEYREL.PRED "_cloromaleico_a_rel" ]. cloromelanita_n1 := n_intr_count_le & [ STEM < "cloromelanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloromelanita_n_rel" ] ]. clorometilfosfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "clorometilfosfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_clorometilfosfónico_a_rel" ]. cloromicetina_n1 := n_intr_count_le & [ STEM < "cloromicetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloromicetina_n_rel" ] ]. cloronitroacetofenona_n1 := n_intr_count_le & [ STEM < "cloronitroacetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloronitroacetofenona_n_rel" ] ]. cloropicrina_n1 := n_intr_count_le & [ STEM < "cloropicrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloropicrina_n_rel" ] ]. cloroplastidio_n1 := n_intr_mass_le & [ STEM < "cloroplastidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroplastidio_n_rel" ] ]. cloroplastina_n1 := n_intr_count_le & [ STEM < "cloroplastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloroplastina_n_rel" ] ]. cloroplasto_n1 := n_intr_count_le & [ STEM < "cloroplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloroplasto_n_rel" ] ]. cloroplatinato_n1 := n_intr_count_le & [ STEM < "cloroplatinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroplatinato_n_rel" ] ]. cloropreno_n1 := n_intr_count_le & [ STEM < "cloropreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cloropreno_n_rel" ] ]. cloropromacina_n1 := n_intr_count_le & [ STEM < "cloropromacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloropromacina_n_rel" ] ]. cloropsia_n1 := n_intr_uncount_le & [ STEM < "cloropsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cloropsia_n_rel" ] ]. cloroquina_n1 := n_intr_count_le & [ STEM < "cloroquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroquina_n_rel" ] ]. clorosis_n1 := n_intr_uncount_le & [ STEM < "clorosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clorosis_n_rel" ] ]. clorosulfonato_n1 := n_intr_count_le & [ STEM < "clorosulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorosulfonato_n_rel" ] ]. clorosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "clorosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_clorosulfónico_a_rel" ]. clorotetraciclina_n1 := n_intr_count_le & [ STEM < "clorotetraciclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotetraciclina_n_rel" ] ]. clorotimol_n1 := n_intr_count_le & [ STEM < "clorotimol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotimol_n_rel" ] ]. clorotiofenol_n1 := n_intr_count_le & [ STEM < "clorotiofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotiofenol_n_rel" ] ]. clorotolueno_n1 := n_intr_count_le & [ STEM < "clorotolueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotolueno_n_rel" ] ]. clorotrifluoetileno_n1 := n_intr_count_le & [ STEM < "clorotrifluoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotrifluoetileno_n_rel" ] ]. clorotrifluometano_n1 := n_intr_count_le & [ STEM < "clorotrifluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorotrifluometano_n_rel" ] ]. cloroyoduro_n1 := n_intr_count_le & [ STEM < "cloroyoduro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloroyoduro_n_rel" ] ]. clorquinadol_n1 := n_intr_count_le & [ STEM < "clorquinadol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_clorquinadol_n_rel" ] ]. clorurar_v := v_trans_np_caus_le & [ STEM < "clorurar" >, SYNSEM.LKEYS.KEYREL.PRED "_clorurar_v_rel" ]. cloruro_n1 := n_intr_mass_le & [ STEM < "cloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cloruro_n_rel" ] ]. clorénquima_n1 := n_intr_count_le & [ STEM < "clorénquima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clorénquima_n_rel" ] ]. clorómetro_n1 := n_intr_count_le & [ STEM < "clorómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clorómetro_n_rel" ] ]. clorótico_a1 := a_rel_nonprd_intr_le & [ STEM < "clorótico" >, SYNSEM.LKEYS.KEYREL.PRED "_clorótico_a_rel" ]. club_n1 := n_intr_count_le & [ STEM < "club" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_club_n_rel" ] ]. cluster_n := n_intr_mass_le & [ STEM < "cluster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cluster_n_rel" ] ]. clámide_n1 := n_intr_count_le & [ STEM < "clámide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clámide_n_rel" ] ]. clásicamente_x1 := av_i_spr_le & [ STEM < "clásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_clásicamente_x_rel" ]. clásico_a1 := a_qual_intr_scopal_le & [ STEM < "clásico" >, SYNSEM.LKEYS.KEYREL.PRED "_clásico_a_rel" ]. clásico_n1 := n_intr_count_le & [ STEM < "clásico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clásico_n_rel" ] ]. clástico_a1 := a_rel_nonprd_intr_le & [ STEM < "clástico" >, SYNSEM.LKEYS.KEYREL.PRED "_clástico_a_rel" ]. cláusula_n1 := n_intr_count_le & [ STEM < "cláusula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_cláusula_n_rel" ] ]. clérigo_n1 := n_intr_count_le & [ STEM < "clérigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_clérigo_n_rel" ] ]. clímax_n1 := n_intr_uncount_le & [ STEM < "clímax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_clímax_n_rel" ] ]. clínica_n1 := n_intr_count_le & [ STEM < "clínica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_clínica_n_rel" ] ]. clínicamente_x1 := av_i_spr_le & [ STEM < "clínicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_clínicamente_x_rel" ]. clínico_a1 := a_rel_nonprd_intr_le & [ STEM < "clínico" >, SYNSEM.LKEYS.KEYREL.PRED "_clínico_a_rel" ]. clíper_n1 := n_intr_count_le & [ STEM < "clíper" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_clíper_n_rel" ] ]. clítoris_n1 := n_ppcomp_count_le & [ STEM < "clítoris" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_clítoris_n_rel" ] ]. clónico_a1 := a_rel_nonprd_intr_le & [ STEM < "clónico" >, SYNSEM.LKEYS.KEYREL.PRED "_clónico_a_rel" ]. clórico_a1 := a_rel_nonprd_intr_le & [ STEM < "clórico" >, SYNSEM.LKEYS.KEYREL.PRED "_clórico_a_rel" ]. cnoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "cnoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_cnoidal_a_rel" ]. coa_n1 := n_intr_count_le & [ STEM < "coa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coa_n_rel" ] ]. coacción_n1 := n_trans_le & [ STEM < "coacción" >, SYNSEM.LKEYS.KEYREL.PRED "_coacción_n_rel" ]. coacreedor_n1 := n_subj-nom_le & [ STEM < "coacreedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coacreedor_n_rel" ] ]. coactivamente_x1 := av_i_spr_le & [ STEM < "coactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coactivamente_x_rel" ]. coactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "coactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_coactivo_a_rel" ]. coacusado_n1 := n_intr_count_le & [ STEM < "coacusado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coacusado_n_rel" ] ]. coadministrador_n1 := n_subj-nom_le & [ STEM < "coadministrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coadministrador_n_rel" ] ]. coadyuvante_a1 := a_rel_nonprd_intr_le & [ STEM < "coadyuvante" >, SYNSEM.LKEYS.KEYREL.PRED "_coadyuvante_a_rel" ]. coadyuvante_n1 := n_intr_count_le & [ STEM < "coadyuvante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coadyuvante_n_rel" ] ]. coafectar_v := v_intr_io_le & [ STEM < "coafectar" >, SYNSEM.LKEYS.KEYREL.PRED "_coafectar_v_rel" ]. coafianzamiento_n1 := n_trans_le & [ STEM < "coafianzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_coafianzamiento_n_rel" ]. coagente_n1 := n_intr_count_le & [ STEM < "coagente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coagente_n_rel" ] ]. coagulabilidad_n1 := n_intr_uncount_le & [ STEM < "coagulabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coagulabilidad_n_rel" ] ]. coagulación_n1 := n_trans_le & [ STEM < "coagulación" >, SYNSEM.LKEYS.KEYREL.PRED "_coagulación_n_rel" ]. coagulante_a1 := a_rel_nonprd_intr_le & [ STEM < "coagulante" >, SYNSEM.LKEYS.KEYREL.PRED "_coagulante_a_rel" ]. coagulante_n1 := n_intr_count_le & [ STEM < "coagulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coagulante_n_rel" ] ]. coagulasa_n1 := n_intr_mass-or-count_le & [ STEM < "coagulasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_coagulasa_n_rel" ] ]. coagulocito_n1 := n_intr_count_le & [ STEM < "coagulocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coagulocito_n_rel" ] ]. coagulopatía_n1 := n_intr_uncount_pl_le & [ STEM < "coagulopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coagulopatía_n_rel" ] ]. coala_n1 := n_intr_count_le & [ STEM < "coala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coala_n_rel" ] ]. coalescencia_n1 := n_intr_uncount_le & [ STEM < "coalescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coalescencia_n_rel" ] ]. coalescente_a1 := a_rel_nonprd_intr_le & [ STEM < "coalescente" >, SYNSEM.LKEYS.KEYREL.PRED "_coalescente_a_rel" ]. coalición_n1 := n_intr_count_le & [ STEM < "coalición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_coalición_n_rel" ] ]. coana_n1 := n_ppcomp_count_le & [ STEM < "coana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coana_n_rel" ] ]. coarrendador_n1 := n_subj-nom_le & [ STEM < "coarrendador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coarrendador_n_rel" ] ]. coarrendatario_n1 := n_intr_count_le & [ STEM < "coarrendatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coarrendatario_n_rel" ] ]. coartación_n1 := n_trans_le & [ STEM < "coartación" >, SYNSEM.LKEYS.KEYREL.PRED "_coartación_n_rel" ]. coartada_n1 := n_intr_count_le & [ STEM < "coartada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coartada_n_rel" ] ]. coartar_v1 := v_intr_io*_le & [ STEM < "coartar" >, SYNSEM.LKEYS.KEYREL.PRED "_coartar_v_rel" ]. coartar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "coartar" >, SYNSEM.LKEYS.KEYREL.PRED "_coartar_v_rel" ]. coartar_v3 := v_trans_np_le & [ STEM < "coartar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_coartar_v_rel" ] ]. coasegurador_n1 := n_subj-nom_le & [ STEM < "coasegurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coasegurador_n_rel" ] ]. coaseguro_n1 := n_intr_count_le & [ STEM < "coaseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_coaseguro_n_rel" ] ]. coatí_n1 := n_intr_count_le & [ STEM < "coatí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coatí_n_rel" ] ]. coautor_n1 := n_intr_count_le & [ STEM < "coautor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coautor_n_rel" ] ]. coaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "coaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_coaxial_a_rel" ]. coaxialmente_x1 := av_i_spr_le & [ STEM < "coaxialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_coaxialmente_x_rel" ]. coba_n1 := n_intr_uncount_le & [ STEM < "coba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coba_n_rel" ] ]. cobaltar_v := v_trans_np_le & [ STEM < "cobaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobaltar_v_rel" ]. cobaltita_n1 := n_intr_count_le & [ STEM < "cobaltita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cobaltita_n_rel" ] ]. cobalto_n1 := n_intr_mass_le & [ STEM < "cobalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cobalto_n_rel" ] ]. cobaltoso_a1 := a_rel_nonprd_intr_le & [ STEM < "cobaltoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cobaltoso_a_rel" ]. cobarde_a1 := a_qual_intr_ser_le & [ STEM < "cobarde" >, SYNSEM.LKEYS.KEYREL.PRED "_cobarde_a_rel" ]. cobarde_n1 := n_intr_count_le & [ STEM < "cobarde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cobarde_n_rel" ] ]. cobardemente_x1 := av_i_spr_le & [ STEM < "cobardemente" >, SYNSEM.LKEYS.KEYREL.PRED "_cobardemente_x_rel" ]. cobardía_n1 := n_intr_mass_le & [ STEM < "cobardía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cobardía_n_rel" ] ]. cobaya_n1 := n_intr_count_le & [ STEM < "cobaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cobaya_n_rel" ] ]. cobertera_n1 := n_intr_count_le & [ STEM < "cobertera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cobertera_n_rel" ] ]. cobertizo_n1 := n_intr_count_le & [ STEM < "cobertizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cobertizo_n_rel" ] ]. cobertura_n1 := n_intr_mass_le & [ STEM < "cobertura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cobertura_n_rel" ] ]. cobijo_n1 := n_intr_mass_le & [ STEM < "cobijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cobijo_n_rel" ] ]. cobla_n1 := n_intr_count_le & [ STEM < "cobla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_cobla_n_rel" ] ]. cobra_n1 := n_intr_count_le & [ STEM < "cobra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cobra_n_rel" ] ]. cobrable_a1 := a_rel_prd_le & [ STEM < "cobrable" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrable_a_rel" ]. cobradero_a1 := a_rel_prd_le & [ STEM < "cobradero" >, SYNSEM.LKEYS.KEYREL.PRED "_cobradero_a_rel" ]. cobrador_n1 := n_subj-nom_le & [ STEM < "cobrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cobrador_n_rel" ] ]. cobranza_n1 := n_trans_le & [ STEM < "cobranza" >, SYNSEM.LKEYS.KEYREL.PRED "_cobranza_n_rel" ]. cobre_n1 := n_intr_mass_le & [ STEM < "cobre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cobre_n_rel" ] ]. cobrear_v := v_trans_np*_le & [ STEM < "cobrear" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrear_v_rel" ]. cobrizo_a1 := a_qual_intr_ser_le & [ STEM < "cobrizo" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrizo_a_rel" ]. cobro_n1 := n_trans_le & [ STEM < "cobro" >, SYNSEM.LKEYS.KEYREL.PRED "_cobro_n_rel" ]. cobáltico_a1 := a_rel_nonprd_intr_le & [ STEM < "cobáltico" >, SYNSEM.LKEYS.KEYREL.PRED "_cobáltico_a_rel" ]. coca_n1 := n_intr_count_le & [ STEM < "coca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coca_n_rel" ] ]. cocainomanía_n1 := n_intr_uncount_le & [ STEM < "cocainomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cocainomanía_n_rel" ] ]. cocainómano_n1 := n_intr_count_le & [ STEM < "cocainómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cocainómano_n_rel" ] ]. cocaína_n1 := n_intr_mass_le & [ STEM < "cocaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cocaína_n_rel" ] ]. coccidioidina_n1 := n_intr_count_le & [ STEM < "coccidioidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coccidioidina_n_rel" ] ]. coccinélido_n1 := n_intr_count_le & [ STEM < "coccinélido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coccinélido_n_rel" ] ]. cocción_n1 := n_trans_le & [ STEM < "cocción" >, SYNSEM.LKEYS.KEYREL.PRED "_cocción_n_rel" ]. coccígeo_a1 := a_rel_nonprd_intr_le & [ STEM < "coccígeo" >, SYNSEM.LKEYS.KEYREL.PRED "_coccígeo_a_rel" ]. cocear_v1 := v_intr_le & [ STEM < "cocear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cocear_v_rel" ] ]. cocear_v2 := v_trans_np_le & [ STEM < "cocear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_cocear_v_rel" ] ]. cocer_v := v_trans_np_caus_le & [ STEM < "cocer" >, SYNSEM.LKEYS.KEYREL.PRED "_cocer_v_rel" ]. cocha_n1 := n_intr_count_le & [ STEM < "cocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cocha_n_rel" ] ]. cochazo_n1 := n_intr_count_le & [ STEM < "cochazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cochazo_n_rel" ] ]. coche_n1 := n_intr_count_le & [ STEM < "coche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_coche_n_rel" ] ]. cochecito_n1 := n_intr_count_le & [ STEM < "cochecito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cochecito_n_rel" ] ]. cochera_n1 := n_intr_count_le & [ STEM < "cochera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cochera_n_rel" ] ]. cochero_n1 := n_intr_count_le & [ STEM < "cochero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cochero_n_rel" ] ]. cochinilla_n1 := n_intr_count_le & [ STEM < "cochinilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cochinilla_n_rel" ] ]. cochinillo_n1 := n_intr_count_le & [ STEM < "cochinillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cochinillo_n_rel" ] ]. cochite_hervite_x1 := av_i_le & [ STEM < "cochite_hervite" >, SYNSEM.LKEYS.KEYREL.PRED "_cochite_hervite_x_rel" ]. cocido_n1 := n_intr_mass_le & [ STEM < "cocido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cocido_n_rel" ] ]. cociente_n1 := n_intr_count_le & [ STEM < "cociente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cociente_n_rel" ] ]. cocina_n1 := n_intr_count_le & [ STEM < "cocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_cocina_n_rel" ] ]. cocinar_v := v_trans_np*_le & [ STEM < "cocinar" >, SYNSEM.LKEYS.KEYREL.PRED "_cocinar_v_rel" ]. cocinero_n1 := n_intr_count_le & [ STEM < "cocinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cocinero_n_rel" ] ]. cockit_n1 := n_intr_count_le & [ STEM < "cockit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cockit_n_rel" ] ]. cockpit_n1 := n_intr_count_le & [ STEM < "cockpit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cockpit_n_rel" ] ]. coclear_a1 := a_qual_intr_ser_le & [ STEM < "coclear" >, SYNSEM.LKEYS.KEYREL.PRED "_coclear_a_rel" ]. cocleariforme_a1 := a_qual_intr_ser_le & [ STEM < "cocleariforme" >, SYNSEM.LKEYS.KEYREL.PRED "_cocleariforme_a_rel" ]. cocleoestapedio_a1 := a_qual_intr_ser_le & [ STEM < "cocleoestapedio" >, SYNSEM.LKEYS.KEYREL.PRED "_cocleoestapedio_a_rel" ]. coco_n1 := n_intr_mass_le & [ STEM < "coco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coco_n_rel" ] ]. cocodrilo_n1 := n_intr_count_le & [ STEM < "cocodrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cocodrilo_n_rel" ] ]. cocoinato_n1 := n_intr_count_le & [ STEM < "cocoinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cocoinato_n_rel" ] ]. cocotal_n1 := n_intr_count_le & [ STEM < "cocotal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cocotal_n_rel" ] ]. cocotera_n1 := n_intr_count_le & [ STEM < "cocotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cocotera_n_rel" ] ]. cocotero_n1 := n_intr_count_le & [ STEM < "cocotero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cocotero_n_rel" ] ]. cocotte_n1 := n_intr_count_le & [ STEM < "cocotte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cocotte_n_rel" ] ]. coctelera_n1 := n_intr_count_le & [ STEM < "coctelera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coctelera_n_rel" ] ]. coda_n1 := n_intr_count_le & [ STEM < "coda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coda_n_rel" ] ]. codal_n1 := n_intr_count_le & [ STEM < "codal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_codal_n_rel" ] ]. codaste_n1 := n_intr_count_le & [ STEM < "codaste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_codaste_n_rel" ] ]. codazo_n1 := n_intr_count_le & [ STEM < "codazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codazo_n_rel" ] ]. codear_v1 := v_intr_le & [ STEM < "codear" >, SYNSEM.LKEYS.KEYREL.PRED "_codear_v_rel" ]. codear_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "codear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_codear_v_rel" ] ]. codec_n1 := n_intr_count_le & [ STEM < "codec" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_codec_n_rel" ] ]. codelincuencia_n1 := n_intr_uncount_le & [ STEM < "codelincuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codelincuencia_n_rel" ] ]. codera_n1 := n_intr_count_le & [ STEM < "codera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_codera_n_rel" ] ]. codero_a1 := a_rel_nonprd_intr_le & [ STEM < "codero" >, SYNSEM.LKEYS.KEYREL.PRED "_codero_a_rel" ]. codeudor_n1 := n_subj-nom_le & [ STEM < "codeudor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_codeudor_n_rel" ] ]. codeína_n1 := n_intr_mass_le & [ STEM < "codeína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_codeína_n_rel" ] ]. codicia_n1 := n_intr_mass_le & [ STEM < "codicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codicia_n_rel" ] ]. codiciable_a1 := a_qual_intr_scopal_le & [ STEM < "codiciable" >, SYNSEM.LKEYS.KEYREL.PRED "_codiciable_a_rel" ]. codiciar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "codiciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_codiciar_v_rel" ] ]. codiciar_v2 := v_trans_np_le & [ STEM < "codiciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_codiciar_v_rel" ] ]. codicilar_a1 := a_rel_nonprd_intr_le & [ STEM < "codicilar" >, SYNSEM.LKEYS.KEYREL.PRED "_codicilar_a_rel" ]. codicilar_v := v_intr_le & [ STEM < "codicilar" >, SYNSEM.LKEYS.KEYREL.PRED "_codicilar_v_rel" ]. codicilio_n1 := n_intr_count_le & [ STEM < "codicilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codicilio_n_rel" ] ]. codicilo_n1 := n_intr_count_le & [ STEM < "codicilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codicilo_n_rel" ] ]. codiciosamente_x1 := av_i_spr_le & [ STEM < "codiciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_codiciosamente_x_rel" ]. codicioso_a1 := a_qual_intr_ser_le & [ STEM < "codicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_codicioso_a_rel" ]. codificación_n1 := n_trans_le & [ STEM < "codificación" >, SYNSEM.LKEYS.KEYREL.PRED "_codificación_n_rel" ]. codificador_n1 := n_subj-nom_le & [ STEM < "codificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_codificador_n_rel" ] ]. codificar_v := v_trans_np_le & [ STEM < "codificar" >, SYNSEM.LKEYS.KEYREL.PRED "_codificar_v_rel" ]. codillo_n1 := n_intr_count_le & [ STEM < "codillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_codillo_n_rel" ] ]. codirector_n1 := n_subj-nom_le & [ STEM < "codirector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_codirector_n_rel" ] ]. codo_a_codo_x1 := av_i_le & [ STEM < "codo_a_codo" >, SYNSEM.LKEYS.KEYREL.PRED "_codo_a_codo_x_rel" ]. codo_con_codo_x1 := av_i_le & [ STEM < "codo_con_codo" >, SYNSEM.LKEYS.KEYREL.PRED "_codo_con_codo_x_rel" ]. codo_n1 := n_ppcomp_count_le & [ STEM < "codo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_codo_n_rel" ] ]. codorniz_n1 := n_intr_count_le & [ STEM < "codorniz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_codorniz_n_rel" ] ]. codón_n := n_intr_count_le & [ STEM < "codón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_codón_n_rel" ] ]. codón_n1 := n_intr_count_le & [ STEM < "codón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_codón_n_rel" ] ]. coeducacional_a1 := a_rel_nonprd_intr_le & [ STEM < "coeducacional" >, SYNSEM.LKEYS.KEYREL.PRED "_coeducacional_a_rel" ]. coeducación_n1 := n_intr_uncount_le & [ STEM < "coeducación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coeducación_n_rel" ] ]. coeficiente_n1 := n_intr_count_le & [ STEM < "coeficiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coeficiente_n_rel" ] ]. coenzima_n1 := n_intr_count_le & [ STEM < "coenzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coenzima_n_rel" ] ]. coercer_v := v_trans_np_le & [ STEM < "coercer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_coercer_v_rel" ] ]. coercibilidad_n1 := n_intr_uncount_le & [ STEM < "coercibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coercibilidad_n_rel" ] ]. coercitivamente_x1 := av_i_spr_le & [ STEM < "coercitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coercitivamente_x_rel" ]. coercitividad_n1 := n_ppcomp_uncount_le & [ STEM < "coercitividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coercitividad_n_rel" ] ]. coercitivo_a1 := a_qual_intr_scopal_le & [ STEM < "coercitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_coercitivo_a_rel" ]. coerción_n1 := n_intr_count_le & [ STEM < "coerción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coerción_n_rel" ] ]. coesposa_n1 := n_intr_count_le & [ STEM < "coesposa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coesposa_n_rel" ] ]. coestimulación_n1 := n_trans_le & [ STEM < "coestimulación" >, SYNSEM.LKEYS.KEYREL.PRED "_coestimulación_n_rel" ]. coetáneo_a1 := a_qual_intr_ser_le & [ STEM < "coetáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_coetáneo_a_rel" ]. coexistencia_n1 := n_intr_uncount_le & [ STEM < "coexistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coexistencia_n_rel" ] ]. coexistir_v := v_intr_mrkd_np*_le & [ STEM < "coexistir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_coexistir_v_rel" ] ]. cofa_n1 := n_intr_count_le & [ STEM < "cofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cofa_n_rel" ] ]. cofactor_n1 := n_intr_count_le & [ STEM < "cofactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cofactor_n_rel" ] ]. cofia_n1 := n_intr_count_le & [ STEM < "cofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cofia_n_rel" ] ]. cofiador_n1 := n_subj-nom_le & [ STEM < "cofiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cofiador_n_rel" ] ]. cofiduciario_n1 := n_intr_count_le & [ STEM < "cofiduciario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cofiduciario_n_rel" ] ]. cofinanciamiento_n1 := n_trans_le & [ STEM < "cofinanciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cofinanciamiento_n_rel" ]. cofinita_n1 := n_intr_count_le & [ STEM < "cofinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cofinita_n_rel" ] ]. cofirmante_n1 := n_intr_count_le & [ STEM < "cofirmante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cofirmante_n_rel" ] ]. cofosis_n1 := n_intr_uncount_le & [ STEM < "cofosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cofosis_n_rel" ] ]. cofrade_n1 := n_intr_count_le & [ STEM < "cofrade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cofrade_n_rel" ] ]. cofradía_n1 := n_intr_count_le & [ STEM < "cofradía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cofradía_n_rel" ] ]. cofre_n1 := n_intr_count_le & [ STEM < "cofre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cofre_n_rel" ] ]. cofrecillo_n1 := n_intr_count_le & [ STEM < "cofrecillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cofrecillo_n_rel" ] ]. cofrontera_n1 := n_intr_count_le & [ STEM < "cofrontera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cofrontera_n_rel" ] ]. cofásicamente_x1 := av_i_spr_le & [ STEM < "cofásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cofásicamente_x_rel" ]. cofásico_a1 := a_rel_nonprd_intr_le & [ STEM < "cofásico" >, SYNSEM.LKEYS.KEYREL.PRED "_cofásico_a_rel" ]. cogarante_n1 := n_intr_count_le & [ STEM < "cogarante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cogarante_n_rel" ] ]. cogedor_n1 := n_intr_count_le & [ STEM < "cogedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cogedor_n_rel" ] ]. cogestión_n1 := n_trans_le & [ STEM < "cogestión" >, SYNSEM.LKEYS.KEYREL.PRED "_cogestión_n_rel" ]. cogirador_n1 := n_subj-nom_le & [ STEM < "cogirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cogirador_n_rel" ] ]. cognación_n1 := n_intr_uncount_le & [ STEM < "cognación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cognación_n_rel" ] ]. cognado_a1 := a_rel_nonprd_intr_le & [ STEM < "cognado" >, SYNSEM.LKEYS.KEYREL.PRED "_cognado_a_rel" ]. cognaticio_a1 := a_rel_nonprd_intr_le & [ STEM < "cognaticio" >, SYNSEM.LKEYS.KEYREL.PRED "_cognaticio_a_rel" ]. cognición_n1 := n_intr_count_le & [ STEM < "cognición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cognición_n_rel" ] ]. cognitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "cognitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cognitivo_a_rel" ]. cognoscibilidad_n1 := n_intr_uncount_le & [ STEM < "cognoscibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cognoscibilidad_n_rel" ] ]. cognoscitivamente_x1 := av_i_spr_le & [ STEM < "cognoscitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cognoscitivamente_x_rel" ]. cognoscitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "cognoscitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cognoscitivo_a_rel" ]. cogollo_n1 := n_intr_count_le & [ STEM < "cogollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cogollo_n_rel" ] ]. cogote_n1 := n_ppcomp_count_le & [ STEM < "cogote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cogote_n_rel" ] ]. cohabitación_n1 := n_result_intr_ppcomp_le & [ STEM < "cohabitación" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cohabitación_n_rel" ] ]. cohabitar_v := v_intr_mrkd_np*_le & [ STEM < "cohabitar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_cohabitar_v_rel" ] ] ]. cohecho_n1 := n_intr_count_le & [ STEM < "cohecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohecho_n_rel" ] ]. coheredero_n1 := n_intr_count_le & [ STEM < "coheredero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coheredero_n_rel" ] ]. coherencia_n1 := n_intr_mass_le & [ STEM < "coherencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coherencia_n_rel" ] ]. coherente_a1 := a_qual_intr_scopal_le & [ STEM < "coherente" >, SYNSEM.LKEYS.KEYREL.PRED "_coherente_a_rel" ]. coherentemente_x1 := av_i_spr_le & [ STEM < "coherentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_coherentemente_x_rel" ]. cohesionar_v := v_trans_np_le & [ STEM < "cohesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_cohesionar_v_rel" ]. cohesivamente_x1 := av_i_spr_le & [ STEM < "cohesivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cohesivamente_x_rel" ]. cohesivo_a1 := a_qual_intr_scopal_le & [ STEM < "cohesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cohesivo_a_rel" ]. cohesión_n1 := n_intr_count_le & [ STEM < "cohesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohesión_n_rel" ] ]. cohesor_n1 := n_intr_count_le & [ STEM < "cohesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cohesor_n_rel" ] ]. cohete-split_n1 := n_intr_count_le & [ STEM < "cohete-split" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cohete-split_n_rel" ] ]. cohete_n1 := n_intr_count_le & [ STEM < "cohete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cohete_n_rel" ] ]. cohibición_n1 := n_trans_le & [ STEM < "cohibición" >, SYNSEM.LKEYS.KEYREL.PRED "_cohibición_n_rel" ]. cohibir_v1 := v_intr_io*_le & [ STEM < "cohibir" >, SYNSEM.LKEYS.KEYREL.PRED "_cohibir_v_rel" ]. cohibir_v2 := v_pron_intr_le & [ STEM < "cohibir" >, SYNSEM.LKEYS.KEYREL.PRED "_cohibir_v_rel" ]. cohibir_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cohibir" >, SYNSEM.LKEYS.KEYREL.PRED "_cohibir_v_rel" ]. cohibir_v4 := v_trans_np_le & [ STEM < "cohibir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_cohibir_v_rel" ] ]. cohiponimia_n1 := n_intr_uncount_le & [ STEM < "cohiponimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohiponimia_n_rel" ] ]. cohipónimo_n1 := n_intr_count_le & [ STEM < "cohipónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohipónimo_n_rel" ] ]. cohobación_n1 := n_trans_le & [ STEM < "cohobación" >, SYNSEM.LKEYS.KEYREL.PRED "_cohobación_n_rel" ]. cohomología_n1 := n_intr_uncount_le & [ STEM < "cohomología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohomología_n_rel" ] ]. cohonestar_v1 := v_intr_mrkd_np_le & [ STEM < "cohonestar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_cohonestar_v_rel" ] ]. cohonestar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "cohonestar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cohonestar_v_rel" ] ]. cohorte_n1 := n_intr_uncount_pl_le & [ STEM < "cohorte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cohorte_n_rel" ] ]. coimagen_n1 := n_intr_count_le & [ STEM < "coimagen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coimagen_n_rel" ] ]. coincidencia_n1 := n_intr_count_le & [ STEM < "coincidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coincidencia_n_rel" ] ]. coincidente_a1 := a_qual_trans*_ser_le & [ STEM < "coincidente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_coincidente_a_rel" ] ]. coincidentemente_x1 := av_i_spr_le & [ STEM < "coincidentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_coincidentemente_x_rel" ]. coincidir_v1 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "coincidir" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_sel_or_indp_rel, KEYREL.PRED "_coincidir_v_rel" ] ]. coincidir_v2 := v_intr_mrkd_np_le & [ STEM < "coincidir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_coincidir_v_rel" ] ] ]. coincidir_v3 := v_intr_mrkd_np_sym_le & [ STEM < "coincidir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_coincidir_v_rel" ] ]. coinculpado_n1 := n_intr_count_le & [ STEM < "coinculpado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coinculpado_n_rel" ] ]. coinquilino_n1 := n_intr_count_le & [ STEM < "coinquilino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coinquilino_n_rel" ] ]. coinyección_n1 := n_trans_le & [ STEM < "coinyección" >, SYNSEM.LKEYS.KEYREL.PRED "_coinyección_n_rel" ]. coito_n1 := n_intr_count_le & [ STEM < "coito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coito_n_rel" ] ]. cojear_v := v_intr_le & [ STEM < "cojear" >, SYNSEM.LKEYS.KEYREL.PRED "cojea_r_v_rel" ]. cojera_n1 := n_intr_uncount_pl_le & [ STEM < "cojera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cojera_n_rel" ] ]. cojinete_n1 := n_intr_count_le & [ STEM < "cojinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cojinete_n_rel" ] ]. cojo_a1 := a_qual_intr_scopal_le & [ STEM < "cojo" >, SYNSEM.LKEYS.KEYREL.PRED "_cojo_a_rel" ]. cojo_n1 := n_intr_count_le & [ STEM < "cojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cojo_n_rel" ] ]. cojonudo_a1 := a_qual_intr_scopal_le & [ STEM < "cojonudo" >, SYNSEM.LKEYS.KEYREL.PRED "_cojonudo_a_rel" ]. cojín_n1 := n_intr_count_le & [ STEM < "cojín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cojín_n_rel" ] ]. cojón_n1 := n_ppcomp_count_le & [ STEM < "cojón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cojón_n_rel" ] ]. col_n1 := n_intr_mass_le & [ STEM < "col" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_col_n_rel" ] ]. cola_n1 := n_intr_count_le & [ STEM < "cola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cola_n_rel" ] ]. colabilidad_n1 := n_ppcomp_mass_le & [ STEM < "colabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colabilidad_n_rel" ] ]. colaboracionismo_n1 := n_intr_uncount_le & [ STEM < "colaboracionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colaboracionismo_n_rel" ] ]. colaboracionista_n1 := n_intr_count_le & [ STEM < "colaboracionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colaboracionista_n_rel" ] ]. colaboración_n1 := n_result_intr_ppcomp_le & [ STEM < "colaboración" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_colaboración_n_rel" ] ]. colaborador_n1 := n_intr_count_le & [ STEM < "colaborador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colaborador_n_rel" ] ]. colaborar_v1 := v_intr_mrkd_np*_sym_le & [ STEM < "colaborar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG2.SORT hum_soc, PRED "_colaborar_v_rel" ] ] ]. colaborar_v2 := v_intr_mrkd_np_le & [ STEM < "colaborar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT abs_pro_sem, PRED "_colaborar_v_rel" ] ] ]. colacionar_v := v_trans_np_le & [ STEM < "colacionar" >, SYNSEM.LKEYS.KEYREL.PRED "_colacionar_v_rel" ]. colación_n1 := n_trans_le & [ STEM < "colación" >, SYNSEM.LKEYS.KEYREL.PRED "_colación_n_rel" ]. colada_n1 := n_intr_count_le & [ STEM < "colada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colada_n_rel" ] ]. coladero_n1 := n_intr_count_le & [ STEM < "coladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coladero_n_rel" ] ]. colado_n1 := n_intr_count_le & [ STEM < "colado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colado_n_rel" ] ]. colador_n1 := n_intr_count_le & [ STEM < "colador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colador_n_rel" ] ]. coladura_n1 := n_trans_le & [ STEM < "coladura" >, SYNSEM.LKEYS.KEYREL.PRED "_coladura_n_rel" ]. colagogo_n1 := n_intr_count_le & [ STEM < "colagogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colagogo_n_rel" ] ]. colapez_n1 := n_intr_count_le & [ STEM < "colapez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colapez_n_rel" ] ]. colapsable_a1 := a_rel_prd_le & [ STEM < "colapsable" >, SYNSEM.LKEYS.KEYREL.PRED "_colapsable_a_rel" ]. colapsar_v := v_trans_np_caus_le & [ STEM < "colapsar" >, SYNSEM.LKEYS.KEYREL.PRED "_colapsar_v_rel" ]. colapso_n1 := n_intr_count_le & [ STEM < "colapso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colapso_n_rel" ] ]. colar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "colar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_ani_hum_mat, PRED "_colar_v_rel" ] ]. colar_v2 := v_trans_np_lcomp_dir*_le & [ STEM < "colar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_colar_v_rel" ] ]. colateral_a1 := a_rel_prd_le & [ STEM < "colateral" >, SYNSEM.LKEYS.KEYREL.PRED "_colateral_a_rel" ]. colateralidad_n1 := n_intr_uncount_le & [ STEM < "colateralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colateralidad_n_rel" ] ]. colateralmente_x1 := av_i_spr_le & [ STEM < "colateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_colateralmente_x_rel" ]. colatitud_n1 := n_intr_uncount_le & [ STEM < "colatitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colatitud_n_rel" ] ]. colcha_n1 := n_intr_count_le & [ STEM < "colcha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colcha_n_rel" ] ]. colchonería_n1 := n_intr_count_le & [ STEM < "colchonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_colchonería_n_rel" ] ]. colchoneta_n1 := n_intr_count_le & [ STEM < "colchoneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colchoneta_n_rel" ] ]. colchón_n1 := n_intr_count_le & [ STEM < "colchón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colchón_n_rel" ] ]. colcótar_n1 := n_intr_count_le & [ STEM < "colcótar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colcótar_n_rel" ] ]. colear_v := v_intr_le & [ STEM < "colear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_pro_sem, PRED "_colear_v_rel" ] ]. coleccionar_v := v_trans_np_le & [ STEM < "coleccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_coleccionar_v_rel" ]. coleccionista_n1 := n_intr_count_le & [ STEM < "coleccionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coleccionista_n_rel" ] ]. colección_n1 := n_trans_le & [ STEM < "colección" >, SYNSEM.LKEYS.KEYREL.PRED "_colección_n_rel" ]. colecta_n1 := n_intr_count_le & [ STEM < "colecta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colecta_n_rel" ] ]. colectar_v := v_trans_np_le & [ STEM < "colectar" >, SYNSEM.LKEYS.KEYREL.PRED "_colectar_v_rel" ]. colectivamente_x1 := av_i_spr_le & [ STEM < "colectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivamente_x_rel" ]. colectividad_n1 := n_intr_coll_le & [ STEM < "colectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colectividad_n_rel" ] ]. colectivismo_n1 := n_intr_uncount_le & [ STEM < "colectivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colectivismo_n_rel" ] ]. colectivista_a1 := a_rel_nonprd_intr_le & [ STEM < "colectivista" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivista_a_rel" ]. colectivista_n1 := n_intr_count_le & [ STEM < "colectivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colectivista_n_rel" ] ]. colectivización_n1 := n_trans_le & [ STEM < "colectivización" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivización_n_rel" ]. colectivizar_v := v_trans_np_le & [ STEM < "colectivizar" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivizar_v_rel" ]. colectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "colectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivo_a_rel" ]. colectivo_n1 := n_group_le & [ STEM < "colectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_colectivo_n_rel" ]. colector_a1 := a_rel_nonprd_intr_le & [ STEM < "colector" >, SYNSEM.LKEYS.KEYREL.PRED "_colector_a_rel" ]. colector_n1 := n_intr_count_le & [ STEM < "colector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colector_n_rel" ] ]. colector_n2 := n_subj-nom_le & [ STEM < "colector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colector_n_rel" ] ]. colega_n1 := n_ppcomp_count_le & [ STEM < "colega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colega_n_rel" ] ]. colegatario_n1 := n_intr_count_le & [ STEM < "colegatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colegatario_n_rel" ] ]. colegiación_n1 := n_result_intr_ppcomp_le & [ STEM < "colegiación" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_colegiación_n_rel" ] ]. colegiadamente_x1 := av_i_spr_le & [ STEM < "colegiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_colegiadamente_x_rel" ]. colegial_n1 := n_intr_count_le & [ STEM < "colegial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colegial_n_rel" ] ]. colegiar_v := v_trans_np_caus_le & [ STEM < "colegiar" >, SYNSEM.LKEYS.KEYREL.PRED "_colegiar_v_rel" ]. colegiata_n1 := n_intr_count_le & [ STEM < "colegiata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colegiata_n_rel" ] ]. colegio_n1 := n_intr_count_le & [ STEM < "colegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_colegio_n_rel" ] ]. colegir_v1 := v_trans_cp_prop_fin_le & [ STEM < "colegir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_colegir_v_rel" ] ]. colegir_v2 := v_trans_np_le & [ STEM < "colegir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_colegir_v_rel" ] ]. colemanita_n1 := n_intr_count_le & [ STEM < "colemanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colemanita_n_rel" ] ]. colemia_n1 := n_intr_uncount_le & [ STEM < "colemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colemia_n_rel" ] ]. colepoyesis_n1 := n_intr_uncount_le & [ STEM < "colepoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colepoyesis_n_rel" ] ]. colesteatoma_n1 := n_intr_count_le & [ STEM < "colesteatoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colesteatoma_n_rel" ] ]. colesteatomatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "colesteatomatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_colesteatomatoso_a_rel" ]. colesterasa_n1 := n_intr_count_le & [ STEM < "colesterasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colesterasa_n_rel" ] ]. colesterina_n1 := n_intr_count_le & [ STEM < "colesterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colesterina_n_rel" ] ]. colesterol_n1 := n_intr_count_le & [ STEM < "colesterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colesterol_n_rel" ] ]. coleta_n1 := n_intr_count_le & [ STEM < "coleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coleta_n_rel" ] ]. coleta_n2 := n_ppcomp_count_le & [ STEM < "coleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coleta_n_rel" ] ]. coletazo_n1 := n_intr_count_le & [ STEM < "coletazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coletazo_n_rel" ] ]. coletilla_n1 := n_intr_count_le & [ STEM < "coletilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coletilla_n_rel" ] ]. coleóptero_n1 := n_intr_count_le & [ STEM < "coleóptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coleóptero_n_rel" ] ]. colgador_n1 := n_intr_count_le & [ STEM < "colgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colgador_n_rel" ] ]. colgadura_n1 := n_intr_count_le & [ STEM < "colgadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colgadura_n_rel" ] ]. colgajo_n1 := n_intr_count_le & [ STEM < "colgajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colgajo_n_rel" ] ]. colgante_a1 := a_rel_nonprd_intr_le & [ STEM < "colgante" >, SYNSEM.LKEYS.KEYREL.PRED "_colgante_a_rel" ]. colgante_n1 := n_intr_count_le & [ STEM < "colgante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colgante_n_rel" ] ]. colgar_v1 := v_intr_mrkd_np*_le & [ STEM < "colgar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_colgar_v_rel" ] ]. colgar_v2 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "colgar" >, SYNSEM.LKEYS.KEYREL.PRED "_colgar_v_rel" ]. colgar_v3 := v_unacc_lcomp_loc*_le & [ STEM < "colgar" >, SYNSEM.LKEYS.KEYREL.PRED "_colgar_v_rel" ]. colibrí_n1 := n_intr_count_le & [ STEM < "colibrí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_colibrí_n_rel" ] ]. colicina_n1 := n_intr_count_le & [ STEM < "colicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colicina_n_rel" ] ]. colicuativo_a1 := a_rel_nonprd_intr_le & [ STEM < "colicuativo" >, SYNSEM.LKEYS.KEYREL.PRED "_colicuativo_a_rel" ]. coliforme_a1 := a_qual_intr_ser_le & [ STEM < "coliforme" >, SYNSEM.LKEYS.KEYREL.PRED "_coliforme_a_rel" ]. coligación_n1 := n_ppde_ppcomp_count_le & [ STEM < "coligación" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_coligación_n_rel" ] ]. coligrueso_a1 := a_rel_nonprd_intr_le & [ STEM < "coligrueso" >, SYNSEM.LKEYS.KEYREL.PRED "_coligrueso_a_rel" ]. colilla_n1 := n_intr_count_le & [ STEM < "colilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colilla_n_rel" ] ]. colimación_n1 := n_trans_le & [ STEM < "colimación" >, SYNSEM.LKEYS.KEYREL.PRED "_colimación_n_rel" ]. colimador_n1 := n_intr_count_le & [ STEM < "colimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colimador_n_rel" ] ]. colimar_v := v_trans_np_le & [ STEM < "colimar" >, SYNSEM.LKEYS.KEYREL.PRED "_colimar_v_rel" ]. colimbo_n1 := n_intr_count_le & [ STEM < "colimbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_colimbo_n_rel" ] ]. colina_n1 := n_intr_count_le & [ STEM < "colina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_colina_n_rel" ] ]. colinabo_n1 := n_intr_mass_le & [ STEM < "colinabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colinabo_n_rel" ] ]. colindante_a1 := a_qual_trans*_ser_le & [ STEM < "colindante" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_colindante_a_rel" ] ]. colineal_a1 := a_qual_intr_ser_le & [ STEM < "colineal" >, SYNSEM.LKEYS.KEYREL.PRED "_colineal_a_rel" ]. colinérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "colinérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_colinérgico_a_rel" ]. colirio_n1 := n_intr_count_le & [ STEM < "colirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colirio_n_rel" ] ]. colirrojo_n1 := n_intr_count_le & [ STEM < "colirrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_colirrojo_n_rel" ] ]. colisa_n1 := n_intr_count_le & [ STEM < "colisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colisa_n_rel" ] ]. coliseo_n1 := n_intr_count_le & [ STEM < "coliseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coliseo_n_rel" ] ]. colisionar_v := v_intr_mrkd_np*_le & [ STEM < "colisionar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_colisionar_v_rel" ] ]. colisión_n1 := n_result_intr_ppcomp_le & [ STEM < "colisión" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_contra_p_sel_rel, KEYREL.PRED "_colisión_n_rel" ] ]. coliso_n1 := n_intr_count_le & [ STEM < "coliso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coliso_n_rel" ] ]. colista_n1 := n_intr_count_le & [ STEM < "colista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colista_n_rel" ] ]. colitigante_n1 := n_intr_count_le & [ STEM < "colitigante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colitigante_n_rel" ] ]. colitis_n1 := n_intr_uncount_le & [ STEM < "colitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colitis_n_rel" ] ]. collado_n1 := n_intr_count_le & [ STEM < "collado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_collado_n_rel" ] ]. collage_n1 := n_intr_count_le & [ STEM < "collage" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_collage_n_rel" ] ]. collar_n1 := n_intr_count_le & [ STEM < "collar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_collar_n_rel" ] ]. collarín_n1 := n_intr_count_le & [ STEM < "collarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_collarín_n_rel" ] ]. collera_n1 := n_intr_count_le & [ STEM < "collera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_collera_n_rel" ] ]. colmar_v := v_trans_np_mrkd_np*_le & [ STEM < "colmar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_colmar_v_rel" ] ]. colmatación_n1 := n_trans_le & [ STEM < "colmatación" >, SYNSEM.LKEYS.KEYREL.PRED "_colmatación_n_rel" ]. colmena_n1 := n_intr_count_le & [ STEM < "colmena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colmena_n_rel" ] ]. colmenar_n1 := n_intr_count_le & [ STEM < "colmenar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_colmenar_n_rel" ] ]. colmenero_n1 := n_intr_count_le & [ STEM < "colmenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colmenero_n_rel" ] ]. colmillo_n1 := n_ppcomp_count_le & [ STEM < "colmillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_colmillo_n_rel" ] ]. colmo_n1 := n_intr_count_le & [ STEM < "colmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colmo_n_rel" ] ]. coloboma_n1 := n_intr_uncount_pl_le & [ STEM < "coloboma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coloboma_n_rel" ] ]. colocación_n1 := n_trans_le & [ STEM < "colocación" >, SYNSEM.LKEYS.KEYREL.PRED "_colocación_n_rel" ]. colocador_n1 := n_intr_count_le & [ STEM < "colocador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colocador_n_rel" ] ]. colocar_v1 := v_ditrans*_le & [ STEM < "colocar" >, SYNSEM.LKEYS.KEYREL.PRED "_colocar_v_rel" ]. colocar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "colocar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_colocar_v_rel" ] ]. colocar_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "colocar" >, SYNSEM.LKEYS.KEYREL.PRED "_colocar_v_rel" ]. colocar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "colocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_colocar_v_rel" ] ] ]. colocar_v5 := v_trans_np_mrkd_np_caus_le & [ STEM < "colocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_colocar_v_rel" ] ] ]. colodión_n1 := n_intr_uncount_le & [ STEM < "colodión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colodión_n_rel" ] ]. colofonia_n1 := n_intr_mass_le & [ STEM < "colofonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colofonia_n_rel" ] ]. colofón_n1 := n_intr_uncount_pl_le & [ STEM < "colofón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colofón_n_rel" ] ]. cologaritmo_n1 := n_intr_count_le & [ STEM < "cologaritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cologaritmo_n_rel" ] ]. coloidal_a1 := a_qual_intr_ser_le & [ STEM < "coloidal" >, SYNSEM.LKEYS.KEYREL.PRED "_coloidal_a_rel" ]. coloidalmente_x1 := av_i_spr_le & [ STEM < "coloidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_coloidalmente_x_rel" ]. coloide_n1 := n_intr_count_le & [ STEM < "coloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_coloide_n_rel" ] ]. coloidoquímica_n1 := n_intr_uncount_le & [ STEM < "coloidoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coloidoquímica_n_rel" ] ]. colombiano_a1 := a_rel_prd_le & [ STEM < "colombiano" >, SYNSEM.LKEYS.KEYREL.PRED "_colombiano_a_rel" ]. colombiano_n1 := n_intr_count_le & [ STEM < "colombiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colombiano_n_rel" ] ]. colombio_n1 := n_intr_mass_le & [ STEM < "colombio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colombio_n_rel" ] ]. colombo_n1 := n_intr_count_le & [ STEM < "colombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_colombo_n_rel" ] ]. colon_n1 := n_ppcomp_count_le & [ STEM < "colon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_colon_n_rel" ] ]. colonato_n1 := n_intr_uncount_le & [ STEM < "colonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colonato_n_rel" ] ]. colonato_n2 := n_intr_coll_le & [ STEM < "colonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colonato_n_rel" ] ]. colonia_n1 := n_intr_mass_le & [ STEM < "colonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colonia_n_rel" ] ]. colonia_n2 := n_intr_count_le & [ STEM < "colonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_colonia_n_rel" ] ]. colonial_a1 := a_rel_prd_le & [ STEM < "colonial" >, SYNSEM.LKEYS.KEYREL.PRED "_colonial_a_rel" ]. colonialismo_n1 := n_intr_uncount_le & [ STEM < "colonialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colonialismo_n_rel" ] ]. colonialista_a1 := a_rel_nonprd_intr_le & [ STEM < "colonialista" >, SYNSEM.LKEYS.KEYREL.PRED "_colonialista_a_rel" ]. colonialista_n1 := n_intr_count_le & [ STEM < "colonialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colonialista_n_rel" ] ]. colonización_n1 := n_trans_le & [ STEM < "colonización" >, SYNSEM.LKEYS.KEYREL.PRED "_colonización_n_rel" ]. colonizador_a1 := a_rel_nonprd_intr_le & [ STEM < "colonizador" >, SYNSEM.LKEYS.KEYREL.PRED "_colonizador_a_rel" ]. colonizador_a2 := a_qual_intr_ser_le & [ STEM < "colonizador" >, SYNSEM.LKEYS.KEYREL.PRED "_colonizador_a_rel" ]. colonizador_n1 := n_subj-nom_le & [ STEM < "colonizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colonizador_n_rel" ] ]. colonizar_v := v_trans_np_le & [ STEM < "colonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_colonizar_v_rel" ]. colono_n1 := n_intr_count_le & [ STEM < "colono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colono_n_rel" ] ]. coloquial_a1 := a_qual_intr_scopal_le & [ STEM < "coloquial" >, SYNSEM.LKEYS.KEYREL.PRED "_coloquial_a_rel" ]. coloquialismo_n1 := n_intr_count_le & [ STEM < "coloquialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coloquialismo_n_rel" ] ]. coloquialmente_x1 := av_i_spr_le & [ STEM < "coloquialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_coloquialmente_x_rel" ]. coloquio_n1 := n_intr_count_le & [ STEM < "coloquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coloquio_n_rel" ] ]. color_n1 := n_intr_count_le & [ STEM < "color" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_color_n_rel" ] ]. coloración_n1 := n_trans_le & [ STEM < "coloración" >, SYNSEM.LKEYS.KEYREL.PRED "_coloración_n_rel" ]. colorante_a1 := a_rel_nonprd_intr_le & [ STEM < "colorante" >, SYNSEM.LKEYS.KEYREL.PRED "_colorante_a_rel" ]. colorante_n1 := n_intr_count_le & [ STEM < "colorante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colorante_n_rel" ] ]. colorear_v := v_trans_np_le & [ STEM < "colorear" >, SYNSEM.LKEYS.KEYREL.PRED "_colorear_v_rel" ]. colorete_n1 := n_intr_mass_le & [ STEM < "colorete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colorete_n_rel" ] ]. colorido_n1 := n_intr_mass_le & [ STEM < "colorido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colorido_n_rel" ] ]. colorimetría_n1 := n_intr_count_le & [ STEM < "colorimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colorimetría_n_rel" ] ]. colorimétricamente_x1 := av_i_spr_le & [ STEM < "colorimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_colorimétricamente_x_rel" ]. colorimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "colorimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_colorimétrico_a_rel" ]. colorista_a1 := a_rel_nonprd_intr_le & [ STEM < "colorista" >, SYNSEM.LKEYS.KEYREL.PRED "_colorista_a_rel" ]. colorista_n1 := n_intr_count_le & [ STEM < "colorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_colorista_n_rel" ] ]. colorímetro_n1 := n_intr_count_le & [ STEM < "colorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colorímetro_n_rel" ] ]. colosal_a1 := a_qual_intr_scopal_le & [ STEM < "colosal" >, SYNSEM.LKEYS.KEYREL.PRED "_colosal_a_rel" ]. colosalismo_n1 := n_intr_uncount_le & [ STEM < "colosalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colosalismo_n_rel" ] ]. coloso_n1 := n_intr_count_le & [ STEM < "coloso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_coloso_n_rel" ] ]. colquicina_n1 := n_intr_mass_le & [ STEM < "colquicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colquicina_n_rel" ] ]. coludir_v := v_trans_np*_le & [ STEM < "coludir" >, SYNSEM.LKEYS.KEYREL.PRED "_coludir_v_rel" ]. columbario_n1 := n_intr_count_le & [ STEM < "columbario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_columbario_n_rel" ] ]. columbita_n1 := n_intr_count_le & [ STEM < "columbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_columbita_n_rel" ] ]. columbrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "columbrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_columbrar_v_rel" ] ]. columbrar_v2 := v_trans_np_le & [ STEM < "columbrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_columbrar_v_rel" ] ]. columbófilo_n1 := n_intr_count_le & [ STEM < "columbófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_columbófilo_n_rel" ] ]. columela_n1 := n_intr_count_le & [ STEM < "columela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_columela_n_rel" ] ]. columela_n2 := n_ppcomp_count_le & [ STEM < "columela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_columela_n_rel" ] ]. columna_n1 := n_intr_count_le & [ STEM < "columna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_columna_n_rel" ] ]. columnar_a1 := a_rel_nonprd_intr_le & [ STEM < "columnar" >, SYNSEM.LKEYS.KEYREL.PRED "_columnar_a_rel" ]. columnata_n1 := n_intr_coll_le & [ STEM < "columnata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_columnata_n_rel" ] ]. columnista_n1 := n_intr_count_le & [ STEM < "columnista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_columnista_n_rel" ] ]. columpiar_v := v_trans_np_caus_le & [ STEM < "columpiar" >, SYNSEM.LKEYS.KEYREL.PRED "_columpiar_v_rel" ]. columpio_n1 := n_intr_count_le & [ STEM < "columpio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_columpio_n_rel" ] ]. colusión_n1 := n_intr_count_le & [ STEM < "colusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colusión_n_rel" ] ]. colusorio_a1 := a_rel_nonprd_intr_le & [ STEM < "colusorio" >, SYNSEM.LKEYS.KEYREL.PRED "_colusorio_a_rel" ]. colutorio_n1 := n_intr_mass_le & [ STEM < "colutorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colutorio_n_rel" ] ]. coluvial_a1 := a_rel_nonprd_intr_le & [ STEM < "coluvial" >, SYNSEM.LKEYS.KEYREL.PRED "_coluvial_a_rel" ]. coluvio_n1 := n_intr_mass-or-count_le & [ STEM < "coluvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_coluvio_n_rel" ] ]. coluvión_n1 := n_intr_count_le & [ STEM < "coluvión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_coluvión_n_rel" ] ]. colza_n1 := n_intr_mass_le & [ STEM < "colza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_colza_n_rel" ] ]. colágeno_n1 := n_intr_count_le & [ STEM < "colágeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_colágeno_n_rel" ] ]. colédoco_a1 := a_rel_nonprd_intr_le & [ STEM < "colédoco" >, SYNSEM.LKEYS.KEYREL.PRED "_colédoco_a_rel" ]. colénquima_n1 := n_intr_count_le & [ STEM < "colénquima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colénquima_n_rel" ] ]. coléricamente_x1 := av_i_spr_le & [ STEM < "coléricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coléricamente_x_rel" ]. colérico_a1 := a_qual_intr_estar_le & [ STEM < "colérico" >, SYNSEM.LKEYS.KEYREL.PRED "_colérico_a_rel" ]. colérico_a2 := a_rel_nonprd_intr_le & [ STEM < "colérico" >, SYNSEM.LKEYS.KEYREL.PRED "_colérico_a_rel" ]. colículo_n1 := n_intr_count_le & [ STEM < "colículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_colículo_n_rel" ] ]. colímite_n1 := n_intr_count_le & [ STEM < "colímite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_colímite_n_rel" ] ]. coma_n1 := n_intr_uncount_le & [ STEM < "coma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coma_n_rel" ] ]. coma_n2 := n_intr_count_le & [ STEM < "coma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coma_n_rel" ] ]. comadreja_n1 := n_intr_count_le & [ STEM < "comadreja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_comadreja_n_rel" ] ]. comadrona_n1 := n_intr_count_le & [ STEM < "comadrona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comadrona_n_rel" ] ]. comanche_n1 := n_intr_count_le & [ STEM < "comanche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comanche_n_rel" ] ]. comandancia_n1 := n_intr_count_le & [ STEM < "comandancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_comandancia_n_rel" ] ]. comandante_n1 := n_intr_count_le & [ STEM < "comandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comandante_n_rel" ] ]. comandar_v := v_trans_np_le & [ STEM < "comandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_comandar_v_rel" ] ]. comandita_n1 := n_intr_count_le & [ STEM < "comandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_comandita_n_rel" ] ]. comanditar_v := v_trans_np_le & [ STEM < "comanditar" >, SYNSEM.LKEYS.KEYREL.PRED "_comanditar_v_rel" ]. comanditario_a1 := a_rel_nonprd_intr_le & [ STEM < "comanditario" >, SYNSEM.LKEYS.KEYREL.PRED "_comanditario_a_rel" ]. comando_n1 := n_intr_count_le & [ STEM < "comando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem_soc, PRED "_comando_n_rel" ] ]. comarca_n1 := n_intr_count_le & [ STEM < "comarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_comarca_n_rel" ] ]. comarcal_a1 := a_rel_nonprd_intr_le & [ STEM < "comarcal" >, SYNSEM.LKEYS.KEYREL.PRED "_comarcal_a_rel" ]. comatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "comatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_comatoso_a_rel" ]. combadura_n1 := n_trans_le & [ STEM < "combadura" >, SYNSEM.LKEYS.KEYREL.PRED "_combadura_n_rel" ]. combar_v := v_trans_np_caus_le & [ STEM < "combar" >, SYNSEM.LKEYS.KEYREL.PRED "_combar_v_rel" ]. combate_n1 := n_trans_le & [ STEM < "combate" >, SYNSEM.LKEYS.KEYREL.PRED "_combate_n_rel" ]. combatiente_n1 := n_intr_count_le & [ STEM < "combatiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_combatiente_n_rel" ] ]. combatir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "combatir" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_combatir_v_rel" ] ] ]. combatir_v2 := v_intr_mrkd_np_le & [ STEM < "combatir" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_combatir_v_rel" ] ] ]. combatir_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "combatir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_combatir_v_rel" ] ]. combatir_v4 := v_trans_np*_le & [ STEM < "combatir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_combatir_v_rel" ] ]. combatividad_n1 := n_ppcomp_mass_le & [ STEM < "combatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_combatividad_n_rel" ] ]. combativo_a1 := a_qual_intr_scopal_le & [ STEM < "combativo" >, SYNSEM.LKEYS.KEYREL.PRED "_combativo_a_rel" ]. combe_n1 := n_intr_count_le & [ STEM < "combe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_combe_n_rel" ] ]. combinable_a1 := a_qual_intr_scopal_le & [ STEM < "combinable" >, SYNSEM.LKEYS.KEYREL.PRED "_combinable_a_rel" ]. combinación_n1 := n_trans_le & [ STEM < "combinación" >, SYNSEM.LKEYS.KEYREL.PRED "_combinación_n_rel" ]. combinadamente_x1 := av_i_spr_le & [ STEM < "combinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_combinadamente_x_rel" ]. combinado_n1 := n_intr_count_le & [ STEM < "combinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_combinado_n_rel" ] ]. combinador_n1 := n_intr_count_le & [ STEM < "combinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_combinador_n_rel" ] ]. combinar_v1 := v_trans_cp_prop_fin_le & [ STEM < "combinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_combinar_v_rel" ] ]. combinar_v2 := v_trans_np_mrkd_np*_sym_le & [ STEM < "combinar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_combinar_v_rel" ] ]. combinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "combinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_combinatorio_a_rel" ]. comburente_a1 := a_rel_nonprd_intr_le & [ STEM < "comburente" >, SYNSEM.LKEYS.KEYREL.PRED "_comburente_a_rel" ]. combustibilidad_n1 := n_ppcomp_mass_le & [ STEM < "combustibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_combustibilidad_n_rel" ] ]. combustible_a1 := a_qual_intr_scopal_le & [ STEM < "combustible" >, SYNSEM.LKEYS.KEYREL.PRED "_combustible_a_rel" ]. combustible_n1 := n_intr_mass_le & [ STEM < "combustible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_combustible_n_rel" ] ]. combustión_n1 := n_intr_count_le & [ STEM < "combustión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_combustión_n_rel" ] ]. comedero_n1 := n_intr_count_le & [ STEM < "comedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comedero_n_rel" ] ]. comedia_n1 := n_intr_count_le & [ STEM < "comedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comedia_n_rel" ] ]. comediante_n1 := n_intr_count_le & [ STEM < "comediante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comediante_n_rel" ] ]. comedor_n1 := n_intr_count_le & [ STEM < "comedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_comedor_n_rel" ] ]. comedón_n1 := n_intr_count_le & [ STEM < "comedón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comedón_n_rel" ] ]. comején_n1 := n_intr_count_le & [ STEM < "comején" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_comején_n_rel" ] ]. comendador_n1 := n_intr_count_le & [ STEM < "comendador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comendador_n_rel" ] ]. comensal_n1 := n_intr_count_le & [ STEM < "comensal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comensal_n_rel" ] ]. comentador_n1 := n_subj-nom_le & [ STEM < "comentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comentador_n_rel" ] ]. comentar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "comentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_comentar_v_rel" ] ]. comentar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "comentar" >, SYNSEM.LKEYS.KEYREL.PRED "_comentar_v_rel" ]. comentar_v3 := v_ditrans*_le & [ STEM < "comentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_comentar_v_rel" ] ]. comentario_n1 := n_intr_count_le & [ STEM < "comentario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_comentario_n_rel" ] ]. comentarista_n1 := n_intr_count_le & [ STEM < "comentarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comentarista_n_rel" ] ]. comenzar_v := v_trans_np_caus_int_le & [ STEM < "comenzar" >, SYNSEM.LKEYS.KEYREL.PRED "_comenzar_v_rel" ]. comenzar_v2 := v_intr_mrkd_vp_ssr_le & [ STEM < "comenzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_comenzar_v_rel" ] ]. comer_v1 := v_pron_trans_np_le & [ STEM < "comer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_comer_v_rel" ] ]. comer_v2 := v_trans_np*_le & [ STEM < "comer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_comer_v_rel" ] ]. comerciabilidad_n1 := n_intr_uncount_le & [ STEM < "comerciabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comerciabilidad_n_rel" ] ]. comerciable_a1 := a_qual_intr_scopal_le & [ STEM < "comerciable" >, SYNSEM.LKEYS.KEYREL.PRED "_comerciable_a_rel" ]. comercial_a1 := a_rel_nonprd_intr_le & [ STEM < "comercial" >, SYNSEM.LKEYS.KEYREL.PRED "_comercial_a_rel" ]. comercializable_a1 := a_rel_prd_le & [ STEM < "comercializable" >, SYNSEM.LKEYS.KEYREL.PRED "_comercializable_a_rel" ]. comercialización_n1 := n_trans_le & [ STEM < "comercialización" >, SYNSEM.LKEYS.KEYREL.PRED "_comercialización_n_rel" ]. comercializador_a1 := a_rel_nonprd_intr_le & [ STEM < "comercializador" >, SYNSEM.LKEYS.KEYREL.PRED "_comercializador_a_rel" ]. comercializar_v := v_trans_np_le & [ STEM < "comercializar" >, SYNSEM.LKEYS.KEYREL.PRED "_comercializar_v_rel" ]. comercialmente_x1 := av_i_spr_le & [ STEM < "comercialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_comercialmente_x_rel" ]. comerciante_n1 := n_intr_count_le & [ STEM < "comerciante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comerciante_n_rel" ] ]. comerciar_v := v_intr_le & [ STEM < "comerciar" >, SYNSEM.LKEYS.KEYREL.PRED "_comerciar_v_rel" ]. comercio_n1 := n_intr_mass_le & [ STEM < "comercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_comercio_n_rel" ] ]. comestible_a1 := a_rel_prd_le & [ STEM < "comestible" >, SYNSEM.LKEYS.KEYREL.PRED "_comestible_a_rel" ]. comestibles_n1 := n_intr_mass_pl_le & [ STEM < "comestibles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comestibles_n_rel" ] ]. cometa_n1 := n_intr_count_le & [ STEM < "cometa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cometa_n_rel" ] ]. cometer_v := v_trans_np_le & [ STEM < "cometer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_cometer_v_rel" ] ]. cometido_n1 := n_intr_count_le & [ STEM < "cometido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cometido_n_rel" ] ]. comezón_n1 := n_intr_mass_le & [ STEM < "comezón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comezón_n_rel" ] ]. comible_a1 := a_qual_intr_scopal_le & [ STEM < "comible" >, SYNSEM.LKEYS.KEYREL.PRED "_comible_a_rel" ]. comic_n1 := n_intr_count_le & [ STEM < "comic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_comic_n_rel" ] ]. comicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "comicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comicidad_n_rel" ] ]. comicio_n1 := n_intr_count_le & [ STEM < "comicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comicio_n_rel" ] ]. comida_n1 := n_intr_count_le & [ STEM < "comida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mat, PRED "_comida_n_rel" ] ]. comidilla_n1 := n_intr_uncount_pl_le & [ STEM < "comidilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comidilla_n_rel" ] ]. comienzo_n1 := n_trans_le & [ STEM < "comienzo" >, SYNSEM.LKEYS.KEYREL.PRED "_comienzo_n_rel" ]. comillas_n1 := n_intr_count_pl_le & [ STEM < "comillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comillas_n_rel" ] ]. comillas_n2 := n_intr_count_le & [ STEM < "comillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comillas_n_rel" ] ]. comino_n1 := n_intr_mass_le & [ STEM < "comino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comino_n_rel" ] ]. comisar_v := v_ditrans*_le & [ STEM < "comisar" >, SYNSEM.LKEYS.KEYREL.PRED "_comisar_v_rel" ]. comisariado_n1 := n_intr_count_le & [ STEM < "comisariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_comisariado_n_rel" ] ]. comisario_n1 := n_intr_count_le & [ STEM < "comisario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comisario_n_rel" ] ]. comisaría_n1 := n_intr_count_le & [ STEM < "comisaría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_comisaría_n_rel" ] ]. comisionado_n1 := n_intr_count_le & [ STEM < "comisionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comisionado_n_rel" ] ]. comisionista_n1 := n_intr_count_le & [ STEM < "comisionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comisionista_n_rel" ] ]. comisión_n1 := n_intr_count_le & [ STEM < "comisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_comisión_n_rel" ] ]. comiso_n1 := n_intr_uncount_pl_le & [ STEM < "comiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comiso_n_rel" ] ]. comisorio_a1 := a_rel_nonprd_intr_le & [ STEM < "comisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_comisorio_a_rel" ]. comisura_n1 := n_intr_count_le & [ STEM < "comisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comisura_n_rel" ] ]. comisural_a1 := a_rel_nonprd_intr_le & [ STEM < "comisural" >, SYNSEM.LKEYS.KEYREL.PRED "_comisural_a_rel" ]. comitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "comitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_comitativo_a_rel" ]. comitente_n1 := n_intr_count_le & [ STEM < "comitente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comitente_n_rel" ] ]. comitiva_n1 := n_intr_uncount_pl_le & [ STEM < "comitiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comitiva_n_rel" ] ]. comité_n1 := n_intr_count_le & [ STEM < "comité" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_comité_n_rel" ] ]. comma_pnct := pnct_fc_le & [ STEM < "fc" > ]. como_a_los_ojos_de_su_cara_x1 := av_i_le & [ STEM < "como_a_los_ojos_de_su_cara" >, SYNSEM.LKEYS.KEYREL.PRED "_como_a_los_ojos_de_su_cara_x_rel" ]. como_a_real_de_enemigo_x1 := av_i_le & [ STEM < "como_a_real_de_enemigo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_a_real_de_enemigo_x_rel" ]. como_ahora_es_de_día_x1 := av_i_le & [ STEM < "como_ahora_es_de_día" >, SYNSEM.LKEYS.KEYREL.PRED "_como_ahora_es_de_día_x_rel" ]. como_alma_que_lleva_el_diablo_x1 := av_i_le & [ STEM < "como_alma_que_lleva_el_diablo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_alma_que_lleva_el_diablo_x_rel" ]. como_caído_de_las_nubes_x1 := av_i_le & [ STEM < "como_caído_de_las_nubes" >, SYNSEM.LKEYS.KEYREL.PRED "_como_caído_de_las_nubes_x_rel" ]. como_cc := cc_corr_como-tanto_le & [ STEM < "como" > ]. como_de_la_noche_al_día_x1 := av_i_le & [ STEM < "como_de_la_noche_al_día" >, SYNSEM.LKEYS.KEYREL.PRED "_como_de_la_noche_al_día_x_rel" ]. como_dos_y_dos_son_cuatro_x1 := av_i_le & [ STEM < "como_dos_y_dos_son_cuatro" >, SYNSEM.LKEYS.KEYREL.PRED "_como_dos_y_dos_son_cuatro_x_rel" ]. como_el_convidado_de_piedra_x1 := av_i_le & [ STEM < "como_el_convidado_de_piedra" >, SYNSEM.LKEYS.KEYREL.PRED "_como_el_convidado_de_piedra_x_rel" ]. como_el_día_a_la_noche_x1 := av_i_le & [ STEM < "como_el_día_a_la_noche" >, SYNSEM.LKEYS.KEYREL.PRED "_como_el_día_a_la_noche_x_rel" ]. como_el_perro_y_el_gato_x1 := av_i_le & [ STEM < "como_el_perro_y_el_gato" >, SYNSEM.LKEYS.KEYREL.PRED "_como_el_perro_y_el_gato_x_rel" ]. como_es_de_día_x1 := av_i_le & [ STEM < "como_es_de_día" >, SYNSEM.LKEYS.KEYREL.PRED "_como_es_de_día_x_rel" ]. como_es_debido_x1 := av_i_le & [ STEM < "como_es_debido" >, SYNSEM.LKEYS.KEYREL.PRED "_como_es_debido_x_rel" ]. como_estamos_aquí_tú_y_yo_x1 := av_i_le & [ STEM < "como_estamos_aquí_tú_y_yo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_estamos_aquí_tú_y_yo_x_rel" ]. como_está_mandado_x1 := av_i_le & [ STEM < "como_está_mandado" >, SYNSEM.LKEYS.KEYREL.PRED "_como_está_mandado_x_rel" ]. como_hay_dios_x1 := av_i_le & [ STEM < "como_hay_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_como_hay_Dios_x_rel" ]. como_hecho_de_encargo_x1 := av_i_le & [ STEM < "como_hecho_de_encargo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_hecho_de_encargo_x_rel" ]. como_la_palma_de_la_mano_x1 := av_i_le & [ STEM < "como_la_palma_de_la_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_como_la_palma_de_la_mano_x_rel" ]. como_los_chorros_de_el_oro_x1 := av_i_le & [ STEM < "como_los_chorros_del_oro" >, SYNSEM.LKEYS.KEYREL.PRED "_como_los_chorros_del_oro_x_rel" ]. como_mucho_x1 := av_i_le & [ STEM < "como_mucho" >, SYNSEM.LKEYS.KEYREL.PRED "_como_mucho_x_rel" ]. como_mínimo_x1 := av_i_le & [ STEM < "como_mínimo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_mínimo_x_rel" ]. como_oro_en_paño_x1 := av_i_le & [ STEM < "como_oro_en_paño" >, SYNSEM.LKEYS.KEYREL.PRED "_como_oro_en_paño_x_rel" ]. como_p_compar := p_mrk_np_le & [ STEM < "como" >, SYNSEM.LKEYS.KEYREL.PRED _como_p_comp_rel ]. como_pedro_por_su_casa_x1 := av_i_le & [ STEM < "como_Pedro_por_su_casa" >, SYNSEM.LKEYS.KEYREL.PRED "_como_Pedro_por_su_casa_x_rel" ]. como_por_ensalmo_x1 := av_i_le & [ STEM < "como_por_ensalmo" >, SYNSEM.LKEYS.KEYREL.PRED "_como_por_ensalmo_x_rel" ]. como_quien_dice_x1 := av_i_le & [ STEM < "como_quien_dice" >, SYNSEM.LKEYS.KEYREL.PRED "_como_quien_dice_x_rel" ]. como_quien_no_quiere_la_cosa_x1 := av_i_le & [ STEM < "como_quien_no_quiere_la_cosa" >, SYNSEM.LKEYS.KEYREL.PRED "_como_quien_no_quiere_la_cosa_x_rel" ]. como_quien_oye_llover_x1 := av_i_le & [ STEM < "como_quien_oye_llover" >, SYNSEM.LKEYS.KEYREL.PRED "_como_quien_oye_llover_x_rel" ]. como_quiera_que_sc := sc_prop_fin_le & [ STEM < "como_quiera_que" >, SYNSEM.LKEYS.KEYREL.PRED "_como_quiera_que_x_subord_rel" ]. como_r := av_rel_manner_le & [ STEM < "como" > ]. como_r2 := av_free-rel_manner_le & [ STEM < "como" > ]. como_sc := sc_prop_fin_le & [ STEM < "como" >, SYNSEM.LKEYS.KEYREL.PRED "_como_x_subord_rel" ]. como_si_no_hubiera_dicho_nada_x1 := av_i_le & [ STEM < "como_si_no_hubiera_dicho_nada" >, SYNSEM.LKEYS.KEYREL.PRED "_como_si_no_hubiera_dicho_nada_x_rel" ]. como_si_tal_cosa_x1 := av_i_le & [ STEM < "como_si_tal_cosa" >, SYNSEM.LKEYS.KEYREL.PRED "_como_si_tal_cosa_x_rel" ]. como_un_pepe_x1 := av_i_le & [ STEM < "como_un_pepe" >, SYNSEM.LKEYS.KEYREL.PRED "_como_un_pepe_x_rel" ]. comodante_n1 := n_intr_count_le & [ STEM < "comodante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comodante_n_rel" ] ]. comodatario_n1 := n_intr_count_le & [ STEM < "comodatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comodatario_n_rel" ] ]. comodato_n1 := n_intr_uncount_le & [ STEM < "comodato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comodato_n_rel" ] ]. comodatorio_n1 := n_intr_count_le & [ STEM < "comodatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comodatorio_n_rel" ] ]. comodidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "comodidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comodidad_n_rel" ] ]. comodoro_n1 := n_intr_count_le & [ STEM < "comodoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comodoro_n_rel" ] ]. comodín_n1 := n_intr_count_le & [ STEM < "comodín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_comodín_n_rel" ] ]. compacidad_n1 := n_intr_mass_le & [ STEM < "compacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compacidad_n_rel" ] ]. compactación_n1 := n_trans_le & [ STEM < "compactación" >, SYNSEM.LKEYS.KEYREL.PRED "_compactación_n_rel" ]. compactado_n1 := n_intr_count_le & [ STEM < "compactado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_compactado_n_rel" ] ]. compactador_a1 := a_rel_nonprd_intr_le & [ STEM < "compactador" >, SYNSEM.LKEYS.KEYREL.PRED "_compactador_a_rel" ]. compactador_n1 := n_intr_count_le & [ STEM < "compactador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compactador_n_rel" ] ]. compactamente_x1 := av_i_spr_le & [ STEM < "compactamente" >, SYNSEM.LKEYS.KEYREL.PRED "_compactamente_x_rel" ]. compactar_v := v_trans_np_caus_le & [ STEM < "compactar" >, SYNSEM.LKEYS.KEYREL.PRED "_compactar_v_rel" ]. compacticidad_n1 := n_intr_mass_le & [ STEM < "compacticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compacticidad_n_rel" ] ]. compacto_a1 := a_qual_intr_scopal_le & [ STEM < "compacto" >, SYNSEM.LKEYS.KEYREL.PRED "_compacto_a_rel" ]. compactómetro_n1 := n_intr_count_le & [ STEM < "compactómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compactómetro_n_rel" ] ]. compadecer_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "compadecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_compadecer_v_rel" ] ] ]. compadecer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "compadecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_compadecer_v_rel" ] ] ]. compadecer_v3 := v_trans_np_le & [ STEM < "compadecer" >, SYNSEM.LKEYS.KEYREL.PRED "_compadecer_v_rel" ]. compadre_n1 := n_intr_count_le & [ STEM < "compadre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compadre_n_rel" ] ]. compaginación_n1 := n_trans_le & [ STEM < "compaginación" >, SYNSEM.LKEYS.KEYREL.PRED "_compaginación_n_rel" ]. compaginar_v := v_trans_np_mrkd_np*_sym_le & [ STEM < "compaginar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_compaginar_v_rel" ] ]. comparabilidad_n1 := n_intr_mass_le & [ STEM < "comparabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comparabilidad_n_rel" ] ]. comparable_a1 := a_qual_trans*_ser_le & [ STEM < "comparable" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_comparable_a_rel" ] ]. comparación_n1 := n_trans_le & [ STEM < "comparación" >, SYNSEM.LKEYS.KEYREL.PRED "_comparación_n_rel" ]. comparador_n1 := n_intr_count_le & [ STEM < "comparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comparador_n_rel" ] ]. comparar_v := v_trans_np_mrkd_np_le & [ STEM < "comparar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_comparar_v_rel" ] ]. comparatista_n1 := n_intr_count_le & [ STEM < "comparatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comparatista_n_rel" ] ]. comparativamente_x1 := av_i_spr_le & [ STEM < "comparativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_comparativamente_x_rel" ]. comparativo_a1 := a_rel_nonprd_intr_le & [ STEM < "comparativo" >, SYNSEM.LKEYS.KEYREL.PRED "_comparativo_a_rel" ]. comparativo_n1 := n_intr_count_le & [ STEM < "comparativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comparativo_n_rel" ] ]. comparecencia_n1 := n_event-result_intr_le & [ STEM < "comparecencia" >, SYNSEM.LKEYS.KEYREL.PRED "_comparecencia_n_rel" ]. comparecer_v := v_unacc_lcomp_loc*_le & [ STEM < "comparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_comparecer_v_rel" ]. comparecido_n1 := n_intr_count_le & [ STEM < "comparecido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comparecido_n_rel" ] ]. compareciente_n1 := n_intr_count_le & [ STEM < "compareciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compareciente_n_rel" ] ]. comparsa_n1 := n_intr_count_le & [ STEM < "comparsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comparsa_n_rel" ] ]. compartible_a1 := a_rel_nonprd_intr_le & [ STEM < "compartible" >, SYNSEM.LKEYS.KEYREL.PRED "_compartible_a_rel" ]. compartiblemente_x1 := av_i_spr_le & [ STEM < "compartiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_compartiblemente_x_rel" ]. compartimentación_n1 := n_trans_le & [ STEM < "compartimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_compartimentación_n_rel" ]. compartimentar_v := v_trans_np_le & [ STEM < "compartimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_compartimentar_v_rel" ]. compartimento_n1 := n_trans_le & [ STEM < "compartimento" >, SYNSEM.LKEYS.KEYREL.PRED "_compartimento_n_rel" ]. compartimiento_n1 := n_intr_count_le & [ STEM < "compartimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compartimiento_n_rel" ] ]. compartir_v := v_trans_np_mrkd_np*_le & [ STEM < "compartir" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_compartir_v_rel" ] ]. compasivo_a1 := a_qual_intr_ser_le & [ STEM < "compasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_compasivo_a_rel" ]. compasión_n1 := n_intr_mass_le & [ STEM < "compasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compasión_n_rel" ] ]. compatibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "compatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compatibilidad_n_rel" ] ]. compatibilizar_v := v_trans_np_mrkd_np*_sym_le & [ STEM < "compatibilizar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_compatibilizar_v_rel" ] ]. compatible_a1 := a_qual_trans*_ser_le & [ STEM < "compatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_compatible_a_rel" ] ]. compatible_a2 := a_sctrl_ser_le & [ STEM < "compatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_compatible_a_rel" ] ]. compatiblemente_x1 := av_i_spr_le & [ STEM < "compatiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_compatiblemente_x_rel" ]. compatriota_n1 := n_intr_count_le & [ STEM < "compatriota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compatriota_n_rel" ] ]. compañerismo_n1 := n_intr_mass_le & [ STEM < "compañerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compañerismo_n_rel" ] ]. compañero_n1 := n_ppcomp_count_le & [ STEM < "compañero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compañero_n_rel" ] ]. compañía_n1 := n_intr_count_le & [ STEM < "compañía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_compañía_n_rel" ] ]. compendio_n1 := n_intr_coll_le & [ STEM < "compendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_compendio_n_rel" ] ]. compenetración_n1 := n_result_intr_le & [ STEM < "compenetración" >, SYNSEM.LKEYS.KEYREL.PRED "_compenetración_n_rel" ]. compensable_a1 := a_rel_prd_le & [ STEM < "compensable" >, SYNSEM.LKEYS.KEYREL.PRED "_compensable_a_rel" ]. compensación_n1 := n_result_intr_ppcomp_le & [ STEM < "compensación" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_compensación_n_rel" ] ]. compensadamente_x1 := av_i_spr_le & [ STEM < "compensadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_compensadamente_x_rel" ]. compensador_a1 := a_rel_nonprd_intr_le & [ STEM < "compensador" >, SYNSEM.LKEYS.KEYREL.PRED "_compensador_a_rel" ]. compensador_n1 := n_intr_count_le & [ STEM < "compensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_compensador_n_rel" ] ]. compensar_v1 := v_ditrans_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL.PRED "_compensar_v_rel" ]. compensar_v2 := v_intr_io*_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL.PRED "_compensar_v_rel" ]. compensar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL.PRED "_compensar_v_rel" ]. compensar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL.PRED "_compensar_v_rel" ]. compensar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL.PRED "_compensar_v_rel" ]. compensar_v6 := v_trans_cp_prop_fin_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_compensar_v_rel" ] ]. compensar_v7 := v_trans_np_le & [ STEM < "compensar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_compensar_v_rel" ] ]. compensativo_a1 := a_rel_nonprd_intr_le & [ STEM < "compensativo" >, SYNSEM.LKEYS.KEYREL.PRED "_compensativo_a_rel" ]. compensatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "compensatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_compensatorio_a_rel" ]. competencia_n1 := n_intr_count_le & [ STEM < "competencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_competencia_n_rel" ] ]. competencial_a1 := a_rel_nonprd_intr_le & [ STEM < "competencial" >, SYNSEM.LKEYS.KEYREL.PRED "_competencial_a_rel" ]. competente_a1 := a_rel_nonprd_intr_le & [ STEM < "competente" >, SYNSEM.LKEYS.KEYREL.PRED "_competente_a_rel" ]. competente_a2 := a_qual_intr_ser_le & [ STEM < "competente" >, SYNSEM.LKEYS.KEYREL.PRED "_competente_a_rel" ]. competentemente_x1 := av_i_spr_le & [ STEM < "competentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_competentemente_x_rel" ]. competer_v1 := v_intr_io*_le & [ STEM < "competer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_competer_v_rel" ] ]. competer_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "competer" >, SYNSEM.LKEYS.KEYREL.PRED "_competer_v_rel" ]. competer_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "competer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_competer_v_rel" ] ] ]. competer_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "competer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_competer_v_rel" ] ] ]. competer_v5 := v_trans_np*_mrkd_np_le & [ STEM < "competer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_competer_v_rel" ] ] ]. competición_n1 := n_result_intr_ppcomp_le & [ STEM < "competición" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_competición_n_rel" ] ]. competidor_n1 := n_intr_count_le & [ STEM < "competidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_competidor_n_rel" ] ]. competir_v1 := v_intr_io*_le & [ STEM < "competir" >, SYNSEM.LKEYS.KEYREL.PRED "_competir_v_rel" ]. competir_v2 := v_intr_mrkd_np*_sym_le & [ STEM < "competir" >, SYNSEM.LKEYS [ --COMPKEY con_or_contra_p_sel_rel, KEYREL.PRED "_competir_v_rel" ] ]. competir_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "competir" >, SYNSEM.LKEYS.KEYREL.PRED "_competir_v_rel" ]. competitivamente_x1 := av_i_spr_le & [ STEM < "competitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_competitivamente_x_rel" ]. competitividad_n1 := n_ppcomp_mass_le & [ STEM < "competitividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_competitividad_n_rel" ] ]. competitivo_a1 := a_qual_intr_scopal_le & [ STEM < "competitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_competitivo_a_rel" ]. compilabilidad_n1 := n_intr_uncount_le & [ STEM < "compilabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compilabilidad_n_rel" ] ]. compilable_a1 := a_rel_nonprd_intr_le & [ STEM < "compilable" >, SYNSEM.LKEYS.KEYREL.PRED "_compilable_a_rel" ]. compilación_n1 := n_trans_le & [ STEM < "compilación" >, SYNSEM.LKEYS.KEYREL.PRED "_compilación_n_rel" ]. compilador_n1 := n_intr_count_le & [ STEM < "compilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_compilador_n_rel" ] ]. compilar_v := v_trans_np_caus_int_le & [ STEM < "compilar" >, SYNSEM.LKEYS.KEYREL.PRED "_compilar_v_rel" ]. compinche_n1 := n_intr_count_le & [ STEM < "compinche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compinche_n_rel" ] ]. complacencia_n1 := n_intr_mass_le & [ STEM < "complacencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complacencia_n_rel" ] ]. complacer_v1 := v_intr_io*_le & [ STEM < "complacer" >, SYNSEM.LKEYS.KEYREL.PRED "_complacer_v_rel" ]. complacer_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "complacer" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_complacer_v_rel" ] ] ]. complacer_v3 := v_pron_intr_mrkd_np_le & [ STEM < "complacer" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_complacer_v_rel" ] ] ]. complacer_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "complacer" >, SYNSEM.LKEYS.KEYREL.PRED "_complacer_v_rel" ]. complacer_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "complacer" >, SYNSEM.LKEYS.KEYREL.PRED "_complacer_v_rel" ]. complacer_v6 := v_trans_np_le & [ STEM < "complacer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_complacer_v_rel" ] ]. complaciente_a1 := a_qual_trans*_ser_le & [ STEM < "complaciente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_complaciente_a_rel" ] ]. complacientemente_x1 := av_i_spr_le & [ STEM < "complacientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_complacientemente_x_rel" ]. compleción_n1 := n_trans_le & [ STEM < "compleción" >, SYNSEM.LKEYS.KEYREL.PRED "_compleción_n_rel" ]. complejamente_x1 := av_i_spr_le & [ STEM < "complejamente" >, SYNSEM.LKEYS.KEYREL.PRED "_complejamente_x_rel" ]. complejidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "complejidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complejidad_n_rel" ] ]. complejismo_n1 := n_ppcomp_uncount_le & [ STEM < "complejismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complejismo_n_rel" ] ]. complejo_a1 := a_qual_intr_scopal_le & [ STEM < "complejo" >, SYNSEM.LKEYS.KEYREL.PRED "_complejo_a_rel" ]. complejo_n1 := n_intr_count_le & [ STEM < "complejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complejo_n_rel" ] ]. complementación_n1 := n_trans_le & [ STEM < "complementación" >, SYNSEM.LKEYS.KEYREL.PRED "_complementación_n_rel" ]. complementariamente_x1 := av_i_spr_le & [ STEM < "complementariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_complementariamente_x_rel" ]. complementariedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "complementariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complementariedad_n_rel" ] ]. complementario_a1 := a_rel_prd_le & [ STEM < "complementario" >, SYNSEM.LKEYS.KEYREL.PRED "_complementario_a_rel" ]. complemento_n1 := n_intr_count_le & [ STEM < "complemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_complemento_n_rel" ] ]. completamente_x1 := av_i_le & [ STEM < "completamente" >, SYNSEM.LKEYS.KEYREL.PRED "_completamente_x_rel" ]. completamiento_n1 := n_trans_le & [ STEM < "completamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_completamiento_n_rel" ]. completar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "completar" >, SYNSEM.LKEYS.KEYREL.PRED "_completar_v_rel" ]. completar_v2 := v_trans_np_le & [ STEM < "completar" >, SYNSEM.LKEYS.KEYREL.PRED "_completar_v_rel" ]. completivo_a1 := a_rel_nonprd_intr_le & [ STEM < "completivo" >, SYNSEM.LKEYS.KEYREL.PRED "_completivo_a_rel" ]. completo_a1 := a_adv_int_le & [ STEM < "completo" >, SYNSEM.LKEYS.KEYREL.PRED "_completo_a_rel" ]. completo_a2 := a_qual_intr_scopal_le & [ STEM < "completo" >, SYNSEM.LKEYS.KEYREL.PRED "_completo_a_rel" ]. complexión_n1 := n_intr_count_le & [ STEM < "complexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complexión_n_rel" ] ]. compliancia_n1 := n_intr_uncount_le & [ STEM < "compliancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compliancia_n_rel" ] ]. complicación_n1 := n_trans_le & [ STEM < "complicación" >, SYNSEM.LKEYS.KEYREL.PRED "_complicación_n_rel" ]. complicar_v1 := v_pron_intr_le & [ STEM < "complicar" >, SYNSEM.LKEYS.KEYREL.PRED "_complicar_v_rel" ]. complicar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "complicar" >, SYNSEM.LKEYS.KEYREL.PRED "_complicar_v_rel" ]. complicar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "complicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_complicar_v_rel" ] ] ]. complicar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "complicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_complicar_v_rel" ] ]. complicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "complicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complicidad_n_rel" ] ]. complot_n1 := n_intr_count_le & [ STEM < "complot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complot_n_rel" ] ]. complotar_v := v_intr_mrkd_np*_le & [ STEM < "complotar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_complotar_v_rel" ] ]. complotipo_n1 := n_intr_count_le & [ STEM < "complotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_complotipo_n_rel" ] ]. compluvio_n1 := n_intr_count_le & [ STEM < "compluvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_compluvio_n_rel" ] ]. componedora_n1 := n_intr_count_le & [ STEM < "componedora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_componedora_n_rel" ] ]. componencial_a1 := a_rel_nonprd_intr_le & [ STEM < "componencial" >, SYNSEM.LKEYS.KEYREL.PRED "_componencial_a_rel" ]. componencialmente_x1 := av_i_spr_le & [ STEM < "componencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_componencialmente_x_rel" ]. componenda_n1 := n_intr_count_le & [ STEM < "componenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_componenda_n_rel" ] ]. componente_a1 := a_rel_nonprd_intr_le & [ STEM < "componente" >, SYNSEM.LKEYS.KEYREL.PRED "_componente_a_rel" ]. componente_a2 := a_rel_nonprd_trans_le & [ STEM < "componente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_componente_a_rel" ] ]. componente_n1 := n_intr_count_le & [ STEM < "componente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_componente_n_rel" ] ]. componer_v1 := v_pron_intr_mrkd_np_le & [ STEM < "componer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_componer_v_rel" ] ]. componer_v2 := v_trans_np_le & [ STEM < "componer" >, SYNSEM.LKEYS.KEYREL.PRED "_componer_v_rel" ]. componibilidad_n1 := n_intr_uncount_le & [ STEM < "componibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_componibilidad_n_rel" ] ]. comportable_a1 := a_qual_intr_scopal_le & [ STEM < "comportable" >, SYNSEM.LKEYS.KEYREL.PRED "_comportable_a_rel" ]. comportamiento_n1 := n_ppcomp_count_le & [ STEM < "comportamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comportamiento_n_rel" ] ]. comportar_v1 := v_pron_intr_le & [ STEM < "comportar" >, SYNSEM.LKEYS.KEYREL.PRED "_comportar_v_rel" ]. comportar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "comportar" >, SYNSEM.LKEYS.KEYREL.PRED "_comportar_v_rel" ]. comportar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "comportar" >, SYNSEM.LKEYS.KEYREL.PRED "_comportar_v_rel" ]. comportar_v4 := v_trans_np_le & [ STEM < "comportar" >, SYNSEM.LKEYS.KEYREL.PRED "_comportar_v_rel" ]. composibilidad_n1 := n_intr_uncount_le & [ STEM < "composibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_composibilidad_n_rel" ] ]. composición_n1 := n_trans_le & [ STEM < "composición" >, SYNSEM.LKEYS.KEYREL.PRED "_composición_n_rel" ]. compositor_n1 := n_subj-nom_le & [ STEM < "compositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compositor_n_rel" ] ]. compostabilidad_n1 := n_intr_uncount_le & [ STEM < "compostabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compostabilidad_n_rel" ] ]. compostaje_n1 := n_intr_uncount_le & [ STEM < "compostaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compostaje_n_rel" ] ]. compostar_v := v_trans_np_le & [ STEM < "compostar" >, SYNSEM.LKEYS.KEYREL.PRED "_compostar_v_rel" ]. compostelano_a1 := a_rel_prd_le & [ STEM < "compostelano" >, SYNSEM.LKEYS.KEYREL.PRED "_compostelano_a_rel" ]. compostelano_n1 := n_intr_count_le & [ STEM < "compostelano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compostelano_n_rel" ] ]. compostura_n1 := n_intr_mass_le & [ STEM < "compostura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compostura_n_rel" ] ]. compota_n1 := n_intr_mass_le & [ STEM < "compota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compota_n_rel" ] ]. compra_n1 := n_trans_le & [ STEM < "compra" >, SYNSEM.LKEYS.KEYREL.PRED "_compra_n_rel" ]. comprador_a1 := a_rel_nonprd_intr_le & [ STEM < "comprador" >, SYNSEM.LKEYS.KEYREL.PRED "_comprador_a_rel" ]. comprador_n1 := n_subj-nom_le & [ STEM < "comprador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comprador_n_rel" ] ]. comprar_v := v_trans_np*_io*_le & [ STEM < "comprar" >, SYNSEM.LKEYS.KEYREL.PRED "_comprar_v_rel" ]. compraventa_n1 := n_intr_uncount_le & [ STEM < "compraventa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compraventa_n_rel" ] ]. comprehensividad_n1 := n_intr_mass_le & [ STEM < "comprehensividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comprehensividad_n_rel" ] ]. comprender_v1 := v_trans_cp_prop_fin_le & [ STEM < "comprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_comprender_v_rel" ] ]. comprender_v2 := v_trans_cp_semi_ques_le & [ STEM < "comprender" >, SYNSEM.LKEYS.KEYREL.PRED "_comprender_v_rel" ]. comprender_v3 := v_trans_np_le & [ STEM < "comprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_comprender_v_rel" ] ]. comprensibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "comprensibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comprensibilidad_n_rel" ] ]. comprensible_a1 := a_qual_intr_ser_le & [ STEM < "comprensible" >, SYNSEM.LKEYS.KEYREL.PRED "_comprensible_a_rel" ]. comprensiblemente_x1 := av_i_spr_le & [ STEM < "comprensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_comprensiblemente_x_rel" ]. comprensivamente_x1 := av_i_spr_le & [ STEM < "comprensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_comprensivamente_x_rel" ]. comprensivo_a1 := a_qual_trans*_ser_le & [ STEM < "comprensivo" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_comprensivo_a_rel" ] ]. comprensivo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "comprensivo" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_comprensivo_a_rel" ] ]. comprensión_n1 := n_trans_le & [ STEM < "comprensión" >, SYNSEM.LKEYS.KEYREL.PRED "_comprensión_n_rel" ]. compresa_n1 := n_intr_count_le & [ STEM < "compresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compresa_n_rel" ] ]. compresibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "compresibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compresibilidad_n_rel" ] ]. compresible_a1 := a_rel_nonprd_intr_le & [ STEM < "compresible" >, SYNSEM.LKEYS.KEYREL.PRED "_compresible_a_rel" ]. compresiblemente_x1 := av_i_spr_le & [ STEM < "compresiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_compresiblemente_x_rel" ]. compresivamente_x1 := av_i_spr_le & [ STEM < "compresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_compresivamente_x_rel" ]. compresivo_a1 := a_rel_nonprd_intr_le & [ STEM < "compresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_compresivo_a_rel" ]. compresión_n1 := n_trans_le & [ STEM < "compresión" >, SYNSEM.LKEYS.KEYREL.PRED "_compresión_n_rel" ]. compresor_a1 := a_rel_nonprd_intr_le & [ STEM < "compresor" >, SYNSEM.LKEYS.KEYREL.PRED "_compresor_a_rel" ]. compresor_n1 := n_intr_count_le & [ STEM < "compresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_compresor_n_rel" ] ]. comprimible_a1 := a_rel_nonprd_intr_le & [ STEM < "comprimible" >, SYNSEM.LKEYS.KEYREL.PRED "_comprimible_a_rel" ]. comprimiblemente_x1 := av_i_spr_le & [ STEM < "comprimiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_comprimiblemente_x_rel" ]. comprimidamente_x1 := av_i_spr_le & [ STEM < "comprimidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_comprimidamente_x_rel" ]. comprimido_n1 := n_intr_count_le & [ STEM < "comprimido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comprimido_n_rel" ] ]. comprimir_v := v_trans_np_caus_le & [ STEM < "comprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_comprimir_v_rel" ]. comprobable_a1 := a_rel_prd_le & [ STEM < "comprobable" >, SYNSEM.LKEYS.KEYREL.PRED "_comprobable_a_rel" ]. comprobación_n1 := n_trans_le & [ STEM < "comprobación" >, SYNSEM.LKEYS.KEYREL.PRED "_comprobación_n_rel" ]. comprobador_n1 := n_intr_count_le & [ STEM < "comprobador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_comprobador_n_rel" ] ]. comprobante_n1 := n_intr_count_le & [ STEM < "comprobante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comprobante_n_rel" ] ]. comprobar_v1 := v_trans_cp_prop_fin_le & [ STEM < "comprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_comprobar_v_rel" ] ]. comprobar_v2 := v_trans_np_le & [ STEM < "comprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_comprobar_v_rel" ] ]. comprometedor_a1 := a_qual_intr_scopal_le & [ STEM < "comprometedor" >, SYNSEM.LKEYS.KEYREL.PRED "_comprometedor_a_rel" ]. comprometer_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "comprometer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_comprometer_v_rel" ] ]. comprometer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "comprometer" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_comprometer_v_rel" ] ]. comprometer_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "comprometer" >, SYNSEM.LKEYS.KEYREL.PRED "_comprometer_v_rel" ]. comprometer_v4 := v_trans_np_le & [ STEM < "comprometer" >, SYNSEM.LKEYS.KEYREL.PRED "_comprometer_v_rel" ]. comprometer_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "comprometer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_comprometer_v_rel" ] ] ]. comprometer_v6 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "comprometer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_comprometer_v_rel" ] ] ]. comprometer_v7 := v_trans_np_mrkd_np_le & [ STEM < "comprometer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_comprometer_v_rel" ] ] ]. compromisario_n1 := n_intr_count_le & [ STEM < "compromisario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_compromisario_n_rel" ] ]. compromiso_n1 := n_intr_count_le & [ STEM < "compromiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compromiso_n_rel" ] ]. compromisorio_a1 := a_qual_intr_scopal_le & [ STEM < "compromisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_compromisorio_a_rel" ]. compuerta_n1 := n_intr_count_le & [ STEM < "compuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_compuerta_n_rel" ] ]. compuesto_n1 := n_intr_count_le & [ STEM < "compuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_compuesto_n_rel" ] ]. compulsa_n1 := n_trans_le & [ STEM < "compulsa" >, SYNSEM.LKEYS.KEYREL.PRED "_compulsa_n_rel" ]. compulsar_v := v_trans_np_le & [ STEM < "compulsar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc, PRED "_compulsar_v_rel" ] ]. compulsivamente_x1 := av_i_spr_le & [ STEM < "compulsivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_compulsivamente_x_rel" ]. compulsivo_a1 := a_qual_intr_ser_le & [ STEM < "compulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_compulsivo_a_rel" ]. compulsión_n1 := n_intr_count_le & [ STEM < "compulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_compulsión_n_rel" ] ]. compungir_v1 := v_intr_io*_le & [ STEM < "compungir" >, SYNSEM.LKEYS.KEYREL.PRED "_compungir_v_rel" ]. compungir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "compungir" >, SYNSEM.LKEYS.KEYREL.PRED "_compungir_v_rel" ]. computabilidad_n1 := n_intr_uncount_le & [ STEM < "computabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_computabilidad_n_rel" ] ]. computable_a1 := a_rel_nonprd_intr_le & [ STEM < "computable" >, SYNSEM.LKEYS.KEYREL.PRED "_computable_a_rel" ]. computacional_a1 := a_rel_nonprd_intr_le & [ STEM < "computacional" >, SYNSEM.LKEYS.KEYREL.PRED "_computacional_a_rel" ]. computacionalmente_x1 := av_i_spr_le & [ STEM < "computacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_computacionalmente_x_rel" ]. computación_n1 := n_trans_le & [ STEM < "computación" >, SYNSEM.LKEYS.KEYREL.PRED "_computación_n_rel" ]. computación_n2 := n_intr_uncount_le & [ STEM < "computación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_computación_n_rel" ] ]. computador_a1 := a_rel_nonprd_intr_le & [ STEM < "computador" >, SYNSEM.LKEYS.KEYREL.PRED "_computador_a_rel" ]. computador_n1 := n_intr_count_le & [ STEM < "computador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_computador_n_rel" ] ]. computadora_n1 := n_intr_count_le & [ STEM < "computadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_computadora_n_rel" ] ]. computar_v1 := v_trans_cp_prop_fin_le & [ STEM < "computar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_computar_v_rel" ] ]. computar_v2 := v_trans_np_le & [ STEM < "computar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, ARG2.SORT abs_pro, PRED "_computar_v_rel" ] ]. compás_n1 := n_intr_count_le & [ STEM < "compás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_compás_n_rel" ] ]. comulgar_v := v_intr_mrkd_np*_le & [ STEM < "comulgar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_comulgar_v_rel" ] ]. comuna_n1 := n_intr_coll_le & [ STEM < "comuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comuna_n_rel" ] ]. comunal_a1 := a_rel_prd_le & [ STEM < "comunal" >, SYNSEM.LKEYS.KEYREL.PRED "_comunal_a_rel" ]. comunicabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "comunicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunicabilidad_n_rel" ] ]. comunicable_a1 := a_qual_trans*_ser_le & [ STEM < "comunicable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_comunicable_a_rel" ] ]. comunicación_n1 := n_intr_count_le & [ STEM < "comunicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunicación_n_rel" ] ]. comunicación_n2 := n_trans_le & [ STEM < "comunicación" >, SYNSEM.LKEYS.KEYREL.PRED "_comunicación_n_rel" ]. comunicado_n1 := n_intr_count_le & [ STEM < "comunicado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_comunicado_n_rel" ] ]. comunicador_n1 := n_intr_count_le & [ STEM < "comunicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_comunicador_n_rel" ] ]. comunicante_a1 := a_rel_nonprd_intr_le & [ STEM < "comunicante" >, SYNSEM.LKEYS.KEYREL.PRED "_comunicante_a_rel" ]. comunicante_n1 := n_intr_count_le & [ STEM < "comunicante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comunicante_n_rel" ] ]. comunicar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "comunicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_comunicar_v_rel" ] ]. comunicar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "comunicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_comunicar_v_rel" ] ]. comunicar_v3 := v_ditrans*_le & [ STEM < "comunicar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_comunicar_v_rel" ] ]. comunicar_v4 := v_intr_mrkd_np*_le & [ STEM < "comunicar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_comunicar_v_rel" ] ]. comunicar_v5 := v_pron_intr_mrkd_np_sym_le & [ STEM < "comunicar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_comunicar_v_rel" ] ]. comunicar_v6 := v_trans_np_mrkd_np_sym_le & [ STEM < "comunicar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_comunicar_v_rel" ] ]. comunicatividad_n1 := n_ppcomp_mass_le & [ STEM < "comunicatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunicatividad_n_rel" ] ]. comunicativo_a1 := a_qual_intr_ser_le & [ STEM < "comunicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_comunicativo_a_rel" ]. comunicología_n1 := n_intr_uncount_le & [ STEM < "comunicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunicología_n_rel" ] ]. comunidad_n1 := n_intr_count_le & [ STEM < "comunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_comunidad_n_rel" ] ]. comunismo_n1 := n_ppcomp_uncount_le & [ STEM < "comunismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunismo_n_rel" ] ]. comunista_a1 := a_rel_nonprd_intr_le & [ STEM < "comunista" >, SYNSEM.LKEYS.KEYREL.PRED "_comunista_a_rel" ]. comunista_a2 := a_qual_intr_ser_le & [ STEM < "comunista" >, SYNSEM.LKEYS.KEYREL.PRED "_comunista_a_rel" ]. comunista_n1 := n_intr_count_le & [ STEM < "comunista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_comunista_n_rel" ] ]. comunitariamente_x1 := av_i_spr_le & [ STEM < "comunitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_comunitariamente_x_rel" ]. comunitario_a1 := a_rel_nonprd_intr_le & [ STEM < "comunitario" >, SYNSEM.LKEYS.KEYREL.PRED "_comunitario_a_rel" ]. comunitarismo_n1 := n_intr_uncount_le & [ STEM < "comunitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunitarismo_n_rel" ] ]. comunión_n1 := n_intr_count_le & [ STEM < "comunión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_comunión_n_rel" ] ]. comunolocal_a1 := a_rel_nonprd_intr_le & [ STEM < "comunolocal" >, SYNSEM.LKEYS.KEYREL.PRED "_comunolocal_a_rel" ]. común_a1 := a_qual_intr_scopal_le & [ STEM < "común" >, SYNSEM.LKEYS.KEYREL.PRED "_común_a_rel" ]. comúnmente_x1 := av_s_prhd_spr_le & [ STEM < "comúnmente" >, SYNSEM.LKEYS.KEYREL.PRED "_comúnmente_x_rel" ]. comúnmente_x2 := av_i_psthd_spr_le & [ STEM < "comúnmente" >, SYNSEM.LKEYS.KEYREL.PRED "_comúnmente_x_rel" ]. con_carácter_de_p_vmod := p_vmod_le & [ STEM < "con_carácter_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_carácter_de_p_rel ]. con_claridad_meridiana_x1 := av_i_le & [ STEM < "con_claridad_meridiana" >, SYNSEM.LKEYS.KEYREL.PRED "_con_claridad_meridiana_x_rel" ]. con_conocimiento_de_causa_x1 := av_i_le & [ STEM < "con_conocimiento_de_causa" >, SYNSEM.LKEYS.KEYREL.PRED "_con_conocimiento_de_causa_x_rel" ]. con_creces_x1 := av_i_le & [ STEM < "con_creces" >, SYNSEM.LKEYS.KEYREL.PRED "_con_creces_x_rel" ]. con_efecto_desde_p_vmod := p_vmod_le & [ STEM < "con_efecto_desde" >, SYNSEM.LKEYS.KEYREL.PRED _con_efecto_desde_p_rel ]. con_el_culo_al_aire_x1 := av_i_le & [ STEM < "con_el_culo_al_aire" >, SYNSEM.LKEYS.KEYREL.PRED "_con_el_culo_al_aire_x_rel" ]. con_el_ojo_tan_largo_x1 := av_i_le & [ STEM < "con_el_ojo_tan_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_con_el_ojo_tan_largo_x_rel" ]. con_el_sudor_de_la_frente_x1 := av_i_le & [ STEM < "con_el_sudor_de_la_frente" >, SYNSEM.LKEYS.KEYREL.PRED "_con_el_sudor_de_la_frente_x_rel" ]. con_excepción_de_p_vmod := p_vmod_le & [ STEM < "con_excepción_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_excepción_de_p_rel ]. con_honores_de_p_vmod := p_vmod_le & [ STEM < "con_honores_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_honores_de_p_rel ]. con_la_ayuda_de_dios_x1 := av_i_le & [ STEM < "con_la_ayuda_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_ayuda_de_Dios_x_rel" ]. con_la_boca_abierta_x1 := av_i_le & [ STEM < "con_la_boca_abierta" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_boca_abierta_x_rel" ]. con_la_casa_a_cuestas_x1 := av_i_le & [ STEM < "con_la_casa_a_cuestas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_casa_a_cuestas_x_rel" ]. con_la_condición_de_p_vmod := p_vmod_le & [ STEM < "con_la_condición_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_la_condición_de_p_rel ]. con_la_espada_desnuda_x1 := av_i_le & [ STEM < "con_la_espada_desnuda" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_espada_desnuda_x_rel" ]. con_la_frente_alta_x1 := av_i_le & [ STEM < "con_la_frente_alta" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_frente_alta_x_rel" ]. con_la_frente_bien_alta_x1 := av_i_le & [ STEM < "con_la_frente_bien_alta" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_frente_bien_alta_x_rel" ]. con_la_frente_levantada_x1 := av_i_le & [ STEM < "con_la_frente_levantada" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_frente_levantada_x_rel" ]. con_la_lengua_de_un_palmo_x1 := av_i_le & [ STEM < "con_la_lengua_de_un_palmo" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_lengua_de_un_palmo_x_rel" ]. con_la_lengua_fuera_x1 := av_i_le & [ STEM < "con_la_lengua_fuera" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_lengua_fuera_x_rel" ]. con_la_mano_en_el_corazón_x1 := av_i_le & [ STEM < "con_la_mano_en_el_corazón" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_mano_en_el_corazón_x_rel" ]. con_la_música_a_otra_parte_x1 := av_i_le & [ STEM < "con_la_música_a_otra_parte" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_música_a_otra_parte_x_rel" ]. con_la_soga_al_cuello_x1 := av_i_le & [ STEM < "con_la_soga_al_cuello" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_soga_al_cuello_x_rel" ]. con_la_vida_en_un_hilo_x1 := av_i_le & [ STEM < "con_la_vida_en_un_hilo" >, SYNSEM.LKEYS.KEYREL.PRED "_con_la_vida_en_un_hilo_x_rel" ]. con_las_manos_cruzadas_x1 := av_i_le & [ STEM < "con_las_manos_cruzadas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_manos_cruzadas_x_rel" ]. con_las_manos_vacías_x1 := av_i_le & [ STEM < "con_las_manos_vacías" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_manos_vacías_x_rel" ]. con_las_orejas_caídas_x1 := av_i_le & [ STEM < "con_las_orejas_caídas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_orejas_caídas_x_rel" ]. con_las_orejas_gachas_x1 := av_i_le & [ STEM < "con_las_orejas_gachas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_orejas_gachas_x_rel" ]. con_las_orejas_tan_largas_x1 := av_i_le & [ STEM < "con_las_orejas_tan_largas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_orejas_tan_largas_x_rel" ]. con_las_piernas_cruzadas_x1 := av_i_le & [ STEM < "con_las_piernas_cruzadas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_las_piernas_cruzadas_x_rel" ]. con_lo_que_respecta_a_p_vmod := p_vmod_le & [ STEM < "con_lo_que_respecta_a" >, SYNSEM.LKEYS.KEYREL.PRED _con_lo_que_respecta_a_p_rel ]. con_los_cinco_sentidos_x1 := av_i_le & [ STEM < "con_los_cinco_sentidos" >, SYNSEM.LKEYS.KEYREL.PRED "_con_los_cinco_sentidos_x_rel" ]. con_los_ojos_cerrados_x1 := av_i_le & [ STEM < "con_los_ojos_cerrados" >, SYNSEM.LKEYS.KEYREL.PRED "_con_los_ojos_cerrados_x_rel" ]. con_los_pies_delante_x1 := av_i_le & [ STEM < "con_los_pies_delante" >, SYNSEM.LKEYS.KEYREL.PRED "_con_los_pies_delante_x_rel" ]. con_mal_pie_x1 := av_i_le & [ STEM < "con_mal_pie" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mal_pie_x_rel" ]. con_mala_idea_x1 := av_i_le & [ STEM < "con_mala_idea" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mala_idea_x_rel" ]. con_mano_escasa_x1 := av_i_le & [ STEM < "con_mano_escasa" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mano_escasa_x_rel" ]. con_mano_pesada_x1 := av_i_le & [ STEM < "con_mano_pesada" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mano_pesada_x_rel" ]. con_mil_amores_x1 := av_i_le & [ STEM < "con_mil_amores" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mil_amores_x_rel" ]. con_miquis_x1 := av_i_le & [ STEM < "con_miquis" >, SYNSEM.LKEYS.KEYREL.PRED "_con_miquis_x_rel" ]. con_miras_a_p_vmod := p_vmod_le & [ STEM < "con_miras_a" >, SYNSEM.LKEYS.KEYREL.PRED _con_miras_a_p_rel ]. con_moto_x1 := av_i_le & [ STEM < "con_moto" >, SYNSEM.LKEYS.KEYREL.PRED "_con_moto_x_rel" ]. con_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED _con_p_sel_rel ]. con_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED _con_p_sel_rel ]. con_mrk_np := p_mrk_np_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED _con_p_sel_rel ]. con_mucho_gusto_x1 := av_i_le & [ STEM < "con_mucho_gusto" >, SYNSEM.LKEYS.KEYREL.PRED "_con_mucho_gusto_x_rel" ]. con_objeto_de_p_vmod := p_vmod_le & [ STEM < "con_objeto_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_objeto_de_p_rel ]. con_objeto_que_sc := sc_prop_fin_le & [ STEM < "con_objeto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_con_objeto_que_x_subord_rel" ]. con_ocasión_de_p_vmod := p_vmod_le & [ STEM < "con_ocasión_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_ocasión_de_p_rel ]. con_p_nmod := p_nmod_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED _con_p_rel ]. con_p_vmod := p_vmod_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED _con_p_rel ]. con_pelos_y_señales_x1 := av_i_le & [ STEM < "con_pelos_y_señales" >, SYNSEM.LKEYS.KEYREL.PRED "_con_pelos_y_señales_x_rel" ]. con_pies_de_plomo_x1 := av_i_le & [ STEM < "con_pies_de_plomo" >, SYNSEM.LKEYS.KEYREL.PRED "_con_pies_de_plomo_x_rel" ]. con_puntos_y_comas_x1 := av_i_le & [ STEM < "con_puntos_y_comas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_puntos_y_comas_x_rel" ]. con_relación_a_p_vmod := p_vmod_le & [ STEM < "con_relación_a" >, SYNSEM.LKEYS.KEYREL.PRED _con_relación_a_p_rel ]. con_respecto_a_p_vmod := p_vmod_le & [ STEM < "con_respecto_a" >, SYNSEM.LKEYS.KEYREL.PRED _con_respecto_a_p_rel ]. con_respecto_de_p_vmod := p_vmod_le & [ STEM < "con_respecto_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_respecto_de_p_rel ]. con_sc1 := p_cp_prop_fin_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED "_con_x_subord_rel" ]. con_sc2 := p_vp_inf_le & [ STEM < "con" >, SYNSEM.LKEYS.KEYREL.PRED "_con_x_subord_rel" ]. con_solo_que_sc := sc_prop_fin_le & [ STEM < "con_solo_que" >, SYNSEM.LKEYS.KEYREL.PRED "_con_solo_que_x_subord_rel" ]. con_sordina_x1 := av_i_le & [ STEM < "con_sordina" >, SYNSEM.LKEYS.KEYREL.PRED "_con_sordina_x_rel" ]. con_tal_de_p_vmod := p_vmod_le & [ STEM < "con_tal_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_tal_de_p_rel ]. con_tal_que_sc := sc_prop_fin_le & [ STEM < "con_tal_que" >, SYNSEM.LKEYS.KEYREL.PRED "_con_tal_que_x_subord_rel" ]. con_toda_la_barba_x1 := av_i_le & [ STEM < "con_toda_la_barba" >, SYNSEM.LKEYS.KEYREL.PRED "_con_toda_la_barba_x_rel" ]. con_toda_la_boca_x1 := av_i_le & [ STEM < "con_toda_la_boca" >, SYNSEM.LKEYS.KEYREL.PRED "_con_toda_la_boca_x_rel" ]. con_toda_normalidad_x1 := av_i_le & [ STEM < "con_toda_normalidad" >, SYNSEM.LKEYS.KEYREL.PRED "_con_toda_normalidad_x_rel" ]. con_todas_las_de_la_ley_x1 := av_i_le & [ STEM < "con_todas_las_de_la_ley" >, SYNSEM.LKEYS.KEYREL.PRED "_con_todas_las_de_la_ley_x_rel" ]. con_todo_y_con_eso_x1 := av_i_le & [ STEM < "con_todo_y_con_eso" >, SYNSEM.LKEYS.KEYREL.PRED "_con_todo_y_con_eso_x_rel" ]. con_un_palmo_de_lengua_x1 := av_i_le & [ STEM < "con_un_palmo_de_lengua" >, SYNSEM.LKEYS.KEYREL.PRED "_con_un_palmo_de_lengua_x_rel" ]. con_uñas_y_dientes_x1 := av_i_le & [ STEM < "con_uñas_y_dientes" >, SYNSEM.LKEYS.KEYREL.PRED "_con_uñas_y_dientes_x_rel" ]. con_valor_de_p_vmod := p_vmod_le & [ STEM < "con_valor_de" >, SYNSEM.LKEYS.KEYREL.PRED _con_valor_de_p_rel ]. con_viento_fresco_x1 := av_i_le & [ STEM < "con_viento_fresco" >, SYNSEM.LKEYS.KEYREL.PRED "_con_viento_fresco_x_rel" ]. con_vistas_a_p_vmod := p_vmod_le & [ STEM < "con_vistas_a" >, SYNSEM.LKEYS.KEYREL.PRED _con_vistas_a_p_rel ]. con_zurrapas_x1 := av_i_le & [ STEM < "con_zurrapas" >, SYNSEM.LKEYS.KEYREL.PRED "_con_zurrapas_x_rel" ]. conativo_a1 := a_rel_nonprd_intr_le & [ STEM < "conativo" >, SYNSEM.LKEYS.KEYREL.PRED "_conativo_a_rel" ]. conato_n1 := n_intr_count_le & [ STEM < "conato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conato_n_rel" ] ]. concatenación_n1 := n_trans_le & [ STEM < "concatenación" >, SYNSEM.LKEYS.KEYREL.PRED "_concatenación_n_rel" ]. concatémero_n1 := n_intr_count_le & [ STEM < "concatémero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_concatémero_n_rel" ] ]. concavidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "concavidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concavidad_n_rel" ] ]. concebible_a1 := a_qual_intr_scopal_le & [ STEM < "concebible" >, SYNSEM.LKEYS.KEYREL.PRED "_concebible_a_rel" ]. concebir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "concebir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_concebir_v_rel" ] ]. concebir_v2 := v_trans_np_le & [ STEM < "concebir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_concebir_v_rel" ] ]. concedente_n1 := n_intr_count_le & [ STEM < "concedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concedente_n_rel" ] ]. conceder_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "conceder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_conceder_v_rel" ] ]. conceder_v2 := v_ditrans*_le & [ STEM < "conceder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_conceder_v_rel" ] ]. concejal_n1 := n_intr_count_le & [ STEM < "concejal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concejal_n_rel" ] ]. concejalía_n1 := n_intr_count_le & [ STEM < "concejalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concejalía_n_rel" ] ]. concejil_a1 := a_rel_nonprd_intr_le & [ STEM < "concejil" >, SYNSEM.LKEYS.KEYREL.PRED "_concejil_a_rel" ]. concejo_n1 := n_intr_count_le & [ STEM < "concejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concejo_n_rel" ] ]. concelebrar_v := v_trans_np_le & [ STEM < "concelebrar" >, SYNSEM.LKEYS.KEYREL.PRED "_concelebrar_v_rel" ]. concento_n1 := n_intr_uncount_pl_le & [ STEM < "concento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concento_n_rel" ] ]. concentración_n1 := n_trans_le & [ STEM < "concentración" >, SYNSEM.LKEYS.KEYREL.PRED "_concentración_n_rel" ]. concentración_n2 := n_result_intr_le & [ STEM < "concentración" >, SYNSEM.LKEYS.KEYREL.PRED "_concentración_n_rel" ]. concentrado_n1 := n_intr_count_le & [ STEM < "concentrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_concentrado_n_rel" ] ]. concentrador_n1 := n_intr_count_le & [ STEM < "concentrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_concentrador_n_rel" ] ]. concentrar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "concentrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_concentrar_v_rel" ] ] ]. concentrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "concentrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_concentrar_v_rel" ] ]. concentrar_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "concentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_concentrar_v_rel" ]. concentricidad_n1 := n_intr_uncount_le & [ STEM < "concentricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concentricidad_n_rel" ] ]. concepcionalidad_n1 := n_intr_uncount_le & [ STEM < "concepcionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concepcionalidad_n_rel" ] ]. concepción_n1 := n_trans_le & [ STEM < "concepción" >, SYNSEM.LKEYS.KEYREL.PRED "_concepción_n_rel" ]. concepto_n1 := n_intr_count_le & [ STEM < "concepto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concepto_n_rel" ] ]. conceptual_a1 := a_rel_nonprd_intr_le & [ STEM < "conceptual" >, SYNSEM.LKEYS.KEYREL.PRED "_conceptual_a_rel" ]. conceptualismo_n1 := n_intr_uncount_le & [ STEM < "conceptualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conceptualismo_n_rel" ] ]. conceptualista_a1 := a_qual_intr_ser_le & [ STEM < "conceptualista" >, SYNSEM.LKEYS.KEYREL.PRED "_conceptualista_a_rel" ]. conceptualización_n1 := n_trans_le & [ STEM < "conceptualización" >, SYNSEM.LKEYS.KEYREL.PRED "_conceptualización_n_rel" ]. conceptualizar_v := v_trans_np_le & [ STEM < "conceptualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_conceptualizar_v_rel" ]. conceptualmente_x1 := av_i_spr_le & [ STEM < "conceptualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_conceptualmente_x_rel" ]. conceptuar_v1 := v_trans_cp_prop_fin_le & [ STEM < "conceptuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_conceptuar_v_rel" ] ]. conceptuar_v2 := v_trans_np_le & [ STEM < "conceptuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_conceptuar_v_rel" ] ]. concerniente_a1 := a_qual_trans_ser_le & [ STEM < "concerniente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_concerniente_a_rel" ] ]. concernir_v1 := v_intr_io*_le & [ STEM < "concernir" >, SYNSEM.LKEYS.KEYREL.PRED "_concernir_v_rel" ]. concernir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "concernir" >, SYNSEM.LKEYS.KEYREL.PRED "_concernir_v_rel" ]. concertación_n1 := n_trans_le & [ STEM < "concertación" >, SYNSEM.LKEYS.KEYREL.PRED "_concertación_n_rel" ]. concertante_a1 := a_rel_nonprd_intr_le & [ STEM < "concertante" >, SYNSEM.LKEYS.KEYREL.PRED "_concertante_a_rel" ]. concertina_n1 := n_intr_count_le & [ STEM < "concertina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_concertina_n_rel" ] ]. concertino_n1 := n_intr_count_le & [ STEM < "concertino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concertino_n_rel" ] ]. concertista_n1 := n_intr_count_le & [ STEM < "concertista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concertista_n_rel" ] ]. concesional_a1 := a_rel_nonprd_intr_le & [ STEM < "concesional" >, SYNSEM.LKEYS.KEYREL.PRED "_concesional_a_rel" ]. concesionario_a1 := a_rel_nonprd_intr_le & [ STEM < "concesionario" >, SYNSEM.LKEYS.KEYREL.PRED "_concesionario_a_rel" ]. concesionario_n1 := n_intr_count_le & [ STEM < "concesionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_loc, PRED "_concesionario_n_rel" ] ]. concesivo_a1 := a_rel_prd_le & [ STEM < "concesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_concesivo_a_rel" ]. concesión_n1 := n_trans_le & [ STEM < "concesión" >, SYNSEM.LKEYS.KEYREL.PRED "_concesión_n_rel" ]. concha_n1 := n_intr_count_le & [ STEM < "concha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_concha_n_rel" ] ]. conciencia_n1 := n_intr_count_le & [ STEM < "conciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_conciencia_n_rel" ] ]. concienciación_n1 := n_trans_le & [ STEM < "concienciación" >, SYNSEM.LKEYS.KEYREL.PRED "_concienciación_n_rel" ]. concienzudamente_x1 := av_i_spr_le & [ STEM < "concienzudamente" >, SYNSEM.LKEYS.KEYREL.PRED "_concienzudamente_x_rel" ]. concienzudo_a1 := a_qual_intr_ser_le & [ STEM < "concienzudo" >, SYNSEM.LKEYS.KEYREL.PRED "_concienzudo_a_rel" ]. concierto_n1 := n_intr_count_le & [ STEM < "concierto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concierto_n_rel" ] ]. conciliable_a1 := a_rel_prd_le & [ STEM < "conciliable" >, SYNSEM.LKEYS.KEYREL.PRED "_conciliable_a_rel" ]. conciliación_n1 := n_trans_le & [ STEM < "conciliación" >, SYNSEM.LKEYS.KEYREL.PRED "_conciliación_n_rel" ]. conciliador_a1 := a_qual_intr_ser_le & [ STEM < "conciliador" >, SYNSEM.LKEYS.KEYREL.PRED "_conciliador_a_rel" ]. conciliador_n1 := n_subj-nom_le & [ STEM < "conciliador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conciliador_n_rel" ] ]. conciliar_v1 := v_trans_np_le & [ STEM < "conciliar" >, SYNSEM.LKEYS.KEYREL.PRED "_conciliar_v_rel" ]. conciliar_v2 := v_trans_np_mrkd_np_sym_le & [ STEM < "conciliar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_conciliar_v_rel" ] ]. conciliatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "conciliatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_conciliatorio_a_rel" ]. concilio_n1 := n_intr_count_le & [ STEM < "concilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_concilio_n_rel" ] ]. concisamente_x1 := av_i_spr_le & [ STEM < "concisamente" >, SYNSEM.LKEYS.KEYREL.PRED "_concisamente_x_rel" ]. concisión_n1 := n_intr_mass_le & [ STEM < "concisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concisión_n_rel" ] ]. conciso_a1 := a_qual_intr_scopal_le & [ STEM < "conciso" >, SYNSEM.LKEYS.KEYREL.PRED "_conciso_a_rel" ]. conciudadano_n1 := n_intr_count_le & [ STEM < "conciudadano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conciudadano_n_rel" ] ]. concluir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "concluir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_concluir_v_rel" ] ]. concluir_v2 := v_trans_np_caus_int_le & [ STEM < "concluir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_concluir_v_rel" ] ]. conclusión_n1 := n_intr_mass_le & [ STEM < "conclusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_conclusión_n_rel" ] ]. concluso_a1 := a_qual_intr_estar_le & [ STEM < "concluso" >, SYNSEM.LKEYS.KEYREL.PRED "_concluso_a_rel" ]. concluyente_a1 := a_qual_intr_scopal_le & [ STEM < "concluyente" >, SYNSEM.LKEYS.KEYREL.PRED "_concluyente_a_rel" ]. concoide_n1 := n_intr_count_le & [ STEM < "concoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concoide_n_rel" ] ]. concomitante_a1 := a_rel_nonprd_intr_le & [ STEM < "concomitante" >, SYNSEM.LKEYS.KEYREL.PRED "_concomitante_a_rel" ]. concordancia_n1 := n_intr_mass-or-count_le & [ STEM < "concordancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concordancia_n_rel" ] ]. concordante_a1 := a_qual_trans_ser_le & [ STEM < "concordante" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_concordante_a_rel" ] ]. concordar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "concordar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concordar_v_rel" ] ] ]. concordar_v2 := v_intr_mrkd_np_le & [ STEM < "concordar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concordar_v_rel" ] ] ]. concordar_v3 := v_intr_mrkd_np_sym_le & [ STEM < "concordar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_concordar_v_rel" ] ]. concordato_n1 := n_intr_count_le & [ STEM < "concordato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_concordato_n_rel" ] ]. concorde_a1 := a_qual_intr_scopal_le & [ STEM < "concorde" >, SYNSEM.LKEYS.KEYREL.PRED "_concorde_a_rel" ]. concordia_n1 := n_intr_mass_le & [ STEM < "concordia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concordia_n_rel" ] ]. concreción_n1 := n_trans_le & [ STEM < "concreción" >, SYNSEM.LKEYS.KEYREL.PRED "_concreción_n_rel" ]. concrescencia_n1 := n_intr_mass_le & [ STEM < "concrescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concrescencia_n_rel" ] ]. concretamente_x1 := av_s_spr_le & [ STEM < "concretamente" >, SYNSEM.LKEYS.KEYREL.PRED "_concretamente_x_rel" ]. concretar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "concretar" >, SYNSEM.LKEYS.KEYREL.PRED "_concretar_v_rel" ]. concretar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "concretar" >, SYNSEM.LKEYS.KEYREL.PRED "_concretar_v_rel" ]. concretar_v3 := v_trans_cp_prop_fin_le & [ STEM < "concretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_concretar_v_rel" ] ]. concretar_v4 := v_trans_cp_semi_ques_le & [ STEM < "concretar" >, SYNSEM.LKEYS.KEYREL.PRED "_concretar_v_rel" ]. concretar_v5 := v_trans_np_le & [ STEM < "concretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_concretar_v_rel" ] ]. concreto_a1 := a_qual_intr_scopal_le & [ STEM < "concreto" >, SYNSEM.LKEYS.KEYREL.PRED "_concreto_a_rel" ]. concubina_n1 := n_ppcomp_count_le & [ STEM < "concubina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concubina_n_rel" ] ]. concubinato_n1 := n_intr_uncount_le & [ STEM < "concubinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concubinato_n_rel" ] ]. concubinato_n2 := n_intr_count_le & [ STEM < "concubinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concubinato_n_rel" ] ]. conculcación_n1 := n_trans_le & [ STEM < "conculcación" >, SYNSEM.LKEYS.KEYREL.PRED "_conculcación_n_rel" ]. conculcar_v := v_trans_np_le & [ STEM < "conculcar" >, SYNSEM.LKEYS.KEYREL.PRED "_conculcar_v_rel" ]. concupiscencia_n1 := n_intr_uncount_le & [ STEM < "concupiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concupiscencia_n_rel" ] ]. concurrencia_n1 := n_result_intr_le & [ STEM < "concurrencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concurrencia_n_rel" ] ]. concurrente_a1 := a_rel_prd_le & [ STEM < "concurrente" >, SYNSEM.LKEYS.KEYREL.PRED "_concurrente_a_rel" ]. concurrir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "concurrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concurrir_v_rel" ] ] ]. concurrir_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "concurrir" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concurrir_v_rel" ] ] ]. concurrir_v3 := v_intr_mrkd_np_le & [ STEM < "concurrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concurrir_v_rel" ] ] ]. concurrir_v4 := v_intr_mrkd_np_le & [ STEM < "concurrir" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_concurrir_v_rel" ] ] ]. concurrir_v5 := v_trans_np_le & [ STEM < "concurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_concurrir_v_rel" ]. concursal_a1 := a_rel_nonprd_intr_le & [ STEM < "concursal" >, SYNSEM.LKEYS.KEYREL.PRED "_concursal_a_rel" ]. concursante_n1 := n_intr_count_le & [ STEM < "concursante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concursante_n_rel" ] ]. concursar_v := v_unacc_le & [ STEM < "concursar" >, SYNSEM.LKEYS.KEYREL.PRED "_concursar_v_rel" ]. concurso_n1 := n_intr_count_le & [ STEM < "concurso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concurso_n_rel" ] ]. concusionario_n1 := n_intr_count_le & [ STEM < "concusionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_concusionario_n_rel" ] ]. concusión_n1 := n_intr_count_le & [ STEM < "concusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_concusión_n_rel" ] ]. concéntricamente_x1 := av_i_spr_le & [ STEM < "concéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_concéntricamente_x_rel" ]. concéntrico_a1 := a_qual_intr_ser_le & [ STEM < "concéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_concéntrico_a_rel" ]. condado_n1 := n_intr_count_le & [ STEM < "condado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_soc, PRED "_condado_n_rel" ] ]. condal_a1 := a_rel_nonprd_intr_le & [ STEM < "condal" >, SYNSEM.LKEYS.KEYREL.PRED "_condal_a_rel" ]. conde_n1 := n_intr_count_le & [ STEM < "conde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conde_n_rel" ] ]. condecoración_n1 := n_intr_count_le & [ STEM < "condecoración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_condecoración_n_rel" ] ]. condena_n1 := n_result_intr_le & [ STEM < "condena" >, SYNSEM.LKEYS.KEYREL.PRED "_condena_n_rel" ]. condenable_a1 := a_rel_prd_le & [ STEM < "condenable" >, SYNSEM.LKEYS.KEYREL.PRED "_condenable_a_rel" ]. condenación_n1 := n_trans_le & [ STEM < "condenación" >, SYNSEM.LKEYS.KEYREL.PRED "_condenación_n_rel" ]. condenar_v1 := v_pron_intr_le & [ STEM < "condenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_condenar_v_rel" ] ]. condenar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "condenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_condenar_v_rel" ] ]. condenar_v3 := v_trans_np_le & [ STEM < "condenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT abs_pro, PRED "_condenar_v_rel" ] ]. condenar_v4 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "condenar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_condenar_v_rel" ] ] ]. condenar_v5 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "condenar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_condenar_v_rel" ] ] ]. condenar_v6 := v_trans_np_mrkd_np*_le & [ STEM < "condenar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT hum_soc, PRED "_condenar_v_rel" ] ] ]. condenatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "condenatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_condenatorio_a_rel" ]. condensable_a1 := a_rel_nonprd_intr_le & [ STEM < "condensable" >, SYNSEM.LKEYS.KEYREL.PRED "_condensable_a_rel" ]. condensablemente_x1 := av_i_spr_le & [ STEM < "condensablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_condensablemente_x_rel" ]. condensación_n1 := n_trans_le & [ STEM < "condensación" >, SYNSEM.LKEYS.KEYREL.PRED "_condensación_n_rel" ]. condensador_a1 := a_rel_nonprd_intr_le & [ STEM < "condensador" >, SYNSEM.LKEYS.KEYREL.PRED "_condensador_a_rel" ]. condensador_n1 := n_intr_count_le & [ STEM < "condensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_condensador_n_rel" ] ]. condensar_v := v_trans_np_caus_le & [ STEM < "condensar" >, SYNSEM.LKEYS.KEYREL.PRED "_condensar_v_rel" ]. condesa_n1 := n_intr_count_le & [ STEM < "condesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_condesa_n_rel" ] ]. condescendencia_n1 := n_result_intr_le & [ STEM < "condescendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condescendencia_n_rel" ] ]. condescendiente_a1 := a_qual_intr_ser_le & [ STEM < "condescendiente" >, SYNSEM.LKEYS.KEYREL.PRED "_condescendiente_a_rel" ]. condicionadamente_x1 := av_i_spr_le & [ STEM < "condicionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_condicionadamente_x_rel" ]. condicional_a1 := a_rel_prd_le & [ STEM < "condicional" >, SYNSEM.LKEYS.KEYREL.PRED "_condicional_a_rel" ]. condicionalidad_n1 := n_intr_uncount_le & [ STEM < "condicionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condicionalidad_n_rel" ] ]. condicionalmente_x1 := av_i_spr_le & [ STEM < "condicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_condicionalmente_x_rel" ]. condicionamiento_n1 := n_trans_le & [ STEM < "condicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_condicionamiento_n_rel" ]. condicionante_a1 := a_rel_prd_le & [ STEM < "condicionante" >, SYNSEM.LKEYS.KEYREL.PRED "_condicionante_a_rel" ]. condicionante_n1 := n_intr_count_le & [ STEM < "condicionante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condicionante_n_rel" ] ]. condicionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "condicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_condicionar_v_rel" ] ]. condicionar_v2 := v_trans_np_le & [ STEM < "condicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_condicionar_v_rel" ] ]. condicionar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "condicionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_condicionar_v_rel" ] ] ]. condicionar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "condicionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_condicionar_v_rel" ] ] ]. condicionar_v5 := v_trans_np_mrkd_np_le & [ STEM < "condicionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_condicionar_v_rel" ] ] ]. condición_n1 := n_intr_count_le & [ STEM < "condición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condición_n_rel" ] ]. condilectomía_n1 := n_intr_count_le & [ STEM < "condilectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condilectomía_n_rel" ] ]. condimentar_v := v_trans_np_mrkd_np*_le & [ STEM < "condimentar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_condimentar_v_rel" ] ]. condimento_n1 := n_intr_mass_le & [ STEM < "condimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condimento_n_rel" ] ]. condiscípulo_n1 := n_intr_count_le & [ STEM < "condiscípulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_condiscípulo_n_rel" ] ]. condolecer_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "condolecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_condolecer_v_rel" ] ]. condolecer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "condolecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_condolecer_v_rel" ] ]. condolencia_n1 := n_result_intr_le & [ STEM < "condolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_condolencia_n_rel" ] ]. condominio_n1 := n_intr_count_le & [ STEM < "condominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_condominio_n_rel" ] ]. condomino_n1 := n_intr_count_le & [ STEM < "condomino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_condomino_n_rel" ] ]. condonación_n1 := n_trans_le & [ STEM < "condonación" >, SYNSEM.LKEYS.KEYREL.PRED "_condonación_n_rel" ]. condonar_v := v_ditrans*_le & [ STEM < "condonar" >, SYNSEM.LKEYS.KEYREL.PRED "_condonar_v_rel" ]. condrioconto_n1 := n_intr_count_le & [ STEM < "condrioconto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condrioconto_n_rel" ] ]. condrioma_n1 := n_intr_count_le & [ STEM < "condrioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condrioma_n_rel" ] ]. condriomita_n1 := n_intr_count_le & [ STEM < "condriomita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condriomita_n_rel" ] ]. condriomito_n1 := n_intr_mass_le & [ STEM < "condriomito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_condriomito_n_rel" ] ]. condriosoma_n1 := n_intr_count_le & [ STEM < "condriosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condriosoma_n_rel" ] ]. condriosomal_a1 := a_rel_nonprd_intr_le & [ STEM < "condriosomal" >, SYNSEM.LKEYS.KEYREL.PRED "_condriosomal_a_rel" ]. condroblasto_n1 := n_intr_count_le & [ STEM < "condroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condroblasto_n_rel" ] ]. condrocito_n1 := n_intr_count_le & [ STEM < "condrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condrocito_n_rel" ] ]. condroclasto_n1 := n_intr_count_le & [ STEM < "condroclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condroclasto_n_rel" ] ]. condrodita_n1 := n_intr_mass_le & [ STEM < "condrodita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_condrodita_n_rel" ] ]. condroectodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "condroectodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_condroectodérmico_a_rel" ]. condroesternal_a1 := a_rel_nonprd_intr_le & [ STEM < "condroesternal" >, SYNSEM.LKEYS.KEYREL.PRED "_condroesternal_a_rel" ]. condrogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "condrogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_condrogloso_a_rel" ]. condroplasto_n1 := n_intr_count_le & [ STEM < "condroplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condroplasto_n_rel" ] ]. conducción_n1 := n_trans_le & [ STEM < "conducción" >, SYNSEM.LKEYS.KEYREL.PRED "_conducción_n_rel" ]. conducente_a1 := a_rel_prd_le & [ STEM < "conducente" >, SYNSEM.LKEYS.KEYREL.PRED "_conducente_a_rel" ]. conducir_v1 := v_trans_np*_lcomp_dir_le & [ STEM < "conducir" >, SYNSEM.LKEYS.KEYREL.PRED "_conducir_v_rel" ]. conducir_v2 := v_trans_np_le & [ STEM < "conducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, PRED "_conducir_v_rel" ] ]. conducir_v3 := v_trans_np*_le & [ STEM < "conducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_conducir_v_rel" ] ]. conducir_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "conducir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_conducir_v_rel" ] ] ]. conducta_n1 := n_intr_uncount_pl_le & [ STEM < "conducta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conducta_n_rel" ] ]. conductancia_n1 := n_intr_uncount_le & [ STEM < "conductancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conductancia_n_rel" ] ]. conductibilidad_n1 := n_intr_uncount_le & [ STEM < "conductibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conductibilidad_n_rel" ] ]. conductismo_n1 := n_intr_uncount_le & [ STEM < "conductismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conductismo_n_rel" ] ]. conductista_a1 := a_rel_nonprd_intr_le & [ STEM < "conductista" >, SYNSEM.LKEYS.KEYREL.PRED "_conductista_a_rel" ]. conductivamente_x1 := av_i_spr_le & [ STEM < "conductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conductivamente_x_rel" ]. conductividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "conductividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conductividad_n_rel" ] ]. conductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "conductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_conductivo_a_rel" ]. conducto_n1 := n_intr_count_le & [ STEM < "conducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conducto_n_rel" ] ]. conductométricamente_x1 := av_i_spr_le & [ STEM < "conductométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conductométricamente_x_rel" ]. conductométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "conductométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_conductométrico_a_rel" ]. conductor_a1 := a_rel_nonprd_intr_le & [ STEM < "conductor" >, SYNSEM.LKEYS.KEYREL.PRED "_conductor_a_rel" ]. conductor_n1 := n_intr_count_le & [ STEM < "conductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conductor_n_rel" ] ]. conductor_n2 := n_subj-nom_le & [ STEM < "conductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conductor_n_rel" ] ]. condón_n1 := n_intr_count_le & [ STEM < "condón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_condón_n_rel" ] ]. conectabilidad_n1 := n_intr_uncount_le & [ STEM < "conectabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conectabilidad_n_rel" ] ]. conectable_a1 := a_qual_trans_ser_le & [ STEM < "conectable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_conectable_a_rel" ] ]. conectador_n1 := n_intr_count_le & [ STEM < "conectador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conectador_n_rel" ] ]. conectante_a1 := a_rel_nonprd_intr_le & [ STEM < "conectante" >, SYNSEM.LKEYS.KEYREL.PRED "_conectante_a_rel" ]. conectar_v := v_trans_np_mrkd_np*_le & [ STEM < "conectar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_conectar_v_rel" ] ]. conectivamente_x1 := av_i_spr_le & [ STEM < "conectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conectivamente_x_rel" ]. conectividad_n1 := n_intr_uncount_le & [ STEM < "conectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conectividad_n_rel" ] ]. conectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "conectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_conectivo_a_rel" ]. conector_a1 := a_rel_nonprd_intr_le & [ STEM < "conector" >, SYNSEM.LKEYS.KEYREL.PRED "_conector_a_rel" ]. conector_n1 := n_intr_count_le & [ STEM < "conector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conector_n_rel" ] ]. conejera_n1 := n_intr_count_le & [ STEM < "conejera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_conejera_n_rel" ] ]. conejillo_n1 := n_intr_count_le & [ STEM < "conejillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_conejillo_n_rel" ] ]. conejo_n1 := n_intr_count_le & [ STEM < "conejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_conejo_n_rel" ] ]. conexamente_x1 := av_i_spr_le & [ STEM < "conexamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conexamente_x_rel" ]. conexionar_v := v_trans_np_mrkd_np*_le & [ STEM < "conexionar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_conexionar_v_rel" ] ]. conexión_n1 := n_trans_le & [ STEM < "conexión" >, SYNSEM.LKEYS.KEYREL.PRED "_conexión_n_rel" ]. conexo_a1 := a_rel_nonprd_intr_le & [ STEM < "conexo" >, SYNSEM.LKEYS.KEYREL.PRED "_conexo_a_rel" ]. confabulación_n1 := n_trans_le & [ STEM < "confabulación" >, SYNSEM.LKEYS.KEYREL.PRED "_confabulación_n_rel" ]. confabular_v := v_pron_intr_mrkd_np_sym_le & [ STEM < "confabular" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_confabular_v_rel" ] ]. confeccionador_n1 := n_subj-nom_le & [ STEM < "confeccionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confeccionador_n_rel" ] ]. confeccionar_v := v_trans_np_le & [ STEM < "confeccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_confeccionar_v_rel" ]. confección_n1 := n_trans_le & [ STEM < "confección" >, SYNSEM.LKEYS.KEYREL.PRED "_confección_n_rel" ]. confederación_n1 := n_intr_count_le & [ STEM < "confederación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc_soc, PRED "_confederación_n_rel" ] ]. confederado_n1 := n_intr_count_le & [ STEM < "confederado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confederado_n_rel" ] ]. confederal_a1 := a_rel_nonprd_intr_le & [ STEM < "confederal" >, SYNSEM.LKEYS.KEYREL.PRED "_confederal_a_rel" ]. confederativo_a1 := a_rel_nonprd_intr_le & [ STEM < "confederativo" >, SYNSEM.LKEYS.KEYREL.PRED "_confederativo_a_rel" ]. conferencia_n1 := n_intr_count_le & [ STEM < "conferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conferencia_n_rel" ] ]. conferenciante_n1 := n_intr_count_le & [ STEM < "conferenciante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conferenciante_n_rel" ] ]. conferencista_n1 := n_intr_count_le & [ STEM < "conferencista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conferencista_n_rel" ] ]. conferimiento_n1 := n_trans_le & [ STEM < "conferimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_conferimiento_n_rel" ]. conferir_v := v_ditrans*_le & [ STEM < "conferir" >, SYNSEM.LKEYS.KEYREL.PRED "_conferir_v_rel" ]. confesar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "confesar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_confesar_v_rel" ] ]. confesar_v2 := v_ditrans*_le & [ STEM < "confesar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_confesar_v_rel" ] ]. confesar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "confesar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_confesar_v_rel" ] ] ]. confesar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "confesar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_confesar_v_rel" ] ] ]. confesar_v5 := v_trans_np_caus_le & [ STEM < "confesar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_confesar_v_rel" ] ]. confesional_a1 := a_rel_nonprd_intr_le & [ STEM < "confesional" >, SYNSEM.LKEYS.KEYREL.PRED "_confesional_a_rel" ]. confesionario_n1 := n_intr_count_le & [ STEM < "confesionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_confesionario_n_rel" ] ]. confesión_n1 := n_result_intr_le & [ STEM < "confesión" >, SYNSEM.LKEYS.KEYREL.PRED "_confesión_n_rel" ]. confeso_a1 := a_qual_intr_ser_le & [ STEM < "confeso" >, SYNSEM.LKEYS.KEYREL.PRED "_confeso_a_rel" ]. confesor_n1 := n_subj-nom_le & [ STEM < "confesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confesor_n_rel" ] ]. confesorio_a1 := a_rel_nonprd_intr_le & [ STEM < "confesorio" >, SYNSEM.LKEYS.KEYREL.PRED "_confesorio_a_rel" ]. confesorio_n1 := n_intr_count_le & [ STEM < "confesorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confesorio_n_rel" ] ]. confeti_n1 := n_intr_mass_le & [ STEM < "confeti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_confeti_n_rel" ] ]. confiabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "confiabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confiabilidad_n_rel" ] ]. confiable_a1 := a_qual_intr_scopal_le & [ STEM < "confiable" >, SYNSEM.LKEYS.KEYREL.PRED "_confiable_a_rel" ]. confianza_n1 := n_trans_le & [ STEM < "confianza" >, SYNSEM.LKEYS.KEYREL.PRED "_confianza_n_rel" ]. confiar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "confiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_confiar_v_rel" ] ]. confiar_v2 := v_ditrans*_le & [ STEM < "confiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_confiar_v_rel" ] ]. confiar_v3 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "confiar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_confiar_v_rel" ] ] ]. confiar_v4 := v_intr_mrkd_np_le & [ STEM < "confiar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_confiar_v_rel" ] ] ]. confidencia_n1 := n_intr_count_le & [ STEM < "confidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confidencia_n_rel" ] ]. confidencial_a1 := a_qual_intr_scopal_le & [ STEM < "confidencial" >, SYNSEM.LKEYS.KEYREL.PRED "_confidencial_a_rel" ]. confidencialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "confidencialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confidencialidad_n_rel" ] ]. confidencialmente_x1 := av_s_spr_le & [ STEM < "confidencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_confidencialmente_x_rel" ]. confidente_n1 := n_intr_count_le & [ STEM < "confidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confidente_n_rel" ] ]. configurabilidad_n1 := n_intr_uncount_le & [ STEM < "configurabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_configurabilidad_n_rel" ] ]. configurable_a1 := a_rel_prd_le & [ STEM < "configurable" >, SYNSEM.LKEYS.KEYREL.PRED "_configurable_a_rel" ]. configuracional_a1 := a_rel_nonprd_intr_le & [ STEM < "configuracional" >, SYNSEM.LKEYS.KEYREL.PRED "_configuracional_a_rel" ]. configuracionismo_n1 := n_intr_uncount_le & [ STEM < "configuracionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_configuracionismo_n_rel" ] ]. configuración_n1 := n_trans_le & [ STEM < "configuración" >, SYNSEM.LKEYS.KEYREL.PRED "_configuración_n_rel" ]. configurador_n1 := n_intr_count_le & [ STEM < "configurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_configurador_n_rel" ] ]. confinado_n1 := n_intr_count_le & [ STEM < "confinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confinado_n_rel" ] ]. confinamiento_n1 := n_trans_le & [ STEM < "confinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_confinamiento_n_rel" ]. confirmable_a1 := a_rel_prd_le & [ STEM < "confirmable" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmable_a_rel" ]. confirmación_n1 := n_trans_le & [ STEM < "confirmación" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmación_n_rel" ]. confirmador_n1 := n_subj-nom_le & [ STEM < "confirmador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_confirmador_n_rel" ] ]. confirmar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "confirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_confirmar_v_rel" ] ]. confirmar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "confirmar" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmar_v_rel" ]. confirmar_v3 := v_ditrans*_le & [ STEM < "confirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_confirmar_v_rel" ] ]. confirmar_v4 := v_pron_intr_le & [ STEM < "confirmar" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmar_v_rel" ]. confirmar_v5 := v_trans_np_mrkd_np_le & [ STEM < "confirmar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT hum_soc, PRED "_confirmar_v_rel" ] ] ]. confirmativamente_x1 := av_i_spr_le & [ STEM < "confirmativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmativamente_x_rel" ]. confirmativo_a1 := a_rel_nonprd_intr_le & [ STEM < "confirmativo" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmativo_a_rel" ]. confirmatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "confirmatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_confirmatorio_a_rel" ]. confiscación_n1 := n_trans_le & [ STEM < "confiscación" >, SYNSEM.LKEYS.KEYREL.PRED "_confiscación_n_rel" ]. confiscar_v := v_ditrans*_le & [ STEM < "confiscar" >, SYNSEM.LKEYS.KEYREL.PRED "_confiscar_v_rel" ]. confiscatoriedad_n1 := n_intr_uncount_le & [ STEM < "confiscatoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confiscatoriedad_n_rel" ] ]. confiscatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "confiscatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_confiscatorio_a_rel" ]. confitar_v := v_trans_np_le & [ STEM < "confitar" >, SYNSEM.LKEYS.KEYREL.PRED "_confitar_v_rel" ]. confite_n1 := n_intr_count_le & [ STEM < "confite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_confite_n_rel" ] ]. confitería_n1 := n_intr_count_le & [ STEM < "confitería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_confitería_n_rel" ] ]. confitura_n1 := n_intr_count_le & [ STEM < "confitura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_confitura_n_rel" ] ]. conflagración_n1 := n_intr_count_le & [ STEM < "conflagración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conflagración_n_rel" ] ]. conflictivamente_x1 := av_i_spr_le & [ STEM < "conflictivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conflictivamente_x_rel" ]. conflictividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "conflictividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conflictividad_n_rel" ] ]. conflictivismo_n1 := n_intr_uncount_le & [ STEM < "conflictivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conflictivismo_n_rel" ] ]. conflictivizar_v := v_trans_np_le & [ STEM < "conflictivizar" >, SYNSEM.LKEYS.KEYREL.PRED "_conflictivizar_v_rel" ]. conflictivo_a1 := a_qual_intr_scopal_le & [ STEM < "conflictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_conflictivo_a_rel" ]. conflicto_n1 := n_intr_count_le & [ STEM < "conflicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conflicto_n_rel" ] ]. confluencia_n1 := n_event-result_intr_le & [ STEM < "confluencia" >, SYNSEM.LKEYS.KEYREL.PRED "_confluencia_n_rel" ]. confluente_a1 := a_qual_trans_ser_le & [ STEM < "confluente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_confluente_a_rel" ] ]. confluir_v := v_unacc_lcomp_loc*_le & [ STEM < "confluir" >, SYNSEM.LKEYS.KEYREL.PRED "_confluir_v_rel" ]. confocalmente_x1 := av_i_spr_le & [ STEM < "confocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_confocalmente_x_rel" ]. conformabilidad_n1 := n_intr_mass_le & [ STEM < "conformabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conformabilidad_n_rel" ] ]. conformable_a1 := a_qual_intr_ser_le & [ STEM < "conformable" >, SYNSEM.LKEYS.KEYREL.PRED "_conformable_a_rel" ]. conformacional_a1 := a_rel_prd_le & [ STEM < "conformacional" >, SYNSEM.LKEYS.KEYREL.PRED "_conformacional_a_rel" ]. conformación_n1 := n_event-result_intr_le & [ STEM < "conformación" >, SYNSEM.LKEYS.KEYREL.PRED "_conformación_n_rel" ]. conformado_n1 := n_trans_le & [ STEM < "conformado" >, SYNSEM.LKEYS.KEYREL.PRED "_conformado_n_rel" ]. conformador_n1 := n_intr_count_le & [ STEM < "conformador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conformador_n_rel" ] ]. conformante_a1 := a_rel_prd_le & [ STEM < "conformante" >, SYNSEM.LKEYS.KEYREL.PRED "_conformante_a_rel" ]. conformantemente_x1 := av_i_spr_le & [ STEM < "conformantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_conformantemente_x_rel" ]. conformar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "conformar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conformar_v_rel" ] ]. conformar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "conformar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conformar_v_rel" ] ]. conformar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "conformar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_conformar_v_rel" ] ]. conforme_a1 := a_qual_trans*_estar_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a2 := a_qual_trans*_ser_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a3 := a_qual_cp_prop_fin_estar_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a4 := a_qual_cp_prop_fin_ser_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a5 := a_qual_cp_ques_estar_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a6 := a_qual_cp_ques_ser_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a7 := a_sctrl_estar_le & [ STEM < "conforme" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_conforme_a_rel" ] ]. conforme_a_p_vmod := p_vmod_le & [ STEM < "conforme_a" >, SYNSEM.LKEYS.KEYREL.PRED _conforme_a_p_rel ]. conforme_sc := sc_prop_fin_le & [ STEM < "conforme" >, SYNSEM.LKEYS.KEYREL.PRED "_conforme_x_subord_rel" ]. conformidad_n1 := n_intr_mass_le & [ STEM < "conformidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conformidad_n_rel" ] ]. conformismo_n1 := n_intr_uncount_le & [ STEM < "conformismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conformismo_n_rel" ] ]. conformista_a1 := a_qual_intr_ser_le & [ STEM < "conformista" >, SYNSEM.LKEYS.KEYREL.PRED "_conformista_a_rel" ]. conformista_n1 := n_intr_count_le & [ STEM < "conformista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conformista_n_rel" ] ]. confort_n1 := n_intr_mass_le & [ STEM < "confort" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confort_n_rel" ] ]. confortable_a1 := a_qual_intr_scopal_le & [ STEM < "confortable" >, SYNSEM.LKEYS.KEYREL.PRED "_confortable_a_rel" ]. confortablemente_x1 := av_i_spr_le & [ STEM < "confortablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_confortablemente_x_rel" ]. confortar_v1 := v_intr_io*_le & [ STEM < "confortar" >, SYNSEM.LKEYS.KEYREL.PRED "_confortar_v_rel" ]. confortar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "confortar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_confortar_v_rel" ] ]. confortar_v3 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "confortar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_confortar_v_rel" ] ]. confortar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "confortar" >, SYNSEM.LKEYS.KEYREL.PRED "_confortar_v_rel" ]. confrontación_n1 := n_trans_le & [ STEM < "confrontación" >, SYNSEM.LKEYS.KEYREL.PRED "_confrontación_n_rel" ]. confrontar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "confrontar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_confrontar_v_rel" ] ]. confrontar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "confrontar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_confrontar_v_rel" ] ]. confundir_v := v_trans_np_mrkd_np*_sym_le & [ STEM < "confundir" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_confundir_v_rel" ] ] ]. confundir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "confundir" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL.PRED "_confundir_v_rel" ] ]. confundir_v2 := v_intr_io*_le & [ STEM < "confundir" >, SYNSEM.LKEYS.KEYREL.PRED "_confundir_v_rel" ]. confundir_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "confundir" >, SYNSEM.LKEYS.KEYREL.PRED "_confundir_v_rel" ]. confusamente_x1 := av_i_spr_le & [ STEM < "confusamente" >, SYNSEM.LKEYS.KEYREL.PRED "_confusamente_x_rel" ]. confusión_n1 := n_trans_le & [ STEM < "confusión" >, SYNSEM.LKEYS.KEYREL.PRED "_confusión_n_rel" ]. confuso_a1 := a_qual_intr_scopal_le & [ STEM < "confuso" >, SYNSEM.LKEYS.KEYREL.PRED "_confuso_a_rel" ]. confín_n1 := n_intr_uncount_pl_le & [ STEM < "confín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_confín_n_rel" ] ]. conga_n1 := n_intr_count_le & [ STEM < "conga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conga_n_rel" ] ]. congelación_n1 := n_trans_le & [ STEM < "congelación" >, SYNSEM.LKEYS.KEYREL.PRED "_congelación_n_rel" ]. congelador_a1 := a_rel_nonprd_intr_le & [ STEM < "congelador" >, SYNSEM.LKEYS.KEYREL.PRED "_congelador_a_rel" ]. congelador_n1 := n_intr_count_le & [ STEM < "congelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_congelador_n_rel" ] ]. congelar_v := v_trans_np_caus_le & [ STEM < "congelar" >, SYNSEM.LKEYS.KEYREL.PRED "_congelar_v_rel" ]. congestionar_v := v_trans_np_caus_le & [ STEM < "congestionar" >, SYNSEM.LKEYS.KEYREL.PRED "_congestionar_v_rel" ]. congestión_n1 := n_trans_le & [ STEM < "congestión" >, SYNSEM.LKEYS.KEYREL.PRED "_congestión_n_rel" ]. conglomeración_n1 := n_trans_le & [ STEM < "conglomeración" >, SYNSEM.LKEYS.KEYREL.PRED "_conglomeración_n_rel" ]. conglomerado_n1 := n_group_le & [ STEM < "conglomerado" >, SYNSEM.LKEYS.KEYREL.PRED "_conglomerado_n_rel" ]. conglomerante_n1 := n_intr_mass_le & [ STEM < "conglomerante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_conglomerante_n_rel" ] ]. conglomerar_v := v_trans_np_caus_le & [ STEM < "conglomerar" >, SYNSEM.LKEYS.KEYREL.PRED "_conglomerar_v_rel" ]. conglutinación_n1 := n_trans_le & [ STEM < "conglutinación" >, SYNSEM.LKEYS.KEYREL.PRED "_conglutinación_n_rel" ]. conglutinina_n1 := n_intr_count_le & [ STEM < "conglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conglutinina_n_rel" ] ]. congoja_n1 := n_intr_mass_le & [ STEM < "congoja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_congoja_n_rel" ] ]. congoleño_a1 := a_rel_prd_le & [ STEM < "congoleño" >, SYNSEM.LKEYS.KEYREL.PRED "_congoleño_a_rel" ]. congoleño_n1 := n_intr_count_le & [ STEM < "congoleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_congoleño_n_rel" ] ]. congolés_a1 := a_rel_prd_le & [ STEM < "congolés" >, SYNSEM.LKEYS.KEYREL.PRED "_congolés_a_rel" ]. congolés_n1 := n_intr_count_le & [ STEM < "congolés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_congolés_n_rel" ] ]. congraciar_v := v_pron_intr_mrkd_np_sym_le & [ STEM < "congraciar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_congraciar_v_rel" ] ]. congratulación_n1 := n_trans_le & [ STEM < "congratulación" >, SYNSEM.LKEYS.KEYREL.PRED "_congratulación_n_rel" ]. congratular_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "congratular" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_congratular_v_rel" ] ] ]. congratular_v2 := v_pron_intr_mrkd_np_le & [ STEM < "congratular" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_congratular_v_rel" ] ] ]. congratular_v3 := v_trans_np_le & [ STEM < "congratular" >, SYNSEM.LKEYS.KEYREL.PRED "_congratular_v_rel" ]. congratulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "congratulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_congratulatorio_a_rel" ]. congregacionalista_a1 := a_qual_intr_ser_le & [ STEM < "congregacionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_congregacionalista_a_rel" ]. congregación_n1 := n_intr_count_le & [ STEM < "congregación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_congregación_n_rel" ] ]. congregar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "congregar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_congregar_v_rel" ] ] ]. congregar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "congregar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_congregar_v_rel" ] ] ]. congregar_v3 := v_trans_np_caus_le & [ STEM < "congregar" >, SYNSEM.LKEYS.KEYREL.PRED "_congregar_v_rel" ]. congresional_a1 := a_rel_nonprd_intr_le & [ STEM < "congresional" >, SYNSEM.LKEYS.KEYREL.PRED "_congresional_a_rel" ]. congresista_n1 := n_intr_count_le & [ STEM < "congresista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_congresista_n_rel" ] ]. congreso_n1 := n_intr_count_le & [ STEM < "congreso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_congreso_n_rel" ] ]. congrio_n1 := n_intr_count_le & [ STEM < "congrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_congrio_n_rel" ] ]. congruencia_n1 := n_intr_mass_le & [ STEM < "congruencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_congruencia_n_rel" ] ]. congruente_a1 := a_qual_trans_ser_le & [ STEM < "congruente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_congruente_a_rel" ] ]. congruentemente_x1 := av_i_spr_le & [ STEM < "congruentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_congruentemente_x_rel" ]. congénere_n1 := n_intr_count_le & [ STEM < "congénere" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_congénere_n_rel" ] ]. congénito_a1 := a_rel_prd_le & [ STEM < "congénito" >, SYNSEM.LKEYS.KEYREL.PRED "_congénito_a_rel" ]. conicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "conicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conicidad_n_rel" ] ]. coniferina_n1 := n_intr_count_le & [ STEM < "coniferina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coniferina_n_rel" ] ]. coniforme_a1 := a_qual_intr_ser_le & [ STEM < "coniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_coniforme_a_rel" ]. coniina_n1 := n_intr_count_le & [ STEM < "coniina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_coniina_n_rel" ] ]. coniotomía_n1 := n_intr_count_le & [ STEM < "coniotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coniotomía_n_rel" ] ]. conjetura_n1 := n_intr_count_le & [ STEM < "conjetura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjetura_n_rel" ] ]. conjetural_a1 := a_rel_prd_le & [ STEM < "conjetural" >, SYNSEM.LKEYS.KEYREL.PRED "_conjetural_a_rel" ]. conjeturalmente_x1 := av_i_spr_le & [ STEM < "conjeturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_conjeturalmente_x_rel" ]. conjeturar_v1 := v_trans_cp_prop_fin_le & [ STEM < "conjeturar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_conjeturar_v_rel" ] ]. conjeturar_v2 := v_trans_np*_le & [ STEM < "conjeturar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_conjeturar_v_rel" ] ]. conjuez_n1 := n_intr_count_le & [ STEM < "conjuez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conjuez_n_rel" ] ]. conjugación_n1 := n_trans_le & [ STEM < "conjugación" >, SYNSEM.LKEYS.KEYREL.PRED "_conjugación_n_rel" ]. conjugar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "conjugar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_conjugar_v_rel" ] ]. conjunción_n1 := n_intr_count_le & [ STEM < "conjunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjunción_n_rel" ] ]. conjuntamente_x1 := av_i_spr_le & [ STEM < "conjuntamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conjuntamente_x_rel" ]. conjuntiva_n1 := n_intr_count_le & [ STEM < "conjuntiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conjuntiva_n_rel" ] ]. conjuntival_a1 := a_rel_nonprd_intr_le & [ STEM < "conjuntival" >, SYNSEM.LKEYS.KEYREL.PRED "_conjuntival_a_rel" ]. conjuntivitis_n1 := n_intr_uncount_le & [ STEM < "conjuntivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjuntivitis_n_rel" ] ]. conjuntivo_a1 := a_rel_nonprd_intr_le & [ STEM < "conjuntivo" >, SYNSEM.LKEYS.KEYREL.PRED "_conjuntivo_a_rel" ]. conjuntivodacriocistostomía_n1 := n_intr_count_le & [ STEM < "conjuntivodacriocistostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjuntivodacriocistostomía_n_rel" ] ]. conjuntivoma_n1 := n_intr_uncount_le & [ STEM < "conjuntivoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjuntivoma_n_rel" ] ]. conjuntivoplastia_n1 := n_intr_count_le & [ STEM < "conjuntivoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjuntivoplastia_n_rel" ] ]. conjuntivorrinostomía_n1 := n_intr_count_le & [ STEM < "conjuntivorrinostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conjuntivorrinostomía_n_rel" ] ]. conjunto_a1 := a_qual_intr_ser_le & [ STEM < "conjunto" >, SYNSEM.LKEYS.KEYREL.PRED "_conjunto_a_rel" ]. conjunto_n1 := n_group_le & [ STEM < "conjunto" >, SYNSEM.LKEYS.KEYREL.PRED "_conjunto_n_rel" ]. conjuntor_n1 := n_intr_count_le & [ STEM < "conjuntor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conjuntor_n_rel" ] ]. conjura_n1 := n_trans_le & [ STEM < "conjura" >, SYNSEM.LKEYS.KEYREL.PRED "_conjura_n_rel" ]. conjuración_n1 := n_trans_le & [ STEM < "conjuración" >, SYNSEM.LKEYS.KEYREL.PRED "_conjuración_n_rel" ]. conjurar_v := v_trans_np_caus_le & [ STEM < "conjurar" >, SYNSEM.LKEYS.KEYREL.PRED "_conjurar_v_rel" ]. conjuro_n1 := n_result_intr_le & [ STEM < "conjuro" >, SYNSEM.LKEYS.KEYREL.PRED "_conjuro_n_rel" ]. conllevar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "conllevar" >, SYNSEM.LKEYS.KEYREL.PRED "_conllevar_v_rel" ]. conllevar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "conllevar" >, SYNSEM.LKEYS.KEYREL.PRED "_conllevar_v_rel" ]. conllevar_v3 := v_trans_cp_prop_fin_le & [ STEM < "conllevar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_conllevar_v_rel" ] ]. conllevar_v4 := v_trans_np_le & [ STEM < "conllevar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_conllevar_v_rel" ] ]. conmemoración_n1 := n_trans_le & [ STEM < "conmemoración" >, SYNSEM.LKEYS.KEYREL.PRED "_conmemoración_n_rel" ]. conmemorar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "conmemorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_conmemorar_v_rel" ] ]. conmemorar_v2 := v_trans_np_le & [ STEM < "conmemorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_conmemorar_v_rel" ] ]. conmemorativamente_x1 := av_i_spr_le & [ STEM < "conmemorativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conmemorativamente_x_rel" ]. conmemorativo_a1 := a_rel_nonprd_intr_le & [ STEM < "conmemorativo" >, SYNSEM.LKEYS.KEYREL.PRED "_conmemorativo_a_rel" ]. conmensurable_a1 := a_rel_prd_le & [ STEM < "conmensurable" >, SYNSEM.LKEYS.KEYREL.PRED "_conmensurable_a_rel" ]. conmigo_p := pr_pers_obl_le & [ STEM < "conmigo" > ]. conmilitón_n1 := n_intr_count_le & [ STEM < "conmilitón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conmilitón_n_rel" ] ]. conminación_n1 := n_trans_le & [ STEM < "conminación" >, SYNSEM.LKEYS.KEYREL.PRED "_conminación_n_rel" ]. conminar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "conminar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_conminar_v_rel" ] ] ]. conminar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "conminar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_conminar_v_rel" ] ] ]. conminar_v3 := v_trans_np_mrkd_np_caus_le & [ STEM < "conminar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_conminar_v_rel" ] ] ]. conminatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "conminatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_conminatorio_a_rel" ]. conmiseración_n1 := n_intr_mass_le & [ STEM < "conmiseración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmiseración_n_rel" ] ]. conmixtión_n1 := n_intr_count_le & [ STEM < "conmixtión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmixtión_n_rel" ] ]. conmocionar_v := v_trans_np_caus_le & [ STEM < "conmocionar" >, SYNSEM.LKEYS.KEYREL.PRED "_conmocionar_v_rel" ]. conmoción_n1 := n_intr_count_le & [ STEM < "conmoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmoción_n_rel" ] ]. conmovedor_a1 := a_qual_intr_scopal_le & [ STEM < "conmovedor" >, SYNSEM.LKEYS.KEYREL.PRED "_conmovedor_a_rel" ]. conmover_v1 := v_intr_io*_le & [ STEM < "conmover" >, SYNSEM.LKEYS.KEYREL.PRED "_conmover_v_rel" ]. conmover_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "conmover" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_conmover_v_rel" ] ] ]. conmover_v3 := v_pron_intr_mrkd_np_le & [ STEM < "conmover" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_conmover_v_rel" ] ] ]. conmover_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "conmover" >, SYNSEM.LKEYS.KEYREL.PRED "_conmover_v_rel" ]. conmuta_n1 := n_trans_le & [ STEM < "conmuta" >, SYNSEM.LKEYS.KEYREL.PRED "_conmuta_n_rel" ]. conmutabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "conmutabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmutabilidad_n_rel" ] ]. conmutable_a1 := a_rel_prd_le & [ STEM < "conmutable" >, SYNSEM.LKEYS.KEYREL.PRED "_conmutable_a_rel" ]. conmutación_n1 := n_trans_le & [ STEM < "conmutación" >, SYNSEM.LKEYS.KEYREL.PRED "_conmutación_n_rel" ]. conmutador_a1 := a_rel_nonprd_intr_le & [ STEM < "conmutador" >, SYNSEM.LKEYS.KEYREL.PRED "_conmutador_a_rel" ]. conmutador_n1 := n_intr_count_le & [ STEM < "conmutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conmutador_n_rel" ] ]. conmutativamente_x1 := av_i_spr_le & [ STEM < "conmutativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conmutativamente_x_rel" ]. conmutatividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "conmutatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmutatividad_n_rel" ] ]. conmutativo_a1 := a_rel_nonprd_intr_le & [ STEM < "conmutativo" >, SYNSEM.LKEYS.KEYREL.PRED "_conmutativo_a_rel" ]. conmutatriz_n1 := n_intr_uncount_le & [ STEM < "conmutatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conmutatriz_n_rel" ] ]. connivencia_n1 := n_intr_uncount_pl_le & [ STEM < "connivencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_connivencia_n_rel" ] ]. connotación_n1 := n_trans_le & [ STEM < "connotación" >, SYNSEM.LKEYS.KEYREL.PRED "_connotación_n_rel" ]. connotar_v := v_trans_np_le & [ STEM < "connotar" >, SYNSEM.LKEYS.KEYREL.PRED "_connotar_v_rel" ]. connotativo_a1 := a_rel_nonprd_intr_le & [ STEM < "connotativo" >, SYNSEM.LKEYS.KEYREL.PRED "_connotativo_a_rel" ]. connubio_n1 := n_intr_uncount_pl_le & [ STEM < "connubio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_connubio_n_rel" ] ]. cono_n1 := n_intr_count_le & [ STEM < "cono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cono_n_rel" ] ]. conocedor_n1 := n_subj-nom_le & [ STEM < "conocedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conocedor_n_rel" ] ]. conocer_v1 := v_intr_mrkd_np_le & [ STEM < "conocer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_conocer_v_rel" ] ]. conocer_v2 := v_trans_np_le & [ STEM < "conocer" >, SYNSEM.LKEYS.KEYREL.PRED "_conocer_v_rel" ]. conocible_a1 := a_rel_nonprd_intr_le & [ STEM < "conocible" >, SYNSEM.LKEYS.KEYREL.PRED "_conocible_a_rel" ]. conocido_n1 := n_intr_count_le & [ STEM < "conocido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conocido_n_rel" ] ]. conocimiento_n1 := n_trans_le & [ STEM < "conocimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_conocimiento_n_rel" ]. conoidal_a1 := a_qual_intr_ser_le & [ STEM < "conoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_conoidal_a_rel" ]. conoidalmente_x1 := av_i_spr_le & [ STEM < "conoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_conoidalmente_x_rel" ]. conoide_n1 := n_intr_count_le & [ STEM < "conoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conoide_n_rel" ] ]. conoideamente_x1 := av_i_spr_le & [ STEM < "conoideamente" >, SYNSEM.LKEYS.KEYREL.PRED "_conoideamente_x_rel" ]. conoideo_a1 := a_qual_intr_ser_le & [ STEM < "conoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_conoideo_a_rel" ]. conopial_a1 := a_rel_nonprd_intr_le & [ STEM < "conopial" >, SYNSEM.LKEYS.KEYREL.PRED "_conopial_a_rel" ]. conque_sc := sc_prop_fin_le & [ STEM < "conque" >, SYNSEM.LKEYS.KEYREL.PRED "_conque_x_subord_rel" ]. conquiolina_n1 := n_intr_count_le & [ STEM < "conquiolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conquiolina_n_rel" ] ]. conquista_n1 := n_trans_le & [ STEM < "conquista" >, SYNSEM.LKEYS.KEYREL.PRED "_conquista_n_rel" ]. conquistador_a1 := a_rel_nonprd_intr_le & [ STEM < "conquistador" >, SYNSEM.LKEYS.KEYREL.PRED "_conquistador_a_rel" ]. conquistador_n1 := n_subj-nom_le & [ STEM < "conquistador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conquistador_n_rel" ] ]. conquistar_v := v_trans_np_le & [ STEM < "conquistar" >, SYNSEM.LKEYS.KEYREL.PRED "_conquistar_v_rel" ]. consabidamente_x1 := av_i_spr_le & [ STEM < "consabidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_consabidamente_x_rel" ]. consabido_a1 := a_qual_intr_scopal_le & [ STEM < "consabido" >, SYNSEM.LKEYS.KEYREL.PRED "_consabido_a_rel" ]. consagración_n1 := n_trans_le & [ STEM < "consagración" >, SYNSEM.LKEYS.KEYREL.PRED "_consagración_n_rel" ]. consagrar_v2 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "consagrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_consagrar_v_rel" ] ] ]. consagrar_v3 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "consagrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_consagrar_v_rel" ] ] ]. consanguineidad_n1 := n_intr_uncount_le & [ STEM < "consanguineidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consanguineidad_n_rel" ] ]. consanguineidad_n2 := n_intr_count_le & [ STEM < "consanguineidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consanguineidad_n_rel" ] ]. consanguinidad_n1 := n_intr_uncount_le & [ STEM < "consanguinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consanguinidad_n_rel" ] ]. consanguinidad_n2 := n_intr_count_le & [ STEM < "consanguinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consanguinidad_n_rel" ] ]. consanguíneo_a1 := a_rel_nonprd_intr_le & [ STEM < "consanguíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_consanguíneo_a_rel" ]. consciencia_n1 := n_intr_uncount_pl_le & [ STEM < "consciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consciencia_n_rel" ] ]. consciente_a1 := a_qual_intr_estar_le & [ STEM < "consciente" >, SYNSEM.LKEYS.KEYREL.PRED "_consciente_a_rel" ]. consciente_a2 := a_qual_trans*_ser_le & [ STEM < "consciente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_consciente_a_rel" ] ]. consciente_a3 := a_qual_cp_prop_fin_ser_le & [ STEM < "consciente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_consciente_a_rel" ] ]. conscientemente_x1 := av_i_spr_le & [ STEM < "conscientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_conscientemente_x_rel" ]. consecución_n1 := n_trans_le & [ STEM < "consecución" >, SYNSEM.LKEYS.KEYREL.PRED "_consecución_n_rel" ]. consecuencia_n1 := n_intr_count_le & [ STEM < "consecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consecuencia_n_rel" ] ]. consecuente_a1 := a_qual_trans*_ser_le & [ STEM < "consecuente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_consecuente_a_rel" ] ]. consecutio_temporum_x1 := av_i_le & [ STEM < "consecutio_temporum" >, SYNSEM.LKEYS.KEYREL.PRED "_consecutio_temporum_x_rel" ]. consecutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "consecutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_consecutivo_a_rel" ]. conseguir_v1 := v_trans_cp_prop_fin_le & [ STEM < "conseguir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum_pot_pro_sem_soc, PRED "_conseguir_v_rel" ] ]. conseguir_v2 := v_trans_np_le & [ STEM < "conseguir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum_pot_pro_sem_soc, PRED "_conseguir_v_rel" ] ]. consejero_n1 := n_intr_count_le & [ STEM < "consejero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consejero_n_rel" ] ]. consejería_n1 := n_intr_count_le & [ STEM < "consejería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consejería_n_rel" ] ]. consejo_n1 := n_intr_count_le & [ STEM < "consejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_consejo_n_rel" ] ]. consenso_n1 := n_intr_count_le & [ STEM < "consenso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consenso_n_rel" ] ]. consensual_a1 := a_rel_nonprd_intr_le & [ STEM < "consensual" >, SYNSEM.LKEYS.KEYREL.PRED "_consensual_a_rel" ]. consensuar_v := v_trans_np_le & [ STEM < "consensuar" >, SYNSEM.LKEYS.KEYREL.PRED "_consensuar_v_rel" ]. consentidor_a1 := a_qual_intr_ser_le & [ STEM < "consentidor" >, SYNSEM.LKEYS.KEYREL.PRED "_consentidor_a_rel" ]. consentimiento_n1 := n_trans_le & [ STEM < "consentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_consentimiento_n_rel" ]. consentir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "consentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_consentir_v_rel" ] ]. consentir_v2 := v_ditrans*_le & [ STEM < "consentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_consentir_v_rel" ] ]. consentir_v3 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "consentir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_consentir_v_rel" ] ]. consentir_v4 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "consentir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_consentir_v_rel" ] ]. consentir_v5 := v_intr_mrkd_np_le & [ STEM < "consentir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_consentir_v_rel" ] ]. consentir_v6 := v_intr_mrkd_np_le & [ STEM < "consentir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_consentir_v_rel" ] ]. conserje_n1 := n_intr_count_le & [ STEM < "conserje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conserje_n_rel" ] ]. conserjería_n1 := n_intr_count_le & [ STEM < "conserjería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_conserjería_n_rel" ] ]. conserva_n1 := n_intr_count_le & [ STEM < "conserva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conserva_n_rel" ] ]. conservacionista_n1 := n_intr_count_le & [ STEM < "conservacionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conservacionista_n_rel" ] ]. conservación_n1 := n_trans_le & [ STEM < "conservación" >, SYNSEM.LKEYS.KEYREL.PRED "_conservación_n_rel" ]. conservador_a1 := a_qual_intr_scopal_le & [ STEM < "conservador" >, SYNSEM.LKEYS.KEYREL.PRED "_conservador_a_rel" ]. conservador_a2 := a_qual_intr_ser_le & [ STEM < "conservador" >, SYNSEM.LKEYS.KEYREL.PRED "_conservador_a_rel" ]. conservador_n1 := n_intr_count_le & [ STEM < "conservador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conservador_n_rel" ] ]. conservadurismo_n1 := n_intr_uncount_le & [ STEM < "conservadurismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conservadurismo_n_rel" ] ]. conservante_a1 := a_rel_nonprd_intr_le & [ STEM < "conservante" >, SYNSEM.LKEYS.KEYREL.PRED "_conservante_a_rel" ]. conservante_n1 := n_intr_count_le & [ STEM < "conservante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conservante_n_rel" ] ]. conservar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "conservar" >, SYNSEM.LKEYS.KEYREL.PRED "_conservar_v_rel" ]. conservar_v2 := v_trans_np_le & [ STEM < "conservar" >, SYNSEM.LKEYS.KEYREL.PRED "_conservar_v_rel" ]. conservativo_a1 := a_rel_nonprd_intr_le & [ STEM < "conservativo" >, SYNSEM.LKEYS.KEYREL.PRED "_conservativo_a_rel" ]. conservatorio_n1 := n_intr_count_le & [ STEM < "conservatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_conservatorio_n_rel" ] ]. considerable_a1 := a_qual_intr_scopal_le & [ STEM < "considerable" >, SYNSEM.LKEYS.KEYREL.PRED "_considerable_a_rel" ]. considerablemente_x1 := av_i_le & [ STEM < "considerablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_considerablemente_x_rel" ]. consideración_n1 := n_trans_le & [ STEM < "consideración" >, SYNSEM.LKEYS.KEYREL.PRED "_consideración_n_rel" ]. consideradamente_x1 := av_i_spr_le & [ STEM < "consideradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_consideradamente_x_rel" ]. considerando_n1 := n_intr_count_le & [ STEM < "considerando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_considerando_n_rel" ] ]. considerar_v1 := v_trans_cp_prop_fin_le & [ STEM < "considerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_considerar_v_rel" ] ]. considerar_v2 := v_trans_np_le & [ STEM < "considerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_considerar_v_rel" ] ]. considerar_v3 := v_obj_equi_prd_le & [ STEM < "considerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_considerar_v_rel" ] ]. consigna_n1 := n_intr_count_le & [ STEM < "consigna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_consigna_n_rel" ] ]. consignación_n1 := n_trans_le & [ STEM < "consignación" >, SYNSEM.LKEYS.KEYREL.PRED "_consignación_n_rel" ]. consignador_n1 := n_subj-nom_le & [ STEM < "consignador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consignador_n_rel" ] ]. consignar_v := v_ditrans*_le & [ STEM < "consignar" >, SYNSEM.LKEYS.KEYREL.PRED "_consignar_v_rel" ]. consignatario_n1 := n_intr_count_le & [ STEM < "consignatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consignatario_n_rel" ] ]. consignativo_a1 := a_rel_nonprd_intr_le & [ STEM < "consignativo" >, SYNSEM.LKEYS.KEYREL.PRED "_consignativo_a_rel" ]. consigo_p := pr_pers_obl_le & [ STEM < "consigo" > ]. consiguiente_a1 := a_adv_event_le & [ STEM < "consiguiente" >, SYNSEM.LKEYS.KEYREL.PRED "_consiguiente_a_rel" ]. consistencia_n1 := n_intr_mass_le & [ STEM < "consistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consistencia_n_rel" ] ]. consistente_a1 := a_qual_intr_ser_le & [ STEM < "consistente" >, SYNSEM.LKEYS.KEYREL.PRED "_consistente_a_rel" ]. consistente_a2 := a_qual_trans_ser_le & [ STEM < "consistente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_consistente_a_rel" ] ]. consistente_a4 := a_qual_cp_ques_ser_le & [ STEM < "consistente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_consistente_a_rel" ] ]. consistente_a6 := a_rel_nonprd_trans_le & [ STEM < "consistente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_consistente_a_rel" ] ]. consistente_a7 := a_rel_nonprd_cp_prop_le & [ STEM < "consistente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_consistente_a_rel" ] ]. consistente_a8 := a_rel_nonprd_cp_ques_le & [ STEM < "consistente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_consistente_a_rel" ] ]. consistentemente_x1 := av_i_spr_le & [ STEM < "consistentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_consistentemente_x_rel" ]. consistir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "consistir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_consistir_v_rel" ] ] ]. consistir_v2 := v_intr_mrkd_np_le & [ STEM < "consistir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_consistir_v_rel" ] ] ]. consistorial_a1 := a_rel_nonprd_intr_le & [ STEM < "consistorial" >, SYNSEM.LKEYS.KEYREL.PRED "_consistorial_a_rel" ]. consistorio_n1 := n_intr_count_le & [ STEM < "consistorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consistorio_n_rel" ] ]. consistómetro_n1 := n_intr_count_le & [ STEM < "consistómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_consistómetro_n_rel" ] ]. consola_n1 := n_intr_count_le & [ STEM < "consola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_consola_n_rel" ] ]. consolación_n1 := n_trans_le & [ STEM < "consolación" >, SYNSEM.LKEYS.KEYREL.PRED "_consolación_n_rel" ]. consolador_a1 := a_qual_intr_scopal_le & [ STEM < "consolador" >, SYNSEM.LKEYS.KEYREL.PRED "_consolador_a_rel" ]. consolar_v1 := v_intr_io*_le & [ STEM < "consolar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolar_v_rel" ]. consolar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "consolar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolar_v_rel" ]. consolar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "consolar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolar_v_rel" ]. consolar_v4 := v_trans_np_caus_le & [ STEM < "consolar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolar_v_rel" ]. consolar_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "consolar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_consolar_v_rel" ] ] ]. consolar_v6 := v_trans_np*_mrkd_np_le & [ STEM < "consolar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_consolar_v_rel" ] ] ]. consolidación_n1 := n_trans_le & [ STEM < "consolidación" >, SYNSEM.LKEYS.KEYREL.PRED "_consolidación_n_rel" ]. consolidar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "consolidar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolidar_v_rel" ]. consolidar_v2 := v_trans_np_caus_le & [ STEM < "consolidar" >, SYNSEM.LKEYS.KEYREL.PRED "_consolidar_v_rel" ]. consolidómetro_n1 := n_intr_count_le & [ STEM < "consolidómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_consolidómetro_n_rel" ] ]. consomé_n1 := n_intr_count_le & [ STEM < "consomé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_consomé_n_rel" ] ]. consonancia_n1 := n_intr_uncount_pl_le & [ STEM < "consonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consonancia_n_rel" ] ]. consonante_a1 := a_qual_intr_scopal_le & [ STEM < "consonante" >, SYNSEM.LKEYS.KEYREL.PRED "_consonante_a_rel" ]. consonante_n1 := n_intr_count_le & [ STEM < "consonante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consonante_n_rel" ] ]. consonantismo_n1 := n_intr_uncount_le & [ STEM < "consonantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consonantismo_n_rel" ] ]. consonántico_a1 := a_rel_nonprd_intr_le & [ STEM < "consonántico" >, SYNSEM.LKEYS.KEYREL.PRED "_consonántico_a_rel" ]. consorcial_a1 := a_rel_nonprd_intr_le & [ STEM < "consorcial" >, SYNSEM.LKEYS.KEYREL.PRED "_consorcial_a_rel" ]. consorcialmente_x1 := av_i_spr_le & [ STEM < "consorcialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_consorcialmente_x_rel" ]. consorcio_n1 := n_intr_coll_le & [ STEM < "consorcio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_consorcio_n_rel" ] ]. consorte_n1 := n_intr_count_le & [ STEM < "consorte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consorte_n_rel" ] ]. conspicuo_a1 := a_qual_intr_scopal_le & [ STEM < "conspicuo" >, SYNSEM.LKEYS.KEYREL.PRED "_conspicuo_a_rel" ]. conspiración_n1 := n_trans_le & [ STEM < "conspiración" >, SYNSEM.LKEYS.KEYREL.PRED "_conspiración_n_rel" ]. conspirador_n1 := n_subj-nom_le & [ STEM < "conspirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_conspirador_n_rel" ] ]. conspirar_v1 := v_intr_le & [ STEM < "conspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_conspirar_v_rel" ]. constancia_n1 := n_intr_mass_le & [ STEM < "constancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constancia_n_rel" ] ]. constancia_n2 := n_result_intr_le & [ STEM < "constancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constancia_n_rel" ] ]. constante_a1 := a_adv_event_le & [ STEM < "constante" >, SYNSEM.LKEYS.KEYREL.PRED "_constante_a_rel" ]. constante_a2 := a_qual_intr_scopal_le & [ STEM < "constante" >, SYNSEM.LKEYS.KEYREL.PRED "_constante_a_rel" ]. constante_n1 := n_intr_count_le & [ STEM < "constante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constante_n_rel" ] ]. constantemente_x1 := av_i_spr_le & [ STEM < "constantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_constantemente_x_rel" ]. constatable_a1 := a_rel_prd_le & [ STEM < "constatable" >, SYNSEM.LKEYS.KEYREL.PRED "_constatable_a_rel" ]. constatación_n1 := n_trans_le & [ STEM < "constatación" >, SYNSEM.LKEYS.KEYREL.PRED "_constatación_n_rel" ]. constatar_v1 := v_trans_cp_prop_fin_le & [ STEM < "constatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_constatar_v_rel" ] ]. constatar_v2 := v_trans_np_le & [ STEM < "constatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_constatar_v_rel" ] ]. constelación_n1 := n_intr_count_le & [ STEM < "constelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_constelación_n_rel" ] ]. consternación_n1 := n_trans_le & [ STEM < "consternación" >, SYNSEM.LKEYS.KEYREL.PRED "_consternación_n_rel" ]. consternar_v1 := v_intr_io*_le & [ STEM < "consternar" >, SYNSEM.LKEYS.KEYREL.PRED "_consternar_v_rel" ]. consternar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "consternar" >, SYNSEM.LKEYS.KEYREL.PRED "_consternar_v_rel" ]. constitucional_a1 := a_rel_nonprd_intr_le & [ STEM < "constitucional" >, SYNSEM.LKEYS.KEYREL.PRED "_constitucional_a_rel" ]. constitucionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "constitucionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constitucionalidad_n_rel" ] ]. constitucionalismo_n1 := n_intr_uncount_le & [ STEM < "constitucionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constitucionalismo_n_rel" ] ]. constitucionalista_a1 := a_rel_nonprd_intr_le & [ STEM < "constitucionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_constitucionalista_a_rel" ]. constitucionalizar_v := v_trans_np_le & [ STEM < "constitucionalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_constitucionalizar_v_rel" ]. constitucionalmente_x1 := av_i_spr_le & [ STEM < "constitucionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_constitucionalmente_x_rel" ]. constitución_n1 := n_intr_mass_le & [ STEM < "constitución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_constitución_n_rel" ] ]. constituir_v1 := v_pron_intr_mrkd_np_le & [ STEM < "constituir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_constituir_v_rel" ] ] ]. constituir_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "constituir" >, SYNSEM.LKEYS.KEYREL.PRED "_constituir_v_rel" ]. constituir_v3 := v_trans_np_le & [ STEM < "constituir" >, SYNSEM.LKEYS.KEYREL.PRED "_constituir_v_rel" ]. constitutivo_a1 := a_qual_trans_ser_le & [ STEM < "constitutivo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_constitutivo_a_rel" ] ]. constituyente_a1 := a_rel_nonprd_intr_le & [ STEM < "constituyente" >, SYNSEM.LKEYS.KEYREL.PRED "_constituyente_a_rel" ]. constituyente_n1 := n_intr_count_le & [ STEM < "constituyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constituyente_n_rel" ] ]. constreñir_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "constreñir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_constreñir_v_rel" ] ] ]. constreñir_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "constreñir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_constreñir_v_rel" ] ] ]. constreñir_v3 := v_trans_np_mrkd_np*_le & [ STEM < "constreñir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_constreñir_v_rel" ] ] ]. constricción_n1 := n_trans_le & [ STEM < "constricción" >, SYNSEM.LKEYS.KEYREL.PRED "_constricción_n_rel" ]. constrictivo_a1 := a_rel_nonprd_intr_le & [ STEM < "constrictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_constrictivo_a_rel" ]. constringencia_n1 := n_intr_uncount_le & [ STEM < "constringencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constringencia_n_rel" ] ]. construcción_n1 := n_trans_le & [ STEM < "construcción" >, SYNSEM.LKEYS.KEYREL.PRED "_construcción_n_rel" ]. constructivamente_x1 := av_i_spr_le & [ STEM < "constructivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_constructivamente_x_rel" ]. constructivismo_n1 := n_intr_uncount_le & [ STEM < "constructivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_constructivismo_n_rel" ] ]. constructivista_a1 := a_rel_nonprd_intr_le & [ STEM < "constructivista" >, SYNSEM.LKEYS.KEYREL.PRED "_constructivista_a_rel" ]. constructivo_a1 := a_qual_intr_scopal_le & [ STEM < "constructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_constructivo_a_rel" ]. constructor_a1 := a_rel_nonprd_intr_le & [ STEM < "constructor" >, SYNSEM.LKEYS.KEYREL.PRED "_constructor_a_rel" ]. constructor_n1 := n_subj-nom_le & [ STEM < "constructor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_constructor_n_rel" ] ]. construir_v := v_trans_np*_le & [ STEM < "construir" >, SYNSEM.LKEYS.KEYREL.PRED "_construir_v_rel" ]. consuelo_n1 := n_trans_le & [ STEM < "consuelo" >, SYNSEM.LKEYS.KEYREL.PRED "_consuelo_n_rel" ]. consuetud_n1 := n_intr_uncount_pl_le & [ STEM < "consuetud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consuetud_n_rel" ] ]. consuetudinariamente_x1 := av_i_spr_le & [ STEM < "consuetudinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_consuetudinariamente_x_rel" ]. consuetudinario_a1 := a_rel_nonprd_intr_le & [ STEM < "consuetudinario" >, SYNSEM.LKEYS.KEYREL.PRED "_consuetudinario_a_rel" ]. consulado_n1 := n_intr_count_le & [ STEM < "consulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_consulado_n_rel" ] ]. consular_a1 := a_rel_nonprd_intr_le & [ STEM < "consular" >, SYNSEM.LKEYS.KEYREL.PRED "_consular_a_rel" ]. consulta_n1 := n_intr_count_le & [ STEM < "consulta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_consulta_n_rel" ] ]. consulta_n2 := n_trans_le & [ STEM < "consulta" >, SYNSEM.LKEYS.KEYREL.PRED "_consulta_n_rel" ]. consultación_n1 := n_trans_le & [ STEM < "consultación" >, SYNSEM.LKEYS.KEYREL.PRED "_consultación_n_rel" ]. consultivo_a1 := a_rel_nonprd_intr_le & [ STEM < "consultivo" >, SYNSEM.LKEYS.KEYREL.PRED "_consultivo_a_rel" ]. consultor_a1 := a_rel_nonprd_intr_le & [ STEM < "consultor" >, SYNSEM.LKEYS.KEYREL.PRED "_consultor_a_rel" ]. consultor_n1 := n_subj-nom_le & [ STEM < "consultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consultor_n_rel" ] ]. consultorio_n1 := n_intr_count_le & [ STEM < "consultorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_consultorio_n_rel" ] ]. consultoría_n1 := n_intr_count_le & [ STEM < "consultoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consultoría_n_rel" ] ]. consumación_n1 := n_trans_le & [ STEM < "consumación" >, SYNSEM.LKEYS.KEYREL.PRED "_consumación_n_rel" ]. consumar_v1 := v_trans_np_le & [ STEM < "consumar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_consumar_v_rel" ] ]. consumible_a1 := a_rel_prd_le & [ STEM < "consumible" >, SYNSEM.LKEYS.KEYREL.PRED "_consumible_a_rel" ]. consumible_n1 := n_intr_count_le & [ STEM < "consumible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_consumible_n_rel" ] ]. consumición_n1 := n_trans_le & [ STEM < "consumición" >, SYNSEM.LKEYS.KEYREL.PRED "_consumición_n_rel" ]. consumidor_n1 := n_subj-nom_le & [ STEM < "consumidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_consumidor_n_rel" ] ]. consumir_v1 := v_intr_io_le & [ STEM < "consumir" >, SYNSEM.LKEYS.KEYREL.PRED "_consumir_v_rel" ]. consumir_v2 := v_pron_intr_le & [ STEM < "consumir" >, SYNSEM.LKEYS.KEYREL.PRED "_consumir_v_rel" ]. consumir_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "consumir" >, SYNSEM.LKEYS.KEYREL.PRED "_consumir_v_rel" ]. consumir_v4 := v_trans_np_le & [ STEM < "consumir" >, SYNSEM.LKEYS.KEYREL.PRED "_consumir_v_rel" ]. consumismo_n1 := n_intr_mass_le & [ STEM < "consumismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_consumismo_n_rel" ] ]. consumista_a1 := a_qual_intr_ser_le & [ STEM < "consumista" >, SYNSEM.LKEYS.KEYREL.PRED "_consumista_a_rel" ]. consumo_n1 := n_trans_le & [ STEM < "consumo" >, SYNSEM.LKEYS.KEYREL.PRED "_consumo_n_rel" ]. consunción_n1 := n_trans_le & [ STEM < "consunción" >, SYNSEM.LKEYS.KEYREL.PRED "_consunción_n_rel" ]. consustancial_a1 := a_qual_trans_ser_le & [ STEM < "consustancial" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_consustancial_a_rel" ] ]. consustancial_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "consustancial" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_consustancial_a_rel" ] ]. consustancial_a3 := a_qual_cp_ques_ser_le & [ STEM < "consustancial" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_consustancial_a_rel" ] ]. consustancialmente_x1 := av_i_spr_le & [ STEM < "consustancialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_consustancialmente_x_rel" ]. contabilidad_n1 := n_intr_uncount_le & [ STEM < "contabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contabilidad_n_rel" ] ]. contabilizable_a1 := a_rel_nonprd_intr_le & [ STEM < "contabilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_contabilizable_a_rel" ]. contabilización_n1 := n_trans_le & [ STEM < "contabilización" >, SYNSEM.LKEYS.KEYREL.PRED "_contabilización_n_rel" ]. contabilizar_v := v_trans_np_le & [ STEM < "contabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_contabilizar_v_rel" ]. contable_a1 := a_rel_nonprd_intr_le & [ STEM < "contable" >, SYNSEM.LKEYS.KEYREL.PRED "_contable_a_rel" ]. contable_n1 := n_intr_count_le & [ STEM < "contable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contable_n_rel" ] ]. contactable_a1 := a_rel_prd_le & [ STEM < "contactable" >, SYNSEM.LKEYS.KEYREL.PRED "_contactable_a_rel" ]. contactar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "contactar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contactar_v_rel" ] ]. contactar_v2 := v_trans_np_le & [ STEM < "contactar" >, SYNSEM.LKEYS.KEYREL.PRED "_contactar_v_rel" ]. contacto_n1 := n_intr_count_le & [ STEM < "contacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_contacto_n_rel" ] ]. contactor_n1 := n_intr_count_le & [ STEM < "contactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contactor_n_rel" ] ]. contador_a1 := a_rel_nonprd_intr_le & [ STEM < "contador" >, SYNSEM.LKEYS.KEYREL.PRED "_contador_a_rel" ]. contador_n1 := n_intr_count_le & [ STEM < "contador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_contador_n_rel" ] ]. contaduría_n1 := n_intr_uncount_le & [ STEM < "contaduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contaduría_n_rel" ] ]. contagiar_v1 := v_ditrans_le & [ STEM < "contagiar" >, SYNSEM.LKEYS.KEYREL.PRED "_contagiar_v_rel" ]. contagiar_v2 := v_trans_np*_caus_le & [ STEM < "contagiar" >, SYNSEM.LKEYS.KEYREL.PRED "_contagiar_v_rel" ]. contagio_n1 := n_intr_uncount_pl_le & [ STEM < "contagio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contagio_n_rel" ] ]. contagioso_a1 := a_qual_intr_scopal_le & [ STEM < "contagioso" >, SYNSEM.LKEYS.KEYREL.PRED "_contagioso_a_rel" ]. contaminación_n1 := n_trans_le & [ STEM < "contaminación" >, SYNSEM.LKEYS.KEYREL.PRED "_contaminación_n_rel" ]. contaminador_a1 := a_rel_nonprd_intr_le & [ STEM < "contaminador" >, SYNSEM.LKEYS.KEYREL.PRED "_contaminador_a_rel" ]. contaminante_a1 := a_qual_intr_scopal_le & [ STEM < "contaminante" >, SYNSEM.LKEYS.KEYREL.PRED "_contaminante_a_rel" ]. contaminante_n1 := n_intr_count_le & [ STEM < "contaminante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_contaminante_n_rel" ] ]. contaminantemente_x1 := av_i_spr_le & [ STEM < "contaminantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_contaminantemente_x_rel" ]. contaminar_v := v_trans_np*_caus_le & [ STEM < "contaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_contaminar_v_rel" ]. contante_a1 := a_rel_nonprd_intr_le & [ STEM < "contante" >, SYNSEM.LKEYS.KEYREL.PRED "_contante_a_rel" ]. contar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "contar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_contar_v_rel" ] ]. contar_v2 := v_ditrans*_le & [ STEM < "contar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_contar_v_rel" ] ]. contar_v3 := v_intr_le & [ STEM < "contar" >, SYNSEM.LKEYS.KEYREL.PRED "_contar_v_rel" ]. contar_v4 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "contar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contar_v_rel" ] ]. contar_v5 := v_intr_mrkd_np_le & [ STEM < "contar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_contar_v_rel" ] ]. contar_v6 := v_intr_mrkd_np_le & [ STEM < "contar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contar_v_rel" ] ]. contar_v7 := v_pron_intr_mrkd_np_le & [ STEM < "contar" >, SYNSEM.LKEYS [ --COMPKEY _entre_p_sel_rel, KEYREL.PRED "_contar_v_rel" ] ]. contar_v8 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "contar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contar_v_rel" ] ]. contar_v9 := v_trans_cp_prop_fin_le & [ STEM < "contar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_contar_v_rel" ] ]. contemplación_n1 := n_trans_le & [ STEM < "contemplación" >, SYNSEM.LKEYS.KEYREL.PRED "_contemplación_n_rel" ]. contemplar_v1 := v_trans_cp_prop_fin_le & [ STEM < "contemplar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro_sem_soc, PRED "_contemplar_v_rel" ] ]. contemplar_v2 := v_trans_np_le & [ STEM < "contemplar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro_sem_soc, PRED "_contemplar_v_rel" ] ]. contemplativo_a1 := a_rel_nonprd_intr_le & [ STEM < "contemplativo" >, SYNSEM.LKEYS.KEYREL.PRED "_contemplativo_a_rel" ]. contemporizar_v1 := v_intr_le & [ STEM < "contemporizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_contemporizar_v_rel" ] ]. contemporizar_v2 := v_intr_mrkd_np_le & [ STEM < "contemporizar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_contemporizar_v_rel" ] ]. contemporáneo_a1 := a_adv_event_le & [ STEM < "contemporáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_contemporáneo_a_rel" ]. contemporáneo_a2 := a_qual_trans_ser_le & [ STEM < "contemporáneo" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_contemporáneo_a_rel" ] ]. contemporáneo_n1 := n_intr_count_le & [ STEM < "contemporáneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contemporáneo_n_rel" ] ]. contencioso_a1 := a_rel_nonprd_intr_le & [ STEM < "contencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_contencioso_a_rel" ]. contencioso_a2 := a_qual_intr_ser_le & [ STEM < "contencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_contencioso_a_rel" ]. contención_n1 := n_trans_le & [ STEM < "contención" >, SYNSEM.LKEYS.KEYREL.PRED "_contención_n_rel" ]. contendiente_n1 := n_intr_count_le & [ STEM < "contendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contendiente_n_rel" ] ]. contenedor_n1 := n_intr_count_le & [ STEM < "contenedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contenedor_n_rel" ] ]. contener_v1 := v_pron_intr_le & [ STEM < "contener" >, SYNSEM.LKEYS.KEYREL.PRED "_contener_v_rel" ]. contener_v2 := v_trans_np_le & [ STEM < "contener" >, SYNSEM.LKEYS.KEYREL.PRED "_contener_v_rel" ]. contenido_n1 := n_intr_count_le & [ STEM < "contenido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contenido_n_rel" ] ]. contentamiento_n1 := n_ppcomp_uncount_le & [ STEM < "contentamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contentamiento_n_rel" ] ]. contentar_v1 := v_intr_io*_le & [ STEM < "contentar" >, SYNSEM.LKEYS.KEYREL.PRED "_contentar_v_rel" ]. contentar_v2 := v_intr_mrkd_np_le & [ STEM < "contentar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contentar_v_rel" ] ]. contentar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "contentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_contentar_v_rel" ] ] ]. contentar_v4 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "contentar" >, SYNSEM.LKEYS [ --COMPKEY con_sel_or_indp_rel, KEYREL.PRED "_contentar_v_rel" ] ]. contentar_v5 := v_pron_intr_mrkd_np_le & [ STEM < "contentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_contentar_v_rel" ] ] ]. contentar_v6 := v_pron_intr_mrkd_np_sym_le & [ STEM < "contentar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contentar_v_rel" ] ]. contentar_v7 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "contentar" >, SYNSEM.LKEYS.KEYREL.PRED "_contentar_v_rel" ]. contento_a1 := a_qual_trans*_estar_le & [ STEM < "contento" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_contento_a_rel" ] ]. contento_a2 := a_qual_cp_prop_fin_estar_le & [ STEM < "contento" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_contento_a_rel" ] ]. contento_a3 := a_qual_cp_ques_estar_le & [ STEM < "contento" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_contento_a_rel" ] ]. contento_a4 := a_sctrl_estar_le & [ STEM < "contento" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_contento_a_rel" ] ]. contento_n1 := n_intr_uncount_le & [ STEM < "contento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contento_n_rel" ] ]. contertuliano_n1 := n_intr_count_le & [ STEM < "contertuliano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contertuliano_n_rel" ] ]. contertulio_n1 := n_intr_count_le & [ STEM < "contertulio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contertulio_n_rel" ] ]. contestabilidad_n1 := n_trans_le & [ STEM < "contestabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_contestabilidad_n_rel" ]. contestación_n1 := n_trans_le & [ STEM < "contestación" >, SYNSEM.LKEYS.KEYREL.PRED "_contestación_n_rel" ]. contestador_n1 := n_intr_count_le & [ STEM < "contestador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_contestador_n_rel" ] ]. contestar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "contestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_contestar_v_rel" ] ]. contestar_v2 := v_ditrans_cp_ques_le & [ STEM < "contestar" >, SYNSEM.LKEYS.KEYREL.PRED "_contestar_v_rel" ]. contestar_v3 := v_ditrans*_le & [ STEM < "contestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_contestar_v_rel" ] ]. contestatario_n1 := n_intr_count_le & [ STEM < "contestatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contestatario_n_rel" ] ]. contexto_n1 := n_intr_count_le & [ STEM < "contexto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contexto_n_rel" ] ]. contextual_a1 := a_rel_nonprd_intr_le & [ STEM < "contextual" >, SYNSEM.LKEYS.KEYREL.PRED "_contextual_a_rel" ]. contextualización_n1 := n_trans_le & [ STEM < "contextualización" >, SYNSEM.LKEYS.KEYREL.PRED "_contextualización_n_rel" ]. contextualizar_v := v_trans_np_le & [ STEM < "contextualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_contextualizar_v_rel" ]. contextualmente_x1 := av_i_spr_le & [ STEM < "contextualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_contextualmente_x_rel" ]. contextura_n1 := n_intr_count_le & [ STEM < "contextura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contextura_n_rel" ] ]. contienda_n1 := n_intr_count_le & [ STEM < "contienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contienda_n_rel" ] ]. contigo_p := pr_pers_obl_le & [ STEM < "contigo" > ]. contiguamente_x1 := av_i_spr_le & [ STEM < "contiguamente" >, SYNSEM.LKEYS.KEYREL.PRED "_contiguamente_x_rel" ]. contiguo_a1 := a_qual_trans_ser_le & [ STEM < "contiguo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contiguo_a_rel" ] ]. contigüidad_n1 := n_intr_uncount_le & [ STEM < "contigüidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contigüidad_n_rel" ] ]. continencia_n1 := n_intr_uncount_le & [ STEM < "continencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_continencia_n_rel" ] ]. continental_a1 := a_rel_nonprd_intr_le & [ STEM < "continental" >, SYNSEM.LKEYS.KEYREL.PRED "_continental_a_rel" ]. continentalidad_n1 := n_intr_uncount_le & [ STEM < "continentalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_continentalidad_n_rel" ] ]. continentalmente_x1 := av_i_le & [ STEM < "continentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_continentalmente_x_rel" ]. continente_n1 := n_intr_count_le & [ STEM < "continente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_continente_n_rel" ] ]. contingencia_n1 := n_intr_count_le & [ STEM < "contingencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contingencia_n_rel" ] ]. contingente_a1 := a_rel_nonprd_intr_le & [ STEM < "contingente" >, SYNSEM.LKEYS.KEYREL.PRED "_contingente_a_rel" ]. contingente_n1 := n_intr_count_le & [ STEM < "contingente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contingente_n_rel" ] ]. continuación_n1 := n_trans_le & [ STEM < "continuación" >, SYNSEM.LKEYS.KEYREL.PRED "_continuación_n_rel" ]. continuador_n1 := n_intr_count_le & [ STEM < "continuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_continuador_n_rel" ] ]. continuamente_x1 := av_i_le & [ STEM < "continuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_continuamente_x_rel" ]. continuidad_n1 := n_intr_mass_le & [ STEM < "continuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_continuidad_n_rel" ] ]. continuismo_n1 := n_intr_uncount_le & [ STEM < "continuismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_continuismo_n_rel" ] ]. continuista_a1 := a_rel_nonprd_intr_le & [ STEM < "continuista" >, SYNSEM.LKEYS.KEYREL.PRED "_continuista_a_rel" ]. continuo_a1 := a_qual_intr_scopal_le & [ STEM < "continuo" >, SYNSEM.LKEYS.KEYREL.PRED "_continuo_a_rel" ]. contoneo_n1 := n_event-result_intr_le & [ STEM < "contoneo" >, SYNSEM.LKEYS.KEYREL.PRED "_contoneo_n_rel" ]. contorneamiento_n1 := n_trans_le & [ STEM < "contorneamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_contorneamiento_n_rel" ]. contorneo_n1 := n_trans_le & [ STEM < "contorneo" >, SYNSEM.LKEYS.KEYREL.PRED "_contorneo_n_rel" ]. contornita_n1 := n_intr_count_le & [ STEM < "contornita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_contornita_n_rel" ] ]. contorno_n1 := n_intr_uncount_pl_le & [ STEM < "contorno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contorno_n_rel" ] ]. contorsionismo_n1 := n_intr_uncount_le & [ STEM < "contorsionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contorsionismo_n_rel" ] ]. contorsionista_n1 := n_intr_count_le & [ STEM < "contorsionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contorsionista_n_rel" ] ]. contorsión_n1 := n_intr_count_le & [ STEM < "contorsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contorsión_n_rel" ] ]. contra_mrk_np := p_mrk_np_le & [ STEM < "contra" >, SYNSEM.LKEYS.KEYREL.PRED _contra_p_sel_rel ]. contra_n1 := n_intr_count_le & [ STEM < "contra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contra_n_rel" ] ]. contra_p_nmod := p_nmod_le & [ STEM < "contra" >, SYNSEM.LKEYS.KEYREL.PRED _contra_p_rel ]. contra_p_vmod := p_vmod_le & [ STEM < "contra" >, SYNSEM.LKEYS.KEYREL.PRED _contra_p_rel ]. contra_reloj_x1 := av_i_le & [ STEM < "contra_reloj" >, SYNSEM.LKEYS.KEYREL.PRED "_contra_reloj_x_rel" ]. contra_rembolso_x1 := av_i_le & [ STEM < "contra_rembolso" >, SYNSEM.LKEYS.KEYREL.PRED "_contra_rembolso_x_rel" ]. contra_viento_y_marea_x1 := av_i_le & [ STEM < "contra_viento_y_marea" >, SYNSEM.LKEYS.KEYREL.PRED "_contra_viento_y_marea_x_rel" ]. contraacción_n1 := n_result_intr_le & [ STEM < "contraacción" >, SYNSEM.LKEYS.KEYREL.PRED "_contraacción_n_rel" ]. contraantena_n1 := n_intr_count_le & [ STEM < "contraantena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contraantena_n_rel" ] ]. contraapelación_n1 := n_result_intr_le & [ STEM < "contraapelación" >, SYNSEM.LKEYS.KEYREL.PRED "_contraapelación_n_rel" ]. contraargumento_n1 := n_intr_count_le & [ STEM < "contraargumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraargumento_n_rel" ] ]. contraatacar_v := v_trans_np*_le & [ STEM < "contraatacar" >, SYNSEM.LKEYS.KEYREL.PRED "_contraatacar_v_rel" ]. contraataque_n1 := n_trans_le & [ STEM < "contraataque" >, SYNSEM.LKEYS.KEYREL.PRED "_contraataque_n_rel" ]. contrabajo_n1 := n_intr_count_le & [ STEM < "contrabajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrabajo_n_rel" ] ]. contrabalance_n1 := n_trans_le & [ STEM < "contrabalance" >, SYNSEM.LKEYS.KEYREL.PRED "_contrabalance_n_rel" ]. contrabalanza_n1 := n_intr_count_le & [ STEM < "contrabalanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrabalanza_n_rel" ] ]. contrabandista_n1 := n_intr_count_le & [ STEM < "contrabandista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrabandista_n_rel" ] ]. contrabando_n1 := n_intr_uncount_le & [ STEM < "contrabando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrabando_n_rel" ] ]. contracambio_n1 := n_intr_count_le & [ STEM < "contracambio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contracambio_n_rel" ] ]. contracancha_n1 := n_intr_count_le & [ STEM < "contracancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contracancha_n_rel" ] ]. contracatalina_n1 := n_intr_count_le & [ STEM < "contracatalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contracatalina_n_rel" ] ]. contracción_n1 := n_trans_le & [ STEM < "contracción" >, SYNSEM.LKEYS.KEYREL.PRED "_contracción_n_rel" ]. contracepción_n1 := n_result_intr_le & [ STEM < "contracepción" >, SYNSEM.LKEYS.KEYREL.PRED "_contracepción_n_rel" ]. contrachapado_n1 := n_trans_le & [ STEM < "contrachapado" >, SYNSEM.LKEYS.KEYREL.PRED "_contrachapado_n_rel" ]. contracorriente_n1 := n_intr_uncount_le & [ STEM < "contracorriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contracorriente_n_rel" ] ]. contractivo_a1 := a_rel_nonprd_intr_le & [ STEM < "contractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_contractivo_a_rel" ]. contractual_a1 := a_rel_nonprd_intr_le & [ STEM < "contractual" >, SYNSEM.LKEYS.KEYREL.PRED "_contractual_a_rel" ]. contractualmente_x1 := av_i_spr_le & [ STEM < "contractualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_contractualmente_x_rel" ]. contractura_n1 := n_intr_count_le & [ STEM < "contractura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contractura_n_rel" ] ]. contracubierta_n1 := n_intr_count_le & [ STEM < "contracubierta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contracubierta_n_rel" ] ]. contracuenta_n1 := n_intr_count_le & [ STEM < "contracuenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contracuenta_n_rel" ] ]. contracultura_n1 := n_intr_count_le & [ STEM < "contracultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contracultura_n_rel" ] ]. contracuneta_n1 := n_intr_count_le & [ STEM < "contracuneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contracuneta_n_rel" ] ]. contracurva_n1 := n_intr_count_le & [ STEM < "contracurva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contracurva_n_rel" ] ]. contradanza_n1 := n_intr_count_le & [ STEM < "contradanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contradanza_n_rel" ] ]. contradecir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "contradecir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contradecir_v_rel" ] ]. contradecir_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "contradecir" >, SYNSEM.LKEYS.KEYREL.PRED "_contradecir_v_rel" ]. contradecir_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "contradecir" >, SYNSEM.LKEYS.KEYREL.PRED "_contradecir_v_rel" ]. contradecir_v4 := v_trans_cp_prop_fin_sub_le & [ STEM < "contradecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_contradecir_v_rel" ] ]. contradecir_v5 := v_trans_np_le & [ STEM < "contradecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_contradecir_v_rel" ] ]. contradeclaración_n1 := n_trans_le & [ STEM < "contradeclaración" >, SYNSEM.LKEYS.KEYREL.PRED "_contradeclaración_n_rel" ]. contrademanda_n1 := n_intr_uncount_le & [ STEM < "contrademanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrademanda_n_rel" ] ]. contrademandante_n1 := n_intr_count_le & [ STEM < "contrademandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrademandante_n_rel" ] ]. contrademostración_n1 := n_trans_le & [ STEM < "contrademostración" >, SYNSEM.LKEYS.KEYREL.PRED "_contrademostración_n_rel" ]. contradenuncia_n1 := n_intr_count_le & [ STEM < "contradenuncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contradenuncia_n_rel" ] ]. contraderiva_n1 := n_intr_uncount_le & [ STEM < "contraderiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraderiva_n_rel" ] ]. contradicción_n1 := n_trans_le & [ STEM < "contradicción" >, SYNSEM.LKEYS.KEYREL.PRED "_contradicción_n_rel" ]. contradictoriamente_x1 := av_i_spr_le & [ STEM < "contradictoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_contradictoriamente_x_rel" ]. contradictorio_a1 := a_qual_intr_scopal_le & [ STEM < "contradictorio" >, SYNSEM.LKEYS.KEYREL.PRED "_contradictorio_a_rel" ]. contradique_n1 := n_intr_count_le & [ STEM < "contradique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contradique_n_rel" ] ]. contraejemplo_n1 := n_intr_count_le & [ STEM < "contraejemplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraejemplo_n_rel" ] ]. contraer_v1 := v_pron_intr_le & [ STEM < "contraer" >, SYNSEM.LKEYS.KEYREL.PRED "_contraer_v_rel" ]. contraer_v2 := v_trans_np_le & [ STEM < "contraer" >, SYNSEM.LKEYS.KEYREL.PRED "_contraer_v_rel" ]. contraescarpa_n1 := n_intr_count_le & [ STEM < "contraescarpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contraescarpa_n_rel" ] ]. contraespeculación_n1 := n_trans_le & [ STEM < "contraespeculación" >, SYNSEM.LKEYS.KEYREL.PRED "_contraespeculación_n_rel" ]. contraespionaje_n1 := n_intr_uncount_le & [ STEM < "contraespionaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraespionaje_n_rel" ] ]. contrafachada_n1 := n_intr_count_le & [ STEM < "contrafachada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrafachada_n_rel" ] ]. contrafianza_n1 := n_intr_count_le & [ STEM < "contrafianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrafianza_n_rel" ] ]. contrafuego_n1 := n_intr_count_le & [ STEM < "contrafuego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrafuego_n_rel" ] ]. contrafuerte_n1 := n_intr_count_le & [ STEM < "contrafuerte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrafuerte_n_rel" ] ]. contrafuga_n1 := n_intr_uncount_pl_le & [ STEM < "contrafuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrafuga_n_rel" ] ]. contragolpe_n1 := n_intr_count_le & [ STEM < "contragolpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contragolpe_n_rel" ] ]. contraguerrilla_n1 := n_intr_count_le & [ STEM < "contraguerrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_contraguerrilla_n_rel" ] ]. contrahacer_v1 := v_trans_np_caus_le & [ STEM < "contrahacer" >, SYNSEM.LKEYS.KEYREL.PRED "_contrahacer_v_rel" ]. contrahoja_n1 := n_intr_count_le & [ STEM < "contrahoja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrahoja_n_rel" ] ]. contrahuella_n1 := n_intr_count_le & [ STEM < "contrahuella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrahuella_n_rel" ] ]. contrainmunoelectroforesis_n1 := n_intr_uncount_le & [ STEM < "contrainmunoelectroforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrainmunoelectroforesis_n_rel" ] ]. contrainterrogatorio_n1 := n_trans_le & [ STEM < "contrainterrogatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_contrainterrogatorio_n_rel" ]. contralateral_a1 := a_rel_nonprd_intr_le & [ STEM < "contralateral" >, SYNSEM.LKEYS.KEYREL.PRED "_contralateral_a_rel" ]. contralmirante_n1 := n_intr_count_le & [ STEM < "contralmirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contralmirante_n_rel" ] ]. contralto_n1 := n_intr_count_le & [ STEM < "contralto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contralto_n_rel" ] ]. contraluz_n1 := n_intr_uncount_le & [ STEM < "contraluz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraluz_n_rel" ] ]. contramaestre_n1 := n_intr_count_le & [ STEM < "contramaestre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contramaestre_n_rel" ] ]. contramarca_n1 := n_intr_count_le & [ STEM < "contramarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contramarca_n_rel" ] ]. contramarcha_n1 := n_result_intr_le & [ STEM < "contramarcha" >, SYNSEM.LKEYS.KEYREL.PRED "_contramarcha_n_rel" ]. contramaterial_n1 := n_intr_count_le & [ STEM < "contramaterial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contramaterial_n_rel" ] ]. contramedida_n1 := n_intr_count_le & [ STEM < "contramedida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contramedida_n_rel" ] ]. contramuelle_n1 := n_intr_count_le & [ STEM < "contramuelle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contramuelle_n_rel" ] ]. contramuralla_n1 := n_intr_count_le & [ STEM < "contramuralla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contramuralla_n_rel" ] ]. contramuro_n1 := n_intr_count_le & [ STEM < "contramuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contramuro_n_rel" ] ]. contranatural_a1 := a_rel_nonprd_intr_le & [ STEM < "contranatural" >, SYNSEM.LKEYS.KEYREL.PRED "_contranatural_a_rel" ]. contraofensiva_n1 := n_intr_count_le & [ STEM < "contraofensiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraofensiva_n_rel" ] ]. contraoferta_n1 := n_intr_count_le & [ STEM < "contraoferta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraoferta_n_rel" ] ]. contraorden_n1 := n_intr_count_le & [ STEM < "contraorden" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraorden_n_rel" ] ]. contraparte_n1 := n_intr_count_le & [ STEM < "contraparte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraparte_n_rel" ] ]. contrapartida_n1 := n_intr_count_le & [ STEM < "contrapartida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrapartida_n_rel" ] ]. contrapedal_n1 := n_intr_count_le & [ STEM < "contrapedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrapedal_n_rel" ] ]. contrapesar_v := v_trans_np_le & [ STEM < "contrapesar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrapesar_v_rel" ]. contrapeso_n1 := n_intr_count_le & [ STEM < "contrapeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_contrapeso_n_rel" ] ]. contraplaca_n1 := n_intr_count_le & [ STEM < "contraplaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contraplaca_n_rel" ] ]. contraplano_n1 := n_intr_count_le & [ STEM < "contraplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraplano_n_rel" ] ]. contraponer_v := v_trans_np_mrkd_np_caus_le & [ STEM < "contraponer" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_contraponer_v_rel" ] ]. contraposición_n1 := n_trans_le & [ STEM < "contraposición" >, SYNSEM.LKEYS.KEYREL.PRED "_contraposición_n_rel" ]. contrapozo_n1 := n_intr_count_le & [ STEM < "contrapozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrapozo_n_rel" ] ]. contrapresa_n1 := n_intr_count_le & [ STEM < "contrapresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrapresa_n_rel" ] ]. contraprestación_n1 := n_intr_count_le & [ STEM < "contraprestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraprestación_n_rel" ] ]. contraproducente_a1 := a_qual_intr_scopal_le & [ STEM < "contraproducente" >, SYNSEM.LKEYS.KEYREL.PRED "_contraproducente_a_rel" ]. contrapropuesta_n1 := n_intr_count_le & [ STEM < "contrapropuesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrapropuesta_n_rel" ] ]. contraprueba_n1 := n_intr_count_le & [ STEM < "contraprueba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraprueba_n_rel" ] ]. contrapublicidad_n1 := n_intr_count_le & [ STEM < "contrapublicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrapublicidad_n_rel" ] ]. contrapuerta_n1 := n_intr_count_le & [ STEM < "contrapuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrapuerta_n_rel" ] ]. contrapuntista_n1 := n_intr_count_le & [ STEM < "contrapuntista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrapuntista_n_rel" ] ]. contrapunto_n1 := n_intr_count_le & [ STEM < "contrapunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrapunto_n_rel" ] ]. contrapunzón_n1 := n_intr_count_le & [ STEM < "contrapunzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrapunzón_n_rel" ] ]. contrariamente_x1 := av_i_spr_le & [ STEM < "contrariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_contrariamente_x_rel" ]. contrariar_v1 := v_intr_io*_le & [ STEM < "contrariar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrariar_v_rel" ]. contrariar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "contrariar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrariar_v_rel" ]. contrariar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "contrariar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrariar_v_rel" ]. contrariar_v4 := v_trans_np_le & [ STEM < "contrariar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_contrariar_v_rel" ] ]. contrariedad_n1 := n_intr_count_le & [ STEM < "contrariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrariedad_n_rel" ] ]. contrario_a1 := a_qual_trans_ser_le & [ STEM < "contrario" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contrario_a_rel" ] ]. contrario_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "contrario" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contrario_a_rel" ] ]. contrario_a3 := a_qual_cp_ques_ser_le & [ STEM < "contrario" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contrario_a_rel" ] ]. contrario_n1 := n_intr_count_le & [ STEM < "contrario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_contrario_n_rel" ] ]. contrarreacción_n1 := n_result_intr_le & [ STEM < "contrarreacción" >, SYNSEM.LKEYS.KEYREL.PRED "_contrarreacción_n_rel" ]. contrarreloj_n1 := n_intr_uncount_le & [ STEM < "contrarreloj" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrarreloj_n_rel" ] ]. contrarrelojista_n1 := n_intr_count_le & [ STEM < "contrarrelojista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrarrelojista_n_rel" ] ]. contrarrestar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "contrarrestar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrarrestar_v_rel" ]. contrarrestar_v2 := v_trans_np_le & [ STEM < "contrarrestar" >, SYNSEM.LKEYS.KEYREL.PRED "_contrarrestar_v_rel" ]. contrarrevolucionario_a1 := a_rel_nonprd_intr_le & [ STEM < "contrarrevolucionario" >, SYNSEM.LKEYS.KEYREL.PRED "_contrarrevolucionario_a_rel" ]. contrarrevolución_n1 := n_intr_count_le & [ STEM < "contrarrevolución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrarrevolución_n_rel" ] ]. contrarrotativo_a1 := a_rel_nonprd_intr_le & [ STEM < "contrarrotativo" >, SYNSEM.LKEYS.KEYREL.PRED "_contrarrotativo_a_rel" ]. contrasalida_n1 := n_intr_count_le & [ STEM < "contrasalida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrasalida_n_rel" ] ]. contraseguro_n1 := n_intr_uncount_le & [ STEM < "contraseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraseguro_n_rel" ] ]. contrasello_n1 := n_intr_count_le & [ STEM < "contrasello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contrasello_n_rel" ] ]. contrasentido_n1 := n_intr_count_le & [ STEM < "contrasentido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrasentido_n_rel" ] ]. contraseña_n1 := n_intr_count_le & [ STEM < "contraseña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_contraseña_n_rel" ] ]. contrastabilidad_n1 := n_intr_uncount_le & [ STEM < "contrastabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrastabilidad_n_rel" ] ]. contrastable_a1 := a_qual_trans*_ser_le & [ STEM < "contrastable" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contrastable_a_rel" ] ]. contrastablemente_x1 := av_i_spr_le & [ STEM < "contrastablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_contrastablemente_x_rel" ]. contrastación_n1 := n_trans_le & [ STEM < "contrastación" >, SYNSEM.LKEYS.KEYREL.PRED "_contrastación_n_rel" ]. contrastar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "contrastar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_contrastar_v_rel" ] ]. contraste_n1 := n_trans_le & [ STEM < "contraste" >, SYNSEM.LKEYS.KEYREL.PRED "_contraste_n_rel" ]. contrata_n1 := n_intr_count_le & [ STEM < "contrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrata_n_rel" ] ]. contratable_a1 := a_rel_nonprd_intr_le & [ STEM < "contratable" >, SYNSEM.LKEYS.KEYREL.PRED "_contratable_a_rel" ]. contratación_n1 := n_trans_le & [ STEM < "contratación" >, SYNSEM.LKEYS.KEYREL.PRED "_contratación_n_rel" ]. contratalud_n1 := n_intr_count_le & [ STEM < "contratalud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contratalud_n_rel" ] ]. contratante_a1 := a_rel_nonprd_intr_le & [ STEM < "contratante" >, SYNSEM.LKEYS.KEYREL.PRED "_contratante_a_rel" ]. contratante_n1 := n_intr_count_le & [ STEM < "contratante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contratante_n_rel" ] ]. contratar_v := v_trans_np_le & [ STEM < "contratar" >, SYNSEM.LKEYS.KEYREL.PRED "_contratar_v_rel" ]. contratiempo_n1 := n_intr_count_le & [ STEM < "contratiempo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contratiempo_n_rel" ] ]. contratista_n1 := n_intr_count_le & [ STEM < "contratista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contratista_n_rel" ] ]. contrato_n1 := n_intr_count_le & [ STEM < "contrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_contrato_n_rel" ] ]. contratorpedero_n1 := n_intr_count_le & [ STEM < "contratorpedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_contratorpedero_n_rel" ] ]. contratransferencia_n1 := n_intr_count_le & [ STEM < "contratransferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contratransferencia_n_rel" ] ]. contratrinchera_n1 := n_intr_count_le & [ STEM < "contratrinchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_contratrinchera_n_rel" ] ]. contratuerca_n1 := n_intr_count_le & [ STEM < "contratuerca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contratuerca_n_rel" ] ]. contravalor_n1 := n_intr_count_le & [ STEM < "contravalor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contravalor_n_rel" ] ]. contravariante_n1 := n_intr_count_le & [ STEM < "contravariante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contravariante_n_rel" ] ]. contravarianza_n1 := n_intr_uncount_pl_le & [ STEM < "contravarianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contravarianza_n_rel" ] ]. contravención_n1 := n_result_intr_le & [ STEM < "contravención" >, SYNSEM.LKEYS.KEYREL.PRED "_contravención_n_rel" ]. contravenir_v := v_trans_np_le & [ STEM < "contravenir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_contravenir_v_rel" ] ]. contraventana_n1 := n_intr_count_le & [ STEM < "contraventana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contraventana_n_rel" ] ]. contraventor_n1 := n_subj-nom_le & [ STEM < "contraventor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contraventor_n_rel" ] ]. contraviento_n1 := n_intr_uncount_pl_le & [ STEM < "contraviento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contraviento_n_rel" ] ]. contrayente_n1 := n_intr_count_le & [ STEM < "contrayente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrayente_n_rel" ] ]. contraángulo_n1 := n_intr_count_le & [ STEM < "contraángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_contraángulo_n_rel" ] ]. contraído_a1 := a_qual_intr_estar_le & [ STEM < "contraído" >, SYNSEM.LKEYS.KEYREL.PRED "_contraído_a_rel" ]. contribución_n1 := n_trans_le & [ STEM < "contribución" >, SYNSEM.LKEYS.KEYREL.PRED "_contribución_n_rel" ]. contribuir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "contribuir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contribuir_v_rel" ] ]. contribuir_v2 := v_intr_mrkd_np_le & [ STEM < "contribuir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contribuir_v_rel" ] ]. contributivo_a1 := a_qual_trans*_ser_le & [ STEM < "contributivo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_contributivo_a_rel" ] ]. contribuyente_a1 := a_rel_nonprd_intr_le & [ STEM < "contribuyente" >, SYNSEM.LKEYS.KEYREL.PRED "_contribuyente_a_rel" ]. contribuyente_n1 := n_intr_count_le & [ STEM < "contribuyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contribuyente_n_rel" ] ]. contrición_n1 := n_intr_uncount_le & [ STEM < "contrición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contrición_n_rel" ] ]. contrincante_n1 := n_intr_count_le & [ STEM < "contrincante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_contrincante_n_rel" ] ]. contrito_a1 := a_qual_intr_estar_le & [ STEM < "contrito" >, SYNSEM.LKEYS.KEYREL.PRED "_contrito_a_rel" ]. control_n1 := n_trans_le & [ STEM < "control" >, SYNSEM.LKEYS.KEYREL.PRED "_control_n_rel" ]. controlabilidad_n1 := n_intr_uncount_le & [ STEM < "controlabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_controlabilidad_n_rel" ] ]. controlable_a1 := a_qual_intr_scopal_le & [ STEM < "controlable" >, SYNSEM.LKEYS.KEYREL.PRED "_controlable_a_rel" ]. controlador_a1 := a_rel_nonprd_intr_le & [ STEM < "controlador" >, SYNSEM.LKEYS.KEYREL.PRED "_controlador_a_rel" ]. controlador_n1 := n_intr_count_le & [ STEM < "controlador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_controlador_n_rel" ] ]. controlador_n2 := n_subj-nom_le & [ STEM < "controlador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_controlador_n_rel" ] ]. controlar_v1 := v_trans_np_caus_le & [ SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_controlar_v_rel" ] ]. controlar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "controlar" >, SYNSEM.LKEYS.KEYREL.PRED "_controlar_v_rel" ]. controlar_v3 := v_trans_cp_semi_ques_le & [ STEM < "controlar" >, SYNSEM.LKEYS.KEYREL.PRED "_controlar_v_rel" ]. controversia_n1 := n_intr_mass_le & [ STEM < "controversia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_controversia_n_rel" ] ]. contráctil_a1 := a_rel_nonprd_intr_le & [ STEM < "contráctil" >, SYNSEM.LKEYS.KEYREL.PRED "_contráctil_a_rel" ]. contubernio_n1 := n_intr_uncount_pl_le & [ STEM < "contubernio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contubernio_n_rel" ] ]. contumacia_n1 := n_intr_uncount_pl_le & [ STEM < "contumacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contumacia_n_rel" ] ]. contumaz_a1 := a_qual_intr_ser_le & [ STEM < "contumaz" >, SYNSEM.LKEYS.KEYREL.PRED "_contumaz_a_rel" ]. contumazmente_x1 := av_i_spr_le & [ STEM < "contumazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_contumazmente_x_rel" ]. contumelia_n1 := n_intr_uncount_pl_le & [ STEM < "contumelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contumelia_n_rel" ] ]. contundencia_n1 := n_ppcomp_mass_le & [ STEM < "contundencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contundencia_n_rel" ] ]. contundente_a1 := a_qual_intr_scopal_le & [ STEM < "contundente" >, SYNSEM.LKEYS.KEYREL.PRED "_contundente_a_rel" ]. contundentemente_x1 := av_i_spr_le & [ STEM < "contundentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_contundentemente_x_rel" ]. contusión_n1 := n_intr_count_le & [ STEM < "contusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_contusión_n_rel" ] ]. conurbación_n1 := n_intr_count_le & [ STEM < "conurbación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conurbación_n_rel" ] ]. convalecencia_n1 := n_intr_uncount_pl_le & [ STEM < "convalecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convalecencia_n_rel" ] ]. convalecer_v := v_unacc_lcomp_loc*_le & [ STEM < "convalecer" >, SYNSEM.LKEYS.KEYREL.PRED "_convalecer_v_rel" ]. convaleciente_a1 := a_qual_intr_estar_le & [ STEM < "convaleciente" >, SYNSEM.LKEYS.KEYREL.PRED "_convaleciente_a_rel" ]. convalidación_n1 := n_trans_le & [ STEM < "convalidación" >, SYNSEM.LKEYS.KEYREL.PRED "_convalidación_n_rel" ]. convalidar_v := v_ditrans*_le & [ STEM < "convalidar" >, SYNSEM.LKEYS.KEYREL.PRED "_convalidar_v_rel" ]. convección_n1 := n_intr_uncount_le & [ STEM < "convección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convección_n_rel" ] ]. convectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "convectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_convectivo_a_rel" ]. convector_n1 := n_intr_count_le & [ STEM < "convector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convector_n_rel" ] ]. convencer_v1 := v_intr_io*_le & [ STEM < "convencer" >, SYNSEM.LKEYS.KEYREL.PRED "_convencer_v_rel" ]. convencer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "convencer" >, SYNSEM.LKEYS.KEYREL.PRED "_convencer_v_rel" ]. convencer_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "convencer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convencer_v_rel" ] ] ]. convencer_v4 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_caus_le & [ STEM < "convencer" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_convencer_v_rel" ] ] ]. convencimiento_n1 := n_trans_le & [ STEM < "convencimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_convencimiento_n_rel" ]. convencional_a1 := a_qual_intr_scopal_le & [ STEM < "convencional" >, SYNSEM.LKEYS.KEYREL.PRED "_convencional_a_rel" ]. convencionalismo_n1 := n_intr_uncount_le & [ STEM < "convencionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convencionalismo_n_rel" ] ]. convencionalista_a1 := a_qual_intr_ser_le & [ STEM < "convencionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_convencionalista_a_rel" ]. convencionalmente_x1 := av_i_spr_le & [ STEM < "convencionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_convencionalmente_x_rel" ]. convención_n1 := n_intr_count_le & [ STEM < "convención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convención_n_rel" ] ]. conveniencia_n1 := n_intr_mass_le & [ STEM < "conveniencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conveniencia_n_rel" ] ]. conveniente_a1 := a_qual_intr_scopal_le & [ STEM < "conveniente" >, SYNSEM.LKEYS.KEYREL.PRED "_conveniente_a_rel" ]. convenientemente_x1 := av_i_spr_le & [ STEM < "convenientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_convenientemente_x_rel" ]. convenio_n1 := n_intr_count_le & [ STEM < "convenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_convenio_n_rel" ] ]. convenir_v1 := v_intr_io*_le & [ STEM < "convenir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_convenir_v_rel" ] ]. convenir_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "convenir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_convenir_v_rel" ] ] ]. convenir_v3 := v_intr_mrkd_np_le & [ STEM < "convenir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_convenir_v_rel" ] ] ]. convenir_v4 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "convenir" >, SYNSEM.LKEYS.KEYREL.PRED "_convenir_v_rel" ]. convenir_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "convenir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_convenir_v_rel" ] ]. convenir_v7 := v_trans_np_mrkd_np_le & [ STEM < "convenir" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_convenir_v_rel" ] ] ]. convento_n1 := n_intr_count_le & [ STEM < "convento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_convento_n_rel" ] ]. convergencia_n1 := n_event-result_intr_le & [ STEM < "convergencia" >, SYNSEM.LKEYS.KEYREL.PRED "_convergencia_n_rel" ]. convergente_a1 := a_qual_trans_ser_le & [ STEM < "convergente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_convergente_a_rel" ] ]. convergentemente_x1 := av_i_spr_le & [ STEM < "convergentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_convergentemente_x_rel" ]. converger_v := v_unacc_lcomp_loc*_le & [ STEM < "converger" >, SYNSEM.LKEYS.KEYREL.PRED "_converger_v_rel" ]. convergir_v := v_unacc_lcomp_loc*_le & [ STEM < "convergir" >, SYNSEM.LKEYS.KEYREL.PRED "_convergir_v_rel" ]. conversacional_a1 := a_rel_nonprd_intr_le & [ STEM < "conversacional" >, SYNSEM.LKEYS.KEYREL.PRED "_conversacional_a_rel" ]. conversación_n1 := n_result_intr_le & [ STEM < "conversación" >, SYNSEM.LKEYS.KEYREL.PRED "_conversación_n_rel" ]. conversador_a1 := a_qual_intr_ser_le & [ STEM < "conversador" >, SYNSEM.LKEYS.KEYREL.PRED "_conversador_a_rel" ]. conversar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "conversar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_conversar_v_rel" ] ] ]. conversión_n1 := n_result_intr_ppcomp_le & [ STEM < "conversión" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_conversión_n_rel" ] ]. converso_n1 := n_intr_count_le & [ STEM < "converso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_converso_n_rel" ] ]. conversor_n1 := n_intr_count_le & [ STEM < "conversor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conversor_n_rel" ] ]. convertibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "convertibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convertibilidad_n_rel" ] ]. convertible_a1 := a_rel_nonprd_intr_le & [ STEM < "convertible" >, SYNSEM.LKEYS.KEYREL.PRED "_convertible_a_rel" ]. convertidor_a1 := a_rel_nonprd_intr_le & [ STEM < "convertidor" >, SYNSEM.LKEYS.KEYREL.PRED "_convertidor_a_rel" ]. convertidor_n1 := n_intr_count_le & [ STEM < "convertidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_convertidor_n_rel" ] ]. convertir_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "convertir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_convertir_v_rel" ] ]. convertir_v2 := v_trans_np_mrkd_np_caus_le & [ STEM < "convertir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_convertir_v_rel" ] ]. convertir_v3 := v_trans_np_mrkd_np_le & [ STEM < "convertir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_convertir_v_rel" ] ]. convexidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "convexidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convexidad_n_rel" ] ]. convexo_a1 := a_qual_intr_ser_le & [ STEM < "convexo" >, SYNSEM.LKEYS.KEYREL.PRED "_convexo_a_rel" ]. convexocóncavamente_x1 := av_i_spr_le & [ STEM < "convexocóncavamente" >, SYNSEM.LKEYS.KEYREL.PRED "_convexocóncavamente_x_rel" ]. convexocóncavo_a1 := a_qual_intr_ser_le & [ STEM < "convexocóncavo" >, SYNSEM.LKEYS.KEYREL.PRED "_convexocóncavo_a_rel" ]. convicción_n1 := n_trans_le & [ STEM < "convicción" >, SYNSEM.LKEYS.KEYREL.PRED "_convicción_n_rel" ]. convicto_a1 := a_rel_nonprd_intr_le & [ STEM < "convicto" >, SYNSEM.LKEYS.KEYREL.PRED "_convicto_a_rel" ]. convidado_n1 := n_intr_count_le & [ STEM < "convidado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_convidado_n_rel" ] ]. convidar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "convidar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convidar_v_rel" ] ] ]. convidar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "convidar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convidar_v_rel" ] ] ]. convidar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "convidar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convidar_v_rel" ] ] ]. convincente_a1 := a_qual_intr_scopal_le & [ STEM < "convincente" >, SYNSEM.LKEYS.KEYREL.PRED "_convincente_a_rel" ]. convincentemente_x1 := av_i_spr_le & [ STEM < "convincentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_convincentemente_x_rel" ]. convite_n1 := n_trans_le & [ STEM < "convite" >, SYNSEM.LKEYS.KEYREL.PRED "_convite_n_rel" ]. convivencia_n1 := n_result_intr_le & [ STEM < "convivencia" >, SYNSEM.LKEYS.KEYREL.PRED "_convivencia_n_rel" ]. convivencial_a1 := a_rel_nonprd_intr_le & [ STEM < "convivencial" >, SYNSEM.LKEYS.KEYREL.PRED "_convivencial_a_rel" ]. conviviente_a1 := a_rel_nonprd_intr_le & [ STEM < "conviviente" >, SYNSEM.LKEYS.KEYREL.PRED "_conviviente_a_rel" ]. convivir_v := v_intr_mrkd_np_sym_le & [ STEM < "convivir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_convivir_v_rel" ] ]. convocante_a1 := a_rel_nonprd_intr_le & [ STEM < "convocante" >, SYNSEM.LKEYS.KEYREL.PRED "_convocante_a_rel" ]. convocante_n1 := n_intr_count_le & [ STEM < "convocante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_convocante_n_rel" ] ]. convocar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "convocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convocar_v_rel" ] ] ]. convocar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "convocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convocar_v_rel" ] ] ]. convocar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "convocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_convocar_v_rel" ] ] ]. convocatoria_n1 := n_intr_count_le & [ STEM < "convocatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convocatoria_n_rel" ] ]. convoy_n1 := n_intr_coll_le & [ STEM < "convoy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_convoy_n_rel" ] ]. convulsionar_v := v_trans_np_caus_le & [ STEM < "convulsionar" >, SYNSEM.LKEYS.KEYREL.PRED "_convulsionar_v_rel" ]. convulsivamente_x1 := av_i_spr_le & [ STEM < "convulsivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_convulsivamente_x_rel" ]. convulsivo_a1 := a_rel_nonprd_intr_le & [ STEM < "convulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_convulsivo_a_rel" ]. convulsión_n1 := n_intr_count_le & [ STEM < "convulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_convulsión_n_rel" ] ]. conyugal_a1 := a_rel_nonprd_intr_le & [ STEM < "conyugal" >, SYNSEM.LKEYS.KEYREL.PRED "_conyugal_a_rel" ]. conyugicidio_n1 := n_intr_count_le & [ STEM < "conyugicidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conyugicidio_n_rel" ] ]. conífera_n1 := n_intr_count_le & [ STEM < "conífera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conífera_n_rel" ] ]. conífero_n1 := n_intr_mass-or-count_le & [ STEM < "conífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_conífero_n_rel" ] ]. conímetro_n1 := n_intr_count_le & [ STEM < "conímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_conímetro_n_rel" ] ]. conúcleo_n1 := n_intr_count_le & [ STEM < "conúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_conúcleo_n_rel" ] ]. cooficialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "cooficialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cooficialidad_n_rel" ] ]. cooperación_n1 := n_result_intr_ppcomp_le & [ STEM < "cooperación" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cooperación_n_rel" ] ]. cooperador_a1 := a_rel_nonprd_intr_le & [ STEM < "cooperador" >, SYNSEM.LKEYS.KEYREL.PRED "_cooperador_a_rel" ]. cooperador_n1 := n_subj-nom_le & [ STEM < "cooperador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cooperador_n_rel" ] ]. cooperante_n1 := n_intr_count_le & [ STEM < "cooperante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cooperante_n_rel" ] ]. cooperar_v1 := v_intr_mrkd_np*_le & [ STEM < "cooperar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_cooperar_v_rel" ] ]. cooperar_v2 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "cooperar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_cooperar_v_rel" ] ]. cooperativa_n1 := n_intr_count_le & [ STEM < "cooperativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_cooperativa_n_rel" ] ]. cooperativismo_n1 := n_intr_uncount_le & [ STEM < "cooperativismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cooperativismo_n_rel" ] ]. cooperativo_a1 := a_rel_nonprd_intr_le & [ STEM < "cooperativo" >, SYNSEM.LKEYS.KEYREL.PRED "_cooperativo_a_rel" ]. coordenada_n1 := n_intr_count_le & [ STEM < "coordenada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coordenada_n_rel" ] ]. coordinación_n1 := n_trans_le & [ STEM < "coordinación" >, SYNSEM.LKEYS.KEYREL.PRED "_coordinación_n_rel" ]. coordinadamente_x1 := av_i_spr_le & [ STEM < "coordinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coordinadamente_x_rel" ]. coordinador_n1 := n_subj-nom_le & [ STEM < "coordinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coordinador_n_rel" ] ]. coordinante_a1 := a_rel_nonprd_intr_le & [ STEM < "coordinante" >, SYNSEM.LKEYS.KEYREL.PRED "_coordinante_a_rel" ]. coordinar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "coordinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_coordinar_v_rel" ] ]. coordinar_v2 := v_trans_np_mrkd_np*_sym_le & [ STEM < "coordinar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_coordinar_v_rel" ] ] ]. coordinatógrafo_n1 := n_intr_uncount_pl_le & [ STEM < "coordinatógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coordinatógrafo_n_rel" ] ]. copa_n1 := n_pseudo-part_le & [ STEM < "copa" >, SYNSEM.LKEYS.KEYREL.PRED "_copa_n_rel" ]. copal_a1 := a_rel_nonprd_intr_le & [ STEM < "copal" >, SYNSEM.LKEYS.KEYREL.PRED "_copal_a_rel" ]. copal_n1 := n_intr_count_le & [ STEM < "copal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_copal_n_rel" ] ]. copar_v := v_trans_np_le & [ STEM < "copar" >, SYNSEM.LKEYS.KEYREL.PRED "_copar_v_rel" ]. coparticipación_n1 := n_result_intr_le & [ STEM < "coparticipación" >, SYNSEM.LKEYS.KEYREL.PRED "_coparticipación_n_rel" ]. copartícipe_n1 := n_intr_count_le & [ STEM < "copartícipe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copartícipe_n_rel" ] ]. copela_n1 := n_intr_count_le & [ STEM < "copela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copela_n_rel" ] ]. copelación_n1 := n_trans_le & [ STEM < "copelación" >, SYNSEM.LKEYS.KEYREL.PRED "_copelación_n_rel" ]. copero_a1 := a_rel_nonprd_intr_le & [ STEM < "copero" >, SYNSEM.LKEYS.KEYREL.PRED "_copero_a_rel" ]. copete_n1 := n_intr_count_le & [ STEM < "copete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copete_n_rel" ] ]. copia_n1 := n_intr_count_le & [ STEM < "copia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copia_n_rel" ] ]. copiador_a1 := a_rel_nonprd_intr_le & [ STEM < "copiador" >, SYNSEM.LKEYS.KEYREL.PRED "_copiador_a_rel" ]. copiador_n1 := n_subj-nom_le & [ STEM < "copiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copiador_n_rel" ] ]. copiadora_n1 := n_intr_count_le & [ STEM < "copiadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copiadora_n_rel" ] ]. copiar_v := v_trans_np*_lcomp_dir*_le & [ STEM < "copiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_copiar_v_rel" ] ]. copiloto_n1 := n_intr_count_le & [ STEM < "copiloto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copiloto_n_rel" ] ]. copiosamente_x1 := av_i_spr_le & [ STEM < "copiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_copiosamente_x_rel" ]. copioso_a1 := a_qual_intr_scopal_le & [ STEM < "copioso" >, SYNSEM.LKEYS.KEYREL.PRED "_copioso_a_rel" ]. copista_n1 := n_intr_count_le & [ STEM < "copista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copista_n_rel" ] ]. copión_n1 := n_intr_count_le & [ STEM < "copión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copión_n_rel" ] ]. copla_n1 := n_intr_count_le & [ STEM < "copla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copla_n_rel" ] ]. coplanamente_x1 := av_i_spr_le & [ STEM < "coplanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coplanamente_x_rel" ]. coplanar_a1 := a_rel_prd_le & [ STEM < "coplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_coplanar_a_rel" ]. coplanariamente_x1 := av_i_spr_le & [ STEM < "coplanariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_coplanariamente_x_rel" ]. coplanario_a1 := a_rel_nonprd_intr_le & [ STEM < "coplanario" >, SYNSEM.LKEYS.KEYREL.PRED "_coplanario_a_rel" ]. coplanarmente_x1 := av_i_spr_le & [ STEM < "coplanarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_coplanarmente_x_rel" ]. copo_n1 := n_intr_count_le & [ STEM < "copo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copo_n_rel" ] ]. copolímero_n1 := n_intr_count_le & [ STEM < "copolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copolímero_n_rel" ] ]. copra_n1 := n_intr_count_le & [ STEM < "copra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_copra_n_rel" ] ]. coprecipitación_n1 := n_intr_uncount_le & [ STEM < "coprecipitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coprecipitación_n_rel" ] ]. copresidente_n1 := n_intr_count_le & [ STEM < "copresidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copresidente_n_rel" ] ]. coproanticuerpo_n2 := n_ppcomp_count_le & [ STEM < "coproanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coproanticuerpo_n_rel" ] ]. coprocesador_n1 := n_intr_count_le & [ STEM < "coprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_coprocesador_n_rel" ] ]. coproducción_n1 := n_trans_le & [ STEM < "coproducción" >, SYNSEM.LKEYS.KEYREL.PRED "_coproducción_n_rel" ]. coproducto_n1 := n_intr_count_le & [ STEM < "coproducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coproducto_n_rel" ] ]. coprolito_n1 := n_intr_count_le & [ STEM < "coprolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coprolito_n_rel" ] ]. copropiedad_n1 := n_intr_count_le & [ STEM < "copropiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_copropiedad_n_rel" ] ]. copropietario_n1 := n_intr_count_le & [ STEM < "copropietario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copropietario_n_rel" ] ]. coprotagonista_n1 := n_intr_count_le & [ STEM < "coprotagonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coprotagonista_n_rel" ] ]. copto_n1 := n_intr_count_le & [ STEM < "copto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_copto_n_rel" ] ]. copular_v := v_intr_mrkd_np_sym_le & [ STEM < "copular" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_copular_v_rel" ] ]. copulativo_a1 := a_rel_nonprd_intr_le & [ STEM < "copulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_copulativo_a_rel" ]. copón_n1 := n_intr_count_le & [ STEM < "copón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_copón_n_rel" ] ]. coque_n1 := n_intr_mass_le & [ STEM < "coque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coque_n_rel" ] ]. coquería_n1 := n_intr_count_le & [ STEM < "coquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_coquería_n_rel" ] ]. coqueteo_n1 := n_result_intr_ppcomp_le & [ STEM < "coqueteo" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_coqueteo_n_rel" ] ]. coquetería_n1 := n_intr_mass_le & [ STEM < "coquetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coquetería_n_rel" ] ]. coqueto_a1 := a_qual_intr_ser_le & [ STEM < "coqueto" >, SYNSEM.LKEYS.KEYREL.PRED "_coqueto_a_rel" ]. coquilla_n1 := n_intr_count_le & [ STEM < "coquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coquilla_n_rel" ] ]. coquina_n1 := n_intr_count_le & [ STEM < "coquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coquina_n_rel" ] ]. coquizable_a1 := a_rel_prd_le & [ STEM < "coquizable" >, SYNSEM.LKEYS.KEYREL.PRED "_coquizable_a_rel" ]. coquización_n1 := n_trans_le & [ STEM < "coquización" >, SYNSEM.LKEYS.KEYREL.PRED "_coquización_n_rel" ]. coquizar_v := v_trans_np_le & [ STEM < "coquizar" >, SYNSEM.LKEYS.KEYREL.PRED "_coquizar_v_rel" ]. coracero_n1 := n_intr_count_le & [ STEM < "coracero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coracero_n_rel" ] ]. coracobraquial_a1 := a_rel_nonprd_intr_le & [ STEM < "coracobraquial" >, SYNSEM.LKEYS.KEYREL.PRED "_coracobraquial_a_rel" ]. coracohumeral_a1 := a_rel_nonprd_intr_le & [ STEM < "coracohumeral" >, SYNSEM.LKEYS.KEYREL.PRED "_coracohumeral_a_rel" ]. coraje_n1 := n_intr_mass_le & [ STEM < "coraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coraje_n_rel" ] ]. coral_a1 := a_rel_nonprd_intr_le & [ STEM < "coral" >, SYNSEM.LKEYS.KEYREL.PRED "_coral_a_rel" ]. coral_n1 := n_intr_count_le & [ STEM < "coral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc_loc_soc, PRED "_coral_n_rel" ] ]. coralino_a1 := a_qual_intr_ser_le & [ STEM < "coralino" >, SYNSEM.LKEYS.KEYREL.PRED "_coralino_a_rel" ]. coralífero_a1 := a_rel_nonprd_intr_le & [ STEM < "coralífero" >, SYNSEM.LKEYS.KEYREL.PRED "_coralífero_a_rel" ]. coraza_n1 := n_intr_count_le & [ STEM < "coraza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_coraza_n_rel" ] ]. corazonada_n1 := n_intr_count_le & [ STEM < "corazonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corazonada_n_rel" ] ]. corazón_n1 := n_ppcomp_count_le & [ STEM < "corazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_corazón_n_rel" ] ]. corballo_n1 := n_intr_count_le & [ STEM < "corballo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corballo_n_rel" ] ]. corbata_n1 := n_intr_count_le & [ STEM < "corbata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corbata_n_rel" ] ]. corbatín_n1 := n_intr_count_le & [ STEM < "corbatín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corbatín_n_rel" ] ]. corbeta_n1 := n_intr_count_le & [ STEM < "corbeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corbeta_n_rel" ] ]. corcel_n1 := n_intr_count_le & [ STEM < "corcel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_corcel_n_rel" ] ]. corchea_n1 := n_intr_count_le & [ STEM < "corchea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corchea_n_rel" ] ]. corchera_n1 := n_intr_count_le & [ STEM < "corchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corchera_n_rel" ] ]. corcheta_n1 := n_intr_count_le & [ STEM < "corcheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corcheta_n_rel" ] ]. corchete_n1 := n_intr_count_le & [ STEM < "corchete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corchete_n_rel" ] ]. corcho_n1 := n_intr_mass_le & [ STEM < "corcho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_corcho_n_rel" ] ]. corcino_n1 := n_intr_count_le & [ STEM < "corcino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corcino_n_rel" ] ]. corcovear_v := v_intr_le & [ STEM < "corcovear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_corcovear_v_rel" ] ]. cordada_n1 := n_intr_coll_le & [ STEM < "cordada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordada_n_rel" ] ]. cordado_a1 := a_rel_nonprd_intr_le & [ STEM < "cordado" >, SYNSEM.LKEYS.KEYREL.PRED "_cordado_a_rel" ]. cordaje_n1 := n_intr_mass_le & [ STEM < "cordaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cordaje_n_rel" ] ]. cordal_n1 := n_ppcomp_count_le & [ STEM < "cordal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cordal_n_rel" ] ]. cordectomía_n1 := n_intr_count_le & [ STEM < "cordectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordectomía_n_rel" ] ]. cordel_n1 := n_intr_mass_le & [ STEM < "cordel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cordel_n_rel" ] ]. cordelero_n1 := n_intr_count_le & [ STEM < "cordelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cordelero_n_rel" ] ]. cordelería_n1 := n_intr_count_le & [ STEM < "cordelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cordelería_n_rel" ] ]. cordero_n1 := n_intr_count_le & [ STEM < "cordero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cordero_n_rel" ] ]. cordial_a1 := a_qual_intr_ser_le & [ STEM < "cordial" >, SYNSEM.LKEYS.KEYREL.PRED "_cordial_a_rel" ]. cordialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "cordialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordialidad_n_rel" ] ]. cordialmente_x1 := av_i_spr_le & [ STEM < "cordialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cordialmente_x_rel" ]. cordierita_n1 := n_intr_count_le & [ STEM < "cordierita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cordierita_n_rel" ] ]. cordillera_n1 := n_intr_count_le & [ STEM < "cordillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cordillera_n_rel" ] ]. cordino_n1 := n_intr_count_le & [ STEM < "cordino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cordino_n_rel" ] ]. cordita_n1 := n_intr_count_le & [ STEM < "cordita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cordita_n_rel" ] ]. corditis_n1 := n_intr_uncount_le & [ STEM < "corditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corditis_n_rel" ] ]. cordobés_a1 := a_rel_prd_le & [ STEM < "cordobés" >, SYNSEM.LKEYS.KEYREL.PRED "_cordobés_a_rel" ]. cordobés_n1 := n_intr_count_le & [ STEM < "cordobés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cordobés_n_rel" ] ]. cordopexia_n1 := n_intr_uncount_le & [ STEM < "cordopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordopexia_n_rel" ] ]. cordotomía_n1 := n_intr_count_le & [ STEM < "cordotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordotomía_n_rel" ] ]. cordura_n1 := n_ppcomp_uncount_le & [ STEM < "cordura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cordura_n_rel" ] ]. cordón_n1 := n_intr_count_le & [ STEM < "cordón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cordón_n_rel" ] ]. corea_n1 := n_ppcomp_count_le & [ STEM < "corea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_corea_n_rel" ] ]. coreano_a1 := a_rel_prd_le & [ STEM < "coreano" >, SYNSEM.LKEYS.KEYREL.PRED "_coreano_a_rel" ]. coreano_n1 := n_intr_count_le & [ STEM < "coreano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coreano_n_rel" ] ]. corear_v1 := v_trans_cp_ques_le & [ STEM < "corear" >, SYNSEM.LKEYS.KEYREL.PRED "_corear_v_rel" ]. corear_v2 := v_trans_np*_le & [ STEM < "corear" >, SYNSEM.LKEYS.KEYREL.PRED "_corear_v_rel" ]. corectasia_n1 := n_intr_uncount_le & [ STEM < "corectasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corectasia_n_rel" ] ]. corectomediálisis_n1 := n_intr_uncount_le & [ STEM < "corectomediálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corectomediálisis_n_rel" ] ]. corectomía_n1 := n_intr_count_le & [ STEM < "corectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corectomía_n_rel" ] ]. corectopia_n1 := n_intr_count_le & [ STEM < "corectopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corectopia_n_rel" ] ]. corediálisis_n1 := n_intr_uncount_le & [ STEM < "corediálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corediálisis_n_rel" ] ]. coreligionario_n1 := n_intr_count_le & [ STEM < "coreligionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coreligionario_n_rel" ] ]. coremorfosis_n1 := n_intr_uncount_le & [ STEM < "coremorfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coremorfosis_n_rel" ] ]. coreografía_n1 := n_intr_count_le & [ STEM < "coreografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coreografía_n_rel" ] ]. coreográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "coreográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_coreográfico_a_rel" ]. coreoplastia_n1 := n_intr_count_le & [ STEM < "coreoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coreoplastia_n_rel" ] ]. corestenoma_n1 := n_intr_uncount_le & [ STEM < "corestenoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corestenoma_n_rel" ] ]. coreógrafo_n1 := n_intr_count_le & [ STEM < "coreógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coreógrafo_n_rel" ] ]. corindón_n1 := n_intr_mass_le & [ STEM < "corindón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_corindón_n_rel" ] ]. corintio_a1 := a_rel_prd_le & [ STEM < "corintio" >, SYNSEM.LKEYS.KEYREL.PRED "_corintio_a_rel" ]. coriocapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "coriocapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_coriocapilar_a_rel" ]. coriomeningitis_n1 := n_intr_uncount_le & [ STEM < "coriomeningitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coriomeningitis_n_rel" ] ]. corion_n1 := n_intr_count_le & [ STEM < "corion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corion_n_rel" ] ]. coriorretinopatía_n1 := n_intr_uncount_pl_le & [ STEM < "coriorretinopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coriorretinopatía_n_rel" ] ]. corista_n1 := n_intr_count_le & [ STEM < "corista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corista_n_rel" ] ]. cormorán_n1 := n_intr_count_le & [ STEM < "cormorán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cormorán_n_rel" ] ]. cornada_n1 := n_intr_count_le & [ STEM < "cornada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cornada_n_rel" ] ]. cornalina_n1 := n_intr_count_le & [ STEM < "cornalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornalina_n_rel" ] ]. cornamenta_n1 := n_intr_count_le & [ STEM < "cornamenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornamenta_n_rel" ] ]. cornamusa_n1 := n_intr_count_le & [ STEM < "cornamusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornamusa_n_rel" ] ]. corneal_a1 := a_rel_nonprd_intr_le & [ STEM < "corneal" >, SYNSEM.LKEYS.KEYREL.PRED "_corneal_a_rel" ]. corneja_n1 := n_intr_count_le & [ STEM < "corneja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corneja_n_rel" ] ]. corneoesclerótico_a1 := a_rel_nonprd_intr_le & [ STEM < "corneoesclerótico" >, SYNSEM.LKEYS.KEYREL.PRED "_corneoesclerótico_a_rel" ]. corneta_n1 := n_intr_count_le & [ STEM < "corneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corneta_n_rel" ] ]. cornete_n1 := n_intr_count_le & [ STEM < "cornete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornete_n_rel" ] ]. cornetista_n1 := n_intr_count_le & [ STEM < "cornetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cornetista_n_rel" ] ]. cornetín_n1 := n_intr_count_le & [ STEM < "cornetín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornetín_n_rel" ] ]. corniculado_a1 := a_rel_nonprd_intr_le & [ STEM < "corniculado" >, SYNSEM.LKEYS.KEYREL.PRED "_corniculado_a_rel" ]. cornijón_n1 := n_intr_count_le & [ STEM < "cornijón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornijón_n_rel" ] ]. cornisa_n1 := n_intr_count_le & [ STEM < "cornisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornisa_n_rel" ] ]. cornisamento_n1 := n_intr_count_le & [ STEM < "cornisamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornisamento_n_rel" ] ]. corno_n1 := n_intr_count_le & [ STEM < "corno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_corno_n_rel" ] ]. cornucopia_n1 := n_intr_count_le & [ STEM < "cornucopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cornucopia_n_rel" ] ]. cornudo_a1 := a_rel_nonprd_intr_le & [ STEM < "cornudo" >, SYNSEM.LKEYS.KEYREL.PRED "_cornudo_a_rel" ]. coro_n1 := n_intr_count_le & [ STEM < "coro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_coro_n_rel" ] ]. corográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "corográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_corográfico_a_rel" ]. coroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "coroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_coroideo_a_rel" ]. coroideremia_n1 := n_intr_uncount_le & [ STEM < "coroideremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroideremia_n_rel" ] ]. coroides_n1 := n_ppcomp_count_le & [ STEM < "coroides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coroides_n_rel" ] ]. coroiditis_n1 := n_intr_uncount_le & [ STEM < "coroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroiditis_n_rel" ] ]. coroidocapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "coroidocapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_coroidocapilar_a_rel" ]. coroidociclitis_n1 := n_intr_uncount_le & [ STEM < "coroidociclitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroidociclitis_n_rel" ] ]. coroidoiritis_n1 := n_intr_uncount_le & [ STEM < "coroidoiritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroidoiritis_n_rel" ] ]. coroidopatía_n1 := n_intr_uncount_pl_le & [ STEM < "coroidopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroidopatía_n_rel" ] ]. coroidorretinitis_n1 := n_intr_uncount_le & [ STEM < "coroidorretinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroidorretinitis_n_rel" ] ]. corola_n1 := n_intr_count_le & [ STEM < "corola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corola_n_rel" ] ]. corolario_n1 := n_intr_count_le & [ STEM < "corolario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corolario_n_rel" ] ]. corología_n1 := n_intr_uncount_pl_le & [ STEM < "corología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corología_n_rel" ] ]. corona_n1 := n_intr_count_le & [ STEM < "corona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_corona_n_rel" ] ]. coronación_n1 := n_trans_le & [ STEM < "coronación" >, SYNSEM.LKEYS.KEYREL.PRED "_coronación_n_rel" ]. coronal_a1 := a_rel_nonprd_intr_le & [ STEM < "coronal" >, SYNSEM.LKEYS.KEYREL.PRED "_coronal_a_rel" ]. coronamiento_n1 := n_trans_le & [ STEM < "coronamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_coronamiento_n_rel" ]. coronar_v := v_trans_np_caus_le & [ STEM < "coronar" >, SYNSEM.LKEYS.KEYREL.PRED "_coronar_v_rel" ]. coronario_a1 := a_rel_nonprd_intr_le & [ STEM < "coronario" >, SYNSEM.LKEYS.KEYREL.PRED "_coronario_a_rel" ]. corondel_n1 := n_intr_count_le & [ STEM < "corondel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corondel_n_rel" ] ]. coronel_n1 := n_intr_count_le & [ STEM < "coronel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_coronel_n_rel" ] ]. coronilla_n1 := n_intr_count_le & [ STEM < "coronilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coronilla_n_rel" ] ]. coronoidectomía_n1 := n_intr_count_le & [ STEM < "coronoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coronoidectomía_n_rel" ] ]. coronoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "coronoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_coronoideo_a_rel" ]. coronoplastia_n1 := n_intr_count_le & [ STEM < "coronoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coronoplastia_n_rel" ] ]. coroplastia_n1 := n_intr_count_le & [ STEM < "coroplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coroplastia_n_rel" ] ]. coropleta_n1 := n_intr_uncount_pl_le & [ STEM < "coropleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coropleta_n_rel" ] ]. coroplético_a1 := a_rel_nonprd_intr_le & [ STEM < "coroplético" >, SYNSEM.LKEYS.KEYREL.PRED "_coroplético_a_rel" ]. corpiño_n1 := n_intr_count_le & [ STEM < "corpiño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corpiño_n_rel" ] ]. corporación_n1 := n_intr_count_le & [ STEM < "corporación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_corporación_n_rel" ] ]. corporal_a1 := a_rel_nonprd_intr_le & [ STEM < "corporal" >, SYNSEM.LKEYS.KEYREL.PRED "_corporal_a_rel" ]. corporativamente_x1 := av_i_spr_le & [ STEM < "corporativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_corporativamente_x_rel" ]. corporativismo_n1 := n_intr_uncount_le & [ STEM < "corporativismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corporativismo_n_rel" ] ]. corporativista_a1 := a_rel_nonprd_intr_le & [ STEM < "corporativista" >, SYNSEM.LKEYS.KEYREL.PRED "_corporativista_a_rel" ]. corporativo_a1 := a_rel_nonprd_intr_le & [ STEM < "corporativo" >, SYNSEM.LKEYS.KEYREL.PRED "_corporativo_a_rel" ]. corpore_insepulto_x1 := av_i_le & [ STEM < "corpore_insepulto" >, SYNSEM.LKEYS.KEYREL.PRED "_corpore_insepulto_x_rel" ]. corpulencia_n1 := n_intr_mass_le & [ STEM < "corpulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corpulencia_n_rel" ] ]. corpulento_a1 := a_qual_intr_ser_le & [ STEM < "corpulento" >, SYNSEM.LKEYS.KEYREL.PRED "_corpulento_a_rel" ]. corpus_n1 := n_intr_count_le & [ STEM < "corpus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corpus_n_rel" ] ]. corpuscular_a1 := a_rel_nonprd_intr_le & [ STEM < "corpuscular" >, SYNSEM.LKEYS.KEYREL.PRED "_corpuscular_a_rel" ]. corpuscularmente_x1 := av_i_spr_le & [ STEM < "corpuscularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_corpuscularmente_x_rel" ]. corpóreo_a1 := a_rel_nonprd_intr_le & [ STEM < "corpóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_corpóreo_a_rel" ]. corpúsculo_n1 := n_intr_count_le & [ STEM < "corpúsculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corpúsculo_n_rel" ] ]. corral_n1 := n_intr_count_le & [ STEM < "corral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_corral_n_rel" ] ]. correa_n1 := n_intr_count_le & [ STEM < "correa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_correa_n_rel" ] ]. correaje_n1 := n_intr_mass_le & [ STEM < "correaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_correaje_n_rel" ] ]. correccional_n1 := n_intr_count_le & [ STEM < "correccional" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_correccional_n_rel" ] ]. correccionalismo_n1 := n_intr_uncount_le & [ STEM < "correccionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correccionalismo_n_rel" ] ]. corrección_n1 := n_trans_le & [ STEM < "corrección" >, SYNSEM.LKEYS.KEYREL.PRED "_corrección_n_rel" ]. correctamente_x1 := av_s_spr_le & [ STEM < "correctamente" >, SYNSEM.LKEYS.KEYREL.PRED "_correctamente_x_rel" ]. correctamente_x2 := av_i_psthd_spr_le & [ STEM < "correctamente" >, SYNSEM.LKEYS.KEYREL.PRED "_correctamente_x_rel" ]. correctivamente_x1 := av_i_spr_le & [ STEM < "correctivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_correctivamente_x_rel" ]. correctivo_a1 := a_rel_nonprd_intr_le & [ STEM < "correctivo" >, SYNSEM.LKEYS.KEYREL.PRED "_correctivo_a_rel" ]. correcto_a1 := a_qual_intr_scopal_le & [ STEM < "correcto" >, SYNSEM.LKEYS.KEYREL.PRED "_correcto_a_rel" ]. corrector_a1 := a_rel_nonprd_intr_le & [ STEM < "corrector" >, SYNSEM.LKEYS.KEYREL.PRED "_corrector_a_rel" ]. corrector_n1 := n_intr_count_le & [ STEM < "corrector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corrector_n_rel" ] ]. corrector_n2 := n_subj-nom_le & [ STEM < "corrector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corrector_n_rel" ] ]. corredera_n1 := n_intr_count_le & [ STEM < "corredera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corredera_n_rel" ] ]. corredero_a1 := a_rel_nonprd_intr_le & [ STEM < "corredero" >, SYNSEM.LKEYS.KEYREL.PRED "_corredero_a_rel" ]. corredizo_a1 := a_qual_intr_scopal_le & [ STEM < "corredizo" >, SYNSEM.LKEYS.KEYREL.PRED "_corredizo_a_rel" ]. corredor_n1 := n_intr_count_le & [ STEM < "corredor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_loc, PRED "_corredor_n_rel" ] ]. correduría_n1 := n_intr_count_le & [ STEM < "correduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_correduría_n_rel" ] ]. correferencia_n1 := n_intr_uncount_pl_le & [ STEM < "correferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correferencia_n_rel" ] ]. correferente_a1 := a_rel_nonprd_intr_le & [ STEM < "correferente" >, SYNSEM.LKEYS.KEYREL.PRED "_correferente_a_rel" ]. corregible_a1 := a_rel_prd_le & [ STEM < "corregible" >, SYNSEM.LKEYS.KEYREL.PRED "_corregible_a_rel" ]. corregidor_n1 := n_subj-nom_le & [ STEM < "corregidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corregidor_n_rel" ] ]. corregir_v1 := v_ditrans*_le & [ STEM < "corregir" >, SYNSEM.LKEYS.KEYREL.PRED "_corregir_v_rel" ]. corregir_v2 := v_pron_intr_le & [ STEM < "corregir" >, SYNSEM.LKEYS.KEYREL.PRED "_corregir_v_rel" ]. corregir_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "corregir" >, SYNSEM.LKEYS.KEYREL.PRED "_corregir_v_rel" ]. correlacionar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "correlacionar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_correlacionar_v_rel" ] ]. correlación_n1 := n_intr_count_le & [ STEM < "correlación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correlación_n_rel" ] ]. correlador_n1 := n_intr_count_le & [ STEM < "correlador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_correlador_n_rel" ] ]. correlativamente_x1 := av_i_spr_le & [ STEM < "correlativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_correlativamente_x_rel" ]. correlativo_a1 := a_qual_trans*_ser_le & [ STEM < "correlativo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_correlativo_a_rel" ] ]. correlato_n1 := n_intr_count_le & [ STEM < "correlato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correlato_n_rel" ] ]. correligionario_n1 := n_intr_count_le & [ STEM < "correligionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_correligionario_n_rel" ] ]. correlograma_n1 := n_intr_count_le & [ STEM < "correlograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_correlograma_n_rel" ] ]. correntómetro_n1 := n_intr_count_le & [ STEM < "correntómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_correntómetro_n_rel" ] ]. correo_n1 := n_intr_uncount_pl_le & [ STEM < "correo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correo_n_rel" ] ]. correo_n2 := n_intr_count_le & [ STEM < "correo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correo_n_rel" ] ]. correos_n1 := n_intr_count_le & [ STEM < "Correos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_correos_n_rel" ] ]. correosidad_n1 := n_intr_mass_le & [ STEM < "correosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correosidad_n_rel" ] ]. correoso_a1 := a_qual_intr_scopal_le & [ STEM < "correoso" >, SYNSEM.LKEYS.KEYREL.PRED "_correoso_a_rel" ]. correr_v1 := v_intr_le & [ STEM < "correr" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_correr_v_rel" ] ]. correr_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "correr" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_correr_v_rel" ] ] ]. correr_v3 := v_intr_mrkd_np_le & [ STEM < "correr" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_correr_v_rel" ] ] ]. correr_v4 := v_pron_intr_le & [ STEM < "correr" >, SYNSEM.LKEYS.KEYREL.PRED "_correr_v_rel" ]. correr_v5 := v_trans_np_le & [ STEM < "correr" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_correr_v_rel" ] ]. correspondencia_n1 := n_result_intr_le & [ STEM < "correspondencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correspondencia_n_rel" ] ]. correspondencia_n2 := n_intr_uncount_le & [ STEM < "correspondencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_correspondencia_n_rel" ] ]. corresponder_v1 := v_ditrans_le & [ STEM < "corresponder" >, SYNSEM.LKEYS.KEYREL.PRED "_corresponder_v_rel" ]. corresponder_v2 := v_intr_io*_le & [ STEM < "corresponder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_corresponder_v_rel" ] ]. corresponder_v3 := v_pron_intr_mrkd_np_le & [ STEM < "corresponder" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_corresponder_v_rel" ] ]. corresponder_v4 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "corresponder" >, SYNSEM.LKEYS.KEYREL.PRED "_corresponder_v_rel" ]. corresponder_v5 := v_trans_np_le & [ STEM < "corresponder" >, SYNSEM.LKEYS.KEYREL.PRED "_corresponder_v_rel" ]. correspondiente_a1 := a_qual_trans_ser_le & [ STEM < "correspondiente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_correspondiente_a_rel" ] ]. correspondiente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "correspondiente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_correspondiente_a_rel" ] ]. correspondiente_a3 := a_qual_cp_ques_ser_le & [ STEM < "correspondiente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_correspondiente_a_rel" ] ]. correspondientemente_x1 := av_i_spr_le & [ STEM < "correspondientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_correspondientemente_x_rel" ]. corresponsabilidad_n1 := n_intr_count_le & [ STEM < "corresponsabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corresponsabilidad_n_rel" ] ]. corresponsal_n1 := n_intr_count_le & [ STEM < "corresponsal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corresponsal_n_rel" ] ]. corresponsalía_n1 := n_intr_count_le & [ STEM < "corresponsalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corresponsalía_n_rel" ] ]. corretaje_n1 := n_intr_uncount_le & [ STEM < "corretaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corretaje_n_rel" ] ]. corretear_v := v_intr_le & [ STEM < "corretear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_corretear_v_rel" ] ]. correteo_n1 := n_event-result_intr_le & [ STEM < "correteo" >, SYNSEM.LKEYS.KEYREL.PRED "_correteo_n_rel" ]. corrida_n1 := n_result_intr_le & [ STEM < "corrida" >, SYNSEM.LKEYS.KEYREL.PRED "_corrida_n_rel" ]. corriente_a1 := a_qual_intr_scopal_le & [ STEM < "corriente" >, SYNSEM.LKEYS.KEYREL.PRED "_corriente_a_rel" ]. corriente_n1 := n_intr_count_le & [ STEM < "corriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corriente_n_rel" ] ]. corrientemente_x1 := av_i_spr_le & [ STEM < "corrientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_corrientemente_x_rel" ]. corrientómetro_n1 := n_intr_count_le & [ STEM < "corrientómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corrientómetro_n_rel" ] ]. corrimiento_n1 := n_result_intr_le & [ STEM < "corrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_corrimiento_n_rel" ]. corro_n1 := n_intr_uncount_pl_le & [ STEM < "corro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corro_n_rel" ] ]. corroboración_n1 := n_trans_le & [ STEM < "corroboración" >, SYNSEM.LKEYS.KEYREL.PRED "_corroboración_n_rel" ]. corroborante_a1 := a_rel_nonprd_intr_le & [ STEM < "corroborante" >, SYNSEM.LKEYS.KEYREL.PRED "_corroborante_a_rel" ]. corroborar_v1 := v_trans_cp_prop_fin_le & [ STEM < "corroborar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_corroborar_v_rel" ] ]. corroborar_v2 := v_trans_cp_semi_ques_le & [ STEM < "corroborar" >, SYNSEM.LKEYS.KEYREL.PRED "_corroborar_v_rel" ]. corroborar_v3 := v_trans_np_le & [ STEM < "corroborar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_corroborar_v_rel" ] ]. corroborativo_a1 := a_rel_nonprd_intr_le & [ STEM < "corroborativo" >, SYNSEM.LKEYS.KEYREL.PRED "_corroborativo_a_rel" ]. corroer_v1 := v_intr_io*_le & [ STEM < "corroer" >, SYNSEM.LKEYS.KEYREL.PRED "_corroer_v_rel" ]. corroer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "corroer" >, SYNSEM.LKEYS.KEYREL.PRED "_corroer_v_rel" ]. corroer_v3 := v_trans_np_caus_le & [ STEM < "corroer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_corroer_v_rel" ] ]. corromper_v := v_trans_np_caus_le & [ STEM < "corromper" >, SYNSEM.LKEYS.KEYREL.PRED "_corromper_v_rel" ]. corrosivamente_x1 := av_i_spr_le & [ STEM < "corrosivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_corrosivamente_x_rel" ]. corrosivo_a1 := a_qual_intr_scopal_le & [ STEM < "corrosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_corrosivo_a_rel" ]. corrosión_n1 := n_trans_le & [ STEM < "corrosión" >, SYNSEM.LKEYS.KEYREL.PRED "_corrosión_n_rel" ]. corroyente_a1 := a_rel_nonprd_intr_le & [ STEM < "corroyente" >, SYNSEM.LKEYS.KEYREL.PRED "_corroyente_a_rel" ]. corroyentemente_x1 := av_i_spr_le & [ STEM < "corroyentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_corroyentemente_x_rel" ]. corrrespondientemente_x1 := av_i_spr_le & [ STEM < "corrrespondientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_corrrespondientemente_x_rel" ]. corrugadamente_x1 := av_i_spr_le & [ STEM < "corrugadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_corrugadamente_x_rel" ]. corrugar_v := v_trans_np_caus_le & [ STEM < "corrugar" >, SYNSEM.LKEYS.KEYREL.PRED "_corrugar_v_rel" ]. corrupción_n1 := n_trans_le & [ STEM < "corrupción" >, SYNSEM.LKEYS.KEYREL.PRED "_corrupción_n_rel" ]. corruptela_n1 := n_intr_uncount_le & [ STEM < "corruptela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corruptela_n_rel" ] ]. corruptibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "corruptibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corruptibilidad_n_rel" ] ]. corrupto_a1 := a_qual_intr_scopal_le & [ STEM < "corrupto" >, SYNSEM.LKEYS.KEYREL.PRED "_corrupto_a_rel" ]. corruptor_n1 := n_intr_count_le & [ STEM < "corruptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corruptor_n_rel" ] ]. corsario_n1 := n_intr_count_le & [ STEM < "corsario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corsario_n_rel" ] ]. corsista_n1 := n_intr_count_le & [ STEM < "corsista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corsista_n_rel" ] ]. corso_n1 := n_intr_count_le & [ STEM < "corso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_corso_n_rel" ] ]. corsé_n1 := n_intr_count_le & [ STEM < "corsé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corsé_n_rel" ] ]. cortaalambres_n1 := n_intr_count_le & [ STEM < "cortaalambres" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortaalambres_n_rel" ] ]. cortacallos_n1 := n_intr_count_le & [ STEM < "cortacallos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortacallos_n_rel" ] ]. cortacircuito_n1 := n_intr_count_le & [ STEM < "cortacircuito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortacircuito_n_rel" ] ]. cortacircuitos_n1 := n_intr_count_le & [ STEM < "cortacircuitos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortacircuitos_n_rel" ] ]. cortacolas_n1 := n_intr_count_le & [ STEM < "cortacolas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortacolas_n_rel" ] ]. cortacésped_n1 := n_intr_count_le & [ STEM < "cortacésped" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_cortacésped_n_rel" ] ]. cortado_n1 := n_trans_le & [ STEM < "cortado" >, SYNSEM.LKEYS.KEYREL.PRED "_cortado_n_rel" ]. cortador_a1 := a_rel_nonprd_intr_le & [ STEM < "cortador" >, SYNSEM.LKEYS.KEYREL.PRED "_cortador_a_rel" ]. cortador_n1 := n_intr_count_le & [ STEM < "cortador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortador_n_rel" ] ]. cortador_n2 := n_subj-nom_le & [ STEM < "cortador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cortador_n_rel" ] ]. cortadora_n1 := n_intr_count_le & [ STEM < "cortadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortadora_n_rel" ] ]. cortadura_n1 := n_trans_le & [ STEM < "cortadura" >, SYNSEM.LKEYS.KEYREL.PRED "_cortadura_n_rel" ]. cortafrío_n1 := n_intr_count_le & [ STEM < "cortafrío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortafrío_n_rel" ] ]. cortafuego_n1 := n_intr_count_le & [ STEM < "cortafuego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortafuego_n_rel" ] ]. cortahumedades_n1 := n_intr_count_le & [ STEM < "cortahumedades" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortahumedades_n_rel" ] ]. cortalápices_n1 := n_intr_count_le & [ STEM < "cortalápices" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortalápices_n_rel" ] ]. cortante_a1 := a_rel_nonprd_intr_le & [ STEM < "cortante" >, SYNSEM.LKEYS.KEYREL.PRED "_cortante_a_rel" ]. cortapicos_n1 := n_intr_count_le & [ STEM < "cortapicos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortapicos_n_rel" ] ]. cortapisa_n1 := n_intr_uncount_pl_le & [ STEM < "cortapisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cortapisa_n_rel" ] ]. cortapuros_n1 := n_intr_count_le & [ STEM < "cortapuros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortapuros_n_rel" ] ]. cortar_v1 := v_ditrans*_le & [ STEM < "cortar" >, SYNSEM.LKEYS.KEYREL.PRED "_cortar_v_rel" ]. cortar_v2 := v_intr_io*_le & [ STEM < "cortar" >, SYNSEM.LKEYS.KEYREL.PRED "_cortar_v_rel" ]. cortar_v3 := v_pron_intr_le & [ STEM < "cortar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_cortar_v_rel" ] ]. cortar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "cortar" >, SYNSEM.LKEYS.KEYREL.PRED "_cortar_v_rel" ]. cortarraíces_n1 := n_intr_count_le & [ STEM < "cortarraíces" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortarraíces_n_rel" ] ]. cortasetos_n1 := n_intr_count_le & [ STEM < "cortasetos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortasetos_n_rel" ] ]. cortatiro_n1 := n_intr_count_le & [ STEM < "cortatiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortatiro_n_rel" ] ]. cortavapor_n1 := n_intr_count_le & [ STEM < "cortavapor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortavapor_n_rel" ] ]. cortavidrios_n1 := n_intr_count_le & [ STEM < "cortavidrios" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortavidrios_n_rel" ] ]. cortaviento_n1 := n_intr_count_le & [ STEM < "cortaviento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cortaviento_n_rel" ] ]. cortaúñas_n1 := n_intr_count_le & [ STEM < "cortaúñas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortaúñas_n_rel" ] ]. corte_n1 := n_intr_count_le & [ STEM < "corte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_corte_n_rel" ] ]. corte_n2 := n_trans_le & [ STEM < "corte" >, SYNSEM.LKEYS.KEYREL.PRED "_corte_n_rel" ]. cortejar_v := v_trans_np_le & [ STEM < "cortejar" >, SYNSEM.LKEYS.KEYREL.PRED "_cortejar_v_rel" ]. cortejo_n1 := n_trans_le & [ STEM < "cortejo" >, SYNSEM.LKEYS.KEYREL.PRED "_cortejo_n_rel" ]. cortesana_n1 := n_intr_count_le & [ STEM < "cortesana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cortesana_n_rel" ] ]. cortesanamente_x1 := av_i_spr_le & [ STEM < "cortesanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cortesanamente_x_rel" ]. cortesano_a1 := a_qual_intr_ser_le & [ STEM < "cortesano" >, SYNSEM.LKEYS.KEYREL.PRED "_cortesano_a_rel" ]. cortesano_n1 := n_intr_count_le & [ STEM < "cortesano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cortesano_n_rel" ] ]. cortesía_n1 := n_intr_mass_le & [ STEM < "cortesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cortesía_n_rel" ] ]. corteza_n1 := n_intr_mass_le & [ STEM < "corteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corteza_n_rel" ] ]. cortical_a1 := a_rel_nonprd_intr_le & [ STEM < "cortical" >, SYNSEM.LKEYS.KEYREL.PRED "_cortical_a_rel" ]. corticoespinal_a1 := a_rel_nonprd_intr_le & [ STEM < "corticoespinal" >, SYNSEM.LKEYS.KEYREL.PRED "_corticoespinal_a_rel" ]. corticoide_n1 := n_intr_count_le & [ STEM < "corticoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corticoide_n_rel" ] ]. corticorreticular_a1 := a_rel_nonprd_intr_le & [ STEM < "corticorreticular" >, SYNSEM.LKEYS.KEYREL.PRED "_corticorreticular_a_rel" ]. corticosteroide_n1 := n_intr_count_le & [ STEM < "corticosteroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_corticosteroide_n_rel" ] ]. corticosterona_n1 := n_intr_count_le & [ STEM < "corticosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_corticosterona_n_rel" ] ]. cortijo_n1 := n_intr_count_le & [ STEM < "cortijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cortijo_n_rel" ] ]. cortina_n1 := n_intr_count_le & [ STEM < "cortina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortina_n_rel" ] ]. cortinilla_n1 := n_intr_count_le & [ STEM < "cortinilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortinilla_n_rel" ] ]. cortisona_n1 := n_intr_mass_le & [ STEM < "cortisona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cortisona_n_rel" ] ]. corto_a1 := a_qual_intr_scopal_le & [ STEM < "corto" >, SYNSEM.LKEYS.KEYREL.PRED "_corto_a_rel" ]. cortocircuitar_v := v_trans_np_caus_le & [ STEM < "cortocircuitar" >, SYNSEM.LKEYS.KEYREL.PRED "_cortocircuitar_v_rel" ]. cortocircuito_n1 := n_intr_count_le & [ STEM < "cortocircuito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cortocircuito_n_rel" ] ]. cortometraje_n1 := n_intr_count_le & [ STEM < "cortometraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cortometraje_n_rel" ] ]. cortés_a1 := a_qual_intr_ser_le & [ STEM < "cortés" >, SYNSEM.LKEYS.KEYREL.PRED "_cortés_a_rel" ]. cortésmente_x1 := av_i_spr_le & [ STEM < "cortésmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cortésmente_x_rel" ]. coruñés_a1 := a_rel_prd_le & [ STEM < "coruñés" >, SYNSEM.LKEYS.KEYREL.PRED "_coruñés_a_rel" ]. corvallo_n1 := n_intr_count_le & [ STEM < "corvallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corvallo_n_rel" ] ]. corvejón_n1 := n_intr_count_le & [ STEM < "corvejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corvejón_n_rel" ] ]. corvina_n1 := n_intr_count_le & [ STEM < "corvina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corvina_n_rel" ] ]. corvo_a1 := a_qual_intr_ser_le & [ STEM < "corvo" >, SYNSEM.LKEYS.KEYREL.PRED "_corvo_a_rel" ]. corzo_n1 := n_intr_count_le & [ STEM < "corzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corzo_n_rel" ] ]. coránico_a1 := a_rel_nonprd_intr_le & [ STEM < "coránico" >, SYNSEM.LKEYS.KEYREL.PRED "_coránico_a_rel" ]. corégono_n1 := n_intr_count_le & [ STEM < "corégono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_corégono_n_rel" ] ]. corélisis_n1 := n_intr_uncount_le & [ STEM < "corélisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_corélisis_n_rel" ] ]. cosa_n1 := n_intr_count_le & [ STEM < "cosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cosa_n_rel" ] ]. cosaco_n1 := n_intr_count_le & [ STEM < "cosaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosaco_n_rel" ] ]. coscoja_n1 := n_intr_count_le & [ STEM < "coscoja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_coscoja_n_rel" ] ]. cosecante_n1 := n_intr_count_le & [ STEM < "cosecante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosecante_n_rel" ] ]. cosecha_n1 := n_trans_le & [ STEM < "cosecha" >, SYNSEM.LKEYS.KEYREL.PRED "_cosecha_n_rel" ]. cosechadora_n1 := n_intr_count_le & [ STEM < "cosechadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_cosechadora_n_rel" ] ]. cosechar_v := v_trans_np*_le & [ STEM < "cosechar" >, SYNSEM.LKEYS.KEYREL.PRED "_cosechar_v_rel" ]. cosechero_n1 := n_intr_count_le & [ STEM < "cosechero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosechero_n_rel" ] ]. cosedora_n1 := n_intr_count_le & [ STEM < "cosedora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cosedora_n_rel" ] ]. coseno_n1 := n_intr_count_le & [ STEM < "coseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coseno_n_rel" ] ]. coser_v := v_trans_np*_le & [ STEM < "coser" >, SYNSEM.LKEYS.KEYREL.PRED "_coser_v_rel" ]. cosido_n1 := n_trans_le & [ STEM < "cosido" >, SYNSEM.LKEYS.KEYREL.PRED "_cosido_n_rel" ]. cosificación_n1 := n_trans_le & [ STEM < "cosificación" >, SYNSEM.LKEYS.KEYREL.PRED "_cosificación_n_rel" ]. cosignatario_n1 := n_intr_count_le & [ STEM < "cosignatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosignatario_n_rel" ] ]. cosmogonía_n1 := n_intr_count_le & [ STEM < "cosmogonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmogonía_n_rel" ] ]. cosmografía_n1 := n_intr_count_le & [ STEM < "cosmografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmografía_n_rel" ] ]. cosmoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "cosmoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_cosmoideo_a_rel" ]. cosmología_n1 := n_intr_count_le & [ STEM < "cosmología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmología_n_rel" ] ]. cosmológicamente_x1 := av_i_spr_le & [ STEM < "cosmológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cosmológicamente_x_rel" ]. cosmológico_a1 := a_rel_nonprd_intr_le & [ STEM < "cosmológico" >, SYNSEM.LKEYS.KEYREL.PRED "_cosmológico_a_rel" ]. cosmonauta_n1 := n_intr_count_le & [ STEM < "cosmonauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosmonauta_n_rel" ] ]. cosmonáutica_n1 := n_intr_uncount_le & [ STEM < "cosmonáutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmonáutica_n_rel" ] ]. cosmopolita_a1 := a_qual_intr_scopal_le & [ STEM < "cosmopolita" >, SYNSEM.LKEYS.KEYREL.PRED "_cosmopolita_a_rel" ]. cosmopolita_n1 := n_intr_count_le & [ STEM < "cosmopolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosmopolita_n_rel" ] ]. cosmopolitismo_n1 := n_intr_uncount_le & [ STEM < "cosmopolitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmopolitismo_n_rel" ] ]. cosmos_n1 := n_intr_mass_le & [ STEM < "cosmos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cosmos_n_rel" ] ]. cosmovisión_n1 := n_intr_count_le & [ STEM < "cosmovisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmovisión_n_rel" ] ]. cosmética_n1 := n_intr_uncount_le & [ STEM < "cosmética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosmética_n_rel" ] ]. cosmético_a1 := a_rel_nonprd_intr_le & [ STEM < "cosmético" >, SYNSEM.LKEYS.KEYREL.PRED "_cosmético_a_rel" ]. cosmético_n1 := n_intr_count_le & [ STEM < "cosmético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cosmético_n_rel" ] ]. cosmógrafo_n1 := n_intr_count_le & [ STEM < "cosmógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cosmógrafo_n_rel" ] ]. coso_n1 := n_intr_count_le & [ STEM < "coso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_coso_n_rel" ] ]. cosquillas_n1 := n_intr_uncount_pl_le & [ STEM < "cosquillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosquillas_n_rel" ] ]. cosquilleo_n1 := n_intr_mass_le & [ STEM < "cosquilleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cosquilleo_n_rel" ] ]. cosquilloso_a1 := a_qual_intr_ser_le & [ STEM < "cosquilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_cosquilloso_a_rel" ]. costa_n1 := n_intr_count_le & [ STEM < "costa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_costa_n_rel" ] ]. costado_n1 := n_intr_count_le & [ STEM < "costado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_costado_n_rel" ] ]. costal_a1 := a_rel_nonprd_intr_le & [ STEM < "costal" >, SYNSEM.LKEYS.KEYREL.PRED "_costal_a_rel" ]. costal_n1 := n_intr_count_le & [ STEM < "costal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_costal_n_rel" ] ]. costalero_n1 := n_intr_count_le & [ STEM < "costalero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_costalero_n_rel" ] ]. costanera_n1 := n_intr_count_le & [ STEM < "costanera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_costanera_n_rel" ] ]. costar_v1 := v_intr_io*_le & [ STEM < "costar" >, SYNSEM.LKEYS.KEYREL.PRED "_costar_v_rel" ]. costar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "costar" >, SYNSEM.LKEYS.KEYREL.PRED "_costar_v_rel" ]. costarricense_a1 := a_rel_prd_le & [ STEM < "costarricense" >, SYNSEM.LKEYS.KEYREL.PRED "_costarricense_a_rel" ]. costarricense_n1 := n_intr_count_le & [ STEM < "costarricense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_costarricense_n_rel" ] ]. costarriqueño_n1 := n_intr_count_le & [ STEM < "costarriqueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_costarriqueño_n_rel" ] ]. coste_n1 := n_intr_mass_le & [ STEM < "coste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coste_n_rel" ] ]. costear_v1 := v_ditrans*_le & [ STEM < "costear" >, SYNSEM.LKEYS.KEYREL.PRED "_costear_v_rel" ]. costeo_n1 := n_intr_uncount_pl_le & [ STEM < "costeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_costeo_n_rel" ] ]. costero_a1 := a_rel_nonprd_intr_le & [ STEM < "costero" >, SYNSEM.LKEYS.KEYREL.PRED "_costero_a_rel" ]. costeño_a1 := a_rel_nonprd_intr_le & [ STEM < "costeño" >, SYNSEM.LKEYS.KEYREL.PRED "_costeño_a_rel" ]. costilla_n1 := n_intr_count_le & [ STEM < "costilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_costilla_n_rel" ] ]. costo_n1 := n_intr_uncount_pl_le & [ STEM < "costo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_costo_n_rel" ] ]. costocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "costocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_costocervical_a_rel" ]. costoclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "costoclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_costoclavicular_a_rel" ]. costocondral_a1 := a_rel_nonprd_intr_le & [ STEM < "costocondral" >, SYNSEM.LKEYS.KEYREL.PRED "_costocondral_a_rel" ]. costodiafragmático_a1 := a_rel_nonprd_intr_le & [ STEM < "costodiafragmático" >, SYNSEM.LKEYS.KEYREL.PRED "_costodiafragmático_a_rel" ]. costomediastínico_a1 := a_rel_nonprd_intr_le & [ STEM < "costomediastínico" >, SYNSEM.LKEYS.KEYREL.PRED "_costomediastínico_a_rel" ]. costosamente_x1 := av_i_spr_le & [ STEM < "costosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_costosamente_x_rel" ]. costoso_a1 := a_or_le & [ STEM < "costoso" >, SYNSEM.LKEYS.KEYREL.PRED "_costoso_a_rel" ]. costoso_a2 := a_qual_intr_scopal_le & [ STEM < "costoso" >, SYNSEM.LKEYS.KEYREL.PRED "_costoso_a_rel" ]. costotransverso_a1 := a_rel_nonprd_intr_le & [ STEM < "costotransverso" >, SYNSEM.LKEYS.KEYREL.PRED "_costotransverso_a_rel" ]. costovertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "costovertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_costovertebral_a_rel" ]. costoxifoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "costoxifoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_costoxifoideo_a_rel" ]. costra_n1 := n_intr_mass_le & [ STEM < "costra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_costra_n_rel" ] ]. costroso_a1 := a_rel_nonprd_intr_le & [ STEM < "costroso" >, SYNSEM.LKEYS.KEYREL.PRED "_costroso_a_rel" ]. costumbre_n1 := n_intr_count_le & [ STEM < "costumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_costumbre_n_rel" ] ]. costumbrismo_n1 := n_intr_uncount_le & [ STEM < "costumbrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_costumbrismo_n_rel" ] ]. costumbrista_a1 := a_qual_intr_scopal_le & [ STEM < "costumbrista" >, SYNSEM.LKEYS.KEYREL.PRED "_costumbrista_a_rel" ]. costura_n1 := n_trans_le & [ STEM < "costura" >, SYNSEM.LKEYS.KEYREL.PRED "_costura_n_rel" ]. costurera_n1 := n_intr_count_le & [ STEM < "costurera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_costurera_n_rel" ] ]. costurero_n1 := n_intr_count_le & [ STEM < "costurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_costurero_n_rel" ] ]. cota_n1 := n_intr_count_le & [ STEM < "cota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cota_n_rel" ] ]. cotangente_n1 := n_intr_count_le & [ STEM < "cotangente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cotangente_n_rel" ] ]. cote_n1 := n_intr_count_le & [ STEM < "cote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cote_n_rel" ] ]. cotejar_v1 := v_trans_np_mrkd_np_sym_le & [ STEM < "cotejar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cotejar_v_rel" ] ]. cotejo_n1 := n_trans_le & [ STEM < "cotejo" >, SYNSEM.LKEYS.KEYREL.PRED "_cotejo_n_rel" ]. coterminal_a1 := a_rel_nonprd_intr_le & [ STEM < "coterminal" >, SYNSEM.LKEYS.KEYREL.PRED "_coterminal_a_rel" ]. cotidal_a1 := a_rel_nonprd_intr_le & [ STEM < "cotidal" >, SYNSEM.LKEYS.KEYREL.PRED "_cotidal_a_rel" ]. cotidianamente_x1 := av_s_prhd_le & [ STEM < "cotidianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cotidianamente_x_rel" ]. cotidianamente_x2 := av_i_psthd_le & [ STEM < "cotidianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cotidianamente_x_rel" ]. cotidianidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "cotidianidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cotidianidad_n_rel" ] ]. cotidiano_a1 := a_qual_intr_scopal_le & [ STEM < "cotidiano" >, SYNSEM.LKEYS.KEYREL.PRED "_cotidiano_a_rel" ]. cotiledón_n1 := n_intr_count_le & [ STEM < "cotiledón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cotiledón_n_rel" ] ]. cotilla_n1 := n_intr_count_le & [ STEM < "cotilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cotilla_n_rel" ] ]. cotilleo_n1 := n_result_intr_le & [ STEM < "cotilleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cotilleo_n_rel" ] ]. cotizable_a1 := a_qual_trans*_ser_le & [ STEM < "cotizable" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_cotizable_a_rel" ] ]. cotización_n1 := n_trans_le & [ STEM < "cotización" >, SYNSEM.LKEYS.KEYREL.PRED "_cotización_n_rel" ]. cotizador_n1 := n_subj-nom_le & [ STEM < "cotizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cotizador_n_rel" ] ]. cotizante_n1 := n_intr_count_le & [ STEM < "cotizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cotizante_n_rel" ] ]. coto_n1 := n_intr_count_le & [ STEM < "coto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_coto_n_rel" ] ]. cotorra_n1 := n_intr_count_le & [ STEM < "cotorra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cotorra_n_rel" ] ]. cotraduccional_a1 := a_rel_nonprd_intr_le & [ STEM < "cotraduccional" >, SYNSEM.LKEYS.KEYREL.PRED "_cotraduccional_a_rel" ]. cotón_n1 := n_intr_mass-or-count_le & [ STEM < "cotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cotón_n_rel" ] ]. coulomb_n := n_intr_count_le & [ STEM < "coulomb" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_coulomb_n_rel" ] ]. courier_n := n_intr_mass_le & [ STEM < "courier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_courier_n_rel" ] ]. covada_n1 := n_intr_count_le & [ STEM < "covada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_covada_n_rel" ] ]. covalencia_n1 := n_intr_count_le & [ STEM < "covalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_covalencia_n_rel" ] ]. covalente_a1 := a_rel_nonprd_intr_le & [ STEM < "covalente" >, SYNSEM.LKEYS.KEYREL.PRED "_covalente_a_rel" ]. covalentemente_x1 := av_i_spr_le & [ STEM < "covalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_covalentemente_x_rel" ]. covariante_a1 := a_rel_nonprd_intr_le & [ STEM < "covariante" >, SYNSEM.LKEYS.KEYREL.PRED "_covariante_a_rel" ]. covariante_n1 := n_intr_count_le & [ STEM < "covariante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_covariante_n_rel" ] ]. covarianza_n1 := n_intr_uncount_pl_le & [ STEM < "covarianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_covarianza_n_rel" ] ]. covelita_n1 := n_intr_count_le & [ STEM < "covelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_covelita_n_rel" ] ]. cowboy_n1 := n_intr_count_le & [ STEM < "cowboy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cowboy_n_rel" ] ]. coxa_n1 := n_ppcomp_count_le & [ STEM < "coxa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coxa_n_rel" ] ]. coxal_n1 := n_intr_count_le & [ STEM < "coxal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coxal_n_rel" ] ]. coxal_n2 := n_ppcomp_count_le & [ STEM < "coxal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coxal_n_rel" ] ]. coxis_n1 := n_ppcomp_count_le & [ STEM < "coxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_coxis_n_rel" ] ]. coxofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "coxofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_coxofemoral_a_rel" ]. coyote_n1 := n_intr_count_le & [ STEM < "coyote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_coyote_n_rel" ] ]. coyuntura_n1 := n_intr_count_le & [ STEM < "coyuntura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coyuntura_n_rel" ] ]. coyuntural_a1 := a_rel_nonprd_intr_le & [ STEM < "coyuntural" >, SYNSEM.LKEYS.KEYREL.PRED "_coyuntural_a_rel" ]. coz_n1 := n_intr_uncount_pl_le & [ STEM < "coz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_coz_n_rel" ] ]. coágulo_n1 := n_intr_count_le & [ STEM < "coágulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coágulo_n_rel" ] ]. coñac_n1 := n_intr_mass_le & [ STEM < "coñac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_coñac_n_rel" ] ]. crack_n1 := n_intr_mass-or-count_le & [ STEM < "crack" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crack_n_rel" ] ]. crampón_n1 := n_intr_count_le & [ STEM < "crampón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crampón_n_rel" ] ]. craneal_a1 := a_rel_nonprd_intr_le & [ STEM < "craneal" >, SYNSEM.LKEYS.KEYREL.PRED "_craneal_a_rel" ]. craneano_a1 := a_rel_nonprd_intr_le & [ STEM < "craneano" >, SYNSEM.LKEYS.KEYREL.PRED "_craneano_a_rel" ]. craneoencefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "craneoencefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_craneoencefálico_a_rel" ]. craneofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "craneofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_craneofacial_a_rel" ]. craneomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "craneomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_craneomaxilar_a_rel" ]. craneométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "craneométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_craneométrico_a_rel" ]. craneógrafo_n1 := n_intr_count_le & [ STEM < "craneógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_craneógrafo_n_rel" ] ]. craqueo_n1 := n_trans_le & [ STEM < "craqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_craqueo_n_rel" ]. crasitud_n1 := n_intr_uncount_pl_le & [ STEM < "crasitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crasitud_n_rel" ] ]. craso_a1 := a_adv_event_le & [ STEM < "craso" >, SYNSEM.LKEYS.KEYREL.PRED "_craso_a_rel" ]. cratera_n1 := n_intr_count_le & [ STEM < "cratera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cratera_n_rel" ] ]. crateriforme_a1 := a_qual_intr_ser_le & [ STEM < "crateriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_crateriforme_a_rel" ]. cratón_n1 := n_intr_count_le & [ STEM < "cratón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cratón_n_rel" ] ]. craurosis_n1 := n_intr_uncount_le & [ STEM < "craurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_craurosis_n_rel" ] ]. creación_n1 := n_trans_le & [ STEM < "creación" >, SYNSEM.LKEYS.KEYREL.PRED "_creación_n_rel" ]. creador_a1 := a_rel_nonprd_intr_le & [ STEM < "creador" >, SYNSEM.LKEYS.KEYREL.PRED "_creador_a_rel" ]. creador_n1 := n_subj-nom_le & [ STEM < "creador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_creador_n_rel" ] ]. crear_v1 := v_subj_cp_prop_ditrans*_le & [ STM < "crear" >, SYNSEM.LKEYS.KEYREL.PRED "_crear_v_rel" ]. crear_v2 := v_ditrans*_le & [ STEM < "crear" >, SYNSEM.LKEYS.KEYREL.PRED "_crear_v_rel" ]. creativamente_x1 := av_i_spr_le & [ STEM < "creativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_creativamente_x_rel" ]. creatividad_n1 := n_intr_mass_le & [ STEM < "creatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_creatividad_n_rel" ] ]. creativo_a1 := a_qual_intr_ser_le & [ STEM < "creativo" >, SYNSEM.LKEYS.KEYREL.PRED "_creativo_a_rel" ]. crecer_v := v_unacc_perf_le & [ STEM < "crecer" >, SYNSEM.LKEYS.KEYREL.PRED "_crecer_v_rel" ]. crecero_n1 := n_intr_count_le & [ STEM < "crecero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crecero_n_rel" ] ]. crecida_n1 := n_event-result_intr_le & [ STEM < "crecida" >, SYNSEM.LKEYS.KEYREL.PRED "_crecida_n_rel" ]. creciente_a1 := a_qual_intr_ser_le & [ STEM < "creciente" >, SYNSEM.LKEYS.KEYREL.PRED "_creciente_a_rel" ]. crecientemente_x1 := av_i_spr_le & [ STEM < "crecientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_crecientemente_x_rel" ]. crecimiento_n1 := n_event-result_intr_le & [ STEM < "crecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_crecimiento_n_rel" ]. credencial_a1 := a_rel_nonprd_intr_le & [ STEM < "credencial" >, SYNSEM.LKEYS.KEYREL.PRED "_credencial_a_rel" ]. credencial_n1 := n_intr_count_le & [ STEM < "credencial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_credencial_n_rel" ] ]. credibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "credibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_credibilidad_n_rel" ] ]. crediticio_a1 := a_rel_nonprd_intr_le & [ STEM < "crediticio" >, SYNSEM.LKEYS.KEYREL.PRED "_crediticio_a_rel" ]. creditor_n1 := n_subj-nom_le & [ STEM < "creditor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_creditor_n_rel" ] ]. credo_n1 := n_intr_count_le & [ STEM < "credo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_credo_n_rel" ] ]. credulidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "credulidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_credulidad_n_rel" ] ]. creencia_n1 := n_trans_le & [ STEM < "creencia" >, SYNSEM.LKEYS.KEYREL.PRED "_creencia_n_rel" ]. crema_n1 := n_intr_mass-or-count_le & [ STEM < "crema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_crema_n_rel" ] ]. cremación_n1 := n_trans_le & [ STEM < "cremación" >, SYNSEM.LKEYS.KEYREL.PRED "_cremación_n_rel" ]. cremallera_n1 := n_intr_count_le & [ STEM < "cremallera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cremallera_n_rel" ] ]. cremastérico_a1 := a_rel_nonprd_intr_le & [ STEM < "cremastérico" >, SYNSEM.LKEYS.KEYREL.PRED "_cremastérico_a_rel" ]. crematorio_a1 := a_rel_nonprd_intr_le & [ STEM < "crematorio" >, SYNSEM.LKEYS.KEYREL.PRED "_crematorio_a_rel" ]. crematorio_n1 := n_intr_count_le & [ STEM < "crematorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_crematorio_n_rel" ] ]. crematístico_a1 := a_rel_nonprd_intr_le & [ STEM < "crematístico" >, SYNSEM.LKEYS.KEYREL.PRED "_crematístico_a_rel" ]. cremona_n1 := n_intr_count_le & [ STEM < "cremona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cremona_n_rel" ] ]. cremosidad_n1 := n_ppcomp_mass_le & [ STEM < "cremosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cremosidad_n_rel" ] ]. cremoso_a1 := a_qual_intr_scopal_le & [ STEM < "cremoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cremoso_a_rel" ]. crenocito_n1 := n_intr_count_le & [ STEM < "crenocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crenocito_n_rel" ] ]. creosota_n1 := n_intr_count_le & [ STEM < "creosota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_creosota_n_rel" ] ]. crepe_n1 := n_intr_count_le & [ STEM < "crepe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crepe_n_rel" ] ]. crepería_n1 := n_intr_count_le & [ STEM < "crepería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_crepería_n_rel" ] ]. crepidoma_n1 := n_intr_count_le & [ STEM < "crepidoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crepidoma_n_rel" ] ]. crepitación_n1 := n_result_intr_le & [ STEM < "crepitación" >, SYNSEM.LKEYS.KEYREL.PRED "_crepitación_n_rel" ]. crepitar_v := v_intr_le & [ STEM < "crepitar" >, SYNSEM.LKEYS.KEYREL.PRED "_crepitar_v_rel" ]. crepuscular_a1 := a_rel_nonprd_intr_le & [ STEM < "crepuscular" >, SYNSEM.LKEYS.KEYREL.PRED "_crepuscular_a_rel" ]. crepúsculo_n1 := n_intr_uncount_pl_le & [ STEM < "crepúsculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crepúsculo_n_rel" ] ]. crescendo_n1 := n_intr_count_le & [ STEM < "crescendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crescendo_n_rel" ] ]. cresol_n1 := n_intr_count_le & [ STEM < "cresol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cresol_n_rel" ] ]. crespo_a1 := a_qual_intr_scopal_le & [ STEM < "crespo" >, SYNSEM.LKEYS.KEYREL.PRED "_crespo_a_rel" ]. cresponado_a1 := a_qual_intr_scopal_le & [ STEM < "cresponado" >, SYNSEM.LKEYS.KEYREL.PRED "_cresponado_a_rel" ]. crespón_n1 := n_intr_mass_le & [ STEM < "crespón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crespón_n_rel" ] ]. cresta_n1 := n_intr_count_le & [ STEM < "cresta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cresta_n_rel" ] ]. crestería_n1 := n_intr_uncount_le & [ STEM < "crestería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crestería_n_rel" ] ]. crestón_n1 := n_intr_count_le & [ STEM < "crestón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crestón_n_rel" ] ]. creta_n1 := n_intr_count_le & [ STEM < "creta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_creta_n_rel" ] ]. cretense_a1 := a_rel_prd_le & [ STEM < "cretense" >, SYNSEM.LKEYS.KEYREL.PRED "_cretense_a_rel" ]. cretense_n1 := n_intr_count_le & [ STEM < "cretense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cretense_n_rel" ] ]. cretino_a1 := a_qual_intr_ser_le & [ STEM < "cretino" >, SYNSEM.LKEYS.KEYREL.PRED "_cretino_a_rel" ]. cretona_n1 := n_intr_count_le & [ STEM < "cretona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cretona_n_rel" ] ]. cretáceamente_x1 := av_i_spr_le & [ STEM < "cretáceamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cretáceamente_x_rel" ]. cretáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "cretáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_cretáceo_a_rel" ]. creyente_n1 := n_intr_count_le & [ STEM < "creyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_creyente_n_rel" ] ]. creíble_a1 := a_qual_intr_scopal_le & [ STEM < "creíble" >, SYNSEM.LKEYS.KEYREL.PRED "_creíble_a_rel" ]. creído_a1 := a_qual_intr_ser_le & [ STEM < "creído" >, SYNSEM.LKEYS.KEYREL.PRED "_creído_a_rel" ]. criadero_n1 := n_intr_count_le & [ STEM < "criadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_criadero_n_rel" ] ]. criado_n1 := n_intr_count_le & [ STEM < "criado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criado_n_rel" ] ]. criador_n1 := n_subj-nom_le & [ STEM < "criador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criador_n_rel" ] ]. crianza_n1 := n_trans_le & [ STEM < "crianza" >, SYNSEM.LKEYS.KEYREL.PRED "_crianza_n_rel" ]. criar_v1 := v_trans_np*_le & [ STEM < "criar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani, PRED "_criar_v_rel" ] ]. criar_v2 := v_trans_np_caus_le & [ STEM < "criar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_criar_v_rel" ] ]. criatura_n1 := n_intr_count_le & [ STEM < "criatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_criatura_n_rel" ] ]. criba_n1 := n_intr_count_le & [ STEM < "criba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criba_n_rel" ] ]. cribar_v := v_trans_np_le & [ STEM < "cribar" >, SYNSEM.LKEYS.KEYREL.PRED "_cribar_v_rel" ]. cribiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "cribiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_cribiforme_a_rel" ]. criboso_a1 := a_rel_nonprd_intr_le & [ STEM < "criboso" >, SYNSEM.LKEYS.KEYREL.PRED "_criboso_a_rel" ]. cricotiroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "cricotiroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_cricotiroideo_a_rel" ]. cricotomía_n1 := n_intr_count_le & [ STEM < "cricotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cricotomía_n_rel" ] ]. cricotraqueal_a1 := a_rel_nonprd_intr_le & [ STEM < "cricotraqueal" >, SYNSEM.LKEYS.KEYREL.PRED "_cricotraqueal_a_rel" ]. crimen_n1 := n_intr_count_le & [ STEM < "crimen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crimen_n_rel" ] ]. criminal_a1 := a_qual_intr_ser_le & [ STEM < "criminal" >, SYNSEM.LKEYS.KEYREL.PRED "_criminal_a_rel" ]. criminal_n1 := n_intr_count_le & [ STEM < "criminal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criminal_n_rel" ] ]. criminalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "criminalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criminalidad_n_rel" ] ]. criminalismo_n1 := n_intr_uncount_le & [ STEM < "criminalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criminalismo_n_rel" ] ]. criminalista_n1 := n_intr_count_le & [ STEM < "criminalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criminalista_n_rel" ] ]. criminalización_n1 := n_trans_le & [ STEM < "criminalización" >, SYNSEM.LKEYS.KEYREL.PRED "_criminalización_n_rel" ]. criminalizar_v := v_trans_np_le & [ STEM < "criminalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_criminalizar_v_rel" ]. criminalmente_x1 := av_i_spr_le & [ STEM < "criminalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_criminalmente_x_rel" ]. criminalística_n1 := n_intr_uncount_le & [ STEM < "criminalística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criminalística_n_rel" ] ]. criminalístico_a1 := a_rel_nonprd_intr_le & [ STEM < "criminalístico" >, SYNSEM.LKEYS.KEYREL.PRED "_criminalístico_a_rel" ]. criminología_n1 := n_intr_uncount_le & [ STEM < "criminología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criminología_n_rel" ] ]. criminológico_a1 := a_rel_nonprd_intr_le & [ STEM < "criminológico" >, SYNSEM.LKEYS.KEYREL.PRED "_criminológico_a_rel" ]. criminólogo_n1 := n_intr_count_le & [ STEM < "criminólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criminólogo_n_rel" ] ]. crin_n2 := n_ppcomp_count_le & [ STEM < "crin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_crin_n_rel" ] ]. crinofagia_n1 := n_intr_uncount_le & [ STEM < "crinofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crinofagia_n_rel" ] ]. crioaglutinina_n1 := n_intr_mass_le & [ STEM < "crioaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crioaglutinina_n_rel" ] ]. criobiología_n1 := n_intr_uncount_le & [ STEM < "criobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criobiología_n_rel" ] ]. criobisturí_n1 := n_intr_count_le & [ STEM < "criobisturí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criobisturí_n_rel" ] ]. criobomba_n1 := n_intr_count_le & [ STEM < "criobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criobomba_n_rel" ] ]. criocauterizador_n1 := n_intr_count_le & [ STEM < "criocauterizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criocauterizador_n_rel" ] ]. criocirugía_n1 := n_intr_count_le & [ STEM < "criocirugía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criocirugía_n_rel" ] ]. criocoagulación_n1 := n_intr_count_le & [ STEM < "criocoagulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criocoagulación_n_rel" ] ]. crioenfriamiento_n1 := n_trans_le & [ STEM < "crioenfriamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_crioenfriamiento_n_rel" ]. criofílicamente_x1 := av_i_spr_le & [ STEM < "criofílicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_criofílicamente_x_rel" ]. criogenia_n1 := n_intr_uncount_le & [ STEM < "criogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criogenia_n_rel" ] ]. criogeno_a1 := a_rel_nonprd_intr_le & [ STEM < "criogeno" >, SYNSEM.LKEYS.KEYREL.PRED "_criogeno_a_rel" ]. crioglobulina_n1 := n_intr_count_le & [ STEM < "crioglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crioglobulina_n_rel" ] ]. crioglobulinemia_n1 := n_intr_uncount_le & [ STEM < "crioglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crioglobulinemia_n_rel" ] ]. criogénicamente_x1 := av_i_spr_le & [ STEM < "criogénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_criogénicamente_x_rel" ]. criogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "criogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_criogénico_a_rel" ]. criohidráticamente_x1 := av_i_spr_le & [ STEM < "criohidráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_criohidráticamente_x_rel" ]. criohidrático_a1 := a_rel_nonprd_intr_le & [ STEM < "criohidrático" >, SYNSEM.LKEYS.KEYREL.PRED "_criohidrático_a_rel" ]. crioinstrumental_n1 := n_intr_count_le & [ STEM < "crioinstrumental" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crioinstrumental_n_rel" ] ]. criointerceptor_n1 := n_intr_count_le & [ STEM < "criointerceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criointerceptor_n_rel" ] ]. criolita_n1 := n_intr_count_le & [ STEM < "criolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_criolita_n_rel" ] ]. criollización_n1 := n_trans_le & [ STEM < "criollización" >, SYNSEM.LKEYS.KEYREL.PRED "_criollización_n_rel" ]. criollo_a1 := a_rel_nonprd_intr_le & [ STEM < "criollo" >, SYNSEM.LKEYS.KEYREL.PRED "_criollo_a_rel" ]. criollo_n1 := n_intr_count_le & [ STEM < "criollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criollo_n_rel" ] ]. criología_n1 := n_intr_uncount_le & [ STEM < "criología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criología_n_rel" ] ]. criomedicina_n1 := n_intr_uncount_le & [ STEM < "criomedicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criomedicina_n_rel" ] ]. crioprotector_n1 := n_intr_count_le & [ STEM < "crioprotector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crioprotector_n_rel" ] ]. criorretinopexia_n1 := n_intr_count_le & [ STEM < "criorretinopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_criorretinopexia_n_rel" ] ]. crioscopia_n1 := n_intr_count_le & [ STEM < "crioscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crioscopia_n_rel" ] ]. crioscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "crioscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_crioscópico_a_rel" ]. criosonda_n1 := n_intr_count_le & [ STEM < "criosonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criosonda_n_rel" ] ]. criostato_n1 := n_intr_count_le & [ STEM < "criostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criostato_n_rel" ] ]. crioterapia_n1 := n_intr_uncount_le & [ STEM < "crioterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crioterapia_n_rel" ] ]. criotratamiento_n1 := n_trans_le & [ STEM < "criotratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_criotratamiento_n_rel" ]. crioturbación_n1 := n_intr_count_le & [ STEM < "crioturbación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crioturbación_n_rel" ] ]. crioválvula_n1 := n_intr_count_le & [ STEM < "crioválvula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crioválvula_n_rel" ] ]. cripta_n1 := n_intr_count_le & [ STEM < "cripta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cripta_n_rel" ] ]. criptocristalinamente_x1 := av_i_spr_le & [ STEM < "criptocristalinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_criptocristalinamente_x_rel" ]. criptocristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "criptocristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_criptocristalino_a_rel" ]. criptofito_n1 := n_intr_count_le & [ STEM < "criptofito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_criptofito_n_rel" ] ]. criptofonía_n1 := n_intr_uncount_le & [ STEM < "criptofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criptofonía_n_rel" ] ]. criptoftalmía_n1 := n_intr_uncount_le & [ STEM < "criptoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criptoftalmía_n_rel" ] ]. criptogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "criptogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_criptogenético_a_rel" ]. criptografía_n1 := n_intr_uncount_le & [ STEM < "criptografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criptografía_n_rel" ] ]. criptograma_n1 := n_intr_count_le & [ STEM < "criptograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criptograma_n_rel" ] ]. criptográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "criptográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_criptográfico_a_rel" ]. criptomerismo_n1 := n_intr_uncount_le & [ STEM < "criptomerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criptomerismo_n_rel" ] ]. criptomero_n1 := n_intr_count_le & [ STEM < "criptomero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criptomero_n_rel" ] ]. criptopórtico_n1 := n_intr_count_le & [ STEM < "criptopórtico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_criptopórtico_n_rel" ] ]. criptotelefonía_n1 := n_intr_uncount_le & [ STEM < "criptotelefonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criptotelefonía_n_rel" ] ]. criptógamo_a1 := a_rel_nonprd_intr_le & [ STEM < "criptógamo" >, SYNSEM.LKEYS.KEYREL.PRED "_criptógamo_a_rel" ]. criptógrafo_n1 := n_intr_count_le & [ STEM < "criptógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criptógrafo_n_rel" ] ]. criptólogo_n1 := n_intr_count_le & [ STEM < "criptólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criptólogo_n_rel" ] ]. criptómetro_n1 := n_intr_count_le & [ STEM < "criptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criptómetro_n_rel" ] ]. criptón_n1 := n_intr_mass_le & [ STEM < "criptón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_criptón_n_rel" ] ]. criquet_n1 := n_intr_uncount_le & [ STEM < "criquet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criquet_n_rel" ] ]. crisantemo_n1 := n_intr_count_le & [ STEM < "crisantemo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_crisantemo_n_rel" ] ]. crisarrobina_n1 := n_intr_count_le & [ STEM < "crisarrobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisarrobina_n_rel" ] ]. criseno_n1 := n_intr_mass-or-count_le & [ STEM < "criseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_criseno_n_rel" ] ]. crisis_n1 := n_intr_count_le & [ STEM < "crisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crisis_n_rel" ] ]. crisma_n1 := n_intr_count_le & [ STEM < "crisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisma_n_rel" ] ]. crisoberilo_n1 := n_intr_count_le & [ STEM < "crisoberilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisoberilo_n_rel" ] ]. crisocola_n1 := n_intr_count_le & [ STEM < "crisocola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisocola_n_rel" ] ]. crisol_n1 := n_intr_count_le & [ STEM < "crisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisol_n_rel" ] ]. crisolada_n1 := n_intr_count_le & [ STEM < "crisolada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crisolada_n_rel" ] ]. crisoprasa_n1 := n_intr_count_le & [ STEM < "crisoprasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisoprasa_n_rel" ] ]. crisoterapia_n1 := n_intr_uncount_le & [ STEM < "crisoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crisoterapia_n_rel" ] ]. crisotilo_n1 := n_intr_count_le & [ STEM < "crisotilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisotilo_n_rel" ] ]. crispación_n1 := n_trans_le & [ STEM < "crispación" >, SYNSEM.LKEYS.KEYREL.PRED "_crispación_n_rel" ]. crispar_v := v_trans_np_le & [ STEM < "crispar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_crispar_v_rel" ] ]. crispar_v1 := v_intr_io*_le & [ STEM < "crispar" >, SYNSEM.LKEYS.KEYREL.PRED "_crispar_v_rel" ]. crispar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "crispar" >, SYNSEM.LKEYS.KEYREL.PRED "_crispar_v_rel" ]. cristal_n1 := n_intr_mass-or-count_le & [ STEM < "cristal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cristal_n_rel" ] ]. cristalera_n1 := n_intr_count_le & [ STEM < "cristalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cristalera_n_rel" ] ]. cristalería_n1 := n_intr_count_le & [ STEM < "cristalería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cristalería_n_rel" ] ]. cristalinidad_n1 := n_intr_mass_le & [ STEM < "cristalinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristalinidad_n_rel" ] ]. cristalino_a1 := a_qual_intr_ser_le & [ STEM < "cristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_cristalino_a_rel" ]. cristalita_n1 := n_intr_count_le & [ STEM < "cristalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cristalita_n_rel" ] ]. cristalitis_n1 := n_intr_uncount_le & [ STEM < "cristalitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristalitis_n_rel" ] ]. cristalito_n1 := n_intr_count_le & [ STEM < "cristalito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cristalito_n_rel" ] ]. cristalización_n1 := n_trans_le & [ STEM < "cristalización" >, SYNSEM.LKEYS.KEYREL.PRED "_cristalización_n_rel" ]. cristalizador_n1 := n_intr_count_le & [ STEM < "cristalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cristalizador_n_rel" ] ]. cristalizar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "cristalizar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_cristalizar_v_rel" ] ] ]. cristalizar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "cristalizar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, ARG2.SORT abs_pro, PRED "_cristalizar_v_rel" ] ] ]. cristalizar_v3 := v_trans_np_caus_le & [ STEM < "cristalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_cristalizar_v_rel" ]. cristalofísica_n1 := n_intr_uncount_le & [ STEM < "cristalofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristalofísica_n_rel" ] ]. cristalografía_n1 := n_intr_uncount_le & [ STEM < "cristalografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristalografía_n_rel" ] ]. cristalograma_n1 := n_intr_count_le & [ STEM < "cristalograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristalograma_n_rel" ] ]. cristalográficamente_x1 := av_i_spr_le & [ STEM < "cristalográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cristalográficamente_x_rel" ]. cristalográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cristalográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cristalográfico_a_rel" ]. cristaloide_n1 := n_intr_count_le & [ STEM < "cristaloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cristaloide_n_rel" ] ]. cristaloluminiscencia_n1 := n_intr_uncount_le & [ STEM < "cristaloluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristaloluminiscencia_n_rel" ] ]. cristaloquímica_n1 := n_intr_uncount_le & [ STEM < "cristaloquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristaloquímica_n_rel" ] ]. cristianamente_x1 := av_i_spr_le & [ STEM < "cristianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cristianamente_x_rel" ]. cristiandad_n1 := n_intr_coll_le & [ STEM < "cristiandad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristiandad_n_rel" ] ]. cristianismo_n1 := n_intr_uncount_le & [ STEM < "cristianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristianismo_n_rel" ] ]. cristianización_n1 := n_trans_le & [ STEM < "cristianización" >, SYNSEM.LKEYS.KEYREL.PRED "_cristianización_n_rel" ]. cristiano_a1 := a_qual_intr_ser_le & [ STEM < "cristiano" >, SYNSEM.LKEYS.KEYREL.PRED "_cristiano_a_rel" ]. cristiano_n1 := n_intr_count_le & [ STEM < "cristiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cristiano_n_rel" ] ]. cristianodemócrata_n1 := n_intr_count_le & [ STEM < "cristianodemócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cristianodemócrata_n_rel" ] ]. cristo_n1 := n_intr_count_le & [ STEM < "cristo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cristo_n_rel" ] ]. cristobalita_n1 := n_intr_count_le & [ STEM < "cristobalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cristobalita_n_rel" ] ]. crisálida_n1 := n_intr_count_le & [ STEM < "crisálida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisálida_n_rel" ] ]. crisólito_n1 := n_intr_count_le & [ STEM < "crisólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crisólito_n_rel" ] ]. criterio_n1 := n_intr_count_le & [ STEM < "criterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criterio_n_rel" ] ]. criticable_a1 := a_qual_intr_scopal_le & [ STEM < "criticable" >, SYNSEM.LKEYS.KEYREL.PRED "_criticable_a_rel" ]. criticador_a1 := a_qual_intr_ser_le & [ STEM < "criticador" >, SYNSEM.LKEYS.KEYREL.PRED "_criticador_a_rel" ]. criticar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "criticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_criticar_v_rel" ] ]. criticar_v2 := v_trans_cp_semi_ques_le & [ STEM < "criticar" >, SYNSEM.LKEYS.KEYREL.PRED "_criticar_v_rel" ]. criticar_v3 := v_trans_np*_le & [ STEM < "criticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_criticar_v_rel" ] ]. criticismo_n1 := n_intr_uncount_le & [ STEM < "criticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_criticismo_n_rel" ] ]. criticón_a1 := a_qual_intr_ser_le & [ STEM < "criticón" >, SYNSEM.LKEYS.KEYREL.PRED "_criticón_a_rel" ]. criticón_n1 := n_intr_count_le & [ STEM < "criticón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_criticón_n_rel" ] ]. criógeno_n1 := n_intr_count_le & [ STEM < "criógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_criógeno_n_rel" ] ]. croar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "croar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_croar_v_rel" ] ]. croar_v2 := v_ditrans*_le & [ STEM < "croar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_croar_v_rel" ] ]. croata_a1 := a_rel_prd_le & [ STEM < "croata" >, SYNSEM.LKEYS.KEYREL.PRED "_croata_a_rel" ]. croata_n1 := n_intr_count_le & [ STEM < "croata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_croata_n_rel" ] ]. crocante_n1 := n_intr_count_le & [ STEM < "crocante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crocante_n_rel" ] ]. crochet_n1 := n_intr_count_le & [ STEM < "crochet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crochet_n_rel" ] ]. crocidolita_n1 := n_intr_count_le & [ STEM < "crocidolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crocidolita_n_rel" ] ]. croco_n1 := n_intr_mass_le & [ STEM < "croco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_croco_n_rel" ] ]. crocoita_n1 := n_intr_count_le & [ STEM < "crocoita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crocoita_n_rel" ] ]. croissant_n1 := n_intr_count_le & [ STEM < "croissant" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_croissant_n_rel" ] ]. croissantería_n1 := n_intr_count_le & [ STEM < "croissantería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_croissantería_n_rel" ] ]. crol_n1 := n_intr_uncount_le & [ STEM < "crol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crol_n_rel" ] ]. crolista_n1 := n_intr_count_le & [ STEM < "crolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_crolista_n_rel" ] ]. cromado_n1 := n_trans_le & [ STEM < "cromado" >, SYNSEM.LKEYS.KEYREL.PRED "_cromado_n_rel" ]. cromar_v := v_trans_np_le & [ STEM < "cromar" >, SYNSEM.LKEYS.KEYREL.PRED "_cromar_v_rel" ]. cromatidio_n1 := n_intr_mass_le & [ STEM < "cromatidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cromatidio_n_rel" ] ]. cromatina_n1 := n_intr_count_le & [ STEM < "cromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromatina_n_rel" ] ]. cromatismo_n1 := n_intr_uncount_le & [ STEM < "cromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatismo_n_rel" ] ]. cromato_n1 := n_intr_count_le & [ STEM < "cromato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cromato_n_rel" ] ]. cromatoforo_n1 := n_intr_count_le & [ STEM < "cromatoforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromatoforo_n_rel" ] ]. cromatografía_n1 := n_intr_count_le & [ STEM < "cromatografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatografía_n_rel" ] ]. cromatograma_n1 := n_intr_count_le & [ STEM < "cromatograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatograma_n_rel" ] ]. cromatología_n1 := n_intr_uncount_le & [ STEM < "cromatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatología_n_rel" ] ]. cromatometría_n1 := n_intr_count_le & [ STEM < "cromatometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatometría_n_rel" ] ]. cromatopsia_n1 := n_intr_count_le & [ STEM < "cromatopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatopsia_n_rel" ] ]. cromatoptometría_n1 := n_intr_count_le & [ STEM < "cromatoptometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatoptometría_n_rel" ] ]. cromatoptómetro_n1 := n_intr_count_le & [ STEM < "cromatoptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromatoptómetro_n_rel" ] ]. cromatínico_a1 := a_rel_nonprd_intr_le & [ STEM < "cromatínico" >, SYNSEM.LKEYS.KEYREL.PRED "_cromatínico_a_rel" ]. cromatógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "cromatógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cromatógeno_a_rel" ]. cromatógrafo_n1 := n_intr_count_le & [ STEM < "cromatógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromatógrafo_n_rel" ] ]. cromatómetro_n1 := n_intr_count_le & [ STEM < "cromatómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromatómetro_n_rel" ] ]. cromidio_n1 := n_intr_count_le & [ STEM < "cromidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cromidio_n_rel" ] ]. crominancia_n1 := n_intr_uncount_le & [ STEM < "crominancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crominancia_n_rel" ] ]. cromita_n1 := n_intr_count_le & [ STEM < "cromita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cromita_n_rel" ] ]. cromizar_v := v_trans_np_le & [ STEM < "cromizar" >, SYNSEM.LKEYS.KEYREL.PRED "_cromizar_v_rel" ]. cromo_n1 := n_intr_mass-or-count_le & [ STEM < "cromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cromo_n_rel" ] ]. cromocentro_n1 := n_intr_count_le & [ STEM < "cromocentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromocentro_n_rel" ] ]. cromocito_n1 := n_intr_count_le & [ STEM < "cromocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromocito_n_rel" ] ]. cromofobio_a1 := a_rel_nonprd_intr_le & [ STEM < "cromofobio" >, SYNSEM.LKEYS.KEYREL.PRED "_cromofobio_a_rel" ]. cromofílico_a1 := a_rel_nonprd_intr_le & [ STEM < "cromofílico" >, SYNSEM.LKEYS.KEYREL.PRED "_cromofílico_a_rel" ]. cromoglicato_n1 := n_intr_count_le & [ STEM < "cromoglicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromoglicato_n_rel" ] ]. cromogénicamente_x1 := av_i_spr_le & [ STEM < "cromogénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cromogénicamente_x_rel" ]. cromogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "cromogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_cromogénico_a_rel" ]. cromoisomerismo_n1 := n_intr_uncount_le & [ STEM < "cromoisomerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromoisomerismo_n_rel" ] ]. cromolina_n1 := n_intr_count_le & [ STEM < "cromolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromolina_n_rel" ] ]. cromolitografía_n1 := n_intr_count_le & [ STEM < "cromolitografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromolitografía_n_rel" ] ]. cromolitográficamente_x1 := av_i_spr_le & [ STEM < "cromolitográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cromolitográficamente_x_rel" ]. cromolitográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cromolitográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cromolitográfico_a_rel" ]. cromoplasto_n1 := n_intr_count_le & [ STEM < "cromoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromoplasto_n_rel" ] ]. cromoptómetro_n1 := n_intr_count_le & [ STEM < "cromoptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromoptómetro_n_rel" ] ]. cromorretinografía_n1 := n_intr_count_le & [ STEM < "cromorretinografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromorretinografía_n_rel" ] ]. cromosamente_x1 := av_i_spr_le & [ STEM < "cromosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cromosamente_x_rel" ]. cromoscopia_n1 := n_intr_count_le & [ STEM < "cromoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromoscopia_n_rel" ] ]. cromoscopio_n1 := n_intr_count_le & [ STEM < "cromoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromoscopio_n_rel" ] ]. cromosfera_n1 := n_intr_count_le & [ STEM < "cromosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromosfera_n_rel" ] ]. cromoso_a1 := a_rel_nonprd_intr_le & [ STEM < "cromoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cromoso_a_rel" ]. cromosoma_n1 := n_intr_count_le & [ STEM < "cromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromosoma_n_rel" ] ]. cromosomina_n1 := n_intr_count_le & [ STEM < "cromosomina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromosomina_n_rel" ] ]. cromosómico_a1 := a_rel_nonprd_intr_le & [ STEM < "cromosómico" >, SYNSEM.LKEYS.KEYREL.PRED "_cromosómico_a_rel" ]. cromotipo_n1 := n_intr_count_le & [ STEM < "cromotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cromotipo_n_rel" ] ]. cromáticamente_x1 := av_i_spr_le & [ STEM < "cromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cromáticamente_x_rel" ]. cromático_a1 := a_rel_nonprd_intr_le & [ STEM < "cromático" >, SYNSEM.LKEYS.KEYREL.PRED "_cromático_a_rel" ]. cromóforo_n1 := n_intr_count_le & [ STEM < "cromóforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromóforo_n_rel" ] ]. cromógenamente_x1 := av_i_spr_le & [ STEM < "cromógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cromógenamente_x_rel" ]. cromógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "cromógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cromógeno_a_rel" ]. cromómero_n1 := n_intr_count_le & [ STEM < "cromómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cromómero_n_rel" ] ]. cronicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "cronicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cronicidad_n_rel" ] ]. cronista_n1 := n_intr_count_le & [ STEM < "cronista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cronista_n_rel" ] ]. cronoescalada_n1 := n_trans_le & [ STEM < "cronoescalada" >, SYNSEM.LKEYS.KEYREL.PRED "_cronoescalada_n_rel" ]. cronoestratigráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cronoestratigráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cronoestratigráfico_a_rel" ]. cronograma_n1 := n_intr_count_le & [ STEM < "cronograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cronograma_n_rel" ] ]. cronográficamente_x1 := av_i_spr_le & [ STEM < "cronográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cronográficamente_x_rel" ]. cronográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "cronográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_cronográfico_a_rel" ]. cronología_n1 := n_intr_count_le & [ STEM < "cronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cronología_n_rel" ] ]. cronológicamente_x1 := av_i_spr_le & [ STEM < "cronológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cronológicamente_x_rel" ]. cronológico_a1 := a_rel_nonprd_intr_le & [ STEM < "cronológico" >, SYNSEM.LKEYS.KEYREL.PRED "_cronológico_a_rel" ]. cronometrador_n1 := n_subj-nom_le & [ STEM < "cronometrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cronometrador_n_rel" ] ]. cronometraje_n1 := n_trans_le & [ STEM < "cronometraje" >, SYNSEM.LKEYS.KEYREL.PRED "_cronometraje_n_rel" ]. cronometrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "cronometrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cronometrar_v_rel" ] ]. cronometrar_v2 := v_trans_np*_le & [ STEM < "cronometrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cronometrar_v_rel" ] ]. cronométricamente_x1 := av_i_spr_le & [ STEM < "cronométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cronométricamente_x_rel" ]. cronométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "cronométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cronométrico_a_rel" ]. cronosecuencia_n1 := n_intr_count_le & [ STEM < "cronosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cronosecuencia_n_rel" ] ]. cronógrafo_n1 := n_intr_count_le & [ STEM < "cronógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cronógrafo_n_rel" ] ]. cronómetro_n1 := n_intr_count_le & [ STEM < "cronómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cronómetro_n_rel" ] ]. croquesita_n1 := n_intr_count_le & [ STEM < "croquesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_croquesita_n_rel" ] ]. croqueta_n1 := n_intr_count_le & [ STEM < "croqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_croqueta_n_rel" ] ]. croquis_n1 := n_intr_count_le & [ STEM < "croquis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_croquis_n_rel" ] ]. cross_n1 := n_intr_uncount_le & [ STEM < "cross" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cross_n_rel" ] ]. crotamitón_n1 := n_intr_count_le & [ STEM < "crotamitón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crotamitón_n_rel" ] ]. crotonaldehído_n1 := n_intr_mass_le & [ STEM < "crotonaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crotonaldehído_n_rel" ] ]. crotonato_n1 := n_intr_count_le & [ STEM < "crotonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crotonato_n_rel" ] ]. crotón_n1 := n_intr_count_le & [ STEM < "crotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crotón_n_rel" ] ]. croza_n1 := n_intr_count_le & [ STEM < "croza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_croza_n_rel" ] ]. cruasán_n1 := n_intr_count_le & [ STEM < "cruasán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cruasán_n_rel" ] ]. cruce_n1 := n_intr_count_le & [ STEM < "cruce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_cruce_n_rel" ] ]. crucero_n1 := n_intr_count_le & [ STEM < "crucero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crucero_n_rel" ] ]. cruceta_n1 := n_intr_count_le & [ STEM < "cruceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cruceta_n_rel" ] ]. crucial_a1 := a_qual_trans*_ser_le & [ STEM < "crucial" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_crucial_a_rel" ] ]. cruciferario_n1 := n_intr_count_le & [ STEM < "cruciferario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cruciferario_n_rel" ] ]. crucifijo_n1 := n_intr_count_le & [ STEM < "crucifijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crucifijo_n_rel" ] ]. crucifixión_n1 := n_trans_le & [ STEM < "crucifixión" >, SYNSEM.LKEYS.KEYREL.PRED "_crucifixión_n_rel" ]. cruciforme_a1 := a_qual_intr_ser_le & [ STEM < "cruciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_cruciforme_a_rel" ]. crucigrama_n1 := n_intr_count_le & [ STEM < "crucigrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crucigrama_n_rel" ] ]. crucífera_n1 := n_intr_count_le & [ STEM < "crucífera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crucífera_n_rel" ] ]. crudeza_n1 := n_intr_mass-or-count_le & [ STEM < "crudeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crudeza_n_rel" ] ]. crudo_a1 := a_qual_intr_estar_le & [ STEM < "crudo" >, SYNSEM.LKEYS.KEYREL.PRED "_crudo_a_rel" ]. crudo_n1 := n_intr_mass_le & [ STEM < "crudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_crudo_n_rel" ] ]. cruel_a1 := a_qual_intr_ser_le & [ STEM < "cruel" >, SYNSEM.LKEYS.KEYREL.PRED "_cruel_a_rel" ]. crueldad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "crueldad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crueldad_n_rel" ] ]. cruelmente_x1 := av_i_spr_le & [ STEM < "cruelmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cruelmente_x_rel" ]. cruentamente_x1 := av_i_spr_le & [ STEM < "cruentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cruentamente_x_rel" ]. cruento_a1 := a_qual_intr_scopal_le & [ STEM < "cruento" >, SYNSEM.LKEYS.KEYREL.PRED "_cruento_a_rel" ]. crujido_n1 := n_result_intr_le & [ STEM < "crujido" >, SYNSEM.LKEYS.KEYREL.PRED "_crujido_n_rel" ]. crujiente_a1 := a_qual_intr_scopal_le & [ STEM < "crujiente" >, SYNSEM.LKEYS.KEYREL.PRED "_crujiente_a_rel" ]. crujir_v := v_intr_le & [ STEM < "crujir" >, SYNSEM.LKEYS.KEYREL.PRED "_crujir_v_rel" ]. crujía_n1 := n_intr_count_le & [ STEM < "crujía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crujía_n_rel" ] ]. crural_a1 := a_rel_nonprd_intr_le & [ STEM < "crural" >, SYNSEM.LKEYS.KEYREL.PRED "_crural_a_rel" ]. crustáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "crustáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_crustáceo_a_rel" ]. crustáceo_n1 := n_intr_count_le & [ STEM < "crustáceo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_crustáceo_n_rel" ] ]. cruz_n1 := n_intr_count_le & [ STEM < "cruz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cruz_n_rel" ] ]. cruzada_n1 := n_trans_le & [ STEM < "cruzada" >, SYNSEM.LKEYS.KEYREL.PRED "_cruzada_n_rel" ]. cruzamiento_n1 := n_trans_le & [ STEM < "cruzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cruzamiento_n_rel" ]. cruzar_v1 := v_intr_le & [ STEM < "cruzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_cruzar_v_rel" ] ]. cruzar_v2 := v_trans_np_le & [ STEM < "cruzar" >, SYNSEM.LKEYS.KEYREL.PRED "_cruzar_v_rel" ]. cruzar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "cruzar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, ARG2.SORT ani, ARG3.SORT ani, PRED "_cruzar_v_rel" ] ] ]. cruzar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "cruzar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cruzar_v_rel" ] ]. cráneo-encefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "cráneo-encefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_cráneo-encefálico_a_rel" ]. cráneo_n1 := n_intr_count_le & [ STEM < "cráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cráneo_n_rel" ] ]. cráter_n1 := n_intr_count_le & [ STEM < "cráter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cráter_n_rel" ] ]. crátera_n1 := n_intr_count_le & [ STEM < "crátera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crátera_n_rel" ] ]. crédito_n1 := n_intr_count_le & [ STEM < "crédito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_crédito_n_rel" ] ]. crédulo_a1 := a_qual_intr_ser_le & [ STEM < "crédulo" >, SYNSEM.LKEYS.KEYREL.PRED "_crédulo_a_rel" ]. crêpe_n1 := n_intr_count_le & [ STEM < "crêpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_crêpe_n_rel" ] ]. cría_n1 := n_intr_count_le & [ STEM < "cría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cría_n_rel" ] ]. crío_n1 := n_intr_count_le & [ STEM < "crío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_crío_n_rel" ] ]. crípticamente_x1 := av_i_spr_le & [ STEM < "crípticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_crípticamente_x_rel" ]. críptico_a1 := a_qual_intr_scopal_le & [ STEM < "críptico" >, SYNSEM.LKEYS.KEYREL.PRED "_críptico_a_rel" ]. crítica_n1 := n_intr_count_le & [ STEM < "crítica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_crítica_n_rel" ] ]. críticamente_x1 := av_i_spr_le & [ STEM < "críticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_críticamente_x_rel" ]. crítico_a1 := a_qual_intr_scopal_le & [ STEM < "crítico" >, SYNSEM.LKEYS.KEYREL.PRED "_crítico_a_rel" ]. crítico_n1 := n_intr_count_le & [ STEM < "crítico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_crítico_n_rel" ] ]. crómicamente_x1 := av_i_spr_le & [ STEM < "crómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_crómicamente_x_rel" ]. crómico_a1 := a_rel_nonprd_intr_le & [ STEM < "crómico" >, SYNSEM.LKEYS.KEYREL.PRED "_crómico_a_rel" ]. crónica_n1 := n_intr_count_le & [ STEM < "crónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_crónica_n_rel" ] ]. crónicamente_x1 := av_i_spr_le & [ STEM < "crónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_crónicamente_x_rel" ]. crónico_a1 := a_rel_nonprd_intr_le & [ STEM < "crónico" >, SYNSEM.LKEYS.KEYREL.PRED "_crónico_a_rel" ]. crónlech_n1 := n_intr_count_le & [ STEM < "crónlech" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_crónlech_n_rel" ] ]. crótalo_n1 := n_intr_count_le & [ STEM < "crótalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_crótalo_n_rel" ] ]. cuaderna_n1 := n_intr_count_le & [ STEM < "cuaderna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuaderna_n_rel" ] ]. cuadernillo_n1 := n_intr_count_le & [ STEM < "cuadernillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cuadernillo_n_rel" ] ]. cuaderno_n1 := n_intr_count_le & [ STEM < "cuaderno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cuaderno_n_rel" ] ]. cuadra_n1 := n_intr_count_le & [ STEM < "cuadra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuadra_n_rel" ] ]. cuadrable_a1 := a_rel_nonprd_intr_le & [ STEM < "cuadrable" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrable_a_rel" ]. cuadradillo_n1 := n_intr_count_le & [ STEM < "cuadradillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadradillo_n_rel" ] ]. cuadrado_a1 := a_qual_intr_ser_le & [ STEM < "cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrado_a_rel" ]. cuadrado_n1 := n_intr_count_le & [ STEM < "cuadrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cuadrado_n_rel" ] ]. cuadrador_n1 := n_intr_count_le & [ STEM < "cuadrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cuadrador_n_rel" ] ]. cuadragésimo_n := n_intr_count_le & [ STEM < "cuadragésimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuadragésimo_n_rel" ] ]. cuadrangular_a1 := a_qual_intr_ser_le & [ STEM < "cuadrangular" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrangular_a_rel" ]. cuadrantanopia_n1 := n_intr_uncount_le & [ STEM < "cuadrantanopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrantanopia_n_rel" ] ]. cuadrantanopsia_n1 := n_intr_uncount_le & [ STEM < "cuadrantanopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrantanopsia_n_rel" ] ]. cuadrante_n1 := n_intr_count_le & [ STEM < "cuadrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadrante_n_rel" ] ]. cuadrar_v := v_trans_np*_le & [ STEM < "cuadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrar_v_rel" ]. cuadrar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "cuadrar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_cuadrar_v_rel" ] ]. cuadratura_n1 := n_intr_count_le & [ STEM < "cuadratura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadratura_n_rel" ] ]. cuadratín_n := n_intr_count_le & [ STEM < "cuadratín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuadratín_n_rel" ] ]. cuadrete_n1 := n_intr_count_le & [ STEM < "cuadrete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadrete_n_rel" ] ]. cuadriculadamente_x1 := av_i_spr_le & [ STEM < "cuadriculadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadriculadamente_x_rel" ]. cuadricular_a1 := a_qual_intr_ser_le & [ STEM < "cuadricular" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadricular_a_rel" ]. cuadricularmente_x1 := av_i_spr_le & [ STEM < "cuadricularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadricularmente_x_rel" ]. cuadrifilarmente_x1 := av_i_spr_le & [ STEM < "cuadrifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrifilarmente_x_rel" ]. cuadriga_n1 := n_intr_count_le & [ STEM < "cuadriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadriga_n_rel" ] ]. cuadrilla_n1 := n_intr_coll_le & [ STEM < "cuadrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuadrilla_n_rel" ] ]. cuadrilongamente_x1 := av_i_spr_le & [ STEM < "cuadrilongamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrilongamente_x_rel" ]. cuadrilongo_a1 := a_rel_nonprd_intr_le & [ STEM < "cuadrilongo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrilongo_a_rel" ]. cuadrilongo_n1 := n_intr_count_le & [ STEM < "cuadrilongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuadrilongo_n_rel" ] ]. cuadrilátero_n1 := n_intr_count_le & [ STEM < "cuadrilátero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrilátero_n_rel" ] ]. cuadrinomio_n1 := n_intr_count_le & [ STEM < "cuadrinomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrinomio_n_rel" ] ]. cuadripolo_n1 := n_intr_count_le & [ STEM < "cuadripolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadripolo_n_rel" ] ]. cuadrivio_n1 := n_intr_uncount_pl_le & [ STEM < "cuadrivio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrivio_n_rel" ] ]. cuadro_n1 := n_intr_count_le & [ STEM < "cuadro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuadro_n_rel" ] ]. cuadruplete_n := n_intr_count_le & [ STEM < "cuadruplete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuadruplete_n_rel" ] ]. cuadruplicar_v := v_trans_np_caus_le & [ STEM < "cuadruplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadruplicar_v_rel" ]. cuadrángulo_n1 := n_intr_count_le & [ STEM < "cuadrángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrángulo_n_rel" ] ]. cuadrático_a1 := a_qual_intr_ser_le & [ STEM < "cuadrático" >, SYNSEM.LKEYS.KEYREL.PRED "_cuadrático_a_rel" ]. cuadrícula_n1 := n_intr_count_le & [ STEM < "cuadrícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuadrícula_n_rel" ] ]. cuadrúpedo_n1 := n_intr_count_le & [ STEM < "cuadrúpedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cuadrúpedo_n_rel" ] ]. cuajada_n1 := n_intr_mass-or-count_le & [ STEM < "cuajada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cuajada_n_rel" ] ]. cuajar_v1 := v_trans_np_caus_le & [ STEM < "cuajar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuajar_v_rel" ]. cual_r := pr_rel_cual_le & [ STEM < "cual" > ]. cualidad_n1 := n_intr_count_le & [ STEM < "cualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cualidad_n_rel" ] ]. cualificación_n1 := n_trans_le & [ STEM < "cualificación" >, SYNSEM.LKEYS.KEYREL.PRED "_cualificación_n_rel" ]. cualificadamente_x1 := av_i_spr_le & [ STEM < "cualificadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cualificadamente_x_rel" ]. cualificador_a1 := a_rel_nonprd_intr_le & [ STEM < "cualificador" >, SYNSEM.LKEYS.KEYREL.PRED "_cualificador_a_rel" ]. cualificador_n1 := n_intr_count_le & [ STEM < "cualificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cualificador_n_rel" ] ]. cualificadoramente_x1 := av_i_spr_le & [ STEM < "cualificadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_cualificadoramente_x_rel" ]. cualificar_v := v_trans_np_le & [ STEM < "cualificar" >, SYNSEM.LKEYS.KEYREL.PRED "_cualificar_v_rel" ]. cualitativamente_x1 := av_i_spr_le & [ STEM < "cualitativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cualitativamente_x_rel" ]. cualitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "cualitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_cualitativo_a_rel" ]. cualquiera_d := d_qnt_cualq_le & [ STEM < "cualquiera" > ]. cualquiera_a := a_cualq_le & [ STEM < "cualquiera" >, SYNSEM.LKEYS.KEYREL.PRED "_cualquiera_a_rel" ]. cualquiera_p := pr_part_cualq_le & [ STEM < "cualquiera" >, SYNSEM.LKEYS.ALTKEYREL.PRED _cualquiera_q_rel ]. cuando_r := av_rel_tmp_le & [ STEM < "cuando" > ]. cuando_r2 := av_free-rel_tmp_le & [ STEM < "cuando" > ]. cuando_sc := sc_prop_fin_le & [ STEM < "cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_cuando_x_subord_rel" ]. cuantificable_a1 := a_rel_prd_le & [ STEM < "cuantificable" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantificable_a_rel" ]. cuantificación_n1 := n_trans_le & [ STEM < "cuantificación" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantificación_n_rel" ]. cuantificador_n1 := n_intr_count_le & [ STEM < "cuantificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuantificador_n_rel" ] ]. cuantificar_v := v_trans_np_le & [ STEM < "cuantificar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantificar_v_rel" ]. cuantioso_a1 := a_qual_intr_scopal_le & [ STEM < "cuantioso" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantioso_a_rel" ]. cuantitativamente_x1 := av_i_spr_le & [ STEM < "cuantitativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantitativamente_x_rel" ]. cuantitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "cuantitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantitativo_a_rel" ]. cuantización_n1 := n_intr_count_le & [ STEM < "cuantización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuantización_n_rel" ] ]. cuantizar_v := v_trans_np_le & [ STEM < "cuantizar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuantizar_v_rel" ]. cuanto_antes_x1 := av_i_le & [ STEM < "cuanto_antes" >, SYNSEM.LKEYS.KEYREL.PRED "_cuanto_antes_x_rel" ]. cuanto_d := d_qnt-indf_unos+cuant_le & [ STEM < "cuanto" > ]. cuanto_n1 := n_intr_count_le & [ STEM < "cuanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuanto_n_rel" ] ]. cuanto_p := pr_part_unos+cuantos_le & [ STEM < "cuanto" > ]. cuantía_n1 := n_intr_count_le & [ STEM < "cuantía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuantía_n_rel" ] ]. cuarcita_n1 := n_intr_mass_le & [ STEM < "cuarcita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuarcita_n_rel" ] ]. cuarcíferamente_x1 := av_i_spr_le & [ STEM < "cuarcíferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarcíferamente_x_rel" ]. cuarcífero_a1 := a_rel_nonprd_intr_le & [ STEM < "cuarcífero" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarcífero_a_rel" ]. cuarcíticamente_x1 := av_i_spr_le & [ STEM < "cuarcíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarcíticamente_x_rel" ]. cuarcítico_a1 := a_rel_nonprd_intr_le & [ STEM < "cuarcítico" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarcítico_a_rel" ]. cuarentena_n1 := n_intr_count_le & [ STEM < "cuarentena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_cuarentena_n_rel" ] ]. cuaresma_n1 := n_intr_uncount_le & [ STEM < "cuaresma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuaresma_n_rel" ] ]. cuaresmal_a1 := a_rel_nonprd_intr_le & [ STEM < "cuaresmal" >, SYNSEM.LKEYS.KEYREL.PRED "_cuaresmal_a_rel" ]. cuarta_n := n_intr_count_le & [ STEM < "cuarta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuarta_n_rel" ] ]. cuartear_v := v_trans_np_le & [ STEM < "cuartear" >, SYNSEM.LKEYS.KEYREL.PRED "_cuartear_v_rel" ]. cuartel_n1 := n_intr_count_le & [ STEM < "cuartel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuartel_n_rel" ] ]. cuartelillo_n1 := n_intr_count_le & [ STEM < "cuartelillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuartelillo_n_rel" ] ]. cuarteo_n1 := n_trans_le & [ STEM < "cuarteo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarteo_n_rel" ]. cuarteta_n1 := n_intr_count_le & [ STEM < "cuarteta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_cuarteta_n_rel" ] ]. cuarteto_n1 := n_intr_count_le & [ STEM < "cuarteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_cuarteto_n_rel" ] ]. cuartil_n1 := n_intr_count_le & [ STEM < "cuartil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuartil_n_rel" ] ]. cuartilla_n1 := n_intr_count_le & [ STEM < "cuartilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuartilla_n_rel" ] ]. cuartillo_n := n_intr_count_le & [ STEM < "cuartillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuartillo_n_rel" ] ]. cuarto_n := n_intr_count_le & [ STEM < "cuarto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_unit, PRED "_cuarto_n_rel" ] ]. cuartofinalista_n1 := n_intr_count_le & [ STEM < "cuartofinalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuartofinalista_n_rel" ] ]. cuarzita_n1 := n_intr_count_le & [ STEM < "cuarzita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuarzita_n_rel" ] ]. cuarzo_n1 := n_intr_mass_le & [ STEM < "cuarzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuarzo_n_rel" ] ]. cuarzosamente_x1 := av_i_spr_le & [ STEM < "cuarzosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarzosamente_x_rel" ]. cuarzoso_a1 := a_qual_intr_scopal_le & [ STEM < "cuarzoso" >, SYNSEM.LKEYS.KEYREL.PRED "_cuarzoso_a_rel" ]. cuasia_n1 := n_intr_count_le & [ STEM < "cuasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cuasia_n_rel" ] ]. cuasidelito_n1 := n_intr_count_le & [ STEM < "cuasidelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuasidelito_n_rel" ] ]. cuaterna_n1 := n_intr_count_le & [ STEM < "cuaterna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuaterna_n_rel" ] ]. cuaternario_a1 := a_rel_nonprd_intr_le & [ STEM < "cuaternario" >, SYNSEM.LKEYS.KEYREL.PRED "_cuaternario_a_rel" ]. cuaternio_n1 := n_intr_count_le & [ STEM < "cuaternio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuaternio_n_rel" ] ]. cuaterno_n1 := n_intr_count_le & [ STEM < "cuaterno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuaterno_n_rel" ] ]. cuatriciclo_n1 := n_intr_count_le & [ STEM < "cuatriciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuatriciclo_n_rel" ] ]. cuatricromía_n1 := n_intr_count_le & [ STEM < "cuatricromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuatricromía_n_rel" ] ]. cuatrifilarmente_x1 := av_i_spr_le & [ STEM < "cuatrifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuatrifilarmente_x_rel" ]. cuatrifolio_n1 := n_intr_count_le & [ STEM < "cuatrifolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuatrifolio_n_rel" ] ]. cuatrillizo_n1 := n_intr_count_le & [ STEM < "cuatrillizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuatrillizo_n_rel" ] ]. cuatrillón_n := n_intr_count_le & [ STEM < "cuatrillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cuatrillón_n_rel" ] ]. cuatrimestralmente_x1 := av_s_prhd_le & [ STEM < "cuatrimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuatrimestralmente_x_rel" ]. cuatrimestralmente_x2 := av_i_psthd_le & [ STEM < "cuatrimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuatrimestralmente_x_rel" ]. cuatrimestre_n1 := n_pseudo-part_temp_le & [ STEM < "cuatrimestre" >, SYNSEM.LKEYS.KEYREL.PRED "_cuatrimestre_n_rel" ]. cuatrimestre_n2 := n_intr_temp_le & [ STEM < "cuatrimestre" > ]. cuatrimotor_a1 := a_rel_nonprd_intr_le & [ STEM < "cuatrimotor" >, SYNSEM.LKEYS.KEYREL.PRED "_cuatrimotor_a_rel" ]. cuatrimotor_n1 := n_intr_count_le & [ STEM < "cuatrimotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_cuatrimotor_n_rel" ] ]. cuba_n1 := n_intr_count_le & [ STEM < "cuba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuba_n_rel" ] ]. cubano_a1 := a_rel_prd_le & [ STEM < "cubano" >, SYNSEM.LKEYS.KEYREL.PRED "_cubano_a_rel" ]. cubano_n1 := n_intr_count_le & [ STEM < "cubano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cubano_n_rel" ] ]. cubertada_n1 := n_intr_count_le & [ STEM < "cubertada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cubertada_n_rel" ] ]. cubertería_n1 := n_intr_count_le & [ STEM < "cubertería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubertería_n_rel" ] ]. cubeta_n1 := n_intr_count_le & [ STEM < "cubeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubeta_n_rel" ] ]. cubicación_n1 := n_trans_le & [ STEM < "cubicación" >, SYNSEM.LKEYS.KEYREL.PRED "_cubicación_n_rel" ]. cubicaje_n1 := n_intr_count_le & [ STEM < "cubicaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cubicaje_n_rel" ] ]. cubicar_v := v_trans_np_le & [ STEM < "cubicar" >, SYNSEM.LKEYS.KEYREL.PRED "_cubicar_v_rel" ]. cubierta_n1 := n_intr_count_le & [ STEM < "cubierta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cubierta_n_rel" ] ]. cubierto_n1 := n_intr_count_le & [ STEM < "cubierto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubierto_n_rel" ] ]. cubil_n1 := n_intr_count_le & [ STEM < "cubil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cubil_n_rel" ] ]. cubilete_n1 := n_intr_count_le & [ STEM < "cubilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubilete_n_rel" ] ]. cubilote_n1 := n_intr_count_le & [ STEM < "cubilote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubilote_n_rel" ] ]. cubismo_n1 := n_intr_uncount_le & [ STEM < "cubismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cubismo_n_rel" ] ]. cubista_a1 := a_rel_nonprd_intr_le & [ STEM < "cubista" >, SYNSEM.LKEYS.KEYREL.PRED "_cubista_a_rel" ]. cubista_n1 := n_intr_count_le & [ STEM < "cubista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cubista_n_rel" ] ]. cubital_a1 := a_rel_nonprd_intr_le & [ STEM < "cubital" >, SYNSEM.LKEYS.KEYREL.PRED "_cubital_a_rel" ]. cubitera_n1 := n_intr_count_le & [ STEM < "cubitera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubitera_n_rel" ] ]. cubito_n1 := n_intr_count_le & [ STEM < "cubito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubito_n_rel" ] ]. cubo_n1 := n_intr_count_le & [ STEM < "cubo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubo_n_rel" ] ]. cuboideonavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "cuboideonavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_cuboideonavicular_a_rel" ]. cuboides_n1 := n_ppcomp_count_le & [ STEM < "cuboides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cuboides_n_rel" ] ]. cubrecama_n1 := n_intr_count_le & [ STEM < "cubrecama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubrecama_n_rel" ] ]. cubrecolchón_n1 := n_intr_count_le & [ STEM < "cubrecolchón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubrecolchón_n_rel" ] ]. cubrejunta_n1 := n_intr_count_le & [ STEM < "cubrejunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubrejunta_n_rel" ] ]. cubremantel_n1 := n_intr_count_le & [ STEM < "cubremantel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubremantel_n_rel" ] ]. cubremuelle_n1 := n_intr_count_le & [ STEM < "cubremuelle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubremuelle_n_rel" ] ]. cubreobjeto_n1 := n_intr_count_le & [ STEM < "cubreobjeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubreobjeto_n_rel" ] ]. cubreobjetos_n1 := n_intr_count_le & [ STEM < "cubreobjetos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cubreobjetos_n_rel" ] ]. cubrimiento_n1 := n_trans_le & [ STEM < "cubrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cubrimiento_n_rel" ]. cubrir_v := v_trans_np_caus_le & [ STEM < "cubrir" >, SYNSEM.LKEYS.KEYREL.PRED "_cubrir_v_rel" ]. cubículo_n1 := n_intr_count_le & [ STEM < "cubículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cubículo_n_rel" ] ]. cucaracha_n1 := n_intr_count_le & [ STEM < "cucaracha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cucaracha_n_rel" ] ]. cuchara_n1 := n_intr_count_le & [ STEM < "cuchara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuchara_n_rel" ] ]. cucharada_n1 := n_intr_count_le & [ STEM < "cucharada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cucharada_n_rel" ] ]. cucharilla_n1 := n_intr_count_le & [ STEM < "cucharilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cucharilla_n_rel" ] ]. cucharón_n1 := n_intr_count_le & [ STEM < "cucharón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cucharón_n_rel" ] ]. cuchichear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "cuchichear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cuchichear_v_rel" ] ]. cuchichear_v2 := v_ditrans_cp_ques_le & [ STEM < "cuchichear" >, SYNSEM.LKEYS.KEYREL.PRED "_cuchichear_v_rel" ]. cuchichear_v3 := v_ditrans*_le & [ STEM < "cuchichear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cuchichear_v_rel" ] ]. cuchicheo_n1 := n_result_intr_le & [ STEM < "cuchicheo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuchicheo_n_rel" ] ]. cuchilla_n1 := n_intr_count_le & [ STEM < "cuchilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuchilla_n_rel" ] ]. cuchillada_n1 := n_intr_count_le & [ STEM < "cuchillada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuchillada_n_rel" ] ]. cuchillazo_n1 := n_intr_count_le & [ STEM < "cuchillazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuchillazo_n_rel" ] ]. cuchillero_n1 := n_intr_count_le & [ STEM < "cuchillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuchillero_n_rel" ] ]. cuchillería_n1 := n_intr_count_le & [ STEM < "cuchillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cuchillería_n_rel" ] ]. cuchillo_n1 := n_intr_count_le & [ STEM < "cuchillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuchillo_n_rel" ] ]. cuclillo_n1 := n_intr_count_le & [ STEM < "cuclillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cuclillo_n_rel" ] ]. cuco_n1 := n_intr_count_le & [ STEM < "cuco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cuco_n_rel" ] ]. cucurucho_n1 := n_intr_count_le & [ STEM < "cucurucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cucurucho_n_rel" ] ]. cucúrbita_n1 := n_intr_count_le & [ STEM < "cucúrbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cucúrbita_n_rel" ] ]. cuello_n1 := n_ppcomp_count_le & [ STEM < "cuello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cuello_n_rel" ] ]. cuenca_n1 := n_intr_count_le & [ STEM < "cuenca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuenca_n_rel" ] ]. cuenco_n1 := n_intr_count_le & [ STEM < "cuenco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuenco_n_rel" ] ]. cuenta_n1 := n_trans_le & [ STEM < "cuenta" >, SYNSEM.LKEYS.KEYREL.PRED "_cuenta_n_rel" ]. cuentacorrentista_n1 := n_intr_count_le & [ STEM < "cuentacorrentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuentacorrentista_n_rel" ] ]. cuentadante_n1 := n_intr_count_le & [ STEM < "cuentadante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuentadante_n_rel" ] ]. cuentagotas_n1 := n_intr_count_le & [ STEM < "cuentagotas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuentagotas_n_rel" ] ]. cuentakilómetros_n1 := n_intr_count_le & [ STEM < "cuentakilómetros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuentakilómetros_n_rel" ] ]. cuentapartícipe_n1 := n_intr_count_le & [ STEM < "cuentapartícipe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuentapartícipe_n_rel" ] ]. cuentarrevoluciones_n1 := n_intr_count_le & [ STEM < "cuentarrevoluciones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_cuentarrevoluciones_n_rel" ] ]. cuentista_n1 := n_intr_count_le & [ STEM < "cuentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuentista_n_rel" ] ]. cuento_n1 := n_intr_count_le & [ STEM < "cuento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_cuento_n_rel" ] ]. cuerda_n1 := n_intr_mass_le & [ STEM < "cuerda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuerda_n_rel" ] ]. cuerdo_a1 := a_qual_intr_ser_le & [ STEM < "cuerdo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuerdo_a_rel" ]. cuerno_n1 := n_intr_count_le & [ STEM < "cuerno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuerno_n_rel" ] ]. cuero_n1 := n_intr_mass_le & [ STEM < "cuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuero_n_rel" ] ]. cuerpo_n1 := n_intr_mass_le & [ STEM < "cuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuerpo_n_rel" ] ]. cuervo_n1 := n_intr_count_le & [ STEM < "cuervo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cuervo_n_rel" ] ]. cuesco_n1 := n_intr_count_le & [ STEM < "cuesco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuesco_n_rel" ] ]. cuesta_n1 := n_intr_count_le & [ STEM < "cuesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuesta_n_rel" ] ]. cuestación_n1 := n_intr_uncount_le & [ STEM < "cuestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuestación_n_rel" ] ]. cuestionable_a1 := a_qual_intr_scopal_le & [ STEM < "cuestionable" >, SYNSEM.LKEYS.KEYREL.PRED "_cuestionable_a_rel" ]. cuestionamiento_n1 := n_trans_le & [ STEM < "cuestionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cuestionamiento_n_rel" ]. cuestionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "cuestionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_cuestionar_v_rel" ] ]. cuestionar_v2 := v_trans_np_le & [ STEM < "cuestionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_cuestionar_v_rel" ] ]. cuestionario_n1 := n_intr_count_le & [ STEM < "cuestionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cuestionario_n_rel" ] ]. cuestión_n1 := n_intr_count_le & [ STEM < "cuestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuestión_n_rel" ] ]. cuestor_n1 := n_intr_count_le & [ STEM < "cuestor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuestor_n_rel" ] ]. cuestura_n1 := n_intr_count_le & [ STEM < "cuestura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuestura_n_rel" ] ]. cueva_n1 := n_intr_count_le & [ STEM < "cueva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_cueva_n_rel" ] ]. cueza_n1 := n_intr_mass_le & [ STEM < "cueza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cueza_n_rel" ] ]. cuidado_n1 := n_trans_le & [ STEM < "cuidado" >, SYNSEM.LKEYS.KEYREL.PRED "_cuidado_n_rel" ]. cuidador_n1 := n_subj-nom_le & [ STEM < "cuidador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuidador_n_rel" ] ]. cuidadosamente_x1 := av_i_spr_le & [ STEM < "cuidadosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuidadosamente_x_rel" ]. cuidadoso_a1 := a_qual_trans*_ser_le & [ STEM < "cuidadoso" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_cuidadoso_a_rel" ] ]. cuidar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "cuidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cuidar_v_rel" ] ] ]. cuidar_v2 := v_intr_mrkd_np_le & [ STEM < "cuidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cuidar_v_rel" ] ] ]. cuidar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "cuidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cuidar_v_rel" ] ] ]. cuidar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "cuidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_cuidar_v_rel" ] ] ]. cuidar_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "cuidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cuidar_v_rel" ] ]. cuidar_v6 := v_trans_np_le & [ STEM < "cuidar" >, SYNSEM.LKEYS.KEYREL.PRED "_cuidar_v_rel" ]. cuita_n1 := n_trans_le & [ STEM < "cuita" >, SYNSEM.LKEYS.KEYREL.PRED "_cuita_n_rel" ]. culantrillo_n1 := n_intr_count_le & [ STEM < "culantrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_culantrillo_n_rel" ] ]. culantro_n1 := n_intr_mass_le & [ STEM < "culantro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_culantro_n_rel" ] ]. culata_n1 := n_intr_count_le & [ STEM < "culata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_culata_n_rel" ] ]. culatazo_n1 := n_intr_count_le & [ STEM < "culatazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_culatazo_n_rel" ] ]. culebra_n1 := n_intr_count_le & [ STEM < "culebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_culebra_n_rel" ] ]. culebrón_n1 := n_intr_count_le & [ STEM < "culebrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_culebrón_n_rel" ] ]. culi_n1 := n_intr_count_le & [ STEM < "culi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_culi_n_rel" ] ]. culinario_a1 := a_rel_nonprd_intr_le & [ STEM < "culinario" >, SYNSEM.LKEYS.KEYREL.PRED "_culinario_a_rel" ]. culminación_n1 := n_trans_le & [ STEM < "culminación" >, SYNSEM.LKEYS.KEYREL.PRED "_culminación_n_rel" ]. culminante_a1 := a_rel_nonprd_intr_le & [ STEM < "culminante" >, SYNSEM.LKEYS.KEYREL.PRED "_culminante_a_rel" ]. culminar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "culminar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_culminar_v_rel" ] ] ]. culminar_v2 := v_intr_mrkd_np_le & [ STEM < "culminar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_culminar_v_rel" ] ] ]. culminar_v3 := v_trans_np_caus_int_le & [ STEM < "culminar" >, SYNSEM.LKEYS.KEYREL.PRED "_culminar_v_rel" ]. culo_n1 := n_ppcomp_count_le & [ STEM < "culo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_culo_n_rel" ] ]. culombio_n := n_intr_count_le & [ STEM < "culombio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_culombio_n_rel" ] ]. culpa_n1 := n_intr_mass_le & [ STEM < "culpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_culpa_n_rel" ] ]. culpabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "culpabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_culpabilidad_n_rel" ] ]. culpabilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "culpabilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_culpabilístico_a_rel" ]. culpable_a1 := a_qual_trans*_ser_le & [ STEM < "culpable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_culpable_a_rel" ] ]. culpable_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "culpable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_culpable_a_rel" ] ]. culpable_a3 := a_qual_cp_ques_ser_le & [ STEM < "culpable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_culpable_a_rel" ] ]. culpable_a4 := a_sctrl_ser_le & [ STEM < "culpable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_culpable_a_rel" ] ]. culpable_n1 := n_intr_count_le & [ STEM < "culpable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_culpable_n_rel" ] ]. culpar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "culpar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_por_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_culpar_v_rel" ] ] ]. culpar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "culpar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_culpar_v_rel" ] ]. culposo_a1 := a_rel_nonprd_intr_le & [ STEM < "culposo" >, SYNSEM.LKEYS.KEYREL.PRED "_culposo_a_rel" ]. cultismo_n1 := n_intr_count_le & [ STEM < "cultismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cultismo_n_rel" ] ]. cultivable_a1 := a_rel_nonprd_intr_le & [ STEM < "cultivable" >, SYNSEM.LKEYS.KEYREL.PRED "_cultivable_a_rel" ]. cultivador_n1 := n_subj-nom_le & [ STEM < "cultivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cultivador_n_rel" ] ]. cultivadora_n1 := n_intr_count_le & [ STEM < "cultivadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_cultivadora_n_rel" ] ]. cultivar_v := v_trans_np*_le & [ STEM < "cultivar" >, SYNSEM.LKEYS.KEYREL.PRED "_cultivar_v_rel" ]. cultivo_n1 := n_trans_le & [ STEM < "cultivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cultivo_n_rel" ]. culto_a1 := a_qual_intr_ser_le & [ STEM < "culto" >, SYNSEM.LKEYS.KEYREL.PRED "_culto_a_rel" ]. culto_n1 := n_intr_count_le & [ STEM < "culto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_culto_n_rel" ] ]. cultura_n1 := n_intr_count_le & [ STEM < "cultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cultura_n_rel" ] ]. cultural_a1 := a_rel_prd_le & [ STEM < "cultural" >, SYNSEM.LKEYS.KEYREL.PRED "_cultural_a_rel" ]. culturalmente_x1 := av_s_le & [ STEM < "culturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_culturalmente_x_rel" ]. culturismo_n1 := n_intr_uncount_le & [ STEM < "culturismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_culturismo_n_rel" ] ]. culturización_n1 := n_trans_le & [ STEM < "culturización" >, SYNSEM.LKEYS.KEYREL.PRED "_culturización_n_rel" ]. culé_n1 := n_intr_count_le & [ STEM < "culé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_culé_n_rel" ] ]. cumarina_n1 := n_intr_count_le & [ STEM < "cumarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cumarina_n_rel" ] ]. cumarona_n1 := n_intr_count_le & [ STEM < "cumarona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cumarona_n_rel" ] ]. cumbre_n1 := n_intr_count_le & [ STEM < "cumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cumbre_n_rel" ] ]. cumeno_n1 := n_intr_mass-or-count_le & [ STEM < "cumeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cumeno_n_rel" ] ]. cumpleaños_n1 := n_intr_count_le & [ STEM < "cumpleaños" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cumpleaños_n_rel" ] ]. cumplidor_a1 := a_qual_intr_ser_le & [ STEM < "cumplidor" >, SYNSEM.LKEYS.KEYREL.PRED "_cumplidor_a_rel" ]. cumplimentación_n1 := n_result_intr_ppcomp_le & [ STEM < "cumplimentación" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_cumplimentación_n_rel" ] ]. cumplimentar_v1 := v_trans_np_le & [ STEM < "cumplimentar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_sem, PRED "_cumplimentar_v_rel" ] ]. cumplimentar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "cumplimentar" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL [ ARG2.SORT hum_soc, PRED "_cumplimentar_v_rel" ] ] ]. cumplimiento_n1 := n_trans_le & [ STEM < "cumplimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_cumplimiento_n_rel" ]. cumplir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "cumplir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_cumplir_v_rel" ] ] ]. cumplir_v2 := v_intr_mrkd_np_le & [ STEM < "cumplir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_cumplir_v_rel" ] ] ]. cumplir_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "cumplir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT tmp_unit, PRED "_cumplir_v_rel" ] ] ]. cumplir_v4 := v_trans_cp_prop_fin_le & [ STEM < "cumplir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cumplir_v_rel" ] ]. cumplir_v5 := v_trans_np*_le & [ STEM < "cumplir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_cumplir_v_rel" ] ]. cumulante_a1 := a_rel_nonprd_intr_le & [ STEM < "cumulante" >, SYNSEM.LKEYS.KEYREL.PRED "_cumulante_a_rel" ]. cumulativo_a1 := a_rel_prd_le & [ STEM < "cumulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_cumulativo_a_rel" ]. cumulonimbo_n1 := n_intr_count_le & [ STEM < "cumulonimbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cumulonimbo_n_rel" ] ]. cumulonimbos_n1 := n_intr_count_le & [ STEM < "cumulonimbos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cumulonimbos_n_rel" ] ]. cumúlico_a1 := a_rel_nonprd_intr_le & [ STEM < "cumúlico" >, SYNSEM.LKEYS.KEYREL.PRED "_cumúlico_a_rel" ]. cuna_n1 := n_intr_count_le & [ STEM < "cuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuna_n_rel" ] ]. cundir_v := v_intr_io*_le & [ STEM < "cundir" >, SYNSEM.LKEYS.KEYREL.PRED "_cundir_v_rel" ]. cuneiforme_a1 := a_qual_intr_ser_le & [ STEM < "cuneiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_cuneiforme_a_rel" ]. cuneta_n1 := n_intr_count_le & [ STEM < "cuneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cuneta_n_rel" ] ]. cunicultor_n1 := n_intr_count_le & [ STEM < "cunicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cunicultor_n_rel" ] ]. cunicultura_n1 := n_intr_uncount_le & [ STEM < "cunicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cunicultura_n_rel" ] ]. cuodlibeto_n1 := n_intr_uncount_pl_le & [ STEM < "cuodlibeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuodlibeto_n_rel" ] ]. cuota_n1 := n_intr_count_le & [ STEM < "cuota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuota_n_rel" ] ]. cupido_n1 := n_intr_count_le & [ STEM < "cupido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cupido_n_rel" ] ]. cupo_n1 := n_intr_count_le & [ STEM < "cupo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cupo_n_rel" ] ]. cuprita_n1 := n_intr_count_le & [ STEM < "cuprita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuprita_n_rel" ] ]. cuproaluminio_n1 := n_intr_count_le & [ STEM < "cuproaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuproaluminio_n_rel" ] ]. cuproamoniacal_a1 := a_rel_nonprd_intr_le & [ STEM < "cuproamoniacal" >, SYNSEM.LKEYS.KEYREL.PRED "_cuproamoniacal_a_rel" ]. cuproamoníaco_n1 := n_intr_count_le & [ STEM < "cuproamoníaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuproamoníaco_n_rel" ] ]. cupromanganeso_n1 := n_intr_count_le & [ STEM < "cupromanganeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cupromanganeso_n_rel" ] ]. cuproníquel_n1 := n_intr_mass-or-count_le & [ STEM < "cuproníquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_cuproníquel_n_rel" ] ]. cuprosilicio_n1 := n_intr_count_le & [ STEM < "cuprosilicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_cuprosilicio_n_rel" ] ]. cuproso_a1 := a_rel_nonprd_intr_le & [ STEM < "cuproso" >, SYNSEM.LKEYS.KEYREL.PRED "_cuproso_a_rel" ]. cupular_a1 := a_rel_nonprd_intr_le & [ STEM < "cupular" >, SYNSEM.LKEYS.KEYREL.PRED "_cupular_a_rel" ]. cupulolitiasis_n1 := n_intr_uncount_le & [ STEM < "cupulolitiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cupulolitiasis_n_rel" ] ]. cupulometría_n1 := n_intr_count_le & [ STEM < "cupulometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cupulometría_n_rel" ] ]. cupón_n1 := n_intr_count_le & [ STEM < "cupón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cupón_n_rel" ] ]. cura_n1 := n_trans_le & [ STEM < "cura" >, SYNSEM.LKEYS.KEYREL.PRED "_cura_n_rel" ]. curabilidad_n1 := n_intr_uncount_le & [ STEM < "curabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curabilidad_n_rel" ] ]. curable_a1 := a_qual_intr_scopal_le & [ STEM < "curable" >, SYNSEM.LKEYS.KEYREL.PRED "_curable_a_rel" ]. curación_n1 := n_trans_le & [ STEM < "curación" >, SYNSEM.LKEYS.KEYREL.PRED "_curación_n_rel" ]. curador_n1 := n_subj-nom_le & [ STEM < "curador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_curador_n_rel" ] ]. curandero_n1 := n_intr_count_le & [ STEM < "curandero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_curandero_n_rel" ] ]. curandería_n1 := n_intr_uncount_le & [ STEM < "curandería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curandería_n_rel" ] ]. curar_v := v_trans_np*_caus_le & [ STEM < "curar" >, SYNSEM.LKEYS.KEYREL.PRED "_curar_v_rel" ]. curarina_n1 := n_intr_count_le & [ STEM < "curarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_curarina_n_rel" ] ]. curasao_n1 := n_intr_count_le & [ STEM < "curasao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_curasao_n_rel" ] ]. curatela_n1 := n_intr_count_le & [ STEM < "curatela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curatela_n_rel" ] ]. curativamente_x1 := av_i_spr_le & [ STEM < "curativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_curativamente_x_rel" ]. curativo_a1 := a_qual_intr_scopal_le & [ STEM < "curativo" >, SYNSEM.LKEYS.KEYREL.PRED "_curativo_a_rel" ]. curato_n1 := n_intr_count_le & [ STEM < "curato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_curato_n_rel" ] ]. curbaril_n1 := n_intr_count_le & [ STEM < "curbaril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_curbaril_n_rel" ] ]. curcumina_n1 := n_intr_count_le & [ STEM < "curcumina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_curcumina_n_rel" ] ]. cureta_n1 := n_intr_count_le & [ STEM < "cureta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cureta_n_rel" ] ]. curetaje_n1 := n_intr_uncount_le & [ STEM < "curetaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curetaje_n_rel" ] ]. curia_n1 := n_intr_coll_le & [ STEM < "curia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_curia_n_rel" ] ]. curial_n1 := n_intr_count_le & [ STEM < "curial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_curial_n_rel" ] ]. curio_n := n_intr_mass_le & [ STEM < "curio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_curio_n_rel" ] ]. curio_n1 := n_intr_mass_le & [ STEM < "curio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_curio_n_rel" ] ]. curiosamente_x1 := av_s_spr_le & [ STEM < "curiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_curiosamente_x_rel" ]. curiosear_v := v_unacc_lcomp_loc*_le & [ STEM < "curiosear" >, SYNSEM.LKEYS.KEYREL.PRED "_curiosear_v_rel" ]. curiosidad_n1 := n_intr_uncount_le & [ STEM < "curiosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curiosidad_n_rel" ] ]. curiosidad_n2 := n_intr_count_le & [ STEM < "curiosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curiosidad_n_rel" ] ]. curioso_a1 := a_or_le & [ STEM < "curioso" >, SYNSEM.LKEYS.KEYREL.PRED "_curioso_a_rel" ]. currante_n1 := n_intr_count_le & [ STEM < "currante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_currante_n_rel" ] ]. currentilíneamente_x1 := av_i_spr_le & [ STEM < "currentilíneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_currentilíneamente_x_rel" ]. curricular_a1 := a_rel_nonprd_intr_le & [ STEM < "curricular" >, SYNSEM.LKEYS.KEYREL.PRED "_curricular_a_rel" ]. curriculum_n1 := n_intr_count_le & [ STEM < "curriculum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_curriculum_n_rel" ] ]. curry_n1 := n_intr_count_le & [ STEM < "curry" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_curry_n_rel" ] ]. currículo_n1 := n_intr_count_le & [ STEM < "currículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_currículo_n_rel" ] ]. currículum_n1 := n_intr_count_le & [ STEM < "currículum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_currículum_n_rel" ] ]. cursar_v1 := v_trans_np_le & [ STEM < "cursar" >, SYNSEM.LKEYS.KEYREL.PRED "_cursar_v_rel" ]. cursilería_n1 := n_intr_mass-or-count_le & [ STEM < "cursilería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cursilería_n_rel" ] ]. cursillo_n1 := n_intr_count_le & [ STEM < "cursillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cursillo_n_rel" ] ]. cursiva_n1 := n_intr_uncount_pl_le & [ STEM < "cursiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cursiva_n_rel" ] ]. cursivo_a1 := a_rel_nonprd_intr_le & [ STEM < "cursivo" >, SYNSEM.LKEYS.KEYREL.PRED "_cursivo_a_rel" ]. curso_n1 := n_intr_count_le & [ STEM < "curso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curso_n_rel" ] ]. cursor_n1 := n_intr_count_le & [ STEM < "cursor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cursor_n_rel" ] ]. curtidor_n1 := n_subj-nom_le & [ STEM < "curtidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_curtidor_n_rel" ] ]. curtiembre_n1 := n_intr_count_le & [ STEM < "curtiembre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curtiembre_n_rel" ] ]. curtimiento_n1 := n_trans_le & [ STEM < "curtimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_curtimiento_n_rel" ]. curtir_v := v_trans_np*_caus_le & [ STEM < "curtir" >, SYNSEM.LKEYS.KEYREL.PRED "_curtir_v_rel" ]. curva_n1 := n_intr_count_le & [ STEM < "curva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_curva_n_rel" ] ]. curvamente_x1 := av_i_spr_le & [ STEM < "curvamente" >, SYNSEM.LKEYS.KEYREL.PRED "_curvamente_x_rel" ]. curvar_v := v_trans_np_caus_le & [ STEM < "curvar" >, SYNSEM.LKEYS.KEYREL.PRED "_curvar_v_rel" ]. curvatura_n1 := n_intr_count_le & [ STEM < "curvatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_curvatura_n_rel" ] ]. curvilíneamente_x1 := av_i_spr_le & [ STEM < "curvilíneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_curvilíneamente_x_rel" ]. curvilíneo_a1 := a_qual_intr_ser_le & [ STEM < "curvilíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_curvilíneo_a_rel" ]. curvo_a1 := a_qual_intr_ser_le & [ STEM < "curvo" >, SYNSEM.LKEYS.KEYREL.PRED "_curvo_a_rel" ]. curvímetro_n1 := n_intr_count_le & [ STEM < "curvímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_curvímetro_n_rel" ] ]. cuscuta_n1 := n_intr_count_le & [ STEM < "cuscuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cuscuta_n_rel" ] ]. cuspidado_a1 := a_rel_nonprd_intr_le & [ STEM < "cuspidado" >, SYNSEM.LKEYS.KEYREL.PRED "_cuspidado_a_rel" ]. cuspídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "cuspídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuspídeo_a_rel" ]. custodia_n1 := n_trans_le & [ STEM < "custodia" >, SYNSEM.LKEYS.KEYREL.PRED "_custodia_n_rel" ]. custodiar_v := v_trans_np_le & [ STEM < "custodiar" >, SYNSEM.LKEYS.KEYREL.PRED "_custodiar_v_rel" ]. cutina_n1 := n_intr_count_le & [ STEM < "cutina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cutina_n_rel" ] ]. cutis_n1 := n_ppcomp_count_le & [ STEM < "cutis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cutis_n_rel" ] ]. cutre_a1 := a_qual_intr_scopal_le & [ STEM < "cutre" >, SYNSEM.LKEYS.KEYREL.PRED "_cutre_a_rel" ]. cutter_n1 := n_intr_count_le & [ STEM < "cutter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cutter_n_rel" ] ]. cutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "cutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_cutáneo_a_rel" ]. cutícula_n1 := n_intr_count_le & [ STEM < "cutícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cutícula_n_rel" ] ]. cuyo_r := d_rel_cuyo_le & [ STEM < "cuyo" > ]. cuádrica_n1 := n_intr_count_le & [ STEM < "cuádrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cuádrica_n_rel" ] ]. cuádriceps_n1 := n_ppcomp_count_le & [ STEM < "cuádriceps" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cuádriceps_n_rel" ] ]. cuádruple_a1 := a_rel_nonprd_intr_le & [ STEM < "cuádruple" >, SYNSEM.LKEYS.KEYREL.PRED "_cuádruple_a_rel" ]. cuádruplo_a1 := a_rel_nonprd_intr_le & [ STEM < "cuádruplo" >, SYNSEM.LKEYS.KEYREL.PRED "_cuádruplo_a_rel" ]. cuádruplo_n1 := nu_mult-part_le & [ STEM < "cuádruplo" > ]. cuál_d := d_wh_cual_le & [ STEM < "cuál" > ]. cuál_i := pr_wh_cual_le & [ STEM < "cuál" > ]. cuándo_i := av_wh_tmp_le & [ STEM < "cuándo" > ]. cuánticamente_x1 := av_i_spr_le & [ STEM < "cuánticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cuánticamente_x_rel" ]. cuántico_a1 := a_rel_nonprd_intr_le & [ STEM < "cuántico" >, SYNSEM.LKEYS.KEYREL.PRED "_cuántico_a_rel" ]. cuánto_d := d_wh_cuanto_le & [ STEM < "cuánto" > ]. cuánto_i := pr_wh_cuanto_le & [ STEM < "cuánto" > ]. cuáquero_n1 := n_intr_count_le & [ STEM < "cuáquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuáquero_n_rel" ] ]. cuártico_a1 := a_rel_nonprd_intr_le & [ STEM < "cuártico" >, SYNSEM.LKEYS.KEYREL.PRED "_cuártico_a_rel" ]. cuña_n1 := n_intr_count_le & [ STEM < "cuña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuña_n_rel" ] ]. cuñado_n1 := n_intr_count_le & [ STEM < "cuñado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cuñado_n_rel" ] ]. cuño_n1 := n_intr_count_le & [ STEM < "cuño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cuño_n_rel" ] ]. cábala_n1 := n_intr_count_le & [ STEM < "cábala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cábala_n_rel" ] ]. cábrio_n1 := n_intr_count_le & [ STEM < "cábrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cábrio_n_rel" ] ]. cálamo_currente_x1 := av_i_le & [ STEM < "cálamo_currente" >, SYNSEM.LKEYS.KEYREL.PRED "_cálamo_currente_x_rel" ]. cálato_n1 := n_intr_count_le & [ STEM < "cálato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cálato_n_rel" ] ]. cálcico_a1 := a_rel_nonprd_intr_le & [ STEM < "cálcico" >, SYNSEM.LKEYS.KEYREL.PRED "_cálcico_a_rel" ]. cálculo_n1 := n_trans_le & [ STEM < "cálculo" >, SYNSEM.LKEYS.KEYREL.PRED "_cálculo_n_rel" ]. cálidamente_x1 := av_i_spr_le & [ STEM < "cálidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cálidamente_x_rel" ]. cálido_a1 := a_adv_event_le & [ STEM < "cálido" >, SYNSEM.LKEYS.KEYREL.PRED "_cálido_a_rel" ]. cálido_a2 := a_qual_intr_scopal_le & [ STEM < "cálido" >, SYNSEM.LKEYS.KEYREL.PRED "_cálido_a_rel" ]. cáliz_n1 := n_intr_count_le & [ STEM < "cáliz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cáliz_n_rel" ] ]. cámara_n1 := n_intr_count_le & [ STEM < "cámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cámara_n_rel" ] ]. cáncamo_n1 := n_intr_count_le & [ STEM < "cáncamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cáncamo_n_rel" ] ]. cáncer_n1 := n_intr_uncount_le & [ STEM < "cáncer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cáncer_n_rel" ] ]. cándidamente_x1 := av_i_spr_le & [ STEM < "cándidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cándidamente_x_rel" ]. cándido_a1 := a_qual_intr_scopal_le & [ STEM < "cándido" >, SYNSEM.LKEYS.KEYREL.PRED "_cándido_a_rel" ]. cánido_n1 := n_intr_count_le & [ STEM < "cánido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cánido_n_rel" ] ]. cánon_n1 := n_intr_count_le & [ STEM < "cánon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cánon_n_rel" ] ]. cántabro_a1 := a_rel_prd_le & [ STEM < "cántabro" >, SYNSEM.LKEYS.KEYREL.PRED "_cántabro_a_rel" ]. cántabro_n1 := n_intr_count_le & [ STEM < "cántabro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cántabro_n_rel" ] ]. cántara_n1 := n_intr_count_le & [ STEM < "cántara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cántara_n_rel" ] ]. cántaro_n1 := n_intr_count_le & [ STEM < "cántaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cántaro_n_rel" ] ]. cántico_n1 := n_intr_count_le & [ STEM < "cántico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cántico_n_rel" ] ]. cánula_n1 := n_intr_count_le & [ STEM < "cánula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cánula_n_rel" ] ]. cápsula_n1 := n_intr_count_le & [ STEM < "cápsula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cápsula_n_rel" ] ]. cárabo_n1 := n_intr_count_le & [ STEM < "cárabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cárabo_n_rel" ] ]. cárcel_n1 := n_intr_count_le & [ STEM < "cárcel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cárcel_n_rel" ] ]. cárdeno_a1 := a_qual_intr_ser_le & [ STEM < "cárdeno" >, SYNSEM.LKEYS.KEYREL.PRED "_cárdeno_a_rel" ]. cárnico_a1 := a_rel_nonprd_intr_le & [ STEM < "cárnico" >, SYNSEM.LKEYS.KEYREL.PRED "_cárnico_a_rel" ]. cárstico_a1 := a_rel_nonprd_intr_le & [ STEM < "cárstico" >, SYNSEM.LKEYS.KEYREL.PRED "_cárstico_a_rel" ]. cártamo_n1 := n_intr_count_le & [ STEM < "cártamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cártamo_n_rel" ] ]. cártel_n1 := n_intr_count_le & [ STEM < "cártel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_cártel_n_rel" ] ]. cárter_n1 := n_intr_count_le & [ STEM < "cárter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cárter_n_rel" ] ]. cáscara_n1 := n_intr_mass_le & [ STEM < "cáscara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cáscara_n_rel" ] ]. cátedra_n1 := n_intr_count_le & [ STEM < "cátedra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_cátedra_n_rel" ] ]. cátodo_n1 := n_intr_count_le & [ STEM < "cátodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cátodo_n_rel" ] ]. cáustico_a1 := a_rel_nonprd_intr_le & [ STEM < "cáustico" >, SYNSEM.LKEYS.KEYREL.PRED "_cáustico_a_rel" ]. cávea_n1 := n_intr_count_le & [ STEM < "cávea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_cávea_n_rel" ] ]. cáñamo_n1 := n_intr_mass_le & [ STEM < "cáñamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cáñamo_n_rel" ] ]. cédula_n1 := n_intr_count_le & [ STEM < "cédula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cédula_n_rel" ] ]. célebre_a1 := a_qual_trans*_ser_le & [ STEM < "célebre" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_célebre_a_rel" ] ]. célibe_a1 := a_qual_intr_ser_le & [ STEM < "célibe" >, SYNSEM.LKEYS.KEYREL.PRED "_célibe_a_rel" ]. céltico_a1 := a_rel_prd_le & [ STEM < "céltico" >, SYNSEM.LKEYS.KEYREL.PRED "_céltico_a_rel" ]. célula_n1 := n_intr_count_le & [ STEM < "célula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_célula_n_rel" ] ]. céntimo_n := n_intr_count_le & [ STEM < "céntimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_céntimo_n_rel" ] ]. céntimo_n1 := n_intr_count_le & [ STEM < "céntimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_céntimo_n_rel" ] ]. céntricamente_x1 := av_i_spr_le & [ STEM < "céntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_céntricamente_x_rel" ]. céntrico_a1 := a_qual_intr_scopal_le & [ STEM < "céntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_céntrico_a_rel" ]. céntuplo_a1 := a_rel_nonprd_intr_le & [ STEM < "céntuplo" >, SYNSEM.LKEYS.KEYREL.PRED "_céntuplo_a_rel" ]. céreo_a1 := a_rel_nonprd_intr_le & [ STEM < "céreo" >, SYNSEM.LKEYS.KEYREL.PRED "_céreo_a_rel" ]. cérico_a1 := a_rel_nonprd_intr_le & [ STEM < "cérico" >, SYNSEM.LKEYS.KEYREL.PRED "_cérico_a_rel" ]. cérvido_n1 := n_intr_count_le & [ STEM < "cérvido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cérvido_n_rel" ] ]. césped_n1 := n_intr_mass_le & [ STEM < "césped" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_césped_n_rel" ] ]. cícero_n := n_intr_count_le & [ STEM < "cícero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_cícero_n_rel" ] ]. cíclicamente_x1 := av_i_spr_le & [ STEM < "cíclicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cíclicamente_x_rel" ]. cíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "cíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_cíclico_a_rel" ]. cílica_n1 := n_intr_count_le & [ STEM < "cílica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cílica_n_rel" ] ]. címbalo_n1 := n_intr_count_le & [ STEM < "címbalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_címbalo_n_rel" ] ]. cíngaro_a1 := a_rel_prd_le & [ STEM < "cíngaro" >, SYNSEM.LKEYS.KEYREL.PRED "_cíngaro_a_rel" ]. cíngaro_n1 := n_intr_count_le & [ STEM < "cíngaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cíngaro_n_rel" ] ]. cíngulo_n1 := n_ppcomp_count_le & [ STEM < "cíngulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cíngulo_n_rel" ] ]. cínico_a1 := a_qual_intr_ser_le & [ STEM < "cínico" >, SYNSEM.LKEYS.KEYREL.PRED "_cínico_a_rel" ]. círculo_n1 := n_intr_count_le & [ STEM < "círculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_círculo_n_rel" ] ]. cístico_a1 := a_rel_nonprd_intr_le & [ STEM < "cístico" >, SYNSEM.LKEYS.KEYREL.PRED "_cístico_a_rel" ]. cítara_n1 := n_intr_count_le & [ STEM < "cítara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cítara_n_rel" ] ]. cítrico_a1 := a_rel_nonprd_intr_le & [ STEM < "cítrico" >, SYNSEM.LKEYS.KEYREL.PRED "_cítrico_a_rel" ]. cítrico_n1 := n_intr_count_le & [ STEM < "cítrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cítrico_n_rel" ] ]. cívico_a1 := a_rel_nonprd_intr_le & [ STEM < "cívico" >, SYNSEM.LKEYS.KEYREL.PRED "_cívico_a_rel" ]. cóccix_n1 := n_ppcomp_count_le & [ STEM < "cóccix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cóccix_n_rel" ] ]. cóclea_n1 := n_intr_count_le & [ STEM < "cóclea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cóclea_n_rel" ] ]. cóctel_n1 := n_intr_count_le & [ STEM < "cóctel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_cóctel_n_rel" ] ]. códice_n1 := n_intr_count_le & [ STEM < "códice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_códice_n_rel" ] ]. código_n1 := n_intr_count_le & [ STEM < "código" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_código_n_rel" ] ]. cólera_n1 := n_intr_uncount_pl_le & [ STEM < "cólera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cólera_n_rel" ] ]. cólera_n2 := n_intr_mass_le & [ STEM < "cólera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cólera_n_rel" ] ]. cólico_a1 := a_rel_nonprd_intr_le & [ STEM < "cólico" >, SYNSEM.LKEYS.KEYREL.PRED "_cólico_a_rel" ]. cólico_n1 := n_intr_uncount_pl_le & [ STEM < "cólico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cólico_n_rel" ] ]. cólquico_n1 := n_intr_count_le & [ STEM < "cólquico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_cólquico_n_rel" ] ]. cómic_n1 := n_intr_count_le & [ STEM < "cómic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_cómic_n_rel" ] ]. cómicamente_x1 := av_i_spr_le & [ STEM < "cómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cómicamente_x_rel" ]. cómico_a1 := a_qual_intr_scopal_le & [ STEM < "cómico" >, SYNSEM.LKEYS.KEYREL.PRED "_cómico_a_rel" ]. cómico_n1 := n_intr_count_le & [ STEM < "cómico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cómico_n_rel" ] ]. cómo_i := av_wh_manner_le & [ STEM < "cómo" > ]. cómoda_n1 := n_intr_count_le & [ STEM < "cómoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cómoda_n_rel" ] ]. cómodamente_x1 := av_i_spr_le & [ STEM < "cómodamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cómodamente_x_rel" ]. cómodo_a1 := a_or_le & [ STEM < "cómodo" >, SYNSEM.LKEYS.KEYREL.PRED "_cómodo_a_rel" ]. cómodo_a2 := a_qual_intr_scopal_le & [ STEM < "cómodo" >, SYNSEM.LKEYS.KEYREL.PRED "_cómodo_a_rel" ]. cómplice_n1 := n_intr_count_le & [ STEM < "cómplice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cómplice_n_rel" ] ]. cómputo_n1 := n_intr_count_le & [ STEM < "cómputo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cómputo_n_rel" ] ]. cóncavo_a1 := a_qual_intr_ser_le & [ STEM < "cóncavo" >, SYNSEM.LKEYS.KEYREL.PRED "_cóncavo_a_rel" ]. cónclave_n1 := n_intr_count_le & [ STEM < "cónclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cónclave_n_rel" ] ]. cóndilo_n1 := n_intr_count_le & [ STEM < "cóndilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cóndilo_n_rel" ] ]. cóndor_n1 := n_intr_count_le & [ STEM < "cóndor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_cóndor_n_rel" ] ]. cónica_n1 := n_intr_count_le & [ STEM < "cónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cónica_n_rel" ] ]. cónicamente_x1 := av_i_spr_le & [ STEM < "cónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cónicamente_x_rel" ]. cónico_a1 := a_qual_intr_ser_le & [ STEM < "cónico" >, SYNSEM.LKEYS.KEYREL.PRED "_cónico_a_rel" ]. cónsul_n1 := n_intr_count_le & [ STEM < "cónsul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cónsul_n_rel" ] ]. cónyuge_n1 := n_intr_count_le & [ STEM < "cónyuge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_cónyuge_n_rel" ] ]. cópula_n1 := n_result_intr_le & [ STEM < "cópula" >, SYNSEM.LKEYS.KEYREL.PRED "_cópula_n_rel" ]. córam_pópulo_x1 := av_i_le & [ STEM < "córam_pópulo" >, SYNSEM.LKEYS.KEYREL.PRED "_córam_pópulo_x_rel" ]. córnea_n1 := n_intr_mass_le & [ STEM < "córnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_córnea_n_rel" ] ]. córneo_a1 := a_rel_nonprd_intr_le & [ STEM < "córneo" >, SYNSEM.LKEYS.KEYREL.PRED "_córneo_a_rel" ]. córner_n1 := n_intr_count_le & [ STEM < "córner" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_córner_n_rel" ] ]. córtex_n1 := n_intr_count_le & [ STEM < "córtex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_córtex_n_rel" ] ]. córtex_n2 := n_ppcomp_count_le & [ STEM < "córtex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_córtex_n_rel" ] ]. cósmicamente_x1 := av_i_spr_le & [ STEM < "cósmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cósmicamente_x_rel" ]. cósmico_a1 := a_rel_nonprd_intr_le & [ STEM < "cósmico" >, SYNSEM.LKEYS.KEYREL.PRED "_cósmico_a_rel" ]. cúbicamente_x1 := av_i_spr_le & [ STEM < "cúbicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_cúbicamente_x_rel" ]. cúbico_a1 := a_qual_intr_ser_le & [ STEM < "cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_cúbico_a_rel" ]. cúbito_n1 := n_ppcomp_count_le & [ STEM < "cúbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_cúbito_n_rel" ] ]. cúmulo_n1 := n_intr_count_le & [ STEM < "cúmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cúmulo_n_rel" ] ]. cúprico_a1 := a_rel_nonprd_intr_le & [ STEM < "cúprico" >, SYNSEM.LKEYS.KEYREL.PRED "_cúprico_a_rel" ]. cúpula_n1 := n_intr_count_le & [ STEM < "cúpula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_cúpula_n_rel" ] ]. cúspide_n1 := n_intr_count_le & [ STEM < "cúspide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_cúspide_n_rel" ] ]. da_capo_x1 := av_i_le & [ STEM < "da_capo" >, SYNSEM.LKEYS.KEYREL.PRED "_da_capo_x_rel" ]. dacita_n1 := n_intr_count_le & [ STEM < "dacita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dacita_n_rel" ] ]. dación_n1 := n_trans_le & [ STEM < "dación" >, SYNSEM.LKEYS.KEYREL.PRED "_dación_n_rel" ]. dacriagogatresia_n1 := n_intr_uncount_le & [ STEM < "dacriagogatresia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriagogatresia_n_rel" ] ]. dacrioadenalgia_n1 := n_intr_uncount_le & [ STEM < "dacrioadenalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacrioadenalgia_n_rel" ] ]. dacrioadenectomía_n1 := n_intr_count_le & [ STEM < "dacrioadenectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacrioadenectomía_n_rel" ] ]. dacrioadenitis_n1 := n_intr_uncount_le & [ STEM < "dacrioadenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacrioadenitis_n_rel" ] ]. dacrioblenorrea_n1 := n_intr_uncount_le & [ STEM < "dacrioblenorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacrioblenorrea_n_rel" ] ]. dacriocanaliculitis_n1 := n_intr_uncount_le & [ STEM < "dacriocanaliculitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocanaliculitis_n_rel" ] ]. dacriocistalgia_n1 := n_intr_uncount_le & [ STEM < "dacriocistalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistalgia_n_rel" ] ]. dacriocistectasia_n1 := n_intr_uncount_le & [ STEM < "dacriocistectasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistectasia_n_rel" ] ]. dacriocistectomía_n1 := n_intr_count_le & [ STEM < "dacriocistectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistectomía_n_rel" ] ]. dacriocistitis_n1 := n_intr_uncount_le & [ STEM < "dacriocistitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistitis_n_rel" ] ]. dacriocistoptosis_n1 := n_intr_uncount_le & [ STEM < "dacriocistoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistoptosis_n_rel" ] ]. dacriocistorrinostomía_n1 := n_intr_count_le & [ STEM < "dacriocistorrinostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistorrinostomía_n_rel" ] ]. dacriocistosiringotomía_n1 := n_intr_count_le & [ STEM < "dacriocistosiringotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistosiringotomía_n_rel" ] ]. dacriocistostenosis_n1 := n_intr_uncount_le & [ STEM < "dacriocistostenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistostenosis_n_rel" ] ]. dacriocistotomía_n1 := n_intr_count_le & [ STEM < "dacriocistotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriocistotomía_n_rel" ] ]. dacriohemorrea_n1 := n_intr_uncount_le & [ STEM < "dacriohemorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriohemorrea_n_rel" ] ]. dacriolitiasis_n1 := n_intr_uncount_le & [ STEM < "dacriolitiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriolitiasis_n_rel" ] ]. dacriolito_n1 := n_intr_count_le & [ STEM < "dacriolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dacriolito_n_rel" ] ]. dacrioma_n1 := n_intr_uncount_le & [ STEM < "dacrioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacrioma_n_rel" ] ]. dacriopiorrea_n1 := n_intr_uncount_le & [ STEM < "dacriopiorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriopiorrea_n_rel" ] ]. dacriopiosis_n1 := n_intr_uncount_le & [ STEM < "dacriopiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriopiosis_n_rel" ] ]. dacriorrea_n1 := n_intr_uncount_le & [ STEM < "dacriorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriorrea_n_rel" ] ]. dacriosolenitis_n1 := n_intr_uncount_le & [ STEM < "dacriosolenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dacriosolenitis_n_rel" ] ]. dactilar_a1 := a_rel_nonprd_intr_le & [ STEM < "dactilar" >, SYNSEM.LKEYS.KEYREL.PRED "_dactilar_a_rel" ]. dactilera_n1 := n_intr_count_le & [ STEM < "dactilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dactilera_n_rel" ] ]. dactilografiar_v := v_trans_np_le & [ STEM < "dactilografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_dactilografiar_v_rel" ]. dactilografía_n1 := n_intr_uncount_le & [ STEM < "dactilografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dactilografía_n_rel" ] ]. dactilograma_n1 := n_intr_count_le & [ STEM < "dactilograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dactilograma_n_rel" ] ]. dactiloscopia_n1 := n_intr_count_le & [ STEM < "dactiloscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dactiloscopia_n_rel" ] ]. dactiloscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "dactiloscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_dactiloscópico_a_rel" ]. dactilógrafo_n1 := n_intr_count_le & [ STEM < "dactilógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dactilógrafo_n_rel" ] ]. dadaísmo_n1 := n_intr_uncount_le & [ STEM < "dadaísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dadaísmo_n_rel" ] ]. dadivosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "dadivosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dadivosidad_n_rel" ] ]. dadivoso_a1 := a_qual_intr_ser_le & [ STEM < "dadivoso" >, SYNSEM.LKEYS.KEYREL.PRED "_dadivoso_a_rel" ]. dado_n1 := n_intr_count_le & [ STEM < "dado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dado_n_rel" ] ]. dado_que_sc := sc_prop_fin_le & [ STEM < "dado_que" >, SYNSEM.LKEYS.KEYREL.PRED "_dado_que_x_subord_rel" ]. daga_n1 := n_intr_count_le & [ STEM < "daga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_daga_n_rel" ] ]. daguerreotipar_v := v_trans_np_le & [ STEM < "daguerreotipar" >, SYNSEM.LKEYS.KEYREL.PRED "_daguerreotipar_v_rel" ]. daguerrotipo_n1 := n_intr_count_le & [ STEM < "daguerrotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_daguerrotipo_n_rel" ] ]. dalia_n1 := n_intr_count_le & [ STEM < "dalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_dalia_n_rel" ] ]. dalmática_n1 := n_intr_count_le & [ STEM < "dalmática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dalmática_n_rel" ] ]. daltonismo_n1 := n_intr_uncount_le & [ STEM < "daltonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_daltonismo_n_rel" ] ]. daltónico_a1 := a_qual_intr_ser_le & [ STEM < "daltónico" >, SYNSEM.LKEYS.KEYREL.PRED "_daltónico_a_rel" ]. dama_n1 := n_intr_count_le & [ STEM < "dama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dama_n_rel" ] ]. damajuana_n1 := n_intr_count_le & [ STEM < "damajuana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_damajuana_n_rel" ] ]. damara_n1 := n_intr_mass_le & [ STEM < "damara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_damara_n_rel" ] ]. damasco_n1 := n_intr_mass-or-count_le & [ STEM < "damasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_damasco_n_rel" ] ]. damisela_n1 := n_intr_count_le & [ STEM < "damisela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_damisela_n_rel" ] ]. damnificación_n1 := n_trans_le & [ STEM < "damnificación" >, SYNSEM.LKEYS.KEYREL.PRED "_damnificación_n_rel" ]. damnificado_n1 := n_intr_count_le & [ STEM < "damnificado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_damnificado_n_rel" ] ]. damnificar_v := v_trans_np_le & [ STEM < "damnificar" >, SYNSEM.LKEYS.KEYREL.PRED "_damnificar_v_rel" ]. danburita_n1 := n_intr_count_le & [ STEM < "danburita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_danburita_n_rel" ] ]. dandy_n1 := n_intr_count_le & [ STEM < "dandy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dandy_n_rel" ] ]. dantesco_a1 := a_qual_intr_scopal_le & [ STEM < "dantesco" >, SYNSEM.LKEYS.KEYREL.PRED "_dantesco_a_rel" ]. danza_n1 := n_intr_count_le & [ STEM < "danza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_danza_n_rel" ] ]. danzar_v := v_trans_np*_le & [ STEM < "danzar" >, SYNSEM.LKEYS.KEYREL.PRED "_danzar_v_rel" ]. danés_a1 := a_rel_prd_le & [ STEM < "danés" >, SYNSEM.LKEYS.KEYREL.PRED "_danés_a_rel" ]. danés_n1 := n_intr_count_le & [ STEM < "danés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_danés_n_rel" ] ]. dardo_n1 := n_intr_count_le & [ STEM < "dardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dardo_n_rel" ] ]. darwinismo_n1 := n_intr_uncount_le & [ STEM < "darwinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_darwinismo_n_rel" ] ]. datación_n1 := n_trans_le & [ STEM < "datación" >, SYNSEM.LKEYS.KEYREL.PRED "_datación_n_rel" ]. datafax_n1 := n_intr_count_le & [ STEM < "datafax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_datafax_n_rel" ] ]. datagrama_n1 := n_intr_count_le & [ STEM < "datagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_datagrama_n_rel" ] ]. datar_v1 := v_trans_np_le & [ STEM < "datar" >, SYNSEM.LKEYS.KEYREL.PRED "_datar_v_rel" ]. datar_v2 := v_intr_mrkd_np_le & [ STEM < "datar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_datar_v_rel" ] ]. date := n_intr_temp_le & [ STEM < "w" > ]. datilera_n1 := n_intr_count_le & [ STEM < "datilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_datilera_n_rel" ] ]. dativo_a1 := a_rel_nonprd_intr_le & [ STEM < "dativo" >, SYNSEM.LKEYS.KEYREL.PRED "_dativo_a_rel" ]. dativo_n1 := n_intr_uncount_le & [ STEM < "dativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dativo_n_rel" ] ]. dato_n1 := n_intr_count_le & [ STEM < "dato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dato_n_rel" ] ]. datolita_n1 := n_intr_count_le & [ STEM < "datolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_datolita_n_rel" ] ]. dañar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "dañar" >, SYNSEM.LKEYS.KEYREL.PRED "_dañar_v_rel" ]. dañar_v2 := v_trans_np_caus_le & [ STEM < "dañar" >, SYNSEM.LKEYS.KEYREL.PRED "_dañar_v_rel" ]. dañino_a1 := a_qual_trans*_ser_le & [ STEM < "dañino" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_dañino_a_rel" ] ]. daño_n1 := n_trans_le & [ STEM < "daño" >, SYNSEM.LKEYS.KEYREL.PRED "_daño_n_rel" ]. dañoso_a1 := a_qual_intr_scopal_le & [ STEM < "dañoso" >, SYNSEM.LKEYS.KEYREL.PRED "_dañoso_a_rel" ]. de_a_folio_x1 := av_i_le & [ STEM < "de_a_folio" >, SYNSEM.LKEYS.KEYREL.PRED "_de_a_folio_x_rel" ]. de_a_veras_x1 := av_i_le & [ STEM < "de_a_veras" >, SYNSEM.LKEYS.KEYREL.PRED "_de_a_veras_x_rel" ]. de_acarreo_x1 := av_i_le & [ STEM < "de_acarreo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_acarreo_x_rel" ]. de_acuerdo_con_p_vmod := p_vmod_le & [ STEM < "de_acuerdo_con" >, SYNSEM.LKEYS.KEYREL.PRED _de_acuerdo_con_p_rel ]. de_acá_para_allá_x1 := av_i_le & [ STEM < "de_acá_para_allá" >, SYNSEM.LKEYS.KEYREL.PRED "_de_acá_para_allá_x_rel" ]. de_al_lado_de_p_vmod := p_vmod_le & [ STEM < "de_al_lado_de" >, SYNSEM.LKEYS.KEYREL.PRED _de_al_lado_de_p_rel ]. de_alto_copete_x1 := av_i_le & [ STEM < "de_alto_copete" >, SYNSEM.LKEYS.KEYREL.PRED "_de_alto_copete_x_rel" ]. de_alto_coturno_x1 := av_i_le & [ STEM < "de_alto_coturno" >, SYNSEM.LKEYS.KEYREL.PRED "_de_alto_coturno_x_rel" ]. de_altos_vuelos_x1 := av_i_le & [ STEM < "de_altos_vuelos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_altos_vuelos_x_rel" ]. de_amplio_espectro_x1 := av_i_le & [ STEM < "de_amplio_espectro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_amplio_espectro_x_rel" ]. de_andar_por_casa_x1 := av_i_le & [ STEM < "de_andar_por_casa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_andar_por_casa_x_rel" ]. de_anequín_x1 := av_i_le & [ STEM < "de_anequín" >, SYNSEM.LKEYS.KEYREL.PRED "_de_anequín_x_rel" ]. de_antemano_x1 := av_i_le & [ STEM < "de_antemano" >, SYNSEM.LKEYS.KEYREL.PRED "_de_antemano_x_rel" ]. de_aquí_en_adelante_x1 := av_i_le & [ STEM < "de_aquí_en_adelante" >, SYNSEM.LKEYS.KEYREL.PRED "_de_aquí_en_adelante_x_rel" ]. de_aquí_para_allí_x1 := av_i_le & [ STEM < "de_aquí_para_allí" >, SYNSEM.LKEYS.KEYREL.PRED "_de_aquí_para_allí_x_rel" ]. de_armas_tomar_x1 := av_i_le & [ STEM < "de_armas_tomar" >, SYNSEM.LKEYS.KEYREL.PRED "_de_armas_tomar_x_rel" ]. de_arrastre_x1 := av_i_le & [ STEM < "de_arrastre" >, SYNSEM.LKEYS.KEYREL.PRED "_de_arrastre_x_rel" ]. de_arte_mayor_x1 := av_i_le & [ STEM < "de_arte_mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_de_arte_mayor_x_rel" ]. de_arte_menor_x1 := av_i_le & [ STEM < "de_arte_menor" >, SYNSEM.LKEYS.KEYREL.PRED "_de_arte_menor_x_rel" ]. de_aúpa_x1 := av_i_le & [ STEM < "de_aúpa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_aúpa_x_rel" ]. de_baja_estofa_x1 := av_i_le & [ STEM < "de_baja_estofa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_baja_estofa_x_rel" ]. de_bajo_vuelo_x1 := av_i_le & [ STEM < "de_bajo_vuelo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bajo_vuelo_x_rel" ]. de_balde_x1 := av_i_le & [ STEM < "de_balde" >, SYNSEM.LKEYS.KEYREL.PRED "_de_balde_x_rel" ]. de_ballesta_x1 := av_i_le & [ STEM < "de_ballesta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ballesta_x_rel" ]. de_barra_a_barra_x1 := av_i_le & [ STEM < "de_barra_a_barra" >, SYNSEM.LKEYS.KEYREL.PRED "_de_barra_a_barra_x_rel" ]. de_boca_en_boca_x1 := av_i_le & [ STEM < "de_boca_en_boca" >, SYNSEM.LKEYS.KEYREL.PRED "_de_boca_en_boca_x_rel" ]. de_bote_en_bote_x1 := av_i_le & [ STEM < "de_bote_en_bote" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bote_en_bote_x_rel" ]. de_bracero_x1 := av_i_le & [ STEM < "de_bracero" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bracero_x_rel" ]. de_bruces_x1 := av_i_le & [ STEM < "de_bruces" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bruces_x_rel" ]. de_buen_efecto_x1 := av_i_le & [ STEM < "de_buen_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buen_efecto_x_rel" ]. de_buen_grado_x1 := av_i_le & [ STEM < "de_buen_grado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buen_grado_x_rel" ]. de_buen_tono_x1 := av_i_le & [ STEM < "de_buen_tono" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buen_tono_x_rel" ]. de_buena_cepa_x1 := av_i_le & [ STEM < "de_buena_cepa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_cepa_x_rel" ]. de_buena_familia_x1 := av_i_le & [ STEM < "de_buena_familia" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_familia_x_rel" ]. de_buena_fe_x1 := av_i_le & [ STEM < "de_buena_fe" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_fe_x_rel" ]. de_buena_gana_x1 := av_i_le & [ STEM < "de_buena_gana" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_gana_x_rel" ]. de_buena_ley_x1 := av_i_le & [ STEM < "de_buena_ley" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_ley_x_rel" ]. de_buena_ropa_x1 := av_i_le & [ STEM < "de_buena_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_ropa_x_rel" ]. de_buena_voluntad_x1 := av_i_le & [ STEM < "de_buena_voluntad" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buena_voluntad_x_rel" ]. de_buenas_a_primeras_x1 := av_i_le & [ STEM < "de_buenas_a_primeras" >, SYNSEM.LKEYS.KEYREL.PRED "_de_buenas_a_primeras_x_rel" ]. de_bureo_x1 := av_i_le & [ STEM < "de_bureo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bureo_x_rel" ]. de_bóbilis_x1 := av_i_le & [ STEM < "de_bóbilis" >, SYNSEM.LKEYS.KEYREL.PRED "_de_bóbilis_x_rel" ]. de_cabo_a_rabo_x1 := av_i_le & [ STEM < "de_cabo_a_rabo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cabo_a_rabo_x_rel" ]. de_canto_x1 := av_i_le & [ STEM < "de_canto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_canto_x_rel" ]. de_cara_a_p_vmod := p_vmod_le & [ STEM < "de_cara_a" >, SYNSEM.LKEYS.KEYREL.PRED _de_cara_a_p_rel ]. de_carrerilla_x1 := av_i_le & [ STEM < "de_carrerilla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_carrerilla_x_rel" ]. de_carretilla_x1 := av_i_le & [ STEM < "de_carretilla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_carretilla_x_rel" ]. de_cascabel_gordo_x1 := av_i_le & [ STEM < "de_cascabel_gordo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cascabel_gordo_x_rel" ]. de_casquería_x1 := av_i_le & [ STEM < "de_casquería" >, SYNSEM.LKEYS.KEYREL.PRED "_de_casquería_x_rel" ]. de_cañutillo_x1 := av_i_le & [ STEM < "de_cañutillo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cañutillo_x_rel" ]. de_chipén_x1 := av_i_le & [ STEM < "de_chipén" >, SYNSEM.LKEYS.KEYREL.PRED "_de_chipén_x_rel" ]. de_churro_x1 := av_i_le & [ STEM < "de_churro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_churro_x_rel" ]. de_ciencia_cierta_x1 := av_i_le & [ STEM < "de_ciencia_cierta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ciencia_cierta_x_rel" ]. de_circunvalación_x1 := av_i_le & [ STEM < "de_circunvalación" >, SYNSEM.LKEYS.KEYREL.PRED "_de_circunvalación_x_rel" ]. de_consuno_x1 := av_i_le & [ STEM < "de_consuno" >, SYNSEM.LKEYS.KEYREL.PRED "_de_consuno_x_rel" ]. de_corredera_x1 := av_i_le & [ STEM < "de_corredera" >, SYNSEM.LKEYS.KEYREL.PRED "_de_corredera_x_rel" ]. de_cortos_vuelos_x1 := av_i_le & [ STEM < "de_cortos_vuelos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cortos_vuelos_x_rel" ]. de_coña_x1 := av_i_le & [ STEM < "de_coña" >, SYNSEM.LKEYS.KEYREL.PRED "_de_coña_x_rel" ]. de_cuajo_x1 := av_i_le & [ STEM < "de_cuajo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cuajo_x_rel" ]. de_cualquier_forma_x1 := av_i_le & [ STEM < "de_cualquier_forma" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cualquier_forma_x_rel" ]. de_cuando_en_cuando_x1 := av_i_le & [ STEM < "de_cuando_en_cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cuando_en_cuando_x_rel" ]. de_cuelga_x1 := av_i_le & [ STEM < "de_cuelga" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cuelga_x_rel" ]. de_cuenta_y_riesgo_x1 := av_i_le & [ STEM < "de_cuenta_y_riesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cuenta_y_riesgo_x_rel" ]. de_cuerpo_presente_x1 := av_i_le & [ STEM < "de_cuerpo_presente" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cuerpo_presente_x_rel" ]. de_cutio_x1 := av_i_le & [ STEM < "de_cutio" >, SYNSEM.LKEYS.KEYREL.PRED "_de_cutio_x_rel" ]. de_dientes_afuera_x1 := av_i_le & [ STEM < "de_dientes_afuera" >, SYNSEM.LKEYS.KEYREL.PRED "_de_dientes_afuera_x_rel" ]. de_dios_abajo_x1 := av_i_le & [ STEM < "de_Dios_abajo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_Dios_abajo_x_rel" ]. de_disparo_x1 := av_i_le & [ STEM < "de_disparo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_disparo_x_rel" ]. de_doble_filo_x1 := av_i_le & [ STEM < "de_doble_filo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_doble_filo_x_rel" ]. de_dos_en_dos_x1 := av_i_le & [ STEM < "de_dos_en_dos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_dos_en_dos_x_rel" ]. de_dos_filos_x1 := av_i_le & [ STEM < "de_dos_filos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_dos_filos_x_rel" ]. de_día_en_día_x1 := av_i_le & [ STEM < "de_día_en_día" >, SYNSEM.LKEYS.KEYREL.PRED "_de_día_en_día_x_rel" ]. de_el_otro_lado_x1 := av_i_le & [ STEM < "del_otro_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_del_otro_lado_x_rel" ]. de_el_primer_voleo_x1 := av_i_le & [ STEM < "del_primer_voleo" >, SYNSEM.LKEYS.KEYREL.PRED "_del_primer_voleo_x_rel" ]. de_el_principio_al_fin_x1 := av_i_le & [ STEM < "del_principio_al_fin" >, SYNSEM.LKEYS.KEYREL.PRED "_del_principio_al_fin_x_rel" ]. de_el_revés_x1 := av_i_le & [ STEM < "del_revés" >, SYNSEM.LKEYS.KEYREL.PRED "_del_revés_x_rel" ]. de_el_tiempo_de_maricastaña_x1 := av_i_le & [ STEM < "del_tiempo_de_Maricastaña" >, SYNSEM.LKEYS.KEYREL.PRED "_del_tiempo_de_Maricastaña_x_rel" ]. de_ensueño_x1 := av_i_le & [ STEM < "de_ensueño" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ensueño_x_rel" ]. de_entonces_acá_x1 := av_i_le & [ STEM < "de_entonces_acá" >, SYNSEM.LKEYS.KEYREL.PRED "_de_entonces_acá_x_rel" ]. de_estampía_x1 := av_i_le & [ STEM < "de_estampía" >, SYNSEM.LKEYS.KEYREL.PRED "_de_estampía_x_rel" ]. de_extranjis_x1 := av_i_le & [ STEM < "de_extranjis" >, SYNSEM.LKEYS.KEYREL.PRED "_de_extranjis_x_rel" ]. de_facto_x1 := av_i_le & [ STEM < "de_facto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_facto_x_rel" ]. de_falondres_x1 := av_i_le & [ STEM < "de_falondres" >, SYNSEM.LKEYS.KEYREL.PRED "_de_falondres_x_rel" ]. de_fogueo_x1 := av_i_le & [ STEM < "de_fogueo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_fogueo_x_rel" ]. de_golpe_y_porrazo_x1 := av_i_le & [ STEM < "de_golpe_y_porrazo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_golpe_y_porrazo_x_rel" ]. de_grado_en_grado_x1 := av_i_le & [ STEM < "de_grado_en_grado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_grado_en_grado_x_rel" ]. de_guagua_x1 := av_i_le & [ STEM < "de_guagua" >, SYNSEM.LKEYS.KEYREL.PRED "_de_guagua_x_rel" ]. de_guardarropía_x1 := av_i_le & [ STEM < "de_guardarropía" >, SYNSEM.LKEYS.KEYREL.PRED "_de_guardarropía_x_rel" ]. de_guillotina_x1 := av_i_le & [ STEM < "de_guillotina" >, SYNSEM.LKEYS.KEYREL.PRED "_de_guillotina_x_rel" ]. de_higos_a_brevas_x1 := av_i_le & [ STEM < "de_higos_a_brevas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_higos_a_brevas_x_rel" ]. de_hoy_en_adelante_x1 := av_i_le & [ STEM < "de_hoy_en_adelante" >, SYNSEM.LKEYS.KEYREL.PRED "_de_hoy_en_adelante_x_rel" ]. de_hoy_para_mañana_x1 := av_i_le & [ STEM < "de_hoy_para_mañana" >, SYNSEM.LKEYS.KEYREL.PRED "_de_hoy_para_mañana_x_rel" ]. de_hoz_y_de_coz_x1 := av_i_le & [ STEM < "de_hoz_y_de_coz" >, SYNSEM.LKEYS.KEYREL.PRED "_de_hoz_y_de_coz_x_rel" ]. de_ida_y_vuelta_x1 := av_i_le & [ STEM < "de_ida_y_vuelta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ida_y_vuelta_x_rel" ]. de_iure_x1 := av_i_le & [ STEM < "de_iure" >, SYNSEM.LKEYS.KEYREL.PRED "_de_iure_x_rel" ]. de_jure_x1 := av_i_le & [ STEM < "de_jure" >, SYNSEM.LKEYS.KEYREL.PRED "_de_jure_x_rel" ]. de_juro_x1 := av_i_le & [ STEM < "de_juro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_juro_x_rel" ]. de_la_cruz_a_la_fecha_x1 := av_i_le & [ STEM < "de_la_cruz_a_la_fecha" >, SYNSEM.LKEYS.KEYREL.PRED "_de_la_cruz_a_la_fecha_x_rel" ]. de_la_mano_de_p_vmod := p_vmod_le & [ STEM < "de_la_mano_de" >, SYNSEM.LKEYS.KEYREL.PRED _de_la_mano_de_p_rel ]. de_la_noche_a_la_mañana_x1 := av_i_le & [ STEM < "de_la_noche_a_la_mañana" >, SYNSEM.LKEYS.KEYREL.PRED "_de_la_noche_a_la_mañana_x_rel" ]. de_la_puñeta_x1 := av_i_le & [ STEM < "de_la_puñeta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_la_puñeta_x_rel" ]. de_lado_a_lado_x1 := av_i_le & [ STEM < "de_lado_a_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lado_a_lado_x_rel" ]. de_lance_en_lance_x1 := av_i_le & [ STEM < "de_lance_en_lance" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lance_en_lance_x_rel" ]. de_lengua_en_lengua_x1 := av_i_le & [ STEM < "de_lengua_en_lengua" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lengua_en_lengua_x_rel" ]. de_lo_contrario_x1 := av_i_le & [ STEM < "de_lo_contrario" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lo_contrario_x_rel" ]. de_lo_lindo_x1 := av_i_le & [ STEM < "de_lo_lindo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lo_lindo_x_rel" ]. de_lo_vivo_a_lo_pintado_x1 := av_i_le & [ STEM < "de_lo_vivo_a_lo_pintado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_lo_vivo_a_lo_pintado_x_rel" ]. de_madrugada_x1 := av_i_le & [ STEM < "de_madrugada" >, SYNSEM.LKEYS.KEYREL.PRED "_de_madrugada_x_rel" ]. de_mal_a_mal_x1 := av_i_le & [ STEM < "de_mal_a_mal" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_a_mal_x_rel" ]. de_mal_abrigo_x1 := av_i_le & [ STEM < "de_mal_abrigo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_abrigo_x_rel" ]. de_mal_efecto_x1 := av_i_le & [ STEM < "de_mal_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_efecto_x_rel" ]. de_mal_en_peor_x1 := av_i_le & [ STEM < "de_mal_en_peor" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_en_peor_x_rel" ]. de_mal_grado_x1 := av_i_le & [ STEM < "de_mal_grado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_grado_x_rel" ]. de_mal_tono_x1 := av_i_le & [ STEM < "de_mal_tono" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_tono_x_rel" ]. de_mal_vivir_x1 := av_i_le & [ STEM < "de_mal_vivir" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mal_vivir_x_rel" ]. de_mala_fe_x1 := av_i_le & [ STEM < "de_mala_fe" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_fe_x_rel" ]. de_mala_gana_x1 := av_i_le & [ STEM < "de_mala_gana" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_gana_x_rel" ]. de_mala_ley_x1 := av_i_le & [ STEM < "de_mala_ley" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_ley_x_rel" ]. de_mala_manera_x1 := av_i_le & [ STEM < "de_mala_manera" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_manera_x_rel" ]. de_mala_muerte_x1 := av_i_le & [ STEM < "de_mala_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_muerte_x_rel" ]. de_mala_nota_x1 := av_i_le & [ STEM < "de_mala_nota" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mala_nota_x_rel" ]. de_mancomún_x1 := av_i_le & [ STEM < "de_mancomún" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mancomún_x_rel" ]. de_mano_derecha_x1 := av_i_le & [ STEM < "de_mano_derecha" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mano_derecha_x_rel" ]. de_mano_en_mano_x1 := av_i_le & [ STEM < "de_mano_en_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mano_en_mano_x_rel" ]. de_mano_izquierda_x1 := av_i_le & [ STEM < "de_mano_izquierda" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mano_izquierda_x_rel" ]. de_manos_a_boca_x1 := av_i_le & [ STEM < "de_manos_a_boca" >, SYNSEM.LKEYS.KEYREL.PRED "_de_manos_a_boca_x_rel" ]. de_marca_mayor_x1 := av_i_le & [ STEM < "de_marca_mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_de_marca_mayor_x_rel" ]. de_marras_x1 := av_i_le & [ STEM < "de_marras" >, SYNSEM.LKEYS.KEYREL.PRED "_de_marras_x_rel" ]. de_matute_x1 := av_i_le & [ STEM < "de_matute" >, SYNSEM.LKEYS.KEYREL.PRED "_de_matute_x_rel" ]. de_media_gala_x1 := av_i_le & [ STEM < "de_media_gala" >, SYNSEM.LKEYS.KEYREL.PRED "_de_media_gala_x_rel" ]. de_medio_a_medio_x1 := av_i_le & [ STEM < "de_medio_a_medio" >, SYNSEM.LKEYS.KEYREL.PRED "_de_medio_a_medio_x_rel" ]. de_medio_lado_x1 := av_i_le & [ STEM < "de_medio_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_de_medio_lado_x_rel" ]. de_medio_ojo_x1 := av_i_le & [ STEM < "de_medio_ojo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_medio_ojo_x_rel" ]. de_medio_pie_x1 := av_i_le & [ STEM < "de_medio_pie" >, SYNSEM.LKEYS.KEYREL.PRED "_de_medio_pie_x_rel" ]. de_mentirijillas_x1 := av_i_le & [ STEM < "de_mentirijillas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mentirijillas_x_rel" ]. de_mil_amores_x1 := av_i_le & [ STEM < "de_mil_amores" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mil_amores_x_rel" ]. de_mil_diablos_x1 := av_i_le & [ STEM < "de_mil_diablos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mil_diablos_x_rel" ]. de_miranda_x1 := av_i_le & [ STEM < "de_miranda" >, SYNSEM.LKEYS.KEYREL.PRED "_de_miranda_x_rel" ]. de_misa_y_olla_x1 := av_i_le & [ STEM < "de_misa_y_olla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_misa_y_olla_x_rel" ]. de_modo_que_sc := sc_prop_fin_le & [ STEM < "de_modo_que" >, SYNSEM.LKEYS.KEYREL.PRED "_de_modo_que_x_subord_rel" ]. de_momio_x1 := av_i_le & [ STEM < "de_momio" >, SYNSEM.LKEYS.KEYREL.PRED "_de_momio_x_rel" ]. de_morondanga_x1 := av_i_le & [ STEM < "de_morondanga" >, SYNSEM.LKEYS.KEYREL.PRED "_de_morondanga_x_rel" ]. de_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_sel_rel ]. de_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_sel_rel ]. de_mrk_np := p_mrk_np_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_sel_rel ]. de_muchas_campanillas_x1 := av_i_le & [ STEM < "de_muchas_campanillas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_muchas_campanillas_x_rel" ]. de_muchas_leguas_x1 := av_i_le & [ STEM < "de_muchas_leguas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_muchas_leguas_x_rel" ]. de_mucho_efecto_x1 := av_i_le & [ STEM < "de_mucho_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mucho_efecto_x_rel" ]. de_mucho_trote_x1 := av_i_le & [ STEM < "de_mucho_trote" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mucho_trote_x_rel" ]. de_más_marca_x1 := av_i_le & [ STEM < "de_más_marca" >, SYNSEM.LKEYS.KEYREL.PRED "_de_más_marca_x_rel" ]. de_mírame_y_no_me_toques_x1 := av_i_le & [ STEM < "de_mírame_y_no_me_toques" >, SYNSEM.LKEYS.KEYREL.PRED "_de_mírame_y_no_me_toques_x_rel" ]. de_ninguna_manera_x1 := av_i_le & [ STEM < "de_ninguna_manera" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ninguna_manera_x_rel" ]. de_nueva_planta_x1 := av_i_le & [ STEM < "de_nueva_planta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_nueva_planta_x_rel" ]. de_nuevo_cuño_x1 := av_i_le & [ STEM < "de_nuevo_cuño" >, SYNSEM.LKEYS.KEYREL.PRED "_de_nuevo_cuño_x_rel" ]. de_nunca_acabar_x1 := av_i_le & [ STEM < "de_nunca_acabar" >, SYNSEM.LKEYS.KEYREL.PRED "_de_nunca_acabar_x_rel" ]. de_oque_x1 := av_i_le & [ STEM < "de_oque" >, SYNSEM.LKEYS.KEYREL.PRED "_de_oque_x_rel" ]. de_oreja_a_oreja_x1 := av_i_le & [ STEM < "de_oreja_a_oreja" >, SYNSEM.LKEYS.KEYREL.PRED "_de_oreja_a_oreja_x_rel" ]. de_oro_y_azul_x1 := av_i_le & [ STEM < "de_oro_y_azul" >, SYNSEM.LKEYS.KEYREL.PRED "_de_oro_y_azul_x_rel" ]. de_oídas_x1 := av_i_le & [ STEM < "de_oídas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_oídas_x_rel" ]. de_p_ap_vmod := p_ap_vmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_mrkd_np_vmod := p_mrkd_np_vmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_nmod := p_nmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_pmod := p_orig_pmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_pp_nmod := p_pp_nmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_pp_vmod := p_pp_vmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_p_temp_nmod := p_temp_nmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_temp_rel ]. de_p_vmod := p_vmod_le & [ STEM < "de" >, SYNSEM.LKEYS.KEYREL.PRED _de_p_rel ]. de_pacotilla_x1 := av_i_le & [ STEM < "de_pacotilla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pacotilla_x_rel" ]. de_padre_y_muy_señor_mío_x1 := av_i_le & [ STEM < "de_padre_y_muy_señor_mío" >, SYNSEM.LKEYS.KEYREL.PRED "_de_padre_y_muy_señor_mío_x_rel" ]. de_palabra_en_palabra_x1 := av_i_le & [ STEM < "de_palabra_en_palabra" >, SYNSEM.LKEYS.KEYREL.PRED "_de_palabra_en_palabra_x_rel" ]. de_pascuas_a_ramos_x1 := av_i_le & [ STEM < "de_pascuas_a_ramos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pascuas_a_ramos_x_rel" ]. de_paso_x1 := av_s_spr_le & [ STEM < "de_paso" >, SYNSEM.LKEYS.KEYREL.PRED "_de_paso_x_rel" ]. de_pe_a_pa_x1 := av_i_le & [ STEM < "de_pe_a_pa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pe_a_pa_x_rel" ]. de_pega_x1 := av_i_le & [ STEM < "de_pega" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pega_x_rel" ]. de_pelo_en_pecho_x1 := av_i_le & [ STEM < "de_pelo_en_pecho" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pelo_en_pecho_x_rel" ]. de_perdidos_al_río_x1 := av_i_le & [ STEM < "de_perdidos_al_río" >, SYNSEM.LKEYS.KEYREL.PRED "_de_perdidos_al_río_x_rel" ]. de_perilla_x1 := av_i_le & [ STEM < "de_perilla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_perilla_x_rel" ]. de_perillas_x1 := av_i_le & [ STEM < "de_perillas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_perillas_x_rel" ]. de_persona_a_persona_x1 := av_i_le & [ STEM < "de_persona_a_persona" >, SYNSEM.LKEYS.KEYREL.PRED "_de_persona_a_persona_x_rel" ]. de_pie_de_banco_x1 := av_i_le & [ STEM < "de_pie_de_banco" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pie_de_banco_x_rel" ]. de_pies_a_cabeza_x1 := av_i_le & [ STEM < "de_pies_a_cabeza" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pies_a_cabeza_x_rel" ]. de_pilón_x1 := av_i_le & [ STEM < "de_pilón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pilón_x_rel" ]. de_pitiminí_x1 := av_i_le & [ STEM < "de_pitiminí" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pitiminí_x_rel" ]. de_pleno_derecho_x1 := av_i_le & [ STEM < "de_pleno_derecho" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pleno_derecho_x_rel" ]. de_poca_monta_x1 := av_i_le & [ STEM < "de_poca_monta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_poca_monta_x_rel" ]. de_poca_ropa_x1 := av_i_le & [ STEM < "de_poca_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_poca_ropa_x_rel" ]. de_poco_más_o_menos_x1 := av_i_le & [ STEM < "de_poco_más_o_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_poco_más_o_menos_x_rel" ]. de_poco_pelo_x1 := av_i_le & [ STEM < "de_poco_pelo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_poco_pelo_x_rel" ]. de_poder_a_poder_x1 := av_i_le & [ STEM < "de_poder_a_poder" >, SYNSEM.LKEYS.KEYREL.PRED "_de_poder_a_poder_x_rel" ]. de_polo_a_polo_x1 := av_i_le & [ STEM < "de_polo_a_polo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_polo_a_polo_x_rel" ]. de_pontifical_x1 := av_i_le & [ STEM < "de_pontifical" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pontifical_x_rel" ]. de_popa_a_proa_x1 := av_i_le & [ STEM < "de_popa_a_proa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_popa_a_proa_x_rel" ]. de_por_junto_x1 := av_i_le & [ STEM < "de_por_junto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_por_junto_x_rel" ]. de_por_medio_x1 := av_i_le & [ STEM < "de_por_medio" >, SYNSEM.LKEYS.KEYREL.PRED "_de_por_medio_x_rel" ]. de_por_sí_x1 := av_i_le & [ STEM < "de_por_sí" >, SYNSEM.LKEYS.KEYREL.PRED "_de_por_sí_x_rel" ]. de_por_vida_x1 := av_i_le & [ STEM < "de_por_vida" >, SYNSEM.LKEYS.KEYREL.PRED "_de_por_vida_x_rel" ]. de_postín_x1 := av_i_le & [ STEM < "de_postín" >, SYNSEM.LKEYS.KEYREL.PRED "_de_postín_x_rel" ]. de_potencia_en_potencia_x1 := av_i_le & [ STEM < "de_potencia_en_potencia" >, SYNSEM.LKEYS.KEYREL.PRED "_de_potencia_en_potencia_x_rel" ]. de_primera_clase_x1 := av_i_le & [ STEM < "de_primera_clase" >, SYNSEM.LKEYS.KEYREL.PRED "_de_primera_clase_x_rel" ]. de_primera_intención_x1 := av_i_le & [ STEM < "de_primera_intención" >, SYNSEM.LKEYS.KEYREL.PRED "_de_primera_intención_x_rel" ]. de_primera_línea_x1 := av_i_le & [ STEM < "de_primera_línea" >, SYNSEM.LKEYS.KEYREL.PRED "_de_primera_línea_x_rel" ]. de_prisa_x1 := av_i_le & [ STEM < "de_prisa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_prisa_x_rel" ]. de_prisa_y_corriendo_x1 := av_i_le & [ STEM < "de_prisa_y_corriendo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_prisa_y_corriendo_x_rel" ]. de_pro_x1 := av_i_le & [ STEM < "de_pro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pro_x_rel" ]. de_propia_minerva_x1 := av_i_le & [ STEM < "de_propia_minerva" >, SYNSEM.LKEYS.KEYREL.PRED "_de_propia_minerva_x_rel" ]. de_propio_puño_x1 := av_i_le & [ STEM < "de_propio_puño" >, SYNSEM.LKEYS.KEYREL.PRED "_de_propio_puño_x_rel" ]. de_puerta_a_puerta_x1 := av_i_le & [ STEM < "de_puerta_a_puerta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puerta_a_puerta_x_rel" ]. de_puerta_en_puerta_x1 := av_i_le & [ STEM < "de_puerta_en_puerta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puerta_en_puerta_x_rel" ]. de_puertas_adentro_x1 := av_i_le & [ STEM < "de_puertas_adentro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puertas_adentro_x_rel" ]. de_puertas_afuera_x1 := av_i_le & [ STEM < "de_puertas_afuera" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puertas_afuera_x_rel" ]. de_puertos_allende_x1 := av_i_le & [ STEM < "de_puertos_allende" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puertos_allende_x_rel" ]. de_puertos_aquende_x1 := av_i_le & [ STEM < "de_puertos_aquende" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puertos_aquende_x_rel" ]. de_punta_a_cabo_x1 := av_i_le & [ STEM < "de_punta_a_cabo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_punta_a_cabo_x_rel" ]. de_punta_a_punta_x1 := av_i_le & [ STEM < "de_punta_a_punta" >, SYNSEM.LKEYS.KEYREL.PRED "_de_punta_a_punta_x_rel" ]. de_pura_cepa_x1 := av_i_le & [ STEM < "de_pura_cepa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_pura_cepa_x_rel" ]. de_puta_madre_x1 := av_i_le & [ STEM < "de_puta_madre" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puta_madre_x_rel" ]. de_puta_pena_x1 := av_i_le & [ STEM < "de_puta_pena" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puta_pena_x_rel" ]. de_putifa_x1 := av_i_le & [ STEM < "de_putifa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_putifa_x_rel" ]. de_puño_y_letra_x1 := av_i_le & [ STEM < "de_puño_y_letra" >, SYNSEM.LKEYS.KEYREL.PRED "_de_puño_y_letra_x_rel" ]. de_quedo_x1 := av_i_le & [ STEM < "de_quedo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_quedo_x_rel" ]. de_quita_y_pon_x1 := av_i_le & [ STEM < "de_quita_y_pon" >, SYNSEM.LKEYS.KEYREL.PRED "_de_quita_y_pon_x_rel" ]. de_rama_en_rama_x1 := av_i_le & [ STEM < "de_rama_en_rama" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rama_en_rama_x_rel" ]. de_raro_en_raro_x1 := av_i_le & [ STEM < "de_raro_en_raro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_raro_en_raro_x_rel" ]. de_rato_en_rato_x1 := av_i_le & [ STEM < "de_rato_en_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rato_en_rato_x_rel" ]. de_rebato_x1 := av_i_le & [ STEM < "de_rebato" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rebato_x_rel" ]. de_rebote_x1 := av_i_le & [ STEM < "de_rebote" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rebote_x_rel" ]. de_rechupete_x1 := av_i_le & [ STEM < "de_rechupete" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rechupete_x_rel" ]. de_refilón_x1 := av_i_le & [ STEM < "de_refilón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_refilón_x_rel" ]. de_relumbrón_x1 := av_i_le & [ STEM < "de_relumbrón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_relumbrón_x_rel" ]. de_repelón_x1 := av_i_le & [ STEM < "de_repelón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_repelón_x_rel" ]. de_repente_x1 := av_i_le & [ STEM < "de_repente" >, SYNSEM.LKEYS.KEYREL.PRED "_de_repente_x_rel" ]. de_repuesto_x1 := av_i_le & [ STEM < "de_repuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_repuesto_x_rel" ]. de_reserva_x1 := av_i_le & [ STEM < "de_reserva" >, SYNSEM.LKEYS.KEYREL.PRED "_de_reserva_x_rel" ]. de_resultas_x1 := av_i_le & [ STEM < "de_resultas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_resultas_x_rel" ]. de_retrocarga_x1 := av_i_le & [ STEM < "de_retrocarga" >, SYNSEM.LKEYS.KEYREL.PRED "_de_retrocarga_x_rel" ]. de_revuelo_x1 := av_i_le & [ STEM < "de_revuelo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_revuelo_x_rel" ]. de_rodilla_en_rodilla_x1 := av_i_le & [ STEM < "de_rodilla_en_rodilla" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rodilla_en_rodilla_x_rel" ]. de_rompe_y_rasga_x1 := av_i_le & [ STEM < "de_rompe_y_rasga" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rompe_y_rasga_x_rel" ]. de_rondón_x1 := av_i_le & [ STEM < "de_rondón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_rondón_x_rel" ]. de_seguida_x1 := av_i_le & [ STEM < "de_seguida" >, SYNSEM.LKEYS.KEYREL.PRED "_de_seguida_x_rel" ]. de_segunda_mano_x1 := av_i_le & [ STEM < "de_segunda_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_de_segunda_mano_x_rel" ]. de_sentido_común_x1 := av_i_le & [ STEM < "de_sentido_común" >, SYNSEM.LKEYS.KEYREL.PRED "_de_sentido_común_x_rel" ]. de_so_capa_x1 := av_i_le & [ STEM < "de_so_capa" >, SYNSEM.LKEYS.KEYREL.PRED "_de_so_capa_x_rel" ]. de_sobra_x1 := av_i_le & [ STEM < "de_sobra" >, SYNSEM.LKEYS.KEYREL.PRED "_de_sobra_x_rel" ]. de_sobresalto_x1 := av_i_le & [ STEM < "de_sobresalto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_sobresalto_x_rel" ]. de_sol_a_sol_x1 := av_i_le & [ STEM < "de_sol_a_sol" >, SYNSEM.LKEYS.KEYREL.PRED "_de_sol_a_sol_x_rel" ]. de_soslayo_x1 := av_i_le & [ STEM < "de_soslayo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_soslayo_x_rel" ]. de_suerte_que_sc := sc_prop_fin_le & [ STEM < "de_suerte_que" >, SYNSEM.LKEYS.KEYREL.PRED "_de_suerte_que_x_subord_rel" ]. de_tal_manera_que_sc := sc_prop_fin_le & [ STEM < "de_tal_manera_que" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tal_manera_que_x_subord_rel" ]. de_tapadillo_x1 := av_i_le & [ STEM < "de_tapadillo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tapadillo_x_rel" ]. de_tarde_en_tarde_x1 := av_i_le & [ STEM < "de_tarde_en_tarde" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tarde_en_tarde_x_rel" ]. de_tiempo_en_tiempo_x1 := av_i_le & [ STEM < "de_tiempo_en_tiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tiempo_en_tiempo_x_rel" ]. de_tiento_en_tiento_x1 := av_i_le & [ STEM < "de_tiento_en_tiento" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tiento_en_tiento_x_rel" ]. de_todas_maneras_x1 := av_i_le & [ STEM < "de_todas_maneras" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todas_maneras_x_rel" ]. de_todas_todas_x1 := av_i_le & [ STEM < "de_todas_todas" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todas_todas_x_rel" ]. de_todo_corazón_x1 := av_i_le & [ STEM < "de_todo_corazón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todo_corazón_x_rel" ]. de_todo_en_todo_x1 := av_i_le & [ STEM < "de_todo_en_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todo_en_todo_x_rel" ]. de_todo_punto_x1 := av_i_le & [ STEM < "de_todo_punto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todo_punto_x_rel" ]. de_todos_los_diablos_x1 := av_i_le & [ STEM < "de_todos_los_diablos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todos_los_diablos_x_rel" ]. de_todos_modos_x1 := av_i_le & [ STEM < "de_todos_modos" >, SYNSEM.LKEYS.KEYREL.PRED "_de_todos_modos_x_rel" ]. de_través_x1 := av_i_le & [ STEM < "de_través" >, SYNSEM.LKEYS.KEYREL.PRED "_de_través_x_rel" ]. de_trazo_continuo_x1 := av_i_le & [ STEM < "de_trazo_continuo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_trazo_continuo_x_rel" ]. de_trecho_en_trecho_x1 := av_i_le & [ STEM < "de_trecho_en_trecho" >, SYNSEM.LKEYS.KEYREL.PRED "_de_trecho_en_trecho_x_rel" ]. de_tres_al_cuarto_x1 := av_i_le & [ STEM < "de_tres_al_cuarto" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tres_al_cuarto_x_rel" ]. de_tú_a_tú_x1 := av_i_le & [ STEM < "de_tú_a_tú" >, SYNSEM.LKEYS.KEYREL.PRED "_de_tú_a_tú_x_rel" ]. de_ultratumba_x1 := av_i_le & [ STEM < "de_ultratumba" >, SYNSEM.LKEYS.KEYREL.PRED "_de_ultratumba_x_rel" ]. de_un_día_a_otro_x1 := av_i_le & [ STEM < "de_un_día_a_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_día_a_otro_x_rel" ]. de_un_jalón_x1 := av_i_le & [ STEM < "de_un_jalón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_jalón_x_rel" ]. de_un_lado_a_otro_x1 := av_i_le & [ STEM < "de_un_lado_a_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_lado_a_otro_x_rel" ]. de_un_lado_para_otro_x1 := av_i_le & [ STEM < "de_un_lado_para_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_lado_para_otro_x_rel" ]. de_un_plumazo_x1 := av_i_le & [ STEM < "de_un_plumazo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_plumazo_x_rel" ]. de_un_primer_voleo_x1 := av_i_le & [ STEM < "de_un_primer_voleo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_primer_voleo_x_rel" ]. de_un_tirón_x1 := av_i_le & [ STEM < "de_un_tirón" >, SYNSEM.LKEYS.KEYREL.PRED "_de_un_tirón_x_rel" ]. de_una_manera_o_de_otra_x1 := av_i_le & [ STEM < "de_una_manera_o_de_otra" >, SYNSEM.LKEYS.KEYREL.PRED "_de_una_manera_o_de_otra_x_rel" ]. de_una_sentada_x1 := av_i_le & [ STEM < "de_una_sentada" >, SYNSEM.LKEYS.KEYREL.PRED "_de_una_sentada_x_rel" ]. de_una_tacada_x1 := av_i_le & [ STEM < "de_una_tacada" >, SYNSEM.LKEYS.KEYREL.PRED "_de_una_tacada_x_rel" ]. de_una_tirada_x1 := av_i_le & [ STEM < "de_una_tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_de_una_tirada_x_rel" ]. de_una_vez_para_siempre_x1 := av_i_le & [ STEM < "de_una_vez_para_siempre" >, SYNSEM.LKEYS.KEYREL.PRED "_de_una_vez_para_siempre_x_rel" ]. de_uno_en_uno_x1 := av_i_le & [ STEM < "de_uno_en_uno" >, SYNSEM.LKEYS.KEYREL.PRED "_de_uno_en_uno_x_rel" ]. de_uso_externo_x1 := av_i_le & [ STEM < "de_uso_externo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_uso_externo_x_rel" ]. de_uvas_a_peras_x1 := av_i_le & [ STEM < "de_uvas_a_peras" >, SYNSEM.LKEYS.KEYREL.PRED "_de_uvas_a_peras_x_rel" ]. de_vez_en_cuando_x1 := av_i_le & [ STEM < "de_vez_en_cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_de_vez_en_cuando_x_rel" ]. de_visu_x1 := av_i_le & [ STEM < "de_visu" >, SYNSEM.LKEYS.KEYREL.PRED "_de_visu_x_rel" ]. de_viva_voz_x1 := av_i_le & [ STEM < "de_viva_voz" >, SYNSEM.LKEYS.KEYREL.PRED "_de_viva_voz_x_rel" ]. de_volatería_x1 := av_i_le & [ STEM < "de_volatería" >, SYNSEM.LKEYS.KEYREL.PRED "_de_volatería_x_rel" ]. de_vértigo_x1 := av_i_le & [ STEM < "de_vértigo" >, SYNSEM.LKEYS.KEYREL.PRED "_de_vértigo_x_rel" ]. de_vía_estrecha_x1 := av_i_le & [ STEM < "de_vía_estrecha" >, SYNSEM.LKEYS.KEYREL.PRED "_de_vía_estrecha_x_rel" ]. de_órdago_x1 := av_i_le & [ STEM < "de_órdago" >, SYNSEM.LKEYS.KEYREL.PRED "_de_órdago_x_rel" ]. deambular_v := v_unacc_lcomp_loc*_le & [ STEM < "deambular" >, SYNSEM.LKEYS.KEYREL.PRED "_deambular_v_rel" ]. debacle_n1 := n_intr_count_le & [ STEM < "debacle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_debacle_n_rel" ] ]. debajo_de_p_vmod := p_vmod_le & [ STEM < "debajo_de" >, SYNSEM.LKEYS.KEYREL.PRED _debajo_de_p_rel ]. debajo_x1 := av_i_spr_le & [ STEM < "debajo" >, SYNSEM.LKEYS.KEYREL.PRED "_debajo_x_rel" ]. debate_n1 := n_trans_le & [ STEM < "debate" >, SYNSEM.LKEYS.KEYREL.PRED "_debate_n_rel" ]. debatir_v1 := v_trans_np_le & [ STEM < "debatir" >, SYNSEM.LKEYS.KEYREL.PRED "_debatir_v_rel" ]. debatir_v2 := v_trans_cp_semi_ques_le & [ STEM < "debatir" >, SYNSEM.LKEYS.KEYREL.PRED "_debatir_v_rel" ]. debe_n1 := n_intr_count_le & [ STEM < "debe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_debe_n_rel" ] ]. deber_n1 := n_intr_count_le & [ STEM < "deber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deber_n_rel" ] ]. deber_v := v_intr_mrkd_vp_ssr_le & [ STEM < "deber" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deber_v_rel" ] ]. deber_v2 := v_ditrans*_le & [ STEM < "deber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_deber_v_rel" ] ]. deber_v3 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "deber" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_deber_v_rel" ] ]. deber_v4 := v_pron_intr_mrkd_np_le & [ STEM < "deber" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_deber_v_rel" ] ]. deber_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "deber" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_deber_v_rel" ] ] ]. deber_v6 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "deber" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_deber_v_rel" ] ] ]. deber_v7 := v_ssr_le & [ STEM < "deber" >, SYNSEM.LKEYS.KEYREL.PRED "_deber_v_rel" ]. debidamente_x1 := av_i_spr_le & [ STEM < "debidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_debidamente_x_rel" ]. debido_a_p_vmod := p_vmod_le & [ STEM < "debido_a" >, SYNSEM.LKEYS.KEYREL.PRED _debido_a_p_rel ]. debilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "debilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_debilidad_n_rel" ] ]. debilitación_n1 := n_trans_le & [ STEM < "debilitación" >, SYNSEM.LKEYS.KEYREL.PRED "_debilitación_n_rel" ]. debilitamiento_n1 := n_trans_le & [ STEM < "debilitamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_debilitamiento_n_rel" ]. debilitar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "debilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_debilitar_v_rel" ]. debilitar_v2 := v_trans_np_caus_le & [ STEM < "debilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_debilitar_v_rel" ]. debilucho_a1 := a_qual_intr_ser_le & [ STEM < "debilucho" >, SYNSEM.LKEYS.KEYREL.PRED "_debilucho_a_rel" ]. debitar_v := v_trans_np_lcomp_loc*_le & [ STEM < "debitar" >, SYNSEM.LKEYS.KEYREL.PRED "_debitar_v_rel" ]. debut_n1 := n_intr_count_le & [ STEM < "debut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_debut_n_rel" ] ]. debutante_n1 := n_intr_count_le & [ STEM < "debutante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_debutante_n_rel" ] ]. debutar_v := v_intr_le & [ STEM < "debutar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_debutar_v_rel" ] ]. decaborano_n1 := n_intr_count_le & [ STEM < "decaborano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_decaborano_n_rel" ] ]. decadactilar_a1 := a_rel_nonprd_intr_le & [ STEM < "decadactilar" >, SYNSEM.LKEYS.KEYREL.PRED "_decadactilar_a_rel" ]. decadencia_n1 := n_intr_uncount_le & [ STEM < "decadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decadencia_n_rel" ] ]. decadente_a1 := a_qual_intr_scopal_le & [ STEM < "decadente" >, SYNSEM.LKEYS.KEYREL.PRED "_decadente_a_rel" ]. decaer_v := v_unacc_perf_le & [ STEM < "decaer" >, SYNSEM.LKEYS.KEYREL.PRED "_decaer_v_rel" ]. decagonal_a1 := a_qual_intr_ser_le & [ STEM < "decagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_decagonal_a_rel" ]. decagramo_n := n_pseudo-part_le & [ STEM < "decagramo" >, SYNSEM.LKEYS.KEYREL.PRED "_decagramo_n_rel" ]. decahidronaftaleno_n1 := n_intr_count_le & [ STEM < "decahidronaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_decahidronaftaleno_n_rel" ] ]. decaimiento_n1 := n_ppcomp_mass_le & [ STEM < "decaimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decaimiento_n_rel" ] ]. decalaje_n1 := n_intr_count_le & [ STEM < "decalaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decalaje_n_rel" ] ]. decalaje_n2 := n_intr_uncount_le & [ STEM < "decalaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decalaje_n_rel" ] ]. decalcificación_n1 := n_trans_le & [ STEM < "decalcificación" >, SYNSEM.LKEYS.KEYREL.PRED "_decalcificación_n_rel" ]. decalitro_n := n_pseudo-part_le & [ STEM < "decalitro" >, SYNSEM.LKEYS.KEYREL.PRED "_decalitro_n_rel" ]. decanato_n1 := n_intr_count_le & [ STEM < "decanato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_decanato_n_rel" ] ]. decano_n1 := n_intr_count_le & [ STEM < "decano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_decano_n_rel" ] ]. decantación_n1 := n_result_intr_le & [ STEM < "decantación" >, SYNSEM.LKEYS.KEYREL.PRED "_decantación_n_rel" ]. decantador_n1 := n_intr_count_le & [ STEM < "decantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_decantador_n_rel" ] ]. decantar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "decantar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_decantar_v_rel" ] ]. decantar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "decantar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_decantar_v_rel" ] ]. decantar_v3 := v_trans_np_le & [ STEM < "decantar" >, SYNSEM.LKEYS.KEYREL.PRED "_decantar_v_rel" ]. decapado_n1 := n_trans_le & [ STEM < "decapado" >, SYNSEM.LKEYS.KEYREL.PRED "_decapado_n_rel" ]. decapitación_n1 := n_trans_le & [ STEM < "decapitación" >, SYNSEM.LKEYS.KEYREL.PRED "_decapitación_n_rel" ]. decapitar_v := v_trans_np_le & [ STEM < "decapitar" >, SYNSEM.LKEYS.KEYREL.PRED "_decapitar_v_rel" ]. decarbonatar_v := v_trans_np_le & [ STEM < "decarbonatar" >, SYNSEM.LKEYS.KEYREL.PRED "_decarbonatar_v_rel" ]. decarbonilación_n1 := n_trans_le & [ STEM < "decarbonilación" >, SYNSEM.LKEYS.KEYREL.PRED "_decarbonilación_n_rel" ]. decarburación_n1 := n_trans_le & [ STEM < "decarburación" >, SYNSEM.LKEYS.KEYREL.PRED "_decarburación_n_rel" ]. decarburar_v := v_trans_np_le & [ STEM < "decarburar" >, SYNSEM.LKEYS.KEYREL.PRED "_decarburar_v_rel" ]. decasílabo_a1 := a_rel_nonprd_intr_le & [ STEM < "decasílabo" >, SYNSEM.LKEYS.KEYREL.PRED "_decasílabo_a_rel" ]. decasílabo_n1 := n_intr_count_le & [ STEM < "decasílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decasílabo_n_rel" ] ]. decatloniano_n1 := n_intr_count_le & [ STEM < "decatloniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_decatloniano_n_rel" ] ]. decatlón_n1 := n_intr_count_le & [ STEM < "decatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decatlón_n_rel" ] ]. decaído_a1 := a_qual_intr_estar_le & [ STEM < "decaído" >, SYNSEM.LKEYS.KEYREL.PRED "_decaído_a_rel" ]. deceleración_n1 := n_trans_le & [ STEM < "deceleración" >, SYNSEM.LKEYS.KEYREL.PRED "_deceleración_n_rel" ]. decelerador_a1 := a_rel_nonprd_intr_le & [ STEM < "decelerador" >, SYNSEM.LKEYS.KEYREL.PRED "_decelerador_a_rel" ]. decelerador_n1 := n_intr_count_le & [ STEM < "decelerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_decelerador_n_rel" ] ]. decenal_a1 := a_rel_nonprd_intr_le & [ STEM < "decenal" >, SYNSEM.LKEYS.KEYREL.PRED "_decenal_a_rel" ]. decenio_n1 := n_pseudo-part_temp_le & [ STEM < "decenio" >, SYNSEM.LKEYS.KEYREL.PRED "_decenio_n_rel" ]. decenio_n2 := n_intr_temp_le & [ STEM < "decenio" > ]. decente_a1 := a_qual_intr_ser_le & [ STEM < "decente" >, SYNSEM.LKEYS.KEYREL.PRED "_decente_a_rel" ]. decentemente_x1 := av_i_spr_le & [ STEM < "decentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_decentemente_x_rel" ]. decenviro_n1 := n_intr_count_le & [ STEM < "decenviro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_decenviro_n_rel" ] ]. decepcionante_a1 := a_qual_intr_scopal_le & [ STEM < "decepcionante" >, SYNSEM.LKEYS.KEYREL.PRED "_decepcionante_a_rel" ]. decepcionar_v := v_trans_np_caus_le & [ STEM < "decepcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_decepcionar_v_rel" ]. decepcionar_v1 := v_intr_io*_le & [ STEM < "decepcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_decepcionar_v_rel" ]. decepcionar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "decepcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_decepcionar_v_rel" ]. decepción_n1 := n_intr_count_le & [ STEM < "decepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decepción_n_rel" ] ]. deceso_n1 := n_intr_count_le & [ STEM < "deceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deceso_n_rel" ] ]. dechado_n1 := n_intr_count_le & [ STEM < "dechado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dechado_n_rel" ] ]. decibel_n := n_intr_count_le & [ STEM < "decibel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_decibel_n_rel" ] ]. decibelio_n := n_intr_count_le & [ STEM < "decibelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_decibelio_n_rel" ] ]. decibeliómetro_n1 := n_intr_count_le & [ STEM < "decibeliómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_decibeliómetro_n_rel" ] ]. decidibilidad_n1 := n_intr_uncount_le & [ STEM < "decidibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decidibilidad_n_rel" ] ]. decididamente_x1 := av_s_prhd_le & [ STEM < "decididamente" >, SYNSEM.LKEYS.KEYREL.PRED "_decididamente_x_rel" ]. decidir_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "decidir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_decidir_v_rel" ] ]. decidir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "decidir" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_decidir_v_rel" ] ]. decidir_v3 := v_trans_cp_prop_fin_le & [ STEM < "decidir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_decidir_v_rel" ] ]. decidir_v4 := v_trans_cp_semi_ques_le & [ STEM < "decidir" >, SYNSEM.LKEYS.KEYREL.PRED "_decidir_v_rel" ]. decidir_v5 := v_trans_np_le & [ STEM < "decidir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_decidir_v_rel" ] ]. decidual_a1 := a_rel_nonprd_intr_le & [ STEM < "decidual" >, SYNSEM.LKEYS.KEYREL.PRED "_decidual_a_rel" ]. decigramo_n := n_intr_count_le & [ STEM < "decigramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_decigramo_n_rel" ] ]. decigramo_n1 := n_pseudo-part_le & [ STEM < "decigramo" >, SYNSEM.LKEYS.KEYREL.PRED "_decigramo_n_rel" ]. decilitro_n1 := n_pseudo-part_le & [ STEM < "decilitro" >, SYNSEM.LKEYS.KEYREL.PRED "_decilitro_n_rel" ]. decimal_a1 := a_rel_nonprd_intr_le & [ STEM < "decimal" >, SYNSEM.LKEYS.KEYREL.PRED "_decimal_a_rel" ]. decimal_n1 := n_intr_count_le & [ STEM < "decimal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decimal_n_rel" ] ]. decimalización_n1 := n_trans_le & [ STEM < "decimalización" >, SYNSEM.LKEYS.KEYREL.PRED "_decimalización_n_rel" ]. decimalmente_x1 := av_i_spr_le & [ STEM < "decimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_decimalmente_x_rel" ]. decimétricamente_x1 := av_i_spr_le & [ STEM < "decimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_decimétricamente_x_rel" ]. decimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "decimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_decimétrico_a_rel" ]. decinormal_a1 := a_rel_nonprd_intr_le & [ STEM < "decinormal" >, SYNSEM.LKEYS.KEYREL.PRED "_decinormal_a_rel" ]. decinormalmente_x1 := av_i_spr_le & [ STEM < "decinormalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_decinormalmente_x_rel" ]. decir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "decir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_decir_v_rel" ] ]. decir_v2 := v_ditrans_cp_ques_le & [ STEM < "decir" >, SYNSEM.LKEYS.KEYREL.PRED "_decir_v_rel" ]. decir_v3 := v_ditrans*_le & [ STEM < "decir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_decir_v_rel" ] ]. decisivamente_x1 := av_i_spr_le & [ STEM < "decisivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_decisivamente_x_rel" ]. decisivo_a1 := a_qual_intr_scopal_le & [ STEM < "decisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_decisivo_a_rel" ]. decisión_n1 := n_ppde_cp_prop_fin_count_le & [ STEM < "decisión" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG0.SORT abs, PRED "_decisión_n_rel" ] ] ]. decisorio_a1 := a_rel_nonprd_intr_le & [ STEM < "decisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_decisorio_a_rel" ]. declamación_n1 := n_result_intr_le & [ STEM < "declamación" >, SYNSEM.LKEYS.KEYREL.PRED "_declamación_n_rel" ]. declamar_v := v_trans_np*_le & [ STEM < "declamar" >, SYNSEM.LKEYS.KEYREL.PRED "_declamar_v_rel" ]. declamatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "declamatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_declamatorio_a_rel" ]. declaración_n1 := n_intr_count_le & [ STEM < "declaración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_declaración_n_rel" ] ]. declarante_n1 := n_intr_count_le & [ STEM < "declarante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_declarante_n_rel" ] ]. declarativamente_x1 := av_i_spr_le & [ STEM < "declarativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_declarativamente_x_rel" ]. declarativo_a1 := a_rel_nonprd_intr_le & [ STEM < "declarativo" >, SYNSEM.LKEYS.KEYREL.PRED "_declarativo_a_rel" ]. declaratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "declaratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_declaratorio_a_rel" ]. declinable_a1 := a_rel_nonprd_intr_le & [ STEM < "declinable" >, SYNSEM.LKEYS.KEYREL.PRED "_declinable_a_rel" ]. declinación_n1 := n_event-result_intr_le & [ STEM < "declinación" >, SYNSEM.LKEYS.KEYREL.PRED "_declinación_n_rel" ]. declinación_n2 := n_intr_count_le & [ STEM < "declinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_declinación_n_rel" ] ]. declinar_v := v_trans_np*_le & [ STEM < "declinar" >, SYNSEM.LKEYS.KEYREL.PRED "_declinar_v_rel" ]. declinatoria_n1 := n_intr_count_le & [ STEM < "declinatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_declinatoria_n_rel" ] ]. declinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "declinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_declinatorio_a_rel" ]. declive_n1 := n_intr_count_le & [ STEM < "declive" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_declive_n_rel" ] ]. declorar_v := v_trans_np_le & [ STEM < "declorar" >, SYNSEM.LKEYS.KEYREL.PRED "_declorar_v_rel" ]. decocción_n1 := n_trans_le & [ STEM < "decocción" >, SYNSEM.LKEYS.KEYREL.PRED "_decocción_n_rel" ]. decodificación_n1 := n_trans_le & [ STEM < "decodificación" >, SYNSEM.LKEYS.KEYREL.PRED "_decodificación_n_rel" ]. decodificador_n1 := n_intr_count_le & [ STEM < "decodificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_decodificador_n_rel" ] ]. decodificar_v := v_trans_np_le & [ STEM < "decodificar" >, SYNSEM.LKEYS.KEYREL.PRED "_decodificar_v_rel" ]. decoloración_n1 := n_trans_le & [ STEM < "decoloración" >, SYNSEM.LKEYS.KEYREL.PRED "_decoloración_n_rel" ]. decolorar_v := v_trans_np_caus_le & [ STEM < "decolorar" >, SYNSEM.LKEYS.KEYREL.PRED "_decolorar_v_rel" ]. decomisar_v := v_ditrans*_le & [ STEM < "decomisar" >, SYNSEM.LKEYS.KEYREL.PRED "_decomisar_v_rel" ]. decomiso_n1 := n_intr_count_le & [ STEM < "decomiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decomiso_n_rel" ] ]. decoración_n1 := n_trans_le & [ STEM < "decoración" >, SYNSEM.LKEYS.KEYREL.PRED "_decoración_n_rel" ]. decorado_n1 := n_intr_count_le & [ STEM < "decorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_decorado_n_rel" ] ]. decorador_n1 := n_subj-nom_le & [ STEM < "decorador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_decorador_n_rel" ] ]. decorar_v := v_trans_np_le & [ STEM < "decorar" >, SYNSEM.LKEYS.KEYREL.PRED "_decorar_v_rel" ]. decorativo_a1 := a_qual_intr_scopal_le & [ STEM < "decorativo" >, SYNSEM.LKEYS.KEYREL.PRED "_decorativo_a_rel" ]. decoro_n1 := n_intr_mass_le & [ STEM < "decoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decoro_n_rel" ] ]. decoroso_a1 := a_qual_intr_scopal_le & [ STEM < "decoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_decoroso_a_rel" ]. decorticación_n1 := n_trans_le & [ STEM < "decorticación" >, SYNSEM.LKEYS.KEYREL.PRED "_decorticación_n_rel" ]. decrecer_v := v_intr_le & [ STEM < "decrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_decrecer_v_rel" ]. decrecientemente_x1 := av_i_spr_le & [ STEM < "decrecientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_decrecientemente_x_rel" ]. decrecimiento_n1 := n_ppcomp_mass_le & [ STEM < "decrecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decrecimiento_n_rel" ] ]. decrementar_v := v_trans_np_caus_int_non-perf_le & [ STEM < "decrementar" >, SYNSEM.LKEYS.KEYREL.PRED "_decrementar_v_rel" ]. decremento_n1 := n_intr_count_le & [ STEM < "decremento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decremento_n_rel" ] ]. decrepitud_n1 := n_intr_uncount_pl_le & [ STEM < "decrepitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decrepitud_n_rel" ] ]. decretar_v1 := v_trans_cp_prop_fin_le & [ STEM < "decretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_decretar_v_rel" ] ]. decretar_v2 := v_trans_np_le & [ STEM < "decretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_decretar_v_rel" ] ]. decreto_n1 := n_intr_count_le & [ STEM < "decreto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_decreto_n_rel" ] ]. decrépito_a1 := a_qual_intr_scopal_le & [ STEM < "decrépito" >, SYNSEM.LKEYS.KEYREL.PRED "_decrépito_a_rel" ]. decuria_n1 := n_intr_count_le & [ STEM < "decuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_decuria_n_rel" ] ]. decurión_n1 := n_intr_count_le & [ STEM < "decurión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_decurión_n_rel" ] ]. decusación_n1 := n_intr_count_le & [ STEM < "decusación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decusación_n_rel" ] ]. decágono_a1 := a_rel_nonprd_intr_le & [ STEM < "decágono" >, SYNSEM.LKEYS.KEYREL.PRED "_decágono_a_rel" ]. decágono_n1 := n_intr_count_le & [ STEM < "decágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decágono_n_rel" ] ]. decálogo_n1 := n_intr_count_le & [ STEM < "decálogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decálogo_n_rel" ] ]. decámetro_n := n_pseudo-part_le & [ STEM < "decámetro" >, SYNSEM.LKEYS.KEYREL.PRED "_decámetro_n_rel" ]. decímetro_cuadrado_n1 := n_pseudo-part_le & [ STEM < "decímetro_cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_decímetro_cuadrado_n_rel" ]. decímetro_cúbico_n1 := n_pseudo-part_le & [ STEM < "decímetro_cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_decímetro_cúbico_n_rel" ]. dedada_n1 := n_intr_count_le & [ STEM < "dedada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dedada_n_rel" ] ]. dedal_n1 := n_intr_count_le & [ STEM < "dedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dedal_n_rel" ] ]. dedalera_n1 := n_intr_count_le & [ STEM < "dedalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_dedalera_n_rel" ] ]. dedicación_n1 := n_trans_le & [ STEM < "dedicación" >, SYNSEM.LKEYS.KEYREL.PRED "_dedicación_n_rel" ]. dedicar_v1 := v_ditrans*_le & [ STEM < "dedicar" >, SYNSEM.LKEYS.KEYREL.PRED "_dedicar_v_rel" ]. dedicar_v2 := v_pron_intr_io_le & [ STEM < "dedicar" >, SYNSEM.LKEYS.KEYREL.PRED "_dedicar_v_rel" ]. dedicar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "dedicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_dedicar_v_rel" ] ]. dedicar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "dedicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_dedicar_v_rel" ] ]. dedicar_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "dedicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_dedicar_v_rel" ] ]. dedicar_v6 := v_trans_np*_mrkd_cp_prop_inf_sc_le & [ STEM < "dedicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_dedicar_v_rel" ] ]. dedicar_v7 := v_trans_np*_mrkd_np_le & [ STEM < "dedicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_dedicar_v_rel" ] ] ]. dedicatoria_n1 := n_intr_count_le & [ STEM < "dedicatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_dedicatoria_n_rel" ] ]. dedo_n1 := n_ppcomp_count_le & [ STEM < "dedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_dedo_n_rel" ] ]. deducción_n1 := n_trans_le & [ STEM < "deducción" >, SYNSEM.LKEYS.KEYREL.PRED "_deducción_n_rel" ]. deducible_a1 := a_qual_trans*_ser_le & [ STEM < "deducible" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deducible_a_rel" ] ]. deduciblemente_x1 := av_i_spr_le & [ STEM < "deduciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_deduciblemente_x_rel" ]. deducir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "deducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_deducir_v_rel" ] ]. deducir_v2 := v_trans_cp_semi_ques_le & [ STEM < "deducir" >, SYNSEM.LKEYS.KEYREL.PRED "_deducir_v_rel" ]. deducir_v3 := v_trans_np_le & [ STEM < "deducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_deducir_v_rel" ] ]. deductivamente_x1 := av_i_spr_le & [ STEM < "deductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deductivamente_x_rel" ]. deductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "deductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_deductivo_a_rel" ]. defasadamente_x1 := av_i_spr_le & [ STEM < "defasadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_defasadamente_x_rel" ]. defasador_n1 := n_intr_count_le & [ STEM < "defasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_defasador_n_rel" ] ]. defaunación_n1 := n_trans_le & [ STEM < "defaunación" >, SYNSEM.LKEYS.KEYREL.PRED "_defaunación_n_rel" ]. defecación_n1 := n_result_intr_le & [ STEM < "defecación" >, SYNSEM.LKEYS.KEYREL.PRED "_defecación_n_rel" ]. defecar_v := v_intr_le & [ STEM < "defecar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_defecar_v_rel" ] ]. defectible_a1 := a_rel_nonprd_intr_le & [ STEM < "defectible" >, SYNSEM.LKEYS.KEYREL.PRED "_defectible_a_rel" ]. defectividad_n1 := n_intr_uncount_le & [ STEM < "defectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_defectividad_n_rel" ] ]. defectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "defectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_defectivo_a_rel" ]. defecto_n1 := n_intr_count_le & [ STEM < "defecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_defecto_n_rel" ] ]. defectuosamente_x1 := av_i_spr_le & [ STEM < "defectuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_defectuosamente_x_rel" ]. defectuoso_a1 := a_qual_intr_scopal_le & [ STEM < "defectuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_defectuoso_a_rel" ]. defender_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "defender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_defender_v_rel" ] ] ]. defender_v2 := v_pron_intr_mrkd_np_le & [ STEM < "defender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_defender_v_rel" ] ] ]. defender_v3 := v_trans_cp_prop_fin_le & [ STEM < "defender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_defender_v_rel" ] ]. defender_v4 := v_trans_np_caus_le & [ STEM < "defender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_defender_v_rel" ] ]. defendible_a1 := a_qual_intr_scopal_le & [ STEM < "defendible" >, SYNSEM.LKEYS.KEYREL.PRED "_defendible_a_rel" ]. defenestrar_v := v_trans_np_le & [ STEM < "defenestrar" >, SYNSEM.LKEYS.KEYREL.PRED "_defenestrar_v_rel" ]. defensa_n1 := n_intr_count_le & [ STEM < "defensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_defensa_n_rel" ] ]. defensiva_n1 := n_intr_count_le & [ STEM < "defensiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_defensiva_n_rel" ] ]. defensivamente_x1 := av_i_spr_le & [ STEM < "defensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_defensivamente_x_rel" ]. defensivo_a1 := a_qual_intr_scopal_le & [ STEM < "defensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_defensivo_a_rel" ]. defensor_a1 := a_qual_trans*_ser_le & [ STEM < "defensor" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_defensor_a_rel" ] ]. defensor_n1 := n_subj-nom_le & [ STEM < "defensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_defensor_n_rel" ] ]. defensorio_n1 := n_intr_count_le & [ STEM < "defensorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_defensorio_n_rel" ] ]. defensoría_n1 := n_intr_count_le & [ STEM < "defensoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_defensoría_n_rel" ] ]. deferencia_n1 := n_intr_mass_le & [ STEM < "deferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deferencia_n_rel" ] ]. deferencial_a1 := a_qual_intr_scopal_le & [ STEM < "deferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_deferencial_a_rel" ]. deferente_a1 := a_rel_nonprd_intr_le & [ STEM < "deferente" >, SYNSEM.LKEYS.KEYREL.PRED "_deferente_a_rel" ]. deferir_v1 := v_intr_io_le & [ STEM < "deferir" >, SYNSEM.LKEYS.KEYREL.PRED "_deferir_v_rel" ]. deferir_v2 := v_intr_mrkd_np*_le & [ STEM < "deferir" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_deferir_v_rel" ] ]. deferir_v3 := v_trans_np_le & [ STEM < "deferir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_deferir_v_rel" ] ]. deficiencia_n1 := n_intr_uncount_pl_le & [ STEM < "deficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deficiencia_n_rel" ] ]. deficiente_a1 := a_qual_intr_scopal_le & [ STEM < "deficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_deficiente_a_rel" ]. deficientemente_x1 := av_i_spr_le & [ STEM < "deficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_deficientemente_x_rel" ]. deficitario_a1 := a_rel_nonprd_intr_le & [ STEM < "deficitario" >, SYNSEM.LKEYS.KEYREL.PRED "_deficitario_a_rel" ]. definible_a1 := a_rel_prd_le & [ STEM < "definible" >, SYNSEM.LKEYS.KEYREL.PRED "_definible_a_rel" ]. definición_n1 := n_trans_le & [ STEM < "definición" >, SYNSEM.LKEYS.KEYREL.PRED "_definición_n_rel" ]. definir_v := v_trans_np_caus_le & [ STEM < "definir" >, SYNSEM.LKEYS.KEYREL.PRED "_definir_v_rel" ]. definitivamente_x1 := av_s_prhd_le & [ STEM < "definitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_definitivamente_x_rel" ]. definitivo_a1 := a_rel_prd_le & [ STEM < "definitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_definitivo_a_rel" ]. definitoriamente_x1 := av_i_spr_le & [ STEM < "definitoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_definitoriamente_x_rel" ]. definitorio_a1 := a_rel_prd_le & [ STEM < "definitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_definitorio_a_rel" ]. deflacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "deflacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_deflacionario_a_rel" ]. deflación_n1 := n_intr_mass_le & [ STEM < "deflación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deflación_n_rel" ] ]. deflactación_n1 := n_trans_le & [ STEM < "deflactación" >, SYNSEM.LKEYS.KEYREL.PRED "_deflactación_n_rel" ]. deflactor_n1 := n_intr_count_le & [ STEM < "deflactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deflactor_n_rel" ] ]. deflagración_n1 := n_result_intr_le & [ STEM < "deflagración" >, SYNSEM.LKEYS.KEYREL.PRED "_deflagración_n_rel" ]. deflagrador_a1 := a_rel_nonprd_intr_le & [ STEM < "deflagrador" >, SYNSEM.LKEYS.KEYREL.PRED "_deflagrador_a_rel" ]. deflector_a1 := a_rel_nonprd_intr_le & [ STEM < "deflector" >, SYNSEM.LKEYS.KEYREL.PRED "_deflector_a_rel" ]. deflector_n1 := n_intr_count_le & [ STEM < "deflector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deflector_n_rel" ] ]. deflexión_n1 := n_intr_count_le & [ STEM < "deflexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deflexión_n_rel" ] ]. defluoración_n1 := n_trans_le & [ STEM < "defluoración" >, SYNSEM.LKEYS.KEYREL.PRED "_defluoración_n_rel" ]. defoliación_n1 := n_trans_le & [ STEM < "defoliación" >, SYNSEM.LKEYS.KEYREL.PRED "_defoliación_n_rel" ]. defoliante_n1 := n_intr_mass_le & [ STEM < "defoliante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_defoliante_n_rel" ] ]. deforestación_n1 := n_trans_le & [ STEM < "deforestación" >, SYNSEM.LKEYS.KEYREL.PRED "_deforestación_n_rel" ]. deforestar_v := v_trans_np_le & [ STEM < "deforestar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_deforestar_v_rel" ] ]. deformabilidad_n1 := n_trans_le & [ STEM < "deformabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_deformabilidad_n_rel" ]. deformación_n1 := n_trans_le & [ STEM < "deformación" >, SYNSEM.LKEYS.KEYREL.PRED "_deformación_n_rel" ]. deformar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "deformar" >, SYNSEM.LKEYS.KEYREL.PRED "_deformar_v_rel" ]. deformar_v2 := v_trans_np_caus_le & [ STEM < "deformar" >, SYNSEM.LKEYS.KEYREL.PRED "_deformar_v_rel" ]. deformatear_v := v_trans_np*_le & [ STEM < "deformatear" >, SYNSEM.LKEYS.KEYREL.PRED "_deformatear_v_rel" ]. deformateo_n1 := n_trans_le & [ STEM < "deformateo" >, SYNSEM.LKEYS.KEYREL.PRED "_deformateo_n_rel" ]. deforme_a1 := a_qual_intr_ser_le & [ STEM < "deforme" >, SYNSEM.LKEYS.KEYREL.PRED "_deforme_a_rel" ]. deformidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "deformidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deformidad_n_rel" ] ]. defosforación_n1 := n_trans_le & [ STEM < "defosforación" >, SYNSEM.LKEYS.KEYREL.PRED "_defosforación_n_rel" ]. defosforar_v := v_trans_np_le & [ STEM < "defosforar" >, SYNSEM.LKEYS.KEYREL.PRED "_defosforar_v_rel" ]. defraudación_n1 := n_trans_le & [ STEM < "defraudación" >, SYNSEM.LKEYS.KEYREL.PRED "_defraudación_n_rel" ]. defraudador_n1 := n_subj-nom_le & [ STEM < "defraudador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_defraudador_n_rel" ] ]. defraudar_v1 := v_ditrans_le & [ STEM < "defraudar" >, SYNSEM.LKEYS.KEYREL.PRED "_defraudar_v_rel" ]. defraudar_v2 := v_intr_io*_le & [ STEM < "defraudar" >, SYNSEM.LKEYS.KEYREL.PRED "_defraudar_v_rel" ]. defraudar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "defraudar" >, SYNSEM.LKEYS.KEYREL.PRED "_defraudar_v_rel" ]. defunción_n1 := n_event-result_intr_le & [ STEM < "defunción" >, SYNSEM.LKEYS.KEYREL.PRED "_defunción_n_rel" ]. degasificación_n1 := n_trans_le & [ STEM < "degasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_degasificación_n_rel" ]. degeneración_n1 := n_trans_le & [ STEM < "degeneración" >, SYNSEM.LKEYS.KEYREL.PRED "_degeneración_n_rel" ]. degeneradamente_x1 := av_i_spr_le & [ STEM < "degeneradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_degeneradamente_x_rel" ]. degenerante_a1 := a_rel_nonprd_intr_le & [ STEM < "degenerante" >, SYNSEM.LKEYS.KEYREL.PRED "_degenerante_a_rel" ]. degenerar_v := v_unacc_le & [ STEM < "degenerar" >, SYNSEM.LKEYS.KEYREL.PRED "_degenerar_v_rel" ]. degenerativamente_x1 := av_i_spr_le & [ STEM < "degenerativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_degenerativamente_x_rel" ]. degenerativo_a1 := a_rel_nonprd_intr_le & [ STEM < "degenerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_degenerativo_a_rel" ]. deglución_n1 := n_trans_le & [ STEM < "deglución" >, SYNSEM.LKEYS.KEYREL.PRED "_deglución_n_rel" ]. deglutir_v := v_trans_np*_le & [ STEM < "deglutir" >, SYNSEM.LKEYS.KEYREL.PRED "_deglutir_v_rel" ]. degolladura_n1 := n_trans_le & [ STEM < "degolladura" >, SYNSEM.LKEYS.KEYREL.PRED "_degolladura_n_rel" ]. degollamiento_n1 := n_trans_le & [ STEM < "degollamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_degollamiento_n_rel" ]. degollar_v := v_trans_np_le & [ STEM < "degollar" >, SYNSEM.LKEYS.KEYREL.PRED "_degollar_v_rel" ]. degradabilidad_n1 := n_intr_uncount_le & [ STEM < "degradabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_degradabilidad_n_rel" ] ]. degradable_a1 := a_rel_prd_le & [ STEM < "degradable" >, SYNSEM.LKEYS.KEYREL.PRED "_degradable_a_rel" ]. degradación_n1 := n_trans_le & [ STEM < "degradación" >, SYNSEM.LKEYS.KEYREL.PRED "_degradación_n_rel" ]. degradante_a1 := a_qual_intr_scopal_le & [ STEM < "degradante" >, SYNSEM.LKEYS.KEYREL.PRED "_degradante_a_rel" ]. degradar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "degradar" >, SYNSEM.LKEYS.KEYREL.PRED "_degradar_v_rel" ]. degradar_v2 := v_trans_np_caus_le & [ STEM < "degradar" >, SYNSEM.LKEYS.KEYREL.PRED "_degradar_v_rel" ]. degustación_n1 := n_trans_le & [ STEM < "degustación" >, SYNSEM.LKEYS.KEYREL.PRED "_degustación_n_rel" ]. degustar_v := v_trans_np_le & [ STEM < "degustar" >, SYNSEM.LKEYS.KEYREL.PRED "_degustar_v_rel" ]. dehesa_n1 := n_intr_count_le & [ STEM < "dehesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_dehesa_n_rel" ] ]. dehidroacetato_n1 := n_intr_count_le & [ STEM < "dehidroacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dehidroacetato_n_rel" ] ]. dehidroacético_a1 := a_rel_nonprd_intr_le & [ STEM < "dehidroacético" >, SYNSEM.LKEYS.KEYREL.PRED "_dehidroacético_a_rel" ]. dehidrogenasa_n1 := n_intr_count_le & [ STEM < "dehidrogenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dehidrogenasa_n_rel" ] ]. dehidrotiotoluidina_n1 := n_intr_count_le & [ STEM < "dehidrotiotoluidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dehidrotiotoluidina_n_rel" ] ]. dehiscencia_n1 := n_intr_uncount_le & [ STEM < "dehiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dehiscencia_n_rel" ] ]. deidad_n1 := n_intr_count_le & [ STEM < "deidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deidad_n_rel" ] ]. deificación_n1 := n_trans_le & [ STEM < "deificación" >, SYNSEM.LKEYS.KEYREL.PRED "_deificación_n_rel" ]. deificar_v := v_trans_np_le & [ STEM < "deificar" >, SYNSEM.LKEYS.KEYREL.PRED "_deificar_v_rel" ]. deixis_n1 := n_intr_uncount_le & [ STEM < "deixis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deixis_n_rel" ] ]. dejación_n1 := n_trans_le & [ STEM < "dejación" >, SYNSEM.LKEYS.KEYREL.PRED "_dejación_n_rel" ]. dejadez_n1 := n_ppcomp_uncount_le & [ STEM < "dejadez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dejadez_n_rel" ] ]. dejar_v1 := v_intr_mrkd_vp_ssr_le & [ STEM < "dejar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dejar_v_rel" ] ]. deje_n1 := n_trans_le & [ STEM < "deje" >, SYNSEM.LKEYS.KEYREL.PRED "_deje_n_rel" ]. delación_n1 := n_intr_count_le & [ STEM < "delación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delación_n_rel" ] ]. delantal_n1 := n_intr_count_le & [ STEM < "delantal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_delantal_n_rel" ] ]. delante_de_dios_y_de_todo_el_x1 := av_i_le & [ STEM < "delante_de_Dios_y_de_todo_el" >, SYNSEM.LKEYS.KEYREL.PRED "_delante_de_Dios_y_de_todo_el_x_rel" ]. delante_de_p_vmod := p_vmod_le & [ STEM < "delante_de" >, SYNSEM.LKEYS.KEYREL.PRED _delante_de_p_rel ]. delante_x1 := av_i_spr_le & [ STEM < "delante" >, SYNSEM.LKEYS.KEYREL.PRED "_delante_x_rel" ]. delantera_n1 := n_intr_count_le & [ STEM < "delantera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delantera_n_rel" ] ]. delantero_a1 := a_rel_nonprd_intr_le & [ STEM < "delantero" >, SYNSEM.LKEYS.KEYREL.PRED "_delantero_a_rel" ]. delantero_n1 := n_intr_count_le & [ STEM < "delantero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_delantero_n_rel" ] ]. delator_n1 := n_subj-nom_le & [ STEM < "delator" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_delator_n_rel" ] ]. delco_n1 := n_intr_count_le & [ STEM < "delco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_delco_n_rel" ] ]. deleción_n1 := n_intr_count_le & [ STEM < "deleción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deleción_n_rel" ] ]. delectación_n1 := n_intr_count_le & [ STEM < "delectación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delectación_n_rel" ] ]. delegación_n1 := n_intr_coll_le & [ STEM < "delegación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_delegación_n_rel" ] ]. delegado_n1 := n_intr_count_le & [ STEM < "delegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_delegado_n_rel" ] ]. delegar_v := v_trans_np_mrkd_np*_le & [ STEM < "delegar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_delegar_v_rel" ] ]. delegatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "delegatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_delegatorio_a_rel" ]. deleitación_n1 := n_intr_count_le & [ STEM < "deleitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deleitación_n_rel" ] ]. deleitamiento_n1 := n_ppcomp_mass_le & [ STEM < "deleitamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deleitamiento_n_rel" ] ]. deleitar_v1 := v_intr_io*_le & [ STEM < "deleitar" >, SYNSEM.LKEYS.KEYREL.PRED "_deleitar_v_rel" ]. deleitar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "deleitar" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_deleitar_v_rel" ] ] ]. deleitar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "deleitar" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_deleitar_v_rel" ] ] ]. deleitar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "deleitar" >, SYNSEM.LKEYS.KEYREL.PRED "_deleitar_v_rel" ]. deleite_n1 := n_intr_mass_le & [ STEM < "deleite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deleite_n_rel" ] ]. deleitoso_a1 := a_qual_intr_scopal_le & [ STEM < "deleitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_deleitoso_a_rel" ]. deletrear_v := v_trans_np*_le & [ STEM < "deletrear" >, SYNSEM.LKEYS.KEYREL.PRED "_deletrear_v_rel" ]. deletéreamente_x1 := av_i_spr_le & [ STEM < "deletéreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deletéreamente_x_rel" ]. deletéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "deletéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_deletéreo_a_rel" ]. delfinina_n1 := n_intr_count_le & [ STEM < "delfinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_delfinina_n_rel" ] ]. delfín_n1 := n_intr_count_le & [ STEM < "delfín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_delfín_n_rel" ] ]. delga_n1 := n_intr_count_le & [ STEM < "delga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_delga_n_rel" ] ]. delgadez_n1 := n_ppcomp_uncount_le & [ STEM < "delgadez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delgadez_n_rel" ] ]. delgado_a1 := a_qual_intr_ser_le & [ STEM < "delgado" >, SYNSEM.LKEYS.KEYREL.PRED "_delgado_a_rel" ]. delgaducho_a1 := a_qual_intr_ser_le & [ STEM < "delgaducho" >, SYNSEM.LKEYS.KEYREL.PRED "_delgaducho_a_rel" ]. deliberación_n1 := n_result_intr_le & [ STEM < "deliberación" >, SYNSEM.LKEYS.KEYREL.PRED "_deliberación_n_rel" ]. deliberadamente_x1 := av_s_spr_le & [ STEM < "deliberadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deliberadamente_x_rel" ]. deliberadamente_x2 := av_i_psthd_spr_le & [ STEM < "deliberadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deliberadamente_x_rel" ]. deliberador_n1 := n_subj-nom_le & [ STEM < "deliberador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deliberador_n_rel" ] ]. deliberar_v := v_pron_intr_mrkd_np*_le & [ STEM < "deliberar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_deliberar_v_rel" ] ]. deliberativo_a1 := a_rel_nonprd_intr_le & [ STEM < "deliberativo" >, SYNSEM.LKEYS.KEYREL.PRED "_deliberativo_a_rel" ]. delicadamente_x1 := av_i_spr_le & [ STEM < "delicadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_delicadamente_x_rel" ]. delicadeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "delicadeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delicadeza_n_rel" ] ]. delicado_a1 := a_qual_intr_scopal_le & [ STEM < "delicado" >, SYNSEM.LKEYS.KEYREL.PRED "_delicado_a_rel" ]. delicia_n1 := n_intr_uncount_pl_le & [ STEM < "delicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delicia_n_rel" ] ]. deliciosamente_x1 := av_i_spr_le & [ STEM < "deliciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deliciosamente_x_rel" ]. delicioso_a1 := a_qual_intr_scopal_le & [ STEM < "delicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_delicioso_a_rel" ]. delictivo_a1 := a_rel_nonprd_intr_le & [ STEM < "delictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_delictivo_a_rel" ]. delictual_a1 := a_rel_nonprd_intr_le & [ STEM < "delictual" >, SYNSEM.LKEYS.KEYREL.PRED "_delictual_a_rel" ]. delictuosamente_x1 := av_i_spr_le & [ STEM < "delictuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_delictuosamente_x_rel" ]. delictuoso_a1 := a_rel_nonprd_intr_le & [ STEM < "delictuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_delictuoso_a_rel" ]. delicuencial_a1 := a_rel_nonprd_intr_le & [ STEM < "delicuencial" >, SYNSEM.LKEYS.KEYREL.PRED "_delicuencial_a_rel" ]. delicuencialmente_x1 := av_i_spr_le & [ STEM < "delicuencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_delicuencialmente_x_rel" ]. delicuescencia_n1 := n_intr_uncount_le & [ STEM < "delicuescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delicuescencia_n_rel" ] ]. delicuescente_a1 := a_rel_nonprd_intr_le & [ STEM < "delicuescente" >, SYNSEM.LKEYS.KEYREL.PRED "_delicuescente_a_rel" ]. delicuescentemente_x1 := av_i_spr_le & [ STEM < "delicuescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_delicuescentemente_x_rel" ]. delimitable_a1 := a_rel_prd_le & [ STEM < "delimitable" >, SYNSEM.LKEYS.KEYREL.PRED "_delimitable_a_rel" ]. delimitación_n1 := n_trans_le & [ STEM < "delimitación" >, SYNSEM.LKEYS.KEYREL.PRED "_delimitación_n_rel" ]. delimitador_a1 := a_rel_nonprd_intr_le & [ STEM < "delimitador" >, SYNSEM.LKEYS.KEYREL.PRED "_delimitador_a_rel" ]. delimitador_n1 := n_intr_count_le & [ STEM < "delimitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_delimitador_n_rel" ] ]. delimitante_a1 := a_rel_nonprd_intr_le & [ STEM < "delimitante" >, SYNSEM.LKEYS.KEYREL.PRED "_delimitante_a_rel" ]. delimitar_v := v_trans_np_le & [ STEM < "delimitar" >, SYNSEM.LKEYS.KEYREL.PRED "_delimitar_v_rel" ]. delincuencia_n1 := n_intr_mass_le & [ STEM < "delincuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delincuencia_n_rel" ] ]. delincuencial_a1 := a_rel_nonprd_intr_le & [ STEM < "delincuencial" >, SYNSEM.LKEYS.KEYREL.PRED "_delincuencial_a_rel" ]. delincuente_n1 := n_intr_count_le & [ STEM < "delincuente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_delincuente_n_rel" ] ]. delineación_n1 := n_trans_le & [ STEM < "delineación" >, SYNSEM.LKEYS.KEYREL.PRED "_delineación_n_rel" ]. delineamiento_n1 := n_trans_le & [ STEM < "delineamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_delineamiento_n_rel" ]. delineante_n1 := n_intr_count_le & [ STEM < "delineante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_delineante_n_rel" ] ]. delinear_v := v_trans_np*_le & [ STEM < "delinear" >, SYNSEM.LKEYS.KEYREL.PRED "_delinear_v_rel" ]. delinquimiento_n1 := n_result_intr_le & [ STEM < "delinquimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_delinquimiento_n_rel" ]. delinquir_v := v_intr_le & [ STEM < "delinquir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_delinquir_v_rel" ] ]. delirar_v := v_intr_le & [ STEM < "delirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_delirar_v_rel" ] ]. delirio_n1 := n_result_intr_le & [ STEM < "delirio" >, SYNSEM.LKEYS.KEYREL.PRED "_delirio_n_rel" ]. delito_n1 := n_intr_count_le & [ STEM < "delito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delito_n_rel" ] ]. delocutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "delocutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_delocutivo_a_rel" ]. delta_n1 := n_intr_count_le & [ STEM < "delta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_delta_n_rel" ] ]. deltaico_a1 := a_rel_nonprd_intr_le & [ STEM < "deltaico" >, SYNSEM.LKEYS.KEYREL.PRED "_deltaico_a_rel" ]. deltoideamente_x1 := av_i_spr_le & [ STEM < "deltoideamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deltoideamente_x_rel" ]. deltoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "deltoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_deltoideo_a_rel" ]. deltoides_n1 := n_intr_count_le & [ STEM < "deltoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deltoides_n_rel" ] ]. delusión_n1 := n_intr_count_le & [ STEM < "delusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_delusión_n_rel" ] ]. delusorio_a1 := a_qual_intr_scopal_le & [ STEM < "delusorio" >, SYNSEM.LKEYS.KEYREL.PRED "_delusorio_a_rel" ]. demacración_n1 := n_trans_le & [ STEM < "demacración" >, SYNSEM.LKEYS.KEYREL.PRED "_demacración_n_rel" ]. demagogia_n1 := n_intr_mass_le & [ STEM < "demagogia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demagogia_n_rel" ] ]. demagogismo_n1 := n_intr_uncount_le & [ STEM < "demagogismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demagogismo_n_rel" ] ]. demagogo_n1 := n_intr_count_le & [ STEM < "demagogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demagogo_n_rel" ] ]. demagógico_a1 := a_qual_intr_scopal_le & [ STEM < "demagógico" >, SYNSEM.LKEYS.KEYREL.PRED "_demagógico_a_rel" ]. demanda_n1 := n_trans_le & [ STEM < "demanda" >, SYNSEM.LKEYS.KEYREL.PRED "_demanda_n_rel" ]. demandadero_n1 := n_intr_count_le & [ STEM < "demandadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demandadero_n_rel" ] ]. demandado_n1 := n_intr_count_le & [ STEM < "demandado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demandado_n_rel" ] ]. demandador_n1 := n_subj-nom_le & [ STEM < "demandador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demandador_n_rel" ] ]. demandante_n1 := n_intr_count_le & [ STEM < "demandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demandante_n_rel" ] ]. demandar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "demandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_demandar_v_rel" ] ]. demandar_v2 := v_trans_np*_io*_le & [ STEM < "demandar" >, SYNSEM.LKEYS.KEYREL.PRED "_demandar_v_rel" ]. demanial_a1 := a_rel_nonprd_intr_le & [ STEM < "demanial" >, SYNSEM.LKEYS.KEYREL.PRED "_demanial_a_rel" ]. demanio_n1 := n_intr_uncount_le & [ STEM < "demanio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demanio_n_rel" ] ]. demantoide_n1 := n_intr_count_le & [ STEM < "demantoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_demantoide_n_rel" ] ]. demarcación_n1 := n_trans_le & [ STEM < "demarcación" >, SYNSEM.LKEYS.KEYREL.PRED "_demarcación_n_rel" ]. demarraje_n1 := n_event-result_intr_le & [ STEM < "demarraje" >, SYNSEM.LKEYS.KEYREL.PRED "_demarraje_n_rel" ]. demasiado_d := d_qnt-evl-dv_dem_le & [ STEM < "demasiado" > ]. demasiado_p := pr_part_demasiado_le & [ STEM < "demasiado" >, SYNSEM.LKEYS.ALTKEYREL.PRED _demasiado_q_rel ]. demasiado_x1 := av_qnt-deg_le & [ STEM < "demasiado" >, SYNSEM.LKEYS.KEYREL.PRED "_demasiado_x_deg_rel" ]. demasiado_x2 := av_qnt-pron_demasd_le & [ STEM < "demasiado" > ]. demasía_n1 := n_intr_uncount_pl_le & [ STEM < "demasía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demasía_n_rel" ] ]. demencia_n1 := n_intr_uncount_pl_le & [ STEM < "demencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demencia_n_rel" ] ]. demencial_a1 := a_qual_intr_scopal_le & [ STEM < "demencial" >, SYNSEM.LKEYS.KEYREL.PRED "_demencial_a_rel" ]. demencialmente_x1 := av_i_spr_le & [ STEM < "demencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_demencialmente_x_rel" ]. demente_a1 := a_qual_intr_ser_le & [ STEM < "demente" >, SYNSEM.LKEYS.KEYREL.PRED "_demente_a_rel" ]. demiurgo_n1 := n_intr_count_le & [ STEM < "demiurgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_demiurgo_n_rel" ] ]. democracia_n1 := n_intr_uncount_pl_le & [ STEM < "democracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_democracia_n_rel" ] ]. democratacristiano_n1 := n_intr_count_le & [ STEM < "democratacristiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_democratacristiano_n_rel" ] ]. democratización_n1 := n_trans_le & [ STEM < "democratización" >, SYNSEM.LKEYS.KEYREL.PRED "_democratización_n_rel" ]. democratizador_a1 := a_rel_nonprd_intr_le & [ STEM < "democratizador" >, SYNSEM.LKEYS.KEYREL.PRED "_democratizador_a_rel" ]. democratizar_v := v_trans_np_caus_le & [ STEM < "democratizar" >, SYNSEM.LKEYS.KEYREL.PRED "_democratizar_v_rel" ]. democristiano_a1 := a_rel_nonprd_intr_le & [ STEM < "democristiano" >, SYNSEM.LKEYS.KEYREL.PRED "_democristiano_a_rel" ]. democráticamente_x1 := av_i_spr_le & [ STEM < "democráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_democráticamente_x_rel" ]. democrático_a1 := a_rel_nonprd_intr_le & [ STEM < "democrático" >, SYNSEM.LKEYS.KEYREL.PRED "_democrático_a_rel" ]. demodulador_n1 := n_intr_count_le & [ STEM < "demodulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_demodulador_n_rel" ] ]. demodular_v := v_trans_np_le & [ STEM < "demodular" >, SYNSEM.LKEYS.KEYREL.PRED "_demodular_v_rel" ]. demografía_n1 := n_intr_uncount_le & [ STEM < "demografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demografía_n_rel" ] ]. demográficamente_x1 := av_i_spr_le & [ STEM < "demográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_demográficamente_x_rel" ]. demográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "demográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_demográfico_a_rel" ]. demoledor_a1 := a_qual_intr_ser_le & [ STEM < "demoledor" >, SYNSEM.LKEYS.KEYREL.PRED "_demoledor_a_rel" ]. demoledoramente_x1 := av_i_spr_le & [ STEM < "demoledoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_demoledoramente_x_rel" ]. demoler_v := v_trans_np_le & [ STEM < "demoler" >, SYNSEM.LKEYS.KEYREL.PRED "_demoler_v_rel" ]. demolición_n1 := n_trans_le & [ STEM < "demolición" >, SYNSEM.LKEYS.KEYREL.PRED "_demolición_n_rel" ]. demoniaco_a1 := a_qual_intr_scopal_le & [ STEM < "demoniaco" >, SYNSEM.LKEYS.KEYREL.PRED "_demoniaco_a_rel" ]. demonio_n1 := n_intr_count_le & [ STEM < "demonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demonio_n_rel" ] ]. demoníaco_a1 := a_qual_intr_scopal_le & [ STEM < "demoníaco" >, SYNSEM.LKEYS.KEYREL.PRED "_demoníaco_a_rel" ]. demora_n1 := n_trans_le & [ STEM < "demora" >, SYNSEM.LKEYS.KEYREL.PRED "_demora_n_rel" ]. demorar_v1 := v_trans_np_le & [ STEM < "demorar" >, SYNSEM.LKEYS.KEYREL.PRED "_demorar_v_rel" ]. demorar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "demorar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_demorar_v_rel" ] ]. demorar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "demorar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_demorar_v_rel" ] ]. demostrabilidad_n1 := n_intr_uncount_le & [ STEM < "demostrabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_demostrabilidad_n_rel" ] ]. demostrable_a1 := a_qual_intr_scopal_le & [ STEM < "demostrable" >, SYNSEM.LKEYS.KEYREL.PRED "_demostrable_a_rel" ]. demostración_n1 := n_trans_le & [ STEM < "demostración" >, SYNSEM.LKEYS.KEYREL.PRED "_demostración_n_rel" ]. demostrador_a1 := a_rel_nonprd_intr_le & [ STEM < "demostrador" >, SYNSEM.LKEYS.KEYREL.PRED "_demostrador_a_rel" ]. demostrar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "demostrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_demostrar_v_rel" ] ]. demostrar_v2 := v_ditrans*_le & [ STEM < "demostrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_demostrar_v_rel" ] ]. demostrar_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "demostrar" >, SYNSEM.LKEYS.KEYREL.PRED "_demostrar_v_rel" ]. demostrar_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "demostrar" >, SYNSEM.LKEYS.KEYREL.PRED "_demostrar_v_rel" ]. demostrativo_a1 := a_rel_prd_le & [ STEM < "demostrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_demostrativo_a_rel" ]. demultiplexor_n1 := n_intr_count_le & [ STEM < "demultiplexor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_demultiplexor_n_rel" ] ]. demultiplicación_n1 := n_trans_le & [ STEM < "demultiplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_demultiplicación_n_rel" ]. demás_d := d_qnt-evl-dv_demás_le & [ STEM < "demás" > ]. demás_p := pr_indf_demás_le & [ STEM < "demás" > ]. demócrata_a1 := a_qual_intr_ser_le & [ STEM < "demócrata" >, SYNSEM.LKEYS.KEYREL.PRED "_demócrata_a_rel" ]. demócrata_n1 := n_intr_count_le & [ STEM < "demócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demócrata_n_rel" ] ]. demógrafo_n1 := n_intr_count_le & [ STEM < "demógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_demógrafo_n_rel" ] ]. denario_a1 := a_rel_nonprd_intr_le & [ STEM < "denario" >, SYNSEM.LKEYS.KEYREL.PRED "_denario_a_rel" ]. denario_n1 := n_intr_count_le & [ STEM < "denario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_denario_n_rel" ] ]. dendriforme_a1 := a_qual_intr_ser_le & [ STEM < "dendriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_dendriforme_a_rel" ]. dendrita_n1 := n_intr_count_le & [ STEM < "dendrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dendrita_n_rel" ] ]. dendrocronología_n1 := n_intr_uncount_le & [ STEM < "dendrocronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dendrocronología_n_rel" ] ]. dendrograma_n1 := n_intr_count_le & [ STEM < "dendrograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dendrograma_n_rel" ] ]. dendrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "dendrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_dendrítico_a_rel" ]. denegación_n1 := n_trans_le & [ STEM < "denegación" >, SYNSEM.LKEYS.KEYREL.PRED "_denegación_n_rel" ]. denegar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "denegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_denegar_v_rel" ] ]. denegar_v2 := v_ditrans*_le & [ STEM < "denegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_denegar_v_rel" ] ]. denegar_v3 := v_intr_mrkd_np_le & [ STEM < "denegar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_denegar_v_rel" ] ]. denegar_v4 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "denegar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_denegar_v_rel" ] ]. denegatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "denegatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_denegatorio_a_rel" ]. denigración_n1 := n_trans_le & [ STEM < "denigración" >, SYNSEM.LKEYS.KEYREL.PRED "_denigración_n_rel" ]. denigrante_a1 := a_qual_intr_scopal_le & [ STEM < "denigrante" >, SYNSEM.LKEYS.KEYREL.PRED "_denigrante_a_rel" ]. denigrar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "denigrar" >, SYNSEM.LKEYS.KEYREL.PRED "_denigrar_v_rel" ]. denigrar_v2 := v_trans_np_le & [ STEM < "denigrar" >, SYNSEM.LKEYS.KEYREL.PRED "_denigrar_v_rel" ]. denodadamente_x1 := av_i_spr_le & [ STEM < "denodadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_denodadamente_x_rel" ]. denominación_n1 := n_trans_le & [ STEM < "denominación" >, SYNSEM.LKEYS.KEYREL.PRED "_denominación_n_rel" ]. denominador_a1 := a_rel_nonprd_intr_le & [ STEM < "denominador" >, SYNSEM.LKEYS.KEYREL.PRED "_denominador_a_rel" ]. denominador_n1 := n_intr_count_le & [ STEM < "denominador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_denominador_n_rel" ] ]. denostar_v := v_trans_np_le & [ STEM < "denostar" >, SYNSEM.LKEYS.KEYREL.PRED "_denostar_v_rel" ]. denotación_n1 := n_trans_le & [ STEM < "denotación" >, SYNSEM.LKEYS.KEYREL.PRED "_denotación_n_rel" ]. denotar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "denotar" >, SYNSEM.LKEYS.KEYREL.PRED "_denotar_v_rel" ]. denotar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "denotar" >, SYNSEM.LKEYS.KEYREL.PRED "_denotar_v_rel" ]. denotar_v3 := v_trans_cp_prop_fin_le & [ STEM < "denotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_denotar_v_rel" ] ]. denotar_v4 := v_trans_np_le & [ STEM < "denotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_denotar_v_rel" ] ]. denotativamente_x1 := av_i_spr_le & [ STEM < "denotativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_denotativamente_x_rel" ]. denotativo_a1 := a_rel_nonprd_intr_le & [ STEM < "denotativo" >, SYNSEM.LKEYS.KEYREL.PRED "_denotativo_a_rel" ]. densamente_x1 := av_i_spr_le & [ STEM < "densamente" >, SYNSEM.LKEYS.KEYREL.PRED "_densamente_x_rel" ]. densidad_n1 := n_intr_mass_le & [ STEM < "densidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_densidad_n_rel" ] ]. densificar_v := v_trans_np_caus_le & [ STEM < "densificar" >, SYNSEM.LKEYS.KEYREL.PRED "_densificar_v_rel" ]. densimetría_n1 := n_intr_count_le & [ STEM < "densimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_densimetría_n_rel" ] ]. densimétricamente_x1 := av_i_spr_le & [ STEM < "densimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_densimétricamente_x_rel" ]. densimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "densimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_densimétrico_a_rel" ]. densitométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "densitométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_densitométrico_a_rel" ]. densitómetro_n1 := n_intr_count_le & [ STEM < "densitómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_densitómetro_n_rel" ] ]. denso_a1 := a_qual_intr_scopal_le & [ STEM < "denso" >, SYNSEM.LKEYS.KEYREL.PRED "_denso_a_rel" ]. densímetro_n1 := n_intr_count_le & [ STEM < "densímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_densímetro_n_rel" ] ]. dentado_n1 := n_intr_count_le & [ STEM < "dentado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentado_n_rel" ] ]. dentadura_n1 := n_intr_count_le & [ STEM < "dentadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentadura_n_rel" ] ]. dental_a1 := a_rel_nonprd_intr_le & [ STEM < "dental" >, SYNSEM.LKEYS.KEYREL.PRED "_dental_a_rel" ]. dentar_v := v_trans_np*_le & [ STEM < "dentar" >, SYNSEM.LKEYS.KEYREL.PRED "_dentar_v_rel" ]. dentario_a1 := a_rel_nonprd_intr_le & [ STEM < "dentario" >, SYNSEM.LKEYS.KEYREL.PRED "_dentario_a_rel" ]. dentellada_n1 := n_intr_count_le & [ STEM < "dentellada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentellada_n_rel" ] ]. dentera_n1 := n_intr_uncount_pl_le & [ STEM < "dentera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentera_n_rel" ] ]. dentición_n1 := n_event-result_intr_le & [ STEM < "dentición" >, SYNSEM.LKEYS.KEYREL.PRED "_dentición_n_rel" ]. dentiforme_a1 := a_qual_intr_ser_le & [ STEM < "dentiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_dentiforme_a_rel" ]. dentina_n1 := n_intr_count_le & [ STEM < "dentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentina_n_rel" ] ]. dentinal_a1 := a_rel_nonprd_intr_le & [ STEM < "dentinal" >, SYNSEM.LKEYS.KEYREL.PRED "_dentinal_a_rel" ]. dentinitis_n1 := n_intr_uncount_le & [ STEM < "dentinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentinitis_n_rel" ] ]. dentinoclasia_n1 := n_intr_uncount_le & [ STEM < "dentinoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentinoclasia_n_rel" ] ]. dentinoclasto_n1 := n_intr_count_le & [ STEM < "dentinoclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentinoclasto_n_rel" ] ]. dentinogingival_a1 := a_rel_nonprd_intr_le & [ STEM < "dentinogingival" >, SYNSEM.LKEYS.KEYREL.PRED "_dentinogingival_a_rel" ]. dentinogénesis_n1 := n_intr_uncount_le & [ STEM < "dentinogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentinogénesis_n_rel" ] ]. dentinoide_a1 := a_rel_nonprd_intr_le & [ STEM < "dentinoide" >, SYNSEM.LKEYS.KEYREL.PRED "_dentinoide_a_rel" ]. dentista_n1 := n_intr_count_le & [ STEM < "dentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dentista_n_rel" ] ]. dentoalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "dentoalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_dentoalveolar_a_rel" ]. dentofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "dentofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_dentofacial_a_rel" ]. dentofobia_n1 := n_intr_uncount_le & [ STEM < "dentofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentofobia_n_rel" ] ]. dentogenia_n1 := n_intr_uncount_le & [ STEM < "dentogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dentogenia_n_rel" ] ]. dentogingival_a1 := a_rel_nonprd_intr_le & [ STEM < "dentogingival" >, SYNSEM.LKEYS.KEYREL.PRED "_dentogingival_a_rel" ]. dentoide_a1 := a_rel_nonprd_intr_le & [ STEM < "dentoide" >, SYNSEM.LKEYS.KEYREL.PRED "_dentoide_a_rel" ]. dentomaxilofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "dentomaxilofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_dentomaxilofacial_a_rel" ]. dentoperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "dentoperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_dentoperióstico_a_rel" ]. dentro_de_p_vmod := p_vmod_le & [ STEM < "dentro_de" >, SYNSEM.LKEYS.KEYREL.PRED _dentro_de_p_rel ]. dentro_x1 := av_i_spr_le & [ STEM < "dentro" >, SYNSEM.LKEYS.KEYREL.PRED "_dentro_x_rel" ]. dentículo_n1 := n_ppcomp_count_le & [ STEM < "dentículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_dentículo_n_rel" ] ]. dentífrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dentífrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dentífrico_a_rel" ]. dentífrico_n1 := n_intr_mass_le & [ STEM < "dentífrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentífrico_n_rel" ] ]. dentímetro_n1 := n_intr_count_le & [ STEM < "dentímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dentímetro_n_rel" ] ]. dentón_n1 := n_intr_count_le & [ STEM < "dentón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dentón_n_rel" ] ]. denudación_n1 := n_trans_le & [ STEM < "denudación" >, SYNSEM.LKEYS.KEYREL.PRED "_denudación_n_rel" ]. denudar_v1 := v_pron_intr_le & [ STEM < "denudar" >, SYNSEM.LKEYS.KEYREL.PRED "_denudar_v_rel" ]. denudar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "denudar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_denudar_v_rel" ] ]. denuncia_n1 := n_intr_count_le & [ STEM < "denuncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_denuncia_n_rel" ] ]. denunciado_n1 := n_intr_count_le & [ STEM < "denunciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_denunciado_n_rel" ] ]. denunciador_n1 := n_intr_count_le & [ STEM < "denunciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_denunciador_n_rel" ] ]. denunciante_n1 := n_intr_count_le & [ STEM < "denunciante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_denunciante_n_rel" ] ]. denunciar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "denunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_denunciar_v_rel" ] ]. denunciar_v2 := v_trans_np_le & [ STEM < "denunciar" >, SYNSEM.LKEYS.KEYREL.PRED "_denunciar_v_rel" ]. denunciatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "denunciatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_denunciatorio_a_rel" ]. deo_volente_x1 := av_i_le & [ STEM < "deo_volente" >, SYNSEM.LKEYS.KEYREL.PRED "_deo_volente_x_rel" ]. deontología_n1 := n_intr_uncount_le & [ STEM < "deontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deontología_n_rel" ] ]. deontológico_a1 := a_rel_nonprd_intr_le & [ STEM < "deontológico" >, SYNSEM.LKEYS.KEYREL.PRED "_deontológico_a_rel" ]. deparar_v := v_ditrans*_le & [ STEM < "deparar" >, SYNSEM.LKEYS.KEYREL.PRED "_deparar_v_rel" ]. departamental_a1 := a_rel_nonprd_intr_le & [ STEM < "departamental" >, SYNSEM.LKEYS.KEYREL.PRED "_departamental_a_rel" ]. departamentalización_n1 := n_trans_le & [ STEM < "departamentalización" >, SYNSEM.LKEYS.KEYREL.PRED "_departamentalización_n_rel" ]. departamento_n1 := n_intr_count_le & [ STEM < "departamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_departamento_n_rel" ] ]. departir_v := v_intr_mrkd_np*_le & [ STEM < "departir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_departir_v_rel" ] ]. depauperación_n1 := n_trans_le & [ STEM < "depauperación" >, SYNSEM.LKEYS.KEYREL.PRED "_depauperación_n_rel" ]. depauperar_v := v_trans_np_le & [ STEM < "depauperar" >, SYNSEM.LKEYS.KEYREL.PRED "_depauperar_v_rel" ]. dependencia_n1 := n_ppcomp_mass_le & [ STEM < "dependencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dependencia_n_rel" ] ]. depender_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "depender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_depender_v_rel" ] ]. depender_v2 := v_intr_mrkd_np_le & [ STEM < "depender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_depender_v_rel" ] ]. depender_v3 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "depender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_depender_v_rel" ] ]. dependiente_a1 := a_qual_trans*_ser_le & [ STEM < "dependiente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dependiente_a_rel" ] ]. dependiente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "dependiente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dependiente_a_rel" ] ]. dependiente_a3 := a_qual_cp_ques_ser_le & [ STEM < "dependiente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dependiente_a_rel" ] ]. dependiente_a4 := a_sctrl_ser_le & [ STEM < "dependiente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dependiente_a_rel" ] ]. dependiente_n1 := n_intr_count_le & [ STEM < "dependiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dependiente_n_rel" ] ]. depilación_n2 := n_trans_le & [ STEM < "depilación" >, SYNSEM.LKEYS.KEYREL.PRED "_depilación_n_rel" ]. depilador_a1 := a_rel_nonprd_intr_le & [ STEM < "depilador" >, SYNSEM.LKEYS.KEYREL.PRED "_depilador_a_rel" ]. depilatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "depilatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_depilatorio_a_rel" ]. depilatorio_n1 := n_intr_mass_le & [ STEM < "depilatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_depilatorio_n_rel" ] ]. depleción_n1 := n_intr_count_le & [ STEM < "depleción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_depleción_n_rel" ] ]. deplorable_a1 := a_qual_intr_scopal_le & [ STEM < "deplorable" >, SYNSEM.LKEYS.KEYREL.PRED "_deplorable_a_rel" ]. deplorar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "deplorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_deplorar_v_rel" ] ]. deplorar_v2 := v_trans_np_le & [ STEM < "deplorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_deplorar_v_rel" ] ]. deponente_a1 := a_rel_nonprd_intr_le & [ STEM < "deponente" >, SYNSEM.LKEYS.KEYREL.PRED "_deponente_a_rel" ]. deponente_n1 := n_intr_count_le & [ STEM < "deponente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deponente_n_rel" ] ]. deponer_v1 := v_trans_np_mrkd_np*_le & [ STEM < "deponer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_deponer_v_rel" ] ]. deportación_n1 := n_trans_le & [ STEM < "deportación" >, SYNSEM.LKEYS.KEYREL.PRED "_deportación_n_rel" ]. deportar_v := v_trans_np_lcomp_dir*_le & [ STEM < "deportar" >, SYNSEM.LKEYS.KEYREL.PRED "_deportar_v_rel" ]. deporte_n1 := n_intr_count_le & [ STEM < "deporte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deporte_n_rel" ] ]. deportista_a1 := a_qual_intr_ser_le & [ STEM < "deportista" >, SYNSEM.LKEYS.KEYREL.PRED "_deportista_a_rel" ]. deportista_n1 := n_intr_count_le & [ STEM < "deportista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deportista_n_rel" ] ]. deportividad_n1 := n_intr_mass_le & [ STEM < "deportividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deportividad_n_rel" ] ]. deportivo_a1 := a_rel_nonprd_intr_le & [ STEM < "deportivo" >, SYNSEM.LKEYS.KEYREL.PRED "_deportivo_a_rel" ]. deposición_n1 := n_trans_le & [ STEM < "deposición" >, SYNSEM.LKEYS.KEYREL.PRED "_deposición_n_rel" ]. depositador_n1 := n_subj-nom_le & [ STEM < "depositador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_depositador_n_rel" ] ]. depositante_n1 := n_intr_count_le & [ STEM < "depositante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_depositante_n_rel" ] ]. depositar_v1 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "depositar" >, SYNSEM.LKEYS.KEYREL.PRED "_depositar_v_rel" ]. depositar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "depositar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_depositar_v_rel" ] ] ]. depositario_a1 := a_rel_nonprd_intr_le & [ STEM < "depositario" >, SYNSEM.LKEYS.KEYREL.PRED "_depositario_a_rel" ]. depositario_n1 := n_intr_count_le & [ STEM < "depositario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_depositario_n_rel" ] ]. depositaría_n1 := n_intr_count_le & [ STEM < "depositaría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_depositaría_n_rel" ] ]. depravación_n1 := n_trans_le & [ STEM < "depravación" >, SYNSEM.LKEYS.KEYREL.PRED "_depravación_n_rel" ]. depreciación_n1 := n_trans_le & [ STEM < "depreciación" >, SYNSEM.LKEYS.KEYREL.PRED "_depreciación_n_rel" ]. depreciar_v := v_trans_np_caus_le & [ STEM < "depreciar" >, SYNSEM.LKEYS.KEYREL.PRED "_depreciar_v_rel" ]. depredación_n1 := n_trans_le & [ STEM < "depredación" >, SYNSEM.LKEYS.KEYREL.PRED "_depredación_n_rel" ]. depredador_a1 := a_qual_intr_scopal_le & [ STEM < "depredador" >, SYNSEM.LKEYS.KEYREL.PRED "_depredador_a_rel" ]. depredar_v := v_trans_np_le & [ STEM < "depredar" >, SYNSEM.LKEYS.KEYREL.PRED "_depredar_v_rel" ]. depresivo_a1 := a_qual_intr_scopal_le & [ STEM < "depresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_depresivo_a_rel" ]. depresiómetro_n1 := n_intr_count_le & [ STEM < "depresiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_depresiómetro_n_rel" ] ]. depresión_n1 := n_trans_le & [ STEM < "depresión" >, SYNSEM.LKEYS.KEYREL.PRED "_depresión_n_rel" ]. depresión_n2 := n_intr_count_le & [ STEM < "depresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_depresión_n_rel" ] ]. depresor_a1 := a_rel_nonprd_intr_le & [ STEM < "depresor" >, SYNSEM.LKEYS.KEYREL.PRED "_depresor_a_rel" ]. depresor_n1 := n_intr_count_le & [ STEM < "depresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_depresor_n_rel" ] ]. deprimente_a1 := a_qual_intr_scopal_le & [ STEM < "deprimente" >, SYNSEM.LKEYS.KEYREL.PRED "_deprimente_a_rel" ]. deprimentemente_x1 := av_i_spr_le & [ STEM < "deprimentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_deprimentemente_x_rel" ]. deprimir_v1 := v_intr_io*_le & [ STEM < "deprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_deprimir_v_rel" ]. deprimir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "deprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_deprimir_v_rel" ]. deprimir_v3 := v_trans_np_caus_le & [ STEM < "deprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_deprimir_v_rel" ]. deprimómetro_n1 := n_intr_count_le & [ STEM < "deprimómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deprimómetro_n_rel" ] ]. deprisa_x1 := av_i_spr_le & [ STEM < "deprisa" >, SYNSEM.LKEYS.KEYREL.PRED "_deprisa_x_rel" ]. depulpado_a1 := a_qual_intr_scopal_le & [ STEM < "depulpado" >, SYNSEM.LKEYS.KEYREL.PRED "_depulpado_a_rel" ]. depuración_n1 := n_trans_le & [ STEM < "depuración" >, SYNSEM.LKEYS.KEYREL.PRED "_depuración_n_rel" ]. depurador_a1 := a_rel_nonprd_intr_le & [ STEM < "depurador" >, SYNSEM.LKEYS.KEYREL.PRED "_depurador_a_rel" ]. depurador_n1 := n_intr_count_le & [ STEM < "depurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_depurador_n_rel" ] ]. depuradora_n1 := n_intr_count_le & [ STEM < "depuradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_depuradora_n_rel" ] ]. depurar_v := v_trans_np_le & [ STEM < "depurar" >, SYNSEM.LKEYS.KEYREL.PRED "_depurar_v_rel" ]. depurativo_a1 := a_rel_nonprd_intr_le & [ STEM < "depurativo" >, SYNSEM.LKEYS.KEYREL.PRED "_depurativo_a_rel" ]. depósito_n1 := n_intr_count_le & [ STEM < "depósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_depósito_n_rel" ] ]. derbi_n1 := n_intr_count_le & [ STEM < "derbi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derbi_n_rel" ] ]. derecha_n1 := n_intr_uncount_le & [ STEM < "derecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derecha_n_rel" ] ]. derechazo_n1 := n_intr_uncount_le & [ STEM < "derechazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derechazo_n_rel" ] ]. derechista_a1 := a_qual_intr_ser_le & [ STEM < "derechista" >, SYNSEM.LKEYS.KEYREL.PRED "_derechista_a_rel" ]. derecho_a1 := a_qual_intr_estar_le & [ STEM < "derecho" >, SYNSEM.LKEYS.KEYREL.PRED "_derecho_a_rel" ]. derecho_n1 := n_intr_uncount_le & [ STEM < "derecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derecho_n_rel" ] ]. derecho_n2 := n_intr_count_le & [ STEM < "derecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derecho_n_rel" ] ]. derechohabiente_n1 := n_intr_count_le & [ STEM < "derechohabiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_derechohabiente_n_rel" ] ]. deriva_n1 := n_intr_uncount_le & [ STEM < "deriva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deriva_n_rel" ] ]. derivable_a1 := a_rel_prd_le & [ STEM < "derivable" >, SYNSEM.LKEYS.KEYREL.PRED "_derivable_a_rel" ]. derivación_n1 := n_trans_le & [ STEM < "derivación" >, SYNSEM.LKEYS.KEYREL.PRED "_derivación_n_rel" ]. derivada_n1 := n_intr_count_le & [ STEM < "derivada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derivada_n_rel" ] ]. derivado_n1 := n_intr_count_le & [ STEM < "derivado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derivado_n_rel" ] ]. derivador_a1 := a_rel_nonprd_intr_le & [ STEM < "derivador" >, SYNSEM.LKEYS.KEYREL.PRED "_derivador_a_rel" ]. derivador_n1 := n_intr_count_le & [ STEM < "derivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_derivador_n_rel" ] ]. derivar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "derivar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_derivar_v_rel" ] ]. derivativo_a1 := a_rel_nonprd_intr_le & [ STEM < "derivativo" >, SYNSEM.LKEYS.KEYREL.PRED "_derivativo_a_rel" ]. derivativo_n1 := n_intr_uncount_le & [ STEM < "derivativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derivativo_n_rel" ] ]. derivímetro_n1 := n_intr_count_le & [ STEM < "derivímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_derivímetro_n_rel" ] ]. dermatitis_n1 := n_intr_uncount_le & [ STEM < "dermatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dermatitis_n_rel" ] ]. dermatología_n1 := n_intr_uncount_le & [ STEM < "dermatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dermatología_n_rel" ] ]. dermatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "dermatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_dermatológico_a_rel" ]. dermatosis_n1 := n_intr_uncount_le & [ STEM < "dermatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dermatosis_n_rel" ] ]. dermatosoma_n1 := n_intr_count_le & [ STEM < "dermatosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dermatosoma_n_rel" ] ]. dermatólogo_n1 := n_intr_count_le & [ STEM < "dermatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dermatólogo_n_rel" ] ]. dermis_n1 := n_intr_count_le & [ STEM < "dermis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dermis_n_rel" ] ]. dermoblasto_n1 := n_intr_count_le & [ STEM < "dermoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dermoblasto_n_rel" ] ]. derogación_n1 := n_intr_count_le & [ STEM < "derogación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derogación_n_rel" ] ]. derogar_v := v_trans_np_le & [ STEM < "derogar" >, SYNSEM.LKEYS.KEYREL.PRED "_derogar_v_rel" ]. derogatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "derogatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_derogatorio_a_rel" ]. derrama_n1 := n_trans_le & [ STEM < "derrama" >, SYNSEM.LKEYS.KEYREL.PRED "_derrama_n_rel" ]. derramadero_n1 := n_intr_count_le & [ STEM < "derramadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_derramadero_n_rel" ] ]. derramamiento_n1 := n_trans_le & [ STEM < "derramamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_derramamiento_n_rel" ]. derramar_v := v_trans_np_caus_le & [ STEM < "derramar" >, SYNSEM.LKEYS.KEYREL.PRED "_derramar_v_rel" ]. derrame_n1 := n_trans_le & [ STEM < "derrame" >, SYNSEM.LKEYS.KEYREL.PRED "_derrame_n_rel" ]. derrapaje_n1 := n_event-result_intr_le & [ STEM < "derrapaje" >, SYNSEM.LKEYS.KEYREL.PRED "_derrapaje_n_rel" ]. derrapar_v1 := v_unacc_lcomp_dir_le & [ STEM < "derrapar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_derrapar_v_rel" ] ]. derrapar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "derrapar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_derrapar_v_rel" ] ]. derrape_n1 := n_intr_count_le & [ STEM < "derrape" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derrape_n_rel" ] ]. derrelicto_n1 := n_intr_count_le & [ STEM < "derrelicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_derrelicto_n_rel" ] ]. derretir_v := v_trans_np_caus_le & [ STEM < "derretir" >, SYNSEM.LKEYS.KEYREL.PRED "_derretir_v_rel" ]. derribo_n1 := n_trans_le & [ STEM < "derribo" >, SYNSEM.LKEYS.KEYREL.PRED "_derribo_n_rel" ]. derrocamiento_n1 := n_trans_le & [ STEM < "derrocamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_derrocamiento_n_rel" ]. derrocar_v := v_trans_np_le & [ STEM < "derrocar" >, SYNSEM.LKEYS.KEYREL.PRED "_derrocar_v_rel" ]. derrochador_a1 := a_qual_trans*_ser_le & [ STEM < "derrochador" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_derrochador_a_rel" ] ]. derrochar_v := v_trans_np*_le & [ STEM < "derrochar" >, SYNSEM.LKEYS.KEYREL.PRED "_derrochar_v_rel" ]. derroche_n1 := n_trans_le & [ STEM < "derroche" >, SYNSEM.LKEYS.KEYREL.PRED "_derroche_n_rel" ]. derrota_n1 := n_trans_le & [ STEM < "derrota" >, SYNSEM.LKEYS.KEYREL.PRED "_derrota_n_rel" ]. derrotar_v := v_trans_np_le & [ STEM < "derrotar" >, SYNSEM.LKEYS.KEYREL.PRED "_derrotar_v_rel" ]. derrotero_n1 := n_intr_count_le & [ STEM < "derrotero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_derrotero_n_rel" ] ]. derrotismo_n1 := n_intr_uncount_le & [ STEM < "derrotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_derrotismo_n_rel" ] ]. derrotista_a1 := a_rel_nonprd_intr_le & [ STEM < "derrotista" >, SYNSEM.LKEYS.KEYREL.PRED "_derrotista_a_rel" ]. derrotista_n1 := n_intr_count_le & [ STEM < "derrotista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_derrotista_n_rel" ] ]. derrubio_n1 := n_trans_le & [ STEM < "derrubio" >, SYNSEM.LKEYS.KEYREL.PRED "_derrubio_n_rel" ]. derruir_v := v_trans_np_le & [ STEM < "derruir" >, SYNSEM.LKEYS.KEYREL.PRED "_derruir_v_rel" ]. derrumbamiento_n1 := n_trans_le & [ STEM < "derrumbamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_derrumbamiento_n_rel" ]. derrumbar_v := v_trans_np_caus_le & [ STEM < "derrumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_derrumbar_v_rel" ]. derrumbe_n1 := n_trans_le & [ STEM < "derrumbe" >, SYNSEM.LKEYS.KEYREL.PRED "_derrumbe_n_rel" ]. derviche_n1 := n_intr_count_le & [ STEM < "derviche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_derviche_n_rel" ] ]. desabastecer_v1 := v_trans_np_mrkd_np*_le & [ STEM < "desabastecer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desabastecer_v_rel" ] ]. desabastecimiento_n1 := n_trans_le & [ STEM < "desabastecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desabastecimiento_n_rel" ]. desabollar_v := v_trans_np_le & [ STEM < "desabollar" >, SYNSEM.LKEYS.KEYREL.PRED "_desabollar_v_rel" ]. desabotonar_v := v_trans_np_le & [ STEM < "desabotonar" >, SYNSEM.LKEYS.KEYREL.PRED "_desabotonar_v_rel" ]. desacatar_v := v_trans_np_le & [ STEM < "desacatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacatar_v_rel" ]. desacato_n1 := n_intr_uncount_le & [ STEM < "desacato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desacato_n_rel" ] ]. desacato_n2 := n_intr_count_le & [ STEM < "desacato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desacato_n_rel" ] ]. desaccionar_v := v_trans_np_caus_le & [ STEM < "desaccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desaccionar_v_rel" ]. desaceleración_n1 := n_trans_le & [ STEM < "desaceleración" >, SYNSEM.LKEYS.KEYREL.PRED "_desaceleración_n_rel" ]. desacelerar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desacelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacelerar_v_rel" ]. desacelerar_v2 := v_trans_np_caus_le & [ STEM < "desacelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacelerar_v_rel" ]. desacentuación_n1 := n_trans_le & [ STEM < "desacentuación" >, SYNSEM.LKEYS.KEYREL.PRED "_desacentuación_n_rel" ]. desaceración_n1 := n_trans_le & [ STEM < "desaceración" >, SYNSEM.LKEYS.KEYREL.PRED "_desaceración_n_rel" ]. desacertadamente_x1 := av_i_spr_le & [ STEM < "desacertadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desacertadamente_x_rel" ]. desacidificación_n1 := n_trans_le & [ STEM < "desacidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desacidificación_n_rel" ]. desacierto_n1 := n_result_intr_le & [ STEM < "desacierto" >, SYNSEM.LKEYS.KEYREL.PRED "_desacierto_n_rel" ]. desacondicionar_v := v_trans_np_le & [ STEM < "desacondicionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacondicionar_v_rel" ]. desaconsejable_a1 := a_qual_intr_scopal_le & [ STEM < "desaconsejable" >, SYNSEM.LKEYS.KEYREL.PRED "_desaconsejable_a_rel" ]. desaconsejar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "desaconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desaconsejar_v_rel" ] ]. desaconsejar_v2 := v_ditrans*_le & [ STEM < "desaconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desaconsejar_v_rel" ] ]. desacoplamiento_n1 := n_trans_le & [ STEM < "desacoplamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desacoplamiento_n_rel" ]. desacoplar_v := v_trans_np_caus_le & [ STEM < "desacoplar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacoplar_v_rel" ]. desacordar_v := v_trans_np_le & [ STEM < "desacordar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacordar_v_rel" ]. desacorde_a1 := a_qual_trans*_ser_le & [ STEM < "desacorde" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_desacorde_a_rel" ] ]. desacorde_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "desacorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_desacorde_a_rel" ] ]. desacorde_a3 := a_qual_cp_ques_ser_le & [ STEM < "desacorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_desacorde_a_rel" ] ]. desacostumbrar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "desacostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desacostumbrar_v_rel" ] ] ]. desacostumbrar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "desacostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desacostumbrar_v_rel" ] ] ]. desacostumbrar_v3 := v_trans_np_mrkd_np_caus_le & [ STEM < "desacostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desacostumbrar_v_rel" ] ] ]. desacotar_v := v_trans_np_le & [ STEM < "desacotar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacotar_v_rel" ]. desacreditar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desacreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacreditar_v_rel" ]. desacreditar_v2 := v_trans_np_le & [ STEM < "desacreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_desacreditar_v_rel" ]. desactivación_n1 := n_trans_le & [ STEM < "desactivación" >, SYNSEM.LKEYS.KEYREL.PRED "_desactivación_n_rel" ]. desactivar_v := v_trans_np_caus_le & [ STEM < "desactivar" >, SYNSEM.LKEYS.KEYREL.PRED "_desactivar_v_rel" ]. desactualizar_v := v_trans_np_le & [ STEM < "desactualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro, ARG2.SORT abs_cnc_pro, PRED "_desactualizar_v_rel" ] ]. desacuerdo_n1 := n_intr_count_le & [ STEM < "desacuerdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desacuerdo_n_rel" ] ]. desafecto_a1 := a_rel_nonprd_intr_le & [ STEM < "desafecto" >, SYNSEM.LKEYS.KEYREL.PRED "_desafecto_a_rel" ]. desafiador_a1 := a_rel_nonprd_intr_le & [ STEM < "desafiador" >, SYNSEM.LKEYS.KEYREL.PRED "_desafiador_a_rel" ]. desafiante_a1 := a_qual_intr_scopal_le & [ STEM < "desafiante" >, SYNSEM.LKEYS.KEYREL.PRED "_desafiante_a_rel" ]. desafiar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "desafiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desafiar_v_rel" ] ] ]. desafiar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "desafiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desafiar_v_rel" ] ] ]. desafiar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "desafiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_desafiar_v_rel" ] ] ]. desafilar_v := v_trans_np_le & [ STEM < "desafilar" >, SYNSEM.LKEYS.KEYREL.PRED "_desafilar_v_rel" ]. desafinar_v := v_trans_np*_le & [ STEM < "desafinar" >, SYNSEM.LKEYS.KEYREL.PRED "_desafinar_v_rel" ]. desaforadamente_x1 := av_i_spr_le & [ STEM < "desaforadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desaforadamente_x_rel" ]. desaforar_v := v_trans_np_le & [ STEM < "desaforar" >, SYNSEM.LKEYS.KEYREL.PRED "_desaforar_v_rel" ]. desafortunadamente_x1 := av_s_spr_le & [ STEM < "desafortunadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desafortunadamente_x_rel" ]. desafortunado_a1 := a_qual_intr_ser_le & [ STEM < "desafortunado" >, SYNSEM.LKEYS.KEYREL.PRED "_desafortunado_a_rel" ]. desafuero_n1 := n_intr_count_le & [ STEM < "desafuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desafuero_n_rel" ] ]. desafío_n1 := n_trans_le & [ STEM < "desafío" >, SYNSEM.LKEYS.KEYREL.PRED "_desafío_n_rel" ]. desagraciadamente_x1 := av_i_spr_le & [ STEM < "desagraciadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desagraciadamente_x_rel" ]. desagradable_a1 := a_qual_intr_scopal_le & [ STEM < "desagradable" >, SYNSEM.LKEYS.KEYREL.PRED "_desagradable_a_rel" ]. desagradablemente_x1 := av_i_spr_le & [ STEM < "desagradablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desagradablemente_x_rel" ]. desagradar_v1 := v_intr_io*_le & [ STEM < "desagradar" >, SYNSEM.LKEYS.KEYREL.PRED "_desagradar_v_rel" ]. desagradar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desagradar" >, SYNSEM.LKEYS.KEYREL.PRED "_desagradar_v_rel" ]. desagradecer_v := v_trans_np_le & [ STEM < "desagradecer" >, SYNSEM.LKEYS.KEYREL.PRED "_desagradecer_v_rel" ]. desagrado_n1 := n_result_intr_le & [ STEM < "desagrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desagrado_n_rel" ] ]. desagravio_n1 := n_trans_le & [ STEM < "desagravio" >, SYNSEM.LKEYS.KEYREL.PRED "_desagravio_n_rel" ]. desagregación_n1 := n_trans_le & [ STEM < "desagregación" >, SYNSEM.LKEYS.KEYREL.PRED "_desagregación_n_rel" ]. desagregadamente_x1 := av_i_spr_le & [ STEM < "desagregadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desagregadamente_x_rel" ]. desagrupar_v := v_trans_np_le & [ STEM < "desagrupar" >, SYNSEM.LKEYS.KEYREL.PRED "_desagrupar_v_rel" ]. desaguadero_n1 := n_intr_count_le & [ STEM < "desaguadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desaguadero_n_rel" ] ]. desaguar_v := v_trans_np_caus_le & [ STEM < "desaguar" >, SYNSEM.LKEYS.KEYREL.PRED "_desaguar_v_rel" ]. desagüe_n1 := n_intr_count_le & [ STEM < "desagüe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desagüe_n_rel" ] ]. desahogadamente_x1 := av_i_spr_le & [ STEM < "desahogadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desahogadamente_x_rel" ]. desahogar_v1 := v_pron_intr_le & [ STEM < "desahogar" >, SYNSEM.LKEYS.KEYREL.PRED "_desahogar_v_rel" ]. desahogar_v2 := v_trans_np_le & [ STEM < "desahogar" >, SYNSEM.LKEYS.KEYREL.PRED "_desahogar_v_rel" ]. desahogo_n1 := n_trans_le & [ STEM < "desahogo" >, SYNSEM.LKEYS.KEYREL.PRED "_desahogo_n_rel" ]. desahorro_n1 := n_intr_count_le & [ STEM < "desahorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desahorro_n_rel" ] ]. desahuciar_v := v_trans_np_le & [ STEM < "desahuciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desahuciar_v_rel" ]. desahucio_n1 := n_trans_le & [ STEM < "desahucio" >, SYNSEM.LKEYS.KEYREL.PRED "_desahucio_n_rel" ]. desaire_n1 := n_intr_count_le & [ STEM < "desaire" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desaire_n_rel" ] ]. desajustar_v := v_trans_np_caus_le & [ STEM < "desajustar" >, SYNSEM.LKEYS.KEYREL.PRED "_desajustar_v_rel" ]. desajuste_n1 := n_trans_le & [ STEM < "desajuste" >, SYNSEM.LKEYS.KEYREL.PRED "_desajuste_n_rel" ]. desalación_n1 := n_trans_le & [ STEM < "desalación" >, SYNSEM.LKEYS.KEYREL.PRED "_desalación_n_rel" ]. desalar_v := v_trans_np_le & [ STEM < "desalar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalar_v_rel" ]. desalentador_a1 := a_qual_intr_scopal_le & [ STEM < "desalentador" >, SYNSEM.LKEYS.KEYREL.PRED "_desalentador_a_rel" ]. desalentadoramente_x1 := av_i_spr_le & [ STEM < "desalentadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_desalentadoramente_x_rel" ]. desalentar_v1 := v_intr_io*_le & [ STEM < "desalentar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalentar_v_rel" ]. desalentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desalentar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalentar_v_rel" ]. desalienado_a1 := a_qual_intr_estar_le & [ STEM < "desalienado" >, SYNSEM.LKEYS.KEYREL.PRED "_desalienado_a_rel" ]. desaliento_n1 := n_intr_mass_le & [ STEM < "desaliento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desaliento_n_rel" ] ]. desalimentar_v := v_trans_np_le & [ STEM < "desalimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalimentar_v_rel" ]. desalineación_n1 := n_trans_le & [ STEM < "desalineación" >, SYNSEM.LKEYS.KEYREL.PRED "_desalineación_n_rel" ]. desalineamiento_n1 := n_trans_le & [ STEM < "desalineamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desalineamiento_n_rel" ]. desalinear_v := v_trans_np_caus_le & [ STEM < "desalinear" >, SYNSEM.LKEYS.KEYREL.PRED "_desalinear_v_rel" ]. desalinización_n1 := n_trans_le & [ STEM < "desalinización" >, SYNSEM.LKEYS.KEYREL.PRED "_desalinización_n_rel" ]. desalinizar_v := v_trans_np_le & [ STEM < "desalinizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalinizar_v_rel" ]. desalojamiento_n1 := n_trans_le & [ STEM < "desalojamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desalojamiento_n_rel" ]. desalojar_v := v_trans_np*_le & [ STEM < "desalojar" >, SYNSEM.LKEYS.KEYREL.PRED "_desalojar_v_rel" ]. desalojo_n1 := n_trans_le & [ STEM < "desalojo" >, SYNSEM.LKEYS.KEYREL.PRED "_desalojo_n_rel" ]. desaluminización_n1 := n_trans_le & [ STEM < "desaluminización" >, SYNSEM.LKEYS.KEYREL.PRED "_desaluminización_n_rel" ]. desaminasa_n1 := n_intr_count_le & [ STEM < "desaminasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_desaminasa_n_rel" ] ]. desamortización_n1 := n_trans_le & [ STEM < "desamortización" >, SYNSEM.LKEYS.KEYREL.PRED "_desamortización_n_rel" ]. desamortizar_v := v_trans_np_le & [ STEM < "desamortizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desamortizar_v_rel" ]. desamparado_n1 := n_intr_count_le & [ STEM < "desamparado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desamparado_n_rel" ] ]. desamparar_v := v_trans_np_le & [ STEM < "desamparar" >, SYNSEM.LKEYS.KEYREL.PRED "_desamparar_v_rel" ]. desamparo_n1 := n_trans_le & [ STEM < "desamparo" >, SYNSEM.LKEYS.KEYREL.PRED "_desamparo_n_rel" ]. desangelado_a1 := a_qual_intr_ser_le & [ STEM < "desangelado" >, SYNSEM.LKEYS.KEYREL.PRED "_desangelado_a_rel" ]. desangramiento_n1 := n_trans_le & [ STEM < "desangramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desangramiento_n_rel" ]. desangrar_v := v_trans_np_caus_le & [ STEM < "desangrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desangrar_v_rel" ]. desanimar_v1 := v_intr_io*_le & [ STEM < "desanimar" >, SYNSEM.LKEYS.KEYREL.PRED "_desanimar_v_rel" ]. desanimar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desanimar" >, SYNSEM.LKEYS.KEYREL.PRED "_desanimar_v_rel" ]. desanimar_v3 := v_trans_np_caus_le & [ STEM < "desanimar" >, SYNSEM.LKEYS.KEYREL.PRED "_desanimar_v_rel" ]. desapacible_a1 := a_qual_intr_scopal_le & [ STEM < "desapacible" >, SYNSEM.LKEYS.KEYREL.PRED "_desapacible_a_rel" ]. desaparecer_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desaparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desaparecer_v_rel" ] ] ]. desaparecer_v2 := v_intr_mrkd_np*_le & [ STEM < "desaparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desaparecer_v_rel" ] ]. desaparecido_n1 := n_intr_count_le & [ STEM < "desaparecido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desaparecido_n_rel" ] ]. desaparejar_v := v_trans_np_le & [ STEM < "desaparejar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_pot, PRED "_desaparejar_v_rel" ] ]. desaparición_n1 := n_event-result_intr_le & [ STEM < "desaparición" >, SYNSEM.LKEYS.KEYREL.PRED "_desaparición_n_rel" ]. desapasionadamente_x1 := av_i_spr_le & [ STEM < "desapasionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desapasionadamente_x_rel" ]. desapasionar_v1 := v_intr_io*_le & [ STEM < "desapasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desapasionar_v_rel" ]. desapasionar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desapasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desapasionar_v_rel" ]. desapego_n1 := n_trans_le & [ STEM < "desapego" >, SYNSEM.LKEYS.KEYREL.PRED "_desapego_n_rel" ]. desaprender_v2 := v_pron_trans_np_le & [ STEM < "desaprender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_desaprender_v_rel" ] ]. desaprender_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "desaprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desaprender_v_rel" ] ]. desaprender_v4 := v_trans_cp_semi_ques_le & [ STEM < "desaprender" >, SYNSEM.LKEYS.KEYREL.PRED "_desaprender_v_rel" ]. desaprender_v5 := v_trans_np_le & [ STEM < "desaprender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_desaprender_v_rel" ] ]. desaprensivo_a1 := a_qual_intr_ser_le & [ STEM < "desaprensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_desaprensivo_a_rel" ]. desaprensión_n1 := n_intr_mass_le & [ STEM < "desaprensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desaprensión_n_rel" ] ]. desaprobación_n1 := n_trans_le & [ STEM < "desaprobación" >, SYNSEM.LKEYS.KEYREL.PRED "_desaprobación_n_rel" ]. desaprobador_a1 := a_rel_nonprd_intr_le & [ STEM < "desaprobador" >, SYNSEM.LKEYS.KEYREL.PRED "_desaprobador_a_rel" ]. desaprobar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "desaprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desaprobar_v_rel" ] ]. desaprobar_v2 := v_trans_np_le & [ STEM < "desaprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desaprobar_v_rel" ] ]. desaprovechar_v := v_trans_np_le & [ STEM < "desaprovechar" >, SYNSEM.LKEYS.KEYREL.PRED "_desaprovechar_v_rel" ]. desarenador_n1 := n_intr_count_le & [ STEM < "desarenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desarenador_n_rel" ] ]. desarmar_v1 := v_intr_io*_le & [ STEM < "desarmar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarmar_v_rel" ]. desarmar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desarmar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarmar_v_rel" ]. desarmar_v3 := v_trans_np_caus_le & [ STEM < "desarmar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarmar_v_rel" ]. desarme_n1 := n_trans_le & [ STEM < "desarme" >, SYNSEM.LKEYS.KEYREL.PRED "_desarme_n_rel" ]. desarme_n2 := n_intr_count_le & [ STEM < "desarme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desarme_n_rel" ] ]. desarraigar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "desarraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarraigar_v_rel" ]. desarraigar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "desarraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarraigar_v_rel" ]. desarraigo_n1 := n_trans_le & [ STEM < "desarraigo" >, SYNSEM.LKEYS.KEYREL.PRED "_desarraigo_n_rel" ]. desarreglo_n1 := n_trans_le & [ STEM < "desarreglo" >, SYNSEM.LKEYS.KEYREL.PRED "_desarreglo_n_rel" ]. desarrollable_a1 := a_rel_nonprd_intr_le & [ STEM < "desarrollable" >, SYNSEM.LKEYS.KEYREL.PRED "_desarrollable_a_rel" ]. desarrollador_n1 := n_subj-nom_le & [ STEM < "desarrollador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desarrollador_n_rel" ] ]. desarrollar_v := v_trans_np_caus_le & [ STEM < "desarrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_desarrollar_v_rel" ]. desarrollismo_n1 := n_intr_uncount_le & [ STEM < "desarrollismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desarrollismo_n_rel" ] ]. desarrollo_n1 := n_trans_le & [ STEM < "desarrollo" >, SYNSEM.LKEYS.KEYREL.PRED "_desarrollo_n_rel" ]. desarticulación_n1 := n_trans_le & [ STEM < "desarticulación" >, SYNSEM.LKEYS.KEYREL.PRED "_desarticulación_n_rel" ]. desarticular_v := v_trans_np_caus_le & [ STEM < "desarticular" >, SYNSEM.LKEYS.KEYREL.PRED "_desarticular_v_rel" ]. desasfaltización_n1 := n_trans_le & [ STEM < "desasfaltización" >, SYNSEM.LKEYS.KEYREL.PRED "_desasfaltización_n_rel" ]. desasimilación_n1 := n_trans_le & [ STEM < "desasimilación" >, SYNSEM.LKEYS.KEYREL.PRED "_desasimilación_n_rel" ]. desasosegar_v1 := v_intr_io*_le & [ STEM < "desasosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_desasosegar_v_rel" ]. desasosegar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desasosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_desasosegar_v_rel" ]. desasosiego_n1 := n_intr_mass_le & [ STEM < "desasosiego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desasosiego_n_rel" ] ]. desastrado_a1 := a_qual_intr_ser_le & [ STEM < "desastrado" >, SYNSEM.LKEYS.KEYREL.PRED "_desastrado_a_rel" ]. desastre_n1 := n_intr_count_le & [ STEM < "desastre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desastre_n_rel" ] ]. desastrosamente_x1 := av_i_spr_le & [ STEM < "desastrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desastrosamente_x_rel" ]. desastroso_a1 := a_qual_intr_scopal_le & [ STEM < "desastroso" >, SYNSEM.LKEYS.KEYREL.PRED "_desastroso_a_rel" ]. desatar_v1 := v_pron_intr_le & [ STEM < "desatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatar_v_rel" ]. desatar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "desatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatar_v_rel" ]. desatar_v3 := v_trans_np_le & [ STEM < "desatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatar_v_rel" ]. desatascador_n1 := n_intr_count_le & [ STEM < "desatascador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desatascador_n_rel" ] ]. desatascar_v := v_trans_np_caus_le & [ STEM < "desatascar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatascar_v_rel" ]. desatención_n1 := n_trans_le & [ STEM < "desatención" >, SYNSEM.LKEYS.KEYREL.PRED "_desatención_n_rel" ]. desatender_v := v_trans_np_le & [ STEM < "desatender" >, SYNSEM.LKEYS.KEYREL.PRED "_desatender_v_rel" ]. desatentamente_x1 := av_i_spr_le & [ STEM < "desatentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desatentamente_x_rel" ]. desatento_a1 := a_qual_trans*_estar_le & [ STEM < "desatento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desatento_a_rel" ] ]. desatento_a2 := a_qual_trans*_ser_le & [ STEM < "desatento" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_desatento_a_rel" ] ]. desatino_n1 := n_trans_le & [ STEM < "desatino" >, SYNSEM.LKEYS.KEYREL.PRED "_desatino_n_rel" ]. desatornillar_v := v_trans_np_le & [ STEM < "desatornillar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatornillar_v_rel" ]. desatracar_v1 := v_pron_trans_np_le & [ STEM < "desatracar" >, SYNSEM.LKEYS [ KEYREL [ ARG2.SORT cnc_hum_loc_pot_soc, PRED "_desatracar_v_rel" ] ] ]. desatracar_v2 := v_intr_mrkd_np*_le & [ STEM < "desatracar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT cnc_pot, PRED "_desatracar_v_rel" ] ] ]. desatrancar_v := v_trans_np_caus_le & [ STEM < "desatrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_desatrancar_v_rel" ]. desaturación_n1 := n_trans_le & [ STEM < "desaturación" >, SYNSEM.LKEYS.KEYREL.PRED "_desaturación_n_rel" ]. desautorizar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "desautorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desautorizar_v_rel" ] ]. desautorizar_v2 := v_trans_np_le & [ STEM < "desautorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desautorizar_v_rel" ] ]. desavenencia_n1 := n_intr_count_le & [ STEM < "desavenencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desavenencia_n_rel" ] ]. desayunar_v := v_trans_np*_le & [ STEM < "desayunar" >, SYNSEM.LKEYS.KEYREL.PRED "_desayunar_v_rel" ]. desayuno_n1 := n_intr_uncount_le & [ STEM < "desayuno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desayuno_n_rel" ] ]. desayuno_n2 := n_result_intr_le & [ STEM < "desayuno" >, SYNSEM.LKEYS.KEYREL.PRED "_desayuno_n_rel" ]. desazonar_v1 := v_intr_io*_le & [ STEM < "desazonar" >, SYNSEM.LKEYS.KEYREL.PRED "_desazonar_v_rel" ]. desazonar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desazonar" >, SYNSEM.LKEYS.KEYREL.PRED "_desazonar_v_rel" ]. desazón_n1 := n_intr_mass_le & [ STEM < "desazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desazón_n_rel" ] ]. desbalanceadamente_x1 := av_i_spr_le & [ STEM < "desbalanceadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desbalanceadamente_x_rel" ]. desbancar_v := v_trans_np_le & [ STEM < "desbancar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbancar_v_rel" ]. desbandada_n1 := n_event-result_intr_le & [ STEM < "desbandada" >, SYNSEM.LKEYS.KEYREL.PRED "_desbandada_n_rel" ]. desbandar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desbandar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desbandar_v_rel" ] ] ]. desbandar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desbandar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desbandar_v_rel" ] ] ]. desbarajuste_n1 := n_trans_le & [ STEM < "desbarajuste" >, SYNSEM.LKEYS.KEYREL.PRED "_desbarajuste_n_rel" ]. desbaratamiento_n1 := n_intr_mass_le & [ STEM < "desbaratamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desbaratamiento_n_rel" ] ]. desbaratar_v1 := v_trans_np_caus_le & [ STEM < "desbaratar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbaratar_v_rel" ]. desbarbado_n1 := n_event-result_intr_le & [ STEM < "desbarbado" >, SYNSEM.LKEYS.KEYREL.PRED "_desbarbado_n_rel" ]. desbarbadora_n1 := n_intr_count_le & [ STEM < "desbarbadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desbarbadora_n_rel" ] ]. desbastar_v1 := v_trans_np_le & [ STEM < "desbastar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbastar_v_rel" ]. desbaste_n1 := n_trans_le & [ STEM < "desbaste" >, SYNSEM.LKEYS.KEYREL.PRED "_desbaste_n_rel" ]. desbloquear_v := v_trans_np_caus_le & [ STEM < "desbloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_desbloquear_v_rel" ]. desbloqueo_n1 := n_trans_le & [ STEM < "desbloqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_desbloqueo_n_rel" ]. desbobinador_n1 := n_intr_count_le & [ STEM < "desbobinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desbobinador_n_rel" ] ]. desbobinar_v := v_trans_np_le & [ STEM < "desbobinar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbobinar_v_rel" ]. desbocamiento_n1 := n_trans_le & [ STEM < "desbocamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desbocamiento_n_rel" ]. desbocar_v := v_trans_np_caus_le & [ STEM < "desbocar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbocar_v_rel" ]. desbordamiento_n1 := n_trans_le & [ STEM < "desbordamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desbordamiento_n_rel" ]. desbordante_a1 := a_qual_intr_scopal_le & [ STEM < "desbordante" >, SYNSEM.LKEYS.KEYREL.PRED "_desbordante_a_rel" ]. desbordantemente_x1 := av_i_spr_le & [ STEM < "desbordantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desbordantemente_x_rel" ]. desbridar_v := v_trans_np_le & [ STEM < "desbridar" >, SYNSEM.LKEYS.KEYREL.PRED "_desbridar_v_rel" ]. desbroce_n1 := n_trans_le & [ STEM < "desbroce" >, SYNSEM.LKEYS.KEYREL.PRED "_desbroce_n_rel" ]. desbrozador_n1 := n_intr_count_le & [ STEM < "desbrozador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desbrozador_n_rel" ] ]. desbrozadora_n1 := n_intr_count_le & [ STEM < "desbrozadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desbrozadora_n_rel" ] ]. desbrozo_n1 := n_trans_le & [ STEM < "desbrozo" >, SYNSEM.LKEYS.KEYREL.PRED "_desbrozo_n_rel" ]. descafeinar_v := v_trans_np_le & [ STEM < "descafeinar" >, SYNSEM.LKEYS.KEYREL.PRED "_descafeinar_v_rel" ]. descalabro_n1 := n_trans_le & [ STEM < "descalabro" >, SYNSEM.LKEYS.KEYREL.PRED "_descalabro_n_rel" ]. descalcificación_n1 := n_trans_le & [ STEM < "descalcificación" >, SYNSEM.LKEYS.KEYREL.PRED "_descalcificación_n_rel" ]. descalcificar_v := v_trans_np_caus_le & [ STEM < "descalcificar" >, SYNSEM.LKEYS.KEYREL.PRED "_descalcificar_v_rel" ]. descalificación_n1 := n_trans_le & [ STEM < "descalificación" >, SYNSEM.LKEYS.KEYREL.PRED "_descalificación_n_rel" ]. descalificante_a1 := a_qual_intr_scopal_le & [ STEM < "descalificante" >, SYNSEM.LKEYS.KEYREL.PRED "_descalificante_a_rel" ]. descalzo_a1 := a_qual_intr_estar_le & [ STEM < "descalzo" >, SYNSEM.LKEYS.KEYREL.PRED "_descalzo_a_rel" ]. descamación_n1 := n_trans_le & [ STEM < "descamación" >, SYNSEM.LKEYS.KEYREL.PRED "_descamación_n_rel" ]. descamar_v := v_trans_np_caus_le & [ STEM < "descamar" >, SYNSEM.LKEYS.KEYREL.PRED "_descamar_v_rel" ]. descamativo_a1 := a_rel_nonprd_intr_le & [ STEM < "descamativo" >, SYNSEM.LKEYS.KEYREL.PRED "_descamativo_a_rel" ]. descampado_n1 := n_intr_count_le & [ STEM < "descampado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_descampado_n_rel" ] ]. descansar_v1 := v_intr_mrkd_np*_le & [ STEM < "descansar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_descansar_v_rel" ] ]. descansar_v2 := v_trans_np_lcomp_loc*_le & [ STEM < "descansar" >, SYNSEM.LKEYS.KEYREL.PRED "_descansar_v_rel" ]. descansar_v3 := v_unacc_lcomp_loc_le & [ STEM < "descansar" >, SYNSEM.LKEYS.KEYREL.PRED "_descansar_v_rel" ]. descansillo_n1 := n_intr_count_le & [ STEM < "descansillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_descansillo_n_rel" ] ]. descanso_n1 := n_result_intr_le & [ STEM < "descanso" >, SYNSEM.LKEYS.KEYREL.PRED "_descanso_n_rel" ]. descapitalización_n1 := n_trans_le & [ STEM < "descapitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_descapitalización_n_rel" ]. descapotable_a1 := a_rel_nonprd_intr_le & [ STEM < "descapotable" >, SYNSEM.LKEYS.KEYREL.PRED "_descapotable_a_rel" ]. descapotable_n1 := n_intr_count_le & [ STEM < "descapotable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descapotable_n_rel" ] ]. descaradamente_x1 := av_i_spr_le & [ STEM < "descaradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descaradamente_x_rel" ]. descarbonatación_n1 := n_trans_le & [ STEM < "descarbonatación" >, SYNSEM.LKEYS.KEYREL.PRED "_descarbonatación_n_rel" ]. descarbonizar_v := v_trans_np_caus_le & [ STEM < "descarbonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_descarbonizar_v_rel" ]. descarburación_n1 := n_trans_le & [ STEM < "descarburación" >, SYNSEM.LKEYS.KEYREL.PRED "_descarburación_n_rel" ]. descarga_n1 := n_trans_le & [ STEM < "descarga" >, SYNSEM.LKEYS.KEYREL.PRED "_descarga_n_rel" ]. descargadero_n1 := n_intr_count_le & [ STEM < "descargadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descargadero_n_rel" ] ]. descargador_n1 := n_intr_count_le & [ STEM < "descargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_descargador_n_rel" ] ]. descargo_n1 := n_trans_le & [ STEM < "descargo" >, SYNSEM.LKEYS.KEYREL.PRED "_descargo_n_rel" ]. descarnador_n1 := n_intr_count_le & [ STEM < "descarnador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descarnador_n_rel" ] ]. descarriar_v := v_trans_np_caus_int_le & [ STEM < "descarriar" >, SYNSEM.LKEYS.KEYREL.PRED "_descarriar_v_rel" ]. descarrilamiento_n1 := n_event-result_intr_le & [ STEM < "descarrilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_descarrilamiento_n_rel" ]. descartar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "descartar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_descartar_v_rel" ] ]. descartar_v2 := v_trans_np_le & [ STEM < "descartar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_descartar_v_rel" ] ]. descarte_n1 := n_trans_le & [ STEM < "descarte" >, SYNSEM.LKEYS.KEYREL.PRED "_descarte_n_rel" ]. descascaradora_n1 := n_intr_count_le & [ STEM < "descascaradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descascaradora_n_rel" ] ]. descascarilladora_n1 := n_intr_count_le & [ STEM < "descascarilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descascarilladora_n_rel" ] ]. descascarillar_v := v_trans_np_caus_le & [ STEM < "descascarillar" >, SYNSEM.LKEYS.KEYREL.PRED "_descascarillar_v_rel" ]. descemetitis_n1 := n_intr_uncount_le & [ STEM < "descemetitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descemetitis_n_rel" ] ]. descendencia_n1 := n_intr_uncount_pl_le & [ STEM < "descendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descendencia_n_rel" ] ]. descendente_a1 := a_rel_nonprd_intr_le & [ STEM < "descendente" >, SYNSEM.LKEYS.KEYREL.PRED "_descendente_a_rel" ]. descender_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "descender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_descender_v_rel" ] ] ]. descender_v2 := v_intr_mrkd_np_le & [ STEM < "descender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_descender_v_rel" ] ]. descender_v3 := v_unacc_lcomp_dir*_perf_le & [ STEM < "descender" >, SYNSEM.LKEYS.KEYREL.PRED "_descender_v_rel" ]. descendiente_n1 := n_intr_count_le & [ STEM < "descendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_descendiente_n_rel" ] ]. descendimiento_n1 := n_event-result_intr_le & [ STEM < "descendimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_descendimiento_n_rel" ]. descenso_n1 := n_event-result_intr_le & [ STEM < "descenso" >, SYNSEM.LKEYS.KEYREL.PRED "_descenso_n_rel" ]. descentradamente_x1 := av_i_spr_le & [ STEM < "descentradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descentradamente_x_rel" ]. descentralización_n1 := n_trans_le & [ STEM < "descentralización" >, SYNSEM.LKEYS.KEYREL.PRED "_descentralización_n_rel" ]. descentralizadamente_x1 := av_i_spr_le & [ STEM < "descentralizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descentralizadamente_x_rel" ]. descentralizador_a1 := a_rel_nonprd_intr_le & [ STEM < "descentralizador" >, SYNSEM.LKEYS.KEYREL.PRED "_descentralizador_a_rel" ]. descentralizar_v := v_trans_np_caus_le & [ STEM < "descentralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_descentralizar_v_rel" ]. descentrar_v := v_trans_np_caus_le & [ STEM < "descentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_descentrar_v_rel" ]. descentrar_v1 := v_intr_io*_le & [ STEM < "descentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_descentrar_v_rel" ]. descentrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "descentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_descentrar_v_rel" ]. descerrajadura_n1 := n_trans_le & [ STEM < "descerrajadura" >, SYNSEM.LKEYS.KEYREL.PRED "_descerrajadura_n_rel" ]. descerrejar_v := v_ditrans*_le & [ STEM < "descerrejar" >, SYNSEM.LKEYS.KEYREL.PRED "_descerrejar_v_rel" ]. descifrable_a1 := a_rel_prd_le & [ STEM < "descifrable" >, SYNSEM.LKEYS.KEYREL.PRED "_descifrable_a_rel" ]. descifrador_n1 := n_intr_count_le & [ STEM < "descifrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descifrador_n_rel" ] ]. descifrador_n2 := n_subj-nom_le & [ STEM < "descifrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_descifrador_n_rel" ] ]. desciframiento_n1 := n_trans_le & [ STEM < "desciframiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desciframiento_n_rel" ]. descifrar_v := v_trans_np_le & [ STEM < "descifrar" >, SYNSEM.LKEYS.KEYREL.PRED "_descifrar_v_rel" ]. desclasificación_n1 := n_trans_le & [ STEM < "desclasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desclasificación_n_rel" ]. desclorar_v := v_trans_np_le & [ STEM < "desclorar" >, SYNSEM.LKEYS.KEYREL.PRED "_desclorar_v_rel" ]. descodificación_n1 := n_trans_le & [ STEM < "descodificación" >, SYNSEM.LKEYS.KEYREL.PRED "_descodificación_n_rel" ]. descodificador_n1 := n_intr_count_le & [ STEM < "descodificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_descodificador_n_rel" ] ]. descodificar_v := v_trans_np_le & [ STEM < "descodificar" >, SYNSEM.LKEYS.KEYREL.PRED "_descodificar_v_rel" ]. descolgar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "descolgar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_descolgar_v_rel" ] ] ]. descolgar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "descolgar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_descolgar_v_rel" ] ] ]. descolgar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "descolgar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_descolgar_v_rel" ] ]. descollar_v := v_unacc_perf_le & [ STEM < "descollar" >, SYNSEM.LKEYS.KEYREL.PRED "_descollar_v_rel" ]. descolmataje_n1 := n_trans_le & [ STEM < "descolmataje" >, SYNSEM.LKEYS.KEYREL.PRED "_descolmataje_n_rel" ]. descolonización_n1 := n_intr_count_le & [ STEM < "descolonización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descolonización_n_rel" ] ]. descolonizar_v := v_trans_np_le & [ STEM < "descolonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_descolonizar_v_rel" ]. descoloramiento_n1 := n_trans_le & [ STEM < "descoloramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_descoloramiento_n_rel" ]. descolorar_v := v_trans_np_caus_le & [ STEM < "descolorar" >, SYNSEM.LKEYS.KEYREL.PRED "_descolorar_v_rel" ]. descolorir_v := v_trans_np_caus_le & [ STEM < "descolorir" >, SYNSEM.LKEYS.KEYREL.PRED "_descolorir_v_rel" ]. descombro_n1 := n_intr_count_le & [ STEM < "descombro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descombro_n_rel" ] ]. descompensar_v := v_trans_np_le & [ STEM < "descompensar" >, SYNSEM.LKEYS.KEYREL.PRED "_descompensar_v_rel" ]. descompilar_v := v_trans_np_le & [ STEM < "descompilar" >, SYNSEM.LKEYS.KEYREL.PRED "_descompilar_v_rel" ]. descomponedor_n1 := n_intr_count_le & [ STEM < "descomponedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descomponedor_n_rel" ] ]. descomponer_v1 := v_intr_io*_le & [ STEM < "descomponer" >, SYNSEM.LKEYS.KEYREL.PRED "_descomponer_v_rel" ]. descomponer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "descomponer" >, SYNSEM.LKEYS.KEYREL.PRED "_descomponer_v_rel" ]. descomponer_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "descomponer" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_descomponer_v_rel" ] ]. descomponible_a1 := a_qual_trans*_ser_le & [ STEM < "descomponible" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_descomponible_a_rel" ] ]. descomposición_n1 := n_trans_le & [ STEM < "descomposición" >, SYNSEM.LKEYS.KEYREL.PRED "_descomposición_n_rel" ]. descompositor_n1 := n_intr_count_le & [ STEM < "descompositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descompositor_n_rel" ] ]. descompostura_n1 := n_intr_mass_le & [ STEM < "descompostura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descompostura_n_rel" ] ]. descompresión_n1 := n_trans_le & [ STEM < "descompresión" >, SYNSEM.LKEYS.KEYREL.PRED "_descompresión_n_rel" ]. descompresor_n1 := n_intr_count_le & [ STEM < "descompresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descompresor_n_rel" ] ]. descomprimir_v := v_trans_np_caus_le & [ STEM < "descomprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_descomprimir_v_rel" ]. descomunal_a1 := a_qual_intr_scopal_le & [ STEM < "descomunal" >, SYNSEM.LKEYS.KEYREL.PRED "_descomunal_a_rel" ]. descomunalmente_x1 := av_i_spr_le & [ STEM < "descomunalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_descomunalmente_x_rel" ]. desconcentración_n1 := n_result_intr_le & [ STEM < "desconcentración" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcentración_n_rel" ]. desconcentrador_n1 := n_intr_count_le & [ STEM < "desconcentrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desconcentrador_n_rel" ] ]. desconcentrar_v1 := v_intr_io*_le & [ STEM < "desconcentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcentrar_v_rel" ]. desconcentrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desconcentrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcentrar_v_rel" ]. desconcertador_a1 := a_qual_intr_scopal_le & [ STEM < "desconcertador" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcertador_a_rel" ]. desconcertante_a1 := a_qual_intr_scopal_le & [ STEM < "desconcertante" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcertante_a_rel" ]. desconcertar_v1 := v_intr_io*_le & [ STEM < "desconcertar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcertar_v_rel" ]. desconcertar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desconcertar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcertar_v_rel" ]. desconcertar_v3 := v_trans_np_caus_le & [ STEM < "desconcertar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconcertar_v_rel" ]. desconchado_n1 := n_trans_le & [ STEM < "desconchado" >, SYNSEM.LKEYS.KEYREL.PRED "_desconchado_n_rel" ]. desconchar_v := v_trans_np_caus_le & [ STEM < "desconchar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconchar_v_rel" ]. desconcierto_n1 := n_intr_mass_le & [ STEM < "desconcierto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desconcierto_n_rel" ] ]. descondicionamiento_n1 := n_trans_le & [ STEM < "descondicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_descondicionamiento_n_rel" ]. desconectable_a1 := a_rel_nonprd_intr_le & [ STEM < "desconectable" >, SYNSEM.LKEYS.KEYREL.PRED "_desconectable_a_rel" ]. desconectador_n1 := n_intr_count_le & [ STEM < "desconectador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desconectador_n_rel" ] ]. desconexión_n1 := n_trans_le & [ STEM < "desconexión" >, SYNSEM.LKEYS.KEYREL.PRED "_desconexión_n_rel" ]. desconfiadamente_x1 := av_i_spr_le & [ STEM < "desconfiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desconfiadamente_x_rel" ]. desconfianza_n1 := n_intr_mass_le & [ STEM < "desconfianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desconfianza_n_rel" ] ]. desconfiar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desconfiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_desconfiar_v_rel" ] ] ]. desconfiar_v2 := v_intr_mrkd_np*_le & [ STEM < "desconfiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_desconfiar_v_rel" ] ] ]. desconfigurar_v := v_trans_np_le & [ STEM < "desconfigurar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconfigurar_v_rel" ]. descongelación_n1 := n_trans_le & [ STEM < "descongelación" >, SYNSEM.LKEYS.KEYREL.PRED "_descongelación_n_rel" ]. descongelador_n1 := n_intr_count_le & [ STEM < "descongelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_descongelador_n_rel" ] ]. descongelar_v := v_trans_np_caus_le & [ STEM < "descongelar" >, SYNSEM.LKEYS.KEYREL.PRED "_descongelar_v_rel" ]. descongestionante_n1 := n_intr_mass_le & [ STEM < "descongestionante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_descongestionante_n_rel" ] ]. descongestionar_v := v_trans_np_caus_le & [ STEM < "descongestionar" >, SYNSEM.LKEYS.KEYREL.PRED "_descongestionar_v_rel" ]. descongestión_n1 := n_trans_le & [ STEM < "descongestión" >, SYNSEM.LKEYS.KEYREL.PRED "_descongestión_n_rel" ]. desconocer_v := v_trans_cp_semi_ques_le & [ STEM < "desconocer" >, SYNSEM.LKEYS.KEYREL.PRED "_desconocer_v_rel" ]. desconocido_n1 := n_intr_count_le & [ STEM < "desconocido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desconocido_n_rel" ] ]. desconocimiento_n1 := n_trans_le & [ STEM < "desconocimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desconocimiento_n_rel" ]. desconsideración_n1 := n_trans_le & [ STEM < "desconsideración" >, SYNSEM.LKEYS.KEYREL.PRED "_desconsideración_n_rel" ]. desconsiderar_v := v_trans_np_le & [ STEM < "desconsiderar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconsiderar_v_rel" ]. desconsolador_a1 := a_qual_intr_scopal_le & [ STEM < "desconsolador" >, SYNSEM.LKEYS.KEYREL.PRED "_desconsolador_a_rel" ]. desconsolar_v1 := v_intr_io*_le & [ STEM < "desconsolar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconsolar_v_rel" ]. desconsolar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "desconsolar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desconsolar_v_rel" ] ] ]. desconsolar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "desconsolar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desconsolar_v_rel" ] ] ]. desconsolar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desconsolar" >, SYNSEM.LKEYS.KEYREL.PRED "_desconsolar_v_rel" ]. desconsuelo_n1 := n_intr_mass_le & [ STEM < "desconsuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desconsuelo_n_rel" ] ]. descontable_a1 := a_rel_prd_le & [ STEM < "descontable" >, SYNSEM.LKEYS.KEYREL.PRED "_descontable_a_rel" ]. descontaminación_n1 := n_trans_le & [ STEM < "descontaminación" >, SYNSEM.LKEYS.KEYREL.PRED "_descontaminación_n_rel" ]. descontaminador_a1 := a_rel_nonprd_intr_le & [ STEM < "descontaminador" >, SYNSEM.LKEYS.KEYREL.PRED "_descontaminador_a_rel" ]. descontaminar_v := v_trans_np_le & [ STEM < "descontaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_descontaminar_v_rel" ]. descontar_v1 := v_ditrans*_le & [ STEM < "descontar" >, SYNSEM.LKEYS.KEYREL.PRED "_descontar_v_rel" ]. descontar_v2 := v_trans_np_mrkd_np_le & [ STEM < "descontar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_descontar_v_rel" ] ]. descontentar_v1 := v_intr_io*_le & [ STEM < "descontentar" >, SYNSEM.LKEYS.KEYREL.PRED "_descontentar_v_rel" ]. descontentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "descontentar" >, SYNSEM.LKEYS.KEYREL.PRED "_descontentar_v_rel" ]. descontento_a1 := a_qual_trans_estar_le & [ STEM < "descontento" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_descontento_a_rel" ] ]. descontento_n1 := n_intr_mass_le & [ STEM < "descontento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descontento_n_rel" ] ]. descontextualizar_v := v_trans_np_le & [ STEM < "descontextualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_descontextualizar_v_rel" ]. descontroladamente_x1 := av_i_spr_le & [ STEM < "descontroladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descontroladamente_x_rel" ]. desconvocar_v := v_trans_np_le & [ STEM < "desconvocar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro_sem, PRED "_desconvocar_v_rel" ] ]. descoordinación_n1 := n_intr_mass_le & [ STEM < "descoordinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descoordinación_n_rel" ] ]. descorazonador_a1 := a_qual_intr_scopal_le & [ STEM < "descorazonador" >, SYNSEM.LKEYS.KEYREL.PRED "_descorazonador_a_rel" ]. descorazonamiento_n1 := n_intr_uncount_le & [ STEM < "descorazonamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descorazonamiento_n_rel" ] ]. descorazonar_v1 := v_intr_io*_le & [ STEM < "descorazonar" >, SYNSEM.LKEYS.KEYREL.PRED "_descorazonar_v_rel" ]. descorazonar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "descorazonar" >, SYNSEM.LKEYS.KEYREL.PRED "_descorazonar_v_rel" ]. descorchar_v := v_trans_np_le & [ STEM < "descorchar" >, SYNSEM.LKEYS.KEYREL.PRED "_descorchar_v_rel" ]. descorche_n1 := n_trans_le & [ STEM < "descorche" >, SYNSEM.LKEYS.KEYREL.PRED "_descorche_n_rel" ]. descornadora_n1 := n_intr_count_le & [ STEM < "descornadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descornadora_n_rel" ] ]. descoronadora_n1 := n_intr_count_le & [ STEM < "descoronadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descoronadora_n_rel" ] ]. descorrer_v := v_trans_np_le & [ STEM < "descorrer" >, SYNSEM.LKEYS.KEYREL.PRED "_descorrer_v_rel" ]. descortesía_n1 := n_intr_mass-or-count_le & [ STEM < "descortesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descortesía_n_rel" ] ]. descortezadora_n1 := n_intr_count_le & [ STEM < "descortezadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_descortezadora_n_rel" ] ]. descortezar_v := v_trans_np_caus_le & [ STEM < "descortezar" >, SYNSEM.LKEYS.KEYREL.PRED "_descortezar_v_rel" ]. descortés_a1 := a_qual_intr_ser_le & [ STEM < "descortés" >, SYNSEM.LKEYS.KEYREL.PRED "_descortés_a_rel" ]. descortésmente_x1 := av_i_spr_le & [ STEM < "descortésmente" >, SYNSEM.LKEYS.KEYREL.PRED "_descortésmente_x_rel" ]. descoser_v := v_trans_np_caus_le & [ STEM < "descoser" >, SYNSEM.LKEYS.KEYREL.PRED "_descoser_v_rel" ]. descreído_a1 := a_qual_intr_ser_le & [ STEM < "descreído" >, SYNSEM.LKEYS.KEYREL.PRED "_descreído_a_rel" ]. describir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "describir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_describir_v_rel" ] ]. describir_v2 := v_ditrans*_le & [ STEM < "describir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_describir_v_rel" ] ]. descriminalización_n1 := n_trans_le & [ STEM < "descriminalización" >, SYNSEM.LKEYS.KEYREL.PRED "_descriminalización_n_rel" ]. descripción_n1 := n_trans_le & [ STEM < "descripción" >, SYNSEM.LKEYS.KEYREL.PRED "_descripción_n_rel" ]. descriptible_a1 := a_rel_prd_le & [ STEM < "descriptible" >, SYNSEM.LKEYS.KEYREL.PRED "_descriptible_a_rel" ]. descriptivamente_x1 := av_i_spr_le & [ STEM < "descriptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descriptivamente_x_rel" ]. descriptivismo_n1 := n_intr_uncount_le & [ STEM < "descriptivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descriptivismo_n_rel" ] ]. descriptivista_a1 := a_rel_nonprd_intr_le & [ STEM < "descriptivista" >, SYNSEM.LKEYS.KEYREL.PRED "_descriptivista_a_rel" ]. descriptivista_n1 := n_intr_count_le & [ STEM < "descriptivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_descriptivista_n_rel" ] ]. descriptivo_a1 := a_qual_intr_scopal_le & [ STEM < "descriptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_descriptivo_a_rel" ]. descriptor_a1 := a_rel_nonprd_intr_le & [ STEM < "descriptor" >, SYNSEM.LKEYS.KEYREL.PRED "_descriptor_a_rel" ]. descriptor_n1 := n_intr_count_le & [ STEM < "descriptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_descriptor_n_rel" ] ]. descrito_a1 := a_qual_intr_estar_le & [ STEM < "descrito" >, SYNSEM.LKEYS.KEYREL.PRED "_descrito_a_rel" ]. descrédito_n1 := n_intr_uncount_le & [ STEM < "descrédito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_descrédito_n_rel" ] ]. descuajo_n1 := n_trans_le & [ STEM < "descuajo" >, SYNSEM.LKEYS.KEYREL.PRED "_descuajo_n_rel" ]. descuarajingar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "descuarajingar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_descuarajingar_v_rel" ] ] ]. descuarajingar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "descuarajingar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_descuarajingar_v_rel" ] ] ]. descuartizar_v := v_trans_np_le & [ STEM < "descuartizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc_hum_soc, PRED "_descuartizar_v_rel" ] ]. descubierta_n1 := n_intr_count_le & [ STEM < "descubierta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_descubierta_n_rel" ] ]. descubierto_a1 := a_qual_intr_scopal_le & [ STEM < "descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_descubierto_a_rel" ]. descubridor_n1 := n_subj-nom_le & [ STEM < "descubridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_descubridor_n_rel" ] ]. descubrimiento_n1 := n_trans_le & [ STEM < "descubrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_descubrimiento_n_rel" ]. descubrir_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "descubrir" >, SYNSEM.LKEYS.KEYREL.PRED "_descubrir_v_rel" ]. descubrir_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "descubrir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_descubrir_v_rel" ] ] ]. descubrir_v3 := v_trans_cp_prop_fin_le & [ STEM < "descubrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_descubrir_v_rel" ] ]. descubrir_v4 := v_trans_cp_semi_ques_le & [ STEM < "descubrir" >, SYNSEM.LKEYS.KEYREL.PRED "_descubrir_v_rel" ]. descubrir_v5 := v_trans_np_le & [ STEM < "descubrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_descubrir_v_rel" ] ]. descubrir_v6 := v_trans_np_mrkd_np_le & [ STEM < "descubrir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_descubrir_v_rel" ] ]. descuento_n1 := n_trans_le & [ STEM < "descuento" >, SYNSEM.LKEYS.KEYREL.PRED "_descuento_n_rel" ]. descuidadamente_x1 := av_i_spr_le & [ STEM < "descuidadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_descuidadamente_x_rel" ]. descuido_n1 := n_trans_le & [ STEM < "descuido" >, SYNSEM.LKEYS.KEYREL.PRED "_descuido_n_rel" ]. desde_cero_x1 := av_i_le & [ STEM < "desde_cero" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_cero_x_rel" ]. desde_el_momento_en_que_sc := sc_prop_fin_le & [ STEM < "desde_el_momento_en_que" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_el_momento_en_que_x_subord_rel" ]. desde_luego_x1 := av_i_le & [ STEM < "desde_luego" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_luego_x_rel" ]. desde_niño_x1 := av_i_le & [ STEM < "desde_niño" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_niño_x_rel" ]. desde_p_nmod := p_nmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _desde_p_rel ]. desde_p_pmod := p_orig_pmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _desde_p_rel ]. desde_p_pp_vmod := p_pp_vmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _desde_p_rel ]. desde_p_temp_vmod := p_temp_vmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _desde_p_temp_rel ]. desde_p_vmod := p_vmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _desde_p_rel ]. desde_que_el_mundo_es_mundo_x1 := av_i_le & [ STEM < "desde_que_el_mundo_es_mundo" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_que_el_mundo_es_mundo_x_rel" ]. desde_sc := p_cp_prop_fin_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED "_desde_x_subord_rel" ]. desdecir_v1 := v_intr_mrkd_np_le & [ STEM < "desdecir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desdecir_v_rel" ] ]. desdecir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desdecir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desdecir_v_rel" ] ]. desdeñable_a1 := a_qual_intr_scopal_le & [ STEM < "desdeñable" >, SYNSEM.LKEYS.KEYREL.PRED "_desdeñable_a_rel" ]. desdeñar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "desdeñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desdeñar_v_rel" ] ]. desdeñar_v2 := v_trans_np_le & [ STEM < "desdeñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_desdeñar_v_rel" ] ]. desdeñosamente_x1 := av_i_spr_le & [ STEM < "desdeñosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desdeñosamente_x_rel" ]. desdeñoso_a1 := a_qual_intr_ser_le & [ STEM < "desdeñoso" >, SYNSEM.LKEYS.KEYREL.PRED "_desdeñoso_a_rel" ]. desdibujar_v := v_trans_np_caus_le & [ STEM < "desdibujar" >, SYNSEM.LKEYS.KEYREL.PRED "_desdibujar_v_rel" ]. desdicha_n1 := n_intr_uncount_le & [ STEM < "desdicha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desdicha_n_rel" ] ]. desdichado_a1 := a_qual_intr_ser_le & [ STEM < "desdichado" >, SYNSEM.LKEYS.KEYREL.PRED "_desdichado_a_rel" ]. desdoblamiento_n1 := n_trans_le & [ STEM < "desdoblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desdoblamiento_n_rel" ]. desdoblar_v := v_trans_np_caus_le & [ STEM < "desdoblar" >, SYNSEM.LKEYS.KEYREL.PRED "_desdoblar_v_rel" ]. desdén_n1 := n_intr_mass_le & [ STEM < "desdén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desdén_n_rel" ] ]. deseable_a1 := a_qual_intr_scopal_le & [ STEM < "deseable" >, SYNSEM.LKEYS.KEYREL.PRED "_deseable_a_rel" ]. desear_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "desear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desear_v_rel" ] ]. desear_v2 := v_ditrans*_le & [ STEM < "desear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_desear_v_rel" ] ]. desecación_n1 := n_trans_le & [ STEM < "desecación" >, SYNSEM.LKEYS.KEYREL.PRED "_desecación_n_rel" ]. desecador_a1 := a_rel_nonprd_intr_le & [ STEM < "desecador" >, SYNSEM.LKEYS.KEYREL.PRED "_desecador_a_rel" ]. desecador_n1 := n_intr_count_le & [ STEM < "desecador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desecador_n_rel" ] ]. desecante_n1 := n_intr_mass_le & [ STEM < "desecante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desecante_n_rel" ] ]. desecar_v := v_trans_np_caus_le & [ STEM < "desecar" >, SYNSEM.LKEYS.KEYREL.PRED "_desecar_v_rel" ]. desechable_a1 := a_rel_prd_le & [ STEM < "desechable" >, SYNSEM.LKEYS.KEYREL.PRED "_desechable_a_rel" ]. desechar_v := v_trans_np_le & [ STEM < "desechar" >, SYNSEM.LKEYS.KEYREL.PRED "_desechar_v_rel" ]. desecho_n1 := n_intr_count_le & [ STEM < "desecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desecho_n_rel" ] ]. deseconomía_n1 := n_intr_count_le & [ STEM < "deseconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deseconomía_n_rel" ] ]. deseleccionar_v := v_trans_np_le & [ STEM < "deseleccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_deseleccionar_v_rel" ]. deselectrizar_v := v_trans_np_le & [ STEM < "deselectrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_deselectrizar_v_rel" ]. desembalar_v := v_trans_np*_le & [ STEM < "desembalar" >, SYNSEM.LKEYS.KEYREL.PRED "_desembalar_v_rel" ]. desembarcadero_n1 := n_intr_count_le & [ STEM < "desembarcadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_desembarcadero_n_rel" ] ]. desembarcar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desembarcar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desembarcar_v_rel" ] ] ]. desembarcar_v2 := v_intr_mrkd_np_le & [ STEM < "desembarcar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desembarcar_v_rel" ] ] ]. desembarcar_v3 := v_trans_np*_le & [ STEM < "desembarcar" >, SYNSEM.LKEYS.KEYREL.PRED "_desembarcar_v_rel" ]. desembarco_n1 := n_event-result_intr_le & [ STEM < "desembarco" >, SYNSEM.LKEYS.KEYREL.PRED "_desembarco_n_rel" ]. desembarque_n1 := n_result_intr_ppcomp_le & [ STEM < "desembarque" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_desembarque_n_rel" ] ]. desembarque_n2 := n_trans_le & [ STEM < "desembarque" >, SYNSEM.LKEYS.KEYREL.PRED "_desembarque_n_rel" ]. desembocadura_n1 := n_intr_count_le & [ STEM < "desembocadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desembocadura_n_rel" ] ]. desembocar_v := v_unacc_lcomp_loc*_le & [ STEM < "desembocar" >, SYNSEM.LKEYS.KEYREL.PRED "_desembocar_v_rel" ]. desembolsar_v := v_trans_np_le & [ STEM < "desembolsar" >, SYNSEM.LKEYS.KEYREL.PRED "_desembolsar_v_rel" ]. desembolso_n1 := n_trans_le & [ STEM < "desembolso" >, SYNSEM.LKEYS.KEYREL.PRED "_desembolso_n_rel" ]. desembragable_a1 := a_rel_nonprd_intr_le & [ STEM < "desembragable" >, SYNSEM.LKEYS.KEYREL.PRED "_desembragable_a_rel" ]. desembragar_v := v_trans_np*_le & [ STEM < "desembragar" >, SYNSEM.LKEYS.KEYREL.PRED "_desembragar_v_rel" ]. desembrague_n1 := n_trans_le & [ STEM < "desembrague" >, SYNSEM.LKEYS.KEYREL.PRED "_desembrague_n_rel" ]. desemejante_a1 := a_rel_prd_le & [ STEM < "desemejante" >, SYNSEM.LKEYS.KEYREL.PRED "_desemejante_a_rel" ]. desemejanza_n1 := n_intr_count_le & [ STEM < "desemejanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desemejanza_n_rel" ] ]. desempaquetar_v := v_trans_np*_le & [ STEM < "desempaquetar" >, SYNSEM.LKEYS.KEYREL.PRED "_desempaquetar_v_rel" ]. desemparejar_v := v_trans_np_caus_le & [ STEM < "desemparejar" >, SYNSEM.LKEYS.KEYREL.PRED "_desemparejar_v_rel" ]. desempatar_v := v_trans_np*_le & [ STEM < "desempatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desempatar_v_rel" ]. desempate_n1 := n_trans_le & [ STEM < "desempate" >, SYNSEM.LKEYS.KEYREL.PRED "_desempate_n_rel" ]. desempañar_v := v_trans_np_caus_le & [ STEM < "desempañar" >, SYNSEM.LKEYS.KEYREL.PRED "_desempañar_v_rel" ]. desempeñar_v := v_trans_np_lcomp_dir*_caus_le & [ STEM < "desempeñar" >, SYNSEM.LKEYS.KEYREL.PRED "_desempeñar_v_rel" ]. desempeño_n1 := n_trans_le & [ STEM < "desempeño" >, SYNSEM.LKEYS.KEYREL.PRED "_desempeño_n_rel" ]. desempleo_n1 := n_intr_mass_le & [ STEM < "desempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desempleo_n_rel" ] ]. desempolvador_n1 := n_intr_count_le & [ STEM < "desempolvador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desempolvador_n_rel" ] ]. desempolvar_v := v_trans_np_le & [ STEM < "desempolvar" >, SYNSEM.LKEYS.KEYREL.PRED "_desempolvar_v_rel" ]. desencadenamiento_n1 := n_trans_le & [ STEM < "desencadenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desencadenamiento_n_rel" ]. desencadenante_a1 := a_rel_nonprd_intr_le & [ STEM < "desencadenante" >, SYNSEM.LKEYS.KEYREL.PRED "_desencadenante_a_rel" ]. desencadenar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desencadenar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencadenar_v_rel" ]. desencadenar_v2 := v_trans_np_caus_le & [ STEM < "desencadenar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencadenar_v_rel" ]. desencallamiento_n1 := n_trans_le & [ STEM < "desencallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desencallamiento_n_rel" ]. desencaminar_v := v_trans_np_caus_le & [ STEM < "desencaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencaminar_v_rel" ]. desencantar_v1 := v_intr_io*_le & [ STEM < "desencantar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencantar_v_rel" ]. desencantar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desencantar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencantar_v_rel" ]. desencantar_v3 := v_trans_np_le & [ STEM < "desencantar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_desencantar_v_rel" ] ]. desencanto_n1 := n_intr_uncount_le & [ STEM < "desencanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desencanto_n_rel" ] ]. desenchufable_a1 := a_rel_nonprd_intr_le & [ STEM < "desenchufable" >, SYNSEM.LKEYS.KEYREL.PRED "_desenchufable_a_rel" ]. desenchufar_v := v_trans_np_le & [ STEM < "desenchufar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenchufar_v_rel" ]. desenclavar_v := v_trans_np_le & [ STEM < "desenclavar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenclavar_v_rel" ]. desencuadernar_v := v_trans_np_le & [ STEM < "desencuadernar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencuadernar_v_rel" ]. desencuadrar_v := v_trans_np_caus_le & [ STEM < "desencuadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desencuadrar_v_rel" ]. desenfadadamente_x1 := av_i_spr_le & [ STEM < "desenfadadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfadadamente_x_rel" ]. desenfadar_v := v_pron_intr_le & [ STEM < "desenfadar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfadar_v_rel" ]. desenfado_n1 := n_intr_mass_le & [ STEM < "desenfado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desenfado_n_rel" ] ]. desenfardelar_v := v_trans_np_le & [ STEM < "desenfardelar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfardelar_v_rel" ]. desenfilamiento_n1 := n_trans_le & [ STEM < "desenfilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfilamiento_n_rel" ]. desenfocar_v := v_trans_np_caus_le & [ STEM < "desenfocar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfocar_v_rel" ]. desenfoque_n1 := n_trans_le & [ STEM < "desenfoque" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfoque_n_rel" ]. desenfrenadamente_x1 := av_i_spr_le & [ STEM < "desenfrenadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfrenadamente_x_rel" ]. desenfrenar_v := v_trans_np_caus_le & [ STEM < "desenfrenar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_ani_hum, PRED "_desenfrenar_v_rel" ] ]. desenfreno_n1 := n_trans_le & [ STEM < "desenfreno" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfreno_n_rel" ]. desenfundar_v := v_trans_np*_le & [ STEM < "desenfundar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenfundar_v_rel" ]. desenganche_n1 := n_trans_le & [ STEM < "desenganche" >, SYNSEM.LKEYS.KEYREL.PRED "_desenganche_n_rel" ]. desengaño_n1 := n_intr_count_le & [ STEM < "desengaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desengaño_n_rel" ] ]. desengrasante_a1 := a_rel_nonprd_intr_le & [ STEM < "desengrasante" >, SYNSEM.LKEYS.KEYREL.PRED "_desengrasante_a_rel" ]. desengrasante_n1 := n_intr_count_le & [ STEM < "desengrasante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desengrasante_n_rel" ] ]. desengrasar_v := v_trans_np*_le & [ STEM < "desengrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_desengrasar_v_rel" ]. desengrase_n1 := n_trans_le & [ STEM < "desengrase" >, SYNSEM.LKEYS.KEYREL.PRED "_desengrase_n_rel" ]. desenjaular_v := v_trans_np_le & [ STEM < "desenjaular" >, SYNSEM.LKEYS.KEYREL.PRED "_desenjaular_v_rel" ]. desenlace_n1 := n_trans_le & [ STEM < "desenlace" >, SYNSEM.LKEYS.KEYREL.PRED "_desenlace_n_rel" ]. desenmarañamiento_n1 := n_trans_le & [ STEM < "desenmarañamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desenmarañamiento_n_rel" ]. desenmarañar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desenmarañar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenmarañar_v_rel" ]. desenmarañar_v2 := v_trans_np_le & [ STEM < "desenmarañar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenmarañar_v_rel" ]. desenmascarar_v := v_trans_np_caus_le & [ STEM < "desenmascarar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenmascarar_v_rel" ]. desenredar_v := v_trans_np_caus_le & [ STEM < "desenredar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenredar_v_rel" ]. desenredar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desenredar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenredar_v_rel" ]. desenrollador_n1 := n_intr_count_le & [ STEM < "desenrollador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desenrollador_n_rel" ] ]. desenrollamiento_n1 := n_trans_le & [ STEM < "desenrollamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desenrollamiento_n_rel" ]. desenrollar_v := v_trans_np_caus_le & [ STEM < "desenrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenrollar_v_rel" ]. desenroscar_v := v_trans_np_caus_le & [ STEM < "desenroscar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenroscar_v_rel" ]. desensamblador_n1 := n_intr_count_le & [ STEM < "desensamblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desensamblador_n_rel" ] ]. desensamblar_v := v_trans_np_caus_le & [ STEM < "desensamblar" >, SYNSEM.LKEYS.KEYREL.PRED "_desensamblar_v_rel" ]. desensibilización_n1 := n_intr_mass_le & [ STEM < "desensibilización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desensibilización_n_rel" ] ]. desensibilizar_v := v_trans_np_caus_le & [ STEM < "desensibilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desensibilizar_v_rel" ]. desensiladora_n1 := n_intr_count_le & [ STEM < "desensiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desensiladora_n_rel" ] ]. desensillar_v := v_trans_np_le & [ STEM < "desensillar" >, SYNSEM.LKEYS.KEYREL.PRED "_desensillar_v_rel" ]. desentender_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "desentender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desentender_v_rel" ] ] ]. desentender_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desentender" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desentender_v_rel" ] ] ]. desenterrar_v := v_trans_np_le & [ STEM < "desenterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desenterrar_v_rel" ]. desentonar_v := v_intr_mrkd_np*_le & [ STEM < "desentonar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_desentonar_v_rel" ] ]. desentrañar_v := v_trans_np_le & [ STEM < "desentrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_desentrañar_v_rel" ]. desenvainar_v := v_trans_np_le & [ STEM < "desenvainar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_desenvainar_v_rel" ] ]. desenvoltura_n1 := n_intr_mass_le & [ STEM < "desenvoltura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desenvoltura_n_rel" ] ]. desenvolver_v1 := v_pron_intr_le & [ STEM < "desenvolver" >, SYNSEM.LKEYS.KEYREL.PRED "_desenvolver_v_rel" ]. desenvolver_v2 := v_trans_np_caus_le & [ STEM < "desenvolver" >, SYNSEM.LKEYS.KEYREL.PRED "_desenvolver_v_rel" ]. desenvolvimiento_n1 := n_trans_le & [ STEM < "desenvolvimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desenvolvimiento_n_rel" ]. desenvueltamente_x1 := av_i_spr_le & [ STEM < "desenvueltamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desenvueltamente_x_rel" ]. deseo_n1 := n_trans_le & [ STEM < "deseo" >, SYNSEM.LKEYS.KEYREL.PRED "_deseo_n_rel" ]. deseoso_a1 := a_qual_trans_estar_le & [ STEM < "deseoso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deseoso_a_rel" ] ]. deseoso_a2 := a_qual_cp_prop_fin_estar_le & [ STEM < "deseoso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deseoso_a_rel" ] ]. deseoso_a3 := a_sctrl_estar_le & [ STEM < "deseoso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deseoso_a_rel" ] ]. desequilibradamente_x1 := av_i_spr_le & [ STEM < "desequilibradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desequilibradamente_x_rel" ]. desequilibrante_a1 := a_rel_nonprd_intr_le & [ STEM < "desequilibrante" >, SYNSEM.LKEYS.KEYREL.PRED "_desequilibrante_a_rel" ]. desequilibrar_v1 := v_intr_io*_le & [ STEM < "desequilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desequilibrar_v_rel" ]. desequilibrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desequilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desequilibrar_v_rel" ]. desequilibrar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "desequilibrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_desequilibrar_v_rel" ] ]. desequilibrar_v4 := v_trans_np_le & [ STEM < "desequilibrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_desequilibrar_v_rel" ] ]. desequilibrio_n1 := n_intr_mass_le & [ STEM < "desequilibrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desequilibrio_n_rel" ] ]. deserción_n1 := n_result_intr_le & [ STEM < "deserción" >, SYNSEM.LKEYS.KEYREL.PRED "_deserción_n_rel" ]. deserpidina_n1 := n_intr_count_le & [ STEM < "deserpidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_deserpidina_n_rel" ] ]. desertar_v1 := v_intr_mrkd_np*_le & [ STEM < "desertar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desertar_v_rel" ] ]. desertificación_n1 := n_event-result_intr_le & [ STEM < "desertificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desertificación_n_rel" ]. desertificación_n2 := n_trans_le & [ STEM < "desertificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desertificación_n_rel" ]. desertización_n1 := n_trans_le & [ STEM < "desertización" >, SYNSEM.LKEYS.KEYREL.PRED "_desertización_n_rel" ]. desertor_n1 := n_subj-nom_le & [ STEM < "desertor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desertor_n_rel" ] ]. desescarchar_v := v_trans_np_le & [ STEM < "desescarchar" >, SYNSEM.LKEYS.KEYREL.PRED "_desescarchar_v_rel" ]. desescombro_n1 := n_intr_count_le & [ STEM < "desescombro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desescombro_n_rel" ] ]. desesperación_n1 := n_intr_mass_le & [ STEM < "desesperación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desesperación_n_rel" ] ]. desesperadamente_x1 := av_i_spr_le & [ STEM < "desesperadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperadamente_x_rel" ]. desesperante_a1 := a_qual_intr_scopal_le & [ STEM < "desesperante" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperante_a_rel" ]. desesperantemente_x1 := av_i_spr_le & [ STEM < "desesperantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperantemente_x_rel" ]. desesperanzar_v1 := v_intr_io*_le & [ STEM < "desesperanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperanzar_v_rel" ]. desesperanzar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desesperanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperanzar_v_rel" ]. desesperar_v1 := v_intr_io*_le & [ STEM < "desesperar" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperar_v_rel" ]. desesperar_v2 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "desesperar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desesperar_v_rel" ] ]. desesperar_v3 := v_intr_mrkd_np*_le & [ STEM < "desesperar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desesperar_v_rel" ] ]. desesperar_v4 := v_pron_intr_le & [ STEM < "desesperar" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperar_v_rel" ]. desesperar_v5 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "desesperar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desesperar_v_rel" ] ] ]. desesperar_v6 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desesperar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desesperar_v_rel" ] ] ]. desesperar_v7 := v_pron_intr_mrkd_np_le & [ STEM < "desesperar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desesperar_v_rel" ] ] ]. desesperar_v8 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desesperar" >, SYNSEM.LKEYS.KEYREL.PRED "_desesperar_v_rel" ]. desespero_n1 := n_intr_uncount_pl_le & [ STEM < "desespero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desespero_n_rel" ] ]. desestabilizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desestabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desestabilizar_v_rel" ]. desestabilizar_v2 := v_trans_np_caus_le & [ STEM < "desestabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desestabilizar_v_rel" ]. desestimación_n1 := n_trans_le & [ STEM < "desestimación" >, SYNSEM.LKEYS.KEYREL.PRED "_desestimación_n_rel" ]. desestimar_v := v_trans_np_le & [ STEM < "desestimar" >, SYNSEM.LKEYS.KEYREL.PRED "_desestimar_v_rel" ]. desestimatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "desestimatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_desestimatorio_a_rel" ]. desexualización_n1 := n_trans_le & [ STEM < "desexualización" >, SYNSEM.LKEYS.KEYREL.PRED "_desexualización_n_rel" ]. desfalcador_n1 := n_subj-nom_le & [ STEM < "desfalcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desfalcador_n_rel" ] ]. desfalcar_v := v_trans_np_le & [ STEM < "desfalcar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfalcar_v_rel" ]. desfalco_n1 := n_trans_le & [ STEM < "desfalco" >, SYNSEM.LKEYS.KEYREL.PRED "_desfalco_n_rel" ]. desfallecimiento_n1 := n_event-result_intr_le & [ STEM < "desfallecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desfallecimiento_n_rel" ]. desfasar_v := v_trans_np_le & [ STEM < "desfasar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfasar_v_rel" ]. desfase_n1 := n_trans_le & [ STEM < "desfase" >, SYNSEM.LKEYS.KEYREL.PRED "_desfase_n_rel" ]. desfavorable_a1 := a_qual_trans*_ser_le & [ STEM < "desfavorable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desfavorable_a_rel" ] ]. desfavorable_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "desfavorable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desfavorable_a_rel" ] ]. desfavorablemente_x1 := av_i_spr_le & [ STEM < "desfavorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desfavorablemente_x_rel" ]. desfavorecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desfavorecer" >, SYNSEM.LKEYS.KEYREL.PRED "_desfavorecer_v_rel" ]. desfavorecer_v2 := v_trans_np_le & [ STEM < "desfavorecer" >, SYNSEM.LKEYS.KEYREL.PRED "_desfavorecer_v_rel" ]. desferroxiamina_n1 := n_intr_count_le & [ STEM < "desferroxiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desferroxiamina_n_rel" ] ]. desfibrador_a1 := a_rel_nonprd_intr_le & [ STEM < "desfibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_desfibrador_a_rel" ]. desfibramiento_n1 := n_trans_le & [ STEM < "desfibramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desfibramiento_n_rel" ]. desfibrar_v := v_trans_np_le & [ STEM < "desfibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfibrar_v_rel" ]. desfibrinación_n1 := n_intr_uncount_le & [ STEM < "desfibrinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desfibrinación_n_rel" ] ]. desfiguración_n1 := n_trans_le & [ STEM < "desfiguración" >, SYNSEM.LKEYS.KEYREL.PRED "_desfiguración_n_rel" ]. desfiguramiento_n1 := n_trans_le & [ STEM < "desfiguramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desfiguramiento_n_rel" ]. desfigurar_v := v_trans_np_caus_le & [ STEM < "desfigurar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfigurar_v_rel" ]. desfiladero_n1 := n_intr_count_le & [ STEM < "desfiladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_desfiladero_n_rel" ] ]. desfilar_v := v_intr_le & [ STEM < "desfilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desfilar_v_rel" ] ]. desfile_n1 := n_result_intr_le & [ STEM < "desfile" >, SYNSEM.LKEYS.KEYREL.PRED "_desfile_n_rel" ]. desflemador_n1 := n_intr_count_le & [ STEM < "desflemador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desflemador_n_rel" ] ]. desfogar_v1 := v_pron_intr_le & [ STEM < "desfogar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfogar_v_rel" ]. desfogar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "desfogar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_en_p_sel_rel, KEYREL.PRED "_desfogar_v_rel" ] ]. desfondable_a1 := a_qual_intr_ser_le & [ STEM < "desfondable" >, SYNSEM.LKEYS.KEYREL.PRED "_desfondable_a_rel" ]. desfondablemente_x1 := av_i_spr_le & [ STEM < "desfondablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desfondablemente_x_rel" ]. desfondamiento_n1 := n_trans_le & [ STEM < "desfondamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desfondamiento_n_rel" ]. desfonologización_n1 := n_trans_le & [ STEM < "desfonologización" >, SYNSEM.LKEYS.KEYREL.PRED "_desfonologización_n_rel" ]. desforestación_n1 := n_trans_le & [ STEM < "desforestación" >, SYNSEM.LKEYS.KEYREL.PRED "_desforestación_n_rel" ]. desfosforación_n1 := n_trans_le & [ STEM < "desfosforación" >, SYNSEM.LKEYS.KEYREL.PRED "_desfosforación_n_rel" ]. desfosforización_n1 := n_trans_le & [ STEM < "desfosforización" >, SYNSEM.LKEYS.KEYREL.PRED "_desfosforización_n_rel" ]. desfosforizar_v := v_trans_np_caus_le & [ STEM < "desfosforizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desfosforizar_v_rel" ]. desfragmentación_n1 := n_trans_le & [ STEM < "desfragmentación" >, SYNSEM.LKEYS.KEYREL.PRED "_desfragmentación_n_rel" ]. desgana_n1 := n_intr_uncount_le & [ STEM < "desgana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desgana_n_rel" ] ]. desgarbado_a1 := a_qual_intr_ser_le & [ STEM < "desgarbado" >, SYNSEM.LKEYS.KEYREL.PRED "_desgarbado_a_rel" ]. desgarrador_a1 := a_qual_intr_scopal_le & [ STEM < "desgarrador" >, SYNSEM.LKEYS.KEYREL.PRED "_desgarrador_a_rel" ]. desgarrar_v1 := v_intr_io*_le & [ STEM < "desgarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgarrar_v_rel" ]. desgarrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desgarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgarrar_v_rel" ]. desgarrar_v3 := v_trans_np_caus_le & [ STEM < "desgarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgarrar_v_rel" ]. desgarro_n1 := n_intr_count_le & [ STEM < "desgarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desgarro_n_rel" ] ]. desgarrón_n1 := n_intr_count_le & [ STEM < "desgarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desgarrón_n_rel" ] ]. desgasificación_n1 := n_trans_le & [ STEM < "desgasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desgasificación_n_rel" ]. desgasificador_n1 := n_intr_count_le & [ STEM < "desgasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desgasificador_n_rel" ] ]. desgasificar_v := v_trans_np_caus_le & [ STEM < "desgasificar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgasificar_v_rel" ]. desgastador_a1 := a_rel_nonprd_intr_le & [ STEM < "desgastador" >, SYNSEM.LKEYS.KEYREL.PRED "_desgastador_a_rel" ]. desgastar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desgastar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgastar_v_rel" ]. desgastar_v2 := v_trans_np_caus_le & [ STEM < "desgastar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgastar_v_rel" ]. desgaste_n1 := n_trans_le & [ STEM < "desgaste" >, SYNSEM.LKEYS.KEYREL.PRED "_desgaste_n_rel" ]. desgañitar_v := v_pron_intr_le & [ STEM < "desgañitar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgañitar_v_rel" ]. desglosar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "desglosar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_desglosar_v_rel" ] ]. desglose_n1 := n_trans_le & [ STEM < "desglose" >, SYNSEM.LKEYS.KEYREL.PRED "_desglose_n_rel" ]. desgobierno_n1 := n_intr_uncount_le & [ STEM < "desgobierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desgobierno_n_rel" ] ]. desgracia_n1 := n_intr_uncount_pl_le & [ STEM < "desgracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desgracia_n_rel" ] ]. desgraciadamente_x1 := av_s_spr_le & [ STEM < "desgraciadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desgraciadamente_x_rel" ]. desgraciado_n1 := n_intr_count_le & [ STEM < "desgraciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desgraciado_n_rel" ] ]. desgraciar_v := v_trans_np_le & [ STEM < "desgraciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgraciar_v_rel" ]. desgranadora_n1 := n_intr_count_le & [ STEM < "desgranadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desgranadora_n_rel" ] ]. desgranamiento_n1 := n_trans_le & [ STEM < "desgranamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desgranamiento_n_rel" ]. desgranar_v := v_trans_np_caus_le & [ STEM < "desgranar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgranar_v_rel" ]. desgranulación_n1 := n_trans_le & [ STEM < "desgranulación" >, SYNSEM.LKEYS.KEYREL.PRED "_desgranulación_n_rel" ]. desgrapadora_n1 := n_intr_count_le & [ STEM < "desgrapadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desgrapadora_n_rel" ] ]. desgrasar_v := v_trans_np*_le & [ STEM < "desgrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgrasar_v_rel" ]. desgravable_a1 := a_rel_nonprd_intr_le & [ STEM < "desgravable" >, SYNSEM.LKEYS.KEYREL.PRED "_desgravable_a_rel" ]. desgravación_n1 := n_trans_le & [ STEM < "desgravación" >, SYNSEM.LKEYS.KEYREL.PRED "_desgravación_n_rel" ]. desgravamen_n1 := n_intr_uncount_pl_le & [ STEM < "desgravamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desgravamen_n_rel" ] ]. desgreñar_v := v_trans_np_le & [ STEM < "desgreñar" >, SYNSEM.LKEYS.KEYREL.PRED "_desgreñar_v_rel" ]. desguace_n1 := n_trans_le & [ STEM < "desguace" >, SYNSEM.LKEYS.KEYREL.PRED "_desguace_n_rel" ]. desguarnecer_v := v_trans_np_mrkd_np*_le & [ STEM < "desguarnecer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desguarnecer_v_rel" ] ]. desgüace_n1 := n_trans_le & [ STEM < "desgüace" >, SYNSEM.LKEYS.KEYREL.PRED "_desgüace_n_rel" ]. deshabitar_v := v_trans_np_le & [ STEM < "deshabitar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshabitar_v_rel" ]. deshacer_v1 := v_intr_io*_le & [ STEM < "deshacer" >, SYNSEM.LKEYS.KEYREL.PRED "_deshacer_v_rel" ]. deshacer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "deshacer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_deshacer_v_rel" ] ]. deshacer_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "deshacer" >, SYNSEM.LKEYS.KEYREL.PRED "_deshacer_v_rel" ]. deshacer_v4 := v_trans_np_caus_le & [ STEM < "deshacer" >, SYNSEM.LKEYS.KEYREL.PRED "_deshacer_v_rel" ]. deshederación_n1 := n_trans_le & [ STEM < "deshederación" >, SYNSEM.LKEYS.KEYREL.PRED "_deshederación_n_rel" ]. deshelar_v := v_unacc_perf_le & [ STEM < "deshelar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshelar_v_rel" ]. desherbadora_n1 := n_intr_count_le & [ STEM < "desherbadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desherbadora_n_rel" ] ]. desherbar_v := v_trans_np_caus_le & [ STEM < "desherbar" >, SYNSEM.LKEYS.KEYREL.PRED "_desherbar_v_rel" ]. desheredación_n1 := n_trans_le & [ STEM < "desheredación" >, SYNSEM.LKEYS.KEYREL.PRED "_desheredación_n_rel" ]. desheredar_v := v_trans_np_le & [ STEM < "desheredar" >, SYNSEM.LKEYS.KEYREL.PRED "_desheredar_v_rel" ]. deshidratación_n1 := n_trans_le & [ STEM < "deshidratación" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidratación_n_rel" ]. deshidratador_n1 := n_intr_count_le & [ STEM < "deshidratador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deshidratador_n_rel" ] ]. deshidratadora_n1 := n_intr_count_le & [ STEM < "deshidratadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deshidratadora_n_rel" ] ]. deshidratante_a1 := a_rel_nonprd_intr_le & [ STEM < "deshidratante" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidratante_a_rel" ]. deshidratar_v := v_trans_np_caus_le & [ STEM < "deshidratar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidratar_v_rel" ]. deshidrogenación_n1 := n_trans_le & [ STEM < "deshidrogenación" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidrogenación_n_rel" ]. deshidrogenar_v := v_trans_np_caus_le & [ STEM < "deshidrogenar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidrogenar_v_rel" ]. deshidrogenización_n1 := n_trans_le & [ STEM < "deshidrogenización" >, SYNSEM.LKEYS.KEYREL.PRED "_deshidrogenización_n_rel" ]. deshielo_n1 := n_trans_le & [ STEM < "deshielo" >, SYNSEM.LKEYS.KEYREL.PRED "_deshielo_n_rel" ]. deshilachar_v := v_trans_np_caus_le & [ STEM < "deshilachar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshilachar_v_rel" ]. deshilar_v := v_trans_np_caus_le & [ STEM < "deshilar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshilar_v_rel" ]. deshilvanar_v := v_trans_np_le & [ STEM < "deshilvanar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshilvanar_v_rel" ]. deshinchar_v := v_trans_np_caus_le & [ STEM < "deshinchar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshinchar_v_rel" ]. deshojar_v := v_trans_np_caus_le & [ STEM < "deshojar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshojar_v_rel" ]. deshollinador_n1 := n_intr_count_le & [ STEM < "deshollinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deshollinador_n_rel" ] ]. deshollinador_n2 := n_subj-nom_le & [ STEM < "deshollinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deshollinador_n_rel" ] ]. deshonestamente_x1 := av_i_spr_le & [ STEM < "deshonestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deshonestamente_x_rel" ]. deshonestidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "deshonestidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deshonestidad_n_rel" ] ]. deshonesto_a1 := a_qual_intr_ser_le & [ STEM < "deshonesto" >, SYNSEM.LKEYS.KEYREL.PRED "_deshonesto_a_rel" ]. deshonor_n1 := n_intr_uncount_pl_le & [ STEM < "deshonor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deshonor_n_rel" ] ]. deshonra_n1 := n_trans_le & [ STEM < "deshonra" >, SYNSEM.LKEYS.KEYREL.PRED "_deshonra_n_rel" ]. deshonrar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "deshonrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_soc, PRED "_deshonrar_v_rel" ] ]. deshonrar_v2 := v_trans_np_le & [ STEM < "deshonrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_soc, PRED "_deshonrar_v_rel" ] ]. deshonroso_a1 := a_qual_intr_scopal_le & [ STEM < "deshonroso" >, SYNSEM.LKEYS.KEYREL.PRED "_deshonroso_a_rel" ]. deshuesar_v := v_trans_np_le & [ STEM < "deshuesar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot, PRED "_deshuesar_v_rel" ] ]. deshumanización_n1 := n_trans_le & [ STEM < "deshumanización" >, SYNSEM.LKEYS.KEYREL.PRED "_deshumanización_n_rel" ]. deshumanizante_a1 := a_qual_intr_scopal_le & [ STEM < "deshumanizante" >, SYNSEM.LKEYS.KEYREL.PRED "_deshumanizante_a_rel" ]. deshumanizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "deshumanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshumanizar_v_rel" ]. deshumanizar_v2 := v_trans_np_caus_le & [ STEM < "deshumanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_deshumanizar_v_rel" ]. desiderativo_a1 := a_qual_intr_scopal_le & [ STEM < "desiderativo" >, SYNSEM.LKEYS.KEYREL.PRED "_desiderativo_a_rel" ]. desidia_n1 := n_intr_uncount_pl_le & [ STEM < "desidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desidia_n_rel" ] ]. desidioso_a1 := a_qual_intr_scopal_le & [ STEM < "desidioso" >, SYNSEM.LKEYS.KEYREL.PRED "_desidioso_a_rel" ]. desierto_a1 := a_qual_intr_estar_le & [ STEM < "desierto" >, SYNSEM.LKEYS.KEYREL.PRED "_desierto_a_rel" ]. desierto_n1 := n_intr_count_le & [ STEM < "desierto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_desierto_n_rel" ] ]. designación_n1 := n_trans_le & [ STEM < "designación" >, SYNSEM.LKEYS.KEYREL.PRED "_designación_n_rel" ]. designador_n1 := n_intr_count_le & [ STEM < "designador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_designador_n_rel" ] ]. designio_n1 := n_trans_le & [ STEM < "designio" >, SYNSEM.LKEYS.KEYREL.PRED "_designio_n_rel" ]. desigual_a1 := a_qual_trans*_ser_le & [ STEM < "desigual" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desigual_a_rel" ] ]. desigualar_v := v_trans_np_le & [ STEM < "desigualar" >, SYNSEM.LKEYS.KEYREL.PRED "_desigualar_v_rel" ]. desigualdad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "desigualdad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desigualdad_n_rel" ] ]. desilusionar_v1 := v_intr_io*_le & [ STEM < "desilusionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desilusionar_v_rel" ]. desilusionar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desilusionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desilusionar_v_rel" ]. desilusionar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "desilusionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desilusionar_v_rel" ]. desilusionar_v4 := v_trans_np_caus_le & [ STEM < "desilusionar" >, SYNSEM.LKEYS.KEYREL.PRED "_desilusionar_v_rel" ]. desilusión_n1 := n_result_intr_le & [ STEM < "desilusión" >, SYNSEM.LKEYS.KEYREL.PRED "_desilusión_n_rel" ]. desimanación_n1 := n_trans_le & [ STEM < "desimanación" >, SYNSEM.LKEYS.KEYREL.PRED "_desimanación_n_rel" ]. desimantación_n1 := n_trans_le & [ STEM < "desimantación" >, SYNSEM.LKEYS.KEYREL.PRED "_desimantación_n_rel" ]. desimantar_v := v_trans_np*_le & [ STEM < "desimantar" >, SYNSEM.LKEYS.KEYREL.PRED "_desimantar_v_rel" ]. desinapsis_n1 := n_intr_uncount_le & [ STEM < "desinapsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desinapsis_n_rel" ] ]. desincrustación_n1 := n_trans_le & [ STEM < "desincrustación" >, SYNSEM.LKEYS.KEYREL.PRED "_desincrustación_n_rel" ]. desincrustante_n1 := n_intr_mass_le & [ STEM < "desincrustante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desincrustante_n_rel" ] ]. desindustrialización_n1 := n_trans_le & [ STEM < "desindustrialización" >, SYNSEM.LKEYS.KEYREL.PRED "_desindustrialización_n_rel" ]. desinencia_n1 := n_intr_count_le & [ STEM < "desinencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desinencia_n_rel" ] ]. desinencial_a1 := a_rel_nonprd_intr_le & [ STEM < "desinencial" >, SYNSEM.LKEYS.KEYREL.PRED "_desinencial_a_rel" ]. desinfección_n1 := n_trans_le & [ STEM < "desinfección" >, SYNSEM.LKEYS.KEYREL.PRED "_desinfección_n_rel" ]. desinfectadora_n1 := n_intr_count_le & [ STEM < "desinfectadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desinfectadora_n_rel" ] ]. desinfectante_n1 := n_intr_mass_le & [ STEM < "desinfectante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desinfectante_n_rel" ] ]. desinfectar_v := v_trans_np_caus_le & [ STEM < "desinfectar" >, SYNSEM.LKEYS.KEYREL.PRED "_desinfectar_v_rel" ]. desinflacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "desinflacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflacionario_a_rel" ]. desinflacionista_a1 := a_rel_nonprd_intr_le & [ STEM < "desinflacionista" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflacionista_a_rel" ]. desinflación_n1 := n_trans_le & [ STEM < "desinflación" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflación_n_rel" ]. desinflar_v1 := v_intr_io*_le & [ STEM < "desinflar" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflar_v_rel" ]. desinflar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desinflar" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflar_v_rel" ]. desinflar_v3 := v_trans_np_caus_le & [ STEM < "desinflar" >, SYNSEM.LKEYS.KEYREL.PRED "_desinflar_v_rel" ]. desinformación_n1 := n_trans_le & [ STEM < "desinformación" >, SYNSEM.LKEYS.KEYREL.PRED "_desinformación_n_rel" ]. desinhibición_n1 := n_result_intr_le & [ STEM < "desinhibición" >, SYNSEM.LKEYS.KEYREL.PRED "_desinhibición_n_rel" ]. desinhibidamente_x1 := av_i_spr_le & [ STEM < "desinhibidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desinhibidamente_x_rel" ]. desinsectación_n1 := n_trans_le & [ STEM < "desinsectación" >, SYNSEM.LKEYS.KEYREL.PRED "_desinsectación_n_rel" ]. desinsectar_v := v_trans_np_le & [ STEM < "desinsectar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_desinsectar_v_rel" ] ]. desinsectización_n1 := n_trans_le & [ STEM < "desinsectización" >, SYNSEM.LKEYS.KEYREL.PRED "_desinsectización_n_rel" ]. desinstalar_v := v_trans_np_le & [ STEM < "desinstalar" >, SYNSEM.LKEYS.KEYREL.PRED "_desinstalar_v_rel" ]. desinstitucionalización_n1 := n_trans_le & [ STEM < "desinstitucionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_desinstitucionalización_n_rel" ]. desintegración_n1 := n_trans_le & [ STEM < "desintegración" >, SYNSEM.LKEYS.KEYREL.PRED "_desintegración_n_rel" ]. desintegrar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "desintegrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_desintegrar_v_rel" ] ]. desinteresadamente_x1 := av_i_spr_le & [ STEM < "desinteresadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desinteresadamente_x_rel" ]. desinterés_n1 := n_intr_mass_le & [ STEM < "desinterés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desinterés_n_rel" ] ]. desintoxicación_n1 := n_trans_le & [ STEM < "desintoxicación" >, SYNSEM.LKEYS.KEYREL.PRED "_desintoxicación_n_rel" ]. desintoxicar_v := v_trans_np_caus_le & [ STEM < "desintoxicar" >, SYNSEM.LKEYS.KEYREL.PRED "_desintoxicar_v_rel" ]. desinversión_n1 := n_trans_le & [ STEM < "desinversión" >, SYNSEM.LKEYS.KEYREL.PRED "_desinversión_n_rel" ]. desionización_n1 := n_trans_le & [ STEM < "desionización" >, SYNSEM.LKEYS.KEYREL.PRED "_desionización_n_rel" ]. desistimiento_n1 := n_result_intr_ppcomp_le & [ STEM < "desistimiento" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desistimiento_n_rel" ] ]. desistir_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "desistir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desistir_v_rel" ] ]. desistir_v2 := v_intr_mrkd_np*_le & [ STEM < "desistir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_desistir_v_rel" ] ]. desjudicialización_n1 := n_trans_le & [ STEM < "desjudicialización" >, SYNSEM.LKEYS.KEYREL.PRED "_desjudicialización_n_rel" ]. deslabazado_a1 := a_qual_intr_estar_le & [ STEM < "deslabazado" >, SYNSEM.LKEYS.KEYREL.PRED "_deslabazado_a_rel" ]. deslabialización_n1 := n_trans_le & [ STEM < "deslabialización" >, SYNSEM.LKEYS.KEYREL.PRED "_deslabialización_n_rel" ]. deslaminar_v := v_trans_np_le & [ STEM < "deslaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslaminar_v_rel" ]. deslavazado_a1 := a_qual_intr_estar_le & [ STEM < "deslavazado" >, SYNSEM.LKEYS.KEYREL.PRED "_deslavazado_a_rel" ]. desleal_a1 := a_qual_trans*_ser_le & [ STEM < "desleal" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desleal_a_rel" ] ]. deslealmente_x1 := av_i_spr_le & [ STEM < "deslealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_deslealmente_x_rel" ]. deslealtad_n1 := n_intr_mass-or-count_le & [ STEM < "deslealtad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deslealtad_n_rel" ] ]. desleã­r_v := v_trans_np_le & [ STEM < "desleír" >, SYNSEM.LKEYS.KEYREL.PRED "_desleír_v_rel" ]. desleído_a1 := a_qual_intr_ser_le & [ STEM < "desleído" >, SYNSEM.LKEYS.KEYREL.PRED "_desleído_a_rel" ]. deslindar_v := v_trans_np_le & [ STEM < "deslindar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslindar_v_rel" ]. deslinde_n1 := n_trans_le & [ STEM < "deslinde" >, SYNSEM.LKEYS.KEYREL.PRED "_deslinde_n_rel" ]. desliz_n1 := n_trans_le & [ STEM < "desliz" >, SYNSEM.LKEYS.KEYREL.PRED "_desliz_n_rel" ]. deslizable_a1 := a_qual_intr_scopal_le & [ STEM < "deslizable" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizable_a_rel" ]. deslizadera_n1 := n_trans_le & [ STEM < "deslizadera" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizadera_n_rel" ]. deslizador_a1 := a_rel_nonprd_intr_le & [ STEM < "deslizador" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizador_a_rel" ]. deslizadora_n1 := n_intr_count_le & [ STEM < "deslizadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_deslizadora_n_rel" ] ]. deslizamiento_n1 := n_trans_le & [ STEM < "deslizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizamiento_n_rel" ]. deslizante_a1 := a_qual_intr_scopal_le & [ STEM < "deslizante" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizante_a_rel" ]. deslizar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "deslizar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_deslizar_v_rel" ] ] ]. deslizar_v2 := v_pron_unacc_lcomp_dir*_perf_le & [ STEM < "deslizar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizar_v_rel" ]. deslizar_v3 := v_trans_np_le & [ STEM < "deslizar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslizar_v_rel" ]. deslucir_v := v_trans_np_le & [ STEM < "deslucir" >, SYNSEM.LKEYS.KEYREL.PRED "_deslucir_v_rel" ]. deslumbramiento_n1 := n_trans_le & [ STEM < "deslumbramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_deslumbramiento_n_rel" ]. deslumbrante_a1 := a_qual_intr_scopal_le & [ STEM < "deslumbrante" >, SYNSEM.LKEYS.KEYREL.PRED "_deslumbrante_a_rel" ]. deslumbrar_v1 := v_intr_io*_le & [ STEM < "deslumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslumbrar_v_rel" ]. deslumbrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "deslumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslumbrar_v_rel" ]. deslumbrar_v3 := v_trans_np*_le & [ STEM < "deslumbrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_deslumbrar_v_rel" ] ]. deslustración_n1 := n_trans_le & [ STEM < "deslustración" >, SYNSEM.LKEYS.KEYREL.PRED "_deslustración_n_rel" ]. deslustradamente_x1 := av_i_spr_le & [ STEM < "deslustradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_deslustradamente_x_rel" ]. deslustrar_v := v_trans_np_le & [ STEM < "deslustrar" >, SYNSEM.LKEYS.KEYREL.PRED "_deslustrar_v_rel" ]. desmadrar_v := v_pron_unacc_perf_le & [ STEM < "desmadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmadrar_v_rel" ]. desmagnetización_n1 := n_trans_le & [ STEM < "desmagnetización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmagnetización_n_rel" ]. desmagnetizador_n1 := n_intr_count_le & [ STEM < "desmagnetizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmagnetizador_n_rel" ] ]. desmagnetizante_a1 := a_rel_nonprd_intr_le & [ STEM < "desmagnetizante" >, SYNSEM.LKEYS.KEYREL.PRED "_desmagnetizante_a_rel" ]. desmantelamiento_n1 := n_trans_le & [ STEM < "desmantelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desmantelamiento_n_rel" ]. desmantelar_v := v_trans_np_caus_le & [ STEM < "desmantelar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmantelar_v_rel" ]. desmaquillador_n1 := n_intr_count_le & [ STEM < "desmaquillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmaquillador_n_rel" ] ]. desmarque_n1 := n_trans_le & [ STEM < "desmarque" >, SYNSEM.LKEYS.KEYREL.PRED "_desmarque_n_rel" ]. desmayar_v1 := v_pron_intr_le & [ STEM < "desmayar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmayar_v_rel" ]. desmayo_n1 := n_intr_count_le & [ STEM < "desmayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desmayo_n_rel" ] ]. desmedidamente_x1 := av_s_spr_le & [ STEM < "desmedidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desmedidamente_x_rel" ]. desmejorar_v := v_trans_np_caus_le & [ STEM < "desmejorar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmejorar_v_rel" ]. desmelenar_v := v_trans_np_caus_le & [ STEM < "desmelenar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmelenar_v_rel" ]. desmembración_n1 := n_trans_le & [ STEM < "desmembración" >, SYNSEM.LKEYS.KEYREL.PRED "_desmembración_n_rel" ]. desmembrar_v := v_trans_np_caus_le & [ STEM < "desmembrar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmembrar_v_rel" ]. desmentir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "desmentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desmentir_v_rel" ] ]. desmentir_v2 := v_ditrans*_le & [ STEM < "desmentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desmentir_v_rel" ] ]. desmentir_v3 := v_pron_intr_le & [ STEM < "desmentir" >, SYNSEM.LKEYS.KEYREL.PRED "_desmentir_v_rel" ]. desmentir_v4 := v_trans_np_le & [ STEM < "desmentir" >, SYNSEM.LKEYS.KEYREL.PRED "_desmentir_v_rel" ]. desmenuzable_a1 := a_rel_prd_le & [ STEM < "desmenuzable" >, SYNSEM.LKEYS.KEYREL.PRED "_desmenuzable_a_rel" ]. desmenuzador_n1 := n_intr_count_le & [ STEM < "desmenuzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desmenuzador_n_rel" ] ]. desmenuzar_v := v_trans_np_caus_le & [ STEM < "desmenuzar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmenuzar_v_rel" ]. desmerecer_v := v_trans_np_le & [ STEM < "desmerecer" >, SYNSEM.LKEYS.KEYREL.PRED "_desmerecer_v_rel" ]. desmesura_n1 := n_intr_mass_le & [ STEM < "desmesura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desmesura_n_rel" ] ]. desmesuradamente_x1 := av_deg_le & [ STEM < "desmesuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desmesuradamente_x_rel" ]. desmigajar_v := v_trans_np_le & [ STEM < "desmigajar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmigajar_v_rel" ]. desmilitarización_n1 := n_trans_le & [ STEM < "desmilitarización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmilitarización_n_rel" ]. desmineralización_n1 := n_trans_le & [ STEM < "desmineralización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmineralización_n_rel" ]. desmineralizar_v := v_trans_np_le & [ STEM < "desmineralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmineralizar_v_rel" ]. desmitificación_n1 := n_trans_le & [ STEM < "desmitificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desmitificación_n_rel" ]. desmitificar_v := v_trans_np_le & [ STEM < "desmitificar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmitificar_v_rel" ]. desmochar_v := v_trans_np_le & [ STEM < "desmochar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmochar_v_rel" ]. desmoche_n1 := n_trans_le & [ STEM < "desmoche" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoche_n_rel" ]. desmocráneo_n1 := n_ppcomp_count_le & [ STEM < "desmocráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_desmocráneo_n_rel" ] ]. desmodular_v := v_trans_np_le & [ STEM < "desmodular" >, SYNSEM.LKEYS.KEYREL.PRED "_desmodular_v_rel" ]. desmogleína_n1 := n_intr_count_le & [ STEM < "desmogleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmogleína_n_rel" ] ]. desmoldeado_n1 := n_trans_le & [ STEM < "desmoldeado" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoldeado_n_rel" ]. desmoldeador_a1 := a_rel_nonprd_intr_le & [ STEM < "desmoldeador" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoldeador_a_rel" ]. desmoldeador_n1 := n_intr_count_le & [ STEM < "desmoldeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmoldeador_n_rel" ] ]. desmoldeo_n1 := n_trans_le & [ STEM < "desmoldeo" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoldeo_n_rel" ]. desmonetización_n1 := n_trans_le & [ STEM < "desmonetización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmonetización_n_rel" ]. desmontable_a1 := a_rel_prd_le & [ STEM < "desmontable" >, SYNSEM.LKEYS.KEYREL.PRED "_desmontable_a_rel" ]. desmontaje_n1 := n_trans_le & [ STEM < "desmontaje" >, SYNSEM.LKEYS.KEYREL.PRED "_desmontaje_n_rel" ]. desmonte_n1 := n_intr_count_le & [ STEM < "desmonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_desmonte_n_rel" ] ]. desmoplaquina_n1 := n_intr_count_le & [ STEM < "desmoplaquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmoplaquina_n_rel" ] ]. desmoralización_n1 := n_trans_le & [ STEM < "desmoralización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoralización_n_rel" ]. desmoralizador_a1 := a_qual_intr_scopal_le & [ STEM < "desmoralizador" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoralizador_a_rel" ]. desmoralizar_v1 := v_intr_io*_le & [ STEM < "desmoralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoralizar_v_rel" ]. desmoralizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desmoralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoralizar_v_rel" ]. desmoralizar_v3 := v_trans_np_caus_le & [ STEM < "desmoralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoralizar_v_rel" ]. desmoronadizo_a1 := a_qual_intr_scopal_le & [ STEM < "desmoronadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoronadizo_a_rel" ]. desmoronamiento_n1 := n_event-result_intr_le & [ STEM < "desmoronamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoronamiento_n_rel" ]. desmoronar_v := v_trans_np_caus_le & [ STEM < "desmoronar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmoronar_v_rel" ]. desmosoma_n1 := n_intr_uncount_pl_le & [ STEM < "desmosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desmosoma_n_rel" ] ]. desmotadora_n1 := n_intr_count_le & [ STEM < "desmotadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desmotadora_n_rel" ] ]. desmote_n1 := n_trans_le & [ STEM < "desmote" >, SYNSEM.LKEYS.KEYREL.PRED "_desmote_n_rel" ]. desmotúbulo_n1 := n_intr_uncount_pl_le & [ STEM < "desmotúbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desmotúbulo_n_rel" ] ]. desmovilización_n1 := n_trans_le & [ STEM < "desmovilización" >, SYNSEM.LKEYS.KEYREL.PRED "_desmovilización_n_rel" ]. desmovilizador_a1 := a_rel_prd_le & [ STEM < "desmovilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_desmovilizador_a_rel" ]. desmovilizar_v := v_trans_np_le & [ STEM < "desmovilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desmovilizar_v_rel" ]. desmán_n1 := n_intr_count_le & [ STEM < "desmán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desmán_n_rel" ] ]. desnacionalización_n1 := n_trans_le & [ STEM < "desnacionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_desnacionalización_n_rel" ]. desnatadora_n1 := n_intr_count_le & [ STEM < "desnatadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desnatadora_n_rel" ] ]. desnatar_v := v_trans_np_le & [ STEM < "desnatar" >, SYNSEM.LKEYS.KEYREL.PRED "_desnatar_v_rel" ]. desnaturalización_n1 := n_trans_le & [ STEM < "desnaturalización" >, SYNSEM.LKEYS.KEYREL.PRED "_desnaturalización_n_rel" ]. desnaturalizar_v := v_trans_np_le & [ STEM < "desnaturalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desnaturalizar_v_rel" ]. desnervación_n1 := n_trans_le & [ STEM < "desnervación" >, SYNSEM.LKEYS.KEYREL.PRED "_desnervación_n_rel" ]. desnitrificación_n1 := n_trans_le & [ STEM < "desnitrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desnitrificación_n_rel" ]. desnivel_n1 := n_intr_mass-or-count_le & [ STEM < "desnivel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desnivel_n_rel" ] ]. desnivelación_n1 := n_trans_le & [ STEM < "desnivelación" >, SYNSEM.LKEYS.KEYREL.PRED "_desnivelación_n_rel" ]. desniveladamente_x1 := av_i_spr_le & [ STEM < "desniveladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desniveladamente_x_rel" ]. desnivelar_v := v_trans_np_le & [ STEM < "desnivelar" >, SYNSEM.LKEYS.KEYREL.PRED "_desnivelar_v_rel" ]. desnucamiento_n1 := n_trans_le & [ STEM < "desnucamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desnucamiento_n_rel" ]. desnucar_v := v_trans_np_caus_le & [ STEM < "desnucar" >, SYNSEM.LKEYS.KEYREL.PRED "_desnucar_v_rel" ]. desnudez_n1 := n_ppcomp_uncount_le & [ STEM < "desnudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desnudez_n_rel" ] ]. desnudo_a1 := a_qual_intr_estar_le & [ STEM < "desnudo" >, SYNSEM.LKEYS.KEYREL.PRED "_desnudo_a_rel" ]. desnutrición_n1 := n_result_intr_le & [ STEM < "desnutrición" >, SYNSEM.LKEYS.KEYREL.PRED "_desnutrición_n_rel" ]. desnutrir_v := v_trans_np_caus_le & [ STEM < "desnutrir" >, SYNSEM.LKEYS.KEYREL.PRED "_desnutrir_v_rel" ]. desobediencia_n1 := n_trans_le & [ STEM < "desobediencia" >, SYNSEM.LKEYS.KEYREL.PRED "_desobediencia_n_rel" ]. desobediente_a1 := a_qual_intr_ser_le & [ STEM < "desobediente" >, SYNSEM.LKEYS.KEYREL.PRED "_desobediente_a_rel" ]. desobedientemente_x1 := av_i_spr_le & [ STEM < "desobedientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_desobedientemente_x_rel" ]. desocialización_n1 := n_trans_le & [ STEM < "desocialización" >, SYNSEM.LKEYS.KEYREL.PRED "_desocialización_n_rel" ]. desocializante_a1 := a_rel_nonprd_intr_le & [ STEM < "desocializante" >, SYNSEM.LKEYS.KEYREL.PRED "_desocializante_a_rel" ]. desocupación_n1 := n_intr_mass_le & [ STEM < "desocupación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desocupación_n_rel" ] ]. desocupación_n2 := n_trans_le & [ STEM < "desocupación" >, SYNSEM.LKEYS.KEYREL.PRED "_desocupación_n_rel" ]. desocupar_v := v_trans_np_le & [ STEM < "desocupar" >, SYNSEM.LKEYS.KEYREL.PRED "_desocupar_v_rel" ]. desodoración_n1 := n_trans_le & [ STEM < "desodoración" >, SYNSEM.LKEYS.KEYREL.PRED "_desodoración_n_rel" ]. desodorante_n1 := n_intr_mass_le & [ STEM < "desodorante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desodorante_n_rel" ] ]. desodorización_n1 := n_trans_le & [ STEM < "desodorización" >, SYNSEM.LKEYS.KEYREL.PRED "_desodorización_n_rel" ]. desodorizar_v := v_trans_np_le & [ STEM < "desodorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desodorizar_v_rel" ]. desolación_n1 := n_trans_le & [ STEM < "desolación" >, SYNSEM.LKEYS.KEYREL.PRED "_desolación_n_rel" ]. desolador_a1 := a_qual_intr_scopal_le & [ STEM < "desolador" >, SYNSEM.LKEYS.KEYREL.PRED "_desolador_a_rel" ]. desolar_v1 := v_intr_io*_le & [ STEM < "desolar" >, SYNSEM.LKEYS.KEYREL.PRED "_desolar_v_rel" ]. desolar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desolar" >, SYNSEM.LKEYS.KEYREL.PRED "_desolar_v_rel" ]. desoldadura_n1 := n_trans_le & [ STEM < "desoldadura" >, SYNSEM.LKEYS.KEYREL.PRED "_desoldadura_n_rel" ]. desoldar_v3 := v_trans_np_le & [ STEM < "desoldar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_desoldar_v_rel" ] ]. desollar_v := v_trans_np_le & [ STEM < "desollar" >, SYNSEM.LKEYS.KEYREL.PRED "_desollar_v_rel" ]. desonorización_n1 := n_trans_le & [ STEM < "desonorización" >, SYNSEM.LKEYS.KEYREL.PRED "_desonorización_n_rel" ]. desorción_n1 := n_intr_uncount_le & [ STEM < "desorción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desorción_n_rel" ] ]. desorden_n1 := n_intr_mass_le & [ STEM < "desorden" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desorden_n_rel" ] ]. desordenadamente_x1 := av_i_spr_le & [ STEM < "desordenadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desordenadamente_x_rel" ]. desordenar_v := v_trans_np_le & [ STEM < "desordenar" >, SYNSEM.LKEYS.KEYREL.PRED "_desordenar_v_rel" ]. desorganización_n1 := n_trans_le & [ STEM < "desorganización" >, SYNSEM.LKEYS.KEYREL.PRED "_desorganización_n_rel" ]. desorganizadamente_x1 := av_i_spr_le & [ STEM < "desorganizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desorganizadamente_x_rel" ]. desorganizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desorganizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorganizar_v_rel" ]. desorganizar_v2 := v_trans_np_le & [ STEM < "desorganizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorganizar_v_rel" ]. desorientación_n1 := n_trans_le & [ STEM < "desorientación" >, SYNSEM.LKEYS.KEYREL.PRED "_desorientación_n_rel" ]. desorientar_v1 := v_intr_io*_le & [ STEM < "desorientar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorientar_v_rel" ]. desorientar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desorientar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorientar_v_rel" ]. desorientar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "desorientar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorientar_v_rel" ]. desorientar_v4 := v_trans_np_caus_le & [ STEM < "desorientar" >, SYNSEM.LKEYS.KEYREL.PRED "_desorientar_v_rel" ]. desosar_v := v_trans_np_le & [ STEM < "desosar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot, PRED "_desosar_v_rel" ] ]. desovar_v := v_intr_le & [ STEM < "desovar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_desovar_v_rel" ] ]. desove_n1 := n_result_intr_le & [ STEM < "desove" >, SYNSEM.LKEYS.KEYREL.PRED "_desove_n_rel" ]. desovillar_v := v_trans_np_caus_le & [ STEM < "desovillar" >, SYNSEM.LKEYS.KEYREL.PRED "_desovillar_v_rel" ]. desoxicorticosterona_n1 := n_intr_count_le & [ STEM < "desoxicorticosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_desoxicorticosterona_n_rel" ] ]. desoxidación_n1 := n_trans_le & [ STEM < "desoxidación" >, SYNSEM.LKEYS.KEYREL.PRED "_desoxidación_n_rel" ]. desoxidante_a1 := a_rel_nonprd_intr_le & [ STEM < "desoxidante" >, SYNSEM.LKEYS.KEYREL.PRED "_desoxidante_a_rel" ]. desoxidante_n1 := n_intr_count_le & [ STEM < "desoxidante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desoxidante_n_rel" ] ]. desoxidar_v := v_trans_np_le & [ STEM < "desoxidar" >, SYNSEM.LKEYS.KEYREL.PRED "_desoxidar_v_rel" ]. desoxirribonucleico_a1 := a_rel_nonprd_intr_le & [ STEM < "desoxirribonucleico" >, SYNSEM.LKEYS.KEYREL.PRED "_desoxirribonucleico_a_rel" ]. desoã­r_v := v_trans_np_le & [ STEM < "desoír" >, SYNSEM.LKEYS.KEYREL.PRED "_desoír_v_rel" ]. despabilar_v1 := v_intr_io*_le & [ STEM < "despabilar" >, SYNSEM.LKEYS.KEYREL.PRED "_despabilar_v_rel" ]. despabilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "despabilar" >, SYNSEM.LKEYS.KEYREL.PRED "_despabilar_v_rel" ]. despachador_n1 := n_intr_count_le & [ STEM < "despachador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_despachador_n_rel" ] ]. despacho_n1 := n_intr_count_le & [ STEM < "despacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_despacho_n_rel" ] ]. despacio_x1 := av_i_spr_le & [ STEM < "despacio" >, SYNSEM.LKEYS.KEYREL.PRED "_despacio_x_rel" ]. despalatalización_n1 := n_trans_le & [ STEM < "despalatalización" >, SYNSEM.LKEYS.KEYREL.PRED "_despalatalización_n_rel" ]. despampanante_a1 := a_qual_intr_scopal_le & [ STEM < "despampanante" >, SYNSEM.LKEYS.KEYREL.PRED "_despampanante_a_rel" ]. despampanantemente_x1 := av_i_spr_le & [ STEM < "despampanantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_despampanantemente_x_rel" ]. desparasitaje_n1 := n_trans_le & [ STEM < "desparasitaje" >, SYNSEM.LKEYS.KEYREL.PRED "_desparasitaje_n_rel" ]. desparpajo_n1 := n_trans_le & [ STEM < "desparpajo" >, SYNSEM.LKEYS.KEYREL.PRED "_desparpajo_n_rel" ]. desparramadora_n1 := n_intr_count_le & [ STEM < "desparramadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desparramadora_n_rel" ] ]. desparramar_v := v_trans_np_caus_le & [ STEM < "desparramar" >, SYNSEM.LKEYS.KEYREL.PRED "_desparramar_v_rel" ]. despasivación_n1 := n_trans_le & [ STEM < "despasivación" >, SYNSEM.LKEYS.KEYREL.PRED "_despasivación_n_rel" ]. despecho_n1 := n_intr_mass_le & [ STEM < "despecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despecho_n_rel" ] ]. despectivamente_x1 := av_i_spr_le & [ STEM < "despectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despectivamente_x_rel" ]. despectivo_a1 := a_qual_intr_scopal_le & [ STEM < "despectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_despectivo_a_rel" ]. despedazar_v := v_trans_np_le & [ STEM < "despedazar" >, SYNSEM.LKEYS.KEYREL.PRED "_despedazar_v_rel" ]. despedida_n1 := n_trans_le & [ STEM < "despedida" >, SYNSEM.LKEYS.KEYREL.PRED "_despedida_n_rel" ]. despedir_v1 := v_pron_intr_mrkd_np_le & [ STEM < "despedir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_despedir_v_rel" ] ]. despedir_v2 := v_trans_np_le & [ STEM < "despedir" >, SYNSEM.LKEYS.KEYREL.PRED "_despedir_v_rel" ]. despedrar_v := v_trans_np_le & [ STEM < "despedrar" >, SYNSEM.LKEYS.KEYREL.PRED "_despedrar_v_rel" ]. despedregador_n1 := n_intr_count_le & [ STEM < "despedregador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despedregador_n_rel" ] ]. despedregadora_n1 := n_intr_count_le & [ STEM < "despedregadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despedregadora_n_rel" ] ]. despegar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "despegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_despegar_v_rel" ] ] ]. despegar_v2 := v_intr_mrkd_np_le & [ STEM < "despegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_despegar_v_rel" ] ]. despegar_v3 := v_intr_le & [ STEM < "despegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, PRED "_despegar_v_rel" ] ]. despegar_v4 := v_trans_np_caus_le & [ STEM < "despegar" >, SYNSEM.LKEYS.KEYREL.PRED "_despegar_v_rel" ]. despegue_n1 := n_event-result_intr_le & [ STEM < "despegue" >, SYNSEM.LKEYS.KEYREL.PRED "_despegue_n_rel" ]. despeinar_v := v_trans_np_caus_le & [ STEM < "despeinar" >, SYNSEM.LKEYS.KEYREL.PRED "_despeinar_v_rel" ]. despejar_v1 := v_impers_strict_intr_le & [ STEM < "despejar" >, SYNSEM.LKEYS.KEYREL.PRED "_despejar_v_rel" ]. despejar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "despejar" >, SYNSEM.LKEYS.KEYREL.PRED "_despejar_v_rel" ]. despejar_v3 := v_trans_np_caus_le & [ STEM < "despejar" >, SYNSEM.LKEYS.KEYREL.PRED "_despejar_v_rel" ]. despeje_n1 := n_trans_le & [ STEM < "despeje" >, SYNSEM.LKEYS.KEYREL.PRED "_despeje_n_rel" ]. despejo_n1 := n_intr_uncount_le & [ STEM < "despejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despejo_n_rel" ] ]. despellejar_v := v_trans_np_le & [ STEM < "despellejar" >, SYNSEM.LKEYS.KEYREL.PRED "_despellejar_v_rel" ]. despenalización_n1 := n_trans_le & [ STEM < "despenalización" >, SYNSEM.LKEYS.KEYREL.PRED "_despenalización_n_rel" ]. despenalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "despenalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_despenalizador_a_rel" ]. despensa_n1 := n_intr_count_le & [ STEM < "despensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_despensa_n_rel" ] ]. desperdiciar_v := v_trans_np_le & [ STEM < "desperdiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desperdiciar_v_rel" ]. desperdicio_n1 := n_intr_count_le & [ STEM < "desperdicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_desperdicio_n_rel" ] ]. desperezar_v1 := v_pron_intr_le & [ STEM < "desperezar" >, SYNSEM.LKEYS.KEYREL.PRED "_desperezar_v_rel" ]. desperezar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desperezar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desperezar_v_rel" ] ] ]. desperezar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "desperezar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desperezar_v_rel" ] ] ]. desperfecto_n1 := n_intr_count_le & [ STEM < "desperfecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desperfecto_n_rel" ] ]. despersonalización_n1 := n_trans_le & [ STEM < "despersonalización" >, SYNSEM.LKEYS.KEYREL.PRED "_despersonalización_n_rel" ]. despersonalizar_v := v_trans_np_le & [ STEM < "despersonalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_despersonalizar_v_rel" ]. despertador_a1 := a_rel_nonprd_intr_le & [ STEM < "despertador" >, SYNSEM.LKEYS.KEYREL.PRED "_despertador_a_rel" ]. despertador_n1 := n_intr_count_le & [ STEM < "despertador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_despertador_n_rel" ] ]. despertar_n1 := n_intr_count_le & [ STEM < "despertar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despertar_n_rel" ] ]. despertar_v1 := v_intr_le & [ STEM < "despertar" >, SYNSEM.LKEYS.KEYREL.PRED "_despertar_v_rel" ]. despertar_v2 := v_pron_intr_le & [ STEM < "despertar" >, SYNSEM.LKEYS.KEYREL.PRED "_despertar_v_rel" ]. despertar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "despertar" >, SYNSEM.LKEYS.KEYREL.PRED "_despertar_v_rel" ]. despertar_v5 := v_trans_np_le & [ STEM < "despertar" >, SYNSEM.LKEYS.KEYREL.PRED "_despertar_v_rel" ]. despezonar_v := v_trans_np_le & [ STEM < "despezonar" >, SYNSEM.LKEYS.KEYREL.PRED "_despezonar_v_rel" ]. despiadadamente_x1 := av_i_spr_le & [ STEM < "despiadadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despiadadamente_x_rel" ]. despido_n1 := n_trans_le & [ STEM < "despido" >, SYNSEM.LKEYS.KEYREL.PRED "_despido_n_rel" ]. despiece_n1 := n_trans_le & [ STEM < "despiece" >, SYNSEM.LKEYS.KEYREL.PRED "_despiece_n_rel" ]. despierto_a1 := a_qual_intr_estar_le & [ STEM < "despierto" >, SYNSEM.LKEYS.KEYREL.PRED "_despierto_a_rel" ]. despigmentación_n1 := n_trans_le & [ STEM < "despigmentación" >, SYNSEM.LKEYS.KEYREL.PRED "_despigmentación_n_rel" ]. despilfarrador_n1 := n_subj-nom_le & [ STEM < "despilfarrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_despilfarrador_n_rel" ] ]. despilfarrar_v := v_trans_np*_le & [ STEM < "despilfarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_despilfarrar_v_rel" ]. despilfarro_n1 := n_trans_le & [ STEM < "despilfarro" >, SYNSEM.LKEYS.KEYREL.PRED "_despilfarro_n_rel" ]. despistadamente_x1 := av_i_spr_le & [ STEM < "despistadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despistadamente_x_rel" ]. despistar_v := v_intr_io*_le & [ STEM < "despistar" >, SYNSEM.LKEYS.KEYREL.PRED "_despistar_v_rel" ]. despistar_v1 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "despistar" >, SYNSEM.LKEYS.KEYREL.PRED "_despistar_v_rel" ]. despistar_v2 := v_trans_np_caus_le & [ STEM < "despistar" >, SYNSEM.LKEYS.KEYREL.PRED "_despistar_v_rel" ]. despiste_n1 := n_intr_mass-or-count_le & [ STEM < "despiste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despiste_n_rel" ] ]. desplantador_n1 := n_subj-nom_le & [ STEM < "desplantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desplantador_n_rel" ] ]. desplante_n1 := n_trans_le & [ STEM < "desplante" >, SYNSEM.LKEYS.KEYREL.PRED "_desplante_n_rel" ]. desplatación_n1 := n_trans_le & [ STEM < "desplatación" >, SYNSEM.LKEYS.KEYREL.PRED "_desplatación_n_rel" ]. desplazable_a1 := a_rel_prd_le & [ STEM < "desplazable" >, SYNSEM.LKEYS.KEYREL.PRED "_desplazable_a_rel" ]. desplazador_n1 := n_intr_count_le & [ STEM < "desplazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_desplazador_n_rel" ] ]. desplazamiento_n1 := n_event-result_intr_le & [ STEM < "desplazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desplazamiento_n_rel" ]. desplazar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desplazar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desplazar_v_rel" ] ] ]. desplazar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "desplazar" >, SYNSEM.LKEYS.KEYREL.PRED "_desplazar_v_rel" ]. desplegable_a1 := a_rel_prd_le & [ STEM < "desplegable" >, SYNSEM.LKEYS.KEYREL.PRED "_desplegable_a_rel" ]. desplegar_v := v_trans_np_caus_le & [ STEM < "desplegar" >, SYNSEM.LKEYS.KEYREL.PRED "_desplegar_v_rel" ]. despliegue_n1 := n_trans_le & [ STEM < "despliegue" >, SYNSEM.LKEYS.KEYREL.PRED "_despliegue_n_rel" ]. desplomar_v := v_pron_unacc_perf_le & [ STEM < "desplomar" >, SYNSEM.LKEYS.KEYREL.PRED "_desplomar_v_rel" ]. desplome_n1 := n_trans_le & [ STEM < "desplome" >, SYNSEM.LKEYS.KEYREL.PRED "_desplome_n_rel" ]. desplome_n2 := n_event-result_intr_le & [ STEM < "desplome" >, SYNSEM.LKEYS.KEYREL.PRED "_desplome_n_rel" ]. despoblación_n1 := n_trans_le & [ STEM < "despoblación" >, SYNSEM.LKEYS.KEYREL.PRED "_despoblación_n_rel" ]. despoblamiento_n1 := n_trans_le & [ STEM < "despoblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_despoblamiento_n_rel" ]. despoblar_v := v_trans_np_caus_le & [ STEM < "despoblar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_soc, PRED "_despoblar_v_rel" ] ]. despojar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "despojar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_despojar_v_rel" ] ]. despojar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "despojar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_despojar_v_rel" ] ]. despojo_n1 := n_result_intr_ppcomp_le & [ STEM < "despojo" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_despojo_n_rel" ] ]. despojo_n2 := n_intr_count_le & [ STEM < "despojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despojo_n_rel" ] ]. despolarización_n1 := n_trans_le & [ STEM < "despolarización" >, SYNSEM.LKEYS.KEYREL.PRED "_despolarización_n_rel" ]. despolarizador_n1 := n_intr_count_le & [ STEM < "despolarizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despolarizador_n_rel" ] ]. despolarizante_a1 := a_rel_nonprd_intr_le & [ STEM < "despolarizante" >, SYNSEM.LKEYS.KEYREL.PRED "_despolarizante_a_rel" ]. despolarizar_v := v_trans_np_le & [ STEM < "despolarizar" >, SYNSEM.LKEYS.KEYREL.PRED "_despolarizar_v_rel" ]. despolitización_n1 := n_trans_le & [ STEM < "despolitización" >, SYNSEM.LKEYS.KEYREL.PRED "_despolitización_n_rel" ]. despolvoreador_n1 := n_intr_count_le & [ STEM < "despolvoreador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despolvoreador_n_rel" ] ]. desportillar_v := v_trans_np_caus_le & [ STEM < "desportillar" >, SYNSEM.LKEYS.KEYREL.PRED "_desportillar_v_rel" ]. desposeer_v := v_trans_np_mrkd_np*_le & [ STEM < "desposeer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desposeer_v_rel" ] ]. desposeimiento_n1 := n_trans_le & [ STEM < "desposeimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desposeimiento_n_rel" ]. desposesión_n1 := n_trans_le & [ STEM < "desposesión" >, SYNSEM.LKEYS.KEYREL.PRED "_desposesión_n_rel" ]. despotismo_n1 := n_intr_uncount_le & [ STEM < "despotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despotismo_n_rel" ] ]. despotricar_v := v_intr_mrkd_np*_le & [ STEM < "despotricar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_despotricar_v_rel" ] ]. despreciable_a1 := a_qual_intr_scopal_le & [ STEM < "despreciable" >, SYNSEM.LKEYS.KEYREL.PRED "_despreciable_a_rel" ]. despreciar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "despreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_despreciar_v_rel" ] ]. despreciar_v2 := v_trans_np_le & [ STEM < "despreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_despreciar_v_rel" ] ]. despreciativamente_x1 := av_i_spr_le & [ STEM < "despreciativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despreciativamente_x_rel" ]. despreciativo_a1 := a_qual_intr_ser_le & [ STEM < "despreciativo" >, SYNSEM.LKEYS.KEYREL.PRED "_despreciativo_a_rel" ]. desprecio_n1 := n_intr_mass_le & [ STEM < "desprecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desprecio_n_rel" ] ]. desprender_v1 := v_pron_subj_cp_prop_fin_unacc_le & [ STEM < "desprender" >, SYNSEM.LKEYS.KEYREL.PRED "_desprender_v_rel" ]. desprender_v2 := v_pron_unacc_lcomp_loc*_le & [ STEM < "desprender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_desprender_v_rel" ] ]. desprender_v3 := v_trans_np_le & [ STEM < "desprender" >, SYNSEM.LKEYS.KEYREL.PRED "_desprender_v_rel" ]. desprender_v4 := v_trans_np_mrkd_np_le & [ STEM < "desprender" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desprender_v_rel" ] ]. desprendimiento_n1 := n_trans_le & [ STEM < "desprendimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desprendimiento_n_rel" ]. despreocupación_n1 := n_intr_mass_le & [ STEM < "despreocupación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despreocupación_n_rel" ] ]. despreocupadamente_x1 := av_i_spr_le & [ STEM < "despreocupadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despreocupadamente_x_rel" ]. despreocupar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "despreocupar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_despreocupar_v_rel" ] ]. despreocupar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "despreocupar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_despreocupar_v_rel" ] ]. desprestigiar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "desprestigiar" >, SYNSEM.LKEYS.KEYREL.PRED "_desprestigiar_v_rel" ]. desprestigiar_v2 := v_trans_np_le & [ STEM < "desprestigiar" >, SYNSEM.LKEYS.KEYREL.PRED "_desprestigiar_v_rel" ]. desprestigio_n1 := n_trans_le & [ STEM < "desprestigio" >, SYNSEM.LKEYS.KEYREL.PRED "_desprestigio_n_rel" ]. despresurizar_v := v_trans_np_le & [ STEM < "despresurizar" >, SYNSEM.LKEYS.KEYREL.PRED "_despresurizar_v_rel" ]. desprevención_n1 := n_intr_mass_le & [ STEM < "desprevención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desprevención_n_rel" ] ]. desprevenidamente_x1 := av_i_spr_le & [ STEM < "desprevenidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desprevenidamente_x_rel" ]. desprivatización_n1 := n_trans_le & [ STEM < "desprivatización" >, SYNSEM.LKEYS.KEYREL.PRED "_desprivatización_n_rel" ]. desprogramar_v := v_trans_np_le & [ STEM < "desprogramar" >, SYNSEM.LKEYS.KEYREL.PRED "_desprogramar_v_rel" ]. despropanizador_n1 := n_intr_count_le & [ STEM < "despropanizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despropanizador_n_rel" ] ]. desproporcionadamente_x1 := av_i_spr_le & [ STEM < "desproporcionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desproporcionadamente_x_rel" ]. desproporcionalmente_x1 := av_s_spr_le & [ STEM < "desproporcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_desproporcionalmente_x_rel" ]. desproporción_n1 := n_intr_count_le & [ STEM < "desproporción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desproporción_n_rel" ] ]. despropósito_n1 := n_intr_count_le & [ STEM < "despropósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_despropósito_n_rel" ] ]. desproteinización_n1 := n_trans_le & [ STEM < "desproteinización" >, SYNSEM.LKEYS.KEYREL.PRED "_desproteinización_n_rel" ]. despulla_n1 := n_trans_le & [ STEM < "despulla" >, SYNSEM.LKEYS.KEYREL.PRED "_despulla_n_rel" ]. despulpar_v := v_trans_np_le & [ STEM < "despulpar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_despulpar_v_rel" ] ]. despumación_n1 := n_trans_le & [ STEM < "despumación" >, SYNSEM.LKEYS.KEYREL.PRED "_despumación_n_rel" ]. despumador_n1 := n_intr_count_le & [ STEM < "despumador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_despumador_n_rel" ] ]. después_de_p_vmod := p_vmod_le & [ STEM < "después_de" >, SYNSEM.LKEYS.KEYREL.PRED _después_de_p_rel ]. después_x1 := av_i_spr_le & [ STEM < "después" >, SYNSEM.LKEYS.KEYREL.PRED "_después_x_rel" ]. despóticamente_x1 := av_i_spr_le & [ STEM < "despóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_despóticamente_x_rel" ]. despótico_a1 := a_qual_intr_scopal_le & [ STEM < "despótico" >, SYNSEM.LKEYS.KEYREL.PRED "_despótico_a_rel" ]. desquiciamiento_n1 := n_trans_le & [ STEM < "desquiciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desquiciamiento_n_rel" ]. desquiciar_v1 := v_intr_io*_le & [ STEM < "desquiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desquiciar_v_rel" ]. desquiciar_v2 := v_pron_intr_le & [ STEM < "desquiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desquiciar_v_rel" ]. desquiciar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "desquiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_desquiciar_v_rel" ]. desquiciar_v4 := v_trans_np_le & [ STEM < "desquiciar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_desquiciar_v_rel" ] ]. desquitar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "desquitar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desquitar_v_rel" ] ] ]. desquitar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desquitar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desquitar_v_rel" ] ] ]. desquite_n1 := n_trans_le & [ STEM < "desquite" >, SYNSEM.LKEYS.KEYREL.PRED "_desquite_n_rel" ]. desratizar_v := v_trans_np_le & [ STEM < "desratizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desratizar_v_rel" ]. desregulación_n1 := n_trans_le & [ STEM < "desregulación" >, SYNSEM.LKEYS.KEYREL.PRED "_desregulación_n_rel" ]. destacable_a1 := a_qual_intr_scopal_le & [ STEM < "destacable" >, SYNSEM.LKEYS.KEYREL.PRED "_destacable_a_rel" ]. destacablemente_x1 := av_i_spr_le & [ STEM < "destacablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_destacablemente_x_rel" ]. destacamento_n1 := n_intr_count_le & [ STEM < "destacamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_destacamento_n_rel" ] ]. destacar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "destacar" >, SYNSEM.LKEYS.KEYREL.PRED "_destacar_v_rel" ]. destacar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "destacar" >, SYNSEM.LKEYS.KEYREL.PRED "_destacar_v_rel" ]. destacar_v3 := v_trans_cp_prop_fin_le & [ STEM < "destacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_destacar_v_rel" ] ]. destacar_v4 := v_trans_np_le & [ STEM < "destacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_destacar_v_rel" ] ]. destajero_n1 := n_intr_count_le & [ STEM < "destajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_destajero_n_rel" ] ]. destajista_n1 := n_intr_count_le & [ STEM < "destajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_destajista_n_rel" ] ]. destajo_n1 := n_trans_le & [ STEM < "destajo" >, SYNSEM.LKEYS.KEYREL.PRED "_destajo_n_rel" ]. destalonar_v := v_trans_np_caus_le & [ STEM < "destalonar" >, SYNSEM.LKEYS.KEYREL.PRED "_destalonar_v_rel" ]. destellar_v := v_intr_le & [ STEM < "destellar" >, SYNSEM.LKEYS.KEYREL.PRED "_destellar_v_rel" ]. destello_n1 := n_intr_count_le & [ STEM < "destello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_destello_n_rel" ] ]. destemple_n1 := n_trans_le & [ STEM < "destemple" >, SYNSEM.LKEYS.KEYREL.PRED "_destemple_n_rel" ]. destensar_v := v_trans_np_caus_le & [ STEM < "destensar" >, SYNSEM.LKEYS.KEYREL.PRED "_destensar_v_rel" ]. desterrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desterrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desterrar_v_rel" ] ] ]. desterrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desterrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desterrar_v_rel" ] ]. desterrar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "desterrar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desterrar_v_rel" ] ]. desterronador_n1 := n_intr_count_le & [ STEM < "desterronador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desterronador_n_rel" ] ]. desterronadora_n1 := n_intr_count_le & [ STEM < "desterronadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_desterronadora_n_rel" ] ]. destetadera_n1 := n_intr_count_le & [ STEM < "destetadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_destetadera_n_rel" ] ]. destete_n1 := n_trans_le & [ STEM < "destete" >, SYNSEM.LKEYS.KEYREL.PRED "_destete_n_rel" ]. destierro_n1 := n_trans_le & [ STEM < "destierro" >, SYNSEM.LKEYS.KEYREL.PRED "_destierro_n_rel" ]. destilación_n1 := n_trans_le & [ STEM < "destilación" >, SYNSEM.LKEYS.KEYREL.PRED "_destilación_n_rel" ]. destilador_n1 := n_intr_count_le & [ STEM < "destilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_destilador_n_rel" ] ]. destilar_v := v_trans_np_le & [ STEM < "destilar" >, SYNSEM.LKEYS.KEYREL.PRED "_destilar_v_rel" ]. destilería_n1 := n_intr_count_le & [ STEM < "destilería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_destilería_n_rel" ] ]. destinación_n1 := n_trans_le & [ STEM < "destinación" >, SYNSEM.LKEYS.KEYREL.PRED "_destinación_n_rel" ]. destinar_v1 := v_ditrans*_le & [ STEM < "destinar" >, SYNSEM.LKEYS.KEYREL.PRED "_destinar_v_rel" ]. destinar_v2 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "destinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_destinar_v_rel" ] ] ]. destinar_v3 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "destinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_destinar_v_rel" ] ] ]. destinar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "destinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_destinar_v_rel" ] ] ]. destinatario_n1 := n_intr_count_le & [ STEM < "destinatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_destinatario_n_rel" ] ]. destino_n1 := n_trans_le & [ STEM < "destino" >, SYNSEM.LKEYS.KEYREL.PRED "_destino_n_rel" ]. destitución_n1 := n_trans_le & [ STEM < "destitución" >, SYNSEM.LKEYS.KEYREL.PRED "_destitución_n_rel" ]. destituir_v := v_trans_np_le & [ STEM < "destituir" >, SYNSEM.LKEYS.KEYREL.PRED "_destituir_v_rel" ]. destorcer_v1 := v_pron_intr_le & [ STEM < "destorcer" >, SYNSEM.LKEYS.KEYREL.PRED "_destorcer_v_rel" ]. destorcer_v2 := v_trans_np_le & [ STEM < "destorcer" >, SYNSEM.LKEYS.KEYREL.PRED "_destorcer_v_rel" ]. destornillador_n1 := n_intr_count_le & [ STEM < "destornillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_destornillador_n_rel" ] ]. destornillar_v := v_trans_np_le & [ STEM < "destornillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_destornillar_v_rel" ] ]. destoxificación_n1 := n_trans_le & [ STEM < "destoxificación" >, SYNSEM.LKEYS.KEYREL.PRED "_destoxificación_n_rel" ]. destrenzar_v := v_trans_np_le & [ STEM < "destrenzar" >, SYNSEM.LKEYS.KEYREL.PRED "_destrenzar_v_rel" ]. destripamiento_n1 := n_trans_le & [ STEM < "destripamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_destripamiento_n_rel" ]. destripar_v := v_trans_np_le & [ STEM < "destripar" >, SYNSEM.LKEYS.KEYREL.PRED "_destripar_v_rel" ]. destronamiento_n1 := n_trans_le & [ STEM < "destronamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_destronamiento_n_rel" ]. destrozar_v1 := v_ditrans*_le & [ STEM < "destrozar" >, SYNSEM.LKEYS.KEYREL.PRED "_destrozar_v_rel" ]. destrozar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "destrozar" >, SYNSEM.LKEYS.KEYREL.PRED "_destrozar_v_rel" ]. destrozo_n1 := n_trans_le & [ STEM < "destrozo" >, SYNSEM.LKEYS.KEYREL.PRED "_destrozo_n_rel" ]. destrucción_n1 := n_trans_le & [ STEM < "destrucción" >, SYNSEM.LKEYS.KEYREL.PRED "_destrucción_n_rel" ]. destructible_a1 := a_rel_prd_le & [ STEM < "destructible" >, SYNSEM.LKEYS.KEYREL.PRED "_destructible_a_rel" ]. destructivamente_x1 := av_i_spr_le & [ STEM < "destructivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_destructivamente_x_rel" ]. destructivo_a1 := a_qual_intr_scopal_le & [ STEM < "destructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_destructivo_a_rel" ]. destructor_a1 := a_qual_intr_scopal_le & [ STEM < "destructor" >, SYNSEM.LKEYS.KEYREL.PRED "_destructor_a_rel" ]. destructor_n1 := n_intr_count_le & [ STEM < "destructor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_destructor_n_rel" ] ]. destructor_n2 := n_subj-nom_le & [ STEM < "destructor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_destructor_n_rel" ] ]. destruir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "destruir" >, SYNSEM.LKEYS.KEYREL.PRED "_destruir_v_rel" ]. destruir_v2 := v_trans_np_caus_le & [ STEM < "destruir" >, SYNSEM.LKEYS.KEYREL.PRED "_destruir_v_rel" ]. desulfuración_n1 := n_trans_le & [ STEM < "desulfuración" >, SYNSEM.LKEYS.KEYREL.PRED "_desulfuración_n_rel" ]. desulfurar_v := v_trans_np_caus_le & [ STEM < "desulfurar" >, SYNSEM.LKEYS.KEYREL.PRED "_desulfurar_v_rel" ]. desulfurizar_v := v_trans_np_caus_le & [ STEM < "desulfurizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desulfurizar_v_rel" ]. desuso_n1 := n_intr_uncount_le & [ STEM < "desuso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desuso_n_rel" ] ]. desvalidamente_x1 := av_i_spr_le & [ STEM < "desvalidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desvalidamente_x_rel" ]. desvalido_a1 := a_qual_intr_estar_le & [ STEM < "desvalido" >, SYNSEM.LKEYS.KEYREL.PRED "_desvalido_a_rel" ]. desvalijador_n1 := n_subj-nom_le & [ STEM < "desvalijador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desvalijador_n_rel" ] ]. desvalijamiento_n1 := n_trans_le & [ STEM < "desvalijamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desvalijamiento_n_rel" ]. desvalijar_v := v_trans_np_le & [ STEM < "desvalijar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum_loc_soc, PRED "_desvalijar_v_rel" ] ]. desvalimiento_n1 := n_intr_mass_le & [ STEM < "desvalimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desvalimiento_n_rel" ] ]. desvalorización_n1 := n_trans_le & [ STEM < "desvalorización" >, SYNSEM.LKEYS.KEYREL.PRED "_desvalorización_n_rel" ]. desvalorizar_v := v_trans_np_caus_le & [ STEM < "desvalorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desvalorizar_v_rel" ]. desvanecer_v := v_pron_unacc_perf_le & [ STEM < "desvanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_desvanecer_v_rel" ]. desvanecimiento_n1 := n_trans_le & [ STEM < "desvanecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desvanecimiento_n_rel" ]. desvariar_v := v_intr_le & [ STEM < "desvariar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_desvariar_v_rel" ] ]. desvarío_n1 := n_intr_mass-or-count_le & [ STEM < "desvarío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desvarío_n_rel" ] ]. desvatadamente_x1 := av_i_spr_le & [ STEM < "desvatadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desvatadamente_x_rel" ]. desvelo_n1 := n_trans_le & [ STEM < "desvelo" >, SYNSEM.LKEYS.KEYREL.PRED "_desvelo_n_rel" ]. desventaja_n1 := n_cp_prop_count_le & [ STEM < "desventaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desventaja_n_rel" ] ]. desventajoso_a1 := a_qual_intr_scopal_le & [ STEM < "desventajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_desventajoso_a_rel" ]. desventamiento_n1 := n_trans_le & [ STEM < "desventamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_desventamiento_n_rel" ]. desventura_n1 := n_intr_count_le & [ STEM < "desventura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desventura_n_rel" ] ]. desventurado_a1 := a_qual_intr_ser_le & [ STEM < "desventurado" >, SYNSEM.LKEYS.KEYREL.PRED "_desventurado_a_rel" ]. desvergüenza_n1 := n_intr_uncount_pl_le & [ STEM < "desvergüenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desvergüenza_n_rel" ] ]. desvestir_v := v_trans_np_caus_le & [ STEM < "desvestir" >, SYNSEM.LKEYS.KEYREL.PRED "_desvestir_v_rel" ]. desviacionismo_n1 := n_intr_uncount_le & [ STEM < "desviacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_desviacionismo_n_rel" ] ]. desviacionista_a1 := a_rel_prd_le & [ STEM < "desviacionista" >, SYNSEM.LKEYS.KEYREL.PRED "_desviacionista_a_rel" ]. desviacionista_n1 := n_intr_count_le & [ STEM < "desviacionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desviacionista_n_rel" ] ]. desviación_n1 := n_intr_count_le & [ STEM < "desviación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_desviación_n_rel" ] ]. desviación_n2 := n_event-result_intr_le & [ STEM < "desviación" >, SYNSEM.LKEYS.KEYREL.PRED "_desviación_n_rel" ]. desviador_n1 := n_subj-nom_le & [ STEM < "desviador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_desviador_n_rel" ] ]. desviar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "desviar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_desviar_v_rel" ] ] ]. desviar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "desviar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_desviar_v_rel" ] ]. desviar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "desviar" >, SYNSEM.LKEYS.KEYREL.PRED "_desviar_v_rel" ]. desviar_v4 := v_trans_np_caus_le & [ STEM < "desviar" >, SYNSEM.LKEYS.KEYREL.PRED "_desviar_v_rel" ]. desviatadamente_x1 := av_i_spr_le & [ STEM < "desviatadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_desviatadamente_x_rel" ]. desvieje_n1 := n_trans_le & [ STEM < "desvieje" >, SYNSEM.LKEYS.KEYREL.PRED "_desvieje_n_rel" ]. desvincular_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "desvincular" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_desvincular_v_rel" ] ]. desvirtuar_v := v_trans_np_caus_le & [ STEM < "desvirtuar" >, SYNSEM.LKEYS.KEYREL.PRED "_desvirtuar_v_rel" ]. desvitalización_n1 := n_trans_le & [ STEM < "desvitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_desvitalización_n_rel" ]. desvitalizar_v := v_trans_np_le & [ STEM < "desvitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_desvitalizar_v_rel" ]. desvitrificación_n1 := n_trans_le & [ STEM < "desvitrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_desvitrificación_n_rel" ]. desvulcanización_n1 := n_trans_le & [ STEM < "desvulcanización" >, SYNSEM.LKEYS.KEYREL.PRED "_desvulcanización_n_rel" ]. desván_n1 := n_intr_count_le & [ STEM < "desván" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_desván_n_rel" ] ]. desvío_n1 := n_intr_count_le & [ STEM < "desvío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_desvío_n_rel" ] ]. desvío_n2 := n_event-result_intr_le & [ STEM < "desvío" >, SYNSEM.LKEYS.KEYREL.PRED "_desvío_n_rel" ]. desánimo_n1 := n_trans_le & [ STEM < "desánimo" >, SYNSEM.LKEYS.KEYREL.PRED "_desánimo_n_rel" ]. desértico_a1 := a_qual_intr_scopal_le & [ STEM < "desértico" >, SYNSEM.LKEYS.KEYREL.PRED "_desértico_a_rel" ]. detalladamente_x1 := av_i_spr_le & [ STEM < "detalladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_detalladamente_x_rel" ]. detallar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "detallar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_sem_soc, PRED "_detallar_v_rel" ] ]. detallar_v2 := v_ditrans*_le & [ STEM < "detallar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_sem_soc, PRED "_detallar_v_rel" ] ]. detalle_n1 := n_intr_count_le & [ STEM < "detalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_detalle_n_rel" ] ]. detallista_n1 := n_intr_count_le & [ STEM < "detallista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_detallista_n_rel" ] ]. detasa_n1 := n_intr_uncount_pl_le & [ STEM < "detasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_detasa_n_rel" ] ]. detección_n1 := n_trans_le & [ STEM < "detección" >, SYNSEM.LKEYS.KEYREL.PRED "_detección_n_rel" ]. detectable_a1 := a_qual_intr_scopal_le & [ STEM < "detectable" >, SYNSEM.LKEYS.KEYREL.PRED "_detectable_a_rel" ]. detectar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "detectar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_detectar_v_rel" ] ]. detectar_v2 := v_trans_np_le & [ STEM < "detectar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_detectar_v_rel" ] ]. detective_n1 := n_intr_count_le & [ STEM < "detective" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_detective_n_rel" ] ]. detector_a1 := a_rel_nonprd_intr_le & [ STEM < "detector" >, SYNSEM.LKEYS.KEYREL.PRED "_detector_a_rel" ]. detector_n1 := n_intr_count_le & [ STEM < "detector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detector_n_rel" ] ]. detención_n1 := n_trans_le & [ STEM < "detención" >, SYNSEM.LKEYS.KEYREL.PRED "_detención_n_rel" ]. detener_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "detener" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_detener_v_rel" ] ] ]. detener_v2 := v_pron_intr_mrkd_np_le & [ STEM < "detener" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_detener_v_rel" ] ] ]. detener_v3 := v_pron_intr_mrkd_np_le & [ STEM < "detener" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_detener_v_rel" ] ] ]. detener_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "detener" >, SYNSEM.LKEYS.KEYREL.PRED "_detener_v_rel" ]. detener_v5 := v_trans_np_caus_le & [ STEM < "detener" >, SYNSEM.LKEYS.KEYREL.PRED "_detener_v_rel" ]. detenidamente_x1 := av_i_spr_le & [ STEM < "detenidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_detenidamente_x_rel" ]. detenido_n1 := n_intr_count_le & [ STEM < "detenido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_detenido_n_rel" ] ]. detenimiento_n1 := n_trans_le & [ STEM < "detenimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_detenimiento_n_rel" ]. detentación_n1 := n_trans_le & [ STEM < "detentación" >, SYNSEM.LKEYS.KEYREL.PRED "_detentación_n_rel" ]. detentar_v := v_trans_np_le & [ STEM < "detentar" >, SYNSEM.LKEYS.KEYREL.PRED "_detentar_v_rel" ]. detentor_n1 := n_intr_count_le & [ STEM < "detentor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detentor_n_rel" ] ]. detergente_a1 := a_rel_nonprd_intr_le & [ STEM < "detergente" >, SYNSEM.LKEYS.KEYREL.PRED "_detergente_a_rel" ]. detergente_n1 := n_intr_mass_le & [ STEM < "detergente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detergente_n_rel" ] ]. deterioramiento_n1 := n_trans_le & [ STEM < "deterioramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_deterioramiento_n_rel" ]. deteriorar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "deteriorar" >, SYNSEM.LKEYS.KEYREL.PRED "_deteriorar_v_rel" ]. deteriorar_v2 := v_trans_np_caus_le & [ STEM < "deteriorar" >, SYNSEM.LKEYS.KEYREL.PRED "_deteriorar_v_rel" ]. deterioro_n1 := n_trans_le & [ STEM < "deterioro" >, SYNSEM.LKEYS.KEYREL.PRED "_deterioro_n_rel" ]. determinable_a1 := a_rel_prd_le & [ STEM < "determinable" >, SYNSEM.LKEYS.KEYREL.PRED "_determinable_a_rel" ]. determinación_n1 := n_trans_le & [ STEM < "determinación" >, SYNSEM.LKEYS.KEYREL.PRED "_determinación_n_rel" ]. determinación_n2 := n_intr_mass_le & [ STEM < "determinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_determinación_n_rel" ] ]. determinadamente_x1 := av_i_spr_le & [ STEM < "determinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_determinadamente_x_rel" ]. determinante_a1 := a_qual_intr_scopal_le & [ STEM < "determinante" >, SYNSEM.LKEYS.KEYREL.PRED "_determinante_a_rel" ]. determinante_n1 := n_intr_count_le & [ STEM < "determinante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_determinante_n_rel" ] ]. determinar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "determinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_determinar_v_rel" ] ]. determinar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "determinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_determinar_v_rel" ] ]. determinar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "determinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_determinar_v_rel" ] ]. determinar_v4 := v_trans_cp_semi_ques_le & [ STEM < "determinar" >, SYNSEM.LKEYS.KEYREL.PRED "_determinar_v_rel" ]. determinar_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "determinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_determinar_v_rel" ] ] ]. determinar_v6 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "determinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_determinar_v_rel" ] ] ]. determinar_v7 := v_trans_np_mrkd_np*_le & [ STEM < "determinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_determinar_v_rel" ] ] ]. determinativo_a1 := a_qual_intr_scopal_le & [ STEM < "determinativo" >, SYNSEM.LKEYS.KEYREL.PRED "_determinativo_a_rel" ]. determinismo_n1 := n_trans_le & [ STEM < "determinismo" >, SYNSEM.LKEYS.KEYREL.PRED "_determinismo_n_rel" ]. determinista_a1 := a_qual_intr_scopal_le & [ STEM < "determinista" >, SYNSEM.LKEYS.KEYREL.PRED "_determinista_a_rel" ]. determinísticamente_x1 := av_i_spr_le & [ STEM < "determinísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_determinísticamente_x_rel" ]. determinístico_a1 := a_qual_intr_scopal_le & [ STEM < "determinístico" >, SYNSEM.LKEYS.KEYREL.PRED "_determinístico_a_rel" ]. detersión_n1 := n_intr_uncount_le & [ STEM < "detersión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_detersión_n_rel" ] ]. detestable_a1 := a_qual_intr_scopal_le & [ STEM < "detestable" >, SYNSEM.LKEYS.KEYREL.PRED "_detestable_a_rel" ]. detestar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "detestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_detestar_v_rel" ] ]. detestar_v2 := v_trans_np_le & [ STEM < "detestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_detestar_v_rel" ] ]. detonación_n1 := n_trans_le & [ STEM < "detonación" >, SYNSEM.LKEYS.KEYREL.PRED "_detonación_n_rel" ]. detonador_a1 := a_rel_nonprd_intr_le & [ STEM < "detonador" >, SYNSEM.LKEYS.KEYREL.PRED "_detonador_a_rel" ]. detonador_n1 := n_intr_count_le & [ STEM < "detonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detonador_n_rel" ] ]. detonante_a1 := a_rel_nonprd_intr_le & [ STEM < "detonante" >, SYNSEM.LKEYS.KEYREL.PRED "_detonante_a_rel" ]. detonante_n1 := n_intr_count_le & [ STEM < "detonante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_detonante_n_rel" ] ]. detonar_v1 := v_intr_le & [ STEM < "detonar" >, SYNSEM.LKEYS.KEYREL.PRED "_detonar_v_rel" ]. detonar_v2 := v_trans_np_le & [ STEM < "detonar" >, SYNSEM.LKEYS.KEYREL.PRED "_detonar_v_rel" ]. detracción_n1 := n_trans_le & [ STEM < "detracción" >, SYNSEM.LKEYS.KEYREL.PRED "_detracción_n_rel" ]. detractar_v := v_trans_np_le & [ STEM < "detractar" >, SYNSEM.LKEYS.KEYREL.PRED "_detractar_v_rel" ]. detractor_n1 := n_intr_count_le & [ STEM < "detractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_detractor_n_rel" ] ]. detrimento_n1 := n_intr_uncount_le & [ STEM < "detrimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_detrimento_n_rel" ] ]. detrito_n1 := n_intr_mass_le & [ STEM < "detrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detrito_n_rel" ] ]. detritus_n1 := n_intr_mass_le & [ STEM < "detritus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_detritus_n_rel" ] ]. detrás_de_p_vmod := p_vmod_le & [ STEM < "detrás_de" >, SYNSEM.LKEYS.KEYREL.PRED _detrás_de_p_rel ]. detrás_x1 := av_i_spr_le & [ STEM < "detrás" >, SYNSEM.LKEYS.KEYREL.PRED "_detrás_x_rel" ]. detríticamente_x1 := av_i_spr_le & [ STEM < "detríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_detríticamente_x_rel" ]. detrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "detrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_detrítico_a_rel" ]. deuda_n1 := n_intr_count_le & [ STEM < "deuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuda_n_rel" ] ]. deudo_n1 := n_intr_count_le & [ STEM < "deudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deudo_n_rel" ] ]. deudor_a1 := a_qual_intr_ser_le & [ STEM < "deudor" >, SYNSEM.LKEYS.KEYREL.PRED "_deudor_a_rel" ]. deudor_n1 := n_subj-nom_le & [ STEM < "deudor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deudor_n_rel" ] ]. deuteranomalopía_n1 := n_intr_uncount_le & [ STEM < "deuteranomalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuteranomalopía_n_rel" ] ]. deuteranomalía_n1 := n_intr_uncount_le & [ STEM < "deuteranomalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuteranomalía_n_rel" ] ]. deuteranopía_n1 := n_intr_uncount_le & [ STEM < "deuteranopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuteranopía_n_rel" ] ]. deuterio_n1 := n_intr_mass_le & [ STEM < "deuterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_deuterio_n_rel" ] ]. deuterología_n1 := n_intr_uncount_le & [ STEM < "deuterología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuterología_n_rel" ] ]. deuteropatía_n1 := n_intr_uncount_le & [ STEM < "deuteropatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deuteropatía_n_rel" ] ]. deuterón_n1 := n_intr_mass-or-count_le & [ STEM < "deuterón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_deuterón_n_rel" ] ]. devaluación_n1 := n_trans_le & [ STEM < "devaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_devaluación_n_rel" ]. devaluar_v := v_trans_np_caus_le & [ STEM < "devaluar" >, SYNSEM.LKEYS.KEYREL.PRED "_devaluar_v_rel" ]. devanado_n1 := n_trans_le & [ STEM < "devanado" >, SYNSEM.LKEYS.KEYREL.PRED "_devanado_n_rel" ]. devanador_a1 := a_rel_nonprd_intr_le & [ STEM < "devanador" >, SYNSEM.LKEYS.KEYREL.PRED "_devanador_a_rel" ]. devanador_n1 := n_intr_count_le & [ STEM < "devanador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_devanador_n_rel" ] ]. devanadora_n1 := n_intr_count_le & [ STEM < "devanadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_devanadora_n_rel" ] ]. devanar_v := v_trans_np_le & [ STEM < "devanar" >, SYNSEM.LKEYS.KEYREL.PRED "_devanar_v_rel" ]. devaneo_n1 := n_result_intr_le & [ STEM < "devaneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_devaneo_n_rel" ] ]. devastación_n1 := n_trans_le & [ STEM < "devastación" >, SYNSEM.LKEYS.KEYREL.PRED "_devastación_n_rel" ]. devastador_a1 := a_qual_intr_scopal_le & [ STEM < "devastador" >, SYNSEM.LKEYS.KEYREL.PRED "_devastador_a_rel" ]. devastar_v := v_trans_np_le & [ STEM < "devastar" >, SYNSEM.LKEYS.KEYREL.PRED "_devastar_v_rel" ]. devengable_a1 := a_qual_intr_scopal_le & [ STEM < "devengable" >, SYNSEM.LKEYS.KEYREL.PRED "_devengable_a_rel" ]. devengar_v := v_trans_np_le & [ STEM < "devengar" >, SYNSEM.LKEYS.KEYREL.PRED "_devengar_v_rel" ]. devengo_n1 := n_intr_uncount_pl_le & [ STEM < "devengo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_devengo_n_rel" ] ]. devenir_n1 := n_intr_count_le & [ STEM < "devenir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_devenir_n_rel" ] ]. deverbativo_a1 := a_rel_nonprd_intr_le & [ STEM < "deverbativo" >, SYNSEM.LKEYS.KEYREL.PRED "_deverbativo_a_rel" ]. devoción_n1 := n_intr_mass-or-count_le & [ STEM < "devoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_devoción_n_rel" ] ]. devolución_n1 := n_trans_le & [ STEM < "devolución" >, SYNSEM.LKEYS.KEYREL.PRED "_devolución_n_rel" ]. devolutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "devolutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_devolutivo_a_rel" ]. devolver_v1 := v_ditrans*_le & [ STEM < "devolver" >, SYNSEM.LKEYS.KEYREL.PRED "_devolver_v_rel" ]. devolver_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "devolver" >, SYNSEM.LKEYS.KEYREL.PRED "_devolver_v_rel" ]. devolver_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "devolver" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_devolver_v_rel" ] ] ]. devorar_v := v_trans_np_le & [ STEM < "devorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_soc, PRED "_devorar_v_rel" ] ]. devoto_a1 := a_qual_trans*_ser_le & [ STEM < "devoto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_devoto_a_rel" ] ]. dextrano_n1 := n_intr_mass_le & [ STEM < "dextrano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dextrano_n_rel" ] ]. dextrina_n1 := n_intr_count_le & [ STEM < "dextrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dextrina_n_rel" ] ]. dextrogiratoriamente_x1 := av_i_spr_le & [ STEM < "dextrogiratoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrogiratoriamente_x_rel" ]. dextrorrotatoriamente_x1 := av_i_spr_le & [ STEM < "dextrorrotatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrorrotatoriamente_x_rel" ]. dextrorrotatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "dextrorrotatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrorrotatorio_a_rel" ]. dextrorsamente_x1 := av_i_spr_le & [ STEM < "dextrorsamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrorsamente_x_rel" ]. dextrorso_a1 := a_rel_nonprd_intr_le & [ STEM < "dextrorso" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrorso_a_rel" ]. dextrosa_n1 := n_intr_mass_le & [ STEM < "dextrosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dextrosa_n_rel" ] ]. dextrán_n1 := n_intr_mass-or-count_le & [ STEM < "dextrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dextrán_n_rel" ] ]. dextrógiro_a1 := a_rel_nonprd_intr_le & [ STEM < "dextrógiro" >, SYNSEM.LKEYS.KEYREL.PRED "_dextrógiro_a_rel" ]. deyección_n1 := n_intr_count_le & [ STEM < "deyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deyección_n_rel" ] ]. deíctico_n1 := n_intr_count_le & [ STEM < "deíctico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deíctico_n_rel" ] ]. deísmo_n1 := n_intr_uncount_le & [ STEM < "deísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_deísmo_n_rel" ] ]. deísta_a1 := a_qual_intr_ser_le & [ STEM < "deísta" >, SYNSEM.LKEYS.KEYREL.PRED "_deísta_a_rel" ]. deísta_n1 := n_intr_count_le & [ STEM < "deísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_deísta_n_rel" ] ]. diabasa_n1 := n_intr_count_le & [ STEM < "diabasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diabasa_n_rel" ] ]. diabetes_n1 := n_intr_uncount_le & [ STEM < "diabetes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diabetes_n_rel" ] ]. diabetología_n1 := n_intr_uncount_le & [ STEM < "diabetología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diabetología_n_rel" ] ]. diabla_n1 := n_intr_count_le & [ STEM < "diabla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_diabla_n_rel" ] ]. diablo_n1 := n_intr_count_le & [ STEM < "diablo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diablo_n_rel" ] ]. diabético_a1 := a_rel_nonprd_intr_le & [ STEM < "diabético" >, SYNSEM.LKEYS.KEYREL.PRED "_diabético_a_rel" ]. diabético_n1 := n_intr_count_le & [ STEM < "diabético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diabético_n_rel" ] ]. diabólico_a1 := a_qual_intr_scopal_le & [ STEM < "diabólico" >, SYNSEM.LKEYS.KEYREL.PRED "_diabólico_a_rel" ]. diacetilmorfina_n1 := n_intr_count_le & [ STEM < "diacetilmorfina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diacetilmorfina_n_rel" ] ]. diacetilo_n1 := n_intr_count_le & [ STEM < "diacetilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diacetilo_n_rel" ] ]. diacetina_n1 := n_intr_count_le & [ STEM < "diacetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diacetina_n_rel" ] ]. diacinesis_n1 := n_intr_uncount_le & [ STEM < "diacinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diacinesis_n_rel" ] ]. diacinético_a1 := a_rel_nonprd_intr_le & [ STEM < "diacinético" >, SYNSEM.LKEYS.KEYREL.PRED "_diacinético_a_rel" ]. diaclasa_n1 := n_intr_count_le & [ STEM < "diaclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diaclasa_n_rel" ] ]. diaconato_n1 := n_intr_count_le & [ STEM < "diaconato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diaconato_n_rel" ] ]. diaconisa_n1 := n_intr_count_le & [ STEM < "diaconisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diaconisa_n_rel" ] ]. diaconía_n1 := n_intr_uncount_pl_le & [ STEM < "diaconía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diaconía_n_rel" ] ]. diacronía_n1 := n_intr_uncount_pl_le & [ STEM < "diacronía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diacronía_n_rel" ] ]. diacrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "diacrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_diacrítico_a_rel" ]. diacrónicamente_x1 := av_i_spr_le & [ STEM < "diacrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diacrónicamente_x_rel" ]. diacrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "diacrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_diacrónico_a_rel" ]. diacínesis_n1 := n_intr_uncount_le & [ STEM < "diacínesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diacínesis_n_rel" ] ]. diadema_n1 := n_intr_count_le & [ STEM < "diadema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diadema_n_rel" ] ]. diafanidad_n1 := n_ppcomp_uncount_le & [ STEM < "diafanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diafanidad_n_rel" ] ]. diafanoscopia_n1 := n_intr_count_le & [ STEM < "diafanoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diafanoscopia_n_rel" ] ]. diafanómetro_n1 := n_intr_count_le & [ STEM < "diafanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diafanómetro_n_rel" ] ]. diafonía_n1 := n_intr_uncount_pl_le & [ STEM < "diafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diafonía_n_rel" ] ]. diafragma_n1 := n_intr_count_le & [ STEM < "diafragma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diafragma_n_rel" ] ]. diafragma_n2 := n_ppcomp_count_le & [ STEM < "diafragma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_diafragma_n_rel" ] ]. diafragmático_a1 := a_rel_nonprd_intr_le & [ STEM < "diafragmático" >, SYNSEM.LKEYS.KEYREL.PRED "_diafragmático_a_rel" ]. diagnosis_n1 := n_trans_le & [ STEM < "diagnosis" >, SYNSEM.LKEYS.KEYREL.PRED "_diagnosis_n_rel" ]. diagnosticar_v1 := v_ditrans*_le & [ STEM < "diagnosticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_diagnosticar_v_rel" ] ]. diagnosticar_v2 := v_trans_cp_prop_fin_le & [ STEM < "diagnosticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_diagnosticar_v_rel" ] ]. diagnóstico_a1 := a_rel_nonprd_intr_le & [ STEM < "diagnóstico" >, SYNSEM.LKEYS.KEYREL.PRED "_diagnóstico_a_rel" ]. diagnóstico_n1 := n_intr_count_le & [ STEM < "diagnóstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_diagnóstico_n_rel" ] ]. diagonal_a1 := a_qual_trans*_ser_le & [ STEM < "diagonal" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_diagonal_a_rel" ] ]. diagonal_n1 := n_intr_count_le & [ STEM < "diagonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diagonal_n_rel" ] ]. diagonalmente_x1 := av_i_spr_le & [ STEM < "diagonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_diagonalmente_x_rel" ]. diagrama_n1 := n_intr_count_le & [ STEM < "diagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_diagrama_n_rel" ] ]. diagramático_a1 := a_rel_nonprd_intr_le & [ STEM < "diagramático" >, SYNSEM.LKEYS.KEYREL.PRED "_diagramático_a_rel" ]. diagénesis_n1 := n_intr_uncount_le & [ STEM < "diagénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diagénesis_n_rel" ] ]. dial_n1 := n_intr_count_le & [ STEM < "dial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dial_n_rel" ] ]. dialectal_a1 := a_rel_nonprd_intr_le & [ STEM < "dialectal" >, SYNSEM.LKEYS.KEYREL.PRED "_dialectal_a_rel" ]. dialectalismo_n1 := n_intr_uncount_le & [ STEM < "dialectalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dialectalismo_n_rel" ] ]. dialecto_n1 := n_intr_count_le & [ STEM < "dialecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dialecto_n_rel" ] ]. dialectología_n1 := n_intr_uncount_le & [ STEM < "dialectología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dialectología_n_rel" ] ]. dialectólogo_n1 := n_intr_count_le & [ STEM < "dialectólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dialectólogo_n_rel" ] ]. dialilbarbitúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dialilbarbitúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dialilbarbitúrico_a_rel" ]. dializable_a1 := a_rel_nonprd_intr_le & [ STEM < "dializable" >, SYNSEM.LKEYS.KEYREL.PRED "_dializable_a_rel" ]. dializar_v := v_trans_np_le & [ STEM < "dializar" >, SYNSEM.LKEYS.KEYREL.PRED "_dializar_v_rel" ]. dialogante_a1 := a_qual_intr_scopal_le & [ STEM < "dialogante" >, SYNSEM.LKEYS.KEYREL.PRED "_dialogante_a_rel" ]. dialogar_v := v_intr_le & [ STEM < "dialogar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dialogar_v_rel" ] ]. dialéctica_n1 := n_intr_uncount_le & [ STEM < "dialéctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dialéctica_n_rel" ] ]. dialécticamente_x1 := av_i_spr_le & [ STEM < "dialécticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dialécticamente_x_rel" ]. dialéctico_a1 := a_rel_nonprd_intr_le & [ STEM < "dialéctico" >, SYNSEM.LKEYS.KEYREL.PRED "_dialéctico_a_rel" ]. diamagnetismo_n1 := n_intr_uncount_le & [ STEM < "diamagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diamagnetismo_n_rel" ] ]. diamagnéticamente_x1 := av_i_spr_le & [ STEM < "diamagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diamagnéticamente_x_rel" ]. diamagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "diamagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_diamagnético_a_rel" ]. diamante_n1 := n_intr_count_le & [ STEM < "diamante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diamante_n_rel" ] ]. diamantino_a1 := a_rel_nonprd_intr_le & [ STEM < "diamantino" >, SYNSEM.LKEYS.KEYREL.PRED "_diamantino_a_rel" ]. diamantista_n1 := n_intr_count_le & [ STEM < "diamantista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diamantista_n_rel" ] ]. diamantífero_a1 := a_rel_nonprd_intr_le & [ STEM < "diamantífero" >, SYNSEM.LKEYS.KEYREL.PRED "_diamantífero_a_rel" ]. diametral_a1 := a_rel_nonprd_intr_le & [ STEM < "diametral" >, SYNSEM.LKEYS.KEYREL.PRED "_diametral_a_rel" ]. diametralmente_x1 := av_i_spr_le & [ STEM < "diametralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_diametralmente_x_rel" ]. diamilfenol_n1 := n_intr_count_le & [ STEM < "diamilfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diamilfenol_n_rel" ] ]. diana_n1 := n_intr_count_le & [ STEM < "diana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_diana_n_rel" ] ]. dianegativamente_x1 := av_i_spr_le & [ STEM < "dianegativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dianegativamente_x_rel" ]. dianisidina_n1 := n_intr_count_le & [ STEM < "dianisidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dianisidina_n_rel" ] ]. dianteral_a1 := a_rel_nonprd_intr_le & [ STEM < "dianteral" >, SYNSEM.LKEYS.KEYREL.PRED "_dianteral_a_rel" ]. dianteralmente_x1 := av_i_spr_le & [ STEM < "dianteralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dianteralmente_x_rel" ]. diapasón_n1 := n_intr_count_le & [ STEM < "diapasón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diapasón_n_rel" ] ]. diapedesis_n1 := n_intr_uncount_le & [ STEM < "diapedesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diapedesis_n_rel" ] ]. diapirismo_n1 := n_intr_uncount_le & [ STEM < "diapirismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diapirismo_n_rel" ] ]. diapiro_n1 := n_intr_count_le & [ STEM < "diapiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diapiro_n_rel" ] ]. diapneusia_n1 := n_intr_uncount_le & [ STEM < "diapneusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diapneusia_n_rel" ] ]. diaporama_n1 := n_intr_count_le & [ STEM < "diaporama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_diaporama_n_rel" ] ]. diapositiva_n1 := n_intr_count_le & [ STEM < "diapositiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diapositiva_n_rel" ] ]. diariamente_x1 := av_s_prhd_le & [ STEM < "diariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diariamente_x_rel" ]. diariamente_x2 := av_i_psthd_le & [ STEM < "diariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diariamente_x_rel" ]. diario_a1 := a_rel_nonprd_intr_le & [ STEM < "diario" >, SYNSEM.LKEYS.KEYREL.PRED "_diario_a_rel" ]. diario_n1 := n_intr_count_le & [ STEM < "diario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_diario_n_rel" ] ]. diarrea_n1 := n_intr_uncount_le & [ STEM < "diarrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diarrea_n_rel" ] ]. diartrodial_a1 := a_rel_nonprd_intr_le & [ STEM < "diartrodial" >, SYNSEM.LKEYS.KEYREL.PRED "_diartrodial_a_rel" ]. diartrosis_n1 := n_intr_uncount_le & [ STEM < "diartrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diartrosis_n_rel" ] ]. diascopio_n1 := n_intr_count_le & [ STEM < "diascopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diascopio_n_rel" ] ]. diasistema_n1 := n_intr_uncount_pl_le & [ STEM < "diasistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diasistema_n_rel" ] ]. diasporámetro_n1 := n_intr_count_le & [ STEM < "diasporámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diasporámetro_n_rel" ] ]. diastasa_n1 := n_intr_count_le & [ STEM < "diastasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diastasa_n_rel" ] ]. diastema_n1 := n_intr_count_le & [ STEM < "diastema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_diastema_n_rel" ] ]. diastrofismo_n1 := n_intr_uncount_le & [ STEM < "diastrofismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diastrofismo_n_rel" ] ]. diastólico_a1 := a_rel_nonprd_intr_le & [ STEM < "diastólico" >, SYNSEM.LKEYS.KEYREL.PRED "_diastólico_a_rel" ]. diatermia_n1 := n_intr_uncount_le & [ STEM < "diatermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diatermia_n_rel" ] ]. diatomea_n1 := n_intr_count_le & [ STEM < "diatomea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_diatomea_n_rel" ] ]. diatomita_n1 := n_intr_count_le & [ STEM < "diatomita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diatomita_n_rel" ] ]. diatriba_n1 := n_intr_count_le & [ STEM < "diatriba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_diatriba_n_rel" ] ]. diatrizoato_n1 := n_intr_count_le & [ STEM < "diatrizoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diatrizoato_n_rel" ] ]. diatérmanamente_x1 := av_i_spr_le & [ STEM < "diatérmanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diatérmanamente_x_rel" ]. diatérmano_a1 := a_rel_nonprd_intr_le & [ STEM < "diatérmano" >, SYNSEM.LKEYS.KEYREL.PRED "_diatérmano_a_rel" ]. diatónico_a1 := a_rel_nonprd_intr_le & [ STEM < "diatónico" >, SYNSEM.LKEYS.KEYREL.PRED "_diatónico_a_rel" ]. diazometano_n1 := n_intr_count_le & [ STEM < "diazometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diazometano_n_rel" ] ]. dibenzantrona_n1 := n_intr_count_le & [ STEM < "dibenzantrona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibenzantrona_n_rel" ] ]. dibenzofurano_n1 := n_intr_count_le & [ STEM < "dibenzofurano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibenzofurano_n_rel" ] ]. dibromodifluometano_n1 := n_intr_count_le & [ STEM < "dibromodifluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibromodifluometano_n_rel" ] ]. dibromopropanol_n1 := n_intr_count_le & [ STEM < "dibromopropanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibromopropanol_n_rel" ] ]. dibromuro_n1 := n_intr_count_le & [ STEM < "dibromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dibromuro_n_rel" ] ]. dibucaína_n1 := n_intr_count_le & [ STEM < "dibucaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibucaína_n_rel" ] ]. dibujante_n1 := n_intr_count_le & [ STEM < "dibujante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dibujante_n_rel" ] ]. dibujar_v := v_trans_np_le & [ STEM < "dibujar" >, SYNSEM.LKEYS.KEYREL.PRED "_dibujar_v_rel" ]. dibujo_n1 := n_intr_count_le & [ STEM < "dibujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_dibujo_n_rel" ] ]. dibutilditiocarbamato_n1 := n_intr_count_le & [ STEM < "dibutilditiocarbamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibutilditiocarbamato_n_rel" ] ]. dibutiltiourea_n1 := n_intr_count_le & [ STEM < "dibutiltiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibutiltiourea_n_rel" ] ]. dibutoxitetraglicol_n1 := n_intr_count_le & [ STEM < "dibutoxitetraglicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dibutoxitetraglicol_n_rel" ] ]. dicarboximida_n1 := n_intr_count_le & [ STEM < "dicarboximida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicarboximida_n_rel" ] ]. diccionario_n1 := n_intr_count_le & [ STEM < "diccionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_diccionario_n_rel" ] ]. diccionarista_n1 := n_intr_count_le & [ STEM < "diccionarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diccionarista_n_rel" ] ]. dicción_n1 := n_intr_mass-or-count_le & [ STEM < "dicción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicción_n_rel" ] ]. dicetena_n1 := n_intr_mass-or-count_le & [ STEM < "dicetena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dicetena_n_rel" ] ]. dicetona_n1 := n_intr_count_le & [ STEM < "dicetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicetona_n_rel" ] ]. dicha_n1 := n_intr_mass_le & [ STEM < "dicha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicha_n_rel" ] ]. dicharachero_a1 := a_qual_intr_ser_le & [ STEM < "dicharachero" >, SYNSEM.LKEYS.KEYREL.PRED "_dicharachero_a_rel" ]. dicho_n1 := n_intr_count_le & [ STEM < "dicho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_dicho_n_rel" ] ]. dichosamente_x1 := av_i_spr_le & [ STEM < "dichosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dichosamente_x_rel" ]. dichoso_a1 := a_qual_intr_ser_le & [ STEM < "dichoso" >, SYNSEM.LKEYS.KEYREL.PRED "_dichoso_a_rel" ]. diciandiamida_n1 := n_intr_count_le & [ STEM < "diciandiamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diciandiamida_n_rel" ] ]. diciclohexilamina_n1 := n_intr_count_le & [ STEM < "diciclohexilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diciclohexilamina_n_rel" ] ]. diciclopentadieno_n1 := n_intr_uncount_le & [ STEM < "diciclopentadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diciclopentadieno_n_rel" ] ]. diciembre_n1 := n_intr_count_le & [ STEM < "diciembre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_diciembre_n_rel" ] ]. dicloroacetato_n1 := n_intr_count_le & [ STEM < "dicloroacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicloroacetato_n_rel" ] ]. diclorobenceno_n1 := n_intr_count_le & [ STEM < "diclorobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorobenceno_n_rel" ] ]. diclorodifluometano_n1 := n_intr_count_le & [ STEM < "diclorodifluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorodifluometano_n_rel" ] ]. dicloroestearato_n1 := n_intr_count_le & [ STEM < "dicloroestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicloroestearato_n_rel" ] ]. diclorofeniltriclorosilano_n1 := n_intr_count_le & [ STEM < "diclorofeniltriclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorofeniltriclorosilano_n_rel" ] ]. diclorofeno_n1 := n_intr_count_le & [ STEM < "diclorofeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorofeno_n_rel" ] ]. diclorofenoxiacetato_n1 := n_intr_count_le & [ STEM < "diclorofenoxiacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorofenoxiacetato_n_rel" ] ]. diclorofluometano_n1 := n_intr_count_le & [ STEM < "diclorofluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorofluometano_n_rel" ] ]. dicloroisocianurato_n1 := n_intr_count_le & [ STEM < "dicloroisocianurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicloroisocianurato_n_rel" ] ]. diclorometano_n1 := n_intr_count_le & [ STEM < "diclorometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diclorometano_n_rel" ] ]. dicloropentano_n1 := n_intr_count_le & [ STEM < "dicloropentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicloropentano_n_rel" ] ]. dicloruro_n1 := n_intr_count_le & [ STEM < "dicloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dicloruro_n_rel" ] ]. dicotomizar_v := v_trans_np_le & [ STEM < "dicotomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dicotomizar_v_rel" ]. dicotomía_n1 := n_intr_count_le & [ STEM < "dicotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicotomía_n_rel" ] ]. dicotómico_a1 := a_rel_prd_le & [ STEM < "dicotómico" >, SYNSEM.LKEYS.KEYREL.PRED "_dicotómico_a_rel" ]. dicroico_a1 := a_rel_nonprd_intr_le & [ STEM < "dicroico" >, SYNSEM.LKEYS.KEYREL.PRED "_dicroico_a_rel" ]. dicromatismo_n1 := n_intr_uncount_le & [ STEM < "dicromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicromatismo_n_rel" ] ]. dicromato_n1 := n_intr_count_le & [ STEM < "dicromato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicromato_n_rel" ] ]. dicroscopio_n1 := n_intr_count_le & [ STEM < "dicroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dicroscopio_n_rel" ] ]. dicroísmo_n1 := n_intr_uncount_le & [ STEM < "dicroísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicroísmo_n_rel" ] ]. dicroíta_n1 := n_intr_count_le & [ STEM < "dicroíta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dicroíta_n_rel" ] ]. dictado_n1 := n_intr_count_le & [ STEM < "dictado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_dictado_n_rel" ] ]. dictador_n1 := n_intr_count_le & [ STEM < "dictador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dictador_n_rel" ] ]. dictadura_n1 := n_intr_count_le & [ STEM < "dictadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dictadura_n_rel" ] ]. dictamen_n1 := n_intr_count_le & [ STEM < "dictamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_dictamen_n_rel" ] ]. dictaminar_v1 := v_trans_cp_prop_fin_le & [ STEM < "dictaminar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dictaminar_v_rel" ] ]. dictaminar_v2 := v_trans_np_le & [ STEM < "dictaminar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT sem, PRED "_dictaminar_v_rel" ] ]. dictar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "dictar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dictar_v_rel" ] ]. dictar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "dictar" >, SYNSEM.LKEYS.KEYREL.PRED "_dictar_v_rel" ]. dictar_v3 := v_ditrans*_le & [ STEM < "dictar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dictar_v_rel" ] ]. dictarorialmente_x1 := av_i_spr_le & [ STEM < "dictarorialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dictarorialmente_x_rel" ]. dictatorial_a1 := a_rel_nonprd_intr_le & [ STEM < "dictatorial" >, SYNSEM.LKEYS.KEYREL.PRED "_dictatorial_a_rel" ]. dictatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "dictatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_dictatorio_a_rel" ]. dicterio_n1 := n_intr_uncount_pl_le & [ STEM < "dicterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dicterio_n_rel" ] ]. dictiocinesis_n1 := n_intr_uncount_le & [ STEM < "dictiocinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dictiocinesis_n_rel" ] ]. dictiosoma_n1 := n_intr_uncount_pl_le & [ STEM < "dictiosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dictiosoma_n_rel" ] ]. dictáfono_n1 := n_intr_count_le & [ STEM < "dictáfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dictáfono_n_rel" ] ]. dictógrafo_n1 := n_intr_count_le & [ STEM < "dictógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dictógrafo_n_rel" ] ]. didimio_n1 := n_intr_count_le & [ STEM < "didimio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_didimio_n_rel" ] ]. didáctica_n1 := n_intr_uncount_le & [ STEM < "didáctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_didáctica_n_rel" ] ]. didácticamente_x1 := av_i_spr_le & [ STEM < "didácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_didácticamente_x_rel" ]. didáctico_a1 := a_qual_intr_scopal_le & [ STEM < "didáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_didáctico_a_rel" ]. diedro_n1 := n_intr_count_le & [ STEM < "diedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diedro_n_rel" ] ]. dieldrina_n1 := n_intr_count_le & [ STEM < "dieldrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dieldrina_n_rel" ] ]. dielectricidad_n1 := n_intr_uncount_le & [ STEM < "dielectricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dielectricidad_n_rel" ] ]. dieléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dieléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dieléctrico_a_rel" ]. dieléctrico_n1 := n_intr_count_le & [ STEM < "dieléctrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dieléctrico_n_rel" ] ]. dienestrol_n1 := n_intr_count_le & [ STEM < "dienestrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dienestrol_n_rel" ] ]. dieno_n1 := n_intr_count_le & [ STEM < "dieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dieno_n_rel" ] ]. diente_n1 := n_ppcomp_count_le & [ STEM < "diente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_diente_n_rel" ] ]. diente_n2 := n_pseudo-part_le & [ STEM < "diente" >, SYNSEM.LKEYS.KEYREL.PRED "_diente_n_rel" ]. diesel_a1 := a_rel_nonprd_intr_le & [ STEM < "diesel" >, SYNSEM.LKEYS.KEYREL.PRED "_diesel_a_rel" ]. diesel_n1 := n_intr_mass-or-count_le & [ STEM < "diesel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_diesel_n_rel" ] ]. dieseleléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dieseleléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dieseleléctrico_a_rel" ]. diestra_n1 := n_intr_count_le & [ STEM < "diestra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diestra_n_rel" ] ]. diestramente_x1 := av_i_spr_le & [ STEM < "diestramente" >, SYNSEM.LKEYS.KEYREL.PRED "_diestramente_x_rel" ]. diestro_a1 := a_rel_prd_le & [ STEM < "diestro" >, SYNSEM.LKEYS.KEYREL.PRED "_diestro_a_rel" ]. dieta_n1 := n_intr_mass-or-count_le & [ STEM < "dieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dieta_n_rel" ] ]. dietanolamina_n1 := n_intr_count_le & [ STEM < "dietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietanolamina_n_rel" ] ]. dietario_n1 := n_intr_count_le & [ STEM < "dietario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_dietario_n_rel" ] ]. dietilamina_n1 := n_intr_count_le & [ STEM < "dietilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilamina_n_rel" ] ]. dietilaminoetanol_n1 := n_intr_count_le & [ STEM < "dietilaminoetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilaminoetanol_n_rel" ] ]. dietilbenceno_n1 := n_intr_count_le & [ STEM < "dietilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilbenceno_n_rel" ] ]. dietildifenilurea_n1 := n_intr_count_le & [ STEM < "dietildifenilurea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietildifenilurea_n_rel" ] ]. dietilditiocarbamato_n1 := n_intr_count_le & [ STEM < "dietilditiocarbamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilditiocarbamato_n_rel" ] ]. dietilditiocarbámico_a1 := a_rel_nonprd_intr_le & [ STEM < "dietilditiocarbámico" >, SYNSEM.LKEYS.KEYREL.PRED "_dietilditiocarbámico_a_rel" ]. dietilentriamina_n1 := n_intr_count_le & [ STEM < "dietilentriamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilentriamina_n_rel" ] ]. dietilestilbestrol_n1 := n_intr_count_le & [ STEM < "dietilestilbestrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dietilestilbestrol_n_rel" ] ]. dietista_n1 := n_intr_count_le & [ STEM < "dietista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dietista_n_rel" ] ]. dietética_n1 := n_intr_uncount_le & [ STEM < "dietética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dietética_n_rel" ] ]. dietéticamente_x1 := av_i_spr_le & [ STEM < "dietéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dietéticamente_x_rel" ]. dietético_a1 := a_qual_intr_scopal_le & [ STEM < "dietético" >, SYNSEM.LKEYS.KEYREL.PRED "_dietético_a_rel" ]. diezmar_v := v_trans_np_le & [ STEM < "diezmar" >, SYNSEM.LKEYS.KEYREL.PRED "_diezmar_v_rel" ]. diezmo_n1 := n_intr_uncount_le & [ STEM < "diezmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diezmo_n_rel" ] ]. difamación_n1 := n_trans_le & [ STEM < "difamación" >, SYNSEM.LKEYS.KEYREL.PRED "_difamación_n_rel" ]. difamador_a1 := a_qual_intr_ser_le & [ STEM < "difamador" >, SYNSEM.LKEYS.KEYREL.PRED "_difamador_a_rel" ]. difamar_v := v_trans_np_le & [ STEM < "difamar" >, SYNSEM.LKEYS.KEYREL.PRED "_difamar_v_rel" ]. difamatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "difamatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_difamatorio_a_rel" ]. difenilacetonitrilo_n1 := n_intr_count_le & [ STEM < "difenilacetonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilacetonitrilo_n_rel" ] ]. difenilamina_n1 := n_intr_count_le & [ STEM < "difenilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilamina_n_rel" ] ]. difenilbencidina_n1 := n_intr_count_le & [ STEM < "difenilbencidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilbencidina_n_rel" ] ]. difenilcarbacida_n1 := n_intr_count_le & [ STEM < "difenilcarbacida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilcarbacida_n_rel" ] ]. difenildiclorosilano_n1 := n_intr_count_le & [ STEM < "difenildiclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenildiclorosilano_n_rel" ] ]. difenilguanidina_n1 := n_intr_count_le & [ STEM < "difenilguanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilguanidina_n_rel" ] ]. difenilhidantoína_n1 := n_intr_count_le & [ STEM < "difenilhidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilhidantoína_n_rel" ] ]. difenilmetano_n1 := n_intr_count_le & [ STEM < "difenilmetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilmetano_n_rel" ] ]. difenilnaftilendiamina_n1 := n_intr_count_le & [ STEM < "difenilnaftilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilnaftilendiamina_n_rel" ] ]. difenilo_n1 := n_intr_count_le & [ STEM < "difenilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilo_n_rel" ] ]. difenilsilanodiol_n1 := n_intr_count_le & [ STEM < "difenilsilanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difenilsilanodiol_n_rel" ] ]. diferencia_n1 := n_intr_mass-or-count_le & [ STEM < "diferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diferencia_n_rel" ] ]. diferenciable_a1 := a_qual_trans*_ser_le & [ STEM < "diferenciable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_diferenciable_a_rel" ] ]. diferenciablemente_x1 := av_i_spr_le & [ STEM < "diferenciablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_diferenciablemente_x_rel" ]. diferenciación_n1 := n_trans_le & [ STEM < "diferenciación" >, SYNSEM.LKEYS.KEYREL.PRED "_diferenciación_n_rel" ]. diferenciador_a1 := a_qual_intr_scopal_le & [ STEM < "diferenciador" >, SYNSEM.LKEYS.KEYREL.PRED "_diferenciador_a_rel" ]. diferenciador_n1 := n_intr_count_le & [ STEM < "diferenciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diferenciador_n_rel" ] ]. diferencial_a1 := a_rel_nonprd_intr_le & [ STEM < "diferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_diferencial_a_rel" ]. diferencial_n1 := n_intr_count_le & [ STEM < "diferencial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diferencial_n_rel" ] ]. diferencialmente_x1 := av_i_spr_le & [ STEM < "diferencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_diferencialmente_x_rel" ]. diferenciar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "diferenciar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_diferenciar_v_rel" ] ] ]. diferenciar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "diferenciar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_diferenciar_v_rel" ] ] ]. diferenciar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "diferenciar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_diferenciar_v_rel" ] ]. diferencógrafo_n1 := n_intr_count_le & [ STEM < "diferencógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diferencógrafo_n_rel" ] ]. diferente_a1 := a_qual_trans*_ser_le & [ STEM < "diferente" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_diferente_a_rel" ] ]. diferente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "diferente" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_diferente_a_rel" ] ]. diferente_a3 := a_qual_cp_ques_ser_le & [ STEM < "diferente" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_diferente_a_rel" ] ]. diferentemente_x1 := av_i_spr_le & [ STEM < "diferentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_diferentemente_x_rel" ]. diferir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "diferir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_diferir_v_rel" ] ] ]. diferir_v2 := v_intr_mrkd_np_le & [ STEM < "diferir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_diferir_v_rel" ] ] ]. diferir_v3 := v_intr_mrkd_np*_le & [ STEM < "diferir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_diferir_v_rel" ] ]. diferir_v4 := v_trans_np_le & [ STEM < "diferir" >, SYNSEM.LKEYS.KEYREL.PRED "_diferir_v_rel" ]. dificultad_n1 := n_intr_count_le & [ STEM < "dificultad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dificultad_n_rel" ] ]. dificultar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "dificultar" >, SYNSEM.LKEYS.KEYREL.PRED "_dificultar_v_rel" ]. dificultar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "dificultar" >, SYNSEM.LKEYS.KEYREL.PRED "_dificultar_v_rel" ]. dificultar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "dificultar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_dificultar_v_rel" ] ]. dificultar_v4 := v_trans_np_le & [ STEM < "dificultar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_dificultar_v_rel" ] ]. dificultosamente_x1 := av_i_spr_le & [ STEM < "dificultosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dificultosamente_x_rel" ]. dificultoso_a1 := a_qual_intr_scopal_le & [ STEM < "dificultoso" >, SYNSEM.LKEYS.KEYREL.PRED "_dificultoso_a_rel" ]. difilina_n1 := n_intr_count_le & [ STEM < "difilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_difilina_n_rel" ] ]. difluencia_n1 := n_result_intr_le & [ STEM < "difluencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difluencia_n_rel" ] ]. difosfato_n1 := n_intr_mass-or-count_le & [ STEM < "difosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_difosfato_n_rel" ] ]. difracción_n1 := n_intr_mass-or-count_le & [ STEM < "difracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difracción_n_rel" ] ]. difractómetro_n1 := n_intr_count_le & [ STEM < "difractómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_difractómetro_n_rel" ] ]. difrangentemente_x1 := av_i_spr_le & [ STEM < "difrangentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_difrangentemente_x_rel" ]. difteria_n1 := n_intr_uncount_le & [ STEM < "difteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difteria_n_rel" ] ]. diftérico_a1 := a_rel_nonprd_intr_le & [ STEM < "diftérico" >, SYNSEM.LKEYS.KEYREL.PRED "_diftérico_a_rel" ]. difuminación_n1 := n_trans_le & [ STEM < "difuminación" >, SYNSEM.LKEYS.KEYREL.PRED "_difuminación_n_rel" ]. difuminador_a1 := a_rel_nonprd_intr_le & [ STEM < "difuminador" >, SYNSEM.LKEYS.KEYREL.PRED "_difuminador_a_rel" ]. difuminar_v1 := v_trans_np_caus_le & [ STEM < "difuminar" >, SYNSEM.LKEYS.KEYREL.PRED "_difuminar_v_rel" ]. difundir_v1 := v_trans_cp_prop_fin_le & [ STEM < "difundir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_difundir_v_rel" ] ]. difundir_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "difundir" >, SYNSEM.LKEYS.KEYREL.PRED "_difundir_v_rel" ]. difunto_a1 := a_adv_event_le & [ STEM < "difunto" >, SYNSEM.LKEYS.KEYREL.PRED "_difunto_a_rel" ]. difunto_n1 := n_intr_count_le & [ STEM < "difunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_difunto_n_rel" ] ]. difusamente_x1 := av_i_spr_le & [ STEM < "difusamente" >, SYNSEM.LKEYS.KEYREL.PRED "_difusamente_x_rel" ]. difusibilidad_n1 := n_intr_uncount_le & [ STEM < "difusibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difusibilidad_n_rel" ] ]. difusional_a1 := a_rel_nonprd_intr_le & [ STEM < "difusional" >, SYNSEM.LKEYS.KEYREL.PRED "_difusional_a_rel" ]. difusionismo_n1 := n_intr_uncount_le & [ STEM < "difusionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difusionismo_n_rel" ] ]. difusivamente_x1 := av_i_spr_le & [ STEM < "difusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_difusivamente_x_rel" ]. difusividad_n1 := n_intr_uncount_le & [ STEM < "difusividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_difusividad_n_rel" ] ]. difusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "difusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_difusivo_a_rel" ]. difusión_n1 := n_trans_le & [ STEM < "difusión" >, SYNSEM.LKEYS.KEYREL.PRED "_difusión_n_rel" ]. difuso_a1 := a_qual_intr_scopal_le & [ STEM < "difuso" >, SYNSEM.LKEYS.KEYREL.PRED "_difuso_a_rel" ]. difusor_a1 := a_rel_nonprd_intr_le & [ STEM < "difusor" >, SYNSEM.LKEYS.KEYREL.PRED "_difusor_a_rel" ]. difusor_n1 := n_intr_count_le & [ STEM < "difusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_difusor_n_rel" ] ]. difícil_a1 := a_or_le & [ STEM < "difícil" >, SYNSEM.LKEYS.KEYREL.PRED "_difícil_a_rel" ]. difícil_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "difícil" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_difícil_a_rel" ] ]. difícilmente_x1 := av_s_prhd_spr_le & [ STEM < "difícilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_difícilmente_x_rel" ]. digerible_a1 := a_qual_intr_scopal_le & [ STEM < "digerible" >, SYNSEM.LKEYS.KEYREL.PRED "_digerible_a_rel" ]. digerir_v1 := v_trans_cp_prop_fin_le & [ STEM < "digerir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_digerir_v_rel" ] ]. digerir_v2 := v_trans_np*_le & [ STEM < "digerir" >, SYNSEM.LKEYS.KEYREL.PRED "_digerir_v_rel" ]. digestivo_a1 := a_qual_intr_scopal_le & [ STEM < "digestivo" >, SYNSEM.LKEYS.KEYREL.PRED "_digestivo_a_rel" ]. digestión_n1 := n_trans_le & [ STEM < "digestión" >, SYNSEM.LKEYS.KEYREL.PRED "_digestión_n_rel" ]. digesto_n1 := n_intr_count_le & [ STEM < "digesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_digesto_n_rel" ] ]. digestor_n1 := n_intr_count_le & [ STEM < "digestor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_digestor_n_rel" ] ]. digitación_n1 := n_intr_uncount_le & [ STEM < "digitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_digitación_n_rel" ] ]. digital_a1 := a_rel_nonprd_intr_le & [ STEM < "digital" >, SYNSEM.LKEYS.KEYREL.PRED "_digital_a_rel" ]. digitalina_n1 := n_intr_count_le & [ STEM < "digitalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_digitalina_n_rel" ] ]. digitalización_n1 := n_trans_le & [ STEM < "digitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_digitalización_n_rel" ]. digitalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "digitalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_digitalizador_a_rel" ]. digitalizador_n1 := n_intr_count_le & [ STEM < "digitalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_digitalizador_n_rel" ] ]. digitalizar_v := v_trans_np_le & [ STEM < "digitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_digitalizar_v_rel" ]. digitalmente_x1 := av_i_spr_le & [ STEM < "digitalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_digitalmente_x_rel" ]. digitoxina_n1 := n_intr_count_le & [ STEM < "digitoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_digitoxina_n_rel" ] ]. diglosia_n1 := n_intr_uncount_le & [ STEM < "diglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diglosia_n_rel" ] ]. dignamente_x1 := av_i_spr_le & [ STEM < "dignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dignamente_x_rel" ]. dignar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "dignar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_dignar_v_rel" ] ]. dignatario_n1 := n_intr_count_le & [ STEM < "dignatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dignatario_n_rel" ] ]. dignidad_n1 := n_ppcomp_mass_le & [ STEM < "dignidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dignidad_n_rel" ] ]. dignificación_n1 := n_trans_le & [ STEM < "dignificación" >, SYNSEM.LKEYS.KEYREL.PRED "_dignificación_n_rel" ]. dignificar_v := v_trans_np_le & [ STEM < "dignificar" >, SYNSEM.LKEYS.KEYREL.PRED "_dignificar_v_rel" ]. digno_a1 := a_qual_trans*_ser_le & [ STEM < "digno" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_digno_a_rel" ] ]. digno_a2 := a_sctrl_ser_le & [ STEM < "digno" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_digno_a_rel" ] ]. digresión_n1 := n_intr_count_le & [ STEM < "digresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_digresión_n_rel" ] ]. digástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "digástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_digástrico_a_rel" ]. dihidrocolesterol_n1 := n_intr_count_le & [ STEM < "dihidrocolesterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dihidrocolesterol_n_rel" ] ]. dihidroestreptomicina_n1 := n_intr_count_le & [ STEM < "dihidroestreptomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dihidroestreptomicina_n_rel" ] ]. dihidroxiacetona_n1 := n_intr_count_le & [ STEM < "dihidroxiacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dihidroxiacetona_n_rel" ] ]. diisobutilamina_n1 := n_intr_count_le & [ STEM < "diisobutilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diisobutilamina_n_rel" ] ]. diisobutileno_n1 := n_intr_count_le & [ STEM < "diisobutileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diisobutileno_n_rel" ] ]. diisocianato_n1 := n_intr_count_le & [ STEM < "diisocianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diisocianato_n_rel" ] ]. diisopropanolamina_n1 := n_intr_count_le & [ STEM < "diisopropanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diisopropanolamina_n_rel" ] ]. diisopropiltiourea_n1 := n_intr_count_le & [ STEM < "diisopropiltiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diisopropiltiourea_n_rel" ] ]. dilaceración_n1 := n_trans_le & [ STEM < "dilaceración" >, SYNSEM.LKEYS.KEYREL.PRED "_dilaceración_n_rel" ]. dilacerador_n1 := n_intr_count_le & [ STEM < "dilacerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dilacerador_n_rel" ] ]. dilación_n1 := n_intr_count_le & [ STEM < "dilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dilación_n_rel" ] ]. dilapidación_n1 := n_trans_le & [ STEM < "dilapidación" >, SYNSEM.LKEYS.KEYREL.PRED "_dilapidación_n_rel" ]. dilapidador_a1 := a_qual_intr_scopal_le & [ STEM < "dilapidador" >, SYNSEM.LKEYS.KEYREL.PRED "_dilapidador_a_rel" ]. dilapidador_n1 := n_subj-nom_le & [ STEM < "dilapidador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dilapidador_n_rel" ] ]. dilapidar_v := v_trans_np_le & [ STEM < "dilapidar" >, SYNSEM.LKEYS.KEYREL.PRED "_dilapidar_v_rel" ]. dilatación_n1 := n_result_intr_le & [ STEM < "dilatación" >, SYNSEM.LKEYS.KEYREL.PRED "_dilatación_n_rel" ]. dilatador_a1 := a_rel_nonprd_intr_le & [ STEM < "dilatador" >, SYNSEM.LKEYS.KEYREL.PRED "_dilatador_a_rel" ]. dilatador_n1 := n_intr_count_le & [ STEM < "dilatador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dilatador_n_rel" ] ]. dilatancia_n1 := n_intr_uncount_le & [ STEM < "dilatancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dilatancia_n_rel" ] ]. dilatar_v := v_trans_np_caus_le & [ STEM < "dilatar" >, SYNSEM.LKEYS.KEYREL.PRED "_dilatar_v_rel" ]. dilatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "dilatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_dilatorio_a_rel" ]. dilatómetro_n1 := n_intr_count_le & [ STEM < "dilatómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dilatómetro_n_rel" ] ]. dilaurato_n1 := n_intr_count_le & [ STEM < "dilaurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dilaurato_n_rel" ] ]. dilección_n1 := n_intr_mass_le & [ STEM < "dilección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dilección_n_rel" ] ]. dilema_n1 := n_intr_count_le & [ STEM < "dilema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dilema_n_rel" ] ]. diletante_n1 := n_intr_count_le & [ STEM < "diletante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diletante_n_rel" ] ]. diligencia_n1 := n_intr_count_le & [ STEM < "diligencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_diligencia_n_rel" ] ]. diligenciar_v := v_trans_np_le & [ STEM < "diligenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_diligenciar_v_rel" ]. diligente_a1 := a_qual_intr_ser_le & [ STEM < "diligente" >, SYNSEM.LKEYS.KEYREL.PRED "_diligente_a_rel" ]. diligentemente_x1 := av_i_spr_le & [ STEM < "diligentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_diligentemente_x_rel" ]. dilucidar_v1 := v_trans_cp_prop_fin_le & [ STEM < "dilucidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_dilucidar_v_rel" ] ]. dilucidar_v2 := v_trans_cp_semi_ques_le & [ STEM < "dilucidar" >, SYNSEM.LKEYS.KEYREL.PRED "_dilucidar_v_rel" ]. dilucidar_v3 := v_trans_np_le & [ STEM < "dilucidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_dilucidar_v_rel" ] ]. dilución_n1 := n_trans_le & [ STEM < "dilución" >, SYNSEM.LKEYS.KEYREL.PRED "_dilución_n_rel" ]. diluente_a1 := a_rel_nonprd_intr_le & [ STEM < "diluente" >, SYNSEM.LKEYS.KEYREL.PRED "_diluente_a_rel" ]. diluente_n1 := n_intr_count_le & [ STEM < "diluente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diluente_n_rel" ] ]. diluir_v := v_trans_np_caus_le & [ STEM < "diluir" >, SYNSEM.LKEYS.KEYREL.PRED "_diluir_v_rel" ]. diluviar_v := v_impers_strict_intr_le & [ STEM < "diluviar" >, SYNSEM.LKEYS.KEYREL.PRED "_diluviar_v_rel" ]. diluvio_n1 := n_intr_count_le & [ STEM < "diluvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_diluvio_n_rel" ] ]. diluyente_n1 := n_intr_mass-or-count_le & [ STEM < "diluyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_diluyente_n_rel" ] ]. dimaleato_n1 := n_intr_count_le & [ STEM < "dimaleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimaleato_n_rel" ] ]. dimanar_v1 := v_intr_mrkd_np*_le & [ STEM < "dimanar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "dimanar__v_rel" ] ]. dimanizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "dimanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dimanizar_v_rel" ]. dimanizar_v2 := v_trans_np_le & [ STEM < "dimanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dimanizar_v_rel" ]. dimenhidrinato_n1 := n_intr_count_le & [ STEM < "dimenhidrinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimenhidrinato_n_rel" ] ]. dimensional_a1 := a_rel_prd_le & [ STEM < "dimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_dimensional_a_rel" ]. dimensionalidad_n1 := n_intr_count_le & [ STEM < "dimensionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dimensionalidad_n_rel" ] ]. dimensionamiento_n1 := n_trans_le & [ STEM < "dimensionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_dimensionamiento_n_rel" ]. dimensionar_v := v_trans_np_le & [ STEM < "dimensionar" >, SYNSEM.LKEYS.KEYREL.PRED "_dimensionar_v_rel" ]. dimensión_n1 := n_intr_count_le & [ STEM < "dimensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dimensión_n_rel" ] ]. dimercaptoacetato_n1 := n_intr_count_le & [ STEM < "dimercaptoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimercaptoacetato_n_rel" ] ]. dimeticona_n1 := n_intr_count_le & [ STEM < "dimeticona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimeticona_n_rel" ] ]. dimetilacetal_n1 := n_intr_count_le & [ STEM < "dimetilacetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilacetal_n_rel" ] ]. dimetilacetamida_n1 := n_intr_count_le & [ STEM < "dimetilacetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilacetamida_n_rel" ] ]. dimetilamina_n1 := n_intr_count_le & [ STEM < "dimetilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilamina_n_rel" ] ]. dimetilaminoazobenceno_n1 := n_intr_count_le & [ STEM < "dimetilaminoazobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilaminoazobenceno_n_rel" ] ]. dimetilaminopropilamina_n1 := n_intr_count_le & [ STEM < "dimetilaminopropilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilaminopropilamina_n_rel" ] ]. dimetilanilina_n1 := n_intr_count_le & [ STEM < "dimetilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilanilina_n_rel" ] ]. dimetilbencilcarbinol_n1 := n_intr_count_le & [ STEM < "dimetilbencilcarbinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilbencilcarbinol_n_rel" ] ]. dimetilciclohexano_n1 := n_intr_count_le & [ STEM < "dimetilciclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilciclohexano_n_rel" ] ]. dimetildiclorosilano_n1 := n_intr_count_le & [ STEM < "dimetildiclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetildiclorosilano_n_rel" ] ]. dimetildifenilurea_n1 := n_intr_count_le & [ STEM < "dimetildifenilurea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetildifenilurea_n_rel" ] ]. dimetilditiocarbamato_n1 := n_intr_count_le & [ STEM < "dimetilditiocarbamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilditiocarbamato_n_rel" ] ]. dimetilglioxima_n1 := n_intr_count_le & [ STEM < "dimetilglioxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilglioxima_n_rel" ] ]. dimetilhexanodiol_n1 := n_intr_count_le & [ STEM < "dimetilhexanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilhexanodiol_n_rel" ] ]. dimetilhidantoína_n1 := n_intr_count_le & [ STEM < "dimetilhidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilhidantoína_n_rel" ] ]. dimetilisopropanolamina_n1 := n_intr_count_le & [ STEM < "dimetilisopropanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilisopropanolamina_n_rel" ] ]. dimetiloctanodiol_n1 := n_intr_count_le & [ STEM < "dimetiloctanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetiloctanodiol_n_rel" ] ]. dimetiloctinodiol_n1 := n_intr_count_le & [ STEM < "dimetiloctinodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetiloctinodiol_n_rel" ] ]. dimetilpiperacina_n1 := n_intr_count_le & [ STEM < "dimetilpiperacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetilpiperacina_n_rel" ] ]. dimetoxitetraglicol_n1 := n_intr_count_le & [ STEM < "dimetoxitetraglicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dimetoxitetraglicol_n_rel" ] ]. diminuendo_n1 := n_intr_count_le & [ STEM < "diminuendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diminuendo_n_rel" ] ]. diminutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "diminutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_diminutivo_a_rel" ]. diminutivo_n1 := n_intr_count_le & [ STEM < "diminutivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diminutivo_n_rel" ] ]. diminuto_a1 := a_qual_intr_scopal_le & [ STEM < "diminuto" >, SYNSEM.LKEYS.KEYREL.PRED "_diminuto_a_rel" ]. dimisionario_a1 := a_rel_nonprd_intr_le & [ STEM < "dimisionario" >, SYNSEM.LKEYS.KEYREL.PRED "_dimisionario_a_rel" ]. dimisión_n1 := n_result_intr_le & [ STEM < "dimisión" >, SYNSEM.LKEYS.KEYREL.PRED "_dimisión_n_rel" ]. dimitente_a1 := a_rel_nonprd_intr_le & [ STEM < "dimitente" >, SYNSEM.LKEYS.KEYREL.PRED "_dimitente_a_rel" ]. dimitir_v := v_intr_mrkd_np*_le & [ STEM < "dimitir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_dimitir_v_rel" ] ]. dimorfismo_n1 := n_intr_uncount_le & [ STEM < "dimorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dimorfismo_n_rel" ] ]. dimorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "dimorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_dimorfo_a_rel" ]. dimérico_a1 := a_rel_nonprd_intr_le & [ STEM < "dimérico" >, SYNSEM.LKEYS.KEYREL.PRED "_dimérico_a_rel" ]. dimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dimétrico_a_rel" ]. dina_n := n_intr_count_le & [ STEM < "dina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_dina_n_rel" ] ]. dinamismo_n1 := n_intr_mass_le & [ STEM < "dinamismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dinamismo_n_rel" ] ]. dinamita_n1 := n_intr_mass_le & [ STEM < "dinamita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinamita_n_rel" ] ]. dinamitar_v := v_trans_np_le & [ STEM < "dinamitar" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamitar_v_rel" ]. dinamitero_n1 := n_intr_count_le & [ STEM < "dinamitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dinamitero_n_rel" ] ]. dinamización_n1 := n_trans_le & [ STEM < "dinamización" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamización_n_rel" ]. dinamizador_n1 := n_intr_count_le & [ STEM < "dinamizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinamizador_n_rel" ] ]. dinamizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "dinamizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamizar_v_rel" ]. dinamo_n1 := n_intr_count_le & [ STEM < "dinamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_dinamo_n_rel" ] ]. dinamoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dinamoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamoeléctrico_a_rel" ]. dinamométricamente_x1 := av_i_spr_le & [ STEM < "dinamométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamométricamente_x_rel" ]. dinamométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dinamométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dinamométrico_a_rel" ]. dinamómetro_n1 := n_intr_count_le & [ STEM < "dinamómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinamómetro_n_rel" ] ]. dinar_n := n_intr_count_le & [ STEM < "dinar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_dinar_n_rel" ] ]. dinar_n1 := n_intr_count_le & [ STEM < "dinar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinar_n_rel" ] ]. dinasta_n1 := n_intr_count_le & [ STEM < "dinasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dinasta_n_rel" ] ]. dinastía_n1 := n_intr_coll_le & [ STEM < "dinastía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dinastía_n_rel" ] ]. dineral_n1 := n_intr_coll_le & [ STEM < "dineral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dineral_n_rel" ] ]. dinerario_a1 := a_rel_nonprd_intr_le & [ STEM < "dinerario" >, SYNSEM.LKEYS.KEYREL.PRED "_dinerario_a_rel" ]. dinero_n1 := n_intr_mass_le & [ STEM < "dinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinero_n_rel" ] ]. dinitrobenceno_n1 := n_intr_count_le & [ STEM < "dinitrobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dinitrobenceno_n_rel" ] ]. dinitrofenil_n1 := n_intr_count_le & [ STEM < "dinitrofenil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dinitrofenil_n_rel" ] ]. dinitrofenol_n1 := n_intr_count_le & [ STEM < "dinitrofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dinitrofenol_n_rel" ] ]. dinitronaftaleno_n1 := n_intr_count_le & [ STEM < "dinitronaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dinitronaftaleno_n_rel" ] ]. dinitrotolueno_n1 := n_intr_count_le & [ STEM < "dinitrotolueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dinitrotolueno_n_rel" ] ]. dinosaurio_n1 := n_intr_count_le & [ STEM < "dinosaurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dinosaurio_n_rel" ] ]. dintel_n1 := n_intr_count_le & [ STEM < "dintel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dintel_n_rel" ] ]. dinámica_n1 := n_intr_count_le & [ STEM < "dinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dinámica_n_rel" ] ]. dinámicamente_x1 := av_i_spr_le & [ STEM < "dinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dinámicamente_x_rel" ]. dinámico_a1 := a_qual_intr_scopal_le & [ STEM < "dinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_dinámico_a_rel" ]. dinástico_a1 := a_rel_nonprd_intr_le & [ STEM < "dinástico" >, SYNSEM.LKEYS.KEYREL.PRED "_dinástico_a_rel" ]. dinérico_a1 := a_rel_nonprd_intr_le & [ STEM < "dinérico" >, SYNSEM.LKEYS.KEYREL.PRED "_dinérico_a_rel" ]. diocesano_a1 := a_rel_nonprd_intr_le & [ STEM < "diocesano" >, SYNSEM.LKEYS.KEYREL.PRED "_diocesano_a_rel" ]. dioctaédrico_a1 := a_qual_intr_ser_le & [ STEM < "dioctaédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dioctaédrico_a_rel" ]. diodo_n1 := n_intr_count_le & [ STEM < "diodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diodo_n_rel" ] ]. dioptasa_n1 := n_intr_count_le & [ STEM < "dioptasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dioptasa_n_rel" ] ]. dioptría_n1 := n_intr_uncount_le & [ STEM < "dioptría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dioptría_n_rel" ] ]. dioptrómetro_n1 := n_intr_count_le & [ STEM < "dioptrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dioptrómetro_n_rel" ] ]. diorama_n1 := n_intr_count_le & [ STEM < "diorama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diorama_n_rel" ] ]. diorita_n1 := n_intr_count_le & [ STEM < "diorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diorita_n_rel" ] ]. dioríticamente_x1 := av_i_spr_le & [ STEM < "dioríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dioríticamente_x_rel" ]. dios_n1 := n_intr_count_le & [ STEM < "dios" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dios_n_rel" ] ]. dioxano_n1 := n_intr_count_le & [ STEM < "dioxano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dioxano_n_rel" ] ]. dioxina_n1 := n_intr_mass-or-count_le & [ STEM < "dioxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dioxina_n_rel" ] ]. dioxolano_n1 := n_intr_count_le & [ STEM < "dioxolano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dioxolano_n_rel" ] ]. dipentaeritritol_n1 := n_intr_count_le & [ STEM < "dipentaeritritol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dipentaeritritol_n_rel" ] ]. dipenteno_n1 := n_intr_count_le & [ STEM < "dipenteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dipenteno_n_rel" ] ]. diplexor_n1 := n_intr_count_le & [ STEM < "diplexor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_diplexor_n_rel" ] ]. diplobacilo_n1 := n_intr_count_le & [ STEM < "diplobacilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_diplobacilo_n_rel" ] ]. diplocromosoma_n1 := n_intr_count_le & [ STEM < "diplocromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diplocromosoma_n_rel" ] ]. diploedro_n1 := n_intr_count_le & [ STEM < "diploedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diploedro_n_rel" ] ]. diplofase_n1 := n_intr_count_le & [ STEM < "diplofase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplofase_n_rel" ] ]. diploico_a1 := a_rel_nonprd_intr_le & [ STEM < "diploico" >, SYNSEM.LKEYS.KEYREL.PRED "_diploico_a_rel" ]. diploide_a1 := a_rel_prd_le & [ STEM < "diploide" >, SYNSEM.LKEYS.KEYREL.PRED "_diploide_a_rel" ]. diploide_n1 := n_intr_count_le & [ STEM < "diploide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diploide_n_rel" ] ]. diploidia_n1 := n_intr_uncount_le & [ STEM < "diploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diploidia_n_rel" ] ]. diploidización_n1 := n_trans_le & [ STEM < "diploidización" >, SYNSEM.LKEYS.KEYREL.PRED "_diploidización_n_rel" ]. diploma_n1 := n_intr_count_le & [ STEM < "diploma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_diploma_n_rel" ] ]. diplomacia_n1 := n_intr_mass_le & [ STEM < "diplomacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplomacia_n_rel" ] ]. diplomado_n1 := n_intr_count_le & [ STEM < "diplomado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diplomado_n_rel" ] ]. diplomatura_n1 := n_intr_count_le & [ STEM < "diplomatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplomatura_n_rel" ] ]. diplomáticamente_x1 := av_i_spr_le & [ STEM < "diplomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diplomáticamente_x_rel" ]. diplomático_a1 := a_qual_intr_scopal_le & [ STEM < "diplomático" >, SYNSEM.LKEYS.KEYREL.PRED "_diplomático_a_rel" ]. diplomático_n1 := n_intr_count_le & [ STEM < "diplomático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diplomático_n_rel" ] ]. diplonte_n1 := n_intr_count_le & [ STEM < "diplonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplonte_n_rel" ] ]. diplopiómetro_n1 := n_intr_count_le & [ STEM < "diplopiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diplopiómetro_n_rel" ] ]. diplopía_n1 := n_intr_uncount_le & [ STEM < "diplopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplopía_n_rel" ] ]. diploscopio_n1 := n_intr_count_le & [ STEM < "diploscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diploscopio_n_rel" ] ]. diplosoma_n1 := n_intr_count_le & [ STEM < "diplosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diplosoma_n_rel" ] ]. dipnona_n1 := n_intr_count_le & [ STEM < "dipnona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dipnona_n_rel" ] ]. dipolar_a1 := a_rel_prd_le & [ STEM < "dipolar" >, SYNSEM.LKEYS.KEYREL.PRED "_dipolar_a_rel" ]. dipolarmente_x1 := av_i_spr_le & [ STEM < "dipolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dipolarmente_x_rel" ]. dipolo_n1 := n_intr_count_le & [ STEM < "dipolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dipolo_n_rel" ] ]. dipropionato_n1 := n_intr_count_le & [ STEM < "dipropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dipropionato_n_rel" ] ]. dipsomanía_n1 := n_intr_uncount_le & [ STEM < "dipsomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dipsomanía_n_rel" ] ]. diptongación_n1 := n_trans_le & [ STEM < "diptongación" >, SYNSEM.LKEYS.KEYREL.PRED "_diptongación_n_rel" ]. diptongo_n1 := n_intr_count_le & [ STEM < "diptongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diptongo_n_rel" ] ]. diputación_n1 := n_intr_count_le & [ STEM < "diputación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_diputación_n_rel" ] ]. diputado_n1 := n_intr_count_le & [ STEM < "diputado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diputado_n_rel" ] ]. dique_n1 := n_intr_count_le & [ STEM < "dique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dique_n_rel" ] ]. direccionable_a1 := a_rel_prd_le & [ STEM < "direccionable" >, SYNSEM.LKEYS.KEYREL.PRED "_direccionable_a_rel" ]. direccional_a1 := a_rel_prd_le & [ STEM < "direccional" >, SYNSEM.LKEYS.KEYREL.PRED "_direccional_a_rel" ]. direccionamiento_n1 := n_trans_le & [ STEM < "direccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_direccionamiento_n_rel" ]. direccionar_v := v_trans_np_lcomp_dir*_le & [ STEM < "direccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_direccionar_v_rel" ]. dirección_a_p_vmod := p_vmod_le & [ STEM < "dirección_a" >, SYNSEM.LKEYS.KEYREL.PRED _dirección_a_p_rel ]. dirección_n1 := n_intr_count_le & [ STEM < "dirección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_dirección_n_rel" ] ]. directamente_x1 := av_i_spr_le & [ STEM < "directamente" >, SYNSEM.LKEYS.KEYREL.PRED "_directamente_x_rel" ]. directiva_n1 := n_intr_count_le & [ STEM < "directiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem_soc, PRED "_directiva_n_rel" ] ]. directividad_n1 := n_intr_count_le & [ STEM < "directividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_directividad_n_rel" ] ]. directivo_a1 := a_rel_nonprd_intr_le & [ STEM < "directivo" >, SYNSEM.LKEYS.KEYREL.PRED "_directivo_a_rel" ]. directivo_n1 := n_intr_count_le & [ STEM < "directivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_directivo_n_rel" ] ]. directo_a1 := a_qual_intr_scopal_le & [ STEM < "directo" >, SYNSEM.LKEYS.KEYREL.PRED "_directo_a_rel" ]. director_a1 := a_rel_nonprd_intr_le & [ STEM < "director" >, SYNSEM.LKEYS.KEYREL.PRED "_director_a_rel" ]. director_artístico_n1 := n_intr_count_le & [ STEM < "director_artístico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_director_artístico_n_rel" ] ]. director_general_n1 := n_intr_count_le & [ STEM < "director_general" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_director_general_n_rel" ] ]. director_gerente_n1 := n_intr_count_le & [ STEM < "director_gerente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_director_gerente_n_rel" ] ]. director_n1 := n_subj-nom_le & [ STEM < "director" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_director_n_rel" ] ]. director_técnico_n1 := n_intr_count_le & [ STEM < "director_técnico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_director_técnico_n_rel" ] ]. directorial_a1 := a_rel_nonprd_intr_le & [ STEM < "directorial" >, SYNSEM.LKEYS.KEYREL.PRED "_directorial_a_rel" ]. directorio_n1 := n_intr_count_le & [ STEM < "directorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_directorio_n_rel" ] ]. directriz_n1 := n_intr_count_le & [ STEM < "directriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_directriz_n_rel" ] ]. diresorcina_n1 := n_intr_count_le & [ STEM < "diresorcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diresorcina_n_rel" ] ]. dirigente_a1 := a_rel_nonprd_intr_le & [ STEM < "dirigente" >, SYNSEM.LKEYS.KEYREL.PRED "_dirigente_a_rel" ]. dirigente_n1 := n_intr_count_le & [ STEM < "dirigente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dirigente_n_rel" ] ]. dirigibilidad_n1 := n_intr_mass_le & [ STEM < "dirigibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dirigibilidad_n_rel" ] ]. dirigible_a1 := a_rel_nonprd_intr_le & [ STEM < "dirigible" >, SYNSEM.LKEYS.KEYREL.PRED "_dirigible_a_rel" ]. dirigir_v1 := v_pron_intr_io_le & [ STEM < "dirigir" >, SYNSEM.LKEYS.KEYREL.PRED "_dirigir_v_rel" ]. dirigir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dirigir_v_rel" ] ] ]. dirigir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dirigir_v_rel" ] ] ]. dirigir_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_dirigir_v_rel" ] ]. dirigir_v5 := v_trans_np_le & [ STEM < "dirigir" >, SYNSEM.LKEYS.KEYREL.PRED "_dirigir_v_rel" ]. dirigir_v6 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dirigir_v_rel" ] ] ]. dirigir_v7 := v_trans_np_mrkd_np_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dirigir_v_rel" ] ] ]. dirigir_v8 := v_trans_np_mrkd_np_le & [ STEM < "dirigir" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_dirigir_v_rel" ] ]. dirigismo_n1 := n_intr_uncount_le & [ STEM < "dirigismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dirigismo_n_rel" ] ]. dirigista_a1 := a_rel_nonprd_intr_le & [ STEM < "dirigista" >, SYNSEM.LKEYS.KEYREL.PRED "_dirigista_a_rel" ]. dirimente_a1 := a_rel_nonprd_intr_le & [ STEM < "dirimente" >, SYNSEM.LKEYS.KEYREL.PRED "_dirimente_a_rel" ]. dirimir_v := v_trans_np_le & [ STEM < "dirimir" >, SYNSEM.LKEYS.KEYREL.PRED "_dirimir_v_rel" ]. disaraxia_n1 := n_intr_uncount_le & [ STEM < "disaraxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disaraxia_n_rel" ] ]. disartria_n1 := n_intr_uncount_le & [ STEM < "disartria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disartria_n_rel" ] ]. discapacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "discapacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discapacidad_n_rel" ] ]. discapacitado_a1 := a_qual_intr_ser_le & [ STEM < "discapacitado" >, SYNSEM.LKEYS.KEYREL.PRED "_discapacitado_a_rel" ]. discernible_a1 := a_qual_trans*_ser_le & [ STEM < "discernible" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_discernible_a_rel" ] ]. discernidor_a1 := a_rel_nonprd_intr_le & [ STEM < "discernidor" >, SYNSEM.LKEYS.KEYREL.PRED "_discernidor_a_rel" ]. discernimiento_n1 := n_trans_le & [ STEM < "discernimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_discernimiento_n_rel" ]. discernir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "discernir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_discernir_v_rel" ] ]. discernir_v2 := v_trans_np_le & [ STEM < "discernir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_discernir_v_rel" ] ]. discernir_v3 := v_trans_np_mrkd_np_le & [ STEM < "discernir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_discernir_v_rel" ] ]. disciplina_n1 := n_intr_mass_le & [ STEM < "disciplina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disciplina_n_rel" ] ]. disciplinario_a1 := a_rel_nonprd_intr_le & [ STEM < "disciplinario" >, SYNSEM.LKEYS.KEYREL.PRED "_disciplinario_a_rel" ]. disco_n1 := n_intr_count_le & [ STEM < "disco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disco_n_rel" ] ]. discografía_n1 := n_intr_coll_le & [ STEM < "discografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discografía_n_rel" ] ]. discográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "discográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_discográfico_a_rel" ]. discoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "discoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_discoidal_a_rel" ]. discoide_a1 := a_rel_nonprd_intr_le & [ STEM < "discoide" >, SYNSEM.LKEYS.KEYREL.PRED "_discoide_a_rel" ]. disconforme_a1 := a_qual_trans_ser_le & [ STEM < "disconforme" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_disconforme_a_rel" ] ]. disconformidad_n1 := n_intr_count_le & [ STEM < "disconformidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disconformidad_n_rel" ] ]. discontinuamente_x1 := av_i_spr_le & [ STEM < "discontinuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_discontinuamente_x_rel" ]. discontinuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "discontinuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discontinuidad_n_rel" ] ]. discontinuo_a1 := a_qual_intr_scopal_le & [ STEM < "discontinuo" >, SYNSEM.LKEYS.KEYREL.PRED "_discontinuo_a_rel" ]. discordancia_n1 := n_intr_mass_le & [ STEM < "discordancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discordancia_n_rel" ] ]. discordante_a1 := a_qual_intr_scopal_le & [ STEM < "discordante" >, SYNSEM.LKEYS.KEYREL.PRED "_discordante_a_rel" ]. discordantemente_x1 := av_i_spr_le & [ STEM < "discordantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_discordantemente_x_rel" ]. discordia_n1 := n_intr_mass_le & [ STEM < "discordia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discordia_n_rel" ] ]. discoteca_n1 := n_intr_count_le & [ STEM < "discoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_discoteca_n_rel" ] ]. discrasia_n1 := n_intr_uncount_le & [ STEM < "discrasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discrasia_n_rel" ] ]. discrasita_n1 := n_intr_count_le & [ STEM < "discrasita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_discrasita_n_rel" ] ]. discrecional_a1 := a_rel_nonprd_intr_le & [ STEM < "discrecional" >, SYNSEM.LKEYS.KEYREL.PRED "_discrecional_a_rel" ]. discrecionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "discrecionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discrecionalidad_n_rel" ] ]. discrecionalmente_x1 := av_i_spr_le & [ STEM < "discrecionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_discrecionalmente_x_rel" ]. discreción_n1 := n_intr_mass_le & [ STEM < "discreción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discreción_n_rel" ] ]. discrepancia_n1 := n_intr_mass-or-count_le & [ STEM < "discrepancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discrepancia_n_rel" ] ]. discrepante_a1 := a_qual_intr_scopal_le & [ STEM < "discrepante" >, SYNSEM.LKEYS.KEYREL.PRED "_discrepante_a_rel" ]. discrepar_v := v_intr_mrkd_np*_le & [ STEM < "discrepar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_discrepar_v_rel" ] ]. discretamente_x1 := av_deg_le & [ STEM < "discretamente" >, SYNSEM.LKEYS.KEYREL.PRED "_discretamente_x_rel" ]. discreto_a1 := a_qual_intr_ser_le & [ STEM < "discreto" >, SYNSEM.LKEYS.KEYREL.PRED "_discreto_a_rel" ]. discriminación_n1 := n_trans_le & [ STEM < "discriminación" >, SYNSEM.LKEYS.KEYREL.PRED "_discriminación_n_rel" ]. discriminador_a1 := a_rel_nonprd_intr_le & [ STEM < "discriminador" >, SYNSEM.LKEYS.KEYREL.PRED "_discriminador_a_rel" ]. discriminador_n1 := n_intr_count_le & [ STEM < "discriminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discriminador_n_rel" ] ]. discriminante_a1 := a_rel_nonprd_intr_le & [ STEM < "discriminante" >, SYNSEM.LKEYS.KEYREL.PRED "_discriminante_a_rel" ]. discriminante_n1 := n_intr_count_le & [ STEM < "discriminante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discriminante_n_rel" ] ]. discriminatoriamente_x1 := av_i_spr_le & [ STEM < "discriminatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_discriminatoriamente_x_rel" ]. discriminatorio_a1 := a_qual_intr_scopal_le & [ STEM < "discriminatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_discriminatorio_a_rel" ]. discromatopsia_n1 := n_intr_uncount_le & [ STEM < "discromatopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_discromatopsia_n_rel" ] ]. disculpa_n1 := n_intr_count_le & [ STEM < "disculpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disculpa_n_rel" ] ]. disculpable_a1 := a_rel_prd_le & [ STEM < "disculpable" >, SYNSEM.LKEYS.KEYREL.PRED "_disculpable_a_rel" ]. disculpante_a1 := a_rel_nonprd_intr_le & [ STEM < "disculpante" >, SYNSEM.LKEYS.KEYREL.PRED "_disculpante_a_rel" ]. disculpante_n1 := n_intr_count_le & [ STEM < "disculpante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_disculpante_n_rel" ] ]. disculpar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_caus_le & [ STEM < "disculpar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disculpar_v_rel" ] ]. disculpar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "disculpar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_disculpar_v_rel" ] ]. discurrir_v1 := v_trans_np*_le & [ STEM < "discurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_discurrir_v_rel" ]. discurrir_v2 := v_unacc_lcomp_dir*_le & [ STEM < "discurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_discurrir_v_rel" ]. discursivamente_x1 := av_i_spr_le & [ STEM < "discursivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_discursivamente_x_rel" ]. discursivo_a1 := a_rel_nonprd_intr_le & [ STEM < "discursivo" >, SYNSEM.LKEYS.KEYREL.PRED "_discursivo_a_rel" ]. discurso_n1 := n_intr_count_le & [ STEM < "discurso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_discurso_n_rel" ] ]. discusión_n1 := n_trans_le & [ STEM < "discusión" >, SYNSEM.LKEYS.KEYREL.PRED "_discusión_n_rel" ]. discutible_a1 := a_qual_intr_scopal_le & [ STEM < "discutible" >, SYNSEM.LKEYS.KEYREL.PRED "_discutible_a_rel" ]. discutiblemente_x1 := av_i_spr_le & [ STEM < "discutiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_discutiblemente_x_rel" ]. discutidor_a1 := a_qual_intr_ser_le & [ STEM < "discutidor" >, SYNSEM.LKEYS.KEYREL.PRED "_discutidor_a_rel" ]. discutidoramente_x1 := av_i_spr_le & [ STEM < "discutidoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_discutidoramente_x_rel" ]. discutir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "discutir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_discutir_v_rel" ] ]. discutir_v2 := v_ditrans*_le & [ STEM < "discutir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_discutir_v_rel" ] ]. discutir_v3 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "discutir" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_discutir_v_rel" ] ]. discutir_v4 := v_intr_mrkd_np_le & [ STEM < "discutir" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_discutir_v_rel" ] ]. discutir_v5 := v_trans_cp_semi_ques_le & [ STEM < "discutir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_discutir_v_rel" ] ]. discutir_v6 := v_trans_np*_mrkd_np_le & [ STEM < "discutir" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_discutir_v_rel" ] ] ]. discípulo_n1 := n_intr_count_le & [ STEM < "discípulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_discípulo_n_rel" ] ]. disecar_v := v_trans_np_le & [ STEM < "disecar" >, SYNSEM.LKEYS.KEYREL.PRED "_disecar_v_rel" ]. diseccionar_v := v_trans_np_le & [ STEM < "diseccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_diseccionar_v_rel" ]. disección_n1 := n_trans_le & [ STEM < "disección" >, SYNSEM.LKEYS.KEYREL.PRED "_disección_n_rel" ]. disector_n1 := n_subj-nom_le & [ STEM < "disector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_disector_n_rel" ] ]. diseminación_n1 := n_trans_le & [ STEM < "diseminación" >, SYNSEM.LKEYS.KEYREL.PRED "_diseminación_n_rel" ]. diseminar_v := v_trans_np_le & [ STEM < "diseminar" >, SYNSEM.LKEYS.KEYREL.PRED "_diseminar_v_rel" ]. disensión_n1 := n_intr_mass-or-count_le & [ STEM < "disensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disensión_n_rel" ] ]. disentería_n1 := n_intr_uncount_le & [ STEM < "disentería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disentería_n_rel" ] ]. disentimiento_n1 := n_result_intr_ppcomp_le & [ STEM < "disentimiento" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disentimiento_n_rel" ] ]. disentir_v1 := v_intr_mrkd_np*_le & [ STEM < "disentir" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_disentir_v_rel" ] ]. disentir_v2 := v_intr_mrkd_np_le & [ STEM < "disentir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_disentir_v_rel" ] ] ]. disentir_v3 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "disentir" >, SYNSEM.LKEYS [ --COMPKEY en_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_disentir_v_rel" ] ] ]. diseritropoyesis_n1 := n_intr_uncount_le & [ STEM < "diseritropoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diseritropoyesis_n_rel" ] ]. disertación_n1 := n_result_intr_le & [ STEM < "disertación" >, SYNSEM.LKEYS.KEYREL.PRED "_disertación_n_rel" ]. disertante_n1 := n_intr_count_le & [ STEM < "disertante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_disertante_n_rel" ] ]. disertar_v1 := v_intr_mrkd_np_le & [ STEM < "disertar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_disertar_v_rel" ] ]. disertar_v2 := v_intr_le & [ STEM < "disertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_disertar_v_rel" ] ]. diseñador_n1 := n_subj-nom_le & [ STEM < "diseñador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diseñador_n_rel" ] ]. diseñar_v := v_trans_np_le & [ STEM < "diseñar" >, SYNSEM.LKEYS.KEYREL.PRED "_diseñar_v_rel" ]. diseño_n1 := n_intr_count_le & [ STEM < "diseño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diseño_n_rel" ] ]. disfagia_n1 := n_intr_uncount_le & [ STEM < "disfagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disfagia_n_rel" ] ]. disfasia_n1 := n_intr_uncount_le & [ STEM < "disfasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disfasia_n_rel" ] ]. disfonía_n1 := n_intr_uncount_le & [ STEM < "disfonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disfonía_n_rel" ] ]. disfraz_n1 := n_intr_count_le & [ STEM < "disfraz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disfraz_n_rel" ] ]. disfrutar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "disfrutar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_disfrutar_v_rel" ] ] ]. disfrutar_v2 := v_intr_mrkd_np*_le & [ STEM < "disfrutar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_disfrutar_v_rel" ] ]. disfrutar_v3 := v_trans_np_le & [ STEM < "disfrutar" >, SYNSEM.LKEYS.KEYREL.PRED "_disfrutar_v_rel" ]. disfrute_n1 := n_trans_le & [ STEM < "disfrute" >, SYNSEM.LKEYS.KEYREL.PRED "_disfrute_n_rel" ]. disfunción_n1 := n_intr_count_le & [ STEM < "disfunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disfunción_n_rel" ] ]. disgammaglobulinemia_n1 := n_intr_uncount_le & [ STEM < "disgammaglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disgammaglobulinemia_n_rel" ] ]. disgenesia_n1 := n_intr_uncount_le & [ STEM < "disgenesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disgenesia_n_rel" ] ]. disglobulinemia_n1 := n_intr_uncount_le & [ STEM < "disglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disglobulinemia_n_rel" ] ]. disgregación_n1 := n_trans_le & [ STEM < "disgregación" >, SYNSEM.LKEYS.KEYREL.PRED "_disgregación_n_rel" ]. disgregar_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "disgregar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disgregar_v_rel" ] ]. disgustar_v1 := v_intr_io*_le & [ STEM < "disgustar" >, SYNSEM.LKEYS.KEYREL.PRED "_disgustar_v_rel" ]. disgustar_v2 := v_pron_intr_le & [ STEM < "disgustar" >, SYNSEM.LKEYS.KEYREL.PRED "_disgustar_v_rel" ]. disgustar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "disgustar" >, SYNSEM.LKEYS.KEYREL.PRED "_disgustar_v_rel" ]. disgusto_n1 := n_trans_le & [ STEM < "disgusto" >, SYNSEM.LKEYS.KEYREL.PRED "_disgusto_n_rel" ]. disgénesis_n1 := n_intr_uncount_le & [ STEM < "disgénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disgénesis_n_rel" ] ]. disidencia_n1 := n_result_intr_le & [ STEM < "disidencia" >, SYNSEM.LKEYS.KEYREL.PRED "_disidencia_n_rel" ]. disidente_a1 := a_rel_nonprd_intr_le & [ STEM < "disidente" >, SYNSEM.LKEYS.KEYREL.PRED "_disidente_a_rel" ]. disidente_n1 := n_intr_count_le & [ STEM < "disidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_disidente_n_rel" ] ]. disilicato_n1 := n_intr_count_le & [ STEM < "disilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_disilicato_n_rel" ] ]. disimilación_n1 := n_trans_le & [ STEM < "disimilación" >, SYNSEM.LKEYS.KEYREL.PRED "_disimilación_n_rel" ]. disimulación_n1 := n_trans_le & [ STEM < "disimulación" >, SYNSEM.LKEYS.KEYREL.PRED "_disimulación_n_rel" ]. disimular_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "disimular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_disimular_v_rel" ] ]. disimular_v2 := v_trans_np*_io*_le & [ STEM < "disimular" >, SYNSEM.LKEYS.KEYREL.PRED "_disimular_v_rel" ]. disimular_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "disimular" >, SYNSEM.LKEYS.KEYREL.PRED "_disimular_v_rel" ]. disimular_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "disimular" >, SYNSEM.LKEYS.KEYREL.PRED "_disimular_v_rel" ]. disimulo_n1 := n_trans_le & [ STEM < "disimulo" >, SYNSEM.LKEYS.KEYREL.PRED "_disimulo_n_rel" ]. disimétrico_a1 := a_rel_prd_le & [ STEM < "disimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_disimétrico_a_rel" ]. disipable_a1 := a_rel_prd_le & [ STEM < "disipable" >, SYNSEM.LKEYS.KEYREL.PRED "_disipable_a_rel" ]. disipación_n1 := n_trans_le & [ STEM < "disipación" >, SYNSEM.LKEYS.KEYREL.PRED "_disipación_n_rel" ]. disipadamente_x1 := av_i_spr_le & [ STEM < "disipadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_disipadamente_x_rel" ]. disipador_a1 := a_rel_nonprd_intr_le & [ STEM < "disipador" >, SYNSEM.LKEYS.KEYREL.PRED "_disipador_a_rel" ]. disipador_n1 := n_intr_count_le & [ STEM < "disipador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disipador_n_rel" ] ]. disipar_v := v_trans_np_caus_le & [ STEM < "disipar" >, SYNSEM.LKEYS.KEYREL.PRED "_disipar_v_rel" ]. disipativo_a1 := a_qual_intr_scopal_le & [ STEM < "disipativo" >, SYNSEM.LKEYS.KEYREL.PRED "_disipativo_a_rel" ]. disjunto_a1 := a_qual_intr_scopal_le & [ STEM < "disjunto" >, SYNSEM.LKEYS.KEYREL.PRED "_disjunto_a_rel" ]. diskette_n1 := n_intr_count_le & [ STEM < "diskette" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diskette_n_rel" ] ]. dislalia_n1 := n_intr_uncount_le & [ STEM < "dislalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dislalia_n_rel" ] ]. dislate_n1 := n_intr_count_le & [ STEM < "dislate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dislate_n_rel" ] ]. dislexia_n1 := n_intr_uncount_le & [ STEM < "dislexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dislexia_n_rel" ] ]. dislipemia_n1 := n_intr_uncount_le & [ STEM < "dislipemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dislipemia_n_rel" ] ]. dislocación_n1 := n_result_intr_le & [ STEM < "dislocación" >, SYNSEM.LKEYS.KEYREL.PRED "_dislocación_n_rel" ]. dislocar_v := v_trans_np_caus_le & [ STEM < "dislocar" >, SYNSEM.LKEYS.KEYREL.PRED "_dislocar_v_rel" ]. disléxico_a1 := a_rel_nonprd_intr_le & [ STEM < "disléxico" >, SYNSEM.LKEYS.KEYREL.PRED "_disléxico_a_rel" ]. disléxico_n1 := n_intr_count_le & [ STEM < "disléxico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_disléxico_n_rel" ] ]. disminución_n1 := n_trans_le & [ STEM < "disminución" >, SYNSEM.LKEYS.KEYREL.PRED "_disminución_n_rel" ]. disminuir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "disminuir" >, SYNSEM.LKEYS.KEYREL.PRED "_disminuir_v_rel" ]. disminuir_v2 := v_trans_np_le & [ STEM < "disminuir" >, SYNSEM.LKEYS.KEYREL.PRED "_disminuir_v_rel" ]. dismorfia_n1 := n_intr_uncount_le & [ STEM < "dismorfia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dismorfia_n_rel" ] ]. disnea_n1 := n_intr_uncount_le & [ STEM < "disnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disnea_n_rel" ] ]. disociación_n1 := n_trans_le & [ STEM < "disociación" >, SYNSEM.LKEYS.KEYREL.PRED "_disociación_n_rel" ]. disocial_a1 := a_rel_nonprd_intr_le & [ STEM < "disocial" >, SYNSEM.LKEYS.KEYREL.PRED "_disocial_a_rel" ]. disociar_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "disociar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disociar_v_rel" ] ]. disociativo_a1 := a_rel_nonprd_intr_le & [ STEM < "disociativo" >, SYNSEM.LKEYS.KEYREL.PRED "_disociativo_a_rel" ]. disoluble_a1 := a_qual_trans*_ser_le & [ STEM < "disoluble" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_disoluble_a_rel" ] ]. disolución_n1 := n_trans_le & [ STEM < "disolución" >, SYNSEM.LKEYS.KEYREL.PRED "_disolución_n_rel" ]. disoluto_a1 := a_rel_nonprd_intr_le & [ STEM < "disoluto" >, SYNSEM.LKEYS.KEYREL.PRED "_disoluto_a_rel" ]. disolvente_a1 := a_rel_nonprd_intr_le & [ STEM < "disolvente" >, SYNSEM.LKEYS.KEYREL.PRED "_disolvente_a_rel" ]. disolvente_n1 := n_intr_mass_le & [ STEM < "disolvente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disolvente_n_rel" ] ]. disolver_v := v_trans_np_caus_le & [ STEM < "disolver" >, SYNSEM.LKEYS.KEYREL.PRED "_disolver_v_rel" ]. disonancia_n1 := n_intr_mass_le & [ STEM < "disonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disonancia_n_rel" ] ]. disonante_a1 := a_rel_nonprd_intr_le & [ STEM < "disonante" >, SYNSEM.LKEYS.KEYREL.PRED "_disonante_a_rel" ]. disosmia_n1 := n_intr_uncount_le & [ STEM < "disosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disosmia_n_rel" ] ]. disostosis_n1 := n_intr_uncount_le & [ STEM < "disostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disostosis_n_rel" ] ]. dispar_a1 := a_qual_intr_scopal_le & [ STEM < "dispar" >, SYNSEM.LKEYS.KEYREL.PRED "_dispar_a_rel" ]. disparador_n1 := n_intr_count_le & [ STEM < "disparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disparador_n_rel" ] ]. disparar_v1 := v_trans_np*_io_le & [ STEM < "disparar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_disparar_v_rel" ] ]. disparar_v2 := v_intr_mrkd_np_le & [ STEM < "disparar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_pot_soc, ARG2.SORT non-hum, PRED "_disparar_v_rel" ] ] ]. disparar_v3 := v_pron_intr_le & [ STEM < "disparar" >, SYNSEM.LKEYS.KEYREL.PRED "_disparar_v_rel" ]. disparar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "disparar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_contra_p_sel_rel, KEYREL.PRED "_disparar_v_rel" ] ]. disparatadamente_x1 := av_i_spr_le & [ STEM < "disparatadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_disparatadamente_x_rel" ]. disparate_n1 := n_event-result_intr_le & [ STEM < "disparate" >, SYNSEM.LKEYS.KEYREL.PRED "_disparate_n_rel" ]. disparidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "disparidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disparidad_n_rel" ] ]. disparo_n1 := n_trans_le & [ STEM < "disparo" >, SYNSEM.LKEYS.KEYREL.PRED "_disparo_n_rel" ]. dispendio_n1 := n_intr_uncount_pl_le & [ STEM < "dispendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dispendio_n_rel" ] ]. dispensa_n1 := n_trans_le & [ STEM < "dispensa" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensa_n_rel" ]. dispensable_a1 := a_rel_prd_le & [ STEM < "dispensable" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensable_a_rel" ]. dispensación_n1 := n_trans_le & [ STEM < "dispensación" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensación_n_rel" ]. dispensador_a1 := a_rel_nonprd_intr_le & [ STEM < "dispensador" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensador_a_rel" ]. dispensador_n1 := n_intr_count_le & [ STEM < "dispensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dispensador_n_rel" ] ]. dispensar_v1 := v_ditrans*_le & [ STEM < "dispensar" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensar_v_rel" ]. dispensar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "dispensar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_dispensar_v_rel" ] ]. dispensar_v3 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "dispensar" >, SYNSEM.LKEYS.KEYREL.PRED "_dispensar_v_rel" ]. dispensario_n1 := n_intr_count_le & [ STEM < "dispensario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dispensario_n_rel" ] ]. dispepsia_n1 := n_intr_uncount_le & [ STEM < "dispepsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dispepsia_n_rel" ] ]. dispersador_n1 := n_intr_count_le & [ STEM < "dispersador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dispersador_n_rel" ] ]. dispersamente_x1 := av_i_spr_le & [ STEM < "dispersamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dispersamente_x_rel" ]. dispersar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "dispersar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dispersar_v_rel" ] ] ]. dispersar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "dispersar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dispersar_v_rel" ] ] ]. dispersar_v3 := v_trans_np_caus_le & [ STEM < "dispersar" >, SYNSEM.LKEYS.KEYREL.PRED "_dispersar_v_rel" ]. dispersivamente_x1 := av_i_spr_le & [ STEM < "dispersivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dispersivamente_x_rel" ]. dispersivo_a1 := a_rel_prd_le & [ STEM < "dispersivo" >, SYNSEM.LKEYS.KEYREL.PRED "_dispersivo_a_rel" ]. dispersión_n1 := n_trans_le & [ STEM < "dispersión" >, SYNSEM.LKEYS.KEYREL.PRED "_dispersión_n_rel" ]. disperso_a1 := a_qual_intr_ser_le & [ STEM < "disperso" >, SYNSEM.LKEYS.KEYREL.PRED "_disperso_a_rel" ]. dispersor_n1 := n_intr_count_le & [ STEM < "dispersor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_dispersor_n_rel" ] ]. displasia_n1 := n_intr_uncount_le & [ STEM < "displasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_displasia_n_rel" ] ]. displicente_a1 := a_qual_intr_scopal_le & [ STEM < "displicente" >, SYNSEM.LKEYS.KEYREL.PRED "_displicente_a_rel" ]. disponer_v1 := v_intr_mrkd_np_le & [ STEM < "disponer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_disponer_v_rel" ] ]. disponer_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "disponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_disponer_v_rel" ] ]. disponer_v4 := v_trans_np_le & [ STEM < "disponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_disponer_v_rel" ] ]. disponer_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "disponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_disponer_v_rel" ] ] ]. disponer_v6 := v_trans_np*_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "disponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_disponer_v_rel" ] ] ]. disponer_v7 := v_trans_np*_mrkd_np_le & [ STEM < "disponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_disponer_v_rel" ] ] ]. disponibilidad_n1 := n_intr_count_le & [ STEM < "disponibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disponibilidad_n_rel" ] ]. disponible_a1 := a_qual_trans*_estar_le & [ STEM < "disponible" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_disponible_a_rel" ] ]. disposición_n1 := n_intr_mass_le & [ STEM < "disposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_disposición_n_rel" ] ]. dispositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "dispositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_dispositivo_a_rel" ]. dispositivo_n1 := n_intr_count_le & [ STEM < "dispositivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_dispositivo_n_rel" ] ]. disprosio_n1 := n_intr_mass_le & [ STEM < "disprosio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_disprosio_n_rel" ] ]. dispuestamente_x1 := av_i_spr_le & [ STEM < "dispuestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dispuestamente_x_rel" ]. disputa_n1 := n_trans_le & [ STEM < "disputa" >, SYNSEM.LKEYS.KEYREL.PRED "_disputa_n_rel" ]. disputable_a1 := a_qual_intr_scopal_le & [ STEM < "disputable" >, SYNSEM.LKEYS.KEYREL.PRED "_disputable_a_rel" ]. disputar_v1 := v_ditrans*_le & [ STEM < "disputar" >, SYNSEM.LKEYS.KEYREL.PRED "_disputar_v_rel" ]. disputar_v2 := v_pron_trans_np_le & [ STEM < "disputar" >, SYNSEM.LKEYS.KEYREL.PRED "_disputar_v_rel" ]. dispéptico_a1 := a_rel_nonprd_intr_le & [ STEM < "dispéptico" >, SYNSEM.LKEYS.KEYREL.PRED "_dispéptico_a_rel" ]. disqueratosis_n1 := n_intr_uncount_le & [ STEM < "disqueratosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disqueratosis_n_rel" ] ]. disquet_n1 := n_intr_count_le & [ STEM < "disquet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disquet_n_rel" ] ]. disquete_n1 := n_intr_count_le & [ STEM < "disquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disquete_n_rel" ] ]. disquetera_n1 := n_intr_count_le & [ STEM < "disquetera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disquetera_n_rel" ] ]. disquisición_n1 := n_intr_count_le & [ STEM < "disquisición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disquisición_n_rel" ] ]. disruptivamente_x1 := av_i_spr_le & [ STEM < "disruptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_disruptivamente_x_rel" ]. disruptivo_a1 := a_qual_intr_scopal_le & [ STEM < "disruptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_disruptivo_a_rel" ]. disruptor_n1 := n_intr_count_le & [ STEM < "disruptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disruptor_n_rel" ] ]. distal_a1 := a_qual_intr_scopal_le & [ STEM < "distal" >, SYNSEM.LKEYS.KEYREL.PRED "_distal_a_rel" ]. distalmente_x1 := av_i_spr_le & [ STEM < "distalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_distalmente_x_rel" ]. distancia_n1 := n_intr_mass_le & [ STEM < "distancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_distancia_n_rel" ] ]. distanciador_a1 := a_rel_nonprd_intr_le & [ STEM < "distanciador" >, SYNSEM.LKEYS.KEYREL.PRED "_distanciador_a_rel" ]. distanciamiento_n1 := n_trans_le & [ STEM < "distanciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_distanciamiento_n_rel" ]. distanciar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "distanciar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_distanciar_v_rel" ] ]. distanciómetricamente_x1 := av_i_spr_le & [ STEM < "distanciómetricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_distanciómetricamente_x_rel" ]. distanciómetrico_a1 := a_rel_nonprd_intr_le & [ STEM < "distanciómetrico" >, SYNSEM.LKEYS.KEYREL.PRED "_distanciómetrico_a_rel" ]. distante_a1 := a_qual_intr_ser_le & [ STEM < "distante" >, SYNSEM.LKEYS.KEYREL.PRED "_distante_a_rel" ]. distante_a2 := a_qual_trans_estar_le & [ STEM < "distante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_distante_a_rel" ] ]. distearato_n1 := n_intr_count_le & [ STEM < "distearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_distearato_n_rel" ] ]. distena_n1 := n_intr_count_le & [ STEM < "distena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_distena_n_rel" ] ]. distender_v := v_trans_np_caus_le & [ STEM < "distender" >, SYNSEM.LKEYS.KEYREL.PRED "_distender_v_rel" ]. distensión_n1 := n_trans_le & [ STEM < "distensión" >, SYNSEM.LKEYS.KEYREL.PRED "_distensión_n_rel" ]. distimia_n1 := n_intr_uncount_le & [ STEM < "distimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_distimia_n_rel" ] ]. distinción_n1 := n_trans_le & [ STEM < "distinción" >, SYNSEM.LKEYS.KEYREL.PRED "_distinción_n_rel" ]. distingo_n1 := n_trans_le & [ STEM < "distingo" >, SYNSEM.LKEYS.KEYREL.PRED "_distingo_n_rel" ]. distinguible_a1 := a_qual_trans*_ser_le & [ STEM < "distinguible" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_distinguible_a_rel" ] ]. distinguir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "distinguir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_distinguir_v_rel" ] ] ]. distinguir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "distinguir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_distinguir_v_rel" ] ] ]. distinguir_v3 := v_trans_cp_prop_fin_le & [ STEM < "distinguir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_distinguir_v_rel" ] ]. distinguir_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "distinguir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_distinguir_v_rel" ] ]. distintamente_x1 := av_i_spr_le & [ STEM < "distintamente" >, SYNSEM.LKEYS.KEYREL.PRED "_distintamente_x_rel" ]. distintivo_a1 := a_qual_intr_scopal_le & [ STEM < "distintivo" >, SYNSEM.LKEYS.KEYREL.PRED "_distintivo_a_rel" ]. distintivo_n1 := n_intr_count_le & [ STEM < "distintivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_distintivo_n_rel" ] ]. distinto_a1 := a_qual_intr_estar_le & [ STEM < "distinto" >, SYNSEM.LKEYS.KEYREL.PRED "_distinto_a_rel" ]. distinto_a2 := a_qual_trans_ser_le & [ STEM < "distinto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_distinto_a_rel" ] ]. distinto_a3 := a_qual_cp_prop_fin_ser_le & [ STEM < "distinto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_distinto_a_rel" ] ]. distinto_a4 := a_qual_cp_ques_ser_le & [ STEM < "distinto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_distinto_a_rel" ] ]. distiquiasis_n1 := n_intr_uncount_le & [ STEM < "distiquiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_distiquiasis_n_rel" ] ]. distoangular_a1 := a_rel_nonprd_intr_le & [ STEM < "distoangular" >, SYNSEM.LKEYS.KEYREL.PRED "_distoangular_a_rel" ]. distobucal_a1 := a_rel_nonprd_intr_le & [ STEM < "distobucal" >, SYNSEM.LKEYS.KEYREL.PRED "_distobucal_a_rel" ]. distoclusal_a1 := a_rel_nonprd_intr_le & [ STEM < "distoclusal" >, SYNSEM.LKEYS.KEYREL.PRED "_distoclusal_a_rel" ]. distolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "distolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_distolingual_a_rel" ]. distomolar_n1 := n_ppcomp_count_le & [ STEM < "distomolar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_distomolar_n_rel" ] ]. distopía_n1 := n_intr_count_le & [ STEM < "distopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_distopía_n_rel" ] ]. distorsionador_a1 := a_rel_nonprd_intr_le & [ STEM < "distorsionador" >, SYNSEM.LKEYS.KEYREL.PRED "_distorsionador_a_rel" ]. distorsionar_v := v_trans_np_caus_le & [ STEM < "distorsionar" >, SYNSEM.LKEYS.KEYREL.PRED "_distorsionar_v_rel" ]. distorsión_n1 := n_trans_le & [ STEM < "distorsión" >, SYNSEM.LKEYS.KEYREL.PRED "_distorsión_n_rel" ]. distracción_n1 := n_trans_le & [ STEM < "distracción" >, SYNSEM.LKEYS.KEYREL.PRED "_distracción_n_rel" ]. distraer_v1 := v_intr_io*_le & [ STEM < "distraer" >, SYNSEM.LKEYS.KEYREL.PRED "_distraer_v_rel" ]. distraer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "distraer" >, SYNSEM.LKEYS.KEYREL.PRED "_distraer_v_rel" ]. distraer_v3 := v_trans_np_caus_le & [ STEM < "distraer" >, SYNSEM.LKEYS.KEYREL.PRED "_distraer_v_rel" ]. distribucional_a1 := a_rel_nonprd_intr_le & [ STEM < "distribucional" >, SYNSEM.LKEYS.KEYREL.PRED "_distribucional_a_rel" ]. distribucionalismo_n1 := n_intr_uncount_le & [ STEM < "distribucionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_distribucionalismo_n_rel" ] ]. distribución_n1 := n_trans_le & [ STEM < "distribución" >, SYNSEM.LKEYS.KEYREL.PRED "_distribución_n_rel" ]. distribuible_a1 := a_rel_prd_le & [ STEM < "distribuible" >, SYNSEM.LKEYS.KEYREL.PRED "_distribuible_a_rel" ]. distribuidor_a1 := a_rel_nonprd_intr_le & [ STEM < "distribuidor" >, SYNSEM.LKEYS.KEYREL.PRED "_distribuidor_a_rel" ]. distribuidor_n1 := n_intr_count_le & [ STEM < "distribuidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_distribuidor_n_rel" ] ]. distribuidor_n2 := n_subj-nom_le & [ STEM < "distribuidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_distribuidor_n_rel" ] ]. distribuidora_n1 := n_intr_count_le & [ STEM < "distribuidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_distribuidora_n_rel" ] ]. distribuir_v1 := v_ditrans_le & [ STEM < "distribuir" >, SYNSEM.LKEYS.KEYREL.PRED "_distribuir_v_rel" ]. distribuir_v2 := v_trans_np_lcomp_loc*_le & [ STEM < "distribuir" >, SYNSEM.LKEYS.KEYREL.PRED "_distribuir_v_rel" ]. distributivamente_x1 := av_i_spr_le & [ STEM < "distributivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_distributivamente_x_rel" ]. distributivo_a1 := a_rel_nonprd_intr_le & [ STEM < "distributivo" >, SYNSEM.LKEYS.KEYREL.PRED "_distributivo_a_rel" ]. distrito_n1 := n_intr_count_le & [ STEM < "distrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_distrito_n_rel" ] ]. distrofia_n1 := n_intr_count_le & [ STEM < "distrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_distrofia_n_rel" ] ]. distrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "distrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_distrófico_a_rel" ]. disturbio_n1 := n_trans_le & [ STEM < "disturbio" >, SYNSEM.LKEYS.KEYREL.PRED "_disturbio_n_rel" ]. disuadir_v1 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "disuadir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disuadir_v_rel" ] ]. disuadir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "disuadir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_disuadir_v_rel" ] ]. disuasivo_a1 := a_qual_intr_scopal_le & [ STEM < "disuasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_disuasivo_a_rel" ]. disuasión_n1 := n_trans_le & [ STEM < "disuasión" >, SYNSEM.LKEYS.KEYREL.PRED "_disuasión_n_rel" ]. disuasor_a1 := a_rel_nonprd_intr_le & [ STEM < "disuasor" >, SYNSEM.LKEYS.KEYREL.PRED "_disuasor_a_rel" ]. disuasorio_a1 := a_qual_intr_scopal_le & [ STEM < "disuasorio" >, SYNSEM.LKEYS.KEYREL.PRED "_disuasorio_a_rel" ]. disulfiram_n1 := n_intr_count_le & [ STEM < "disulfiram" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disulfiram_n_rel" ] ]. disulfuro_n1 := n_intr_count_le & [ STEM < "disulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_disulfuro_n_rel" ] ]. disyunción_n1 := n_trans_le & [ STEM < "disyunción" >, SYNSEM.LKEYS.KEYREL.PRED "_disyunción_n_rel" ]. disyuntiva_n1 := n_intr_count_le & [ STEM < "disyuntiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disyuntiva_n_rel" ] ]. disyuntivamente_x1 := av_i_spr_le & [ STEM < "disyuntivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_disyuntivamente_x_rel" ]. disyuntivo_a1 := a_rel_prd_le & [ STEM < "disyuntivo" >, SYNSEM.LKEYS.KEYREL.PRED "_disyuntivo_a_rel" ]. disyuntor_n1 := n_intr_count_le & [ STEM < "disyuntor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_disyuntor_n_rel" ] ]. disílabo_n1 := n_intr_count_le & [ STEM < "disílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_disílabo_n_rel" ] ]. diterpeno_n1 := n_intr_count_le & [ STEM < "diterpeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diterpeno_n_rel" ] ]. ditiocarbámico_a1 := a_rel_nonprd_intr_le & [ STEM < "ditiocarbámico" >, SYNSEM.LKEYS.KEYREL.PRED "_ditiocarbámico_a_rel" ]. ditiooxamida_n1 := n_intr_count_le & [ STEM < "ditiooxamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ditiooxamida_n_rel" ] ]. ditiopirofosfato_n1 := n_intr_count_le & [ STEM < "ditiopirofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ditiopirofosfato_n_rel" ] ]. ditirambo_n1 := n_intr_count_le & [ STEM < "ditirambo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ditirambo_n_rel" ] ]. ditizona_n1 := n_intr_count_le & [ STEM < "ditizona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ditizona_n_rel" ] ]. diuranato_n1 := n_intr_count_le & [ STEM < "diuranato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diuranato_n_rel" ] ]. diurnamente_x1 := av_i_spr_le & [ STEM < "diurnamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diurnamente_x_rel" ]. diurno_a1 := a_rel_nonprd_intr_le & [ STEM < "diurno" >, SYNSEM.LKEYS.KEYREL.PRED "_diurno_a_rel" ]. diurético_a1 := a_rel_nonprd_intr_le & [ STEM < "diurético" >, SYNSEM.LKEYS.KEYREL.PRED "_diurético_a_rel" ]. diurético_n1 := n_intr_mass_le & [ STEM < "diurético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diurético_n_rel" ] ]. diva_n1 := n_intr_count_le & [ STEM < "diva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diva_n_rel" ] ]. divagación_n1 := n_result_intr_le & [ STEM < "divagación" >, SYNSEM.LKEYS.KEYREL.PRED "_divagación_n_rel" ]. divagador_a1 := a_qual_intr_scopal_le & [ STEM < "divagador" >, SYNSEM.LKEYS.KEYREL.PRED "_divagador_a_rel" ]. divagante_a1 := a_qual_intr_ser_le & [ STEM < "divagante" >, SYNSEM.LKEYS.KEYREL.PRED "_divagante_a_rel" ]. divagar_v := v_intr_le & [ STEM < "divagar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_divagar_v_rel" ] ]. divalente_a1 := a_rel_nonprd_intr_le & [ STEM < "divalente" >, SYNSEM.LKEYS.KEYREL.PRED "_divalente_a_rel" ]. divergencia_n1 := n_result_intr_le & [ STEM < "divergencia" >, SYNSEM.LKEYS.KEYREL.PRED "_divergencia_n_rel" ]. divergente_a1 := a_qual_intr_scopal_le & [ STEM < "divergente" >, SYNSEM.LKEYS.KEYREL.PRED "_divergente_a_rel" ]. divergir_v1 := v_intr_mrkd_np*_le & [ STEM < "divergir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_divergir_v_rel" ] ]. diversamente_x1 := av_i_spr_le & [ STEM < "diversamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diversamente_x_rel" ]. diversidad_n1 := n_intr_count_le & [ STEM < "diversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diversidad_n_rel" ] ]. diversificación_n1 := n_trans_le & [ STEM < "diversificación" >, SYNSEM.LKEYS.KEYREL.PRED "_diversificación_n_rel" ]. diversificar_v := v_trans_np_le & [ STEM < "diversificar" >, SYNSEM.LKEYS.KEYREL.PRED "_diversificar_v_rel" ]. diversión_n1 := n_trans_le & [ STEM < "diversión" >, SYNSEM.LKEYS.KEYREL.PRED "_diversión_n_rel" ]. diverso_a1 := a_qual_intr_scopal_le & [ STEM < "diverso" >, SYNSEM.LKEYS.KEYREL.PRED "_diverso_a_rel" ]. divertidamente_x1 := av_i_spr_le & [ STEM < "divertidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_divertidamente_x_rel" ]. divertimento_n1 := n_result_intr_le & [ STEM < "divertimento" >, SYNSEM.LKEYS.KEYREL.PRED "_divertimento_n_rel" ]. divertimiento_n1 := n_trans_le & [ STEM < "divertimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_divertimiento_n_rel" ]. divertimiento_n2 := n_intr_count_le & [ STEM < "divertimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divertimiento_n_rel" ] ]. divertir_v1 := v_intr_io*_le & [ STEM < "divertir" >, SYNSEM.LKEYS.KEYREL.PRED "_divertir_v_rel" ]. divertir_v2 := v_pron_intr_le & [ STEM < "divertir" >, SYNSEM.LKEYS.KEYREL.PRED "_divertir_v_rel" ]. divertir_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "divertir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_divertir_v_rel" ] ] ]. divertir_v4 := v_pron_intr_mrkd_np_le & [ STEM < "divertir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_divertir_v_rel" ] ] ]. divertir_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "divertir" >, SYNSEM.LKEYS.KEYREL.PRED "_divertir_v_rel" ]. divertículo_n1 := n_intr_count_le & [ STEM < "divertículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_divertículo_n_rel" ] ]. dividendo_n1 := n_intr_count_le & [ STEM < "dividendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dividendo_n_rel" ] ]. dividir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "dividir" >, SYNSEM.LKEYS.KEYREL.PRED "_dividir_v_rel" ]. dividir_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "dividir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_dividir_v_rel" ] ]. divinamente_x1 := av_i_spr_le & [ STEM < "divinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_divinamente_x_rel" ]. divinidad_n1 := n_intr_count_le & [ STEM < "divinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divinidad_n_rel" ] ]. divinilbenceno_n1 := n_intr_count_le & [ STEM < "divinilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_divinilbenceno_n_rel" ] ]. divino_a1 := a_qual_intr_scopal_le & [ STEM < "divino" >, SYNSEM.LKEYS.KEYREL.PRED "_divino_a_rel" ]. divisa_n1 := n_intr_count_le & [ STEM < "divisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_divisa_n_rel" ] ]. divisar_v := v_trans_np_le & [ STEM < "divisar" >, SYNSEM.LKEYS.KEYREL.PRED "_divisar_v_rel" ]. divisibilidad_n1 := n_ppcomp_uncount_le & [ STEM < "divisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divisibilidad_n_rel" ] ]. divisible_a1 := a_qual_trans*_ser_le & [ STEM < "divisible" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_divisible_a_rel" ] ]. divisional_a1 := a_rel_nonprd_intr_le & [ STEM < "divisional" >, SYNSEM.LKEYS.KEYREL.PRED "_divisional_a_rel" ]. divisionario_a1 := a_rel_nonprd_intr_le & [ STEM < "divisionario" >, SYNSEM.LKEYS.KEYREL.PRED "_divisionario_a_rel" ]. división_n1 := n_trans_le & [ STEM < "división" >, SYNSEM.LKEYS.KEYREL.PRED "_división_n_rel" ]. divisor_a1 := a_rel_nonprd_intr_le & [ STEM < "divisor" >, SYNSEM.LKEYS.KEYREL.PRED "_divisor_a_rel" ]. divisor_n1 := n_intr_count_le & [ STEM < "divisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divisor_n_rel" ] ]. divisoria_n1 := n_intr_count_le & [ STEM < "divisoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divisoria_n_rel" ] ]. divisorio_a1 := a_rel_nonprd_intr_le & [ STEM < "divisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_divisorio_a_rel" ]. divorciado_n1 := n_intr_count_le & [ STEM < "divorciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_divorciado_n_rel" ] ]. divorciar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "divorciar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_divorciar_v_rel" ] ]. divorcio_n1 := n_trans_le & [ STEM < "divorcio" >, SYNSEM.LKEYS.KEYREL.PRED "_divorcio_n_rel" ]. divulgación_n1 := n_trans_le & [ STEM < "divulgación" >, SYNSEM.LKEYS.KEYREL.PRED "_divulgación_n_rel" ]. divulgador_a1 := a_rel_nonprd_intr_le & [ STEM < "divulgador" >, SYNSEM.LKEYS.KEYREL.PRED "_divulgador_a_rel" ]. divulgador_n1 := n_intr_count_le & [ STEM < "divulgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_divulgador_n_rel" ] ]. divulgar_v1 := v_trans_cp_prop_fin_le & [ STEM < "divulgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_divulgar_v_rel" ] ]. divulgar_v2 := v_trans_np_le & [ STEM < "divulgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT sem, PRED "_divulgar_v_rel" ] ]. divulgativo_a1 := a_qual_intr_scopal_le & [ STEM < "divulgativo" >, SYNSEM.LKEYS.KEYREL.PRED "_divulgativo_a_rel" ]. diván_n1 := n_intr_count_le & [ STEM < "diván" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diván_n_rel" ] ]. dixantogenato_n1 := n_intr_count_le & [ STEM < "dixantogenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dixantogenato_n_rel" ] ]. diyodohidroxiquinolina_n1 := n_intr_count_le & [ STEM < "diyodohidroxiquinolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diyodohidroxiquinolina_n_rel" ] ]. diyodotironina_n1 := n_intr_count_le & [ STEM < "diyodotironina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diyodotironina_n_rel" ] ]. diácono_n1 := n_intr_count_le & [ STEM < "diácono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_diácono_n_rel" ] ]. diádico_a1 := a_rel_nonprd_intr_le & [ STEM < "diádico" >, SYNSEM.LKEYS.KEYREL.PRED "_diádico_a_rel" ]. diáfano_a1 := a_qual_intr_scopal_le & [ STEM < "diáfano" >, SYNSEM.LKEYS.KEYREL.PRED "_diáfano_a_rel" ]. diáfisis_n1 := n_intr_uncount_pl_le & [ STEM < "diáfisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diáfisis_n_rel" ] ]. diálaga_n1 := n_intr_count_le & [ STEM < "diálaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diálaga_n_rel" ] ]. diálisis_n1 := n_intr_count_le & [ STEM < "diálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diálisis_n_rel" ] ]. diálogo_n1 := n_result_intr_le & [ STEM < "diálogo" >, SYNSEM.LKEYS.KEYREL.PRED "_diálogo_n_rel" ]. diámetro_n1 := n_intr_count_le & [ STEM < "diámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diámetro_n_rel" ] ]. diáspora_n1 := n_intr_count_le & [ STEM < "diáspora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_diáspora_n_rel" ] ]. diásporo_n1 := n_intr_uncount_le & [ STEM < "diásporo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diásporo_n_rel" ] ]. diástilo_a1 := a_rel_nonprd_intr_le & [ STEM < "diástilo" >, SYNSEM.LKEYS.KEYREL.PRED "_diástilo_a_rel" ]. diátesis_n1 := n_intr_uncount_le & [ STEM < "diátesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_diátesis_n_rel" ] ]. diéresis_n1 := n_intr_count_le & [ STEM < "diéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_diéresis_n_rel" ] ]. diésel_n1 := n_intr_mass-or-count_le & [ STEM < "diésel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_diésel_n_rel" ] ]. diócesis_n1 := n_intr_count_le & [ STEM < "diócesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_diócesis_n_rel" ] ]. diódicamente_x1 := av_i_spr_le & [ STEM < "diódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_diódicamente_x_rel" ]. diódico_a1 := a_rel_nonprd_intr_le & [ STEM < "diódico" >, SYNSEM.LKEYS.KEYREL.PRED "_diódico_a_rel" ]. diópsido_n1 := n_intr_count_le & [ STEM < "diópsido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_diópsido_n_rel" ] ]. dióptricamente_x1 := av_i_spr_le & [ STEM < "dióptricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dióptricamente_x_rel" ]. dióptrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dióptrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dióptrico_a_rel" ]. dióxido_n1 := n_intr_mass_le & [ STEM < "dióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dióxido_n_rel" ] ]. do_ut_des_x1 := av_i_le & [ STEM < "do_ut_des" >, SYNSEM.LKEYS.KEYREL.PRED "_do_ut_des_x_rel" ]. dobladillo_n1 := n_intr_count_le & [ STEM < "dobladillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dobladillo_n_rel" ] ]. dobladura_n1 := n_trans_le & [ STEM < "dobladura" >, SYNSEM.LKEYS.KEYREL.PRED "_dobladura_n_rel" ]. doblaje_n1 := n_trans_le & [ STEM < "doblaje" >, SYNSEM.LKEYS.KEYREL.PRED "_doblaje_n_rel" ]. doblamiento_n1 := n_trans_le & [ STEM < "doblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_doblamiento_n_rel" ]. doblar_v1 := v_trans_np_caus_le & [ STEM < "doblar" >, SYNSEM.LKEYS.KEYREL.PRED "_doblar_v_rel" ]. doblar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "doblar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_doblar_v_rel" ] ] ]. doblar_v3 := v_trans_np*_mrkd_np_le & [ STEM < "doblar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_doblar_v_rel" ] ] ]. doble_a := nu_mult-adj_le & [ STEM < "doble" >, SYNSEM.LKEYS.KEYREL.PRED "_doble_a_rel" ]. doble_n1 := n_intr_count_le & [ STEM < "doble" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doble_n_rel" ] ]. doblegar_v := v_trans_np_caus_le & [ STEM < "doblegar" >, SYNSEM.LKEYS.KEYREL.PRED "_doblegar_v_rel" ]. doblete_n1 := n_intr_count_le & [ STEM < "doblete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_doblete_n_rel" ] ]. doblez_n1 := n_intr_count_le & [ STEM < "doblez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_doblez_n_rel" ] ]. doblista_n1 := n_intr_count_le & [ STEM < "doblista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_doblista_n_rel" ] ]. doblón_n := n_intr_count_le & [ STEM < "doblón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_unit, PRED "_doblón_n_rel" ] ]. doblón_n1 := n_intr_count_le & [ STEM < "doblón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_doblón_n_rel" ] ]. dobok_n1 := n_intr_count_le & [ STEM < "dobok" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dobok_n_rel" ] ]. docencia_n1 := n_intr_uncount_le & [ STEM < "docencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_docencia_n_rel" ] ]. docente_a1 := a_rel_nonprd_intr_le & [ STEM < "docente" >, SYNSEM.LKEYS.KEYREL.PRED "_docente_a_rel" ]. docilidad_n1 := n_ppcomp_mass_le & [ STEM < "docilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_docilidad_n_rel" ] ]. docto_a1 := a_qual_intr_ser_le & [ STEM < "docto" >, SYNSEM.LKEYS.KEYREL.PRED "_docto_a_rel" ]. doctor_n1 := n_intr_count_le & [ STEM < "doctor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_doctor_n_rel" ] ]. doctorado_n1 := n_intr_count_le & [ STEM < "doctorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doctorado_n_rel" ] ]. doctoral_a1 := a_rel_nonprd_intr_le & [ STEM < "doctoral" >, SYNSEM.LKEYS.KEYREL.PRED "_doctoral_a_rel" ]. doctorando_n1 := n_intr_count_le & [ STEM < "doctorando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_doctorando_n_rel" ] ]. doctorar_v := v_pron_intr_mrkd_np*_le & [ STEM < "doctorar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL.PRED "_doctorar_v_rel" ] ]. doctrina_n1 := n_intr_count_le & [ STEM < "doctrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doctrina_n_rel" ] ]. doctrinal_a1 := a_rel_nonprd_intr_le & [ STEM < "doctrinal" >, SYNSEM.LKEYS.KEYREL.PRED "_doctrinal_a_rel" ]. doctrinario_a1 := a_rel_nonprd_intr_le & [ STEM < "doctrinario" >, SYNSEM.LKEYS.KEYREL.PRED "_doctrinario_a_rel" ]. docudrama_n1 := n_intr_count_le & [ STEM < "docudrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_docudrama_n_rel" ] ]. documentación_n1 := n_trans_le & [ STEM < "documentación" >, SYNSEM.LKEYS.KEYREL.PRED "_documentación_n_rel" ]. documental_a1 := a_rel_nonprd_intr_le & [ STEM < "documental" >, SYNSEM.LKEYS.KEYREL.PRED "_documental_a_rel" ]. documental_n1 := n_intr_count_le & [ STEM < "documental" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_documental_n_rel" ] ]. documentalmente_x1 := av_i_spr_le & [ STEM < "documentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_documentalmente_x_rel" ]. documentario_a1 := a_rel_nonprd_intr_le & [ STEM < "documentario" >, SYNSEM.LKEYS.KEYREL.PRED "_documentario_a_rel" ]. documento_n1 := n_intr_count_le & [ STEM < "documento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_documento_n_rel" ] ]. documentoscopia_n1 := n_intr_uncount_pl_le & [ STEM < "documentoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_documentoscopia_n_rel" ] ]. dodecaedro_n1 := n_intr_count_le & [ STEM < "dodecaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_dodecaedro_n_rel" ] ]. dodecafonía_n1 := n_intr_count_le & [ STEM < "dodecafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dodecafonía_n_rel" ] ]. dodecasílabo_n1 := n_intr_count_le & [ STEM < "dodecasílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dodecasílabo_n_rel" ] ]. dodecenilsuccínico_a1 := a_rel_nonprd_intr_le & [ STEM < "dodecenilsuccínico" >, SYNSEM.LKEYS.KEYREL.PRED "_dodecenilsuccínico_a_rel" ]. dodeceno_n1 := n_intr_count_le & [ STEM < "dodeceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dodeceno_n_rel" ] ]. dodecil_n1 := n_intr_mass-or-count_le & [ STEM < "dodecil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dodecil_n_rel" ] ]. dodecilbenceno_n1 := n_intr_count_le & [ STEM < "dodecilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dodecilbenceno_n_rel" ] ]. dodecilfenol_n1 := n_intr_count_le & [ STEM < "dodecilfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dodecilfenol_n_rel" ] ]. dodecágono_n1 := n_intr_count_le & [ STEM < "dodecágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dodecágono_n_rel" ] ]. dogma_n1 := n_intr_count_le & [ STEM < "dogma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dogma_n_rel" ] ]. dogmatismo_n1 := n_intr_uncount_le & [ STEM < "dogmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dogmatismo_n_rel" ] ]. dogmatizador_n1 := n_intr_count_le & [ STEM < "dogmatizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dogmatizador_n_rel" ] ]. dogmático_a1 := a_qual_intr_scopal_le & [ STEM < "dogmático" >, SYNSEM.LKEYS.KEYREL.PRED "_dogmático_a_rel" ]. doguillo_n1 := n_intr_count_le & [ STEM < "doguillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_doguillo_n_rel" ] ]. dolarización_n1 := n_trans_le & [ STEM < "dolarización" >, SYNSEM.LKEYS.KEYREL.PRED "_dolarización_n_rel" ]. dolencia_n1 := n_intr_count_le & [ STEM < "dolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dolencia_n_rel" ] ]. doler_v1 := v_intr_io*_le & [ STEM < "doler" >, SYNSEM.LKEYS.KEYREL.PRED "_doler_v_rel" ]. doler_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "doler" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_doler_v_rel" ] ] ]. doler_v3 := v_pron_intr_mrkd_np_le & [ STEM < "doler" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_doler_v_rel" ] ] ]. doler_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "doler" >, SYNSEM.LKEYS.KEYREL.PRED "_doler_v_rel" ]. dolicocéfalo_a1 := a_qual_intr_ser_le & [ STEM < "dolicocéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_dolicocéfalo_a_rel" ]. doliente_a1 := a_qual_intr_scopal_le & [ STEM < "doliente" >, SYNSEM.LKEYS.KEYREL.PRED "_doliente_a_rel" ]. dolina_n1 := n_intr_count_le & [ STEM < "dolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_dolina_n_rel" ] ]. dolmen_n1 := n_intr_count_le & [ STEM < "dolmen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_dolmen_n_rel" ] ]. dolo_n1 := n_intr_uncount_le & [ STEM < "dolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dolo_n_rel" ] ]. dolomita_n1 := n_intr_uncount_pl_le & [ STEM < "dolomita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dolomita_n_rel" ] ]. dolomía_n1 := n_intr_count_le & [ STEM < "dolomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_dolomía_n_rel" ] ]. dolor_n1 := n_intr_mass_le & [ STEM < "dolor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dolor_n_rel" ] ]. dolor_n2 := n_intr_uncount_pl_le & [ STEM < "dolor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dolor_n_rel" ] ]. dolorido_a1 := a_qual_intr_estar_le & [ STEM < "dolorido" >, SYNSEM.LKEYS.KEYREL.PRED "_dolorido_a_rel" ]. dolorosamente_x1 := av_i_spr_le & [ STEM < "dolorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dolorosamente_x_rel" ]. doloroso_a1 := a_qual_intr_scopal_le & [ STEM < "doloroso" >, SYNSEM.LKEYS.KEYREL.PRED "_doloroso_a_rel" ]. doloso_a1 := a_rel_nonprd_intr_le & [ STEM < "doloso" >, SYNSEM.LKEYS.KEYREL.PRED "_doloso_a_rel" ]. doma_n1 := n_trans_le & [ STEM < "doma" >, SYNSEM.LKEYS.KEYREL.PRED "_doma_n_rel" ]. domable_a1 := a_qual_intr_scopal_le & [ STEM < "domable" >, SYNSEM.LKEYS.KEYREL.PRED "_domable_a_rel" ]. domador_n1 := n_subj-nom_le & [ STEM < "domador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_domador_n_rel" ] ]. domadura_n1 := n_trans_le & [ STEM < "domadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_domadura_n_rel" ] ]. domar_v := v_trans_np_le & [ STEM < "domar" >, SYNSEM.LKEYS.KEYREL.PRED "_domar_v_rel" ]. domesticable_a1 := a_qual_intr_scopal_le & [ STEM < "domesticable" >, SYNSEM.LKEYS.KEYREL.PRED "_domesticable_a_rel" ]. domesticación_n1 := n_trans_le & [ STEM < "domesticación" >, SYNSEM.LKEYS.KEYREL.PRED "_domesticación_n_rel" ]. domesticar_v := v_trans_np_le & [ STEM < "domesticar" >, SYNSEM.LKEYS.KEYREL.PRED "_domesticar_v_rel" ]. domiciliación_n1 := n_trans_le & [ STEM < "domiciliación" >, SYNSEM.LKEYS.KEYREL.PRED "_domiciliación_n_rel" ]. domiciliar_v := v_trans_np_lcomp_loc*_le & [ STEM < "domiciliar" >, SYNSEM.LKEYS.KEYREL.PRED "_domiciliar_v_rel" ]. domiciliario_a1 := a_rel_nonprd_intr_le & [ STEM < "domiciliario" >, SYNSEM.LKEYS.KEYREL.PRED "_domiciliario_a_rel" ]. domicilio_n1 := n_intr_count_le & [ STEM < "domicilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_domicilio_n_rel" ] ]. dominación_n1 := n_trans_le & [ STEM < "dominación" >, SYNSEM.LKEYS.KEYREL.PRED "_dominación_n_rel" ]. dominador_a1 := a_rel_nonprd_intr_le & [ STEM < "dominador" >, SYNSEM.LKEYS.KEYREL.PRED "_dominador_a_rel" ]. dominancia_n1 := n_intr_uncount_le & [ STEM < "dominancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dominancia_n_rel" ] ]. dominante_a1 := a_qual_intr_scopal_le & [ STEM < "dominante" >, SYNSEM.LKEYS.KEYREL.PRED "_dominante_a_rel" ]. dominar_v1 := v_pron_intr_le & [ STEM < "dominar" >, SYNSEM.LKEYS.KEYREL.PRED "_dominar_v_rel" ]. dominar_v2 := v_trans_np_le & [ STEM < "dominar" >, SYNSEM.LKEYS.KEYREL.PRED "_dominar_v_rel" ]. dominar_v3 := v_trans_cp_semi_ques_le & [ STEM < "dominar" >, SYNSEM.LKEYS.KEYREL.PRED "_dominar_v_rel" ]. dominical_a1 := a_rel_nonprd_intr_le & [ STEM < "dominical" >, SYNSEM.LKEYS.KEYREL.PRED "_dominical_a_rel" ]. dominicano_a1 := a_rel_prd_le & [ STEM < "dominicano" >, SYNSEM.LKEYS.KEYREL.PRED "_dominicano_a_rel" ]. dominicano_n1 := n_intr_count_le & [ STEM < "dominicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dominicano_n_rel" ] ]. dominico_n1 := n_intr_count_le & [ STEM < "dominico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dominico_n_rel" ] ]. dominio_n1 := n_intr_mass-or-count_le & [ STEM < "dominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dominio_n_rel" ] ]. dominó_n1 := n_intr_count_le & [ STEM < "dominó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dominó_n_rel" ] ]. domo_n1 := n_intr_count_le & [ STEM < "domo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_domo_n_rel" ] ]. domésticamente_x1 := av_i_spr_le & [ STEM < "domésticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_domésticamente_x_rel" ]. doméstico_a1 := a_rel_nonprd_intr_le & [ STEM < "doméstico" >, SYNSEM.LKEYS.KEYREL.PRED "_doméstico_a_rel" ]. domótica_n1 := n_intr_uncount_le & [ STEM < "domótica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_domótica_n_rel" ] ]. domótico_a1 := a_rel_nonprd_intr_le & [ STEM < "domótico" >, SYNSEM.LKEYS.KEYREL.PRED "_domótico_a_rel" ]. don_n1 := n_intr_count_le & [ STEM < "don" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_don_n_rel" ] ]. donación_n1 := n_trans_le & [ STEM < "donación" >, SYNSEM.LKEYS.KEYREL.PRED "_donación_n_rel" ]. donador_n1 := n_intr_count_le & [ STEM < "donador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_donador_n_rel" ] ]. donaire_n1 := n_intr_count_le & [ STEM < "donaire" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_donaire_n_rel" ] ]. donante_a1 := a_rel_nonprd_intr_le & [ STEM < "donante" >, SYNSEM.LKEYS.KEYREL.PRED "_donante_a_rel" ]. donante_n1 := n_intr_count_le & [ STEM < "donante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_donante_n_rel" ] ]. donar_v := v_ditrans*_le & [ STEM < "donar" >, SYNSEM.LKEYS.KEYREL.PRED "_donar_v_rel" ]. donatario_n1 := n_intr_count_le & [ STEM < "donatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_donatario_n_rel" ] ]. donativo_n1 := n_intr_count_le & [ STEM < "donativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_donativo_n_rel" ] ]. doncel_n1 := n_intr_count_le & [ STEM < "doncel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doncel_n_rel" ] ]. doncella_n1 := n_intr_count_le & [ STEM < "doncella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doncella_n_rel" ] ]. donde_r := av_rel_place_le & [ STEM < "donde" > ]. donde_r2 := av_free-rel_place_le & [ STEM < "donde" > ]. donde_sc := sc_prop_fin_le & [ STEM < "donde" >, SYNSEM.LKEYS.KEYREL.PRED "_donde_x_subord_rel" ]. donostiarra_a1 := a_rel_prd_le & [ STEM < "donostiarra" >, SYNSEM.LKEYS.KEYREL.PRED "_donostiarra_a_rel" ]. donostiarra_n1 := n_intr_count_le & [ STEM < "donostiarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_donostiarra_n_rel" ] ]. donut_n1 := n_intr_count_le & [ STEM < "donut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_donut_n_rel" ] ]. dopaje_n1 := n_intr_uncount_le & [ STEM < "dopaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dopaje_n_rel" ] ]. dopar_v1 := v_trans_np_caus_le & [ STEM < "dopar" >, SYNSEM.LKEYS.KEYREL.PRED "_dopar_v_rel" ]. doping_n1 := n_intr_uncount_le & [ STEM < "doping" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_doping_n_rel" ] ]. dorada_n1 := n_intr_count_le & [ STEM < "dorada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dorada_n_rel" ] ]. doradura_n1 := n_trans_le & [ STEM < "doradura" >, SYNSEM.LKEYS.KEYREL.PRED "_doradura_n_rel" ]. dorar_v := v_trans_np_le & [ STEM < "dorar" >, SYNSEM.LKEYS.KEYREL.PRED "_dorar_v_rel" ]. dorio_n1 := n_intr_count_le & [ STEM < "dorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dorio_n_rel" ] ]. dormilón_n1 := n_intr_count_le & [ STEM < "dormilón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dormilón_n_rel" ] ]. dormir_v1 := v_intr_le & [ STEM < "dormir" >, SYNSEM.LKEYS.KEYREL.PRED "_dormir_v_rel" ]. dormir_v2 := v_trans_np_caus_le & [ STEM < "dormir" >, SYNSEM.LKEYS.KEYREL.PRED "_dormir_v_rel" ]. dormitar_v := v_intr_le & [ STEM < "dormitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_dormitar_v_rel" ] ]. dormitorio_n1 := n_intr_count_le & [ STEM < "dormitorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dormitorio_n_rel" ] ]. dorsal_a1 := a_rel_nonprd_intr_le & [ STEM < "dorsal" >, SYNSEM.LKEYS.KEYREL.PRED "_dorsal_a_rel" ]. dorsal_n1 := n_intr_count_le & [ STEM < "dorsal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dorsal_n_rel" ] ]. dorsalmente_x1 := av_i_spr_le & [ STEM < "dorsalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dorsalmente_x_rel" ]. dorso_n1 := n_intr_count_le & [ STEM < "dorso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dorso_n_rel" ] ]. dorsolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "dorsolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_dorsolateral_a_rel" ]. dosel_n1 := n_intr_count_le & [ STEM < "dosel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dosel_n_rel" ] ]. dosificación_n1 := n_trans_le & [ STEM < "dosificación" >, SYNSEM.LKEYS.KEYREL.PRED "_dosificación_n_rel" ]. dosificador_a1 := a_rel_nonprd_intr_le & [ STEM < "dosificador" >, SYNSEM.LKEYS.KEYREL.PRED "_dosificador_a_rel" ]. dosificador_n1 := n_intr_count_le & [ STEM < "dosificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dosificador_n_rel" ] ]. dosificar_v := v_trans_np_le & [ STEM < "dosificar" >, SYNSEM.LKEYS.KEYREL.PRED "_dosificar_v_rel" ]. dosimetría_n1 := n_intr_count_le & [ STEM < "dosimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dosimetría_n_rel" ] ]. dosimétricamente_x1 := av_i_spr_le & [ STEM < "dosimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dosimétricamente_x_rel" ]. dosimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "dosimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_dosimétrico_a_rel" ]. dosis_n1 := n_intr_count_le & [ STEM < "dosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dosis_n_rel" ] ]. dossier_n1 := n_intr_count_le & [ STEM < "dossier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dossier_n_rel" ] ]. dosímetro_n1 := n_intr_count_le & [ STEM < "dosímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dosímetro_n_rel" ] ]. dotacional_a1 := a_rel_nonprd_intr_le & [ STEM < "dotacional" >, SYNSEM.LKEYS.KEYREL.PRED "_dotacional_a_rel" ]. dotación_n1 := n_trans_le & [ STEM < "dotación" >, SYNSEM.LKEYS.KEYREL.PRED "_dotación_n_rel" ]. dotal_a1 := a_rel_nonprd_intr_le & [ STEM < "dotal" >, SYNSEM.LKEYS.KEYREL.PRED "_dotal_a_rel" ]. dotar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "dotar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_dotar_v_rel" ] ]. dotar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "dotar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_dotar_v_rel" ] ]. dote_n1 := n_intr_count_le & [ STEM < "dote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dote_n_rel" ] ]. dovela_n1 := n_intr_mass-or-count_le & [ STEM < "dovela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dovela_n_rel" ] ]. dozavado_a1 := a_rel_nonprd_intr_le & [ STEM < "dozavado" >, SYNSEM.LKEYS.KEYREL.PRED "_dozavado_a_rel" ]. dracma_n1 := n_intr_count_le & [ STEM < "dracma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dracma_n_rel" ] ]. draga_n1 := n_intr_count_le & [ STEM < "draga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_draga_n_rel" ] ]. dragado_n1 := n_trans_le & [ STEM < "dragado" >, SYNSEM.LKEYS.KEYREL.PRED "_dragado_n_rel" ]. dragador_n1 := n_intr_count_le & [ STEM < "dragador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dragador_n_rel" ] ]. dragalina_n1 := n_intr_count_le & [ STEM < "dragalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dragalina_n_rel" ] ]. dragaminas_n1 := n_intr_count_le & [ STEM < "dragaminas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dragaminas_n_rel" ] ]. dragar_v := v_trans_np_le & [ STEM < "dragar" >, SYNSEM.LKEYS.KEYREL.PRED "_dragar_v_rel" ]. dragoncillo_n1 := n_intr_count_le & [ STEM < "dragoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dragoncillo_n_rel" ] ]. dragón_n1 := n_intr_count_le & [ STEM < "dragón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dragón_n_rel" ] ]. dralón_n1 := n_intr_mass_le & [ STEM < "dralón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dralón_n_rel" ] ]. drama_n1 := n_intr_mass-or-count_le & [ STEM < "drama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drama_n_rel" ] ]. dramatismo_n1 := n_ppcomp_mass_le & [ STEM < "dramatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dramatismo_n_rel" ] ]. dramatización_n1 := n_trans_le & [ STEM < "dramatización" >, SYNSEM.LKEYS.KEYREL.PRED "_dramatización_n_rel" ]. dramatizar_v1 := v_intr_le & [ STEM < "dramatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dramatizar_v_rel" ]. dramatizar_v2 := v_trans_np_le & [ STEM < "dramatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_dramatizar_v_rel" ]. dramaturgia_n1 := n_intr_uncount_le & [ STEM < "dramaturgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dramaturgia_n_rel" ] ]. dramaturgo_n1 := n_intr_count_le & [ STEM < "dramaturgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dramaturgo_n_rel" ] ]. dramáticamente_x1 := av_i_spr_le & [ STEM < "dramáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dramáticamente_x_rel" ]. dramático_a1 := a_qual_intr_scopal_le & [ STEM < "dramático" >, SYNSEM.LKEYS.KEYREL.PRED "_dramático_a_rel" ]. dravita_n1 := n_intr_count_le & [ STEM < "dravita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dravita_n_rel" ] ]. dren_n1 := n_intr_count_le & [ STEM < "dren" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dren_n_rel" ] ]. drenador_n1 := n_intr_count_le & [ STEM < "drenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_drenador_n_rel" ] ]. drenaje_n1 := n_intr_count_le & [ STEM < "drenaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_drenaje_n_rel" ] ]. drenante_a1 := a_rel_nonprd_intr_le & [ STEM < "drenante" >, SYNSEM.LKEYS.KEYREL.PRED "_drenante_a_rel" ]. drenar_v := v_trans_np_le & [ STEM < "drenar" >, SYNSEM.LKEYS.KEYREL.PRED "_drenar_v_rel" ]. drepanocitemia_n1 := n_intr_uncount_le & [ STEM < "drepanocitemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drepanocitemia_n_rel" ] ]. drepanocito_n1 := n_intr_count_le & [ STEM < "drepanocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_drepanocito_n_rel" ] ]. drepanocitosis_n1 := n_intr_uncount_le & [ STEM < "drepanocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drepanocitosis_n_rel" ] ]. dresina_n1 := n_intr_count_le & [ STEM < "dresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dresina_n_rel" ] ]. driblador_n1 := n_intr_count_le & [ STEM < "driblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_driblador_n_rel" ] ]. driblador_n2 := n_subj-nom_le & [ STEM < "driblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_driblador_n_rel" ] ]. driblar_v := v_trans_np*_le & [ STEM < "driblar" >, SYNSEM.LKEYS.KEYREL.PRED "_driblar_v_rel" ]. dril_n1 := n_intr_mass-or-count_le & [ STEM < "dril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dril_n_rel" ] ]. dring_n1 := n_intr_count_le & [ STEM < "dring" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dring_n_rel" ] ]. drive_n1 := n_intr_count_le & [ STEM < "drive" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drive_n_rel" ] ]. driver_n1 := n_intr_count_le & [ STEM < "driver" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_driver_n_rel" ] ]. driza_n1 := n_intr_count_le & [ STEM < "driza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_driza_n_rel" ] ]. droga_n1 := n_intr_count_le & [ STEM < "droga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_droga_n_rel" ] ]. drogadicción_n1 := n_intr_uncount_le & [ STEM < "drogadicción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drogadicción_n_rel" ] ]. drogadicto_n1 := n_intr_count_le & [ STEM < "drogadicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_drogadicto_n_rel" ] ]. drogar_v1 := v_trans_np_caus_le & [ STEM < "drogar" >, SYNSEM.LKEYS.KEYREL.PRED "_drogar_v_rel" ]. drogodependencia_n1 := n_intr_uncount_le & [ STEM < "drogodependencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_drogodependencia_n_rel" ] ]. drogodependiente_n1 := n_intr_count_le & [ STEM < "drogodependiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_drogodependiente_n_rel" ] ]. droguería_n1 := n_intr_count_le & [ STEM < "droguería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_droguería_n_rel" ] ]. dromedario_n1 := n_intr_count_le & [ STEM < "dromedario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_dromedario_n_rel" ] ]. druida_n1 := n_intr_count_le & [ STEM < "druida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_druida_n_rel" ] ]. drupa_n1 := n_intr_count_le & [ STEM < "drupa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_drupa_n_rel" ] ]. drusa_n1 := n_intr_count_le & [ STEM < "drusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_drusa_n_rel" ] ]. drásticamente_x1 := av_i_spr_le & [ STEM < "drásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_drásticamente_x_rel" ]. drástico_a1 := a_qual_intr_scopal_le & [ STEM < "drástico" >, SYNSEM.LKEYS.KEYREL.PRED "_drástico_a_rel" ]. dual_a1 := a_qual_intr_scopal_le & [ STEM < "dual" >, SYNSEM.LKEYS.KEYREL.PRED "_dual_a_rel" ]. dual_n1 := n_ppcomp_count_le & [ STEM < "dual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dual_n_rel" ] ]. dualidad_n1 := n_intr_count_le & [ STEM < "dualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dualidad_n_rel" ] ]. dualismo_n1 := n_ppcomp_uncount_le & [ STEM < "dualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dualismo_n_rel" ] ]. dualista_a1 := a_qual_intr_scopal_le & [ STEM < "dualista" >, SYNSEM.LKEYS.KEYREL.PRED "_dualista_a_rel" ]. dualmente_x1 := av_i_spr_le & [ STEM < "dualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dualmente_x_rel" ]. dubio_n1 := n_intr_uncount_pl_le & [ STEM < "dubio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dubio_n_rel" ] ]. dubitativo_a1 := a_qual_intr_scopal_le & [ STEM < "dubitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_dubitativo_a_rel" ]. ducado_n1 := n_intr_count_le & [ STEM < "ducado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_ducado_n_rel" ] ]. ducal_a1 := a_rel_nonprd_intr_le & [ STEM < "ducal" >, SYNSEM.LKEYS.KEYREL.PRED "_ducal_a_rel" ]. ducha_n1 := n_intr_count_le & [ STEM < "ducha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ducha_n_rel" ] ]. duchar_v1 := v_trans_np_caus_le & [ STEM < "duchar" >, SYNSEM.LKEYS.KEYREL.PRED "_duchar_v_rel" ]. ductibilidad_n1 := n_intr_mass_le & [ STEM < "ductibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ductibilidad_n_rel" ] ]. ductilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ductilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ductilidad_n_rel" ] ]. duda_n1 := n_event-result_intr_le & [ STEM < "duda" >, SYNSEM.LKEYS.KEYREL.PRED "_duda_n_rel" ]. dudar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "dudar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dudar_v_rel" ] ] ]. dudar_v2 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "dudar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_dudar_v_rel" ] ]. dudar_v3 := v_intr_mrkd_np_le & [ STEM < "dudar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_dudar_v_rel" ] ] ]. dudar_v4 := v_trans_cp_prop_fin_le & [ STEM < "dudar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dudar_v_rel" ] ]. dudar_v5 := v_trans_cp_semi_ques_le & [ STEM < "dudar" >, SYNSEM.LKEYS.KEYREL.PRED "_dudar_v_rel" ]. dudar_v6 := v_trans_np_le & [ STEM < "dudar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_dudar_v_rel" ] ]. dudosamente_x1 := av_i_spr_le & [ STEM < "dudosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_dudosamente_x_rel" ]. dudoso_a1 := a_qual_intr_scopal_le & [ STEM < "dudoso" >, SYNSEM.LKEYS.KEYREL.PRED "_dudoso_a_rel" ]. duela_n1 := n_intr_count_le & [ STEM < "duela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_duela_n_rel" ] ]. duelo_n1 := n_intr_count_le & [ STEM < "duelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duelo_n_rel" ] ]. duende_n1 := n_intr_count_le & [ STEM < "duende" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_duende_n_rel" ] ]. duetista_n1 := n_intr_count_le & [ STEM < "duetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_duetista_n_rel" ] ]. dueño_n1 := n_ppcomp_count_le & [ STEM < "dueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dueño_n_rel" ] ]. dulce_a1 := a_adv_event_le & [ STEM < "dulce" >, SYNSEM.LKEYS.KEYREL.PRED "_dulce_a_rel" ]. dulce_a2 := a_qual_intr_scopal_le & [ STEM < "dulce" >, SYNSEM.LKEYS.KEYREL.PRED "_dulce_a_rel" ]. dulce_n1 := n_intr_count_le & [ STEM < "dulce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dulce_n_rel" ] ]. dulcemente_x1 := av_i_spr_le & [ STEM < "dulcemente" >, SYNSEM.LKEYS.KEYREL.PRED "_dulcemente_x_rel" ]. dulcería_n1 := n_intr_count_le & [ STEM < "dulcería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_dulcería_n_rel" ] ]. dulcificar_v := v_trans_np_le & [ STEM < "dulcificar" >, SYNSEM.LKEYS.KEYREL.PRED "_dulcificar_v_rel" ]. dulcina_n1 := n_intr_mass-or-count_le & [ STEM < "dulcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dulcina_n_rel" ] ]. dulzura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "dulzura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dulzura_n_rel" ] ]. dulzón_a1 := a_qual_intr_scopal_le & [ STEM < "dulzón" >, SYNSEM.LKEYS.KEYREL.PRED "_dulzón_a_rel" ]. duma_n1 := n_intr_count_le & [ STEM < "duma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_duma_n_rel" ] ]. dumortierita_n1 := n_intr_count_le & [ STEM < "dumortierita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dumortierita_n_rel" ] ]. dumping_n1 := n_intr_uncount_le & [ STEM < "dumping" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dumping_n_rel" ] ]. duna_n1 := n_intr_count_le & [ STEM < "duna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_duna_n_rel" ] ]. duo_n1 := n_intr_count_le & [ STEM < "duo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_duo_n_rel" ] ]. duodecimal_a1 := a_rel_nonprd_intr_le & [ STEM < "duodecimal" >, SYNSEM.LKEYS.KEYREL.PRED "_duodecimal_a_rel" ]. duodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "duodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_duodenal_a_rel" ]. duodenario_a1 := a_rel_nonprd_intr_le & [ STEM < "duodenario" >, SYNSEM.LKEYS.KEYREL.PRED "_duodenario_a_rel" ]. duodeno_n1 := n_intr_uncount_pl_le & [ STEM < "duodeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duodeno_n_rel" ] ]. duodenomesocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "duodenomesocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_duodenomesocólico_a_rel" ]. duodenoyeyunal_a1 := a_rel_nonprd_intr_le & [ STEM < "duodenoyeyunal" >, SYNSEM.LKEYS.KEYREL.PRED "_duodenoyeyunal_a_rel" ]. duolineal_a1 := a_rel_nonprd_intr_le & [ STEM < "duolineal" >, SYNSEM.LKEYS.KEYREL.PRED "_duolineal_a_rel" ]. duopolio_n1 := n_intr_count_le & [ STEM < "duopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duopolio_n_rel" ] ]. duopsonio_n1 := n_intr_uncount_le & [ STEM < "duopsonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duopsonio_n_rel" ] ]. duplexer_n1 := n_intr_count_le & [ STEM < "duplexer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_duplexer_n_rel" ] ]. duplicación_n1 := n_trans_le & [ STEM < "duplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_duplicación_n_rel" ]. duplicado_n1 := n_intr_count_le & [ STEM < "duplicado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_duplicado_n_rel" ] ]. duplicador_a1 := a_rel_nonprd_intr_le & [ STEM < "duplicador" >, SYNSEM.LKEYS.KEYREL.PRED "_duplicador_a_rel" ]. duplicar_v := v_trans_np_caus_le & [ STEM < "duplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_duplicar_v_rel" ]. duplicidad_n1 := n_ppcomp_uncount_le & [ STEM < "duplicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duplicidad_n_rel" ] ]. duplo_n1 := nu_mult-part_le & [ STEM < "duplo" > ]. dupondio_n1 := n_intr_count_le & [ STEM < "dupondio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dupondio_n_rel" ] ]. duque_n1 := n_intr_count_le & [ STEM < "duque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_duque_n_rel" ] ]. duquesa_n1 := n_intr_count_le & [ STEM < "duquesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_duquesa_n_rel" ] ]. durabilidad_n1 := n_ppcomp_mass_le & [ STEM < "durabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_durabilidad_n_rel" ] ]. durable_a1 := a_qual_intr_scopal_le & [ STEM < "durable" >, SYNSEM.LKEYS.KEYREL.PRED "_durable_a_rel" ]. durablemente_x1 := av_i_spr_le & [ STEM < "durablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_durablemente_x_rel" ]. duración_n1 := n_event-result_intr_le & [ STEM < "duración" >, SYNSEM.LKEYS.KEYREL.PRED "_duración_n_rel" ]. duradero_a1 := a_qual_intr_scopal_le & [ STEM < "duradero" >, SYNSEM.LKEYS.KEYREL.PRED "_duradero_a_rel" ]. duraluminio_n1 := n_intr_count_le & [ STEM < "duraluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_duraluminio_n_rel" ] ]. duramadre_n1 := n_ppcomp_count_le & [ STEM < "duramadre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_duramadre_n_rel" ] ]. duramen_n1 := n_intr_count_le & [ STEM < "duramen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_duramen_n_rel" ] ]. duramente_x1 := av_i_spr_le & [ STEM < "duramente" >, SYNSEM.LKEYS.KEYREL.PRED "_duramente_x_rel" ]. durante_p_temp_vmod := p_temp_vmod_le & [ STEM < "durante" >, SYNSEM.LKEYS.KEYREL.PRED _durante_p_temp_rel ]. durar_v := v_unacc_lcomp_loc*_le & [ STEM < "durar" >, SYNSEM.LKEYS.KEYREL.PRED "_durar_v_rel" ]. durativo_a1 := a_rel_nonprd_intr_le & [ STEM < "durativo" >, SYNSEM.LKEYS.KEYREL.PRED "_durativo_a_rel" ]. dureno_n1 := n_intr_count_le & [ STEM < "dureno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_dureno_n_rel" ] ]. dureza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "dureza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dureza_n_rel" ] ]. durinodo_n1 := n_intr_count_le & [ STEM < "durinodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_durinodo_n_rel" ] ]. durmiente_a1 := a_rel_nonprd_intr_le & [ STEM < "durmiente" >, SYNSEM.LKEYS.KEYREL.PRED "_durmiente_a_rel" ]. duro_a1 := a_qual_intr_scopal_le & [ STEM < "duro" >, SYNSEM.LKEYS.KEYREL.PRED "_duro_a_rel" ]. duro_n1 := n_intr_count_le & [ STEM < "duro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_duro_n_rel" ] ]. durómetro_n1 := n_intr_count_le & [ STEM < "durómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_durómetro_n_rel" ] ]. duunvirato_n1 := n_intr_count_le & [ STEM < "duunvirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_duunvirato_n_rel" ] ]. dux_n1 := n_intr_count_le & [ STEM < "dux" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_dux_n_rel" ] ]. dáctilo_n1 := n_intr_count_le & [ STEM < "dáctilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_ani, PRED "_dáctilo_n_rel" ] ]. dádiva_n1 := n_intr_count_le & [ STEM < "dádiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dádiva_n_rel" ] ]. dálmata_a1 := a_rel_prd_le & [ STEM < "dálmata" >, SYNSEM.LKEYS.KEYREL.PRED "_dálmata_a_rel" ]. dámara_n1 := n_intr_mass-or-count_le & [ STEM < "dámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_dámara_n_rel" ] ]. dársena_n1 := n_intr_count_le & [ STEM < "dársena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dársena_n_rel" ] ]. dátil_n1 := n_intr_count_le & [ STEM < "dátil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dátil_n_rel" ] ]. débil_a1 := a_qual_intr_ser_le & [ STEM < "débil" >, SYNSEM.LKEYS.KEYREL.PRED "_débil_a_rel" ]. débilmente_x1 := av_i_spr_le & [ STEM < "débilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_débilmente_x_rel" ]. débito_n1 := n_intr_uncount_le & [ STEM < "débito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_débito_n_rel" ] ]. década_n1 := n_pseudo-part_temp_le & [ STEM < "década" >, SYNSEM.LKEYS.KEYREL.PRED "_década_n_rel" ]. década_n2 := n_intr_temp_le & [ STEM < "década" > ]. décima_n1 := n_pseudo-part_le & [ STEM < "décima" >, SYNSEM.LKEYS.KEYREL.PRED "_décima_n_rel" ]. décimo_n := n_intr_count_le & [ STEM < "décimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_décimo_n_rel" ] ]. déficit_n1 := n_intr_mass_le & [ STEM < "déficit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_déficit_n_rel" ] ]. dérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "dérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_dérmico_a_rel" ]. déspota_n1 := n_intr_count_le & [ STEM < "déspota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_déspota_n_rel" ] ]. día_n1 := n_pseudo-part_temp_le & [ STEM < "día" >, SYNSEM.LKEYS.KEYREL.PRED "_día_n_rel" ]. día_n2 := n_intr_temp_le & [ STEM < "día" > ]. díada_n1 := n_intr_count_le & [ STEM < "díada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_díada_n_rel" ] ]. díftero_a1 := a_rel_nonprd_intr_le & [ STEM < "díftero" >, SYNSEM.LKEYS.KEYREL.PRED "_díftero_a_rel" ]. dígito_n1 := n_intr_count_le & [ STEM < "dígito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dígito_n_rel" ] ]. dígrafo_n1 := n_intr_count_le & [ STEM < "dígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dígrafo_n_rel" ] ]. dímero_n1 := n_intr_count_le & [ STEM < "dímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_dímero_n_rel" ] ]. díploe_n1 := n_intr_count_le & [ STEM < "díploe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_díploe_n_rel" ] ]. díploe_n2 := n_ppcomp_count_le & [ STEM < "díploe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_díploe_n_rel" ] ]. díptero_a1 := a_rel_nonprd_intr_le & [ STEM < "díptero" >, SYNSEM.LKEYS.KEYREL.PRED "_díptero_a_rel" ]. díptero_n1 := n_intr_count_le & [ STEM < "díptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_díptero_n_rel" ] ]. dócil_a1 := a_qual_intr_ser_le & [ STEM < "dócil" >, SYNSEM.LKEYS.KEYREL.PRED "_dócil_a_rel" ]. dólar_n1 := n_intr_count_le & [ STEM < "dólar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_dólar_n_rel" ] ]. dólico_n1 := n_intr_count_le & [ STEM < "dólico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_dólico_n_rel" ] ]. dónde_i := av_wh_place_le & [ STEM < "dónde" > ]. dórico_a1 := a_rel_prd_le & [ STEM < "dórico" >, SYNSEM.LKEYS.KEYREL.PRED "_dórico_a_rel" ]. dórico_n1 := n_intr_uncount_le & [ STEM < "dórico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_dórico_n_rel" ] ]. dúctil_a1 := a_qual_intr_scopal_le & [ STEM < "dúctil" >, SYNSEM.LKEYS.KEYREL.PRED "_dúctil_a_rel" ]. dúctilmente_x1 := av_i_spr_le & [ STEM < "dúctilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_dúctilmente_x_rel" ]. dúo_n1 := n_intr_count_le & [ STEM < "dúo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum_soc, PRED "_dúo_n_rel" ] ]. dúplex_n1 := n_intr_count_le & [ STEM < "dúplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_dúplex_n_rel" ] ]. dúplica_n1 := n_intr_count_le & [ STEM < "dúplica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_dúplica_n_rel" ] ]. e-mail_n1 := n_intr_count_le & [ STEM < "e-mail" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_e-mail_n_rel" ] ]. e_cc := cc_cop_e_le & [ STEM < "e" > ]. eagle_n1 := n_intr_count_le & [ STEM < "eagle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eagle_n_rel" ] ]. ebanista_n1 := n_intr_count_le & [ STEM < "ebanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ebanista_n_rel" ] ]. ebanistería_n1 := n_intr_mass-or-count_le & [ STEM < "ebanistería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ebanistería_n_rel" ] ]. ebonita_n1 := n_intr_count_le & [ STEM < "ebonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ebonita_n_rel" ] ]. ebriedad_n1 := n_ppcomp_mass_le & [ STEM < "ebriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ebriedad_n_rel" ] ]. ebrio_a1 := a_qual_intr_estar_le & [ STEM < "ebrio" >, SYNSEM.LKEYS.KEYREL.PRED "_ebrio_a_rel" ]. ebullición_n1 := n_intr_uncount_le & [ STEM < "ebullición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ebullición_n_rel" ] ]. ebulloscopia_n1 := n_intr_count_le & [ STEM < "ebulloscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ebulloscopia_n_rel" ] ]. eburnación_n1 := n_intr_uncount_le & [ STEM < "eburnación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eburnación_n_rel" ] ]. ebúrneo_a1 := a_qual_intr_scopal_le & [ STEM < "ebúrneo" >, SYNSEM.LKEYS.KEYREL.PRED "_ebúrneo_a_rel" ]. eccema_n1 := n_intr_mass_le & [ STEM < "eccema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eccema_n_rel" ] ]. echar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "echar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_echar_v_rel" ] ] ]. echar_v2 := v_trans_np_mrkd_np_caus_le & [ STEM < "echar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_echar_v_rel" ] ] ]. echar_v3 := v_pron_intr_mrkd_vp_ssr_le & [ STEM < "echar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_echar_v_rel" ] ]. echazón_n1 := n_trans_le & [ STEM < "echazón" >, SYNSEM.LKEYS.KEYREL.PRED "_echazón_n_rel" ]. eclampsia_n1 := n_intr_uncount_le & [ STEM < "eclampsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eclampsia_n_rel" ] ]. eclecticismo_n1 := n_ppcomp_mass_le & [ STEM < "eclecticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eclecticismo_n_rel" ] ]. eclesial_a1 := a_rel_nonprd_intr_le & [ STEM < "eclesial" >, SYNSEM.LKEYS.KEYREL.PRED "_eclesial_a_rel" ]. eclesiásticamente_x1 := av_i_spr_le & [ STEM < "eclesiásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eclesiásticamente_x_rel" ]. eclesiástico_a1 := a_rel_nonprd_intr_le & [ STEM < "eclesiástico" >, SYNSEM.LKEYS.KEYREL.PRED "_eclesiástico_a_rel" ]. eclesiástico_n1 := n_intr_count_le & [ STEM < "eclesiástico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eclesiástico_n_rel" ] ]. eclipsar_v := v_trans_np_le & [ STEM < "eclipsar" >, SYNSEM.LKEYS.KEYREL.PRED "_eclipsar_v_rel" ]. eclipse_n1 := n_intr_count_le & [ STEM < "eclipse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eclipse_n_rel" ] ]. eclisa_n1 := n_intr_count_le & [ STEM < "eclisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eclisa_n_rel" ] ]. eclosión_n1 := n_event-result_intr_le & [ STEM < "eclosión" >, SYNSEM.LKEYS.KEYREL.PRED "_eclosión_n_rel" ]. ecléctico_a1 := a_qual_intr_scopal_le & [ STEM < "ecléctico" >, SYNSEM.LKEYS.KEYREL.PRED "_ecléctico_a_rel" ]. eclímetro_n1 := n_intr_count_le & [ STEM < "eclímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eclímetro_n_rel" ] ]. eco_n1 := n_intr_count_le & [ STEM < "eco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eco_n_rel" ] ]. ecocardiografía_n1 := n_intr_count_le & [ STEM < "ecocardiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ecocardiografía_n_rel" ] ]. ecodesarrollo_n1 := n_intr_uncount_le & [ STEM < "ecodesarrollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecodesarrollo_n_rel" ] ]. ecografía_n1 := n_intr_count_le & [ STEM < "ecografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ecografía_n_rel" ] ]. ecologista_a1 := a_qual_intr_ser_le & [ STEM < "ecologista" >, SYNSEM.LKEYS.KEYREL.PRED "_ecologista_a_rel" ]. ecologista_n1 := n_intr_count_le & [ STEM < "ecologista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ecologista_n_rel" ] ]. ecología_n1 := n_intr_uncount_le & [ STEM < "ecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecología_n_rel" ] ]. ecológicamente_x1 := av_i_spr_le & [ STEM < "ecológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ecológicamente_x_rel" ]. ecológico_a1 := a_qual_intr_ser_le & [ STEM < "ecológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ecológico_a_rel" ]. economato_n1 := n_intr_count_le & [ STEM < "economato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_economato_n_rel" ] ]. econometría_n1 := n_intr_uncount_le & [ STEM < "econometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_econometría_n_rel" ] ]. economicismo_n1 := n_intr_uncount_le & [ STEM < "economicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_economicismo_n_rel" ] ]. economicista_a1 := a_qual_intr_ser_le & [ STEM < "economicista" >, SYNSEM.LKEYS.KEYREL.PRED "_economicista_a_rel" ]. economico_administrativamente_x1 := av_i_spr_le & [ STEM < "economico_administrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_economico_administrativamente_x_rel" ]. economista_n1 := n_intr_count_le & [ STEM < "economista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_economista_n_rel" ] ]. economizador_a1 := a_qual_intr_scopal_le & [ STEM < "economizador" >, SYNSEM.LKEYS.KEYREL.PRED "_economizador_a_rel" ]. economizadoramente_x1 := av_i_spr_le & [ STEM < "economizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_economizadoramente_x_rel" ]. economizar_v := v_trans_np*_le & [ STEM < "economizar" >, SYNSEM.LKEYS.KEYREL.PRED "_economizar_v_rel" ]. economía_n1 := n_intr_uncount_le & [ STEM < "economía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_economía_n_rel" ] ]. económicamente_x1 := av_i_spr_le & [ STEM < "económicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_económicamente_x_rel" ]. económico-administrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "económico-administrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_económico-administrativo_a_rel" ]. económico-financiero_a1 := a_rel_nonprd_intr_le & [ STEM < "económico-financiero" >, SYNSEM.LKEYS.KEYREL.PRED "_económico-financiero_a_rel" ]. económico_a1 := a_qual_intr_ser_le & [ STEM < "económico" >, SYNSEM.LKEYS.KEYREL.PRED "_económico_a_rel" ]. económico_financieramente_x1 := av_i_spr_le & [ STEM < "económico_financieramente" >, SYNSEM.LKEYS.KEYREL.PRED "_económico_financieramente_x_rel" ]. ecosfera_n1 := n_intr_count_le & [ STEM < "ecosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ecosfera_n_rel" ] ]. ecosistema_n1 := n_intr_count_le & [ STEM < "ecosistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecosistema_n_rel" ] ]. ecosonda_n1 := n_intr_count_le & [ STEM < "ecosonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ecosonda_n_rel" ] ]. ecotasa_n1 := n_intr_count_le & [ STEM < "ecotasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecotasa_n_rel" ] ]. ecotipo_n1 := n_intr_count_le & [ STEM < "ecotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecotipo_n_rel" ] ]. ecotono_n1 := n_intr_count_le & [ STEM < "ecotono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ecotono_n_rel" ] ]. ecotoxicología_n1 := n_intr_uncount_le & [ STEM < "ecotoxicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecotoxicología_n_rel" ] ]. ecotoxicológicamente_x1 := av_i_spr_le & [ STEM < "ecotoxicológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ecotoxicológicamente_x_rel" ]. ecotoxicológico_a1 := a_rel_nonprd_intr_le & [ STEM < "ecotoxicológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ecotoxicológico_a_rel" ]. ectodermo_n1 := n_intr_count_le & [ STEM < "ectodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ectodermo_n_rel" ] ]. ectodinamomorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "ectodinamomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_ectodinamomorfo_a_rel" ]. ectodinamógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "ectodinamógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_ectodinamógeno_a_rel" ]. ectodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "ectodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_ectodérmico_a_rel" ]. ectoplasma_n1 := n_intr_count_le & [ STEM < "ectoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ectoplasma_n_rel" ] ]. ectosfera_n1 := n_intr_count_le & [ STEM < "ectosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ectosfera_n_rel" ] ]. ectosoma_n1 := n_intr_count_le & [ STEM < "ectosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ectosoma_n_rel" ] ]. ectropión_n1 := n_intr_uncount_le & [ STEM < "ectropión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ectropión_n_rel" ] ]. ectópico_a1 := a_rel_nonprd_intr_le & [ STEM < "ectópico" >, SYNSEM.LKEYS.KEYREL.PRED "_ectópico_a_rel" ]. ectótrofo_a1 := a_rel_nonprd_intr_le & [ STEM < "ectótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_ectótrofo_a_rel" ]. ecu_n1 := n_intr_count_le & [ STEM < "ecu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_ecu_n_rel" ] ]. ecuación_n1 := n_intr_count_le & [ STEM < "ecuación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecuación_n_rel" ] ]. ecuador_n1 := n_intr_count_le & [ STEM < "ecuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ecuador_n_rel" ] ]. ecualización_n1 := n_trans_le & [ STEM < "ecualización" >, SYNSEM.LKEYS.KEYREL.PRED "_ecualización_n_rel" ]. ecualizador_n1 := n_intr_count_le & [ STEM < "ecualizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ecualizador_n_rel" ] ]. ecualizar_v := v_trans_np_le & [ STEM < "ecualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ecualizar_v_rel" ]. ecuanimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ecuanimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecuanimidad_n_rel" ] ]. ecuatoguineano_a1 := a_rel_prd_le & [ STEM < "ecuatoguineano" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuatoguineano_a_rel" ]. ecuatoguineano_n1 := n_intr_count_le & [ STEM < "ecuatoguineano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ecuatoguineano_n_rel" ] ]. ecuatorial_a1 := a_rel_prd_le & [ STEM < "ecuatorial" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuatorial_a_rel" ]. ecuatoriano_a1 := a_rel_prd_le & [ STEM < "ecuatoriano" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuatoriano_a_rel" ]. ecuatoriano_n1 := n_intr_count_le & [ STEM < "ecuatoriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ecuatoriano_n_rel" ] ]. ecuestre_a1 := a_rel_nonprd_intr_le & [ STEM < "ecuestre" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuestre_a_rel" ]. ecumenicidad_n1 := n_intr_uncount_le & [ STEM < "ecumenicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecumenicidad_n_rel" ] ]. ecumenismo_n1 := n_intr_uncount_le & [ STEM < "ecumenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ecumenismo_n_rel" ] ]. ecuménicamente_x1 := av_i_spr_le & [ STEM < "ecuménicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuménicamente_x_rel" ]. ecuménico_a1 := a_rel_nonprd_intr_le & [ STEM < "ecuménico" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuménico_a_rel" ]. ecuánime_a1 := a_qual_intr_ser_le & [ STEM < "ecuánime" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuánime_a_rel" ]. ecuánimemente_x1 := av_i_spr_le & [ STEM < "ecuánimemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ecuánimemente_x_rel" ]. eczema_n1 := n_intr_mass_le & [ STEM < "eczema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eczema_n_rel" ] ]. ecólogo_n1 := n_intr_count_le & [ STEM < "ecólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ecólogo_n_rel" ] ]. ecúmene_n1 := n_intr_count_le & [ STEM < "ecúmene" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ecúmene_n_rel" ] ]. ecúmeno_n1 := n_intr_count_le & [ STEM < "ecúmeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ecúmeno_n_rel" ] ]. edad_n1 := n_intr_mass-or-count_le & [ STEM < "edad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edad_n_rel" ] ]. edafogénesis_n1 := n_intr_uncount_le & [ STEM < "edafogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edafogénesis_n_rel" ] ]. edafología_n1 := n_intr_uncount_le & [ STEM < "edafología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edafología_n_rel" ] ]. edaforrasgo_n1 := n_intr_uncount_pl_le & [ STEM < "edaforrasgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edaforrasgo_n_rel" ] ]. edafosfera_n1 := n_intr_uncount_pl_le & [ STEM < "edafosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edafosfera_n_rel" ] ]. edafólogo_n1 := n_intr_count_le & [ STEM < "edafólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_edafólogo_n_rel" ] ]. edafón_n1 := n_intr_uncount_le & [ STEM < "edafón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_edafón_n_rel" ] ]. edema_n1 := n_intr_count_le & [ STEM < "edema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_edema_n_rel" ] ]. edematoso_a1 := a_rel_nonprd_intr_le & [ STEM < "edematoso" >, SYNSEM.LKEYS.KEYREL.PRED "_edematoso_a_rel" ]. edición_n1 := n_trans_le & [ STEM < "edición" >, SYNSEM.LKEYS.KEYREL.PRED "_edición_n_rel" ]. edictal_a1 := a_rel_nonprd_intr_le & [ STEM < "edictal" >, SYNSEM.LKEYS.KEYREL.PRED "_edictal_a_rel" ]. edicto_n1 := n_intr_count_le & [ STEM < "edicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_edicto_n_rel" ] ]. edificable_a1 := a_rel_nonprd_intr_le & [ STEM < "edificable" >, SYNSEM.LKEYS.KEYREL.PRED "_edificable_a_rel" ]. edificación_n1 := n_intr_count_le & [ STEM < "edificación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_edificación_n_rel" ] ]. edificador_a1 := a_rel_nonprd_intr_le & [ STEM < "edificador" >, SYNSEM.LKEYS.KEYREL.PRED "_edificador_a_rel" ]. edificante_a1 := a_rel_nonprd_intr_le & [ STEM < "edificante" >, SYNSEM.LKEYS.KEYREL.PRED "_edificante_a_rel" ]. edificar_v := v_trans_np*_le & [ STEM < "edificar" >, SYNSEM.LKEYS.KEYREL.PRED "_edificar_v_rel" ]. edificio_n1 := n_intr_count_le & [ STEM < "edificio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_edificio_n_rel" ] ]. edil_n1 := n_intr_count_le & [ STEM < "edil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_edil_n_rel" ] ]. edilicio_a1 := a_rel_nonprd_intr_le & [ STEM < "edilicio" >, SYNSEM.LKEYS.KEYREL.PRED "_edilicio_a_rel" ]. editable_a1 := a_rel_nonprd_intr_le & [ STEM < "editable" >, SYNSEM.LKEYS.KEYREL.PRED "_editable_a_rel" ]. editaje_n1 := n_trans_le & [ STEM < "editaje" >, SYNSEM.LKEYS.KEYREL.PRED "_editaje_n_rel" ]. editar_v := v_trans_np_le & [ STEM < "editar" >, SYNSEM.LKEYS.KEYREL.PRED "_editar_v_rel" ]. editor_n1 := n_intr_count_le & [ STEM < "editor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_editor_n_rel" ] ]. editor_n2 := n_subj-nom_le & [ STEM < "editor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_editor_n_rel" ] ]. editorial_a1 := a_rel_nonprd_intr_le & [ STEM < "editorial" >, SYNSEM.LKEYS.KEYREL.PRED "_editorial_a_rel" ]. editorial_n1 := n_intr_count_le & [ STEM < "editorial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_sem_soc, PRED "_editorial_n_rel" ] ]. editorialista_n1 := n_intr_count_le & [ STEM < "editorialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_editorialista_n_rel" ] ]. edredón_n1 := n_intr_count_le & [ STEM < "edredón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_edredón_n_rel" ] ]. educable_a1 := a_qual_intr_scopal_le & [ STEM < "educable" >, SYNSEM.LKEYS.KEYREL.PRED "_educable_a_rel" ]. educacional_a1 := a_rel_nonprd_intr_le & [ STEM < "educacional" >, SYNSEM.LKEYS.KEYREL.PRED "_educacional_a_rel" ]. educación_n1 := n_trans_le & [ STEM < "educación" >, SYNSEM.LKEYS.KEYREL.PRED "_educación_n_rel" ]. educadamente_x1 := av_i_spr_le & [ STEM < "educadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_educadamente_x_rel" ]. educador_a1 := a_rel_nonprd_intr_le & [ STEM < "educador" >, SYNSEM.LKEYS.KEYREL.PRED "_educador_a_rel" ]. educador_n1 := n_subj-nom_le & [ STEM < "educador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_educador_n_rel" ] ]. educar_v1 := v_trans_np_le & [ STEM < "educar" >, SYNSEM.LKEYS.KEYREL.PRED "_educar_v_rel" ]. educar_v2 := v_pron_intr_le & [ STEM < "educar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_educar_v_rel" ] ]. educativo_a1 := a_qual_intr_scopal_le & [ STEM < "educativo" >, SYNSEM.LKEYS.KEYREL.PRED "_educativo_a_rel" ]. edulcorante_n1 := n_intr_mass-or-count_le & [ STEM < "edulcorante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_edulcorante_n_rel" ] ]. edulcorar_v := v_trans_np_le & [ STEM < "edulcorar" >, SYNSEM.LKEYS.KEYREL.PRED "_edulcorar_v_rel" ]. edáfico_a1 := a_rel_nonprd_intr_le & [ STEM < "edáfico" >, SYNSEM.LKEYS.KEYREL.PRED "_edáfico_a_rel" ]. edómetro_n1 := n_intr_count_le & [ STEM < "edómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_edómetro_n_rel" ] ]. efectista_a1 := a_rel_nonprd_intr_le & [ STEM < "efectista" >, SYNSEM.LKEYS.KEYREL.PRED "_efectista_a_rel" ]. efectivamente_x1 := av_s_prhd_le & [ STEM < "efectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_efectivamente_x_rel" ]. efectividad_n1 := n_intr_mass_le & [ STEM < "efectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efectividad_n_rel" ] ]. efectivo_a1 := a_qual_intr_scopal_le & [ STEM < "efectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_efectivo_a_rel" ]. efectivo_n1 := n_intr_mass-or-count_le & [ STEM < "efectivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efectivo_n_rel" ] ]. efecto_n1 := n_intr_count_le & [ STEM < "efecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efecto_n_rel" ] ]. efectuación_n1 := n_trans_le & [ STEM < "efectuación" >, SYNSEM.LKEYS.KEYREL.PRED "_efectuación_n_rel" ]. efectuar_v1 := v_trans_np_le & [ STEM < "efectuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_efectuar_v_rel" ] ]. efeméride_n1 := n_intr_count_le & [ STEM < "efeméride" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efeméride_n_rel" ] ]. efemérides_n1 := n_intr_count_le & [ STEM < "efemérides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_efemérides_n_rel" ] ]. eferente_a1 := a_rel_nonprd_intr_le & [ STEM < "eferente" >, SYNSEM.LKEYS.KEYREL.PRED "_eferente_a_rel" ]. efervescencia_n1 := n_intr_mass_le & [ STEM < "efervescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efervescencia_n_rel" ] ]. efervescente_a1 := a_qual_intr_scopal_le & [ STEM < "efervescente" >, SYNSEM.LKEYS.KEYREL.PRED "_efervescente_a_rel" ]. eficacia_n1 := n_intr_mass_le & [ STEM < "eficacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eficacia_n_rel" ] ]. eficaz_a1 := a_qual_intr_scopal_le & [ STEM < "eficaz" >, SYNSEM.LKEYS.KEYREL.PRED "_eficaz_a_rel" ]. eficazmente_x1 := av_i_spr_le & [ STEM < "eficazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_eficazmente_x_rel" ]. eficiencia_n1 := n_intr_mass_le & [ STEM < "eficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eficiencia_n_rel" ] ]. eficiente_a1 := a_qual_intr_ser_le & [ STEM < "eficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_eficiente_a_rel" ]. eficientemente_x1 := av_i_spr_le & [ STEM < "eficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_eficientemente_x_rel" ]. efigie_n1 := n_intr_count_le & [ STEM < "efigie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_efigie_n_rel" ] ]. eflorecer_v1 := v_pron_intr_le & [ STEM < "eflorecer" >, SYNSEM.LKEYS.KEYREL.PRED "_eflorecer_v_rel" ]. eflorescencia_n1 := n_intr_uncount_le & [ STEM < "eflorescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eflorescencia_n_rel" ] ]. eflorescente_a1 := a_rel_nonprd_intr_le & [ STEM < "eflorescente" >, SYNSEM.LKEYS.KEYREL.PRED "_eflorescente_a_rel" ]. eflorescentemente_x1 := av_i_spr_le & [ STEM < "eflorescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_eflorescentemente_x_rel" ]. efluente_n1 := n_intr_count_le & [ STEM < "efluente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efluente_n_rel" ] ]. efluvio_n1 := n_intr_uncount_pl_le & [ STEM < "efluvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efluvio_n_rel" ] ]. efracción_n1 := n_intr_uncount_le & [ STEM < "efracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efracción_n_rel" ] ]. efusivamente_x1 := av_i_spr_le & [ STEM < "efusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_efusivamente_x_rel" ]. efusivo_a1 := a_qual_intr_ser_le & [ STEM < "efusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_efusivo_a_rel" ]. efusión_n1 := n_intr_mass-or-count_le & [ STEM < "efusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_efusión_n_rel" ] ]. efusor_n1 := n_intr_count_le & [ STEM < "efusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_efusor_n_rel" ] ]. efímera_n1 := n_intr_count_le & [ STEM < "efímera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_efímera_n_rel" ] ]. efímero_a1 := a_qual_intr_scopal_le & [ STEM < "efímero" >, SYNSEM.LKEYS.KEYREL.PRED "_efímero_a_rel" ]. egarense_a1 := a_rel_prd_le & [ STEM < "egarense" >, SYNSEM.LKEYS.KEYREL.PRED "_egarense_a_rel" ]. egarense_n1 := n_intr_count_le & [ STEM < "egarense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_egarense_n_rel" ] ]. egipcio_a1 := a_rel_prd_le & [ STEM < "egipcio" >, SYNSEM.LKEYS.KEYREL.PRED "_egipcio_a_rel" ]. egipcio_n1 := n_intr_count_le & [ STEM < "egipcio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_egipcio_n_rel" ] ]. egiptología_n1 := n_intr_uncount_le & [ STEM < "egiptología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_egiptología_n_rel" ] ]. egiptológico_a1 := a_rel_nonprd_intr_le & [ STEM < "egiptológico" >, SYNSEM.LKEYS.KEYREL.PRED "_egiptológico_a_rel" ]. egiptólogo_n1 := n_intr_count_le & [ STEM < "egiptólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_egiptólogo_n_rel" ] ]. ego_n1 := n_intr_uncount_le & [ STEM < "ego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ego_n_rel" ] ]. egocentrismo_n1 := n_intr_mass_le & [ STEM < "egocentrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_egocentrismo_n_rel" ] ]. egocéntricamente_x1 := av_i_spr_le & [ STEM < "egocéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_egocéntricamente_x_rel" ]. tecnocrático_a1 := a_qual_intr_ser_postn_le & [ STEM < "tecnocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_tecnocrático_a_rel" ]. egocéntrico_a1 := a_qual_intr_ser_postn_le & [ STEM < "egocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_egocéntrico_a_rel" ]. egolatría_n1 := n_intr_uncount_le & [ STEM < "egolatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_egolatría_n_rel" ] ]. egotista_a1 := a_qual_intr_ser_le & [ STEM < "egotista" >, SYNSEM.LKEYS.KEYREL.PRED "_egotista_a_rel" ]. egoísmo_n1 := n_intr_mass_le & [ STEM < "egoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_egoísmo_n_rel" ] ]. egoísta_a1 := a_qual_intr_ser_le & [ STEM < "egoísta" >, SYNSEM.LKEYS.KEYREL.PRED "_egoísta_a_rel" ]. egoístamente_x1 := av_i_spr_le & [ STEM < "egoístamente" >, SYNSEM.LKEYS.KEYREL.PRED "_egoístamente_x_rel" ]. egregio_a1 := a_qual_intr_ser_le & [ STEM < "egregio" >, SYNSEM.LKEYS.KEYREL.PRED "_egregio_a_rel" ]. eidético_a1 := a_rel_nonprd_intr_le & [ STEM < "eidético" >, SYNSEM.LKEYS.KEYREL.PRED "_eidético_a_rel" ]. einsteinio_n1 := n_intr_mass_le & [ STEM < "einsteinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_einsteinio_n_rel" ] ]. einstenio_n1 := n_intr_mass_le & [ STEM < "einstenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_einstenio_n_rel" ] ]. eje_n1 := n_intr_count_le & [ STEM < "eje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_eje_n_rel" ] ]. ejecución_n1 := n_trans_le & [ STEM < "ejecución" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecución_n_rel" ]. ejecutable_a1 := a_rel_prd_le & [ STEM < "ejecutable" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecutable_a_rel" ]. ejecutante_n1 := n_intr_count_le & [ STEM < "ejecutante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ejecutante_n_rel" ] ]. ejecutiva_n1 := n_intr_count_le & [ STEM < "ejecutiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum_soc, PRED "_ejecutiva_n_rel" ] ]. ejecutivamente_x1 := av_i_spr_le & [ STEM < "ejecutivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecutivamente_x_rel" ]. ejecutividad_n1 := n_intr_uncount_le & [ STEM < "ejecutividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ejecutividad_n_rel" ] ]. ejecutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "ejecutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecutivo_a_rel" ]. ejecutivo_n1 := n_intr_count_le & [ STEM < "ejecutivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ejecutivo_n_rel" ] ]. ejecutor_n1 := n_subj-nom_le & [ STEM < "ejecutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ejecutor_n_rel" ] ]. ejecutoria_n1 := n_intr_count_le & [ STEM < "ejecutoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ejecutoria_n_rel" ] ]. ejecutoriamente_x1 := av_i_spr_le & [ STEM < "ejecutoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecutoriamente_x_rel" ]. ejecutoriedad_n1 := n_intr_uncount_le & [ STEM < "ejecutoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ejecutoriedad_n_rel" ] ]. ejecutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "ejecutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_ejecutorio_a_rel" ]. ejemplar_a1 := a_qual_intr_scopal_le & [ STEM < "ejemplar" >, SYNSEM.LKEYS.KEYREL.PRED "_ejemplar_a_rel" ]. ejemplar_n1 := n_intr_count_le & [ STEM < "ejemplar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ejemplar_n_rel" ] ]. ejemplaridad_n1 := n_ppcomp_uncount_le & [ STEM < "ejemplaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ejemplaridad_n_rel" ] ]. ejemplarizante_a1 := a_rel_nonprd_intr_le & [ STEM < "ejemplarizante" >, SYNSEM.LKEYS.KEYREL.PRED "_ejemplarizante_a_rel" ]. ejemplarmente_x1 := av_i_spr_le & [ STEM < "ejemplarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ejemplarmente_x_rel" ]. ejemplificación_n1 := n_trans_le & [ STEM < "ejemplificación" >, SYNSEM.LKEYS.KEYREL.PRED "_ejemplificación_n_rel" ]. ejemplo_n1 := n_intr_count_le & [ STEM < "ejemplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ejemplo_n_rel" ] ]. ejercible_a1 := a_rel_nonprd_intr_le & [ STEM < "ejercible" >, SYNSEM.LKEYS.KEYREL.PRED "_ejercible_a_rel" ]. ejercicio_n1 := n_intr_count_le & [ STEM < "ejercicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ejercicio_n_rel" ] ]. ejercitable_a1 := a_rel_prd_le & [ STEM < "ejercitable" >, SYNSEM.LKEYS.KEYREL.PRED "_ejercitable_a_rel" ]. ejercitante_a1 := a_rel_nonprd_intr_le & [ STEM < "ejercitante" >, SYNSEM.LKEYS.KEYREL.PRED "_ejercitante_a_rel" ]. ejercitante_n1 := n_intr_count_le & [ STEM < "ejercitante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ejercitante_n_rel" ] ]. ejercitar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "ejercitar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_ejercitar_v_rel" ] ]. ejercitar_v2 := v_trans_np_le & [ STEM < "ejercitar" >, SYNSEM.LKEYS.KEYREL.PRED "_ejercitar_v_rel" ]. ejido_n1 := n_intr_count_le & [ STEM < "ejido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ejido_n_rel" ] ]. ejército_n1 := n_intr_coll_le & [ STEM < "ejército" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_ejército_n_rel" ] ]. el_d := d_art-df_le & [ STEM < "el" > ]. elaborabilidad_n1 := n_intr_uncount_le & [ STEM < "elaborabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elaborabilidad_n_rel" ] ]. elaborable_a1 := a_rel_prd_le & [ STEM < "elaborable" >, SYNSEM.LKEYS.KEYREL.PRED "_elaborable_a_rel" ]. elaboración_n1 := n_trans_le & [ STEM < "elaboración" >, SYNSEM.LKEYS.KEYREL.PRED "_elaboración_n_rel" ]. elaborar_v := v_trans_np_le & [ STEM < "elaborar" >, SYNSEM.LKEYS.KEYREL.PRED "_elaborar_v_rel" ]. elastancia_n1 := n_intr_uncount_le & [ STEM < "elastancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elastancia_n_rel" ] ]. elasticidad_n1 := n_ppcomp_mass_le & [ STEM < "elasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elasticidad_n_rel" ] ]. elastina_n1 := n_intr_count_le & [ STEM < "elastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elastina_n_rel" ] ]. elastomérico_a1 := a_rel_nonprd_intr_le & [ STEM < "elastomérico" >, SYNSEM.LKEYS.KEYREL.PRED "_elastomérico_a_rel" ]. elastómero_a1 := a_rel_nonprd_intr_le & [ STEM < "elastómero" >, SYNSEM.LKEYS.KEYREL.PRED "_elastómero_a_rel" ]. elastómero_n1 := n_intr_count_le & [ STEM < "elastómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_elastómero_n_rel" ] ]. elastómetro_n1 := n_intr_count_le & [ STEM < "elastómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elastómetro_n_rel" ] ]. elaterita_n1 := n_intr_count_le & [ STEM < "elaterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_elaterita_n_rel" ] ]. eleboreína_n1 := n_intr_count_le & [ STEM < "eleboreína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eleboreína_n_rel" ] ]. elección_n1 := n_trans_le & [ STEM < "elección" >, SYNSEM.LKEYS.KEYREL.PRED "_elección_n_rel" ]. electivo_a1 := a_rel_nonprd_intr_le & [ STEM < "electivo" >, SYNSEM.LKEYS.KEYREL.PRED "_electivo_a_rel" ]. electo_a1 := a_rel_nonprd_intr_le & [ STEM < "electo" >, SYNSEM.LKEYS.KEYREL.PRED "_electo_a_rel" ]. elector_n1 := n_subj-nom_le & [ STEM < "elector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_elector_n_rel" ] ]. electorado_n1 := n_intr_coll_le & [ STEM < "electorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_electorado_n_rel" ] ]. electoral_a1 := a_rel_nonprd_intr_le & [ STEM < "electoral" >, SYNSEM.LKEYS.KEYREL.PRED "_electoral_a_rel" ]. electoralismo_n1 := n_intr_uncount_le & [ STEM < "electoralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electoralismo_n_rel" ] ]. electoralista_a1 := a_rel_nonprd_intr_le & [ STEM < "electoralista" >, SYNSEM.LKEYS.KEYREL.PRED "_electoralista_a_rel" ]. electoralmente_x1 := av_i_spr_le & [ STEM < "electoralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_electoralmente_x_rel" ]. electricidad_n1 := n_ppcomp_mass_le & [ STEM < "electricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electricidad_n_rel" ] ]. electricidad_n2 := n_intr_uncount_le & [ STEM < "electricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electricidad_n_rel" ] ]. electricista_n1 := n_intr_count_le & [ STEM < "electricista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_electricista_n_rel" ] ]. electrificación_n1 := n_trans_le & [ STEM < "electrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_electrificación_n_rel" ]. electrificador_n1 := n_subj-nom_le & [ STEM < "electrificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_electrificador_n_rel" ] ]. electrificar_v1 := v_trans_np_le & [ STEM < "electrificar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrificar_v_rel" ]. electriz_n1 := n_intr_count_le & [ STEM < "electriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_electriz_n_rel" ] ]. electrizable_a1 := a_rel_prd_le & [ STEM < "electrizable" >, SYNSEM.LKEYS.KEYREL.PRED "_electrizable_a_rel" ]. electrización_n1 := n_trans_le & [ STEM < "electrización" >, SYNSEM.LKEYS.KEYREL.PRED "_electrización_n_rel" ]. electrizador_a1 := a_rel_nonprd_intr_le & [ STEM < "electrizador" >, SYNSEM.LKEYS.KEYREL.PRED "_electrizador_a_rel" ]. electrizante_a1 := a_qual_intr_scopal_le & [ STEM < "electrizante" >, SYNSEM.LKEYS.KEYREL.PRED "_electrizante_a_rel" ]. electrizar_v1 := v_intr_io*_le & [ STEM < "electrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrizar_v_rel" ]. electrizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "electrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrizar_v_rel" ]. electrizar_v3 := v_trans_np_le & [ STEM < "electrizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_electrizar_v_rel" ] ]. electro_n1 := n_intr_count_le & [ STEM < "electro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_electro_n_rel" ] ]. electroacústicamente_x1 := av_i_spr_le & [ STEM < "electroacústicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroacústicamente_x_rel" ]. electroacústico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroacústico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroacústico_a_rel" ]. electrobomba_n1 := n_intr_count_le & [ STEM < "electrobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrobomba_n_rel" ] ]. electrocapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "electrocapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrocapilar_a_rel" ]. electrocapilaridad_n1 := n_intr_uncount_le & [ STEM < "electrocapilaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrocapilaridad_n_rel" ] ]. electrocapilarmente_x1 := av_i_spr_le & [ STEM < "electrocapilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrocapilarmente_x_rel" ]. electrocardiograma_n1 := n_intr_count_le & [ STEM < "electrocardiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrocardiograma_n_rel" ] ]. electrocinético_a1 := a_rel_nonprd_intr_le & [ STEM < "electrocinético" >, SYNSEM.LKEYS.KEYREL.PRED "_electrocinético_a_rel" ]. electrocoagulación_n1 := n_intr_count_le & [ STEM < "electrocoagulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrocoagulación_n_rel" ] ]. electrococleografía_n1 := n_intr_count_le & [ STEM < "electrococleografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrococleografía_n_rel" ] ]. electroconvección_n1 := n_intr_count_le & [ STEM < "electroconvección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroconvección_n_rel" ] ]. electroconvulsivo_a1 := a_rel_nonprd_intr_le & [ STEM < "electroconvulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_electroconvulsivo_a_rel" ]. electrocromismo_n1 := n_intr_uncount_le & [ STEM < "electrocromismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrocromismo_n_rel" ] ]. electrocución_n1 := n_trans_le & [ STEM < "electrocución" >, SYNSEM.LKEYS.KEYREL.PRED "_electrocución_n_rel" ]. electrocutar_v := v_trans_np_le & [ STEM < "electrocutar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrocutar_v_rel" ]. electrodeposición_n1 := n_intr_count_le & [ STEM < "electrodeposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodeposición_n_rel" ] ]. electrodifusión_n1 := n_intr_count_le & [ STEM < "electrodifusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodifusión_n_rel" ] ]. electrodinamómetro_n1 := n_intr_count_le & [ STEM < "electrodinamómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrodinamómetro_n_rel" ] ]. electrodinámica_n1 := n_intr_uncount_le & [ STEM < "electrodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodinámica_n_rel" ] ]. electrodinámicmente_x1 := av_i_spr_le & [ STEM < "electrodinámicmente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrodinámicmente_x_rel" ]. electrodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrodinámico_a_rel" ]. electrodisolución_n1 := n_intr_count_le & [ STEM < "electrodisolución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodisolución_n_rel" ] ]. electrodiálisis_n1 := n_intr_uncount_le & [ STEM < "electrodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodiálisis_n_rel" ] ]. electrodo_n1 := n_intr_count_le & [ STEM < "electrodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrodo_n_rel" ] ]. electrodoméstico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrodoméstico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrodoméstico_a_rel" ]. electrodoméstico_n1 := n_intr_count_le & [ STEM < "electrodoméstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrodoméstico_n_rel" ] ]. electroerosión_n1 := n_event-result_intr_le & [ STEM < "electroerosión" >, SYNSEM.LKEYS.KEYREL.PRED "_electroerosión_n_rel" ]. electroespectrograma_n1 := n_intr_count_le & [ STEM < "electroespectrograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_electroespectrograma_n_rel" ] ]. electroestáticamente_x1 := av_i_spr_le & [ STEM < "electroestáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroestáticamente_x_rel" ]. electroestático_a1 := a_rel_nonprd_intr_le & [ STEM < "electroestático" >, SYNSEM.LKEYS.KEYREL.PRED "_electroestático_a_rel" ]. electroflotación_n1 := n_intr_count_le & [ STEM < "electroflotación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroflotación_n_rel" ] ]. electroforesis_n1 := n_intr_uncount_le & [ STEM < "electroforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroforesis_n_rel" ] ]. electroformación_n1 := n_intr_count_le & [ STEM < "electroformación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroformación_n_rel" ] ]. electroforético_a1 := a_rel_nonprd_intr_le & [ STEM < "electroforético" >, SYNSEM.LKEYS.KEYREL.PRED "_electroforético_a_rel" ]. electrofreno_n1 := n_intr_count_le & [ STEM < "electrofreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrofreno_n_rel" ] ]. electrogalvánicamente_x1 := av_i_spr_le & [ STEM < "electrogalvánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrogalvánicamente_x_rel" ]. electrogalvánico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrogalvánico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrogalvánico_a_rel" ]. electrográficamente_x1 := av_i_spr_le & [ STEM < "electrográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrográficamente_x_rel" ]. electrográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrográfico_a_rel" ]. electrohidráulicamente_x1 := av_i_spr_le & [ STEM < "electrohidráulicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrohidráulicamente_x_rel" ]. electrohidráulico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrohidráulico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrohidráulico_a_rel" ]. electroimán_n1 := n_intr_count_le & [ STEM < "electroimán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electroimán_n_rel" ] ]. electrolito_n1 := n_intr_count_le & [ STEM < "electrolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrolito_n_rel" ] ]. electrolizador_a1 := a_rel_nonprd_intr_le & [ STEM < "electrolizador" >, SYNSEM.LKEYS.KEYREL.PRED "_electrolizador_a_rel" ]. electrolizador_n1 := n_intr_count_le & [ STEM < "electrolizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrolizador_n_rel" ] ]. electrolizar_v := v_trans_np_le & [ STEM < "electrolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_electrolizar_v_rel" ]. electroluminescente_a1 := a_rel_nonprd_intr_le & [ STEM < "electroluminescente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroluminescente_a_rel" ]. electroluminiscencia_n1 := n_intr_uncount_le & [ STEM < "electroluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroluminiscencia_n_rel" ] ]. electrolíticamente_x1 := av_i_spr_le & [ STEM < "electrolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrolíticamente_x_rel" ]. electrolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrolítico_a_rel" ]. electromagnetismo_n1 := n_intr_uncount_le & [ STEM < "electromagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electromagnetismo_n_rel" ] ]. electromagnéticamente_x1 := av_i_spr_le & [ STEM < "electromagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electromagnéticamente_x_rel" ]. electromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "electromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_electromagnético_a_rel" ]. electromecánica_n1 := n_intr_uncount_le & [ STEM < "electromecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electromecánica_n_rel" ] ]. electromecánicamente_x1 := av_i_spr_le & [ STEM < "electromecánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electromecánicamente_x_rel" ]. electromecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "electromecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_electromecánico_a_rel" ]. electrometalurgia_n1 := n_intr_uncount_le & [ STEM < "electrometalurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrometalurgia_n_rel" ] ]. electrometeoro_n1 := n_intr_count_le & [ STEM < "electrometeoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrometeoro_n_rel" ] ]. electromigración_n1 := n_intr_count_le & [ STEM < "electromigración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electromigración_n_rel" ] ]. electromiografía_n1 := n_intr_count_le & [ STEM < "electromiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electromiografía_n_rel" ] ]. electromotor_a1 := a_rel_nonprd_intr_le & [ STEM < "electromotor" >, SYNSEM.LKEYS.KEYREL.PRED "_electromotor_a_rel" ]. electromotor_n1 := n_intr_count_le & [ STEM < "electromotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_electromotor_n_rel" ] ]. electrométricamente_x1 := av_i_spr_le & [ STEM < "electrométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrométricamente_x_rel" ]. electrométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrométrico_a_rel" ]. electromóvil_a1 := a_rel_nonprd_intr_le & [ STEM < "electromóvil" >, SYNSEM.LKEYS.KEYREL.PRED "_electromóvil_a_rel" ]. electromóvilmente_x1 := av_i_spr_le & [ STEM < "electromóvilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_electromóvilmente_x_rel" ]. electronegativamente_x1 := av_i_spr_le & [ STEM < "electronegativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electronegativamente_x_rel" ]. electronegativo_a1 := a_rel_nonprd_intr_le & [ STEM < "electronegativo" >, SYNSEM.LKEYS.KEYREL.PRED "_electronegativo_a_rel" ]. electroneumáticamente_x1 := av_i_spr_le & [ STEM < "electroneumáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroneumáticamente_x_rel" ]. electroneumático_a1 := a_rel_nonprd_intr_le & [ STEM < "electroneumático" >, SYNSEM.LKEYS.KEYREL.PRED "_electroneumático_a_rel" ]. electronistagmografía_n1 := n_intr_count_le & [ STEM < "electronistagmografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electronistagmografía_n_rel" ] ]. electronistagmograma_n1 := n_intr_count_le & [ STEM < "electronistagmograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_electronistagmograma_n_rel" ] ]. electronistagmógrafo_n1 := n_intr_count_le & [ STEM < "electronistagmógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electronistagmógrafo_n_rel" ] ]. electronuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "electronuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_electronuclear_a_rel" ]. electronvoltio_n := n_intr_count_le & [ STEM < "electronvoltio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_electronvoltio_n_rel" ] ]. electrooculografía_n1 := n_intr_count_le & [ STEM < "electrooculografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrooculografía_n_rel" ] ]. electrooculograma_n1 := n_intr_count_le & [ STEM < "electrooculograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_electrooculograma_n_rel" ] ]. electroosmóticamente_x1 := av_i_spr_le & [ STEM < "electroosmóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroosmóticamente_x_rel" ]. electroosmótico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroosmótico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroosmótico_a_rel" ]. electropolar_a1 := a_rel_nonprd_intr_le & [ STEM < "electropolar" >, SYNSEM.LKEYS.KEYREL.PRED "_electropolar_a_rel" ]. electropolarmente_x1 := av_i_spr_le & [ STEM < "electropolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_electropolarmente_x_rel" ]. electropositivamente_x1 := av_i_spr_le & [ STEM < "electropositivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electropositivamente_x_rel" ]. electropositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "electropositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_electropositivo_a_rel" ]. electroquímica_n1 := n_intr_uncount_le & [ STEM < "electroquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroquímica_n_rel" ] ]. electroquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroquímico_a_rel" ]. electrorreceptivamente_x1 := av_i_spr_le & [ STEM < "electrorreceptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrorreceptivamente_x_rel" ]. electrorreceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "electrorreceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_electrorreceptivo_a_rel" ]. electrorretinografía_n1 := n_intr_count_le & [ STEM < "electrorretinografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrorretinografía_n_rel" ] ]. electrorretinograma_n1 := n_intr_count_le & [ STEM < "electrorretinograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_electrorretinograma_n_rel" ] ]. electrorretinógrafo_n1 := n_intr_count_le & [ STEM < "electrorretinógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrorretinógrafo_n_rel" ] ]. electroscópicamente_x1 := av_i_spr_le & [ STEM < "electroscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroscópicamente_x_rel" ]. electroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroscópico_a_rel" ]. electrosoldar_v := v_trans_np_mrkd_np*_le & [ STEM < "electrosoldar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_electrosoldar_v_rel" ] ]. electrostricción_n1 := n_intr_uncount_le & [ STEM < "electrostricción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrostricción_n_rel" ] ]. electrostática_n1 := n_intr_uncount_le & [ STEM < "electrostática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrostática_n_rel" ] ]. electrostáticamente_x1 := av_i_spr_le & [ STEM < "electrostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrostáticamente_x_rel" ]. electrostático_a1 := a_rel_nonprd_intr_le & [ STEM < "electrostático" >, SYNSEM.LKEYS.KEYREL.PRED "_electrostático_a_rel" ]. electrotecnia_n1 := n_intr_uncount_le & [ STEM < "electrotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrotecnia_n_rel" ] ]. electroterapéuticamente_x1 := av_i_spr_le & [ STEM < "electroterapéuticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroterapéuticamente_x_rel" ]. electroterapéutico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroterapéutico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroterapéutico_a_rel" ]. electrotermia_n1 := n_intr_uncount_le & [ STEM < "electrotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrotermia_n_rel" ] ]. electrotécnica_n1 := n_intr_count_le & [ STEM < "electrotécnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrotécnica_n_rel" ] ]. electrotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotécnico_a_rel" ]. electrotécnico_n1 := n_intr_count_le & [ STEM < "electrotécnico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_electrotécnico_n_rel" ] ]. electrotérmicamente_x1 := av_i_spr_le & [ STEM < "electrotérmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotérmicamente_x_rel" ]. electrotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotérmico_a_rel" ]. electrotípicamente_x1 := av_i_spr_le & [ STEM < "electrotípicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotípicamente_x_rel" ]. electrotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotípico_a_rel" ]. electrotónicamente_x1 := av_i_spr_le & [ STEM < "electrotónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotónicamente_x_rel" ]. electrotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrotónico_a_rel" ]. electroviscosidad_n1 := n_intr_uncount_le & [ STEM < "electroviscosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroviscosidad_n_rel" ] ]. electroválvula_n1 := n_intr_count_le & [ STEM < "electroválvula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electroválvula_n_rel" ] ]. electroópticamente_x1 := av_i_spr_le & [ STEM < "electroópticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electroópticamente_x_rel" ]. electroóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "electroóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_electroóptico_a_rel" ]. electroósmosis_n1 := n_intr_uncount_le & [ STEM < "electroósmosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electroósmosis_n_rel" ] ]. electrófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "electrófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_electrófilo_a_rel" ]. electrófono_n1 := n_intr_count_le & [ STEM < "electrófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrófono_n_rel" ] ]. electrógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "electrógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_electrógeno_a_rel" ]. electrólisis_n1 := n_intr_uncount_le & [ STEM < "electrólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrólisis_n_rel" ] ]. electrólito_n1 := n_intr_count_le & [ STEM < "electrólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrólito_n_rel" ] ]. electrómetro_n1 := n_intr_count_le & [ STEM < "electrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_electrómetro_n_rel" ] ]. electrón_n1 := n_intr_count_le & [ STEM < "electrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_electrón_n_rel" ] ]. electrónica_n1 := n_intr_uncount_le & [ STEM < "electrónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrónica_n_rel" ] ]. electrónicamente_x1 := av_i_spr_le & [ STEM < "electrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_electrónicamente_x_rel" ]. electrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "electrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_electrónico_a_rel" ]. electrónico_n1 := n_intr_count_le & [ STEM < "electrónico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_electrónico_a_rel" ] ]. elefante_n1 := n_intr_count_le & [ STEM < "elefante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_elefante_n_rel" ] ]. elefantino_a1 := a_rel_nonprd_intr_le & [ STEM < "elefantino" >, SYNSEM.LKEYS.KEYREL.PRED "_elefantino_a_rel" ]. elegancia_n1 := n_ppcomp_mass_le & [ STEM < "elegancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elegancia_n_rel" ] ]. elegante_a1 := a_qual_intr_scopal_le & [ STEM < "elegante" >, SYNSEM.LKEYS.KEYREL.PRED "_elegante_a_rel" ]. elegantemente_x1 := av_i_spr_le & [ STEM < "elegantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_elegantemente_x_rel" ]. elegibilidad_n1 := n_intr_uncount_le & [ STEM < "elegibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elegibilidad_n_rel" ] ]. elegible_a1 := a_rel_prd_le & [ STEM < "elegible" >, SYNSEM.LKEYS.KEYREL.PRED "_elegible_a_rel" ]. elegir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "elegir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_elegir_v_rel" ] ]. elegir_v2 := v_obj_equi_prd_le & [ STEM < "elegir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_elegir_v_rel" ] ]. elegía_n1 := n_intr_count_le & [ STEM < "elegía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elegía_n_rel" ] ]. elemental_a1 := a_qual_intr_scopal_le & [ STEM < "elemental" >, SYNSEM.LKEYS.KEYREL.PRED "_elemental_a_rel" ]. elementalmente_x1 := av_i_spr_le & [ STEM < "elementalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_elementalmente_x_rel" ]. elemento_n1 := n_intr_count_le & [ STEM < "elemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_elemento_n_rel" ] ]. elenco_n1 := n_intr_coll_le & [ STEM < "elenco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elenco_n_rel" ] ]. eleolita_n1 := n_intr_mass_le & [ STEM < "eleolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_eleolita_n_rel" ] ]. elepé_n1 := n_intr_count_le & [ STEM < "elepé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elepé_n_rel" ] ]. elevación_n1 := n_trans_le & [ STEM < "elevación" >, SYNSEM.LKEYS.KEYREL.PRED "_elevación_n_rel" ]. elevador_a1 := a_rel_nonprd_intr_le & [ STEM < "elevador" >, SYNSEM.LKEYS.KEYREL.PRED "_elevador_a_rel" ]. elevador_n1 := n_intr_count_le & [ STEM < "elevador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elevador_n_rel" ] ]. elevadora_n1 := n_intr_count_le & [ STEM < "elevadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elevadora_n_rel" ] ]. elevalunas_n1 := n_intr_count_le & [ STEM < "elevalunas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elevalunas_n_rel" ] ]. elevar_v1 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "elevar" >, SYNSEM.LKEYS.KEYREL.PRED "_elevar_v_rel" ]. elevar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "elevar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_elevar_v_rel" ] ] ]. elidir_v := v_trans_np_le & [ STEM < "elidir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_elidir_v_rel" ] ]. eliminable_a1 := a_rel_prd_le & [ STEM < "eliminable" >, SYNSEM.LKEYS.KEYREL.PRED "_eliminable_a_rel" ]. eliminación_n1 := n_trans_le & [ STEM < "eliminación" >, SYNSEM.LKEYS.KEYREL.PRED "_eliminación_n_rel" ]. eliminador_n1 := n_intr_count_le & [ STEM < "eliminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_eliminador_n_rel" ] ]. eliminar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "eliminar" >, SYNSEM.LKEYS.KEYREL.PRED "_eliminar_v_rel" ]. eliminar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "eliminar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_eliminar_v_rel" ] ]. eliminar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "eliminar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_eliminar_v_rel" ] ]. eliminatoria_n1 := n_intr_count_le & [ STEM < "eliminatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eliminatoria_n_rel" ] ]. eliminatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "eliminatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_eliminatorio_a_rel" ]. elipse_n1 := n_intr_count_le & [ STEM < "elipse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elipse_n_rel" ] ]. elipsis_n1 := n_intr_count_le & [ STEM < "elipsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elipsis_n_rel" ] ]. elipsoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "elipsoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_elipsoidal_a_rel" ]. elipsoidalmente_x1 := av_i_spr_le & [ STEM < "elipsoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_elipsoidalmente_x_rel" ]. elipsoide_n1 := n_intr_count_le & [ STEM < "elipsoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elipsoide_n_rel" ] ]. elipsoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "elipsoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_elipsoideo_a_rel" ]. elipsometría_n1 := n_intr_uncount_le & [ STEM < "elipsometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elipsometría_n_rel" ] ]. elipsógrafo_n1 := n_intr_count_le & [ STEM < "elipsógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elipsógrafo_n_rel" ] ]. eliptocito_n1 := n_intr_count_le & [ STEM < "eliptocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eliptocito_n_rel" ] ]. eliptocitosis_n1 := n_intr_uncount_le & [ STEM < "eliptocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eliptocitosis_n_rel" ] ]. elisión_n1 := n_trans_le & [ STEM < "elisión" >, SYNSEM.LKEYS.KEYREL.PRED "_elisión_n_rel" ]. elite_n1 := n_intr_count_le & [ STEM < "elite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elite_n_rel" ] ]. elitismo_n1 := n_intr_uncount_le & [ STEM < "elitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elitismo_n_rel" ] ]. elitista_a1 := a_qual_intr_ser_le & [ STEM < "elitista" >, SYNSEM.LKEYS.KEYREL.PRED "_elitista_a_rel" ]. elixir_n1 := n_intr_count_le & [ STEM < "elixir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elixir_n_rel" ] ]. ellos_p := pr_pers_nom-or-obl_le & [ STEM < "ellos" > ]. elocución_n1 := n_intr_mass-or-count_le & [ STEM < "elocución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elocución_n_rel" ] ]. elocuencia_n1 := n_intr_mass_le & [ STEM < "elocuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elocuencia_n_rel" ] ]. elocuente_a1 := a_qual_intr_scopal_le & [ STEM < "elocuente" >, SYNSEM.LKEYS.KEYREL.PRED "_elocuente_a_rel" ]. elocuentemente_x1 := av_i_spr_le & [ STEM < "elocuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_elocuentemente_x_rel" ]. elogiable_a1 := a_qual_intr_scopal_le & [ STEM < "elogiable" >, SYNSEM.LKEYS.KEYREL.PRED "_elogiable_a_rel" ]. elogiar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "elogiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_elogiar_v_rel" ] ]. elogiar_v2 := v_trans_cp_semi_ques_le & [ STEM < "elogiar" >, SYNSEM.LKEYS.KEYREL.PRED "_elogiar_v_rel" ]. elogiar_v3 := v_trans_np_le & [ STEM < "elogiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_elogiar_v_rel" ] ]. elogio_n1 := n_intr_count_le & [ STEM < "elogio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_elogio_n_rel" ] ]. elogioso_a1 := a_qual_intr_ser_le & [ STEM < "elogioso" >, SYNSEM.LKEYS.KEYREL.PRED "_elogioso_a_rel" ]. elongación_n1 := n_trans_le & [ STEM < "elongación" >, SYNSEM.LKEYS.KEYREL.PRED "_elongación_n_rel" ]. elucidación_n1 := n_trans_le & [ STEM < "elucidación" >, SYNSEM.LKEYS.KEYREL.PRED "_elucidación_n_rel" ]. elucidar_v1 := v_trans_cp_prop_fin_le & [ STEM < "elucidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_elucidar_v_rel" ] ]. elucidar_v2 := v_trans_np_le & [ STEM < "elucidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_elucidar_v_rel" ] ]. elución_n1 := n_trans_le & [ STEM < "elución" >, SYNSEM.LKEYS.KEYREL.PRED "_elución_n_rel" ]. elucubración_n1 := n_trans_le & [ STEM < "elucubración" >, SYNSEM.LKEYS.KEYREL.PRED "_elucubración_n_rel" ]. elucubrar_v := v_pron_intr_mrkd_np*_le & [ STEM < "elucubrar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_elucubrar_v_rel" ] ]. eludible_a1 := a_qual_intr_scopal_le & [ STEM < "eludible" >, SYNSEM.LKEYS.KEYREL.PRED "_eludible_a_rel" ]. eludir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "eludir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_eludir_v_rel" ] ]. eludir_v2 := v_trans_np_le & [ STEM < "eludir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_eludir_v_rel" ] ]. elusivo_a1 := a_rel_prd_le & [ STEM < "elusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_elusivo_a_rel" ]. elusión_n1 := n_trans_le & [ STEM < "elusión" >, SYNSEM.LKEYS.KEYREL.PRED "_elusión_n_rel" ]. eluído_n1 := n_intr_count_le & [ STEM < "eluído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eluído_n_rel" ] ]. elásticamente_x1 := av_i_spr_le & [ STEM < "elásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_elásticamente_x_rel" ]. elástico_a1 := a_qual_intr_scopal_le & [ STEM < "elástico" >, SYNSEM.LKEYS.KEYREL.PRED "_elástico_a_rel" ]. elástico_n1 := n_intr_count_le & [ STEM < "elástico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_elástico_n_rel" ] ]. eléboro_n1 := n_intr_count_le & [ STEM < "eléboro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eléboro_n_rel" ] ]. eléctricamente_x1 := av_i_spr_le & [ STEM < "eléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eléctricamente_x_rel" ]. eléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "eléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_eléctrico_a_rel" ]. elíptico_a1 := a_qual_intr_ser_le & [ STEM < "elíptico" >, SYNSEM.LKEYS.KEYREL.PRED "_elíptico_a_rel" ]. em_cl_pnct := pnct_fat_le & [ STEM < "fat" > ]. em_op_pnct := pnct_faa_le & [ STEM < "faa" > ]. emanación_n1 := n_trans_le & [ STEM < "emanación" >, SYNSEM.LKEYS.KEYREL.PRED "_emanación_n_rel" ]. emanar_v1 := v_intr_mrkd_np_le & [ STEM < "emanar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_emanar_v_rel" ] ]. emanar_v2 := v_trans_np*_le & [ STEM < "emanar" >, SYNSEM.LKEYS.KEYREL.PRED "_emanar_v_rel" ]. emancipación_n1 := n_trans_le & [ STEM < "emancipación" >, SYNSEM.LKEYS.KEYREL.PRED "_emancipación_n_rel" ]. emancipador_a1 := a_rel_nonprd_intr_le & [ STEM < "emancipador" >, SYNSEM.LKEYS.KEYREL.PRED "_emancipador_a_rel" ]. emancipar_v := v_trans_np_caus_le & [ STEM < "emancipar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_soc, PRED "_emancipar_v_rel" ] ]. embajada_n1 := n_intr_count_le & [ STEM < "embajada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_embajada_n_rel" ] ]. embajador_n1 := n_subj-nom_le & [ STEM < "embajador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embajador_n_rel" ] ]. embalador_a1 := a_rel_nonprd_intr_le & [ STEM < "embalador" >, SYNSEM.LKEYS.KEYREL.PRED "_embalador_a_rel" ]. embalador_n1 := n_subj-nom_le & [ STEM < "embalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embalador_n_rel" ] ]. embaladora_n1 := n_intr_count_le & [ STEM < "embaladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embaladora_n_rel" ] ]. embalaje_n1 := n_intr_mass_le & [ STEM < "embalaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embalaje_n_rel" ] ]. embalar_v := v_trans_np_le & [ STEM < "embalar" >, SYNSEM.LKEYS.KEYREL.PRED "_embalar_v_rel" ]. embaldosado_n1 := n_trans_le & [ STEM < "embaldosado" >, SYNSEM.LKEYS.KEYREL.PRED "_embaldosado_n_rel" ]. embaldosador_n1 := n_intr_count_le & [ STEM < "embaldosador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embaldosador_n_rel" ] ]. embaldosar_v := v_trans_np_le & [ STEM < "embaldosar" >, SYNSEM.LKEYS.KEYREL.PRED "_embaldosar_v_rel" ]. embalsamar_v := v_trans_np_le & [ STEM < "embalsamar" >, SYNSEM.LKEYS.KEYREL.PRED "_embalsamar_v_rel" ]. embalsar_v := v_trans_np_le & [ STEM < "embalsar" >, SYNSEM.LKEYS.KEYREL.PRED "_embalsar_v_rel" ]. embalse_n1 := n_intr_count_le & [ STEM < "embalse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embalse_n_rel" ] ]. embarazar_v := v_trans_np_le & [ STEM < "embarazar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_embarazar_v_rel" ] ]. embarazo_n1 := n_intr_count_le & [ STEM < "embarazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embarazo_n_rel" ] ]. embarazoso_a1 := a_qual_intr_scopal_le & [ STEM < "embarazoso" >, SYNSEM.LKEYS.KEYREL.PRED "_embarazoso_a_rel" ]. embarcación_n1 := n_intr_count_le & [ STEM < "embarcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embarcación_n_rel" ] ]. embarcadero_n1 := n_intr_count_le & [ STEM < "embarcadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_embarcadero_n_rel" ] ]. embarcador_n1 := n_intr_count_le & [ STEM < "embarcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_embarcador_n_rel" ] ]. embarcar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "embarcar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_embarcar_v_rel" ] ] ]. embarcar_v2 := v_intr_mrkd_np_le & [ STEM < "embarcar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_embarcar_v_rel" ] ] ]. embarcar_v3 := v_intr_mrkd_np*_le & [ STEM < "embarcar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_embarcar_v_rel" ] ]. embarcar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "embarcar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_embarcar_v_rel" ] ]. embarco_n1 := n_trans_le & [ STEM < "embarco" >, SYNSEM.LKEYS.KEYREL.PRED "_embarco_n_rel" ]. embargable_a1 := a_rel_prd_le & [ STEM < "embargable" >, SYNSEM.LKEYS.KEYREL.PRED "_embargable_a_rel" ]. embargador_n1 := n_subj-nom_le & [ STEM < "embargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embargador_n_rel" ] ]. embargante_a1 := a_rel_nonprd_intr_le & [ STEM < "embargante" >, SYNSEM.LKEYS.KEYREL.PRED "_embargante_a_rel" ]. embargante_n1 := n_intr_count_le & [ STEM < "embargante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embargante_n_rel" ] ]. embargo_n1 := n_intr_count_le & [ STEM < "embargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embargo_n_rel" ] ]. embarque_n1 := n_trans_le & [ STEM < "embarque" >, SYNSEM.LKEYS.KEYREL.PRED "_embarque_n_rel" ]. embarrancar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "embarrancar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_embarrancar_v_rel" ] ]. embarrancar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "embarrancar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_embarrancar_v_rel" ] ]. embarrar_v := v_trans_np_le & [ STEM < "embarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_embarrar_v_rel" ]. embarullar_v1 := v_intr_io*_le & [ STEM < "embarullar" >, SYNSEM.LKEYS.KEYREL.PRED "_embarullar_v_rel" ]. embarullar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embarullar" >, SYNSEM.LKEYS.KEYREL.PRED "_embarullar_v_rel" ]. embarullar_v3 := v_trans_np_caus_le & [ STEM < "embarullar" >, SYNSEM.LKEYS.KEYREL.PRED "_embarullar_v_rel" ]. embasamiento_n1 := n_intr_uncount_le & [ STEM < "embasamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embasamiento_n_rel" ] ]. embate_n1 := n_trans_le & [ STEM < "embate" >, SYNSEM.LKEYS.KEYREL.PRED "_embate_n_rel" ]. embaucador_n1 := n_subj-nom_le & [ STEM < "embaucador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embaucador_n_rel" ] ]. embaucamiento_n1 := n_trans_le & [ STEM < "embaucamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_embaucamiento_n_rel" ]. embaucar_v := v_trans_np_le & [ STEM < "embaucar" >, SYNSEM.LKEYS.KEYREL.PRED "_embaucar_v_rel" ]. embelesar_v1 := v_intr_io*_le & [ STEM < "embelesar" >, SYNSEM.LKEYS.KEYREL.PRED "_embelesar_v_rel" ]. embelesar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embelesar" >, SYNSEM.LKEYS.KEYREL.PRED "_embelesar_v_rel" ]. embelesar_v3 := v_trans_np_le & [ STEM < "embelesar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_embelesar_v_rel" ] ]. embellecedor_n1 := n_intr_count_le & [ STEM < "embellecedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_embellecedor_n_rel" ] ]. embellecer_v := v_trans_np_le & [ STEM < "embellecer" >, SYNSEM.LKEYS.KEYREL.PRED "_embellecer_v_rel" ]. embellecimiento_n1 := n_trans_le & [ STEM < "embellecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_embellecimiento_n_rel" ]. embestir_v1 := v_intr_mrkd_np_le & [ STEM < "embestir" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_embestir_v_rel" ] ]. embestir_v2 := v_trans_np_le & [ STEM < "embestir" >, SYNSEM.LKEYS.KEYREL.PRED "_embestir_v_rel" ]. embetunar_v := v_trans_np_le & [ STEM < "embetunar" >, SYNSEM.LKEYS.KEYREL.PRED "_embetunar_v_rel" ]. emblema_n1 := n_intr_count_le & [ STEM < "emblema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emblema_n_rel" ] ]. emblemáticamente_x1 := av_i_spr_le & [ STEM < "emblemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_emblemáticamente_x_rel" ]. emblemático_a1 := a_qual_intr_scopal_le & [ STEM < "emblemático" >, SYNSEM.LKEYS.KEYREL.PRED "_emblemático_a_rel" ]. embobadamente_x1 := av_i_spr_le & [ STEM < "embobadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_embobadamente_x_rel" ]. embobar_v1 := v_intr_io*_le & [ STEM < "embobar" >, SYNSEM.LKEYS.KEYREL.PRED "_embobar_v_rel" ]. embobar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embobar" >, SYNSEM.LKEYS.KEYREL.PRED "_embobar_v_rel" ]. embobecimiento_n1 := n_trans_le & [ STEM < "embobecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_embobecimiento_n_rel" ]. embocadura_n1 := n_intr_count_le & [ STEM < "embocadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embocadura_n_rel" ] ]. embolada_n1 := n_intr_count_le & [ STEM < "embolada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embolada_n_rel" ] ]. embolia_n1 := n_intr_count_le & [ STEM < "embolia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embolia_n_rel" ] ]. emboliforme_a1 := a_qual_intr_ser_le & [ STEM < "emboliforme" >, SYNSEM.LKEYS.KEYREL.PRED "_emboliforme_a_rel" ]. embolsar_v1 := v_pron_trans_np_le & [ STEM < "embolsar" >, SYNSEM.LKEYS.KEYREL.PRED "_embolsar_v_rel" ]. embolsar_v2 := v_trans_np_le & [ STEM < "embolsar" >, SYNSEM.LKEYS.KEYREL.PRED "_embolsar_v_rel" ]. embolso_n1 := n_trans_le & [ STEM < "embolso" >, SYNSEM.LKEYS.KEYREL.PRED "_embolso_n_rel" ]. emborronar_v := v_trans_np_caus_le & [ STEM < "emborronar" >, SYNSEM.LKEYS.KEYREL.PRED "_emborronar_v_rel" ]. emboscada_n1 := n_trans_le & [ STEM < "emboscada" >, SYNSEM.LKEYS.KEYREL.PRED "_emboscada_n_rel" ]. embotar_v1 := v_intr_io*_le & [ STEM < "embotar" >, SYNSEM.LKEYS.KEYREL.PRED "_embotar_v_rel" ]. embotar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embotar" >, SYNSEM.LKEYS.KEYREL.PRED "_embotar_v_rel" ]. embotellado_n1 := n_trans_le & [ STEM < "embotellado" >, SYNSEM.LKEYS.KEYREL.PRED "_embotellado_n_rel" ]. embotellador_a1 := a_rel_nonprd_intr_le & [ STEM < "embotellador" >, SYNSEM.LKEYS.KEYREL.PRED "_embotellador_a_rel" ]. embotellador_n1 := n_subj-nom_le & [ STEM < "embotellador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embotellador_n_rel" ] ]. embotelladora_n1 := n_intr_count_le & [ STEM < "embotelladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_embotelladora_n_rel" ] ]. embotellamiento_n1 := n_trans_le & [ STEM < "embotellamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_embotellamiento_n_rel" ]. embotellar_v := v_trans_np_le & [ STEM < "embotellar" >, SYNSEM.LKEYS.KEYREL.PRED "_embotellar_v_rel" ]. embragar_v := v_trans_np*_le & [ STEM < "embragar" >, SYNSEM.LKEYS.KEYREL.PRED "_embragar_v_rel" ]. embrague_n1 := n_intr_count_le & [ STEM < "embrague" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embrague_n_rel" ] ]. embrear_v := v_trans_np_le & [ STEM < "embrear" >, SYNSEM.LKEYS.KEYREL.PRED "_embrear_v_rel" ]. embriagador_a1 := a_qual_intr_scopal_le & [ STEM < "embriagador" >, SYNSEM.LKEYS.KEYREL.PRED "_embriagador_a_rel" ]. embriagar_v1 := v_intr_io*_le & [ STEM < "embriagar" >, SYNSEM.LKEYS.KEYREL.PRED "_embriagar_v_rel" ]. embriagar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embriagar" >, SYNSEM.LKEYS.KEYREL.PRED "_embriagar_v_rel" ]. embriagar_v3 := v_trans_np*_caus_le & [ STEM < "embriagar" >, SYNSEM.LKEYS.KEYREL.PRED "_embriagar_v_rel" ]. embriaguez_n1 := n_intr_uncount_le & [ STEM < "embriaguez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embriaguez_n_rel" ] ]. embridar_v := v_trans_np_le & [ STEM < "embridar" >, SYNSEM.LKEYS.KEYREL.PRED "_embridar_v_rel" ]. embriogénesis_n1 := n_intr_uncount_le & [ STEM < "embriogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embriogénesis_n_rel" ] ]. embriología_n1 := n_intr_uncount_le & [ STEM < "embriología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embriología_n_rel" ] ]. embrional_a1 := a_rel_nonprd_intr_le & [ STEM < "embrional" >, SYNSEM.LKEYS.KEYREL.PRED "_embrional_a_rel" ]. embrionario_a1 := a_rel_nonprd_intr_le & [ STEM < "embrionario" >, SYNSEM.LKEYS.KEYREL.PRED "_embrionario_a_rel" ]. embriólogo_n1 := n_intr_count_le & [ STEM < "embriólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embriólogo_n_rel" ] ]. embrión_n1 := n_intr_count_le & [ STEM < "embrión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embrión_n_rel" ] ]. embrollo_n1 := n_intr_count_le & [ STEM < "embrollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embrollo_n_rel" ] ]. embrujar_v := v_trans_np_le & [ STEM < "embrujar" >, SYNSEM.LKEYS.KEYREL.PRED "_embrujar_v_rel" ]. embrutecer_v1 := v_intr_io*_le & [ STEM < "embrutecer" >, SYNSEM.LKEYS.KEYREL.PRED "_embrutecer_v_rel" ]. embrutecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "embrutecer" >, SYNSEM.LKEYS.KEYREL.PRED "_embrutecer_v_rel" ]. embudo_n1 := n_intr_count_le & [ STEM < "embudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_embudo_n_rel" ] ]. embuste_n1 := n_intr_count_le & [ STEM < "embuste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embuste_n_rel" ] ]. embustero_n1 := n_intr_count_le & [ STEM < "embustero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_embustero_n_rel" ] ]. embustería_n1 := n_intr_uncount_pl_le & [ STEM < "embustería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embustería_n_rel" ] ]. embutición_n1 := n_intr_uncount_le & [ STEM < "embutición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_embutición_n_rel" ] ]. embutido_n1 := n_trans_le & [ STEM < "embutido" >, SYNSEM.LKEYS.KEYREL.PRED "_embutido_n_rel" ]. embutir_v := v_trans_np_mrkd_np*_le & [ STEM < "embutir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_embutir_v_rel" ] ]. emergencia_n1 := n_intr_uncount_pl_le & [ STEM < "emergencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emergencia_n_rel" ] ]. emergente_a1 := a_qual_trans*_ser_le & [ STEM < "emergente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_emergente_a_rel" ] ]. emerger_v := v_unacc_lcomp_loc*_perf_le & [ STEM < "emerger" >, SYNSEM.LKEYS.KEYREL.PRED "_emerger_v_rel" ]. emersión_n1 := n_event-result_intr_le & [ STEM < "emersión" >, SYNSEM.LKEYS.KEYREL.PRED "_emersión_n_rel" ]. emetropía_n1 := n_intr_uncount_pl_le & [ STEM < "emetropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emetropía_n_rel" ] ]. emigración_n1 := n_event-result_intr_le & [ STEM < "emigración" >, SYNSEM.LKEYS.KEYREL.PRED "_emigración_n_rel" ]. emigrante_a1 := a_rel_nonprd_intr_le & [ STEM < "emigrante" >, SYNSEM.LKEYS.KEYREL.PRED "_emigrante_a_rel" ]. emigrante_n1 := n_intr_count_le & [ STEM < "emigrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emigrante_n_rel" ] ]. emigrar_v := v_unacc_lcomp_dir*_le & [ STEM < "emigrar" >, SYNSEM.LKEYS.KEYREL.PRED "_emigrar_v_rel" ]. eminencia_n1 := n_intr_uncount_pl_le & [ STEM < "eminencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eminencia_n_rel" ] ]. eminente_a1 := a_qual_intr_scopal_le & [ STEM < "eminente" >, SYNSEM.LKEYS.KEYREL.PRED "_eminente_a_rel" ]. eminentemente_x1 := av_i_spr_le & [ STEM < "eminentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_eminentemente_x_rel" ]. emir_n1 := n_intr_count_le & [ STEM < "emir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emir_n_rel" ] ]. emirato_n1 := n_intr_count_le & [ STEM < "emirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_emirato_n_rel" ] ]. emisario_n1 := n_intr_count_le & [ STEM < "emisario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_emisario_n_rel" ] ]. emisividad_n1 := n_intr_uncount_le & [ STEM < "emisividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emisividad_n_rel" ] ]. emisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "emisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_emisivo_a_rel" ]. emisión_n1 := n_trans_le & [ STEM < "emisión" >, SYNSEM.LKEYS.KEYREL.PRED "_emisión_n_rel" ]. emisor_a1 := a_qual_trans*_ser_le & [ STEM < "emisor" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_emisor_a_rel" ] ]. emisor_a2 := a_rel_nonprd_intr_le & [ STEM < "emisor" >, SYNSEM.LKEYS.KEYREL.PRED "_emisor_a_rel" ]. emisor_n1 := n_intr_count_le & [ STEM < "emisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_emisor_n_rel" ] ]. emisora_n1 := n_intr_count_le & [ STEM < "emisora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_emisora_n_rel" ] ]. emitancia_n1 := n_intr_uncount_le & [ STEM < "emitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emitancia_n_rel" ] ]. emitir_v1 := v_trans_cp_prop_fin_le & [ STEM < "emitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_emitir_v_rel" ] ]. emitir_v2 := v_trans_np_le & [ STEM < "emitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_emitir_v_rel" ] ]. emocionabilidad_n1 := n_intr_uncount_le & [ STEM < "emocionabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emocionabilidad_n_rel" ] ]. emocional_a1 := a_qual_intr_scopal_le & [ STEM < "emocional" >, SYNSEM.LKEYS.KEYREL.PRED "_emocional_a_rel" ]. emocionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "emocionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emocionalidad_n_rel" ] ]. emocionalmente_x1 := av_i_spr_le & [ STEM < "emocionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_emocionalmente_x_rel" ]. emocionante_a1 := a_qual_intr_scopal_le & [ STEM < "emocionante" >, SYNSEM.LKEYS.KEYREL.PRED "_emocionante_a_rel" ]. emocionar_v1 := v_intr_io*_le & [ STEM < "emocionar" >, SYNSEM.LKEYS.KEYREL.PRED "_emocionar_v_rel" ]. emocionar_v2 := v_pron_intr_le & [ STEM < "emocionar" >, SYNSEM.LKEYS.KEYREL.PRED "_emocionar_v_rel" ]. emocionar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "emocionar" >, SYNSEM.LKEYS.KEYREL.PRED "_emocionar_v_rel" ]. emoción_n1 := n_intr_mass-or-count_le & [ STEM < "emoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emoción_n_rel" ] ]. emoliente_a1 := a_qual_intr_scopal_le & [ STEM < "emoliente" >, SYNSEM.LKEYS.KEYREL.PRED "_emoliente_a_rel" ]. emolumento_n1 := n_intr_uncount_pl_le & [ STEM < "emolumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emolumento_n_rel" ] ]. emotivamente_x1 := av_i_spr_le & [ STEM < "emotivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_emotivamente_x_rel" ]. emotividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "emotividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emotividad_n_rel" ] ]. emotivo_a1 := a_qual_intr_scopal_le & [ STEM < "emotivo" >, SYNSEM.LKEYS.KEYREL.PRED "_emotivo_a_rel" ]. empacadora_n1 := n_intr_count_le & [ STEM < "empacadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_empacadora_n_rel" ] ]. empachar_v := v_trans_np_caus_le & [ STEM < "empachar" >, SYNSEM.LKEYS.KEYREL.PRED "_empachar_v_rel" ]. empacho_n1 := n_intr_uncount_pl_le & [ STEM < "empacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empacho_n_rel" ] ]. empadronador_n1 := n_subj-nom_le & [ STEM < "empadronador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empadronador_n_rel" ] ]. empadronamiento_n1 := n_trans_le & [ STEM < "empadronamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empadronamiento_n_rel" ]. empalagar_v1 := v_intr_io*_le & [ STEM < "empalagar" >, SYNSEM.LKEYS.KEYREL.PRED "_empalagar_v_rel" ]. empalagar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "empalagar" >, SYNSEM.LKEYS.KEYREL.PRED "_empalagar_v_rel" ]. empalagosamente_x1 := av_i_spr_le & [ STEM < "empalagosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_empalagosamente_x_rel" ]. empalagoso_a1 := a_qual_intr_scopal_le & [ STEM < "empalagoso" >, SYNSEM.LKEYS.KEYREL.PRED "_empalagoso_a_rel" ]. empalamiento_n1 := n_trans_le & [ STEM < "empalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empalamiento_n_rel" ]. empalar_v := v_trans_np*_le & [ STEM < "empalar" >, SYNSEM.LKEYS.KEYREL.PRED "_empalar_v_rel" ]. empalizada_n1 := n_intr_count_le & [ STEM < "empalizada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empalizada_n_rel" ] ]. empalmadora_n1 := n_intr_count_le & [ STEM < "empalmadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empalmadora_n_rel" ] ]. empalmadura_n1 := n_trans_le & [ STEM < "empalmadura" >, SYNSEM.LKEYS.KEYREL.PRED "_empalmadura_n_rel" ]. empalmar_v1 := v_intr_mrkd_np*_le & [ STEM < "empalmar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_empalmar_v_rel" ] ]. empalmar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "empalmar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_empalmar_v_rel" ] ]. empalme_n1 := n_trans_le & [ STEM < "empalme" >, SYNSEM.LKEYS.KEYREL.PRED "_empalme_n_rel" ]. empalomado_n1 := n_intr_count_le & [ STEM < "empalomado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empalomado_n_rel" ] ]. empanadilla_n1 := n_intr_count_le & [ STEM < "empanadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empanadilla_n_rel" ] ]. empanar_v := v_trans_np_le & [ STEM < "empanar" >, SYNSEM.LKEYS.KEYREL.PRED "_empanar_v_rel" ]. empapar_v := v_trans_np_caus_le & [ STEM < "empapar" >, SYNSEM.LKEYS.KEYREL.PRED "_empapar_v_rel" ]. empapelado_n1 := n_trans_le & [ STEM < "empapelado" >, SYNSEM.LKEYS.KEYREL.PRED "_empapelado_n_rel" ]. empapelador_n1 := n_intr_count_le & [ STEM < "empapelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empapelador_n_rel" ] ]. empapelar_v := v_trans_np_le & [ STEM < "empapelar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_empapelar_v_rel" ] ]. empaque_n1 := n_trans_le & [ STEM < "empaque" >, SYNSEM.LKEYS.KEYREL.PRED "_empaque_n_rel" ]. empaquetador_n1 := n_subj-nom_le & [ STEM < "empaquetador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empaquetador_n_rel" ] ]. empaquetadora_n1 := n_intr_count_le & [ STEM < "empaquetadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empaquetadora_n_rel" ] ]. empaquetadura_n1 := n_trans_le & [ STEM < "empaquetadura" >, SYNSEM.LKEYS.KEYREL.PRED "_empaquetadura_n_rel" ]. empaquetar_v := v_trans_np_le & [ STEM < "empaquetar" >, SYNSEM.LKEYS.KEYREL.PRED "_empaquetar_v_rel" ]. emparchar_v := v_trans_np_le & [ STEM < "emparchar" >, SYNSEM.LKEYS.KEYREL.PRED "_emparchar_v_rel" ]. empardecido_a1 := a_qual_intr_ser_le & [ STEM < "empardecido" >, SYNSEM.LKEYS.KEYREL.PRED "_empardecido_a_rel" ]. emparedado_n1 := n_intr_count_le & [ STEM < "emparedado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_emparedado_n_rel" ] ]. emparejamiento_n1 := n_trans_le & [ STEM < "emparejamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_emparejamiento_n_rel" ]. emparentar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "emparentar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_emparentar_v_rel" ] ]. emparentar_v2 := v_trans_np_mrkd_np_le & [ STEM < "emparentar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_emparentar_v_rel" ] ]. emparrado_n1 := n_intr_count_le & [ STEM < "emparrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_emparrado_n_rel" ] ]. emparrar_v1 := v_pron_unacc_lcomp_dir*_le & [ STEM < "emparrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT plant, PRED "_emparrar_v_rel" ] ]. emparrar_v2 := v_trans_np_le & [ STEM < "emparrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT plant, PRED "_emparrar_v_rel" ] ]. emparrillado_n1 := n_intr_count_le & [ STEM < "emparrillado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emparrillado_n_rel" ] ]. empastar_v := v_ditrans*_le & [ STEM < "empastar" >, SYNSEM.LKEYS.KEYREL.PRED "_empastar_v_rel" ]. empaste_n1 := n_trans_le & [ STEM < "empaste" >, SYNSEM.LKEYS.KEYREL.PRED "_empaste_n_rel" ]. empastilladora_n1 := n_intr_count_le & [ STEM < "empastilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empastilladora_n_rel" ] ]. empatar_v := v_unacc_perf_le & [ STEM < "empatar" >, SYNSEM.LKEYS.KEYREL.PRED "_empatar_v_rel" ]. empate_n1 := n_trans_le & [ STEM < "empate" >, SYNSEM.LKEYS.KEYREL.PRED "_empate_n_rel" ]. empatía_n1 := n_intr_mass_le & [ STEM < "empatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empatía_n_rel" ] ]. empañadura_n1 := n_intr_count_le & [ STEM < "empañadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_empañadura_n_rel" ] ]. empañar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "empañar" >, SYNSEM.LKEYS.KEYREL.PRED "_empañar_v_rel" ]. empañar_v2 := v_trans_np_caus_le & [ STEM < "empañar" >, SYNSEM.LKEYS.KEYREL.PRED "_empañar_v_rel" ]. empecinamiento_n1 := n_result_intr_ppcomp_le & [ STEM < "empecinamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_empecinamiento_n_rel" ] ]. empecinar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "empecinar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empecinar_v_rel" ] ] ]. empecinar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "empecinar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empecinar_v_rel" ] ] ]. empedrado_n1 := n_intr_count_le & [ STEM < "empedrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empedrado_n_rel" ] ]. empeine_n1 := n_intr_count_le & [ STEM < "empeine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empeine_n_rel" ] ]. empellón_n1 := n_trans_le & [ STEM < "empellón" >, SYNSEM.LKEYS.KEYREL.PRED "_empellón_n_rel" ]. empeoramiento_n1 := n_trans_le & [ STEM < "empeoramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empeoramiento_n_rel" ]. empeorar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "empeorar" >, SYNSEM.LKEYS.KEYREL.PRED "_empeorar_v_rel" ]. empeorar_v2 := v_trans_np_caus_int_le & [ STEM < "empeorar" >, SYNSEM.LKEYS.KEYREL.PRED "_empeorar_v_rel" ]. empequeñecer_v := v_trans_np*_le & [ STEM < "empequeñecer" >, SYNSEM.LKEYS.KEYREL.PRED "_empequeñecer_v_rel" ]. emperador_n1 := n_subj-nom_le & [ STEM < "emperador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emperador_n_rel" ] ]. emperatriz_n1 := n_intr_count_le & [ STEM < "emperatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emperatriz_n_rel" ] ]. empernar_v := v_trans_np_le & [ STEM < "empernar" >, SYNSEM.LKEYS.KEYREL.PRED "_empernar_v_rel" ]. empero_cc := cc_advers_empero_le & [ STEM < "empero" > ]. emperrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "emperrar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_emperrar_v_rel" ] ] ]. emperrar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "emperrar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_emperrar_v_rel" ] ] ]. empezar_v := v_trans_np_caus_int_le & [ STEM < "empezar" >, SYNSEM.LKEYS.KEYREL.PRED "_empezar_v_rel" ]. empezar_v2 := v_intr_mrkd_vp_ssr_le & [ STEM < "empezar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_empezar_v_rel" ] ]. empeñar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "empeñar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empeñar_v_rel" ] ] ]. empeñar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "empeñar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empeñar_v_rel" ] ] ]. empeñar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "empeñar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empeñar_v_rel" ] ] ]. empeñar_v4 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "empeñar" >, SYNSEM.LKEYS [ --COMPKEY en_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_empeñar_v_rel" ] ] ]. empeñar_v5 := v_trans_np_le & [ STEM < "empeñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_empeñar_v_rel" ] ]. empeño_n1 := n_trans_le & [ STEM < "empeño" >, SYNSEM.LKEYS.KEYREL.PRED "_empeño_n_rel" ]. empinadamente_x1 := av_i_spr_le & [ STEM < "empinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_empinadamente_x_rel" ]. empinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "empinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empinar_v_rel" ] ] ]. empinar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "empinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empinar_v_rel" ] ] ]. empinar_v3 := v_trans_np_le & [ STEM < "empinar" >, SYNSEM.LKEYS.KEYREL.PRED "_empinar_v_rel" ]. empiriocriticismo_n1 := n_intr_uncount_le & [ STEM < "empiriocriticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empiriocriticismo_n_rel" ] ]. empirismo_n1 := n_intr_uncount_le & [ STEM < "empirismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empirismo_n_rel" ] ]. empirista_a1 := a_rel_nonprd_intr_le & [ STEM < "empirista" >, SYNSEM.LKEYS.KEYREL.PRED "_empirista_a_rel" ]. emplaste_n1 := n_intr_count_le & [ STEM < "emplaste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_emplaste_n_rel" ] ]. emplazador_n1 := n_subj-nom_le & [ STEM < "emplazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emplazador_n_rel" ] ]. emplazamiento_n1 := n_trans_le & [ STEM < "emplazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_emplazamiento_n_rel" ]. emplazar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "emplazar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_emplazar_v_rel" ] ] ]. emplazar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "emplazar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_emplazar_v_rel" ] ] ]. emplazar_v3 := v_trans_np*_mrkd_np_le & [ STEM < "emplazar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_emplazar_v_rel" ] ] ]. empleado_n1 := n_intr_count_le & [ STEM < "empleado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empleado_n_rel" ] ]. empleador_n1 := n_subj-nom_le & [ STEM < "empleador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empleador_n_rel" ] ]. emplear_v := v_trans_np_le & [ STEM < "emplear" >, SYNSEM.LKEYS.KEYREL.PRED "_emplear_v_rel" ]. empleo_n1 := n_trans_le & [ STEM < "empleo" >, SYNSEM.LKEYS.KEYREL.PRED "_empleo_n_rel" ]. emplomado_n1 := n_trans_le & [ STEM < "emplomado" >, SYNSEM.LKEYS.KEYREL.PRED "_emplomado_n_rel" ]. emplomar_v := v_trans_np_le & [ STEM < "emplomar" >, SYNSEM.LKEYS.KEYREL.PRED "_emplomar_v_rel" ]. emplumar_v := v_trans_np_le & [ STEM < "emplumar" >, SYNSEM.LKEYS.KEYREL.PRED "_emplumar_v_rel" ]. empobrecedor_a1 := a_qual_intr_scopal_le & [ STEM < "empobrecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_empobrecedor_a_rel" ]. empobrecer_v := v_trans_np_caus_le & [ STEM < "empobrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_empobrecer_v_rel" ]. empobrecimiento_n1 := n_trans_le & [ STEM < "empobrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empobrecimiento_n_rel" ]. empollar_v := v_trans_np*_le & [ STEM < "empollar" >, SYNSEM.LKEYS.KEYREL.PRED "_empollar_v_rel" ]. empollón_n1 := n_intr_count_le & [ STEM < "empollón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empollón_n_rel" ] ]. empolvar_v := v_trans_np_le & [ STEM < "empolvar" >, SYNSEM.LKEYS.KEYREL.PRED "_empolvar_v_rel" ]. empopada_n1 := n_intr_count_le & [ STEM < "empopada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_empopada_n_rel" ] ]. emporio_n1 := n_intr_count_le & [ STEM < "emporio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_emporio_n_rel" ] ]. empotrable_a1 := a_rel_nonprd_intr_le & [ STEM < "empotrable" >, SYNSEM.LKEYS.KEYREL.PRED "_empotrable_a_rel" ]. empotramiento_n1 := n_trans_le & [ STEM < "empotramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empotramiento_n_rel" ]. empotrar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "empotrar" >, SYNSEM.LKEYS.KEYREL.PRED "_empotrar_v_rel" ]. emprendedor_a1 := a_qual_intr_ser_le & [ STEM < "emprendedor" >, SYNSEM.LKEYS.KEYREL.PRED "_emprendedor_a_rel" ]. emprender_v := v_trans_np_le & [ STEM < "emprender" >, SYNSEM.LKEYS.KEYREL.PRED "_emprender_v_rel" ]. empresa_n1 := n_intr_count_le & [ STEM < "empresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_empresa_n_rel" ] ]. empresariado_n1 := n_intr_coll_le & [ STEM < "empresariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empresariado_n_rel" ] ]. empresarial_a1 := a_rel_nonprd_intr_le & [ STEM < "empresarial" >, SYNSEM.LKEYS.KEYREL.PRED "_empresarial_a_rel" ]. empresarialmente_x1 := av_i_spr_le & [ STEM < "empresarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_empresarialmente_x_rel" ]. empresario_n1 := n_intr_count_le & [ STEM < "empresario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_empresario_n_rel" ] ]. empréstito_n1 := n_intr_count_le & [ STEM < "empréstito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empréstito_n_rel" ] ]. empujador_a1 := a_rel_nonprd_intr_le & [ STEM < "empujador" >, SYNSEM.LKEYS.KEYREL.PRED "_empujador_a_rel" ]. empujador_n1 := n_intr_count_le & [ STEM < "empujador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empujador_n_rel" ] ]. empujamiento_n1 := n_trans_le & [ STEM < "empujamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_empujamiento_n_rel" ]. empujar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "empujar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_empujar_v_rel" ] ] ]. empujar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "empujar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_empujar_v_rel" ] ] ]. empuje_n1 := n_trans_le & [ STEM < "empuje" >, SYNSEM.LKEYS.KEYREL.PRED "_empuje_n_rel" ]. empujón_n1 := n_intr_count_le & [ STEM < "empujón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_empujón_n_rel" ] ]. empuñadura_n1 := n_intr_count_le & [ STEM < "empuñadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_empuñadura_n_rel" ] ]. empíricamente_x1 := av_i_spr_le & [ STEM < "empíricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_empíricamente_x_rel" ]. empírico_a1 := a_rel_nonprd_intr_le & [ STEM < "empírico" >, SYNSEM.LKEYS.KEYREL.PRED "_empírico_a_rel" ]. emulación_n1 := n_trans_le & [ STEM < "emulación" >, SYNSEM.LKEYS.KEYREL.PRED "_emulación_n_rel" ]. emulador_n1 := n_subj-nom_le & [ STEM < "emulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_emulador_n_rel" ] ]. emular_v := v_trans_np_le & [ STEM < "emular" >, SYNSEM.LKEYS.KEYREL.PRED "_emular_v_rel" ]. emulsionable_a1 := a_rel_prd_le & [ STEM < "emulsionable" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsionable_a_rel" ]. emulsionamiento_n1 := n_trans_le & [ STEM < "emulsionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsionamiento_n_rel" ]. emulsionante_a1 := a_qual_intr_scopal_le & [ STEM < "emulsionante" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsionante_a_rel" ]. emulsionante_n1 := n_intr_count_le & [ STEM < "emulsionante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_emulsionante_n_rel" ] ]. emulsionar_v := v_trans_np_le & [ STEM < "emulsionar" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsionar_v_rel" ]. emulsivo_a1 := a_qual_intr_scopal_le & [ STEM < "emulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsivo_a_rel" ]. emulsión_n1 := n_trans_le & [ STEM < "emulsión" >, SYNSEM.LKEYS.KEYREL.PRED "_emulsión_n_rel" ]. emérito_a1 := a_qual_intr_ser_le & [ STEM < "emérito" >, SYNSEM.LKEYS.KEYREL.PRED "_emérito_a_rel" ]. emético_a1 := a_rel_nonprd_intr_le & [ STEM < "emético" >, SYNSEM.LKEYS.KEYREL.PRED "_emético_a_rel" ]. emétrope_a1 := a_rel_nonprd_intr_le & [ STEM < "emétrope" >, SYNSEM.LKEYS.KEYREL.PRED "_emétrope_a_rel" ]. emú_n1 := n_intr_count_le & [ STEM < "emú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_emú_n_rel" ] ]. en_adelante_x1 := av_i_le & [ STEM < "en_adelante" >, SYNSEM.LKEYS.KEYREL.PRED "_en_adelante_x_rel" ]. en_agraz_x1 := av_i_le & [ STEM < "en_agraz" >, SYNSEM.LKEYS.KEYREL.PRED "_en_agraz_x_rel" ]. en_aquel_entonces_x1 := av_i_le & [ STEM < "en_aquel_entonces" >, SYNSEM.LKEYS.KEYREL.PRED "_en_aquel_entonces_x_rel" ]. en_aras_de_p_vmod := p_vmod_le & [ STEM < "en_aras_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_aras_de_p_rel ]. en_atención_a_p_vmod := p_vmod_le & [ STEM < "en_atención_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_atención_a_p_rel ]. en_babia_x1 := av_i_le & [ STEM < "en_babia" >, SYNSEM.LKEYS.KEYREL.PRED "_en_babia_x_rel" ]. en_batería_x1 := av_i_le & [ STEM < "en_batería" >, SYNSEM.LKEYS.KEYREL.PRED "_en_batería_x_rel" ]. en_berlina_x1 := av_i_le & [ STEM < "en_berlina" >, SYNSEM.LKEYS.KEYREL.PRED "_en_berlina_x_rel" ]. en_buena_lid_x1 := av_i_le & [ STEM < "en_buena_lid" >, SYNSEM.LKEYS.KEYREL.PRED "_en_buena_lid_x_rel" ]. en_buenos_términos_x1 := av_i_le & [ STEM < "en_buenos_términos" >, SYNSEM.LKEYS.KEYREL.PRED "_en_buenos_términos_x_rel" ]. en_busca_de_p_vmod := p_vmod_le & [ STEM < "en_busca_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_busca_de_p_rel ]. en_calidad_de_p_vmod := p_vmod_le & [ STEM < "en_calidad_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_calidad_de_p_rel ]. en_cambio_de_p_vmod := p_vmod_le & [ STEM < "en_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_cambio_de_p_rel ]. en_caso_de_p_vmod := p_vmod_le & [ STEM < "en_caso_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_caso_de_p_rel ]. en_cierto_modo_x1 := av_i_le & [ STEM < "en_cierto_modo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_cierto_modo_x_rel" ]. en_compañía_de_p_vmod := p_vmod_le & [ STEM < "en_compañía_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_compañía_de_p_rel ]. en_compensación_de_p_vmod := p_vmod_le & [ STEM < "en_compensación_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_compensación_de_p_rel ]. en_concepto_de_p_vmod := p_vmod_le & [ STEM < "en_concepto_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_concepto_de_p_rel ]. en_consecuencia_x1 := av_i_le & [ STEM < "en_consecuencia" >, SYNSEM.LKEYS.KEYREL.PRED "_en_consecuencia_x_rel" ]. en_contorno_x1 := av_i_le & [ STEM < "en_contorno" >, SYNSEM.LKEYS.KEYREL.PRED "_en_contorno_x_rel" ]. en_contra_de_p_vmod := p_vmod_le & [ STEM < "en_contra_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_contra_de_p_rel ]. en_contracambio_x1 := av_i_le & [ STEM < "en_contracambio" >, SYNSEM.LKEYS.KEYREL.PRED "_en_contracambio_x_rel" ]. en_coña_x1 := av_i_le & [ STEM < "en_coña" >, SYNSEM.LKEYS.KEYREL.PRED "_en_coña_x_rel" ]. en_cuanto_a_p_vmod := p_vmod_le & [ STEM < "en_cuanto_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_cuanto_a_p_rel ]. en_cuanto_que_sc := sc_prop_fin_le & [ STEM < "en_cuanto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_en_cuanto_que_x_subord_rel" ]. en_cuclillas_x1 := av_i_le & [ STEM < "en_cuclillas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_cuclillas_x_rel" ]. en_cuerpo_y_alma_x1 := av_i_le & [ STEM < "en_cuerpo_y_alma" >, SYNSEM.LKEYS.KEYREL.PRED "_en_cuerpo_y_alma_x_rel" ]. en_cuestión_de_p_vmod := p_vmod_le & [ STEM < "en_cuestión_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_cuestión_de_p_rel ]. en_círculo_x1 := av_i_le & [ STEM < "en_círculo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_círculo_x_rel" ]. en_defecto_de_p_vmod := p_vmod_le & [ STEM < "en_defecto_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_defecto_de_p_rel ]. en_demanda_de_p_vmod := p_vmod_le & [ STEM < "en_demanda_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_demanda_de_p_rel ]. en_demasía_x1 := av_i_le & [ STEM < "en_demasía" >, SYNSEM.LKEYS.KEYREL.PRED "_en_demasía_x_rel" ]. en_derredor_de_p_vmod := p_vmod_le & [ STEM < "en_derredor_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_derredor_de_p_rel ]. en_desbandada_x1 := av_i_le & [ STEM < "en_desbandada" >, SYNSEM.LKEYS.KEYREL.PRED "_en_desbandada_x_rel" ]. en_descargo_x1 := av_i_le & [ STEM < "en_descargo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_descargo_x_rel" ]. en_desquite_x1 := av_i_le & [ STEM < "en_desquite" >, SYNSEM.LKEYS.KEYREL.PRED "_en_desquite_x_rel" ]. en_detalle_x1 := av_i_le & [ STEM < "en_detalle" >, SYNSEM.LKEYS.KEYREL.PRED "_en_detalle_x_rel" ]. en_diferido_x1 := av_i_le & [ STEM < "en_diferido" >, SYNSEM.LKEYS.KEYREL.PRED "_en_diferido_x_rel" ]. en_dios_y_en_conciencia_x1 := av_i_le & [ STEM < "en_Dios_y_en_conciencia" >, SYNSEM.LKEYS.KEYREL.PRED "_en_Dios_y_en_conciencia_x_rel" ]. en_dirección_a_p_vmod := p_vmod_le & [ STEM < "en_dirección_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_dirección_a_p_rel ]. en_el_centro_de_p_vmod := p_vmod_le & [ STEM < "en_el_centro_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_centro_de_p_rel ]. en_el_entorno_de_p_vmod := p_vmod_le & [ STEM < "en_el_entorno_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_entorno_de_p_rel ]. en_el_interior_de_p_vmod := p_vmod_le & [ STEM < "en_el_interior_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_interior_de_p_rel ]. en_el_otro_lado_de_p_vmod := p_vmod_le & [ STEM < "en_el_otro_lado_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_otro_lado_de_p_rel ]. en_el_plazo_de_p_vmod := p_vmod_le & [ STEM < "en_el_plazo_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_plazo_de_p_rel ]. en_el_puesto_de_p_vmod := p_vmod_le & [ STEM < "en_el_puesto_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_el_puesto_de_p_rel ]. en_el_supuesto_que_sc := sc_prop_fin_le & [ STEM < "en_el_supuesto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_en_el_supuesto_que_x_subord_rel" ]. en_entredicho_x1 := av_i_le & [ STEM < "en_entredicho" >, SYNSEM.LKEYS.KEYREL.PRED "_en_entredicho_x_rel" ]. en_espera_de_p_vmod := p_vmod_le & [ STEM < "en_espera_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_espera_de_p_rel ]. en_este_mismo_instante_x1 := av_i_le & [ STEM < "en_este_mismo_instante" >, SYNSEM.LKEYS.KEYREL.PRED "_en_este_mismo_instante_x_rel" ]. en_evitación_de_p_vmod := p_vmod_le & [ STEM < "en_evitación_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_evitación_de_p_rel ]. en_favor_de_p_vmod := p_vmod_le & [ STEM < "en_favor_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_favor_de_p_rel ]. en_fiado_x1 := av_i_le & [ STEM < "en_fiado" >, SYNSEM.LKEYS.KEYREL.PRED "_en_fiado_x_rel" ]. en_fila_india_x1 := av_i_le & [ STEM < "en_fila_india" >, SYNSEM.LKEYS.KEYREL.PRED "_en_fila_india_x_rel" ]. en_fin_de_cuentas_x1 := av_i_le & [ STEM < "en_fin_de_cuentas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_fin_de_cuentas_x_rel" ]. en_franquía_x1 := av_i_le & [ STEM < "en_franquía" >, SYNSEM.LKEYS.KEYREL.PRED "_en_franquía_x_rel" ]. en_gracia_a_p_vmod := p_vmod_le & [ STEM < "en_gracia_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_gracia_a_p_rel ]. en_gran_manera_x1 := av_i_le & [ STEM < "en_gran_manera" >, SYNSEM.LKEYS.KEYREL.PRED "_en_gran_manera_x_rel" ]. en_gran_medida_x1 := av_i_le & [ STEM < "en_gran_medida" >, SYNSEM.LKEYS.KEYREL.PRED "_en_gran_medida_x_rel" ]. en_guisa_de_p_vmod := p_vmod_le & [ STEM < "en_guisa_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_guisa_de_p_rel ]. en_honor_a_la_verdad_x1 := av_i_le & [ STEM < "en_honor_a_la_verdad" >, SYNSEM.LKEYS.KEYREL.PRED "_en_honor_a_la_verdad_x_rel" ]. en_horre_x1 := av_i_le & [ STEM < "en_horre" >, SYNSEM.LKEYS.KEYREL.PRED "_en_horre_x_rel" ]. en_interés_x1 := av_i_le & [ STEM < "en_interés" >, SYNSEM.LKEYS.KEYREL.PRED "_en_interés_x_rel" ]. en_junto_x1 := av_i_le & [ STEM < "en_junto" >, SYNSEM.LKEYS.KEYREL.PRED "_en_junto_x_rel" ]. en_la_línea_de_p_vmod := p_vmod_le & [ STEM < "en_la_línea_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_la_línea_de_p_rel ]. en_la_temporada_de_p_vmod := p_vmod_le & [ STEM < "en_la_temporada_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_la_temporada_de_p_rel ]. en_la_zona_de_p_vmod := p_vmod_le & [ STEM < "en_la_zona_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_la_zona_de_p_rel ]. en_las_cercanías_de_p_vmod := p_vmod_le & [ STEM < "en_las_cercanías_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_las_cercanías_de_p_rel ]. en_las_proximidades_de_p_vmod := p_vmod_le & [ STEM < "en_las_proximidades_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_las_proximidades_de_p_rel ]. en_limpio_x1 := av_i_le & [ STEM < "en_limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_en_limpio_x_rel" ]. en_lo_concerniente_a_p_vmod := p_vmod_le & [ STEM < "en_lo_concerniente_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_lo_concerniente_a_p_rel ]. en_lo_sucesivo_x1 := av_i_le & [ STEM < "en_lo_sucesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_lo_sucesivo_x_rel" ]. en_lontananza_x1 := av_i_le & [ STEM < "en_lontananza" >, SYNSEM.LKEYS.KEYREL.PRED "_en_lontananza_x_rel" ]. en_los_buenos_tiempos_x1 := av_i_le & [ STEM < "en_los_buenos_tiempos" >, SYNSEM.LKEYS.KEYREL.PRED "_en_los_buenos_tiempos_x_rel" ]. en_lugar_de_p_vmod := p_vmod_le & [ STEM < "en_lugar_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_lugar_de_p_rel ]. en_línea_x1 := av_i_le & [ STEM < "en_línea" >, SYNSEM.LKEYS.KEYREL.PRED "_en_línea_x_rel" ]. en_líneas_generales_x1 := av_i_le & [ STEM < "en_líneas_generales" >, SYNSEM.LKEYS.KEYREL.PRED "_en_líneas_generales_x_rel" ]. en_mala_hora_x1 := av_i_le & [ STEM < "en_mala_hora" >, SYNSEM.LKEYS.KEYREL.PRED "_en_mala_hora_x_rel" ]. en_mangas_de_camisa_x1 := av_i_le & [ STEM < "en_mangas_de_camisa" >, SYNSEM.LKEYS.KEYREL.PRED "_en_mangas_de_camisa_x_rel" ]. en_manos_de_p_vmod := p_vmod_le & [ STEM < "en_manos_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_manos_de_p_rel ]. en_materia_de_p_vmod := p_vmod_le & [ STEM < "en_materia_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_materia_de_p_rel ]. en_medio_de_p_vmod := p_vmod_le & [ STEM < "en_medio_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_medio_de_p_rel ]. en_memoria_de_p_vmod := p_vmod_le & [ STEM < "en_memoria_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_memoria_de_p_rel ]. en_menos_de_p_vmod := p_vmod_le & [ STEM < "en_menos_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_menos_de_p_rel ]. en_miniatura_x1 := av_i_le & [ STEM < "en_miniatura" >, SYNSEM.LKEYS.KEYREL.PRED "_en_miniatura_x_rel" ]. en_mitad_de_p_vmod := p_vmod_le & [ STEM < "en_mitad_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_mitad_de_p_rel ]. en_modo_alguno_x1 := av_i_le & [ STEM < "en_modo_alguno" >, SYNSEM.LKEYS.KEYREL.PRED "_en_modo_alguno_x_rel" ]. en_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_sel_rel ]. en_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_sel_rel ]. en_mrk_np := p_mrk_np_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_sel_rel ]. en_obligación_de_p_vmod := p_vmod_le & [ STEM < "en_obligación_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_obligación_de_p_rel ]. en_obsequio_a_p_vmod := p_vmod_le & [ STEM < "en_obsequio_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_obsequio_a_p_rel ]. en_obsequio_de_p_vmod := p_vmod_le & [ STEM < "en_obsequio_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_obsequio_de_p_rel ]. en_oferta_x1 := av_i_le & [ STEM < "en_oferta" >, SYNSEM.LKEYS.KEYREL.PRED "_en_oferta_x_rel" ]. en_oposición_a_p_vmod := p_vmod_le & [ STEM < "en_oposición_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_oposición_a_p_rel ]. en_orden_a_p_vmod := p_vmod_le & [ STEM < "en_orden_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_orden_a_p_rel ]. en_p_nmod := p_nmod_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_rel ]. en_p_temp_vmod := p_temp_vmod_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_temp_rel ]. en_p_vmod := p_vmod_le & [ STEM < "en" >, SYNSEM.LKEYS.KEYREL.PRED _en_p_rel ]. en_paralelo_x1 := av_i_le & [ STEM < "en_paralelo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_paralelo_x_rel" ]. en_parte_por_p_vmod := p_vmod_le & [ STEM < "en_parte_por" >, SYNSEM.LKEYS.KEYREL.PRED _en_parte_por_p_rel ]. en_partes_iguales_x1 := av_i_le & [ STEM < "en_partes_iguales" >, SYNSEM.LKEYS.KEYREL.PRED "_en_partes_iguales_x_rel" ]. en_particular_x1 := av_i_foc_spr_le & [ STEM < "en_particular" >, SYNSEM.LKEYS.KEYREL.PRED "_en_particular_x_rel" ]. en_particular_x3 := av_i_np-foc_spr_le & [ STEM < "en_particular" >, SYNSEM.LKEYS.KEYREL.PRED "_en_particular_x_rel" ]. en_paños_menores_x1 := av_i_le & [ STEM < "en_paños_menores" >, SYNSEM.LKEYS.KEYREL.PRED "_en_paños_menores_x_rel" ]. en_pelota_picada_x1 := av_i_le & [ STEM < "en_pelota_picada" >, SYNSEM.LKEYS.KEYREL.PRED "_en_pelota_picada_x_rel" ]. en_pie_de_guerra_x1 := av_i_le & [ STEM < "en_pie_de_guerra" >, SYNSEM.LKEYS.KEYREL.PRED "_en_pie_de_guerra_x_rel" ]. en_plan_de_p_vmod := p_vmod_le & [ STEM < "en_plan_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_plan_de_p_rel ]. en_plantilla_x1 := av_i_le & [ STEM < "en_plantilla" >, SYNSEM.LKEYS.KEYREL.PRED "_en_plantilla_x_rel" ]. en_pocas_palabras_x1 := av_i_le & [ STEM < "en_pocas_palabras" >, SYNSEM.LKEYS.KEYREL.PRED "_en_pocas_palabras_x_rel" ]. en_porretas_x1 := av_i_le & [ STEM < "en_porretas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_porretas_x_rel" ]. en_pos_de_p_vmod := p_vmod_le & [ STEM < "en_pos_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_pos_de_p_rel ]. en_prenda_x1 := av_i_le & [ STEM < "en_prenda" >, SYNSEM.LKEYS.KEYREL.PRED "_en_prenda_x_rel" ]. en_primicia_x1 := av_i_le & [ STEM < "en_primicia" >, SYNSEM.LKEYS.KEYREL.PRED "_en_primicia_x_rel" ]. en_pro_de_p_vmod := p_vmod_le & [ STEM < "en_pro_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_pro_de_p_rel ]. en_procura_x1 := av_i_le & [ STEM < "en_procura" >, SYNSEM.LKEYS.KEYREL.PRED "_en_procura_x_rel" ]. en_prueba_de_p_vmod := p_vmod_le & [ STEM < "en_prueba_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_prueba_de_p_rel ]. en_punto_de_caramelo_x1 := av_i_le & [ STEM < "en_punto_de_caramelo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_punto_de_caramelo_x_rel" ]. en_puridad_x1 := av_i_le & [ STEM < "en_puridad" >, SYNSEM.LKEYS.KEYREL.PRED "_en_puridad_x_rel" ]. en_rama_x1 := av_i_le & [ STEM < "en_rama" >, SYNSEM.LKEYS.KEYREL.PRED "_en_rama_x_rel" ]. en_razón_de_p_vmod := p_vmod_le & [ STEM < "en_razón_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_razón_de_p_rel ]. en_realidad_x1 := av_s_cp_prop_le & [ STEM < "en_realidad" >, SYNSEM.LKEYS.KEYREL.PRED "_en_realidad_x_rel" ]. en_recuerdo_de_p_vmod := p_vmod_le & [ STEM < "en_recuerdo_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_recuerdo_de_p_rel ]. en_rededor_x1 := av_i_le & [ STEM < "en_rededor" >, SYNSEM.LKEYS.KEYREL.PRED "_en_rededor_x_rel" ]. en_remojo_x1 := av_i_le & [ STEM < "en_remojo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_remojo_x_rel" ]. en_representación_de_p_vmod := p_vmod_le & [ STEM < "en_representación_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_representación_de_p_rel ]. en_resumen_x1 := av_s_spr_le & [ STEM < "en_resumen" >, SYNSEM.LKEYS.KEYREL.PRED "_en_resumen_x_rel" ]. en_resumidas_cuentas_x1 := av_i_le & [ STEM < "en_resumidas_cuentas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_resumidas_cuentas_x_rel" ]. en_ristre_x1 := av_i_le & [ STEM < "en_ristre" >, SYNSEM.LKEYS.KEYREL.PRED "_en_ristre_x_rel" ]. en_salvo_x1 := av_i_le & [ STEM < "en_salvo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_salvo_x_rel" ]. en_seguida_x1 := av_i_le & [ STEM < "en_seguida" >, SYNSEM.LKEYS.KEYREL.PRED "_en_seguida_x_rel" ]. en_señal_de_p_vmod := p_vmod_le & [ STEM < "en_señal_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_señal_de_p_rel ]. en_sordina_x1 := av_i_le & [ STEM < "en_sordina" >, SYNSEM.LKEYS.KEYREL.PRED "_en_sordina_x_rel" ]. en_su_defecto_x1 := av_i_le & [ STEM < "en_su_defecto" >, SYNSEM.LKEYS.KEYREL.PRED "_en_su_defecto_x_rel" ]. en_suma_x1 := av_s_spr_le & [ STEM < "en_suma" >, SYNSEM.LKEYS.KEYREL.PRED "_en_suma_x_rel" ]. en_tanto_que_sc := sc_prop_fin_le & [ STEM < "en_tanto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tanto_que_x_subord_rel" ]. en_tiempo_de_p_vmod := p_vmod_le & [ STEM < "en_tiempo_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_tiempo_de_p_rel ]. en_tiempo_diferido_x1 := av_i_le & [ STEM < "en_tiempo_diferido" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tiempo_diferido_x_rel" ]. en_tiempo_real_x1 := av_i_le & [ STEM < "en_tiempo_real" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tiempo_real_x_rel" ]. en_tiempo_récord_x1 := av_i_le & [ STEM < "en_tiempo_récord" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tiempo_récord_x_rel" ]. en_tiempo_y_forma_x1 := av_i_le & [ STEM < "en_tiempo_y_forma" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tiempo_y_forma_x_rel" ]. en_toda_la_extensión_de_la_palabra_x1 := av_i_le & [ STEM < "en_toda_la_extensión_de_la_palabra" >, SYNSEM.LKEYS.KEYREL.PRED "_en_toda_la_extensión_de_la_palabra_x_rel" ]. en_toda_regla_x1 := av_i_le & [ STEM < "en_toda_regla" >, SYNSEM.LKEYS.KEYREL.PRED "_en_toda_regla_x_rel" ]. en_toda_tierra_de_garbanzos_x1 := av_i_le & [ STEM < "en_toda_tierra_de_garbanzos" >, SYNSEM.LKEYS.KEYREL.PRED "_en_toda_tierra_de_garbanzos_x_rel" ]. en_todo_caso_x1 := av_i_le & [ STEM < "en_todo_caso" >, SYNSEM.LKEYS.KEYREL.PRED "_en_todo_caso_x_rel" ]. en_todo_lo_descubierto_x1 := av_i_le & [ STEM < "en_todo_lo_descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_en_todo_lo_descubierto_x_rel" ]. en_torno_a_p_vmod := p_vmod_le & [ STEM < "en_torno_a" >, SYNSEM.LKEYS.KEYREL.PRED _en_torno_a_p_rel ]. en_torno_de_p_vmod := p_vmod_le & [ STEM < "en_torno_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_torno_de_p_rel ]. en_touche_x1 := av_i_le & [ STEM < "en_touche" >, SYNSEM.LKEYS.KEYREL.PRED "_en_touche_x_rel" ]. en_tromba_x1 := av_i_le & [ STEM < "en_tromba" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tromba_x_rel" ]. en_tándem_x1 := av_i_le & [ STEM < "en_tándem" >, SYNSEM.LKEYS.KEYREL.PRED "_en_tándem_x_rel" ]. en_un_abrir_y_cerrar_de_ojos_x1 := av_i_le & [ STEM < "en_un_abrir_y_cerrar_de_ojos" >, SYNSEM.LKEYS.KEYREL.PRED "_en_un_abrir_y_cerrar_de_ojos_x_rel" ]. en_un_decir_amén_x1 := av_i_le & [ STEM < "en_un_decir_amén" >, SYNSEM.LKEYS.KEYREL.PRED "_en_un_decir_amén_x_rel" ]. en_un_pis-pas_x1 := av_i_le & [ STEM < "en_un_pis-pas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_un_pis-pas_x_rel" ]. en_un_pispás_x1 := av_i_le & [ STEM < "en_un_pispás" >, SYNSEM.LKEYS.KEYREL.PRED "_en_un_pispás_x_rel" ]. en_un_tris_x1 := av_i_le & [ STEM < "en_un_tris" >, SYNSEM.LKEYS.KEYREL.PRED "_en_un_tris_x_rel" ]. en_verdad_x1 := av_s_cp_prop_le & [ STEM < "en_verdad" >, SYNSEM.LKEYS.KEYREL.PRED "_en_verdad_x_rel" ]. en_vez_de_p_vmod := p_vmod_le & [ STEM < "en_vez_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_vez_de_p_rel ]. en_vilo_x1 := av_i_le & [ STEM < "en_vilo" >, SYNSEM.LKEYS.KEYREL.PRED "_en_vilo_x_rel" ]. en_virtud_de_p_vmod := p_vmod_le & [ STEM < "en_virtud_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_virtud_de_p_rel ]. en_vista_de_p_vmod := p_vmod_le & [ STEM < "en_vista_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_vista_de_p_rel ]. en_volandas_x1 := av_i_le & [ STEM < "en_volandas" >, SYNSEM.LKEYS.KEYREL.PRED "_en_volandas_x_rel" ]. en_vías_de_p_vmod := p_vmod_le & [ STEM < "en_vías_de" >, SYNSEM.LKEYS.KEYREL.PRED _en_vías_de_p_rel ]. en_zigzag_x1 := av_i_le & [ STEM < "en_zigzag" >, SYNSEM.LKEYS.KEYREL.PRED "_en_zigzag_x_rel" ]. enagua_n1 := n_intr_count_le & [ STEM < "enagua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enagua_n_rel" ] ]. enajenación_n1 := n_trans_le & [ STEM < "enajenación" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenación_n_rel" ]. enajenador_a1 := a_qual_intr_scopal_le & [ STEM < "enajenador" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenador_a_rel" ]. enajenamiento_n1 := n_trans_le & [ STEM < "enajenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenamiento_n_rel" ]. enajenante_a1 := a_qual_intr_scopal_le & [ STEM < "enajenante" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenante_a_rel" ]. enajenantemente_x1 := av_i_spr_le & [ STEM < "enajenantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenantemente_x_rel" ]. enajenar_v1 := v_intr_io*_le & [ STEM < "enajenar" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenar_v_rel" ]. enajenar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enajenar" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenar_v_rel" ]. enajenar_v3 := v_trans_np_caus_le & [ STEM < "enajenar" >, SYNSEM.LKEYS.KEYREL.PRED "_enajenar_v_rel" ]. enaltecer_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "enaltecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_enaltecer_v_rel" ] ]. enaltecer_v2 := v_ditrans*_le & [ STEM < "enaltecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_enaltecer_v_rel" ] ]. enaltecer_v3 := v_trans_np_le & [ STEM < "enaltecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_enaltecer_v_rel" ] ]. enameloma_n1 := n_intr_count_le & [ STEM < "enameloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enameloma_n_rel" ] ]. enamoramiento_n1 := n_trans_le & [ STEM < "enamoramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enamoramiento_n_rel" ]. enamorar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "enamorar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_enamorar_v_rel" ] ]. enamorar_v2 := v_trans_np_le & [ STEM < "enamorar" >, SYNSEM.LKEYS.KEYREL.PRED "_enamorar_v_rel" ]. enanismo_n1 := n_intr_uncount_le & [ STEM < "enanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enanismo_n_rel" ] ]. enano_a1 := a_qual_intr_scopal_le & [ STEM < "enano" >, SYNSEM.LKEYS.KEYREL.PRED "_enano_a_rel" ]. enano_n1 := n_intr_count_le & [ STEM < "enano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enano_n_rel" ] ]. enantato_n1 := n_intr_count_le & [ STEM < "enantato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_enantato_n_rel" ] ]. enantema_n1 := n_intr_count_le & [ STEM < "enantema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enantema_n_rel" ] ]. enantiomorfo_a1 := a_qual_intr_ser_le & [ STEM < "enantiomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_enantiomorfo_a_rel" ]. enantiotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "enantiotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_enantiotrópico_a_rel" ]. enarbolar_v := v_trans_np_le & [ STEM < "enarbolar" >, SYNSEM.LKEYS.KEYREL.PRED "_enarbolar_v_rel" ]. enardecer_v1 := v_intr_io*_le & [ STEM < "enardecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enardecer_v_rel" ]. enardecer_v2 := v_pron_intr_le & [ STEM < "enardecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enardecer_v_rel" ]. enardecer_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enardecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enardecer_v_rel" ]. enargita_n1 := n_intr_count_le & [ STEM < "enargita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_enargita_n_rel" ] ]. enartrosis_n1 := n_intr_uncount_le & [ STEM < "enartrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enartrosis_n_rel" ] ]. enbetunamiento_n1 := n_trans_le & [ STEM < "enbetunamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enbetunamiento_n_rel" ]. encabalgamiento_n1 := n_trans_le & [ STEM < "encabalgamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encabalgamiento_n_rel" ]. encabezado_n1 := n_intr_count_le & [ STEM < "encabezado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encabezado_n_rel" ] ]. encabezamiento_n1 := n_intr_count_le & [ STEM < "encabezamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_encabezamiento_n_rel" ] ]. encabezar_v := v_trans_np_le & [ STEM < "encabezar" >, SYNSEM.LKEYS.KEYREL.PRED "_encabezar_v_rel" ]. encabriado_n1 := n_intr_count_le & [ STEM < "encabriado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encabriado_n_rel" ] ]. encachado_n1 := n_trans_le & [ STEM < "encachado" >, SYNSEM.LKEYS.KEYREL.PRED "_encachado_n_rel" ]. encachar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "encachar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encachar_v_rel" ] ] ]. encachar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "encachar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encachar_v_rel" ] ] ]. encadenado_n1 := n_intr_count_le & [ STEM < "encadenado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encadenado_n_rel" ] ]. encadenamiento_n1 := n_trans_le & [ STEM < "encadenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encadenamiento_n_rel" ]. encadenar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "encadenar" >, SYNSEM.LKEYS.KEYREL.PRED "_encadenar_v_rel" ]. encadenar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "encadenar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_encadenar_v_rel, ARG3.SORT non-hum " ] ]. encadenar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "encadenar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_encadenar_v_rel" ] ]. encajable_a1 := a_rel_prd_le & [ STEM < "encajable" >, SYNSEM.LKEYS.KEYREL.PRED "_encajable_a_rel" ]. encajar_v1 := v_intr_mrkd_np_le & [ STEM < "encajar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT abs_cnc_pro, PRED "_encajar_v_rel" ] ] ]. encajar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "encajar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_encajar_v_rel" ] ]. encajar_v3 := v_trans_cp_prop_fin_le & [ STEM < "encajar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encajar_v_rel" ] ]. encajar_v4 := v_trans_np_lcomp_loc*_le & [ STEM < "encajar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, ARG2.SORT cnc, PRED "_encajar_v_rel" ] ]. encajar_v5 := v_trans_np_le & [ STEM < "encajar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_encajar_v_rel" ] ]. encajar_v6 := v_unacc_lcomp_loc*_le & [ STEM < "encajar" >, SYNSEM.LKEYS.KEYREL.PRED "_encajar_v_rel" ]. encaje_n1 := n_intr_mass_le & [ STEM < "encaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encaje_n_rel" ] ]. encajonar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "encajonar" >, SYNSEM.LKEYS.KEYREL.PRED "_encajonar_v_rel" ]. encalabrinar_v1 := v_intr_io*_le & [ STEM < "encalabrinar" >, SYNSEM.LKEYS.KEYREL.PRED "_encalabrinar_v_rel" ]. encalabrinar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "encalabrinar" >, SYNSEM.LKEYS.KEYREL.PRED "_encalabrinar_v_rel" ]. encalado_n1 := n_trans_le & [ STEM < "encalado" >, SYNSEM.LKEYS.KEYREL.PRED "_encalado_n_rel" ]. encaladura_n1 := n_trans_le & [ STEM < "encaladura" >, SYNSEM.LKEYS.KEYREL.PRED "_encaladura_n_rel" ]. encalladura_n1 := n_result_intr_le & [ STEM < "encalladura" >, SYNSEM.LKEYS.KEYREL.PRED "_encalladura_n_rel" ]. encallamiento_n1 := n_event-result_intr_le & [ STEM < "encallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encallamiento_n_rel" ]. encalmar_v := v_trans_np_caus_le & [ STEM < "encalmar" >, SYNSEM.LKEYS.KEYREL.PRED "_encalmar_v_rel" ]. encamar_v := v_pron_intr_le & [ STEM < "encamar" >, SYNSEM.LKEYS.KEYREL.PRED "_encamar_v_rel" ]. encaminador_n1 := n_intr_count_le & [ STEM < "encaminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encaminador_n_rel" ] ]. encaminamiento_n1 := n_trans_le & [ STEM < "encaminamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encaminamiento_n_rel" ]. encaminar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "encaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_encaminar_v_rel" ]. encaminar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "encaminar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encaminar_v_rel" ] ] ]. encamisar_v := v_trans_np_le & [ STEM < "encamisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_encamisar_v_rel" ] ]. encandilar_v1 := v_intr_io*_le & [ STEM < "encandilar" >, SYNSEM.LKEYS.KEYREL.PRED "_encandilar_v_rel" ]. encandilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "encandilar" >, SYNSEM.LKEYS.KEYREL.PRED "_encandilar_v_rel" ]. encandilar_v3 := v_trans_np*_caus_le & [ STEM < "encandilar" >, SYNSEM.LKEYS.KEYREL.PRED "_encandilar_v_rel" ]. encantador_a1 := a_qual_intr_ser_le & [ STEM < "encantador" >, SYNSEM.LKEYS.KEYREL.PRED "_encantador_a_rel" ]. encantador_n1 := n_subj-nom_le & [ STEM < "encantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encantador_n_rel" ] ]. encantadoramente_x1 := av_i_spr_le & [ STEM < "encantadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_encantadoramente_x_rel" ]. encantamiento_n1 := n_trans_le & [ STEM < "encantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encantamiento_n_rel" ]. encantar_v1 := v_intr_io*_le & [ STEM < "encantar" >, SYNSEM.LKEYS.KEYREL.PRED "_encantar_v_rel" ]. encantar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "encantar" >, SYNSEM.LKEYS.KEYREL.PRED "_encantar_v_rel" ]. encanto_n1 := n_trans_le & [ STEM < "encanto" >, SYNSEM.LKEYS.KEYREL.PRED "_encanto_n_rel" ]. encapotar_v := v_pron_unacc_perf_le & [ STEM < "encapotar" >, SYNSEM.LKEYS.KEYREL.PRED "_encapotar_v_rel" ]. encapsulación_n1 := n_trans_le & [ STEM < "encapsulación" >, SYNSEM.LKEYS.KEYREL.PRED "_encapsulación_n_rel" ]. encapsulado_n1 := n_trans_le & [ STEM < "encapsulado" >, SYNSEM.LKEYS.KEYREL.PRED "_encapsulado_n_rel" ]. encapsular_v := v_trans_np_le & [ STEM < "encapsular" >, SYNSEM.LKEYS.KEYREL.PRED "_encapsular_v_rel" ]. encaramar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "encaramar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encaramar_v_rel" ] ] ]. encaramar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "encaramar" >, SYNSEM.LKEYS.KEYREL.PRED "_encaramar_v_rel" ]. encarar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "encarar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_encarar_v_rel" ] ]. encarar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "encarar" >, SYNSEM.LKEYS.KEYREL.PRED "_encarar_v_rel" ]. encarar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "encarar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_encarar_v_rel" ] ] ]. encarar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "encarar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_encarar_v_rel" ] ]. encarcelación_n1 := n_trans_le & [ STEM < "encarcelación" >, SYNSEM.LKEYS.KEYREL.PRED "_encarcelación_n_rel" ]. encarcelador_a1 := a_rel_nonprd_intr_le & [ STEM < "encarcelador" >, SYNSEM.LKEYS.KEYREL.PRED "_encarcelador_a_rel" ]. encarcelamiento_n1 := n_trans_le & [ STEM < "encarcelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encarcelamiento_n_rel" ]. encarcelar_v := v_trans_np_le & [ STEM < "encarcelar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_soc, PRED "_encarcelar_v_rel" ] ]. encarecer_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "encarecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encarecer_v_rel" ] ]. encarecer_v2 := v_ditrans*_le & [ STEM < "encarecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_encarecer_v_rel" ] ]. encarecer_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "encarecer" >, SYNSEM.LKEYS.KEYREL.PRED "_encarecer_v_rel" ]. encarecer_v4 := v_trans_np_caus_le & [ STEM < "encarecer" >, SYNSEM.LKEYS.KEYREL.PRED "_encarecer_v_rel" ]. encarecimiento_n1 := n_trans_le & [ STEM < "encarecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encarecimiento_n_rel" ]. encargado_n1 := n_intr_count_le & [ STEM < "encargado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encargado_n_rel" ] ]. encargar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "encargar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encargar_v_rel" ] ]. encargar_v2 := v_ditrans*_le & [ STEM < "encargar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_encargar_v_rel" ] ]. encargar_v3 := v_trans_np_mrkd_cp_prop_fin_sub_caus_le & [ STEM < "encargar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encargar_v_rel" ] ] ]. encargar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "encargar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_encargar_v_rel" ] ] ]. encargo_n1 := n_trans_le & [ STEM < "encargo" >, SYNSEM.LKEYS.KEYREL.PRED "_encargo_n_rel" ]. encarinar_v := v_pron_intr_mrkd_np_sym_le & [ STEM < "encarinar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_encarinar_v_rel" ] ]. encarnación_n1 := n_trans_le & [ STEM < "encarnación" >, SYNSEM.LKEYS.KEYREL.PRED "_encarnación_n_rel" ]. encarnizadamente_x1 := av_i_spr_le & [ STEM < "encarnizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_encarnizadamente_x_rel" ]. encarnizamiento_n1 := n_trans_le & [ STEM < "encarnizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encarnizamiento_n_rel" ]. encarpetar_v := v_trans_np_le & [ STEM < "encarpetar" >, SYNSEM.LKEYS.KEYREL.PRED "_encarpetar_v_rel" ]. encarrilador_n1 := n_subj-nom_le & [ STEM < "encarrilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encarrilador_n_rel" ] ]. encarrilamiento_n1 := n_trans_le & [ STEM < "encarrilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encarrilamiento_n_rel" ]. encarrilar_v := v_trans_np_caus_le & [ STEM < "encarrilar" >, SYNSEM.LKEYS.KEYREL.PRED "_encarrilar_v_rel" ]. encartamiento_n1 := n_trans_le & [ STEM < "encartamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encartamiento_n_rel" ]. encartar_v := v_trans_np_le & [ STEM < "encartar" >, SYNSEM.LKEYS.KEYREL.PRED "_encartar_v_rel" ]. encarte_n1 := n_intr_count_le & [ STEM < "encarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encarte_n_rel" ] ]. encartonar_v := v_trans_np_le & [ STEM < "encartonar" >, SYNSEM.LKEYS.KEYREL.PRED "_encartonar_v_rel" ]. encasquillar_v := v_pron_unacc_perf_le & [ STEM < "encasquillar" >, SYNSEM.LKEYS.KEYREL.PRED "_encasquillar_v_rel" ]. encausado_n1 := n_intr_count_le & [ STEM < "encausado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encausado_n_rel" ] ]. encausar_v := v_trans_np_le & [ STEM < "encausar" >, SYNSEM.LKEYS.KEYREL.PRED "_encausar_v_rel" ]. encauzamiento_n1 := n_trans_le & [ STEM < "encauzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encauzamiento_n_rel" ]. encauzar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "encauzar" >, SYNSEM.LKEYS.KEYREL.PRED "_encauzar_v_rel" ]. encauzar_v2 := v_trans_np_le & [ STEM < "encauzar" >, SYNSEM.LKEYS.KEYREL.PRED "_encauzar_v_rel" ]. encañonar_v := v_trans_np_le & [ STEM < "encañonar" >, SYNSEM.LKEYS.KEYREL.PRED "_encañonar_v_rel" ]. encefalitis_n1 := n_intr_uncount_le & [ STEM < "encefalitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encefalitis_n_rel" ] ]. encefalograma_n1 := n_intr_count_le & [ STEM < "encefalograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_encefalograma_n_rel" ] ]. encefalomielitis_n1 := n_intr_uncount_le & [ STEM < "encefalomielitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encefalomielitis_n_rel" ] ]. encefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "encefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_encefálico_a_rel" ]. encendedor_n1 := n_intr_count_le & [ STEM < "encendedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encendedor_n_rel" ] ]. encender_v1 := v_intr_io*_le & [ STEM < "encender" >, SYNSEM.LKEYS.KEYREL.PRED "_encender_v_rel" ]. encender_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "encender" >, SYNSEM.LKEYS.KEYREL.PRED "_encender_v_rel" ]. encender_v3 := v_trans_np_caus_le & [ STEM < "encender" >, SYNSEM.LKEYS.KEYREL.PRED "_encender_v_rel" ]. encendido_n1 := n_intr_count_le & [ STEM < "encendido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encendido_n_rel" ] ]. encerado_n1 := n_trans_le & [ STEM < "encerado" >, SYNSEM.LKEYS.KEYREL.PRED "_encerado_n_rel" ]. enceradora_n1 := n_intr_count_le & [ STEM < "enceradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_enceradora_n_rel" ] ]. encerar_v := v_trans_np_le & [ STEM < "encerar" >, SYNSEM.LKEYS.KEYREL.PRED "_encerar_v_rel" ]. encerrable_a1 := a_rel_prd_le & [ STEM < "encerrable" >, SYNSEM.LKEYS.KEYREL.PRED "_encerrable_a_rel" ]. encerramiento_n1 := n_trans_le & [ STEM < "encerramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encerramiento_n_rel" ]. encerrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "encerrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encerrar_v_rel" ] ] ]. encerrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "encerrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_encerrar_v_rel" ] ] ]. encerrar_v3 := v_trans_np_caus_le & [ STEM < "encerrar" >, SYNSEM.LKEYS.KEYREL.PRED "_encerrar_v_rel" ]. encerrona_n1 := n_trans_le & [ STEM < "encerrona" >, SYNSEM.LKEYS.KEYREL.PRED "_encerrona_n_rel" ]. encestador_n1 := n_subj-nom_le & [ STEM < "encestador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encestador_n_rel" ] ]. encestar_v := v_trans_np*_le & [ STEM < "encestar" >, SYNSEM.LKEYS.KEYREL.PRED "_encestar_v_rel" ]. enceste_n1 := n_trans_le & [ STEM < "enceste" >, SYNSEM.LKEYS.KEYREL.PRED "_enceste_n_rel" ]. enchavetar_v := v_trans_np_le & [ STEM < "enchavetar" >, SYNSEM.LKEYS.KEYREL.PRED "_enchavetar_v_rel" ]. enchufable_a1 := a_rel_prd_le & [ STEM < "enchufable" >, SYNSEM.LKEYS.KEYREL.PRED "_enchufable_a_rel" ]. enchufar_v := v_trans_np_le & [ STEM < "enchufar" >, SYNSEM.LKEYS.KEYREL.PRED "_enchufar_v_rel" ]. enchufe_n1 := n_intr_count_le & [ STEM < "enchufe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enchufe_n_rel" ] ]. enciclopedia_n1 := n_intr_count_le & [ STEM < "enciclopedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enciclopedia_n_rel" ] ]. enciclopédico_a1 := a_rel_nonprd_intr_le & [ STEM < "enciclopédico" >, SYNSEM.LKEYS.KEYREL.PRED "_enciclopédico_a_rel" ]. encierro_n1 := n_trans_le & [ STEM < "encierro" >, SYNSEM.LKEYS.KEYREL.PRED "_encierro_n_rel" ]. encima_de_p_vmod := p_vmod_le & [ STEM < "encima_de" >, SYNSEM.LKEYS.KEYREL.PRED _encima_de_p_rel ]. encima_x1 := av_i_spr_le & [ STEM < "encima" >, SYNSEM.LKEYS.KEYREL.PRED "_encima_x_rel" ]. encimera_n1 := n_intr_count_le & [ STEM < "encimera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_encimera_n_rel" ] ]. encimero_a1 := a_rel_nonprd_intr_le & [ STEM < "encimero" >, SYNSEM.LKEYS.KEYREL.PRED "_encimero_a_rel" ]. encina_n1 := n_intr_mass-or-count_le & [ STEM < "encina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_encina_n_rel" ] ]. encinal_n1 := n_intr_count_le & [ STEM < "encinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_encinal_n_rel" ] ]. encinar_n1 := n_intr_coll_le & [ STEM < "encinar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_encinar_n_rel" ] ]. encino_n1 := n_intr_count_le & [ STEM < "encino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_encino_n_rel" ] ]. encinta_a1 := a_qual_intr_estar_le & [ STEM < "encinta" >, SYNSEM.LKEYS.KEYREL.PRED "_encinta_a_rel" ]. enclavamiento_n1 := n_trans_le & [ STEM < "enclavamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enclavamiento_n_rel" ]. enclavar_v := v_trans_np_le & [ STEM < "enclavar" >, SYNSEM.LKEYS.KEYREL.PRED "_enclavar_v_rel" ]. enclave_n1 := n_intr_count_le & [ STEM < "enclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_enclave_n_rel" ] ]. enclavijamiento_n1 := n_trans_le & [ STEM < "enclavijamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enclavijamiento_n_rel" ]. enclavijar_v := v_trans_np_le & [ STEM < "enclavijar" >, SYNSEM.LKEYS.KEYREL.PRED "_enclavijar_v_rel" ]. enclenque_a1 := a_qual_intr_ser_le & [ STEM < "enclenque" >, SYNSEM.LKEYS.KEYREL.PRED "_enclenque_a_rel" ]. enclítico_a1 := a_rel_nonprd_intr_le & [ STEM < "enclítico" >, SYNSEM.LKEYS.KEYREL.PRED "_enclítico_a_rel" ]. enclítico_n1 := n_intr_count_le & [ STEM < "enclítico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enclítico_n_rel" ] ]. cobrar_v1 := v_trans_np_le & [ STEM < "cobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrar_v_rel" ]. cobrar_v2 := v_pron_trans_np_le & [ STEM < "cobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrar_v_rel" ]. cobrar_v3 := v_trans_np*_io_le & [ STEM < "cobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobrar_v_rel" ]. encobrar_v := v_trans_np_le & [ STEM < "encobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_encobrar_v_rel" ]. encoger_v1 := v_pron_unacc_perf_le & [ STEM < "encoger" >, SYNSEM.LKEYS.KEYREL.PRED "_encoger_v_rel" ]. encoger_v2 := v_trans_np_caus_int_le & [ STEM < "encoger" >, SYNSEM.LKEYS.KEYREL.PRED "_encoger_v_rel" ]. encogible_a1 := a_rel_prd_le & [ STEM < "encogible" >, SYNSEM.LKEYS.KEYREL.PRED "_encogible_a_rel" ]. encogimiento_n1 := n_event-result_intr_le & [ STEM < "encogimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encogimiento_n_rel" ]. encoladura_n1 := n_trans_le & [ STEM < "encoladura" >, SYNSEM.LKEYS.KEYREL.PRED "_encoladura_n_rel" ]. encolar_v := v_trans_np_le & [ STEM < "encolar" >, SYNSEM.LKEYS.KEYREL.PRED "_encolar_v_rel" ]. encolerizar_v1 := v_intr_io*_le & [ STEM < "encolerizar" >, SYNSEM.LKEYS.KEYREL.PRED "_encolerizar_v_rel" ]. encolerizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "encolerizar" >, SYNSEM.LKEYS.KEYREL.PRED "_encolerizar_v_rel" ]. encolerizar_v3 := v_trans_np_le & [ STEM < "encolerizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_encolerizar_v_rel" ] ]. encomendar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "encomendar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encomendar_v_rel" ] ]. encomendar_v2 := v_ditrans*_le & [ STEM < "encomendar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_encomendar_v_rel" ] ]. encomendar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "encomendar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_encomendar_v_rel" ] ]. encomiable_a1 := a_qual_intr_scopal_le & [ STEM < "encomiable" >, SYNSEM.LKEYS.KEYREL.PRED "_encomiable_a_rel" ]. encomiar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "encomiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encomiar_v_rel" ] ]. encomiar_v2 := v_ditrans*_le & [ STEM < "encomiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_encomiar_v_rel" ] ]. encomienda_n1 := n_trans_le & [ STEM < "encomienda" >, SYNSEM.LKEYS.KEYREL.PRED "_encomienda_n_rel" ]. encomio_n1 := n_intr_uncount_pl_le & [ STEM < "encomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encomio_n_rel" ] ]. enconamiento_n1 := n_intr_uncount_le & [ STEM < "enconamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enconamiento_n_rel" ] ]. encontronazo_n1 := n_intr_count_le & [ STEM < "encontronazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encontronazo_n_rel" ] ]. encordar_v := v_trans_np_le & [ STEM < "encordar" >, SYNSEM.LKEYS.KEYREL.PRED "_encordar_v_rel" ]. encorvadura_n1 := n_trans_le & [ STEM < "encorvadura" >, SYNSEM.LKEYS.KEYREL.PRED "_encorvadura_n_rel" ]. encorvamiento_n1 := n_trans_le & [ STEM < "encorvamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encorvamiento_n_rel" ]. encorvar_v := v_pron_unacc_perf_le & [ STEM < "encorvar" >, SYNSEM.LKEYS.KEYREL.PRED "_encorvar_v_rel" ]. encostramiento_n1 := n_trans_le & [ STEM < "encostramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encostramiento_n_rel" ]. encrespar_v := v_trans_np_caus_le & [ STEM < "encrespar" >, SYNSEM.LKEYS.KEYREL.PRED "_encrespar_v_rel" ]. encriptación_n1 := n_trans_le & [ STEM < "encriptación" >, SYNSEM.LKEYS.KEYREL.PRED "_encriptación_n_rel" ]. encriptar_v := v_trans_np_le & [ STEM < "encriptar" >, SYNSEM.LKEYS.KEYREL.PRED "_encriptar_v_rel" ]. encrucijada_n1 := n_intr_count_le & [ STEM < "encrucijada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encrucijada_n_rel" ] ]. encuadernación_n1 := n_trans_le & [ STEM < "encuadernación" >, SYNSEM.LKEYS.KEYREL.PRED "_encuadernación_n_rel" ]. encuadernador_n1 := n_intr_count_le & [ STEM < "encuadernador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encuadernador_n_rel" ] ]. encuadernador_n2 := n_subj-nom_le & [ STEM < "encuadernador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encuadernador_n_rel" ] ]. encuadernar_v := v_trans_np_le & [ STEM < "encuadernar" >, SYNSEM.LKEYS.KEYREL.PRED "_encuadernar_v_rel" ]. encuadramiento_n1 := n_trans_le & [ STEM < "encuadramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encuadramiento_n_rel" ]. encuadrar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "encuadrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_encuadrar_v_rel" ] ]. encuadrar_v2 := v_trans_np_le & [ STEM < "encuadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_encuadrar_v_rel" ]. encuadrar_v3 := v_trans_np_mrkd_np_le & [ STEM < "encuadrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_encuadrar_v_rel" ] ]. encuadre_n1 := n_trans_le & [ STEM < "encuadre" >, SYNSEM.LKEYS.KEYREL.PRED "_encuadre_n_rel" ]. encubridor_a1 := a_qual_intr_scopal_le & [ STEM < "encubridor" >, SYNSEM.LKEYS.KEYREL.PRED "_encubridor_a_rel" ]. encubridor_n1 := n_subj-nom_le & [ STEM < "encubridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encubridor_n_rel" ] ]. encubrimiento_n1 := n_trans_le & [ STEM < "encubrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_encubrimiento_n_rel" ]. encubrir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "encubrir" >, SYNSEM.LKEYS.KEYREL.PRED "_encubrir_v_rel" ]. encubrir_v2 := v_trans_cp_prop_fin_le & [ STEM < "encubrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encubrir_v_rel" ] ]. encubrir_v3 := v_trans_np_le & [ STEM < "encubrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_encubrir_v_rel" ] ]. encuentro_n1 := n_intr_count_le & [ STEM < "encuentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encuentro_n_rel" ] ]. encuesta_n1 := n_intr_count_le & [ STEM < "encuesta" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_encuesta_n_rel" ] ] ]. encuestador_n1 := n_subj-nom_le & [ STEM < "encuestador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_encuestador_n_rel" ] ]. encuestar_v := v_trans_np_le & [ STEM < "encuestar" >, SYNSEM.LKEYS.KEYREL.PRED "_encuestar_v_rel" ]. encurtir_v := v_trans_np_le & [ STEM < "encurtir" >, SYNSEM.LKEYS.KEYREL.PRED "_encurtir_v_rel" ]. encáustico_a1 := a_rel_nonprd_intr_le & [ STEM < "encáustico" >, SYNSEM.LKEYS.KEYREL.PRED "_encáustico_a_rel" ]. encáustico_n1 := n_intr_uncount_le & [ STEM < "encáustico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_encáustico_n_rel" ] ]. encéfalo_n1 := n_ppcomp_count_le & [ STEM < "encéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_encéfalo_n_rel" ] ]. encía_n1 := n_ppcomp_count_le & [ STEM < "encía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_encía_n_rel" ] ]. encíclica_n1 := n_intr_count_le & [ STEM < "encíclica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_encíclica_n_rel" ] ]. endeble_a1 := a_qual_intr_ser_le & [ STEM < "endeble" >, SYNSEM.LKEYS.KEYREL.PRED "_endeble_a_rel" ]. endeblez_n1 := n_ppcomp_uncount_le & [ STEM < "endeblez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endeblez_n_rel" ] ]. endecasílabo_a1 := a_rel_nonprd_intr_le & [ STEM < "endecasílabo" >, SYNSEM.LKEYS.KEYREL.PRED "_endecasílabo_a_rel" ]. endecasílabo_n1 := n_intr_count_le & [ STEM < "endecasílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endecasílabo_n_rel" ] ]. endecágono_n1 := n_intr_count_le & [ STEM < "endecágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endecágono_n_rel" ] ]. endelionita_n1 := n_intr_count_le & [ STEM < "endelionita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_endelionita_n_rel" ] ]. endemismo_n1 := n_ppcomp_uncount_le & [ STEM < "endemismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endemismo_n_rel" ] ]. enderezador_a1 := a_rel_nonprd_intr_le & [ STEM < "enderezador" >, SYNSEM.LKEYS.KEYREL.PRED "_enderezador_a_rel" ]. enderezador_n1 := n_intr_count_le & [ STEM < "enderezador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enderezador_n_rel" ] ]. enderezador_n2 := n_subj-nom_le & [ STEM < "enderezador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enderezador_n_rel" ] ]. enderezadora_n1 := n_intr_count_le & [ STEM < "enderezadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enderezadora_n_rel" ] ]. enderezamiento_n1 := n_trans_le & [ STEM < "enderezamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enderezamiento_n_rel" ]. enderezar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "enderezar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enderezar_v_rel" ] ] ]. enderezar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "enderezar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enderezar_v_rel" ] ] ]. enderezar_v3 := v_trans_np_caus_le & [ STEM < "enderezar" >, SYNSEM.LKEYS.KEYREL.PRED "_enderezar_v_rel" ]. endeudamiento_n1 := n_result_intr_le & [ STEM < "endeudamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_endeudamiento_n_rel" ]. endeudar_v := v_pron_unacc_perf_le & [ STEM < "endeudar" >, SYNSEM.LKEYS.KEYREL.PRED "_endeudar_v_rel" ]. endibia_n1 := n_intr_count_le & [ STEM < "endibia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endibia_n_rel" ] ]. endocardio_n1 := n_ppcomp_count_le & [ STEM < "endocardio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_endocardio_n_rel" ] ]. endocinético_a1 := a_rel_nonprd_intr_le & [ STEM < "endocinético" >, SYNSEM.LKEYS.KEYREL.PRED "_endocinético_a_rel" ]. endocitosis_n1 := n_intr_uncount_le & [ STEM < "endocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endocitosis_n_rel" ] ]. endoclinal_a1 := a_rel_nonprd_intr_le & [ STEM < "endoclinal" >, SYNSEM.LKEYS.KEYREL.PRED "_endoclinal_a_rel" ]. endoclinalmente_x1 := av_i_spr_le & [ STEM < "endoclinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_endoclinalmente_x_rel" ]. endocondral_a1 := a_rel_nonprd_intr_le & [ STEM < "endocondral" >, SYNSEM.LKEYS.KEYREL.PRED "_endocondral_a_rel" ]. endocrino_a1 := a_rel_nonprd_intr_le & [ STEM < "endocrino" >, SYNSEM.LKEYS.KEYREL.PRED "_endocrino_a_rel" ]. endocrinología_n1 := n_intr_uncount_le & [ STEM < "endocrinología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endocrinología_n_rel" ] ]. endocrinopatía_n1 := n_intr_uncount_pl_le & [ STEM < "endocrinopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endocrinopatía_n_rel" ] ]. endocrinólogo_n1 := n_intr_count_le & [ STEM < "endocrinólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_endocrinólogo_n_rel" ] ]. endocráneo_n1 := n_ppcomp_count_le & [ STEM < "endocráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_endocráneo_n_rel" ] ]. endodermis_n1 := n_intr_count_le & [ STEM < "endodermis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endodermis_n_rel" ] ]. endodermo_n1 := n_intr_count_le & [ STEM < "endodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endodermo_n_rel" ] ]. endodinamente_x1 := av_i_spr_le & [ STEM < "endodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endodinamente_x_rel" ]. endodinamomorfo_a1 := a_qual_intr_ser_le & [ STEM < "endodinamomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_endodinamomorfo_a_rel" ]. endodinamógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "endodinamógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_endodinamógeno_a_rel" ]. endodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "endodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endodoncia_n_rel" ] ]. endodontología_n1 := n_intr_uncount_le & [ STEM < "endodontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endodontología_n_rel" ] ]. endodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "endodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_endodérmico_a_rel" ]. endodóncico_a1 := a_rel_nonprd_intr_le & [ STEM < "endodóncico" >, SYNSEM.LKEYS.KEYREL.PRED "_endodóncico_a_rel" ]. endoesqueleto_n1 := n_intr_count_le & [ STEM < "endoesqueleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endoesqueleto_n_rel" ] ]. endoftalmitis_n1 := n_intr_uncount_le & [ STEM < "endoftalmitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endoftalmitis_n_rel" ] ]. endogamia_n1 := n_intr_uncount_le & [ STEM < "endogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endogamia_n_rel" ] ]. endognacia_n1 := n_intr_uncount_le & [ STEM < "endognacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endognacia_n_rel" ] ]. endogámicamente_x1 := av_i_spr_le & [ STEM < "endogámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endogámicamente_x_rel" ]. endogámico_a1 := a_rel_nonprd_intr_le & [ STEM < "endogámico" >, SYNSEM.LKEYS.KEYREL.PRED "_endogámico_a_rel" ]. endogénesis_n1 := n_intr_uncount_le & [ STEM < "endogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endogénesis_n_rel" ] ]. endolinfa_n1 := n_intr_uncount_le & [ STEM < "endolinfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endolinfa_n_rel" ] ]. endolinfático_a1 := a_rel_nonprd_intr_le & [ STEM < "endolinfático" >, SYNSEM.LKEYS.KEYREL.PRED "_endolinfático_a_rel" ]. endometrio_n1 := n_intr_count_le & [ STEM < "endometrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endometrio_n_rel" ] ]. endometría_n1 := n_intr_count_le & [ STEM < "endometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endometría_n_rel" ] ]. endomitosis_n1 := n_intr_uncount_le & [ STEM < "endomitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endomitosis_n_rel" ] ]. endomixis_n1 := n_intr_uncount_le & [ STEM < "endomixis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endomixis_n_rel" ] ]. endomorfismo_n1 := n_intr_uncount_le & [ STEM < "endomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endomorfismo_n_rel" ] ]. endonucleasa_n1 := n_intr_mass_le & [ STEM < "endonucleasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_endonucleasa_n_rel" ] ]. endopelviano_a1 := a_rel_nonprd_intr_le & [ STEM < "endopelviano" >, SYNSEM.LKEYS.KEYREL.PRED "_endopelviano_a_rel" ]. endoplasma_n1 := n_intr_count_le & [ STEM < "endoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endoplasma_n_rel" ] ]. endoplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "endoplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_endoplasmático_a_rel" ]. endoplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "endoplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_endoplásmico_a_rel" ]. endoprótesis_n1 := n_intr_count_le & [ STEM < "endoprótesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endoprótesis_n_rel" ] ]. endorreicamente_x1 := av_i_spr_le & [ STEM < "endorreicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endorreicamente_x_rel" ]. endorreico_a1 := a_rel_nonprd_intr_le & [ STEM < "endorreico" >, SYNSEM.LKEYS.KEYREL.PRED "_endorreico_a_rel" ]. endorso_n1 := n_trans_le & [ STEM < "endorso" >, SYNSEM.LKEYS.KEYREL.PRED "_endorso_n_rel" ]. endosable_a1 := a_rel_prd_le & [ STEM < "endosable" >, SYNSEM.LKEYS.KEYREL.PRED "_endosable_a_rel" ]. endosador_n1 := n_subj-nom_le & [ STEM < "endosador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_endosador_n_rel" ] ]. endosante_n1 := n_intr_count_le & [ STEM < "endosante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_endosante_n_rel" ] ]. endosar_v := v_ditrans*_le & [ STEM < "endosar" >, SYNSEM.LKEYS.KEYREL.PRED "_endosar_v_rel" ]. endosatario_n1 := n_intr_count_le & [ STEM < "endosatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_endosatario_n_rel" ] ]. endoscopia_n1 := n_intr_count_le & [ STEM < "endoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_endoscopia_n_rel" ] ]. endoscopio_n1 := n_intr_count_le & [ STEM < "endoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endoscopio_n_rel" ] ]. endoscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "endoscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_endoscópico_a_rel" ]. endosfera_n1 := n_intr_count_le & [ STEM < "endosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endosfera_n_rel" ] ]. endoso_n1 := n_trans_le & [ STEM < "endoso" >, SYNSEM.LKEYS.KEYREL.PRED "_endoso_n_rel" ]. endosoma_n1 := n_intr_count_le & [ STEM < "endosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endosoma_n_rel" ] ]. endosperma_n1 := n_intr_count_le & [ STEM < "endosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_endosperma_n_rel" ] ]. endostal_a1 := a_rel_nonprd_intr_le & [ STEM < "endostal" >, SYNSEM.LKEYS.KEYREL.PRED "_endostal_a_rel" ]. endotelial_a1 := a_rel_nonprd_intr_le & [ STEM < "endotelial" >, SYNSEM.LKEYS.KEYREL.PRED "_endotelial_a_rel" ]. endotelio_n1 := n_intr_count_le & [ STEM < "endotelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endotelio_n_rel" ] ]. endotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "endotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_endotorácico_a_rel" ]. endotoxina_n1 := n_intr_count_le & [ STEM < "endotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_endotoxina_n_rel" ] ]. endotraqueal_a1 := a_rel_nonprd_intr_le & [ STEM < "endotraqueal" >, SYNSEM.LKEYS.KEYREL.PRED "_endotraqueal_a_rel" ]. endotérmicamente_x1 := av_i_spr_le & [ STEM < "endotérmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endotérmicamente_x_rel" ]. endotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "endotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_endotérmico_a_rel" ]. endotóxico_a1 := a_rel_nonprd_intr_le & [ STEM < "endotóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_endotóxico_a_rel" ]. endrina_n1 := n_intr_mass_le & [ STEM < "endrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endrina_n_rel" ] ]. endrino_n1 := n_intr_count_le & [ STEM < "endrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_endrino_n_rel" ] ]. endulzante_n1 := n_intr_mass_le & [ STEM < "endulzante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endulzante_n_rel" ] ]. endulzar_v := v_trans_np_le & [ STEM < "endulzar" >, SYNSEM.LKEYS.KEYREL.PRED "_endulzar_v_rel" ]. endurecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "endurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_endurecer_v_rel" ]. endurecer_v2 := v_trans_np_caus_le & [ STEM < "endurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_endurecer_v_rel" ]. endurecimiento_n1 := n_trans_le & [ STEM < "endurecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_endurecimiento_n_rel" ]. endémicamente_x1 := av_i_spr_le & [ STEM < "endémicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endémicamente_x_rel" ]. endémico_a1 := a_rel_nonprd_intr_le & [ STEM < "endémico" >, SYNSEM.LKEYS.KEYREL.PRED "_endémico_a_rel" ]. endófito_n1 := n_intr_count_le & [ STEM < "endófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_endófito_n_rel" ] ]. endógenamente_x1 := av_i_spr_le & [ STEM < "endógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_endógenamente_x_rel" ]. endógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "endógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_endógeno_a_rel" ]. endómetro_n1 := n_intr_count_le & [ STEM < "endómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_endómetro_n_rel" ] ]. endótrofo_a1 := a_rel_nonprd_intr_le & [ STEM < "endótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_endótrofo_a_rel" ]. enebro_n1 := n_intr_mass_le & [ STEM < "enebro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_enebro_n_rel" ] ]. eneldo_n1 := n_intr_mass_le & [ STEM < "eneldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_eneldo_n_rel" ] ]. enema_n1 := n_intr_count_le & [ STEM < "enema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enema_n_rel" ] ]. enemigo_a1 := a_qual_intr_scopal_le & [ STEM < "enemigo" >, SYNSEM.LKEYS.KEYREL.PRED "_enemigo_a_rel" ]. enemigo_n1 := n_intr_count_le & [ STEM < "enemigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enemigo_n_rel" ] ]. enemistad_n1 := n_intr_count_le & [ STEM < "enemistad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enemistad_n_rel" ] ]. enemistar_v1 := v_pron_intr_mrkd_np_sym_le & [ STEM < "enemistar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_enemistar_v_rel" ] ]. enemistar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "enemistar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_enemistar_v_rel" ] ]. enemistar_v3 := v_trans_np_mrkd_np_le & [ STEM < "enemistar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_enemistar_v_rel" ] ]. energéticamente_x1 := av_i_spr_le & [ STEM < "energéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_energéticamente_x_rel" ]. energético_a1 := a_qual_intr_scopal_le & [ STEM < "energético" >, SYNSEM.LKEYS.KEYREL.PRED "_energético_a_rel" ]. energía_n1 := n_intr_mass-or-count_le & [ STEM < "energía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_energía_n_rel" ] ]. enero_n1 := n_intr_count_le & [ STEM < "enero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_enero_n_rel" ] ]. enervar_v := v_trans_np_caus_le & [ STEM < "enervar" >, SYNSEM.LKEYS.KEYREL.PRED "_enervar_v_rel" ]. eneágono_n1 := n_intr_count_le & [ STEM < "eneágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eneágono_n_rel" ] ]. enfadadamente_x1 := av_i_spr_le & [ STEM < "enfadadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enfadadamente_x_rel" ]. enfadar_v1 := v_intr_io*_le & [ STEM < "enfadar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfadar_v_rel" ]. enfadar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "enfadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_enfadar_v_rel" ] ] ]. enfadar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "enfadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_enfadar_v_rel" ] ] ]. enfadar_v4 := v_pron_intr_mrkd_np_sym_le & [ STEM < "enfadar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_enfadar_v_rel" ] ]. enfadar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enfadar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfadar_v_rel" ]. enfado_n1 := n_intr_mass-or-count_le & [ STEM < "enfado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enfado_n_rel" ] ]. enfatización_n1 := n_trans_le & [ STEM < "enfatización" >, SYNSEM.LKEYS.KEYREL.PRED "_enfatización_n_rel" ]. enfatizar_v1 := v_intr_le & [ STEM < "enfatizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_enfatizar_v_rel" ] ]. enfatizar_v2 := v_trans_cp_prop_fin_le & [ STEM < "enfatizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_sem_soc, PRED "_enfatizar_v_rel" ] ]. enfatizar_v3 := v_trans_np_le & [ STEM < "enfatizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_sem_soc, PRED "_enfatizar_v_rel" ] ]. enfermar_v := v_trans_np_caus_int_le & [ STEM < "enfermar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfermar_v_rel" ]. enfermedad_n1 := n_intr_count_le & [ STEM < "enfermedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enfermedad_n_rel" ] ]. enfermero_n1 := n_intr_count_le & [ STEM < "enfermero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enfermero_n_rel" ] ]. enfermería_n1 := n_intr_count_le & [ STEM < "enfermería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_enfermería_n_rel" ] ]. enfermizo_a1 := a_qual_intr_scopal_le & [ STEM < "enfermizo" >, SYNSEM.LKEYS.KEYREL.PRED "_enfermizo_a_rel" ]. enfermo_a1 := a_qual_trans*_estar_le & [ STEM < "enfermo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_enfermo_a_rel" ] ]. enfermo_n1 := n_intr_count_le & [ STEM < "enfermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enfermo_n_rel" ] ]. enfilación_n1 := n_trans_le & [ STEM < "enfilación" >, SYNSEM.LKEYS.KEYREL.PRED "_enfilación_n_rel" ]. enfilar_v1 := v_trans_np_le & [ STEM < "enfilar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfilar_v_rel" ]. enfilar_v2 := v_unacc_lcomp_dir_le & [ STEM < "enfilar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfilar_v_rel" ]. enfiteusis_n1 := n_intr_count_le & [ STEM < "enfiteusis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_enfiteusis_n_rel" ] ]. enfiteuta_n1 := n_intr_count_le & [ STEM < "enfiteuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enfiteuta_n_rel" ] ]. enfitéutico_a1 := a_rel_nonprd_intr_le & [ STEM < "enfitéutico" >, SYNSEM.LKEYS.KEYREL.PRED "_enfitéutico_a_rel" ]. enflaquecer_v1 := v_trans_np_caus_int_le & [ STEM < "enflaquecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enflaquecer_v_rel" ]. enflaquecimiento_n1 := n_event-result_intr_le & [ STEM < "enflaquecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enflaquecimiento_n_rel" ]. enfoque_n1 := n_trans_le & [ STEM < "enfoque" >, SYNSEM.LKEYS.KEYREL.PRED "_enfoque_n_rel" ]. enfrascar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "enfrascar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_enfrascar_v_rel" ] ]. enfrascar_v2 := v_trans_np_le & [ STEM < "enfrascar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfrascar_v_rel" ]. enfrentamiento_n1 := n_trans_le & [ STEM < "enfrentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enfrentamiento_n_rel" ]. enfrentar_v1 := v_pron_intr_io_le & [ STEM < "enfrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfrentar_v_rel" ]. enfrentar_v2 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "enfrentar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_enfrentar_v_rel" ] ]. enfrentar_v3 := v_pron_intr_mrkd_np_sym_le & [ STEM < "enfrentar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_enfrentar_v_rel" ] ]. enfrentar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "enfrentar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_enfrentar_v_rel" ] ]. enfrentar_v5 := v_trans_np_mrkd_np*_le & [ STEM < "enfrentar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_enfrentar_v_rel" ] ]. enfrente_de_p_vmod := p_vmod_le & [ STEM < "enfrente_de" >, SYNSEM.LKEYS.KEYREL.PRED _enfrente_de_p_rel ]. enfrente_x1 := av_i_spr_le & [ STEM < "enfrente" >, SYNSEM.LKEYS.KEYREL.PRED "_enfrente_x_rel" ]. enfriable_a1 := a_rel_prd_le & [ STEM < "enfriable" >, SYNSEM.LKEYS.KEYREL.PRED "_enfriable_a_rel" ]. enfriador_a1 := a_rel_nonprd_intr_le & [ STEM < "enfriador" >, SYNSEM.LKEYS.KEYREL.PRED "_enfriador_a_rel" ]. enfriador_n1 := n_intr_count_le & [ STEM < "enfriador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enfriador_n_rel" ] ]. enfriamiento_n1 := n_trans_le & [ STEM < "enfriamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enfriamiento_n_rel" ]. enfriar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "enfriar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfriar_v_rel" ]. enfriar_v2 := v_trans_np_caus_le & [ STEM < "enfriar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfriar_v_rel" ]. enfundar_v := v_trans_np_le & [ STEM < "enfundar" >, SYNSEM.LKEYS.KEYREL.PRED "_enfundar_v_rel" ]. enfurecer_v1 := v_intr_io*_le & [ STEM < "enfurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enfurecer_v_rel" ]. enfurecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enfurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enfurecer_v_rel" ]. enfurecer_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "enfurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enfurecer_v_rel" ]. enfurecer_v4 := v_trans_np_caus_le & [ STEM < "enfurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enfurecer_v_rel" ]. enfurecimiento_n1 := n_trans_le & [ STEM < "enfurecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enfurecimiento_n_rel" ]. enfáticamente_x1 := av_i_spr_le & [ STEM < "enfáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enfáticamente_x_rel" ]. enfático_a1 := a_qual_intr_scopal_le & [ STEM < "enfático" >, SYNSEM.LKEYS.KEYREL.PRED "_enfático_a_rel" ]. engace_n1 := n_intr_count_le & [ STEM < "engace" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_engace_n_rel" ] ]. engalanar_v := v_trans_np_le & [ STEM < "engalanar" >, SYNSEM.LKEYS.KEYREL.PRED "_engalanar_v_rel" ]. enganche_n1 := n_trans_le & [ STEM < "enganche" >, SYNSEM.LKEYS.KEYREL.PRED "_enganche_n_rel" ]. engarce_n1 := n_trans_le & [ STEM < "engarce" >, SYNSEM.LKEYS.KEYREL.PRED "_engarce_n_rel" ]. engarzar_v := v_trans_np_le & [ STEM < "engarzar" >, SYNSEM.LKEYS.KEYREL.PRED "_engarzar_v_rel" ]. engastador_a1 := a_rel_nonprd_intr_le & [ STEM < "engastador" >, SYNSEM.LKEYS.KEYREL.PRED "_engastador_a_rel" ]. engastar_v := v_trans_np_le & [ STEM < "engastar" >, SYNSEM.LKEYS.KEYREL.PRED "_engastar_v_rel" ]. engaste_n1 := n_intr_count_le & [ STEM < "engaste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_engaste_n_rel" ] ]. engatusar_v := v_ditrans_le & [ STEM < "engatusar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_engatusar_v_rel" ] ]. engañar_v1 := v_intr_io*_le & [ STEM < "engañar" >, SYNSEM.LKEYS.KEYREL.PRED "_engañar_v_rel" ]. engañar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "engañar" >, SYNSEM.LKEYS.KEYREL.PRED "_engañar_v_rel" ]. engañar_v3 := v_trans_np*_le & [ STEM < "engañar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_engañar_v_rel" ] ]. engaño_n1 := n_trans_le & [ STEM < "engaño" >, SYNSEM.LKEYS.KEYREL.PRED "_engaño_n_rel" ]. engañosamente_x1 := av_i_spr_le & [ STEM < "engañosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_engañosamente_x_rel" ]. engañoso_a1 := a_qual_intr_scopal_le & [ STEM < "engañoso" >, SYNSEM.LKEYS.KEYREL.PRED "_engañoso_a_rel" ]. engendrar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "engendrar" >, SYNSEM.LKEYS.KEYREL.PRED "_engendrar_v_rel" ]. engendrar_v2 := v_trans_np_caus_le & [ STEM < "engendrar" >, SYNSEM.LKEYS.KEYREL.PRED "_engendrar_v_rel" ]. englobar_v := v_trans_np_le & [ STEM < "englobar" >, SYNSEM.LKEYS.KEYREL.PRED "_englobar_v_rel" ]. engomador_a1 := a_rel_nonprd_intr_le & [ STEM < "engomador" >, SYNSEM.LKEYS.KEYREL.PRED "_engomador_a_rel" ]. engomar_v := v_trans_np_le & [ STEM < "engomar" >, SYNSEM.LKEYS.KEYREL.PRED "_engomar_v_rel" ]. engordar_v := v_trans_np_caus_int_le & [ STEM < "engordar" >, SYNSEM.LKEYS.KEYREL.PRED "_engordar_v_rel" ]. engorde_n1 := n_event-result_intr_le & [ STEM < "engorde" >, SYNSEM.LKEYS.KEYREL.PRED "_engorde_n_rel" ]. engorro_n1 := n_intr_uncount_pl_le & [ STEM < "engorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_engorro_n_rel" ] ]. engorrosamente_x1 := av_i_spr_le & [ STEM < "engorrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_engorrosamente_x_rel" ]. engorroso_a1 := a_qual_intr_scopal_le & [ STEM < "engorroso" >, SYNSEM.LKEYS.KEYREL.PRED "_engorroso_a_rel" ]. engranaje_n1 := n_trans_le & [ STEM < "engranaje" >, SYNSEM.LKEYS.KEYREL.PRED "_engranaje_n_rel" ]. engranar_v := v_trans_np_caus_int_non-perf_le & [ STEM < "engranar" >, SYNSEM.LKEYS.KEYREL.PRED "_engranar_v_rel" ]. engrandecer_v := v_trans_np_caus_le & [ STEM < "engrandecer" >, SYNSEM.LKEYS.KEYREL.PRED "_engrandecer_v_rel" ]. engrandecimiento_n1 := n_trans_le & [ STEM < "engrandecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_engrandecimiento_n_rel" ]. engrapar_v := v_trans_np_le & [ STEM < "engrapar" >, SYNSEM.LKEYS.KEYREL.PRED "_engrapar_v_rel" ]. engrasador_n1 := n_intr_count_le & [ STEM < "engrasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_engrasador_n_rel" ] ]. engrasar_v := v_trans_np_le & [ STEM < "engrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_engrasar_v_rel" ]. engrase_n1 := n_trans_le & [ STEM < "engrase" >, SYNSEM.LKEYS.KEYREL.PRED "_engrase_n_rel" ]. engreimiento_n1 := n_trans_le & [ STEM < "engreimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_engreimiento_n_rel" ]. engreã­r_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "engreír" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_engreír_v_rel" ] ] ]. engreã­r_v2 := v_pron_intr_mrkd_np_le & [ STEM < "engreír" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_engreír_v_rel" ] ] ]. engreído_a1 := a_qual_intr_ser_le & [ STEM < "engreído" >, SYNSEM.LKEYS.KEYREL.PRED "_engreído_a_rel" ]. engrosamiento_n1 := n_event-result_intr_le & [ STEM < "engrosamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_engrosamiento_n_rel" ]. engrosar_v := v_trans_np_le & [ STEM < "engrosar" >, SYNSEM.LKEYS.KEYREL.PRED "_engrosar_v_rel" ]. engrudo_n1 := n_intr_mass_le & [ STEM < "engrudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_engrudo_n_rel" ] ]. engullir_v := v_trans_np_le & [ STEM < "engullir" >, SYNSEM.LKEYS.KEYREL.PRED "_engullir_v_rel" ]. enhebrar_v := v_trans_np_le & [ STEM < "enhebrar" >, SYNSEM.LKEYS.KEYREL.PRED "_enhebrar_v_rel" ]. enhilar_v := v_trans_np_le & [ STEM < "enhilar" >, SYNSEM.LKEYS.KEYREL.PRED "_enhilar_v_rel" ]. enhorabuena_n1 := n_intr_count_le & [ STEM < "enhorabuena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enhorabuena_n_rel" ] ]. enigma_n1 := n_intr_count_le & [ STEM < "enigma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enigma_n_rel" ] ]. enigmáticamente_x1 := av_i_spr_le & [ STEM < "enigmáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enigmáticamente_x_rel" ]. enigmático_a1 := a_qual_intr_scopal_le & [ STEM < "enigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_enigmático_a_rel" ]. enjambre_n1 := n_intr_count_le & [ STEM < "enjambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_enjambre_n_rel" ] ]. enjaretar_v := v_ditrans*_le & [ STEM < "enjaretar" >, SYNSEM.LKEYS.KEYREL.PRED "_enjaretar_v_rel" ]. enjaular_v := v_trans_np_le & [ STEM < "enjaular" >, SYNSEM.LKEYS.KEYREL.PRED "_enjaular_v_rel" ]. enjuagadora_n1 := n_intr_count_le & [ STEM < "enjuagadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enjuagadora_n_rel" ] ]. enjuague_n1 := n_trans_le & [ STEM < "enjuague" >, SYNSEM.LKEYS.KEYREL.PRED "_enjuague_n_rel" ]. enjugador_n1 := n_intr_count_le & [ STEM < "enjugador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enjugador_n_rel" ] ]. enjuiciamiento_n1 := n_trans_le & [ STEM < "enjuiciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enjuiciamiento_n_rel" ]. enjuiciar_v := v_trans_np_le & [ STEM < "enjuiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_enjuiciar_v_rel" ]. enlace_n1 := n_trans_le & [ STEM < "enlace" >, SYNSEM.LKEYS.KEYREL.PRED "_enlace_n_rel" ]. enladrillado_n1 := n_trans_le & [ STEM < "enladrillado" >, SYNSEM.LKEYS.KEYREL.PRED "_enladrillado_n_rel" ]. enlatado_n1 := n_trans_le & [ STEM < "enlatado" >, SYNSEM.LKEYS.KEYREL.PRED "_enlatado_n_rel" ]. enlatar_v := v_trans_np_le & [ STEM < "enlatar" >, SYNSEM.LKEYS.KEYREL.PRED "_enlatar_v_rel" ]. enlazable_a1 := a_rel_prd_le & [ STEM < "enlazable" >, SYNSEM.LKEYS.KEYREL.PRED "_enlazable_a_rel" ]. enlazador_n1 := n_intr_count_le & [ STEM < "enlazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enlazador_n_rel" ] ]. enlazamiento_n1 := n_trans_le & [ STEM < "enlazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enlazamiento_n_rel" ]. enlazar_v1 := v_trans_np_mrkd_np*_sym_le & [ STEM < "enlazar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_enlazar_v_rel" ] ]. enlazar_v2 := v_intr_mrkd_np*_le & [ STEM < "enlazar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_enlazar_v_rel" ] ]. enlechar_v := v_trans_np_le & [ STEM < "enlechar" >, SYNSEM.LKEYS.KEYREL.PRED "_enlechar_v_rel" ]. enlejiar_v := v_trans_np_le & [ STEM < "enlejiar" >, SYNSEM.LKEYS.KEYREL.PRED "_enlejiar_v_rel" ]. enlodar_v := v_trans_np_caus_le & [ STEM < "enlodar" >, SYNSEM.LKEYS.KEYREL.PRED "_enlodar_v_rel" ]. enloquecedor_a1 := a_qual_intr_scopal_le & [ STEM < "enloquecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_enloquecedor_a_rel" ]. enloquecer_v1 := v_intr_io*_le & [ STEM < "enloquecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_enloquecer_v_rel" ] ]. enloquecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enloquecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enloquecer_v_rel" ]. enloquecimiento_n1 := n_event-result_intr_le & [ STEM < "enloquecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enloquecimiento_n_rel" ]. enlosado_n1 := n_trans_le & [ STEM < "enlosado" >, SYNSEM.LKEYS.KEYREL.PRED "_enlosado_n_rel" ]. enlosar_v := v_trans_np_le & [ STEM < "enlosar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_enlosar_v_rel" ] ]. enlucido_n1 := n_trans_le & [ STEM < "enlucido" >, SYNSEM.LKEYS.KEYREL.PRED "_enlucido_n_rel" ]. enmacetar_v := v_trans_np_le & [ STEM < "enmacetar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmacetar_v_rel" ]. enmaderado_n1 := n_intr_mass_le & [ STEM < "enmaderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enmaderado_n_rel" ] ]. enmarañadamente_x1 := av_i_spr_le & [ STEM < "enmarañadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enmarañadamente_x_rel" ]. enmarañar_v := v_trans_np_le & [ STEM < "enmarañar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmarañar_v_rel" ]. enmarañar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "enmarañar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmarañar_v_rel" ]. enmarañar_v2 := v_trans_np_caus_le & [ STEM < "enmarañar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmarañar_v_rel" ]. enmarcante_a1 := a_rel_nonprd_intr_le & [ STEM < "enmarcante" >, SYNSEM.LKEYS.KEYREL.PRED "_enmarcante_a_rel" ]. enmarcar_v1 := v_pron_unacc_lcomp_loc_le & [ STEM < "enmarcar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro_sem, PRED "_enmarcar_v_rel" ] ]. enmarcar_v2 := v_trans_np_le & [ STEM < "enmarcar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_enmarcar_v_rel" ] ]. enmascaramiento_n1 := n_trans_le & [ STEM < "enmascaramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enmascaramiento_n_rel" ]. enmascarar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "enmascarar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmascarar_v_rel" ]. enmascarar_v2 := v_trans_np_caus_le & [ STEM < "enmascarar" >, SYNSEM.LKEYS.KEYREL.PRED "_enmascarar_v_rel" ]. enmedio_x1 := av_i_spr_le & [ STEM < "enmedio" >, SYNSEM.LKEYS.KEYREL.PRED "_enmedio_x_rel" ]. enmienda_n1 := n_trans_le & [ STEM < "enmienda" >, SYNSEM.LKEYS.KEYREL.PRED "_enmienda_n_rel" ]. enmohecimiento_n1 := n_trans_le & [ STEM < "enmohecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enmohecimiento_n_rel" ]. enmoldador_n1 := n_intr_count_le & [ STEM < "enmoldador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enmoldador_n_rel" ] ]. enmudecer_v := v_unacc_perf_le & [ STEM < "enmudecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enmudecer_v_rel" ]. ennegrecer_v := v_trans_np_caus_int_le & [ STEM < "ennegrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ennegrecer_v_rel" ]. ennegrecimiento_n1 := n_event-result_intr_le & [ STEM < "ennegrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ennegrecimiento_n_rel" ]. ennoblecer_v1 := v_intr_io*_le & [ STEM < "ennoblecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ennoblecer_v_rel" ]. ennoblecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ennoblecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ennoblecer_v_rel" ]. ennoblecer_v3 := v_trans_np*_le & [ STEM < "ennoblecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_ennoblecer_v_rel" ] ]. ennoblecimiento_n1 := n_trans_le & [ STEM < "ennoblecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ennoblecimiento_n_rel" ]. enoftalmía_n1 := n_intr_uncount_le & [ STEM < "enoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enoftalmía_n_rel" ] ]. enojadizo_a1 := a_qual_intr_ser_le & [ STEM < "enojadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_enojadizo_a_rel" ]. enojar_v1 := v_intr_io*_le & [ STEM < "enojar" >, SYNSEM.LKEYS.KEYREL.PRED "_enojar_v_rel" ]. enojar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enojar" >, SYNSEM.LKEYS.KEYREL.PRED "_enojar_v_rel" ]. enojar_v3 := v_trans_np_caus_le & [ STEM < "enojar" >, SYNSEM.LKEYS.KEYREL.PRED "_enojar_v_rel" ]. enojo_n1 := n_trans_le & [ STEM < "enojo" >, SYNSEM.LKEYS.KEYREL.PRED "_enojo_n_rel" ]. enojoso_a1 := a_qual_intr_ser_le & [ STEM < "enojoso" >, SYNSEM.LKEYS.KEYREL.PRED "_enojoso_a_rel" ]. enología_n1 := n_intr_uncount_pl_le & [ STEM < "enología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enología_n_rel" ] ]. enorgullecer_v1 := v_intr_io*_le & [ STEM < "enorgullecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enorgullecer_v_rel" ]. enorgullecer_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "enorgullecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_enorgullecer_v_rel" ] ]. enorgullecer_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "enorgullecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_enorgullecer_v_rel" ] ]. enorgullecer_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enorgullecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enorgullecer_v_rel" ]. enorme_a1 := a_qual_intr_scopal_le & [ STEM < "enorme" >, SYNSEM.LKEYS.KEYREL.PRED "_enorme_a_rel" ]. enormemente_x1 := av_i_le & [ STEM < "enormemente" >, SYNSEM.LKEYS.KEYREL.PRED "_enormemente_x_rel" ]. enormidad_n1 := n_intr_count_le & [ STEM < "enormidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enormidad_n_rel" ] ]. enostosis_n1 := n_intr_uncount_le & [ STEM < "enostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enostosis_n_rel" ] ]. enquistamiento_n1 := n_trans_le & [ STEM < "enquistamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enquistamiento_n_rel" ]. enquistar_v := v_pron_unacc_perf_le & [ STEM < "enquistar" >, SYNSEM.LKEYS.KEYREL.PRED "_enquistar_v_rel" ]. enrabiar_v1 := v_intr_io*_le & [ STEM < "enrabiar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrabiar_v_rel" ]. enrabiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enrabiar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrabiar_v_rel" ]. enrabiar_v3 := v_trans_np_caus_le & [ STEM < "enrabiar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrabiar_v_rel" ]. enraizamiento_n1 := n_event-result_intr_le & [ STEM < "enraizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enraizamiento_n_rel" ]. enraizar_v := v_unacc_lcomp_loc*_le & [ STEM < "enraizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_plant_pro_sem, PRED "_enraizar_v_rel" ] ]. enramada_n1 := n_intr_count_le & [ STEM < "enramada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_enramada_n_rel" ] ]. enrarecer_v := v_trans_np_caus_le & [ STEM < "enrarecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_enrarecer_v_rel" ] ]. enrarecimiento_n1 := n_trans_le & [ STEM < "enrarecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enrarecimiento_n_rel" ]. enrasado_n1 := n_intr_count_le & [ STEM < "enrasado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enrasado_n_rel" ] ]. enrasar_v := v_trans_np_caus_le & [ STEM < "enrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrasar_v_rel" ]. enrase_n1 := n_trans_le & [ STEM < "enrase" >, SYNSEM.LKEYS.KEYREL.PRED "_enrase_n_rel" ]. enredadera_n1 := n_intr_count_le & [ STEM < "enredadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_enredadera_n_rel" ] ]. enredar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "enredar" >, SYNSEM.LKEYS.KEYREL.PRED "_enredar_v_rel" ]. enredar_v2 := v_trans_np_caus_le & [ STEM < "enredar" >, SYNSEM.LKEYS.KEYREL.PRED "_enredar_v_rel" ]. enredo_n1 := n_intr_count_le & [ STEM < "enredo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_enredo_n_rel" ] ]. enrejado_n1 := n_intr_count_le & [ STEM < "enrejado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enrejado_n_rel" ] ]. enrejilladamente_x1 := av_i_spr_le & [ STEM < "enrejilladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enrejilladamente_x_rel" ]. enriamiento_n1 := n_trans_le & [ STEM < "enriamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enriamiento_n_rel" ]. enriquecedor_a1 := a_qual_intr_scopal_le & [ STEM < "enriquecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_enriquecedor_a_rel" ]. enriquecer_v := v_trans_np_caus_le & [ STEM < "enriquecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enriquecer_v_rel" ]. enriquecimiento_n1 := n_trans_le & [ STEM < "enriquecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enriquecimiento_n_rel" ]. enrizar_v := v_trans_np_caus_le & [ STEM < "enrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrizar_v_rel" ]. enrojecer_v := v_trans_np_caus_perf_le & [ STEM < "enrojecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enrojecer_v_rel" ]. enrojecimiento_n1 := n_trans_le & [ STEM < "enrojecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enrojecimiento_n_rel" ]. enrolar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "enrolar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enrolar_v_rel" ] ] ]. enrolar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "enrolar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enrolar_v_rel" ] ] ]. enrolar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "enrolar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enrolar_v_rel" ] ] ]. enrollable_a1 := a_rel_prd_le & [ STEM < "enrollable" >, SYNSEM.LKEYS.KEYREL.PRED "_enrollable_a_rel" ]. enrollador_n1 := n_intr_count_le & [ STEM < "enrollador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_enrollador_n_rel" ] ]. enrollamiento_n1 := n_trans_le & [ STEM < "enrollamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enrollamiento_n_rel" ]. enrollar_v1 := v_intr_io*_le & [ STEM < "enrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrollar_v_rel" ]. enrollar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrollar_v_rel" ]. enrollar_v3 := v_trans_np_caus_le & [ STEM < "enrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_enrollar_v_rel" ]. enroque_n1 := n_intr_count_le & [ STEM < "enroque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enroque_n_rel" ] ]. enroscado_n1 := n_trans_le & [ STEM < "enroscado" >, SYNSEM.LKEYS.KEYREL.PRED "_enroscado_n_rel" ]. enroscar_v := v_trans_np_caus_le & [ STEM < "enroscar" >, SYNSEM.LKEYS.KEYREL.PRED "_enroscar_v_rel" ]. ensacadora_n1 := n_intr_count_le & [ STEM < "ensacadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensacadora_n_rel" ] ]. ensacar_v := v_trans_np_le & [ STEM < "ensacar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensacar_v_rel" ]. ensaimada_n1 := n_intr_count_le & [ STEM < "ensaimada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensaimada_n_rel" ] ]. ensalada_n1 := n_intr_count_le & [ STEM < "ensalada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensalada_n_rel" ] ]. ensaladera_n1 := n_intr_count_le & [ STEM < "ensaladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensaladera_n_rel" ] ]. ensaladilla_n1 := n_intr_count_le & [ STEM < "ensaladilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensaladilla_n_rel" ] ]. ensalzamiento_n1 := n_trans_le & [ STEM < "ensalzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ensalzamiento_n_rel" ]. ensalzar_v1 := v_trans_cp_prop_fin_le & [ STEM < "ensalzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ensalzar_v_rel" ] ]. ensalzar_v2 := v_trans_np_le & [ STEM < "ensalzar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensalzar_v_rel" ]. ensamblado_n1 := n_trans_le & [ STEM < "ensamblado" >, SYNSEM.LKEYS.KEYREL.PRED "_ensamblado_n_rel" ]. ensamblador_a1 := a_rel_nonprd_intr_le & [ STEM < "ensamblador" >, SYNSEM.LKEYS.KEYREL.PRED "_ensamblador_a_rel" ]. ensamblador_n1 := n_intr_count_le & [ STEM < "ensamblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ensamblador_n_rel" ] ]. ensambladura_n1 := n_trans_le & [ STEM < "ensambladura" >, SYNSEM.LKEYS.KEYREL.PRED "_ensambladura_n_rel" ]. ensamblaje_n1 := n_trans_le & [ STEM < "ensamblaje" >, SYNSEM.LKEYS.KEYREL.PRED "_ensamblaje_n_rel" ]. ensamblamiento_n1 := n_trans_le & [ STEM < "ensamblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ensamblamiento_n_rel" ]. ensamblar_v := v_trans_np_mrkd_np*_le & [ STEM < "ensamblar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_ensamblar_v_rel" ] ]. ensamble_n1 := n_trans_le & [ STEM < "ensamble" >, SYNSEM.LKEYS.KEYREL.PRED "_ensamble_n_rel" ]. ensanchador_n1 := n_intr_count_le & [ STEM < "ensanchador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensanchador_n_rel" ] ]. ensanchamiento_n1 := n_event-result_intr_le & [ STEM < "ensanchamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ensanchamiento_n_rel" ]. ensanchar_v := v_trans_np_caus_le & [ STEM < "ensanchar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensanchar_v_rel" ]. ensanche_n1 := n_trans_le & [ STEM < "ensanche" >, SYNSEM.LKEYS.KEYREL.PRED "_ensanche_n_rel" ]. ensangrentar_v := v_trans_np_caus_le & [ STEM < "ensangrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensangrentar_v_rel" ]. ensartar_v := v_trans_np_le & [ STEM < "ensartar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_sem, PRED "_ensartar_v_rel" ] ]. ensayador_n1 := n_intr_count_le & [ STEM < "ensayador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensayador_n_rel" ] ]. ensayista_n1 := n_intr_count_le & [ STEM < "ensayista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ensayista_n_rel" ] ]. ensayo_n1 := n_intr_count_le & [ STEM < "ensayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ensayo_n_rel" ] ]. ensayístico_a1 := a_rel_nonprd_intr_le & [ STEM < "ensayístico" >, SYNSEM.LKEYS.KEYREL.PRED "_ensayístico_a_rel" ]. ensañamiento_n1 := n_result_intr_ppcomp_le & [ STEM < "ensañamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_ensañamiento_n_rel" ] ]. ensañar_v := v_pron_intr_mrkd_np*_le & [ STEM < "ensañar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_ensañar_v_rel" ] ]. enseguida_x1 := av_i_le & [ STEM < "enseguida" >, SYNSEM.LKEYS.KEYREL.PRED "_enseguida_x_rel" ]. ensenada_n1 := n_intr_count_le & [ STEM < "ensenada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ensenada_n_rel" ] ]. enseres_n1 := n_intr_count_le & [ STEM < "enseres" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enseres_n_rel" ] ]. enseña_n1 := n_intr_count_le & [ STEM < "enseña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enseña_n_rel" ] ]. enseñante_n1 := n_intr_count_le & [ STEM < "enseñante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enseñante_n_rel" ] ]. enseñanza_n1 := n_trans_le & [ STEM < "enseñanza" >, SYNSEM.LKEYS.KEYREL.PRED "_enseñanza_n_rel" ]. enseñar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "enseñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_sem_soc, PRED "_enseñar_v_rel" ] ]. enseñar_v2 := v_ditrans*_le & [ STEM < "enseñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_sem_soc, PRED "_enseñar_v_rel" ] ]. enseñar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "enseñar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT abs_ani_hum_pot_sem_soc, ARG2.SORT ani_hum_pot_soc, PRED "_enseñar_v_rel" ] ] ]. enseñar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "enseñar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT abs_ani_hum_pot_sem_soc, ARG2.SORT ani_hum_pot_soc, PRED "_enseñar_v_rel" ] ] ]. enseñorear_v := v_pron_intr_mrkd_np_le & [ STEM < "enseñorear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_enseñorear_v_rel" ] ]. ensilaje_n1 := n_intr_count_le & [ STEM < "ensilaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensilaje_n_rel" ] ]. ensilladura_n1 := n_intr_count_le & [ STEM < "ensilladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ensilladura_n_rel" ] ]. ensillar_v := v_trans_np_le & [ STEM < "ensillar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensillar_v_rel" ]. ensimismamiento_n1 := n_result_intr_le & [ STEM < "ensimismamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ensimismamiento_n_rel" ]. ensimismar_v := v_pron_intr_mrkd_np*_le & [ STEM < "ensimismar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL.PRED "_ensimismar_v_rel" ] ]. ensombrecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "ensombrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ensombrecer_v_rel" ]. ensombrecer_v2 := v_trans_np_caus_le & [ STEM < "ensombrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ensombrecer_v_rel" ]. ensordecedor_a1 := a_qual_intr_scopal_le & [ STEM < "ensordecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_ensordecedor_a_rel" ]. ensordecer_v := v_trans_np_caus_int_le & [ STEM < "ensordecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ensordecer_v_rel" ]. ensoñación_n1 := n_result_intr_le & [ STEM < "ensoñación" >, SYNSEM.LKEYS.KEYREL.PRED "_ensoñación_n_rel" ]. ensuciamiento_n1 := n_trans_le & [ STEM < "ensuciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ensuciamiento_n_rel" ]. ensuciar_v := v_trans_np_caus_le & [ STEM < "ensuciar" >, SYNSEM.LKEYS.KEYREL.PRED "_ensuciar_v_rel" ]. ensueño_n1 := n_intr_mass-or-count_le & [ STEM < "ensueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ensueño_n_rel" ] ]. entablado_n1 := n_intr_count_le & [ STEM < "entablado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entablado_n_rel" ] ]. entablamento_n1 := n_intr_count_le & [ STEM < "entablamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entablamento_n_rel" ] ]. entablamiento_n1 := n_trans_le & [ STEM < "entablamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entablamiento_n_rel" ]. entablar_v := v_trans_np_le & [ STEM < "entablar" >, SYNSEM.LKEYS.KEYREL.PRED "_entablar_v_rel" ]. entablillar_v := v_ditrans*_le & [ STEM < "entablillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_entablillar_v_rel" ] ]. entallador_n1 := n_subj-nom_le & [ STEM < "entallador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entallador_n_rel" ] ]. entalladura_n1 := n_intr_count_le & [ STEM < "entalladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entalladura_n_rel" ] ]. entallamiento_n1 := n_trans_le & [ STEM < "entallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entallamiento_n_rel" ]. entalle_n1 := n_intr_count_le & [ STEM < "entalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_entalle_n_rel" ] ]. entalpía_n1 := n_intr_uncount_le & [ STEM < "entalpía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entalpía_n_rel" ] ]. entarimado_n1 := n_trans_le & [ STEM < "entarimado" >, SYNSEM.LKEYS.KEYREL.PRED "_entarimado_n_rel" ]. entarimador_n1 := n_intr_count_le & [ STEM < "entarimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entarimador_n_rel" ] ]. entarimador_n2 := n_subj-nom_le & [ STEM < "entarimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entarimador_n_rel" ] ]. entarimar_v := v_trans_np_le & [ STEM < "entarimar" >, SYNSEM.LKEYS.KEYREL.PRED "_entarimar_v_rel" ]. ente_n1 := n_intr_count_le & [ STEM < "ente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ente_n_rel" ] ]. entelequia_n1 := n_intr_count_le & [ STEM < "entelequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entelequia_n_rel" ] ]. entender_n1 := n_intr_uncount_le & [ STEM < "entender" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entender_n_rel" ] ]. entender_v1 := v_intr_mrkd_np_le & [ STEM < "entender" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL.PRED "_entender_v_rel" ] ]. entender_v2 := v_trans_cp_prop_fin_le & [ STEM < "entender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_entender_v_rel" ] ]. entender_v3 := v_trans_np_le & [ STEM < "entender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_entender_v_rel" ] ]. entendible_a1 := a_qual_intr_scopal_le & [ STEM < "entendible" >, SYNSEM.LKEYS.KEYREL.PRED "_entendible_a_rel" ]. entendido_n1 := n_intr_count_le & [ STEM < "entendido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entendido_n_rel" ] ]. entendimiento_n1 := n_intr_mass_le & [ STEM < "entendimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entendimiento_n_rel" ] ]. entente_n1 := n_intr_uncount_le & [ STEM < "entente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entente_n_rel" ] ]. enteramente_x1 := av_deg_le & [ STEM < "enteramente" >, SYNSEM.LKEYS.KEYREL.PRED "_enteramente_x_rel" ]. enterar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "enterar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_enterar_v_rel" ] ] ]. enterar_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "enterar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_enterar_v_rel" ] ] ]. entereza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "entereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entereza_n_rel" ] ]. enteritis_n1 := n_intr_uncount_le & [ STEM < "enteritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enteritis_n_rel" ] ]. enterizo_a1 := a_rel_nonprd_intr_le & [ STEM < "enterizo" >, SYNSEM.LKEYS.KEYREL.PRED "_enterizo_a_rel" ]. enternecedor_a1 := a_qual_intr_scopal_le & [ STEM < "enternecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_enternecedor_a_rel" ]. enternecer_v1 := v_intr_io*_le & [ STEM < "enternecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enternecer_v_rel" ]. enternecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "enternecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enternecer_v_rel" ]. enternecer_v3 := v_trans_np_caus_le & [ STEM < "enternecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum_mat_soc, PRED "_enternecer_v_rel" ] ]. entero_a1 := a_qual_intr_estar_le & [ STEM < "entero" >, SYNSEM.LKEYS.KEYREL.PRED "_entero_a_rel" ]. entero_n1 := n_intr_count_le & [ STEM < "entero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entero_n_rel" ] ]. enterocito_n1 := n_intr_count_le & [ STEM < "enterocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enterocito_n_rel" ] ]. enteropatía_n1 := n_intr_uncount_pl_le & [ STEM < "enteropatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enteropatía_n_rel" ] ]. enterrador_n1 := n_subj-nom_le & [ STEM < "enterrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enterrador_n_rel" ] ]. enterramiento_n1 := n_trans_le & [ STEM < "enterramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enterramiento_n_rel" ]. enterrar_v1 := v_trans_np_le & [ STEM < "enterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_enterrar_v_rel" ]. enterrar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "enterrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enterrar_v_rel" ] ] ]. entibación_n1 := n_trans_le & [ STEM < "entibación" >, SYNSEM.LKEYS.KEYREL.PRED "_entibación_n_rel" ]. entidad_n1 := n_intr_count_le & [ STEM < "entidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_entidad_n_rel" ] ]. entierro_n1 := n_intr_count_le & [ STEM < "entierro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entierro_n_rel" ] ]. entimema_n1 := n_intr_count_le & [ STEM < "entimema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entimema_n_rel" ] ]. entintadamente_x1 := av_i_spr_le & [ STEM < "entintadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_entintadamente_x_rel" ]. entintar_v := v_trans_np_le & [ STEM < "entintar" >, SYNSEM.LKEYS.KEYREL.PRED "_entintar_v_rel" ]. entoftalmía_n1 := n_intr_uncount_le & [ STEM < "entoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entoftalmía_n_rel" ] ]. entoldado_n1 := n_trans_le & [ STEM < "entoldado" >, SYNSEM.LKEYS.KEYREL.PRED "_entoldado_n_rel" ]. entomología_n1 := n_intr_uncount_pl_le & [ STEM < "entomología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entomología_n_rel" ] ]. entomólogo_n1 := n_intr_count_le & [ STEM < "entomólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entomólogo_n_rel" ] ]. entonación_n1 := n_trans_le & [ STEM < "entonación" >, SYNSEM.LKEYS.KEYREL.PRED "_entonación_n_rel" ]. entonar_v1 := v_intr_io*_le & [ STEM < "entonar" >, SYNSEM.LKEYS.KEYREL.PRED "_entonar_v_rel" ]. entonar_v2 := v_intr_mrkd_np*_le & [ STEM < "entonar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_entonar_v_rel" ] ]. entonar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "entonar" >, SYNSEM.LKEYS.KEYREL.PRED "_entonar_v_rel" ]. entonar_v4 := v_trans_np_caus_le & [ STEM < "entonar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_entonar_v_rel" ] ]. entonar_v5 := v_trans_np_le & [ STEM < "entonar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_entonar_v_rel" ] ]. entonces_n1 := av_deic_tmp_le & [ STEM < "entonces" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_entonces_x_rel" ]. entonces_sc := sc_prop_fin_le & [ STEM < "entonces" >, SYNSEM.LKEYS.KEYREL.PRED "_entonces_x_subord_rel" ]. entorchado_n1 := n_intr_count_le & [ STEM < "entorchado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entorchado_n_rel" ] ]. entorno_n1 := n_intr_count_le & [ STEM < "entorno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_entorno_n_rel" ] ]. entorpecer_v1 := v_intr_io*_le & [ STEM < "entorpecer" >, SYNSEM.LKEYS.KEYREL.PRED "_entorpecer_v_rel" ]. entorpecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "entorpecer" >, SYNSEM.LKEYS.KEYREL.PRED "_entorpecer_v_rel" ]. entorpecer_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "entorpecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_entorpecer_v_rel" ] ]. entorpecer_v4 := v_trans_np_le & [ STEM < "entorpecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_entorpecer_v_rel" ] ]. entorpecimiento_n1 := n_trans_le & [ STEM < "entorpecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entorpecimiento_n_rel" ]. entrada_n1 := n_intr_count_le & [ STEM < "entrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_entrada_n_rel" ] ]. entramado_n1 := n_intr_count_le & [ STEM < "entramado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entramado_n_rel" ] ]. entrante_a1 := a_rel_nonprd_intr_le & [ STEM < "entrante" >, SYNSEM.LKEYS.KEYREL.PRED "_entrante_a_rel" ]. entrante_n1 := n_intr_count_le & [ STEM < "entrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_entrante_n_rel" ] ]. entrar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "entrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_entrar_v_rel" ] ] ]. entrar_v3 := v_trans_np_lcomp_loc*_le & [ STEM < "entrar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrar_v_rel" ]. entrar_v4 := v_unacc_lcomp_dir*_perf_le & [ STEM < "entrar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrar_v_rel" ]. entrar_v5 := v_unacc_lcomp_loc*_perf_le & [ STEM < "entrar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrar_v_rel" ]. entraña_n1 := n_intr_count_le & [ STEM < "entraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entraña_n_rel" ] ]. entrañable_a1 := a_qual_intr_scopal_le & [ STEM < "entrañable" >, SYNSEM.LKEYS.KEYREL.PRED "_entrañable_a_rel" ]. entrañablemente_x1 := av_i_spr_le & [ STEM < "entrañablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_entrañablemente_x_rel" ]. entrañar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "entrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrañar_v_rel" ]. entrañar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "entrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrañar_v_rel" ]. entrañar_v3 := v_trans_cp_prop_fin_le & [ STEM < "entrañar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_entrañar_v_rel" ] ]. entrañar_v4 := v_trans_np_le & [ STEM < "entrañar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_entrañar_v_rel" ] ]. entre_la_espada_y_la_pared_x1 := av_i_le & [ STEM < "entre_la_espada_y_la_pared" >, SYNSEM.LKEYS.KEYREL.PRED "_entre_la_espada_y_la_pared_x_rel" ]. entre_la_vida_y_la_muerte_x1 := av_i_le & [ STEM < "entre_la_vida_y_la_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_entre_la_vida_y_la_muerte_x_rel" ]. entre_p_nmod := p_nmod_le & [ STEM < "entre" >, SYNSEM.LKEYS.KEYREL.PRED _entre_p_rel ]. entre_p_temp_vmod := p_temp_vmod_le & [ STEM < "entre" >, SYNSEM.LKEYS.KEYREL.PRED _entre_p_temp_rel ]. entre_p_vmod := p_vmod_le & [ STEM < "entre" >, SYNSEM.LKEYS.KEYREL.PRED _entre_p_rel ]. entre_paréntesis_x1 := av_s_spr_le & [ STEM < "entre_paréntesis" >, SYNSEM.LKEYS.KEYREL.PRED "_entre_paréntesis_x_rel" ]. entre_pecho_y_espalda_x1 := av_i_le & [ STEM < "entre_pecho_y_espalda" >, SYNSEM.LKEYS.KEYREL.PRED "_entre_pecho_y_espalda_x_rel" ]. entre_tanto_que_sc := sc_prop_fin_le & [ STEM < "entre_tanto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_entre_tanto_que_x_subord_rel" ]. entreabrir_v := v_trans_np_caus_le & [ STEM < "entreabrir" >, SYNSEM.LKEYS.KEYREL.PRED "_entreabrir_v_rel" ]. entreacto_n1 := n_intr_count_le & [ STEM < "entreacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entreacto_n_rel" ] ]. entrecalle_n1 := n_intr_count_le & [ STEM < "entrecalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_entrecalle_n_rel" ] ]. entrecancelas_n1 := n_intr_count_le & [ STEM < "entrecancelas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entrecancelas_n_rel" ] ]. entrecejo_n1 := n_ppcomp_count_le & [ STEM < "entrecejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_entrecejo_n_rel" ] ]. entrecortadamente_x1 := av_i_spr_le & [ STEM < "entrecortadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_entrecortadamente_x_rel" ]. entrecruzadamente_x1 := av_i_spr_le & [ STEM < "entrecruzadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_entrecruzadamente_x_rel" ]. entrecruzar_v2 := v_trans_np_le & [ STEM < "entrecruzar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrecruzar_v_rel" ]. entrecubierta_n1 := n_intr_count_le & [ STEM < "entrecubierta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_entrecubierta_n_rel" ] ]. entreeje_n1 := n_intr_count_le & [ STEM < "entreeje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entreeje_n_rel" ] ]. entrefilete_n1 := n_intr_count_le & [ STEM < "entrefilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entrefilete_n_rel" ] ]. entrega_n1 := n_trans_le & [ STEM < "entrega" >, SYNSEM.LKEYS.KEYREL.PRED "_entrega_n_rel" ]. entregable_a1 := a_rel_prd_le & [ STEM < "entregable" >, SYNSEM.LKEYS.KEYREL.PRED "_entregable_a_rel" ]. entregar_v1 := v_ditrans*_le & [ STEM < "entregar" >, SYNSEM.LKEYS.KEYREL.PRED "_entregar_v_rel" ]. entregar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "entregar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_entregar_v_rel" ] ] ]. entrelazamiento_n1 := n_trans_le & [ STEM < "entrelazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entrelazamiento_n_rel" ]. entrelazar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "entrelazar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_entrelazar_v_rel" ] ]. entremezclar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "entremezclar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_entremezclar_v_rel" ] ]. entremés_n1 := n_intr_count_le & [ STEM < "entremés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entremés_n_rel" ] ]. entrenador_n1 := n_subj-nom_le & [ STEM < "entrenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entrenador_n_rel" ] ]. entrenamiento_n1 := n_trans_le & [ STEM < "entrenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entrenamiento_n_rel" ]. entrenar_v := v_trans_np_caus_le & [ STEM < "entrenar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrenar_v_rel" ]. entrepaño_n1 := n_intr_count_le & [ STEM < "entrepaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entrepaño_n_rel" ] ]. entrepierna_n1 := n_ppcomp_count_le & [ STEM < "entrepierna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_entrepierna_n_rel" ] ]. entrepuente_n1 := n_intr_count_le & [ STEM < "entrepuente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entrepuente_n_rel" ] ]. entresaca_n1 := n_intr_count_le & [ STEM < "entresaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_entresaca_n_rel" ] ]. entresijo_n1 := n_intr_uncount_pl_le & [ STEM < "entresijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entresijo_n_rel" ] ]. entresuelo_n1 := n_intr_count_le & [ STEM < "entresuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entresuelo_n_rel" ] ]. entretanto_x1 := av_i_le & [ STEM < "entretanto" >, SYNSEM.LKEYS.KEYREL.PRED "_entretanto_x_rel" ]. entretejedura_n1 := n_intr_count_le & [ STEM < "entretejedura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entretejedura_n_rel" ] ]. entretejer_v := v_trans_np_mrkd_np*_le & [ STEM < "entretejer" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_entretejer_v_rel" ] ]. entretela_n1 := n_intr_count_le & [ STEM < "entretela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entretela_n_rel" ] ]. entretención_n1 := n_intr_mass-or-count_le & [ STEM < "entretención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entretención_n_rel" ] ]. entretener_v1 := v_intr_io*_le & [ STEM < "entretener" >, SYNSEM.LKEYS.KEYREL.PRED "_entretener_v_rel" ]. entretener_v2 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "entretener" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_entretener_v_rel" ] ]. entretener_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "entretener" >, SYNSEM.LKEYS.KEYREL.PRED "_entretener_v_rel" ]. entretenibilidad_n1 := n_intr_uncount_le & [ STEM < "entretenibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entretenibilidad_n_rel" ] ]. entretenimiento_n1 := n_trans_le & [ STEM < "entretenimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_entretenimiento_n_rel" ]. entretiempo_n1 := n_intr_count_le & [ STEM < "entretiempo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_entretiempo_n_rel" ] ]. entrever_v1 := v_trans_cp_prop_fin_le & [ STEM < "entrever" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_entrever_v_rel" ] ]. entrever_v2 := v_trans_np_le & [ STEM < "entrever" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_entrever_v_rel" ] ]. entrevista_n1 := n_trans_le & [ STEM < "entrevista" >, SYNSEM.LKEYS.KEYREL.PRED "_entrevista_n_rel" ]. entrevistador_n1 := n_subj-nom_le & [ STEM < "entrevistador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entrevistador_n_rel" ] ]. entrevistar_v1 := v_pron_intr_mrkd_np_sym_le & [ STEM < "entrevistar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_entrevistar_v_rel" ] ]. entrevistar_v2 := v_trans_np_le & [ STEM < "entrevistar" >, SYNSEM.LKEYS.KEYREL.PRED "_entrevistar_v_rel" ]. entrevía_n1 := n_intr_count_le & [ STEM < "entrevía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_entrevía_n_rel" ] ]. entristecer_v1 := v_intr_io*_le & [ STEM < "entristecer" >, SYNSEM.LKEYS.KEYREL.PRED "_entristecer_v_rel" ]. entristecer_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "entristecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_entristecer_v_rel" ] ] ]. entristecer_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "entristecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_entristecer_v_rel" ] ] ]. entristecer_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "entristecer" >, SYNSEM.LKEYS.KEYREL.PRED "_entristecer_v_rel" ]. entrometer_v := v_pron_intr_mrkd_np*_le & [ STEM < "entrometer" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_entrometer_v_rel" ] ]. entrometidamente_x1 := av_i_spr_le & [ STEM < "entrometidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_entrometidamente_x_rel" ]. entronización_n1 := n_trans_le & [ STEM < "entronización" >, SYNSEM.LKEYS.KEYREL.PRED "_entronización_n_rel" ]. entronizar_v := v_trans_np_le & [ STEM < "entronizar" >, SYNSEM.LKEYS.KEYREL.PRED "_entronizar_v_rel" ]. entronque_n1 := n_intr_count_le & [ STEM < "entronque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entronque_n_rel" ] ]. entropión_n1 := n_intr_uncount_le & [ STEM < "entropión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entropión_n_rel" ] ]. entropía_n1 := n_intr_uncount_pl_le & [ STEM < "entropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entropía_n_rel" ] ]. entrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "entrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_entrópico_a_rel" ]. entubación_n1 := n_trans_le & [ STEM < "entubación" >, SYNSEM.LKEYS.KEYREL.PRED "_entubación_n_rel" ]. entubar_v := v_trans_np_le & [ STEM < "entubar" >, SYNSEM.LKEYS.KEYREL.PRED "_entubar_v_rel" ]. entuerto_n1 := n_intr_uncount_pl_le & [ STEM < "entuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entuerto_n_rel" ] ]. entumecidamente_x1 := av_i_spr_le & [ STEM < "entumecidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_entumecidamente_x_rel" ]. enturbiamiento_n1 := n_trans_le & [ STEM < "enturbiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_enturbiamiento_n_rel" ]. enturbiar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "enturbiar" >, SYNSEM.LKEYS.KEYREL.PRED "_enturbiar_v_rel" ]. enturbiar_v2 := v_trans_np_le & [ STEM < "enturbiar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_mat, PRED "_enturbiar_v_rel" ] ]. entusiasmar_v1 := v_intr_io*_le & [ STEM < "entusiasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiasmar_v_rel" ]. entusiasmar_v2 := v_pron_intr_le & [ STEM < "entusiasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiasmar_v_rel" ]. entusiasmar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "entusiasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiasmar_v_rel" ]. entusiasmo_n1 := n_intr_mass_le & [ STEM < "entusiasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_entusiasmo_n_rel" ] ]. entusiasta_a1 := a_qual_intr_ser_le & [ STEM < "entusiasta" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiasta_a_rel" ]. entusiasta_n1 := n_intr_count_le & [ STEM < "entusiasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_entusiasta_n_rel" ] ]. entusiásticmente_x1 := av_i_spr_le & [ STEM < "entusiásticmente" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiásticmente_x_rel" ]. entusiástico_a1 := a_qual_intr_ser_le & [ STEM < "entusiástico" >, SYNSEM.LKEYS.KEYREL.PRED "_entusiástico_a_rel" ]. entérico_a1 := a_rel_nonprd_intr_le & [ STEM < "entérico" >, SYNSEM.LKEYS.KEYREL.PRED "_entérico_a_rel" ]. enucleación_n1 := n_intr_uncount_le & [ STEM < "enucleación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enucleación_n_rel" ] ]. enumerable_a1 := a_rel_prd_le & [ STEM < "enumerable" >, SYNSEM.LKEYS.KEYREL.PRED "_enumerable_a_rel" ]. enumeración_n1 := n_trans_le & [ STEM < "enumeración" >, SYNSEM.LKEYS.KEYREL.PRED "_enumeración_n_rel" ]. enumerar_v1 := v_ditrans_cp_semi_ques_le & [ STEM < "enumerar" >, SYNSEM.LKEYS.KEYREL.PRED "_enumerar_v_rel" ]. enumerar_v2 := v_ditrans*_le & [ STEM < "enumerar" >, SYNSEM.LKEYS.KEYREL.PRED "_enumerar_v_rel" ]. enunciación_n1 := n_trans_le & [ STEM < "enunciación" >, SYNSEM.LKEYS.KEYREL.PRED "_enunciación_n_rel" ]. enunciado_n1 := n_intr_count_le & [ STEM < "enunciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enunciado_n_rel" ] ]. enunciar_v1 := v_trans_cp_prop_fin_le & [ STEM < "enunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_enunciar_v_rel" ] ]. enunciar_v2 := v_trans_np_le & [ STEM < "enunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_enunciar_v_rel" ] ]. enunciativo_a1 := a_rel_prd_le & [ STEM < "enunciativo" >, SYNSEM.LKEYS.KEYREL.PRED "_enunciativo_a_rel" ]. envalentonamiento_n1 := n_trans_le & [ STEM < "envalentonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_envalentonamiento_n_rel" ]. envalentonar_v := v_trans_np_caus_le & [ STEM < "envalentonar" >, SYNSEM.LKEYS.KEYREL.PRED "_envalentonar_v_rel" ]. envanecer_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "envanecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_envanecer_v_rel" ] ] ]. envanecer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "envanecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_envanecer_v_rel" ] ] ]. envanecer_v3 := v_trans_np_le & [ STEM < "envanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envanecer_v_rel" ]. envasar_v := v_trans_np_le & [ STEM < "envasar" >, SYNSEM.LKEYS.KEYREL.PRED "_envasar_v_rel" ]. envase_n1 := n_trans_le & [ STEM < "envase" >, SYNSEM.LKEYS.KEYREL.PRED "_envase_n_rel" ]. envejecer_v1 := v_pron_unacc_le & [ STEM < "envejecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envejecer_v_rel" ]. envejecer_v2 := v_trans_np_caus_int_le & [ STEM < "envejecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envejecer_v_rel" ]. envejecimiento_n1 := n_event-result_intr_le & [ STEM < "envejecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_envejecimiento_n_rel" ]. envenenador_n1 := n_subj-nom_le & [ STEM < "envenenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_envenenador_n_rel" ] ]. envenenamiento_n1 := n_trans_le & [ STEM < "envenenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_envenenamiento_n_rel" ]. envenenar_v := v_trans_np_caus_le & [ STEM < "envenenar" >, SYNSEM.LKEYS.KEYREL.PRED "_envenenar_v_rel" ]. enverdecer_v := v_unacc_perf_le & [ STEM < "enverdecer" >, SYNSEM.LKEYS.KEYREL.PRED "_enverdecer_v_rel" ]. envergadura_n1 := n_intr_mass_le & [ STEM < "envergadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_envergadura_n_rel" ] ]. envergar_v := v_trans_np_le & [ STEM < "envergar" >, SYNSEM.LKEYS.KEYREL.PRED "_envergar_v_rel" ]. enviado_n1 := n_intr_count_le & [ STEM < "enviado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enviado_n_rel" ] ]. coger_v1 := v_ditrans_le & [ STEM < "coger" >, SYNSEM.LKEYS.KEYREL.PRED "_coger_v_rel" ]. coger_v2 := v_trans_np_lcomp_dir*_le & [ STEM < "coger" >, SYNSEM.LKEYS.KEYREL.PRED "_coger_v_rel" ]. coger_v3 := v_pron_intr_mrkd_np_le & [ STEM < "coger" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_coger_v_rel" ] ]. enviar_v1 := v_ditrans*_le & [ STEM < "enviar" >, SYNSEM.LKEYS.KEYREL.PRED "_enviar_v_rel" ]. enviar_v2 := v_trans_np_lcomp_dir_le & [ STEM < "enviar" >, SYNSEM.LKEYS.KEYREL.PRED "_enviar_v_rel" ]. enviar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "enviar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_enviar_v_rel" ] ] ]. envidia_n1 := n_intr_mass_le & [ STEM < "envidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_envidia_n_rel" ] ]. envidiable_a1 := a_qual_intr_scopal_le & [ STEM < "envidiable" >, SYNSEM.LKEYS.KEYREL.PRED "_envidiable_a_rel" ]. envidiar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "envidiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_envidiar_v_rel" ] ]. envidiar_v2 := v_ditrans_le & [ STEM < "envidiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_envidiar_v_rel" ] ]. envidioso_a1 := a_qual_intr_ser_le & [ STEM < "envidioso" >, SYNSEM.LKEYS.KEYREL.PRED "_envidioso_a_rel" ]. envigado_n1 := n_intr_count_le & [ STEM < "envigado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_envigado_n_rel" ] ]. envilecer_v1 := v_intr_io*_le & [ STEM < "envilecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envilecer_v_rel" ]. envilecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "envilecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envilecer_v_rel" ]. envilecer_v3 := v_trans_np_caus_le & [ STEM < "envilecer" >, SYNSEM.LKEYS.KEYREL.PRED "_envilecer_v_rel" ]. envilecimiento_n1 := n_trans_le & [ STEM < "envilecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_envilecimiento_n_rel" ]. envite_n1 := n_intr_count_le & [ STEM < "envite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_envite_n_rel" ] ]. enviudar_v := v_unacc_perf_le & [ STEM < "enviudar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_enviudar_v_rel" ] ]. envoltorio_n1 := n_intr_count_le & [ STEM < "envoltorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_envoltorio_n_rel" ] ]. envoltura_n1 := n_intr_count_le & [ STEM < "envoltura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_envoltura_n_rel" ] ]. envolvedero_n1 := n_intr_count_le & [ STEM < "envolvedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_envolvedero_n_rel" ] ]. envolvente_a1 := a_qual_intr_scopal_le & [ STEM < "envolvente" >, SYNSEM.LKEYS.KEYREL.PRED "_envolvente_a_rel" ]. envolvente_n1 := n_intr_count_le & [ STEM < "envolvente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_envolvente_n_rel" ] ]. envolver_v1 := v_trans_np_le & [ STEM < "envolver" >, SYNSEM.LKEYS.KEYREL.PRED "_envolver_v_rel" ]. envés_n1 := n_intr_uncount_le & [ STEM < "envés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_envés_n_rel" ] ]. envío_n1 := n_trans_le & [ STEM < "envío" >, SYNSEM.LKEYS.KEYREL.PRED "_envío_n_rel" ]. enyesar_v := v_trans_np_le & [ STEM < "enyesar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_enyesar_v_rel" ] ]. enzarzar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "enzarzar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_enzarzar_v_rel" ] ]. enzarzar_v2 := v_trans_np_le & [ STEM < "enzarzar" >, SYNSEM.LKEYS.KEYREL.PRED "_enzarzar_v_rel" ]. enzima_n1 := n_intr_count_le & [ STEM < "enzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_enzima_n_rel" ] ]. enzimainmunoanálisis_n1 := n_intr_uncount_le & [ STEM < "enzimainmunoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enzimainmunoanálisis_n_rel" ] ]. enzimología_n1 := n_intr_uncount_le & [ STEM < "enzimología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_enzimología_n_rel" ] ]. enzimático_a1 := a_rel_nonprd_intr_le & [ STEM < "enzimático" >, SYNSEM.LKEYS.KEYREL.PRED "_enzimático_a_rel" ]. enérgicamente_x1 := av_i_spr_le & [ STEM < "enérgicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enérgicamente_x_rel" ]. enérgico_a1 := a_qual_intr_ser_le & [ STEM < "enérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_enérgico_a_rel" ]. enésimamente_x1 := av_i_spr_le & [ STEM < "enésimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_enésimamente_x_rel" ]. enólogo_n1 := n_intr_count_le & [ STEM < "enólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_enólogo_n_rel" ] ]. enómetro_n1 := n_intr_count_le & [ STEM < "enómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_enómetro_n_rel" ] ]. eosina_n1 := n_intr_mass-or-count_le & [ STEM < "eosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_eosina_n_rel" ] ]. eosinofilia_n1 := n_intr_uncount_le & [ STEM < "eosinofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eosinofilia_n_rel" ] ]. eosinopenia_n1 := n_intr_uncount_le & [ STEM < "eosinopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eosinopenia_n_rel" ] ]. eosinófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "eosinófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_eosinófilo_a_rel" ]. eosinófilo_n1 := n_intr_count_le & [ STEM < "eosinófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eosinófilo_n_rel" ] ]. epanalepsis_n1 := n_intr_uncount_le & [ STEM < "epanalepsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epanalepsis_n_rel" ] ]. epentético_a1 := a_rel_nonprd_intr_le & [ STEM < "epentético" >, SYNSEM.LKEYS.KEYREL.PRED "_epentético_a_rel" ]. epexégesis_n1 := n_intr_uncount_le & [ STEM < "epexégesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epexégesis_n_rel" ] ]. epibléfaron_n1 := n_intr_count_le & [ STEM < "epibléfaron" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epibléfaron_n_rel" ] ]. epicanto_n1 := n_intr_count_le & [ STEM < "epicanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epicanto_n_rel" ] ]. epicardio_n1 := n_intr_count_le & [ STEM < "epicardio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epicardio_n_rel" ] ]. epiceno_a1 := a_rel_nonprd_intr_le & [ STEM < "epiceno" >, SYNSEM.LKEYS.KEYREL.PRED "_epiceno_a_rel" ]. epicentral_a1 := a_rel_nonprd_intr_le & [ STEM < "epicentral" >, SYNSEM.LKEYS.KEYREL.PRED "_epicentral_a_rel" ]. epicentralmente_x1 := av_i_spr_le & [ STEM < "epicentralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_epicentralmente_x_rel" ]. epicentro_n1 := n_intr_count_le & [ STEM < "epicentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epicentro_n_rel" ] ]. epicicloidal_a1 := a_rel_nonprd_intr_le & [ STEM < "epicicloidal" >, SYNSEM.LKEYS.KEYREL.PRED "_epicicloidal_a_rel" ]. epicicloide_n1 := n_intr_count_le & [ STEM < "epicicloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epicicloide_n_rel" ] ]. epiclorhidrina_n1 := n_intr_count_le & [ STEM < "epiclorhidrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epiclorhidrina_n_rel" ] ]. epicraneal_a1 := a_rel_nonprd_intr_le & [ STEM < "epicraneal" >, SYNSEM.LKEYS.KEYREL.PRED "_epicraneal_a_rel" ]. epicureísmo_n1 := n_intr_uncount_le & [ STEM < "epicureísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epicureísmo_n_rel" ] ]. epicóndilo_n1 := n_ppcomp_count_le & [ STEM < "epicóndilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_epicóndilo_n_rel" ] ]. epicúreo_a1 := a_rel_nonprd_intr_le & [ STEM < "epicúreo" >, SYNSEM.LKEYS.KEYREL.PRED "_epicúreo_a_rel" ]. epicúreo_n1 := n_intr_count_le & [ STEM < "epicúreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_epicúreo_n_rel" ] ]. epidemia_n1 := n_intr_count_le & [ STEM < "epidemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epidemia_n_rel" ] ]. epidemiología_n1 := n_intr_uncount_le & [ STEM < "epidemiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epidemiología_n_rel" ] ]. epidemiológicamente_x1 := av_i_spr_le & [ STEM < "epidemiológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_epidemiológicamente_x_rel" ]. epidemiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "epidemiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_epidemiológico_a_rel" ]. epidemiólogo_n1 := n_intr_count_le & [ STEM < "epidemiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_epidemiólogo_n_rel" ] ]. epidermis_n1 := n_intr_mass_le & [ STEM < "epidermis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epidermis_n_rel" ] ]. epididimario_a1 := a_rel_nonprd_intr_le & [ STEM < "epididimario" >, SYNSEM.LKEYS.KEYREL.PRED "_epididimario_a_rel" ]. epidota_n1 := n_intr_mass_le & [ STEM < "epidota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_epidota_n_rel" ] ]. epidural_a1 := a_rel_nonprd_intr_le & [ STEM < "epidural" >, SYNSEM.LKEYS.KEYREL.PRED "_epidural_a_rel" ]. epidémico_a1 := a_rel_nonprd_intr_le & [ STEM < "epidémico" >, SYNSEM.LKEYS.KEYREL.PRED "_epidémico_a_rel" ]. epidérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "epidérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_epidérmico_a_rel" ]. epidídimo_n1 := n_intr_count_le & [ STEM < "epidídimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epidídimo_n_rel" ] ]. epiescleral_a1 := a_rel_nonprd_intr_le & [ STEM < "epiescleral" >, SYNSEM.LKEYS.KEYREL.PRED "_epiescleral_a_rel" ]. epifisario_a1 := a_rel_nonprd_intr_le & [ STEM < "epifisario" >, SYNSEM.LKEYS.KEYREL.PRED "_epifisario_a_rel" ]. epifito_a1 := a_rel_nonprd_intr_le & [ STEM < "epifito" >, SYNSEM.LKEYS.KEYREL.PRED "_epifito_a_rel" ]. epigastrio_n1 := n_ppcomp_count_le & [ STEM < "epigastrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_epigastrio_n_rel" ] ]. epigenética_n1 := n_intr_uncount_le & [ STEM < "epigenética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epigenética_n_rel" ] ]. epigenético_a1 := a_rel_nonprd_intr_le & [ STEM < "epigenético" >, SYNSEM.LKEYS.KEYREL.PRED "_epigenético_a_rel" ]. epiglotis_n1 := n_ppcomp_count_le & [ STEM < "epiglotis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_epiglotis_n_rel" ] ]. epiglotitis_n1 := n_intr_uncount_le & [ STEM < "epiglotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epiglotitis_n_rel" ] ]. epiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "epiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_epiglótico_a_rel" ]. epigrafista_n1 := n_intr_count_le & [ STEM < "epigrafista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_epigrafista_n_rel" ] ]. epigrafía_n1 := n_intr_count_le & [ STEM < "epigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epigrafía_n_rel" ] ]. epigrama_n1 := n_intr_count_le & [ STEM < "epigrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epigrama_n_rel" ] ]. epigráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "epigráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_epigráfico_a_rel" ]. epigástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "epigástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_epigástrico_a_rel" ]. epilepsia_n1 := n_intr_uncount_le & [ STEM < "epilepsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epilepsia_n_rel" ] ]. epilimnio_n1 := n_intr_mass_le & [ STEM < "epilimnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epilimnio_n_rel" ] ]. epilimnion_n1 := n_intr_uncount_le & [ STEM < "epilimnion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epilimnion_n_rel" ] ]. epiléptico_a1 := a_rel_nonprd_intr_le & [ STEM < "epiléptico" >, SYNSEM.LKEYS.KEYREL.PRED "_epiléptico_a_rel" ]. epimorfismo_n1 := n_intr_uncount_le & [ STEM < "epimorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epimorfismo_n_rel" ] ]. epinefrina_n1 := n_intr_count_le & [ STEM < "epinefrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_epinefrina_n_rel" ] ]. epineuro_n1 := n_intr_count_le & [ STEM < "epineuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epineuro_n_rel" ] ]. epiploico_a1 := a_rel_nonprd_intr_le & [ STEM < "epiploico" >, SYNSEM.LKEYS.KEYREL.PRED "_epiploico_a_rel" ]. epiqueratofaquia_n1 := n_intr_uncount_le & [ STEM < "epiqueratofaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epiqueratofaquia_n_rel" ] ]. epiquerema_n1 := n_intr_count_le & [ STEM < "epiquerema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epiquerema_n_rel" ] ]. episcleral_a1 := a_rel_nonprd_intr_le & [ STEM < "episcleral" >, SYNSEM.LKEYS.KEYREL.PRED "_episcleral_a_rel" ]. episclerotitis_n1 := n_intr_uncount_le & [ STEM < "episclerotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_episclerotitis_n_rel" ] ]. episcopado_n1 := n_intr_count_le & [ STEM < "episcopado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_episcopado_n_rel" ] ]. episcopal_a1 := a_rel_nonprd_intr_le & [ STEM < "episcopal" >, SYNSEM.LKEYS.KEYREL.PRED "_episcopal_a_rel" ]. episodio_n1 := n_intr_count_le & [ STEM < "episodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_episodio_n_rel" ] ]. episoma_n1 := n_intr_count_le & [ STEM < "episoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_episoma_n_rel" ] ]. epistaxis_n1 := n_intr_uncount_le & [ STEM < "epistaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epistaxis_n_rel" ] ]. epistemología_n1 := n_intr_uncount_pl_le & [ STEM < "epistemología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epistemología_n_rel" ] ]. epistemológico_a1 := a_rel_nonprd_intr_le & [ STEM < "epistemológico" >, SYNSEM.LKEYS.KEYREL.PRED "_epistemológico_a_rel" ]. epistilo_n1 := n_intr_count_le & [ STEM < "epistilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epistilo_n_rel" ] ]. epistolar_a1 := a_rel_nonprd_intr_le & [ STEM < "epistolar" >, SYNSEM.LKEYS.KEYREL.PRED "_epistolar_a_rel" ]. epistémico_a1 := a_rel_nonprd_intr_le & [ STEM < "epistémico" >, SYNSEM.LKEYS.KEYREL.PRED "_epistémico_a_rel" ]. episódico_a1 := a_rel_prd_le & [ STEM < "episódico" >, SYNSEM.LKEYS.KEYREL.PRED "_episódico_a_rel" ]. epitafio_n1 := n_intr_count_le & [ STEM < "epitafio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epitafio_n_rel" ] ]. epitalamio_n1 := n_intr_count_le & [ STEM < "epitalamio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epitalamio_n_rel" ] ]. epitaxia_n1 := n_intr_uncount_le & [ STEM < "epitaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epitaxia_n_rel" ] ]. epitelial_a1 := a_rel_nonprd_intr_le & [ STEM < "epitelial" >, SYNSEM.LKEYS.KEYREL.PRED "_epitelial_a_rel" ]. epitelio_n1 := n_intr_mass_le & [ STEM < "epitelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epitelio_n_rel" ] ]. epitelioide_a1 := a_rel_nonprd_intr_le & [ STEM < "epitelioide" >, SYNSEM.LKEYS.KEYREL.PRED "_epitelioide_a_rel" ]. epitimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "epitimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_epitimpánico_a_rel" ]. epitrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "epitrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_epitrópico_a_rel" ]. epitáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "epitáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_epitáctico_a_rel" ]. epitérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "epitérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_epitérmico_a_rel" ]. epitímpano_n1 := n_ppcomp_count_le & [ STEM < "epitímpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_epitímpano_n_rel" ] ]. epiácuico_a1 := a_rel_nonprd_intr_le & [ STEM < "epiácuico" >, SYNSEM.LKEYS.KEYREL.PRED "_epiácuico_a_rel" ]. epoda_n1 := n_intr_count_le & [ STEM < "epoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_epoda_n_rel" ] ]. epodo_n1 := n_intr_count_le & [ STEM < "epodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epodo_n_rel" ] ]. epopeya_n1 := n_intr_count_le & [ STEM < "epopeya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_epopeya_n_rel" ] ]. epsomita_n1 := n_intr_count_le & [ STEM < "epsomita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_epsomita_n_rel" ] ]. epéndimo_n1 := n_intr_count_le & [ STEM < "epéndimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epéndimo_n_rel" ] ]. epéntesis_n1 := n_intr_uncount_pl_le & [ STEM < "epéntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epéntesis_n_rel" ] ]. epífisis_n1 := n_intr_uncount_pl_le & [ STEM < "epífisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epífisis_n_rel" ] ]. epífora_n1 := n_intr_uncount_le & [ STEM < "epífora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epífora_n_rel" ] ]. epígono_n1 := n_intr_count_le & [ STEM < "epígono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_epígono_n_rel" ] ]. epígrafe_n1 := n_intr_count_le & [ STEM < "epígrafe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epígrafe_n_rel" ] ]. epílogo_n1 := n_intr_count_le & [ STEM < "epílogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_epílogo_n_rel" ] ]. epístola_n1 := n_intr_count_le & [ STEM < "epístola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epístola_n_rel" ] ]. epíteto_n1 := n_intr_count_le & [ STEM < "epíteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_epíteto_n_rel" ] ]. epítome_n1 := n_intr_count_le & [ STEM < "epítome" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_epítome_n_rel" ] ]. epóxido_n1 := n_intr_count_le & [ STEM < "epóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_epóxido_n_rel" ] ]. equiaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "equiaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_equiaxial_a_rel" ]. equiaxialmente_x1 := av_i_spr_le & [ STEM < "equiaxialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_equiaxialmente_x_rel" ]. equidad_n1 := n_intr_mass-or-count_le & [ STEM < "equidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equidad_n_rel" ] ]. equidireccional_a1 := a_rel_nonprd_intr_le & [ STEM < "equidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_equidireccional_a_rel" ]. equidistancia_n1 := n_intr_uncount_pl_le & [ STEM < "equidistancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equidistancia_n_rel" ] ]. equidistante_a1 := a_qual_trans*_ser_le & [ STEM < "equidistante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_equidistante_a_rel" ] ]. equilateral_a1 := a_rel_nonprd_intr_le & [ STEM < "equilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_equilateral_a_rel" ]. equilateralmente_x1 := av_i_spr_le & [ STEM < "equilateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_equilateralmente_x_rel" ]. equilibración_n1 := n_trans_le & [ STEM < "equilibración" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibración_n_rel" ]. equilibradamente_x1 := av_i_spr_le & [ STEM < "equilibradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibradamente_x_rel" ]. equilibrador_a1 := a_rel_nonprd_intr_le & [ STEM < "equilibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibrador_a_rel" ]. equilibrador_n1 := n_intr_count_le & [ STEM < "equilibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equilibrador_n_rel" ] ]. equilibradora_n1 := n_intr_count_le & [ STEM < "equilibradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_equilibradora_n_rel" ] ]. equilibrar_v1 := v_intr_io*_le & [ STEM < "equilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibrar_v_rel" ]. equilibrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "equilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibrar_v_rel" ]. equilibrar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "equilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibrar_v_rel" ]. equilibrar_v4 := v_trans_np_caus_le & [ STEM < "equilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_equilibrar_v_rel" ]. equilibrio_n1 := n_intr_mass-or-count_le & [ STEM < "equilibrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equilibrio_n_rel" ] ]. equilibrista_n1 := n_intr_count_le & [ STEM < "equilibrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_equilibrista_n_rel" ] ]. equilátero_a1 := a_rel_nonprd_intr_le & [ STEM < "equilátero" >, SYNSEM.LKEYS.KEYREL.PRED "_equilátero_a_rel" ]. equimolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "equimolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_equimolecular_a_rel" ]. equimolecularmente_x1 := av_i_spr_le & [ STEM < "equimolecularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_equimolecularmente_x_rel" ]. equimosis_n1 := n_intr_uncount_le & [ STEM < "equimosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equimosis_n_rel" ] ]. equino_a1 := a_rel_nonprd_intr_le & [ STEM < "equino" >, SYNSEM.LKEYS.KEYREL.PRED "_equino_a_rel" ]. equinoccial_a1 := a_rel_nonprd_intr_le & [ STEM < "equinoccial" >, SYNSEM.LKEYS.KEYREL.PRED "_equinoccial_a_rel" ]. equinoccialmente_x1 := av_i_spr_le & [ STEM < "equinoccialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_equinoccialmente_x_rel" ]. equinoccio_n1 := n_intr_count_le & [ STEM < "equinoccio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equinoccio_n_rel" ] ]. equinodermo_n1 := n_intr_count_le & [ STEM < "equinodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equinodermo_n_rel" ] ]. equipaje_n1 := n_intr_count_le & [ STEM < "equipaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_equipaje_n_rel" ] ]. equipamiento_n1 := n_trans_le & [ STEM < "equipamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_equipamiento_n_rel" ]. equiparable_a1 := a_qual_trans*_ser_le & [ STEM < "equiparable" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_equiparable_a_rel" ] ]. equiparación_n1 := n_trans_le & [ STEM < "equiparación" >, SYNSEM.LKEYS.KEYREL.PRED "_equiparación_n_rel" ]. equiparar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "equiparar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_equiparar_v_rel" ] ]. equipo_n1 := n_intr_coll_le & [ STEM < "equipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_equipo_n_rel" ] ]. equipo_nacional_n1 := n_intr_count_le & [ STEM < "equipo_nacional" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_equipo_nacional_n_rel" ] ]. equipolencia_n1 := n_intr_uncount_pl_le & [ STEM < "equipolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equipolencia_n_rel" ] ]. equipolente_a1 := a_rel_nonprd_intr_le & [ STEM < "equipolente" >, SYNSEM.LKEYS.KEYREL.PRED "_equipolente_a_rel" ]. equipotencial_a1 := a_rel_nonprd_intr_le & [ STEM < "equipotencial" >, SYNSEM.LKEYS.KEYREL.PRED "_equipotencial_a_rel" ]. equipotencialmente_x1 := av_i_spr_le & [ STEM < "equipotencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_equipotencialmente_x_rel" ]. equipotente_a1 := a_rel_nonprd_intr_le & [ STEM < "equipotente" >, SYNSEM.LKEYS.KEYREL.PRED "_equipotente_a_rel" ]. equiprobable_a1 := a_rel_nonprd_intr_le & [ STEM < "equiprobable" >, SYNSEM.LKEYS.KEYREL.PRED "_equiprobable_a_rel" ]. equirrectangular_a1 := a_rel_nonprd_intr_le & [ STEM < "equirrectangular" >, SYNSEM.LKEYS.KEYREL.PRED "_equirrectangular_a_rel" ]. equitación_n1 := n_intr_uncount_le & [ STEM < "equitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equitación_n_rel" ] ]. equitativamente_x1 := av_i_spr_le & [ STEM < "equitativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_equitativamente_x_rel" ]. equitativo_a1 := a_qual_intr_scopal_le & [ STEM < "equitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_equitativo_a_rel" ]. equivalencia_n1 := n_intr_mass-or-count_le & [ STEM < "equivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equivalencia_n_rel" ] ]. equivalente_a1 := a_qual_trans*_ser_le & [ STEM < "equivalente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_equivalente_a_rel" ] ]. equivalente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "equivalente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_equivalente_a_rel" ] ]. equivalente_a3 := a_qual_cp_ques_ser_le & [ STEM < "equivalente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_equivalente_a_rel" ] ]. equivalente_n1 := n_intr_count_le & [ STEM < "equivalente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equivalente_n_rel" ] ]. equivalentemente_x1 := av_i_spr_le & [ STEM < "equivalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_equivalentemente_x_rel" ]. equivaler_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "equivaler" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_equivaler_v_rel" ] ]. equivaler_v2 := v_intr_mrkd_np_sym_le & [ STEM < "equivaler" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_equivaler_v_rel" ] ]. equivocación_n1 := n_result_intr_le & [ STEM < "equivocación" >, SYNSEM.LKEYS.KEYREL.PRED "_equivocación_n_rel" ]. equivocadamente_x1 := av_s_spr_le & [ STEM < "equivocadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_equivocadamente_x_rel" ]. equivocar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "equivocar" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_or_en_p_sel_rel, KEYREL.PRED "_equivocar_v_rel" ] ]. equivocar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "equivocar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_equivocar_v_rel" ] ]. equivocidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "equivocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equivocidad_n_rel" ] ]. equiángulo_a1 := a_rel_nonprd_intr_le & [ STEM < "equiángulo" >, SYNSEM.LKEYS.KEYREL.PRED "_equiángulo_a_rel" ]. equívoco_a1 := a_qual_intr_scopal_le & [ STEM < "equívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_equívoco_a_rel" ]. equívoco_n1 := n_intr_count_le & [ STEM < "equívoco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_equívoco_n_rel" ] ]. era_n1 := n_intr_count_le & [ STEM < "era" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_tmp, PRED "_era_n_rel" ] ]. erario_n1 := n_intr_count_le & [ STEM < "erario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erario_n_rel" ] ]. erbio_n1 := n_intr_mass_le & [ STEM < "erbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_erbio_n_rel" ] ]. erección_n1 := n_intr_count_le & [ STEM < "erección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erección_n_rel" ] ]. erecto_a1 := a_qual_intr_estar_le & [ STEM < "erecto" >, SYNSEM.LKEYS.KEYREL.PRED "_erecto_a_rel" ]. eremita_n1 := n_intr_count_le & [ STEM < "eremita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eremita_n_rel" ] ]. ergastoplasma_n1 := n_intr_count_le & [ STEM < "ergastoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ergastoplasma_n_rel" ] ]. ergatividad_n1 := n_intr_uncount_le & [ STEM < "ergatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ergatividad_n_rel" ] ]. ergativo_a1 := a_rel_nonprd_intr_le & [ STEM < "ergativo" >, SYNSEM.LKEYS.KEYREL.PRED "_ergativo_a_rel" ]. ergio_n := n_intr_count_le & [ STEM < "ergio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ergio_n_rel" ] ]. ergo_sc := sc_prop_fin_le & [ STEM < "ergo" >, SYNSEM.LKEYS.KEYREL.PRED "_ergo_x_subord_rel" ]. ergograma_n1 := n_intr_count_le & [ STEM < "ergograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ergograma_n_rel" ] ]. ergonomía_n1 := n_intr_uncount_pl_le & [ STEM < "ergonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ergonomía_n_rel" ] ]. ergonómicamente_x1 := av_i_spr_le & [ STEM < "ergonómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ergonómicamente_x_rel" ]. ergonómico_a1 := a_qual_intr_ser_le & [ STEM < "ergonómico" >, SYNSEM.LKEYS.KEYREL.PRED "_ergonómico_a_rel" ]. ergosterol_n1 := n_intr_count_le & [ STEM < "ergosterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ergosterol_n_rel" ] ]. erguir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "erguir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_erguir_v_rel" ] ] ]. erguir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "erguir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_erguir_v_rel" ] ] ]. erguir_v3 := v_trans_np_caus_le & [ STEM < "erguir" >, SYNSEM.LKEYS.KEYREL.PRED "_erguir_v_rel" ]. ergódicamente_x1 := av_i_spr_le & [ STEM < "ergódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ergódicamente_x_rel" ]. ergódico_a1 := a_rel_nonprd_intr_le & [ STEM < "ergódico" >, SYNSEM.LKEYS.KEYREL.PRED "_ergódico_a_rel" ]. erial_n1 := n_intr_count_le & [ STEM < "erial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_erial_n_rel" ] ]. erigmofonía_n1 := n_intr_uncount_le & [ STEM < "erigmofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erigmofonía_n_rel" ] ]. eritema_n1 := n_intr_count_le & [ STEM < "eritema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritema_n_rel" ] ]. eritematosupurativo_a1 := a_rel_nonprd_intr_le & [ STEM < "eritematosupurativo" >, SYNSEM.LKEYS.KEYREL.PRED "_eritematosupurativo_a_rel" ]. eritremia_n1 := n_intr_uncount_le & [ STEM < "eritremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritremia_n_rel" ] ]. eritreno_n1 := n_intr_count_le & [ STEM < "eritreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_eritreno_n_rel" ] ]. eritreo_a1 := a_rel_prd_le & [ STEM < "eritreo" >, SYNSEM.LKEYS.KEYREL.PRED "_eritreo_a_rel" ]. eritreo_n1 := n_intr_count_le & [ STEM < "eritreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eritreo_n_rel" ] ]. eritritol_n1 := n_intr_count_le & [ STEM < "eritritol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_eritritol_n_rel" ] ]. eritroblasto_n1 := n_intr_count_le & [ STEM < "eritroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eritroblasto_n_rel" ] ]. eritroblastopenia_n1 := n_intr_uncount_le & [ STEM < "eritroblastopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritroblastopenia_n_rel" ] ]. eritroblastosis_n1 := n_intr_uncount_le & [ STEM < "eritroblastosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritroblastosis_n_rel" ] ]. eritrocianosis_n1 := n_intr_uncount_le & [ STEM < "eritrocianosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrocianosis_n_rel" ] ]. eritrocito_n1 := n_intr_count_le & [ STEM < "eritrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrocito_n_rel" ] ]. eritrocitoblasto_n1 := n_intr_count_le & [ STEM < "eritrocitoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eritrocitoblasto_n_rel" ] ]. eritrocitopenia_n1 := n_intr_uncount_le & [ STEM < "eritrocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrocitopenia_n_rel" ] ]. eritrocitosis_n1 := n_intr_uncount_le & [ STEM < "eritrocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrocitosis_n_rel" ] ]. eritrocitólisis_n1 := n_intr_uncount_le & [ STEM < "eritrocitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrocitólisis_n_rel" ] ]. eritrocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "eritrocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_eritrocítico_a_rel" ]. eritrodextrina_n1 := n_intr_count_le & [ STEM < "eritrodextrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eritrodextrina_n_rel" ] ]. eritrodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "eritrodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrodoncia_n_rel" ] ]. eritrofobia_n1 := n_intr_uncount_le & [ STEM < "eritrofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrofobia_n_rel" ] ]. eritrogonio_n1 := n_intr_count_le & [ STEM < "eritrogonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_eritrogonio_n_rel" ] ]. eritroleucemia_n1 := n_intr_uncount_le & [ STEM < "eritroleucemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritroleucemia_n_rel" ] ]. eritropenia_n1 := n_intr_uncount_le & [ STEM < "eritropenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritropenia_n_rel" ] ]. eritropoyesis_n1 := n_intr_uncount_le & [ STEM < "eritropoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritropoyesis_n_rel" ] ]. eritropoyetina_n1 := n_intr_uncount_le & [ STEM < "eritropoyetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritropoyetina_n_rel" ] ]. eritropoyético_a1 := a_rel_nonprd_intr_le & [ STEM < "eritropoyético" >, SYNSEM.LKEYS.KEYREL.PRED "_eritropoyético_a_rel" ]. eritropsia_n1 := n_intr_uncount_le & [ STEM < "eritropsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritropsia_n_rel" ] ]. eritrosina_n1 := n_intr_count_le & [ STEM < "eritrosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_eritrosina_n_rel" ] ]. eritrosis_n1 := n_intr_uncount_le & [ STEM < "eritrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrosis_n_rel" ] ]. eritrosoma_n1 := n_intr_count_le & [ STEM < "eritrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eritrosoma_n_rel" ] ]. eritrólisis_n1 := n_intr_uncount_le & [ STEM < "eritrólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eritrólisis_n_rel" ] ]. eritórbico_a1 := a_rel_nonprd_intr_le & [ STEM < "eritórbico" >, SYNSEM.LKEYS.KEYREL.PRED "_eritórbico_a_rel" ]. erizar_v := v_pron_unacc_perf_le & [ STEM < "erizar" >, SYNSEM.LKEYS.KEYREL.PRED "_erizar_v_rel" ]. erizo_n1 := n_intr_count_le & [ STEM < "erizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_erizo_n_rel" ] ]. erlang_n := n_intr_count_le & [ STEM < "erlang" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_erlang_n_rel" ] ]. ermita_n1 := n_intr_count_le & [ STEM < "ermita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ermita_n_rel" ] ]. ermitaño_n1 := n_intr_count_le & [ STEM < "ermitaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ermitaño_n_rel" ] ]. erosionabilidad_n1 := n_intr_uncount_le & [ STEM < "erosionabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erosionabilidad_n_rel" ] ]. erosionable_a1 := a_qual_intr_scopal_le & [ STEM < "erosionable" >, SYNSEM.LKEYS.KEYREL.PRED "_erosionable_a_rel" ]. erosional_a1 := a_rel_nonprd_intr_le & [ STEM < "erosional" >, SYNSEM.LKEYS.KEYREL.PRED "_erosional_a_rel" ]. erosionar_v := v_trans_np_caus_le & [ STEM < "erosionar" >, SYNSEM.LKEYS.KEYREL.PRED "_erosionar_v_rel" ]. erosivamente_x1 := av_i_spr_le & [ STEM < "erosivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_erosivamente_x_rel" ]. erosivo_a1 := a_qual_intr_scopal_le & [ STEM < "erosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_erosivo_a_rel" ]. erosión_n1 := n_trans_le & [ STEM < "erosión" >, SYNSEM.LKEYS.KEYREL.PRED "_erosión_n_rel" ]. erotema_n1 := n_intr_count_le & [ STEM < "erotema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erotema_n_rel" ] ]. erotismo_n1 := n_intr_uncount_le & [ STEM < "erotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erotismo_n_rel" ] ]. erradamente_x1 := av_i_spr_le & [ STEM < "erradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_erradamente_x_rel" ]. erradicación_n1 := n_trans_le & [ STEM < "erradicación" >, SYNSEM.LKEYS.KEYREL.PRED "_erradicación_n_rel" ]. errante_a1 := a_qual_intr_scopal_le & [ STEM < "errante" >, SYNSEM.LKEYS.KEYREL.PRED "_errante_a_rel" ]. errar_v := v_trans_np*_le & [ STEM < "errar" >, SYNSEM.LKEYS.KEYREL.PRED "_errar_v_rel" ]. errata_n1 := n_intr_count_le & [ STEM < "errata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_errata_n_rel" ] ]. error_n1 := n_intr_count_le & [ STEM < "error" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_error_n_rel" ] ]. erráticamente_x1 := av_i_spr_le & [ STEM < "erráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_erráticamente_x_rel" ]. errático_a1 := a_qual_intr_scopal_le & [ STEM < "errático" >, SYNSEM.LKEYS.KEYREL.PRED "_errático_a_rel" ]. erróneamente_x1 := av_s_spr_le & [ STEM < "erróneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_erróneamente_x_rel" ]. erróneo_a1 := a_qual_intr_scopal_le & [ STEM < "erróneo" >, SYNSEM.LKEYS.KEYREL.PRED "_erróneo_a_rel" ]. ertzaina_n1 := n_intr_count_le & [ STEM < "ertzaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_ertzaina_n_rel" ] ]. erubescita_n1 := n_intr_count_le & [ STEM < "erubescita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_erubescita_n_rel" ] ]. erucamida_n1 := n_intr_count_le & [ STEM < "erucamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_erucamida_n_rel" ] ]. eructar_v := v_intr_le & [ STEM < "eructar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_eructar_v_rel" ] ]. eructo_n1 := n_intr_count_le & [ STEM < "eructo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eructo_n_rel" ] ]. erudición_n1 := n_intr_mass-or-count_le & [ STEM < "erudición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erudición_n_rel" ] ]. erudito_a1 := a_qual_intr_ser_le & [ STEM < "erudito" >, SYNSEM.LKEYS.KEYREL.PRED "_erudito_a_rel" ]. erupción_n1 := n_result_intr_le & [ STEM < "erupción" >, SYNSEM.LKEYS.KEYREL.PRED "_erupción_n_rel" ]. eruptivamente_x1 := av_i_spr_le & [ STEM < "eruptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eruptivamente_x_rel" ]. eruptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "eruptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_eruptivo_a_rel" ]. erística_n1 := n_intr_uncount_le & [ STEM < "erística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_erística_n_rel" ] ]. erístico_a1 := a_rel_nonprd_intr_le & [ STEM < "erístico" >, SYNSEM.LKEYS.KEYREL.PRED "_erístico_a_rel" ]. erógeno_a1 := a_qual_intr_scopal_le & [ STEM < "erógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_erógeno_a_rel" ]. erótico_a1 := a_qual_intr_scopal_le & [ STEM < "erótico" >, SYNSEM.LKEYS.KEYREL.PRED "_erótico_a_rel" ]. es_hablar_por_demás_x1 := av_i_le & [ STEM < "es_hablar_por_demás" >, SYNSEM.LKEYS.KEYREL.PRED "_es_hablar_por_demás_x_rel" ]. esbeltez_n1 := n_ppcomp_uncount_le & [ STEM < "esbeltez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esbeltez_n_rel" ] ]. esbelto_a1 := a_qual_intr_scopal_le & [ STEM < "esbelto" >, SYNSEM.LKEYS.KEYREL.PRED "_esbelto_a_rel" ]. esbozar_v1 := v_trans_cp_prop_fin_le & [ STEM < "esbozar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_esbozar_v_rel" ] ]. esbozar_v2 := v_trans_np_le & [ STEM < "esbozar" >, SYNSEM.LKEYS.KEYREL.PRED "_esbozar_v_rel" ]. esbozo_n1 := n_trans_le & [ STEM < "esbozo" >, SYNSEM.LKEYS.KEYREL.PRED "_esbozo_n_rel" ]. escabeche_n1 := n_intr_mass_le & [ STEM < "escabeche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escabeche_n_rel" ] ]. escabinado_n1 := n_intr_count_le & [ STEM < "escabinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_escabinado_n_rel" ] ]. escabinato_n1 := n_intr_count_le & [ STEM < "escabinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_escabinato_n_rel" ] ]. escabino_n1 := n_intr_count_le & [ STEM < "escabino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escabino_n_rel" ] ]. escabrosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "escabrosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escabrosidad_n_rel" ] ]. escabroso_a1 := a_qual_intr_scopal_le & [ STEM < "escabroso" >, SYNSEM.LKEYS.KEYREL.PRED "_escabroso_a_rel" ]. escabullir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "escabullir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escabullir_v_rel" ] ] ]. escabullir_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "escabullir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escabullir_v_rel" ] ] ]. escafandra_n1 := n_intr_count_le & [ STEM < "escafandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escafandra_n_rel" ] ]. escafandrismo_n1 := n_intr_uncount_le & [ STEM < "escafandrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escafandrismo_n_rel" ] ]. escafandrista_n1 := n_intr_count_le & [ STEM < "escafandrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escafandrista_n_rel" ] ]. escafoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "escafoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_escafoideo_a_rel" ]. escafoides_n1 := n_ppcomp_count_le & [ STEM < "escafoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_escafoides_n_rel" ] ]. escala_n1 := n_intr_count_le & [ STEM < "escala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escala_n_rel" ] ]. escalada_n1 := n_trans_le & [ STEM < "escalada" >, SYNSEM.LKEYS.KEYREL.PRED "_escalada_n_rel" ]. escalador_a1 := a_rel_nonprd_intr_le & [ STEM < "escalador" >, SYNSEM.LKEYS.KEYREL.PRED "_escalador_a_rel" ]. escalador_n1 := n_subj-nom_le & [ STEM < "escalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escalador_n_rel" ] ]. escalafón_n1 := n_intr_count_le & [ STEM < "escalafón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_escalafón_n_rel" ] ]. escalamiento_n1 := n_trans_le & [ STEM < "escalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_escalamiento_n_rel" ]. escalar_a1 := a_rel_nonprd_intr_le & [ STEM < "escalar" >, SYNSEM.LKEYS.KEYREL.PRED "_escalar_a_rel" ]. escalar_n1 := n_intr_count_le & [ STEM < "escalar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escalar_n_rel" ] ]. escalar_v := v_trans_np*_le & [ STEM < "escalar" >, SYNSEM.LKEYS.KEYREL.PRED "_escalar_v_rel" ]. escalariforme_a1 := a_qual_intr_ser_le & [ STEM < "escalariforme" >, SYNSEM.LKEYS.KEYREL.PRED "_escalariforme_a_rel" ]. escaldadura_n1 := n_intr_count_le & [ STEM < "escaldadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escaldadura_n_rel" ] ]. escaleno_a1 := a_rel_nonprd_intr_le & [ STEM < "escaleno" >, SYNSEM.LKEYS.KEYREL.PRED "_escaleno_a_rel" ]. escalenoedro_n1 := n_intr_count_le & [ STEM < "escalenoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escalenoedro_n_rel" ] ]. escalenoédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "escalenoédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_escalenoédrico_a_rel" ]. escalera_n1 := n_intr_count_le & [ STEM < "escalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalera_n_rel" ] ]. escaleriforme_a1 := a_qual_intr_ser_le & [ STEM < "escaleriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_escaleriforme_a_rel" ]. escalerilla_n1 := n_intr_count_le & [ STEM < "escalerilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalerilla_n_rel" ] ]. escalinata_n1 := n_intr_count_le & [ STEM < "escalinata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_escalinata_n_rel" ] ]. escalofriante_a1 := a_qual_intr_scopal_le & [ STEM < "escalofriante" >, SYNSEM.LKEYS.KEYREL.PRED "_escalofriante_a_rel" ]. escalofrío_n1 := n_intr_uncount_pl_le & [ STEM < "escalofrío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escalofrío_n_rel" ] ]. escalonadamente_x1 := av_i_spr_le & [ STEM < "escalonadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escalonadamente_x_rel" ]. escalonar_v := v_trans_np_le & [ STEM < "escalonar" >, SYNSEM.LKEYS.KEYREL.PRED "_escalonar_v_rel" ]. escalopa_n1 := n_intr_count_le & [ STEM < "escalopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalopa_n_rel" ] ]. escalope_n1 := n_intr_count_le & [ STEM < "escalope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalope_n_rel" ] ]. escalpelo_n1 := n_intr_count_le & [ STEM < "escalpelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalpelo_n_rel" ] ]. escalímetro_n1 := n_intr_count_le & [ STEM < "escalímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escalímetro_n_rel" ] ]. escalón_n1 := n_intr_count_le & [ STEM < "escalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escalón_n_rel" ] ]. escama_n1 := n_intr_count_le & [ STEM < "escama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escama_n_rel" ] ]. escamomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "escamomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_escamomastoideo_a_rel" ]. escamondadura_n1 := n_intr_count_le & [ STEM < "escamondadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_escamondadura_n_rel" ] ]. escamoso_a1 := a_rel_nonprd_intr_le & [ STEM < "escamoso" >, SYNSEM.LKEYS.KEYREL.PRED "_escamoso_a_rel" ]. escamoteablemente_x1 := av_i_spr_le & [ STEM < "escamoteablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_escamoteablemente_x_rel" ]. escamoteador_n1 := n_subj-nom_le & [ STEM < "escamoteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escamoteador_n_rel" ] ]. escamotear_v := v_ditrans*_le & [ STEM < "escamotear" >, SYNSEM.LKEYS.KEYREL.PRED "_escamotear_v_rel" ]. escanciar_v := v_trans_np_le & [ STEM < "escanciar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_escanciar_v_rel" ] ]. escanda_n1 := n_intr_mass_le & [ STEM < "escanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escanda_n_rel" ] ]. escandalizar_v1 := v_intr_io*_le & [ STEM < "escandalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_escandalizar_v_rel" ]. escandalizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "escandalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_escandalizar_v_rel" ]. escandalizar_v3 := v_trans_np_caus_le & [ STEM < "escandalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_escandalizar_v_rel" ]. escandallada_n1 := n_trans_le & [ STEM < "escandallada" >, SYNSEM.LKEYS.KEYREL.PRED "_escandallada_n_rel" ]. escandallo_n1 := n_intr_count_le & [ STEM < "escandallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escandallo_n_rel" ] ]. escandalosamente_x1 := av_i_spr_le & [ STEM < "escandalosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escandalosamente_x_rel" ]. escandaloso_a1 := a_qual_intr_scopal_le & [ STEM < "escandaloso" >, SYNSEM.LKEYS.KEYREL.PRED "_escandaloso_a_rel" ]. escandinavo_a1 := a_rel_prd_le & [ STEM < "escandinavo" >, SYNSEM.LKEYS.KEYREL.PRED "_escandinavo_a_rel" ]. escandinavo_n1 := n_intr_count_le & [ STEM < "escandinavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escandinavo_n_rel" ] ]. escandio_n1 := n_intr_mass_le & [ STEM < "escandio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escandio_n_rel" ] ]. escandir_v := v_trans_np_le & [ STEM < "escandir" >, SYNSEM.LKEYS.KEYREL.PRED "_escandir_v_rel" ]. escanear_v := v_trans_np_le & [ STEM < "escanear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_escanear_v_rel" ] ]. escaneo_n1 := n_trans_le & [ STEM < "escaneo" >, SYNSEM.LKEYS.KEYREL.PRED "_escaneo_n_rel" ]. escanista_n1 := n_intr_count_le & [ STEM < "escanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escanista_n_rel" ] ]. escapada_n1 := n_event-result_intr_le & [ STEM < "escapada" >, SYNSEM.LKEYS.KEYREL.PRED "_escapada_n_rel" ]. escapar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "escapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escapar_v_rel" ] ] ]. escapar_v3 := v_pron_intr_io_le & [ STEM < "escapar" >, SYNSEM.LKEYS.KEYREL.PRED "_escapar_v_rel" ]. escapar_v4 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "escapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escapar_v_rel" ] ] ]. escapar_v5 := v_pron_unacc_lcomp_dir*_le & [ STEM < "escapar" >, SYNSEM.LKEYS.KEYREL.PRED "_escapar_v_rel" ]. escapar_v6 := v_unacc_lcomp_dir*_le & [ STEM < "escapar" >, SYNSEM.LKEYS.KEYREL.PRED "_escapar_v_rel" ]. escaparate_n1 := n_intr_count_le & [ STEM < "escaparate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escaparate_n_rel" ] ]. escaparatismo_n1 := n_intr_uncount_le & [ STEM < "escaparatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escaparatismo_n_rel" ] ]. escaparatista_n1 := n_intr_count_le & [ STEM < "escaparatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escaparatista_n_rel" ] ]. escapatoria_n1 := n_intr_count_le & [ STEM < "escapatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escapatoria_n_rel" ] ]. escapatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "escapatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_escapatorio_a_rel" ]. escape_n1 := n_intr_mass_le & [ STEM < "escape" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escape_n_rel" ] ]. escapismo_n1 := n_intr_uncount_le & [ STEM < "escapismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escapismo_n_rel" ] ]. escapista_n1 := n_intr_count_le & [ STEM < "escapista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escapista_n_rel" ] ]. escapolita_n1 := n_intr_count_le & [ STEM < "escapolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escapolita_n_rel" ] ]. escapular_a1 := a_rel_nonprd_intr_le & [ STEM < "escapular" >, SYNSEM.LKEYS.KEYREL.PRED "_escapular_a_rel" ]. escapulohumeral_a1 := a_rel_nonprd_intr_le & [ STEM < "escapulohumeral" >, SYNSEM.LKEYS.KEYREL.PRED "_escapulohumeral_a_rel" ]. escarabajo_n1 := n_intr_count_le & [ STEM < "escarabajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escarabajo_n_rel" ] ]. escaramujo_n1 := n_intr_count_le & [ STEM < "escaramujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_escaramujo_n_rel" ] ]. escaramuza_n1 := n_intr_count_le & [ STEM < "escaramuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escaramuza_n_rel" ] ]. escarapela_n1 := n_intr_count_le & [ STEM < "escarapela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escarapela_n_rel" ] ]. escarbador_a1 := a_rel_nonprd_intr_le & [ STEM < "escarbador" >, SYNSEM.LKEYS.KEYREL.PRED "_escarbador_a_rel" ]. escarbar_v1 := v_intr_mrkd_np*_le & [ STEM < "escarbar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_escarbar_v_rel" ] ]. escarbar_v2 := v_trans_np_le & [ STEM < "escarbar" >, SYNSEM.LKEYS.KEYREL.PRED "_escarbar_v_rel" ]. escarcha_n1 := n_intr_mass_le & [ STEM < "escarcha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarcha_n_rel" ] ]. escarchar_v := v_trans_np_le & [ STEM < "escarchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_mat, PRED "_escarchar_v_rel" ] ]. escarda_n1 := n_intr_count_le & [ STEM < "escarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarda_n_rel" ] ]. escardadora_n1 := n_intr_count_le & [ STEM < "escardadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escardadora_n_rel" ] ]. escardar_v := v_trans_np*_le & [ STEM < "escardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_escardar_v_rel" ] ]. escariador_n1 := n_intr_count_le & [ STEM < "escariador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escariador_n_rel" ] ]. escariar_v := v_trans_np*_le & [ STEM < "escariar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_escariar_v_rel" ] ]. escarificación_n1 := n_trans_le & [ STEM < "escarificación" >, SYNSEM.LKEYS.KEYREL.PRED "_escarificación_n_rel" ]. escarificador_n1 := n_intr_count_le & [ STEM < "escarificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarificador_n_rel" ] ]. escarificadora_n1 := n_intr_count_le & [ STEM < "escarificadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarificadora_n_rel" ] ]. escarificar_v := v_trans_np_le & [ STEM < "escarificar" >, SYNSEM.LKEYS.KEYREL.PRED "_escarificar_v_rel" ]. escarlador_n1 := n_intr_count_le & [ STEM < "escarlador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarlador_n_rel" ] ]. escarlata_a1 := a_qual_intr_ser_le & [ STEM < "escarlata" >, SYNSEM.LKEYS.KEYREL.PRED "_escarlata_a_rel" ]. escarlata_n1 := n_intr_uncount_le & [ STEM < "escarlata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarlata_n_rel" ] ]. escarlatina_n1 := n_intr_uncount_le & [ STEM < "escarlatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarlatina_n_rel" ] ]. escarmentar_v1 := v_intr_le & [ STEM < "escarmentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_escarmentar_v_rel" ] ]. escarmentar_v2 := v_trans_np_le & [ STEM < "escarmentar" >, SYNSEM.LKEYS.KEYREL.PRED "_escarmentar_v_rel" ]. escarmiento_n1 := n_intr_count_le & [ STEM < "escarmiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarmiento_n_rel" ] ]. escarnecedor_a1 := a_qual_intr_scopal_le & [ STEM < "escarnecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_escarnecedor_a_rel" ]. escarnecimiento_n1 := n_intr_count_le & [ STEM < "escarnecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarnecimiento_n_rel" ] ]. escarnio_n1 := n_intr_count_le & [ STEM < "escarnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarnio_n_rel" ] ]. escarola_n1 := n_intr_mass_le & [ STEM < "escarola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarola_n_rel" ] ]. escarpa_n1 := n_intr_count_le & [ STEM < "escarpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_escarpa_n_rel" ] ]. escarpadamente_x1 := av_i_spr_le & [ STEM < "escarpadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escarpadamente_x_rel" ]. escarpadura_n1 := n_intr_count_le & [ STEM < "escarpadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_escarpadura_n_rel" ] ]. escarpe_n1 := n_intr_count_le & [ STEM < "escarpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarpe_n_rel" ] ]. escarpia_n1 := n_intr_count_le & [ STEM < "escarpia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escarpia_n_rel" ] ]. escarpín_n1 := n_intr_count_le & [ STEM < "escarpín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escarpín_n_rel" ] ]. escarzano_a1 := a_rel_nonprd_intr_le & [ STEM < "escarzano" >, SYNSEM.LKEYS.KEYREL.PRED "_escarzano_a_rel" ]. escasamente_x1 := av_deg_le & [ STEM < "escasamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escasamente_x_rel" ]. escasear_v := v_unacc_lcomp_loc*_le & [ STEM < "escasear" >, SYNSEM.LKEYS.KEYREL.PRED "_escasear_v_rel" ]. escasez_n1 := n_ppcomp_uncount_le & [ STEM < "escasez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escasez_n_rel" ] ]. escatimar_v := v_ditrans*_le & [ STEM < "escatimar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_escatimar_v_rel" ] ]. escatol_n1 := n_intr_count_le & [ STEM < "escatol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escatol_n_rel" ] ]. escatología_n1 := n_intr_uncount_le & [ STEM < "escatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escatología_n_rel" ] ]. escayola_n1 := n_intr_mass_le & [ STEM < "escayola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escayola_n_rel" ] ]. escayolar_v := v_ditrans*_le & [ STEM < "escayolar" >, SYNSEM.LKEYS.KEYREL.PRED "_escayolar_v_rel" ]. escaña_n1 := n_intr_count_le & [ STEM < "escaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_escaña_n_rel" ] ]. escaño_n1 := n_intr_count_le & [ STEM < "escaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_escaño_n_rel" ] ]. escena_n1 := n_intr_count_le & [ STEM < "escena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escena_n_rel" ] ]. escenario_n1 := n_intr_count_le & [ STEM < "escenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_escenario_n_rel" ] ]. escenificación_n1 := n_trans_le & [ STEM < "escenificación" >, SYNSEM.LKEYS.KEYREL.PRED "_escenificación_n_rel" ]. escenografía_n1 := n_intr_count_le & [ STEM < "escenografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escenografía_n_rel" ] ]. escenográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "escenográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_escenográfico_a_rel" ]. escenotécnica_n1 := n_intr_uncount_le & [ STEM < "escenotécnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escenotécnica_n_rel" ] ]. escenógrafo_n1 := n_intr_count_le & [ STEM < "escenógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escenógrafo_n_rel" ] ]. escepticismo_n1 := n_ppcomp_mass_le & [ STEM < "escepticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escepticismo_n_rel" ] ]. escifo_n1 := n_intr_count_le & [ STEM < "escifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escifo_n_rel" ] ]. escindible_a1 := a_rel_prd_le & [ STEM < "escindible" >, SYNSEM.LKEYS.KEYREL.PRED "_escindible_a_rel" ]. escindir_v := v_trans_np_caus_le & [ STEM < "escindir" >, SYNSEM.LKEYS.KEYREL.PRED "_escindir_v_rel" ]. esciográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "esciográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_esciográfico_a_rel" ]. escisión_n1 := n_intr_count_le & [ STEM < "escisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escisión_n_rel" ] ]. escita_n1 := n_intr_count_le & [ STEM < "escita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escita_n_rel" ] ]. esclarecer_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "esclarecer" >, SYNSEM.LKEYS.KEYREL.PRED "_esclarecer_v_rel" ]. esclarecer_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "esclarecer" >, SYNSEM.LKEYS.KEYREL.PRED "_esclarecer_v_rel" ]. esclarecer_v3 := v_ditrans*_le & [ STEM < "esclarecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_esclarecer_v_rel" ] ]. esclarecimiento_n1 := n_trans_le & [ STEM < "esclarecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_esclarecimiento_n_rel" ]. esclavina_n1 := n_intr_count_le & [ STEM < "esclavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esclavina_n_rel" ] ]. esclavismo_n1 := n_intr_uncount_le & [ STEM < "esclavismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclavismo_n_rel" ] ]. esclavista_a1 := a_rel_nonprd_intr_le & [ STEM < "esclavista" >, SYNSEM.LKEYS.KEYREL.PRED "_esclavista_a_rel" ]. esclavitud_n1 := n_intr_count_le & [ STEM < "esclavitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclavitud_n_rel" ] ]. esclavizar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "esclavizar" >, SYNSEM.LKEYS.KEYREL.PRED "_esclavizar_v_rel" ]. esclavizar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "esclavizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_esclavizar_v_rel" ] ] ]. esclavizar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "esclavizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_esclavizar_v_rel" ] ]. esclavo_a1 := a_rel_nonprd_intr_le & [ STEM < "esclavo" >, SYNSEM.LKEYS.KEYREL.PRED "_esclavo_a_rel" ]. esclavo_a2 := a_qual_trans_ser_le & [ STEM < "esclavo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_esclavo_a_rel" ] ]. esclavo_n1 := n_intr_count_le & [ STEM < "esclavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esclavo_n_rel" ] ]. esclavón_a1 := a_rel_prd_le & [ STEM < "esclavón" >, SYNSEM.LKEYS.KEYREL.PRED "_esclavón_a_rel" ]. esclavón_n1 := n_intr_count_le & [ STEM < "esclavón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esclavón_n_rel" ] ]. escleral_a1 := a_rel_nonprd_intr_le & [ STEM < "escleral" >, SYNSEM.LKEYS.KEYREL.PRED "_escleral_a_rel" ]. esclerectasia_n1 := n_intr_uncount_le & [ STEM < "esclerectasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerectasia_n_rel" ] ]. esclerectoiridectomía_n1 := n_intr_count_le & [ STEM < "esclerectoiridectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerectoiridectomía_n_rel" ] ]. esclerectoiridodiálisis_n1 := n_intr_uncount_le & [ STEM < "esclerectoiridodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerectoiridodiálisis_n_rel" ] ]. esclerectomía_n1 := n_intr_count_le & [ STEM < "esclerectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerectomía_n_rel" ] ]. escleritis_n1 := n_intr_uncount_le & [ STEM < "escleritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleritis_n_rel" ] ]. escleroconjuntival_a1 := a_rel_nonprd_intr_le & [ STEM < "escleroconjuntival" >, SYNSEM.LKEYS.KEYREL.PRED "_escleroconjuntival_a_rel" ]. escleroconjuntivitis_n1 := n_intr_uncount_le & [ STEM < "escleroconjuntivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleroconjuntivitis_n_rel" ] ]. esclerocorneal_a1 := a_rel_nonprd_intr_le & [ STEM < "esclerocorneal" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerocorneal_a_rel" ]. esclerocoroiditis_n1 := n_intr_uncount_le & [ STEM < "esclerocoroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerocoroiditis_n_rel" ] ]. escleroftalmía_n1 := n_intr_uncount_le & [ STEM < "escleroftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleroftalmía_n_rel" ] ]. escleroiritis_n1 := n_intr_uncount_le & [ STEM < "escleroiritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleroiritis_n_rel" ] ]. escleromalacia_n1 := n_intr_uncount_le & [ STEM < "escleromalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleromalacia_n_rel" ] ]. esclerométricamente_x1 := av_i_spr_le & [ STEM < "esclerométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerométricamente_x_rel" ]. esclerométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "esclerométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerométrico_a_rel" ]. escleroqueratitis_n1 := n_intr_uncount_le & [ STEM < "escleroqueratitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleroqueratitis_n_rel" ] ]. escleroqueratoiritis_n1 := n_intr_uncount_le & [ STEM < "escleroqueratoiritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escleroqueratoiritis_n_rel" ] ]. esclerosante_a1 := a_rel_nonprd_intr_le & [ STEM < "esclerosante" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerosante_a_rel" ]. esclerosis_n1 := n_intr_uncount_le & [ STEM < "esclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerosis_n_rel" ] ]. esclerostomía_n1 := n_intr_count_le & [ STEM < "esclerostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerostomía_n_rel" ] ]. esclerotitis_n1 := n_intr_uncount_le & [ STEM < "esclerotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerotitis_n_rel" ] ]. esclerotomía_n1 := n_intr_count_le & [ STEM < "esclerotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esclerotomía_n_rel" ] ]. esclerénquima_n1 := n_intr_count_le & [ STEM < "esclerénquima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esclerénquima_n_rel" ] ]. esclerófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "esclerófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerófilo_a_rel" ]. esclerómetro_n1 := n_intr_count_le & [ STEM < "esclerómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esclerómetro_n_rel" ] ]. esclerótico_a1 := a_qual_intr_ser_le & [ STEM < "esclerótico" >, SYNSEM.LKEYS.KEYREL.PRED "_esclerótico_a_rel" ]. esclusa_n1 := n_intr_count_le & [ STEM < "esclusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esclusa_n_rel" ] ]. escoba_n1 := n_intr_count_le & [ STEM < "escoba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escoba_n_rel" ] ]. escobilla_n1 := n_intr_count_le & [ STEM < "escobilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escobilla_n_rel" ] ]. escobillón_n1 := n_intr_count_le & [ STEM < "escobillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escobillón_n_rel" ] ]. escobén_n1 := n_intr_count_le & [ STEM < "escobén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escobén_n_rel" ] ]. escocer_v1 := v_intr_io*_le & [ STEM < "escocer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart_cnc_mat, PRED "_escocer_v_rel" ] ]. escocer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "escocer" >, SYNSEM.LKEYS.KEYREL.PRED "_escocer_v_rel" ]. escocés_a1 := a_rel_prd_le & [ STEM < "escocés" >, SYNSEM.LKEYS.KEYREL.PRED "_escocés_a_rel" ]. escocés_n1 := n_intr_count_le & [ STEM < "escocés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escocés_n_rel" ] ]. escoda_n1 := n_intr_count_le & [ STEM < "escoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escoda_n_rel" ] ]. escodar_v := v_trans_np_le & [ STEM < "escodar" >, SYNSEM.LKEYS.KEYREL.PRED "_escodar_v_rel" ]. escofina_n1 := n_intr_count_le & [ STEM < "escofina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escofina_n_rel" ] ]. escoger_v1 := v_trans_cp_prop_fin_le & [ STEM < "escoger" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escoger_v_rel" ] ]. escoger_v2 := v_trans_np_le & [ STEM < "escoger" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escoger_v_rel" ] ]. escolanía_n1 := n_intr_count_le & [ STEM < "escolanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_escolanía_n_rel" ] ]. escolar_a1 := a_rel_nonprd_intr_le & [ STEM < "escolar" >, SYNSEM.LKEYS.KEYREL.PRED "_escolar_a_rel" ]. escolaridad_n1 := n_intr_uncount_le & [ STEM < "escolaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escolaridad_n_rel" ] ]. escolarización_n1 := n_trans_le & [ STEM < "escolarización" >, SYNSEM.LKEYS.KEYREL.PRED "_escolarización_n_rel" ]. escolarizar_v := v_trans_np_le & [ STEM < "escolarizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_escolarizar_v_rel" ] ]. escolio_n1 := n_intr_count_le & [ STEM < "escolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escolio_n_rel" ] ]. escoliosis_n1 := n_intr_uncount_le & [ STEM < "escoliosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escoliosis_n_rel" ] ]. escollera_n1 := n_intr_count_le & [ STEM < "escollera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_escollera_n_rel" ] ]. escollo_n1 := n_intr_count_le & [ STEM < "escollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escollo_n_rel" ] ]. escolopendra_n1 := n_intr_count_le & [ STEM < "escolopendra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escolopendra_n_rel" ] ]. escolta_n1 := n_intr_coll_le & [ STEM < "escolta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escolta_n_rel" ] ]. escoltar_v := v_trans_np_le & [ STEM < "escoltar" >, SYNSEM.LKEYS.KEYREL.PRED "_escoltar_v_rel" ]. escolástica_n1 := n_intr_uncount_le & [ STEM < "escolástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escolástica_n_rel" ] ]. escolástico_a1 := a_rel_nonprd_intr_le & [ STEM < "escolástico" >, SYNSEM.LKEYS.KEYREL.PRED "_escolástico_a_rel" ]. escombrera_n1 := n_intr_count_le & [ STEM < "escombrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escombrera_n_rel" ] ]. escombro_n1 := n_intr_count_le & [ STEM < "escombro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escombro_n_rel" ] ]. esconder_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "esconder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_esconder_v_rel" ] ]. esconder_v2 := v_ditrans*_le & [ STEM < "esconder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_esconder_v_rel" ] ]. esconder_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "esconder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esconder_v_rel" ] ] ]. esconder_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "esconder" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_esconder_v_rel" ] ]. escondite_n1 := n_intr_count_le & [ STEM < "escondite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_escondite_n_rel" ] ]. escondrijo_n1 := n_intr_count_le & [ STEM < "escondrijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_escondrijo_n_rel" ] ]. escopeta_n1 := n_intr_count_le & [ STEM < "escopeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escopeta_n_rel" ] ]. escoplear_v := v_trans_np_le & [ STEM < "escoplear" >, SYNSEM.LKEYS.KEYREL.PRED "_escoplear_v_rel" ]. escoplo_n1 := n_intr_count_le & [ STEM < "escoplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escoplo_n_rel" ] ]. escopofilia_n1 := n_intr_uncount_le & [ STEM < "escopofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escopofilia_n_rel" ] ]. escopolamina_n1 := n_intr_count_le & [ STEM < "escopolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escopolamina_n_rel" ] ]. escopolina_n1 := n_intr_count_le & [ STEM < "escopolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escopolina_n_rel" ] ]. escora_n1 := n_intr_count_le & [ STEM < "escora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escora_n_rel" ] ]. escorbuto_n1 := n_intr_uncount_le & [ STEM < "escorbuto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escorbuto_n_rel" ] ]. escoria_n1 := n_intr_mass_le & [ STEM < "escoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escoria_n_rel" ] ]. escorial_n1 := n_intr_count_le & [ STEM < "escorial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_escorial_n_rel" ] ]. escorificador_n1 := n_intr_count_le & [ STEM < "escorificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escorificador_n_rel" ] ]. escorificante_n1 := n_intr_uncount_pl_le & [ STEM < "escorificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escorificante_n_rel" ] ]. escorodita_n1 := n_intr_count_le & [ STEM < "escorodita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_escorodita_n_rel" ] ]. escorpina_n1 := n_intr_count_le & [ STEM < "escorpina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escorpina_n_rel" ] ]. escorpión_n1 := n_intr_count_le & [ STEM < "escorpión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escorpión_n_rel" ] ]. escorrentía_n1 := n_intr_uncount_pl_le & [ STEM < "escorrentía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escorrentía_n_rel" ] ]. escorsana_n1 := n_intr_count_le & [ STEM < "escorsana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escorsana_n_rel" ] ]. escorzonera_n1 := n_intr_count_le & [ STEM < "escorzonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_escorzonera_n_rel" ] ]. escota_n1 := n_intr_count_le & [ STEM < "escota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escota_n_rel" ] ]. escotadura_n1 := n_intr_count_le & [ STEM < "escotadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escotadura_n_rel" ] ]. escote_n1 := n_intr_count_le & [ STEM < "escote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escote_n_rel" ] ]. escotilla_n1 := n_intr_count_le & [ STEM < "escotilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escotilla_n_rel" ] ]. escotillón_n1 := n_intr_count_le & [ STEM < "escotillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escotillón_n_rel" ] ]. escotismo_n1 := n_intr_uncount_le & [ STEM < "escotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escotismo_n_rel" ] ]. escotoma_n1 := n_intr_uncount_le & [ STEM < "escotoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escotoma_n_rel" ] ]. escotomatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "escotomatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_escotomatoso_a_rel" ]. escotometría_n1 := n_intr_count_le & [ STEM < "escotometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escotometría_n_rel" ] ]. escotopia_n1 := n_intr_uncount_le & [ STEM < "escotopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escotopia_n_rel" ] ]. escotín_n1 := n_intr_count_le & [ STEM < "escotín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escotín_n_rel" ] ]. escotómetro_n1 := n_intr_count_le & [ STEM < "escotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escotómetro_n_rel" ] ]. escotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "escotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_escotópico_a_rel" ]. escozor_n1 := n_result_intr_le & [ STEM < "escozor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escozor_n_rel" ] ]. escriba_n1 := n_intr_count_le & [ STEM < "escriba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escriba_n_rel" ] ]. escribano_n1 := n_intr_count_le & [ STEM < "escribano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escribano_n_rel" ] ]. escribanía_n1 := n_intr_uncount_pl_le & [ STEM < "escribanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escribanía_n_rel" ] ]. escribible_a1 := a_rel_prd_le & [ STEM < "escribible" >, SYNSEM.LKEYS.KEYREL.PRED "_escribible_a_rel" ]. escribiente_n1 := n_intr_count_le & [ STEM < "escribiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escribiente_n_rel" ] ]. escribir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "escribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escribir_v_rel" ] ]. escribir_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "escribir" >, SYNSEM.LKEYS.KEYREL.PRED "_escribir_v_rel" ]. escribir_v3 := v_trans_np*_io*_le & [ STEM < "escribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_escribir_v_rel" ] ]. escrito_a1 := a_qual_intr_estar_le & [ STEM < "escrito" >, SYNSEM.LKEYS.KEYREL.PRED "_escrito_a_rel" ]. escrito_n1 := n_intr_count_le & [ STEM < "escrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escrito_n_rel" ] ]. escritor_n1 := n_subj-nom_le & [ STEM < "escritor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escritor_n_rel" ] ]. escritorio_n1 := n_intr_count_le & [ STEM < "escritorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escritorio_n_rel" ] ]. escritura_n1 := n_trans_le & [ STEM < "escritura" >, SYNSEM.LKEYS.KEYREL.PRED "_escritura_n_rel" ]. escriturar_v := v_trans_np_le & [ STEM < "escriturar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc_pro_sem, PRED "_escriturar_v_rel" ] ]. escrofulariácea_n1 := n_intr_count_le & [ STEM < "escrofulariácea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_escrofulariácea_n_rel" ] ]. escrotal_a1 := a_rel_nonprd_intr_le & [ STEM < "escrotal" >, SYNSEM.LKEYS.KEYREL.PRED "_escrotal_a_rel" ]. escroto_n2 := n_ppcomp_count_le & [ STEM < "escroto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_escroto_n_rel" ] ]. escrupulosamente_x1 := av_i_spr_le & [ STEM < "escrupulosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escrupulosamente_x_rel" ]. escrupulosidad_n1 := n_intr_mass_le & [ STEM < "escrupulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escrupulosidad_n_rel" ] ]. escrupuloso_a1 := a_qual_intr_ser_le & [ STEM < "escrupuloso" >, SYNSEM.LKEYS.KEYREL.PRED "_escrupuloso_a_rel" ]. escrutador_n1 := n_subj-nom_le & [ STEM < "escrutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escrutador_n_rel" ] ]. escrutar_v := v_trans_np_le & [ STEM < "escrutar" >, SYNSEM.LKEYS.KEYREL.PRED "_escrutar_v_rel" ]. escrutinio_n1 := n_trans_le & [ STEM < "escrutinio" >, SYNSEM.LKEYS.KEYREL.PRED "_escrutinio_n_rel" ]. escrúpulo_n1 := n_intr_uncount_pl_le & [ STEM < "escrúpulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escrúpulo_n_rel" ] ]. escuadra_n1 := n_intr_count_le & [ STEM < "escuadra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_escuadra_n_rel" ] ]. escuadrar_v := v_trans_np_le & [ STEM < "escuadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_escuadrar_v_rel" ]. escuadreo_n1 := n_trans_le & [ STEM < "escuadreo" >, SYNSEM.LKEYS.KEYREL.PRED "_escuadreo_n_rel" ]. escuadrilla_n1 := n_intr_count_le & [ STEM < "escuadrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_escuadrilla_n_rel" ] ]. escuadrón_n1 := n_intr_coll_le & [ STEM < "escuadrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_escuadrón_n_rel" ] ]. escualo_n1 := n_intr_count_le & [ STEM < "escualo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escualo_n_rel" ] ]. escuaque_n1 := n_intr_count_le & [ STEM < "escuaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_escuaque_n_rel" ] ]. escucha_n1 := n_trans_le & [ STEM < "escucha" >, SYNSEM.LKEYS.KEYREL.PRED "_escucha_n_rel" ]. escuchador_n1 := n_intr_count_le & [ STEM < "escuchador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_escuchador_n_rel" ] ]. escuchar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "escuchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escuchar_v_rel" ] ]. escuchar_v2 := v_trans_np_le & [ STEM < "escuchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escuchar_v_rel" ] ]. escudar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "escudar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escudar_v_rel" ] ] ]. escudar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "escudar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro_sem_soc, PRED "_escudar_v_rel" ] ] ]. escudar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "escudar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_escudar_v_rel" ] ]. escudería_n1 := n_intr_count_le & [ STEM < "escudería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_escudería_n_rel" ] ]. escudete_n1 := n_intr_count_le & [ STEM < "escudete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escudete_n_rel" ] ]. escudilla_n1 := n_intr_count_le & [ STEM < "escudilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escudilla_n_rel" ] ]. escudo_n1 := n_intr_count_le & [ STEM < "escudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escudo_n_rel" ] ]. escudriñador_a1 := a_qual_intr_scopal_le & [ STEM < "escudriñador" >, SYNSEM.LKEYS.KEYREL.PRED "_escudriñador_a_rel" ]. escudriñador_n1 := n_subj-nom_le & [ STEM < "escudriñador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escudriñador_n_rel" ] ]. escuela_n1 := n_intr_count_le & [ STEM < "escuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_escuela_n_rel" ] ]. escuetamente_x1 := av_s_spr_le & [ STEM < "escuetamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escuetamente_x_rel" ]. escueto_a1 := a_qual_intr_scopal_le & [ STEM < "escueto" >, SYNSEM.LKEYS.KEYREL.PRED "_escueto_a_rel" ]. esculina_n1 := n_intr_count_le & [ STEM < "esculina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esculina_n_rel" ] ]. esculpir_v := v_trans_np_le & [ STEM < "esculpir" >, SYNSEM.LKEYS.KEYREL.PRED "_esculpir_v_rel" ]. escultismo_n1 := n_intr_uncount_le & [ STEM < "escultismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escultismo_n_rel" ] ]. escultor_n1 := n_subj-nom_le & [ STEM < "escultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_escultor_n_rel" ] ]. escultura_n1 := n_intr_mass_le & [ STEM < "escultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escultura_n_rel" ] ]. escultural_a1 := a_qual_intr_scopal_le & [ STEM < "escultural" >, SYNSEM.LKEYS.KEYREL.PRED "_escultural_a_rel" ]. escultórico_a1 := a_rel_nonprd_intr_le & [ STEM < "escultórico" >, SYNSEM.LKEYS.KEYREL.PRED "_escultórico_a_rel" ]. escupidera_n1 := n_intr_count_le & [ STEM < "escupidera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escupidera_n_rel" ] ]. escupidor_n1 := n_intr_count_le & [ STEM < "escupidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escupidor_n_rel" ] ]. escupir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "escupir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escupir_v_rel" ] ]. escupir_v2 := v_ditrans*_le & [ STEM < "escupir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_escupir_v_rel" ] ]. escupitajo_n1 := n_intr_count_le & [ STEM < "escupitajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escupitajo_n_rel" ] ]. escurreplatos_n1 := n_intr_count_le & [ STEM < "escurreplatos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escurreplatos_n_rel" ] ]. escurridero_a1 := a_qual_intr_scopal_le & [ STEM < "escurridero" >, SYNSEM.LKEYS.KEYREL.PRED "_escurridero_a_rel" ]. escurridizo_a1 := a_qual_intr_scopal_le & [ STEM < "escurridizo" >, SYNSEM.LKEYS.KEYREL.PRED "_escurridizo_a_rel" ]. escurridor_n1 := n_intr_count_le & [ STEM < "escurridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escurridor_n_rel" ] ]. escurrimiento_n1 := n_trans_le & [ STEM < "escurrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_escurrimiento_n_rel" ]. escurrir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "escurrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_escurrir_v_rel" ] ] ]. escurrir_v2 := v_pron_unacc_lcomp_dir*_perf_le & [ STEM < "escurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_escurrir_v_rel" ]. escurrir_v3 := v_trans_np_le & [ STEM < "escurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_escurrir_v_rel" ]. escutelo_n1 := n_intr_count_le & [ STEM < "escutelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escutelo_n_rel" ] ]. escuálido_a1 := a_qual_intr_scopal_le & [ STEM < "escuálido" >, SYNSEM.LKEYS.KEYREL.PRED "_escuálido_a_rel" ]. escándalo_n1 := n_intr_count_le & [ STEM < "escándalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_escándalo_n_rel" ] ]. escáner_n1 := n_intr_count_le & [ STEM < "escáner" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_escáner_n_rel" ] ]. escápula_n1 := n_ppcomp_count_le & [ STEM < "escápula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_escápula_n_rel" ] ]. escénico_a1 := a_rel_nonprd_intr_le & [ STEM < "escénico" >, SYNSEM.LKEYS.KEYREL.PRED "_escénico_a_rel" ]. escépticamente_x1 := av_i_spr_le & [ STEM < "escépticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_escépticamente_x_rel" ]. escéptico_a1 := a_qual_intr_ser_le & [ STEM < "escéptico" >, SYNSEM.LKEYS.KEYREL.PRED "_escéptico_a_rel" ]. escómbrido_n1 := n_intr_count_le & [ STEM < "escómbrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escómbrido_n_rel" ] ]. escópula_n1 := n_intr_count_le & [ STEM < "escópula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_escópula_n_rel" ] ]. escórpora_n1 := n_intr_count_le & [ STEM < "escórpora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_escórpora_n_rel" ] ]. esdrújulo_a1 := a_rel_nonprd_intr_le & [ STEM < "esdrújulo" >, SYNSEM.LKEYS.KEYREL.PRED "_esdrújulo_a_rel" ]. ese_d := d_dem_ese_le & [ STEM < "ese" > ]. ese_p := pr_dem_le & [ STEM < "ese" >, SYNSEM.LKEYS.ALTKEYREL.PRED _ese_q_rel ]. esencia_n1 := n_intr_count_le & [ STEM < "esencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_esencia_n_rel" ] ]. esencial_a1 := a_qual_trans*_ser_le & [ STEM < "esencial" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_esencial_a_rel" ] ]. esencialista_a1 := a_rel_nonprd_intr_le & [ STEM < "esencialista" >, SYNSEM.LKEYS.KEYREL.PRED "_esencialista_a_rel" ]. esfalerita_n1 := n_intr_count_le & [ STEM < "esfalerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esfalerita_n_rel" ] ]. esfena_n1 := n_intr_count_le & [ STEM < "esfena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esfena_n_rel" ] ]. esfenocigomático_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenocigomático" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenocigomático_a_rel" ]. esfenoedro_n1 := n_ppcomp_count_le & [ STEM < "esfenoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esfenoedro_n_rel" ] ]. esfenoetmoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenoetmoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenoetmoidal_a_rel" ]. esfenofrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenofrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenofrontal_a_rel" ]. esfenoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenoidal_a_rel" ]. esfenoides_n2 := n_ppcomp_count_le & [ STEM < "esfenoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esfenoides_n_rel" ] ]. esfenoiditis_n1 := n_intr_uncount_le & [ STEM < "esfenoiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esfenoiditis_n_rel" ] ]. esfenoidotomía_n1 := n_intr_count_le & [ STEM < "esfenoidotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esfenoidotomía_n_rel" ] ]. esfenomandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenomandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenomandibular_a_rel" ]. esfenomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenomaxilar_a_rel" ]. esfenooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenooccipital_a_rel" ]. esfenopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenopalatino_a_rel" ]. esfenoparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenoparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenoparietal_a_rel" ]. esfenopetroso_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenopetroso" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenopetroso_a_rel" ]. esfenotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "esfenotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_esfenotemporal_a_rel" ]. esfera_n1 := n_intr_count_le & [ STEM < "esfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_esfera_n_rel" ] ]. esferocito_n1 := n_intr_count_le & [ STEM < "esferocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esferocito_n_rel" ] ]. esferocitosis_n1 := n_intr_uncount_le & [ STEM < "esferocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esferocitosis_n_rel" ] ]. esferoidal_a1 := a_rel_prd_le & [ STEM < "esferoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_esferoidal_a_rel" ]. esferoidalmente_x1 := av_i_spr_le & [ STEM < "esferoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_esferoidalmente_x_rel" ]. esferoide_n1 := n_intr_count_le & [ STEM < "esferoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esferoide_n_rel" ] ]. esferoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "esferoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_esferoideo_a_rel" ]. esferolito_n1 := n_intr_count_le & [ STEM < "esferolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esferolito_n_rel" ] ]. esferoma_n1 := n_intr_count_le & [ STEM < "esferoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esferoma_n_rel" ] ]. esferoplasto_n1 := n_intr_count_le & [ STEM < "esferoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esferoplasto_n_rel" ] ]. esferosoma_n1 := n_intr_count_le & [ STEM < "esferosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esferosoma_n_rel" ] ]. esferulítico_a1 := a_rel_nonprd_intr_le & [ STEM < "esferulítico" >, SYNSEM.LKEYS.KEYREL.PRED "_esferulítico_a_rel" ]. esferómetro_n1 := n_intr_count_le & [ STEM < "esferómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esferómetro_n_rel" ] ]. esfigmomanómetro_n1 := n_intr_count_le & [ STEM < "esfigmomanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_esfigmomanómetro_n_rel" ] ]. esfinge_n1 := n_intr_count_le & [ STEM < "esfinge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_esfinge_n_rel" ] ]. esforzar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "esforzar" >, SYNSEM.LKEYS [ --COMPKEY en_or_para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esforzar_v_rel" ] ] ]. esforzar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "esforzar" >, SYNSEM.LKEYS [ --COMPKEY en_or_para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esforzar_v_rel" ] ] ]. esfuerzo_n1 := n_trans_le & [ STEM < "esfuerzo" >, SYNSEM.LKEYS.KEYREL.PRED "_esfuerzo_n_rel" ]. esfumar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "esfumar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esfumar_v_rel" ] ] ]. esfumar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "esfumar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esfumar_v_rel" ] ] ]. esfumar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "esfumar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_esfumar_v_rel" ] ] ]. esféricamente_x1 := av_i_spr_le & [ STEM < "esféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esféricamente_x_rel" ]. esférico_a1 := a_qual_intr_ser_le & [ STEM < "esférico" >, SYNSEM.LKEYS.KEYREL.PRED "_esférico_a_rel" ]. esférico_n1 := n_intr_count_le & [ STEM < "esférico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esférico_n_rel" ] ]. esfínter_n2 := n_ppcomp_count_le & [ STEM < "esfínter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esfínter_n_rel" ] ]. esgrafiado_n1 := n_trans_le & [ STEM < "esgrafiado" >, SYNSEM.LKEYS.KEYREL.PRED "_esgrafiado_n_rel" ]. esgrima_n1 := n_intr_uncount_le & [ STEM < "esgrima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esgrima_n_rel" ] ]. esgrimador_n1 := n_subj-nom_le & [ STEM < "esgrimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esgrimador_n_rel" ] ]. esgrimidor_n1 := n_subj-nom_le & [ STEM < "esgrimidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esgrimidor_n_rel" ] ]. esgrimista_n1 := n_intr_count_le & [ STEM < "esgrimista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esgrimista_n_rel" ] ]. esguince_n1 := n_intr_count_le & [ STEM < "esguince" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esguince_n_rel" ] ]. eslabón_n1 := n_intr_count_le & [ STEM < "eslabón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eslabón_n_rel" ] ]. eslalon_n1 := n_intr_count_le & [ STEM < "eslalon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eslalon_n_rel" ] ]. eslavo_n1 := n_intr_count_le & [ STEM < "eslavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eslavo_n_rel" ] ]. eslinga_n1 := n_intr_count_le & [ STEM < "eslinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eslinga_n_rel" ] ]. eslogan_n1 := n_intr_count_le & [ STEM < "eslogan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eslogan_n_rel" ] ]. eslora_n1 := n_intr_uncount_le & [ STEM < "eslora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eslora_n_rel" ] ]. eslovaco_a1 := a_rel_prd_le & [ STEM < "eslovaco" >, SYNSEM.LKEYS.KEYREL.PRED "_eslovaco_a_rel" ]. eslovaco_n1 := n_intr_count_le & [ STEM < "eslovaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eslovaco_n_rel" ] ]. esloveno_a1 := a_rel_prd_le & [ STEM < "esloveno" >, SYNSEM.LKEYS.KEYREL.PRED "_esloveno_a_rel" ]. esloveno_n1 := n_intr_count_le & [ STEM < "esloveno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esloveno_n_rel" ] ]. eslógan_n1 := n_intr_count_le & [ STEM < "eslógan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_eslógan_n_rel" ] ]. esmaltar_v := v_trans_np_le & [ STEM < "esmaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_esmaltar_v_rel" ]. esmalte_n1 := n_intr_mass-or-count_le & [ STEM < "esmalte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_esmalte_n_rel" ] ]. esmaltita_n1 := n_intr_count_le & [ STEM < "esmaltita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esmaltita_n_rel" ] ]. esmaltín_n1 := n_intr_count_le & [ STEM < "esmaltín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esmaltín_n_rel" ] ]. esmaragdita_n1 := n_intr_count_le & [ STEM < "esmaragdita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esmaragdita_n_rel" ] ]. esmectita_n1 := n_intr_count_le & [ STEM < "esmectita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esmectita_n_rel" ] ]. esmeradamente_x1 := av_i_spr_le & [ STEM < "esmeradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esmeradamente_x_rel" ]. esmeralda_n1 := n_intr_mass_le & [ STEM < "esmeralda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esmeralda_n_rel" ] ]. esmerar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "esmerar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esmerar_v_rel" ] ] ]. esmerar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "esmerar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_esmerar_v_rel" ] ] ]. esmerar_v3 := v_trans_np_le & [ STEM < "esmerar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_esmerar_v_rel" ] ]. esmerejón_n1 := n_intr_count_le & [ STEM < "esmerejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_esmerejón_n_rel" ] ]. esmeril_n1 := n_intr_mass_le & [ STEM < "esmeril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esmeril_n_rel" ] ]. esmeriladora_n1 := n_intr_count_le & [ STEM < "esmeriladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esmeriladora_n_rel" ] ]. esmerilar_v := v_trans_np_le & [ STEM < "esmerilar" >, SYNSEM.LKEYS.KEYREL.PRED "_esmerilar_v_rel" ]. esmero_n1 := n_intr_mass_le & [ STEM < "esmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esmero_n_rel" ] ]. esmoquin_n1 := n_intr_count_le & [ STEM < "esmoquin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esmoquin_n_rel" ] ]. esnob_a1 := a_qual_intr_ser_le & [ STEM < "esnob" >, SYNSEM.LKEYS.KEYREL.PRED "_esnob_a_rel" ]. esnob_n1 := n_intr_count_le & [ STEM < "esnob" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esnob_n_rel" ] ]. esnobismo_n1 := n_ppcomp_mass_le & [ STEM < "esnobismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esnobismo_n_rel" ] ]. esofágico_a1 := a_rel_nonprd_intr_le & [ STEM < "esofágico" >, SYNSEM.LKEYS.KEYREL.PRED "_esofágico_a_rel" ]. esofórico_a1 := a_rel_nonprd_intr_le & [ STEM < "esofórico" >, SYNSEM.LKEYS.KEYREL.PRED "_esofórico_a_rel" ]. esoterismo_n1 := n_ppcomp_uncount_le & [ STEM < "esoterismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esoterismo_n_rel" ] ]. esotro_d := d_dem_ese_le & [ STEM < "esotro" > ]. esotro_p := pr_dem_le & [ STEM < "esotro" >, SYNSEM.LKEYS.ALTKEYREL.PRED _esotro_q_rel ]. esotropía_n1 := n_intr_count_le & [ STEM < "esotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esotropía_n_rel" ] ]. esotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "esotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_esotrópico_a_rel" ]. esotérico_a1 := a_qual_intr_scopal_le & [ STEM < "esotérico" >, SYNSEM.LKEYS.KEYREL.PRED "_esotérico_a_rel" ]. espaciado_n1 := n_trans_le & [ STEM < "espaciado" >, SYNSEM.LKEYS.KEYREL.PRED "_espaciado_n_rel" ]. espaciador_a1 := a_rel_nonprd_intr_le & [ STEM < "espaciador" >, SYNSEM.LKEYS.KEYREL.PRED "_espaciador_a_rel" ]. espaciador_n1 := n_intr_count_le & [ STEM < "espaciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espaciador_n_rel" ] ]. espacial_a1 := a_rel_nonprd_intr_le & [ STEM < "espacial" >, SYNSEM.LKEYS.KEYREL.PRED "_espacial_a_rel" ]. espacialmente_x1 := av_i_spr_le & [ STEM < "espacialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_espacialmente_x_rel" ]. espaciamiento_n1 := n_trans_le & [ STEM < "espaciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_espaciamiento_n_rel" ]. espaciar_v := v_trans_np_le & [ STEM < "espaciar" >, SYNSEM.LKEYS.KEYREL.PRED "_espaciar_v_rel" ]. espacio_n1 := n_intr_count_le & [ STEM < "espacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_espacio_n_rel" ] ]. espaciosidad_n1 := n_intr_uncount_le & [ STEM < "espaciosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espaciosidad_n_rel" ] ]. espacioso_a1 := a_qual_intr_scopal_le & [ STEM < "espacioso" >, SYNSEM.LKEYS.KEYREL.PRED "_espacioso_a_rel" ]. espada_n1 := n_intr_count_le & [ STEM < "espada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espada_n_rel" ] ]. espadilla_n1 := n_intr_count_le & [ STEM < "espadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espadilla_n_rel" ] ]. espadillado_n1 := n_trans_le & [ STEM < "espadillado" >, SYNSEM.LKEYS.KEYREL.PRED "_espadillado_n_rel" ]. espadina_n1 := n_intr_count_le & [ STEM < "espadina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espadina_n_rel" ] ]. espadista_n1 := n_intr_count_le & [ STEM < "espadista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espadista_n_rel" ] ]. espadín_n1 := n_intr_count_le & [ STEM < "espadín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espadín_n_rel" ] ]. espagueti_n1 := n_intr_mass_le & [ STEM < "espagueti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espagueti_n_rel" ] ]. espalda_n1 := n_ppcomp_count_le & [ STEM < "espalda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espalda_n_rel" ] ]. espaldar_n1 := n_intr_count_le & [ STEM < "espaldar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espaldar_n_rel" ] ]. espaldarazo_n1 := n_intr_count_le & [ STEM < "espaldarazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espaldarazo_n_rel" ] ]. espaldera_n1 := n_intr_count_le & [ STEM < "espaldera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espaldera_n_rel" ] ]. espaldilla_n2 := n_ppcomp_count_le & [ STEM < "espaldilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espaldilla_n_rel" ] ]. espaldista_n1 := n_intr_count_le & [ STEM < "espaldista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espaldista_n_rel" ] ]. espantajo_n1 := n_intr_count_le & [ STEM < "espantajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espantajo_n_rel" ] ]. espantapájaros_n1 := n_intr_count_le & [ STEM < "espantapájaros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espantapájaros_n_rel" ] ]. espantar_v1 := v_intr_io*_le & [ STEM < "espantar" >, SYNSEM.LKEYS.KEYREL.PRED "_espantar_v_rel" ]. espantar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "espantar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_espantar_v_rel" ] ] ]. espantar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "espantar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_espantar_v_rel" ] ] ]. espantar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "espantar" >, SYNSEM.LKEYS.KEYREL.PRED "_espantar_v_rel" ]. espantar_v5 := v_trans_np_le & [ STEM < "espantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT non-hum, PRED "_espantar_v_rel" ] ]. espanto_n1 := n_intr_mass-or-count_le & [ STEM < "espanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espanto_n_rel" ] ]. espantosamente_x1 := av_i_spr_le & [ STEM < "espantosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espantosamente_x_rel" ]. espantoso_a1 := a_qual_intr_scopal_le & [ STEM < "espantoso" >, SYNSEM.LKEYS.KEYREL.PRED "_espantoso_a_rel" ]. esparadrapo_n1 := n_intr_mass_le & [ STEM < "esparadrapo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esparadrapo_n_rel" ] ]. esparavel_n1 := n_intr_count_le & [ STEM < "esparavel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_esparavel_n_rel" ] ]. esparcidor_a1 := a_rel_nonprd_intr_le & [ STEM < "esparcidor" >, SYNSEM.LKEYS.KEYREL.PRED "_esparcidor_a_rel" ]. esparcidor_n1 := n_intr_count_le & [ STEM < "esparcidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esparcidor_n_rel" ] ]. esparcidora_n1 := n_intr_count_le & [ STEM < "esparcidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esparcidora_n_rel" ] ]. esparcidoramente_x1 := av_i_spr_le & [ STEM < "esparcidoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_esparcidoramente_x_rel" ]. esparcimiento_n1 := n_trans_le & [ STEM < "esparcimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_esparcimiento_n_rel" ]. esparcir_v := v_trans_np_caus_le & [ STEM < "esparcir" >, SYNSEM.LKEYS.KEYREL.PRED "_esparcir_v_rel" ]. esparraguera_n1 := n_intr_count_le & [ STEM < "esparraguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_esparraguera_n_rel" ] ]. esparraguina_n1 := n_intr_count_le & [ STEM < "esparraguina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esparraguina_n_rel" ] ]. espartano_a1 := a_rel_prd_le & [ STEM < "espartano" >, SYNSEM.LKEYS.KEYREL.PRED "_espartano_a_rel" ]. espartano_n1 := n_intr_count_le & [ STEM < "espartano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espartano_n_rel" ] ]. esparto_n1 := n_intr_mass_le & [ STEM < "esparto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_esparto_n_rel" ] ]. espasmo_n1 := n_intr_count_le & [ STEM < "espasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espasmo_n_rel" ] ]. espasmódico_a1 := a_rel_nonprd_intr_le & [ STEM < "espasmódico" >, SYNSEM.LKEYS.KEYREL.PRED "_espasmódico_a_rel" ]. espasticidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "espasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espasticidad_n_rel" ] ]. espato_n1 := n_intr_mass_le & [ STEM < "espato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espato_n_rel" ] ]. español_a1 := a_rel_prd_le & [ STEM < "español" >, SYNSEM.LKEYS.KEYREL.PRED "_español_a_rel" ]. español_n1 := n_intr_count_le & [ STEM < "español" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_español_n_rel" ] ]. españolarizar_v := v_trans_np_caus_le & [ STEM < "españolarizar" >, SYNSEM.LKEYS.KEYREL.PRED "_españolarizar_v_rel" ]. españolismo_n1 := n_intr_mass_le & [ STEM < "españolismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_españolismo_n_rel" ] ]. españolista_a1 := a_qual_intr_scopal_le & [ STEM < "españolista" >, SYNSEM.LKEYS.KEYREL.PRED "_españolista_a_rel" ]. españolista_n1 := n_intr_count_le & [ STEM < "españolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_españolista_n_rel" ] ]. especia_n1 := n_intr_mass_le & [ STEM < "especia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_especia_n_rel" ] ]. especial_a1 := a_qual_intr_scopal_le & [ STEM < "especial" >, SYNSEM.LKEYS.KEYREL.PRED "_especial_a_rel" ]. especialidad_n1 := n_ppcomp_count_le & [ STEM < "especialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_especialidad_n_rel" ] ]. especialista_a1 := a_qual_trans*_ser_le & [ STEM < "especialista" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_especialista_a_rel" ] ]. especialista_n1 := n_intr_count_le & [ STEM < "especialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_especialista_n_rel" ] ]. especialización_n1 := n_trans_le & [ STEM < "especialización" >, SYNSEM.LKEYS.KEYREL.PRED "_especialización_n_rel" ]. especialización_n2 := n_intr_count_le & [ STEM < "especialización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_especialización_n_rel" ] ]. especializadamente_x1 := av_i_spr_le & [ STEM < "especializadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_especializadamente_x_rel" ]. especializar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "especializar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_especializar_v_rel" ] ] ]. especializar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "especializar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT ani_hum_plant_soc, PRED "_especializar_v_rel" ] ] ]. especialmente_x1 := av_i_foc_spr_le & [ STEM < "especialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_especialmente_x_rel" ]. especialmente_x3 := av_i_np-foc_spr_le & [ STEM < "especialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_especialmente_x_rel" ]. especie_n1 := n_intr_count_le & [ STEM < "especie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_especie_n_rel" ] ]. especificable_a1 := a_rel_prd_le & [ STEM < "especificable" >, SYNSEM.LKEYS.KEYREL.PRED "_especificable_a_rel" ]. especificación_n1 := n_trans_le & [ STEM < "especificación" >, SYNSEM.LKEYS.KEYREL.PRED "_especificación_n_rel" ]. especificador_a1 := a_rel_nonprd_intr_le & [ STEM < "especificador" >, SYNSEM.LKEYS.KEYREL.PRED "_especificador_a_rel" ]. especificador_n1 := n_intr_count_le & [ STEM < "especificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_especificador_n_rel" ] ]. especificar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "especificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_especificar_v_rel" ] ]. especificar_v2 := v_ditrans*_le & [ STEM < "especificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_especificar_v_rel" ] ]. especificar_v3 := v_trans_cp_semi_ques_le & [ STEM < "especificar" >, SYNSEM.LKEYS.KEYREL.PRED "_especificar_v_rel" ]. especificativo_a1 := a_rel_nonprd_intr_le & [ STEM < "especificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_especificativo_a_rel" ]. especificidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "especificidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_especificidad_n_rel" ] ]. especiosamente_x1 := av_i_spr_le & [ STEM < "especiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_especiosamente_x_rel" ]. especioso_a1 := a_rel_nonprd_intr_le & [ STEM < "especioso" >, SYNSEM.LKEYS.KEYREL.PRED "_especioso_a_rel" ]. espectacular_a1 := a_qual_intr_scopal_le & [ STEM < "espectacular" >, SYNSEM.LKEYS.KEYREL.PRED "_espectacular_a_rel" ]. espectacularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "espectacularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectacularidad_n_rel" ] ]. espectacularmente_x1 := av_i_spr_le & [ STEM < "espectacularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectacularmente_x_rel" ]. espectador_n1 := n_subj-nom_le & [ STEM < "espectador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espectador_n_rel" ] ]. espectral_a1 := a_rel_nonprd_intr_le & [ STEM < "espectral" >, SYNSEM.LKEYS.KEYREL.PRED "_espectral_a_rel" ]. espectralmente_x1 := av_i_spr_le & [ STEM < "espectralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectralmente_x_rel" ]. espectrina_n1 := n_intr_count_le & [ STEM < "espectrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espectrina_n_rel" ] ]. espectro_n1 := n_intr_count_le & [ STEM < "espectro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_espectro_n_rel" ] ]. espectroeléctricamente_x1 := av_i_spr_le & [ STEM < "espectroeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectroeléctricamente_x_rel" ]. espectroeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectroeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectroeléctrico_a_rel" ]. espectrofotometría_n1 := n_intr_count_le & [ STEM < "espectrofotometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectrofotometría_n_rel" ] ]. espectrofotométricamente_x1 := av_i_spr_le & [ STEM < "espectrofotométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrofotométricamente_x_rel" ]. espectrofotométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectrofotométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrofotométrico_a_rel" ]. espectrofotómetro_n1 := n_intr_count_le & [ STEM < "espectrofotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espectrofotómetro_n_rel" ] ]. espectrograma_n1 := n_intr_count_le & [ STEM < "espectrograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espectrograma_n_rel" ] ]. espectrográficamente_x1 := av_i_spr_le & [ STEM < "espectrográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrográficamente_x_rel" ]. espectrográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectrográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrográfico_a_rel" ]. espectrolita_n1 := n_intr_uncount_pl_le & [ STEM < "espectrolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectrolita_n_rel" ] ]. espectrometría_n1 := n_intr_count_le & [ STEM < "espectrometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectrometría_n_rel" ] ]. espectrométricamente_x1 := av_i_spr_le & [ STEM < "espectrométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrométricamente_x_rel" ]. espectrométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectrométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrométrico_a_rel" ]. espectrorradiométricamente_x1 := av_i_spr_le & [ STEM < "espectrorradiométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrorradiométricamente_x_rel" ]. espectrorradiométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectrorradiométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectrorradiométrico_a_rel" ]. espectroscopia_n1 := n_intr_count_le & [ STEM < "espectroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectroscopia_n_rel" ] ]. espectroscopio_n1 := n_intr_count_le & [ STEM < "espectroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espectroscopio_n_rel" ] ]. espectroscópicamente_x1 := av_i_spr_le & [ STEM < "espectroscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espectroscópicamente_x_rel" ]. espectroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "espectroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_espectroscópico_a_rel" ]. espectrotipo_n1 := n_intr_count_le & [ STEM < "espectrotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectrotipo_n_rel" ] ]. espectrógrafo_n1 := n_intr_count_le & [ STEM < "espectrógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_espectrógrafo_n_rel" ] ]. espectrómetro_n1 := n_intr_count_le & [ STEM < "espectrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espectrómetro_n_rel" ] ]. espectáculo_n1 := n_intr_count_le & [ STEM < "espectáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espectáculo_n_rel" ] ]. especulación_n1 := n_result_intr_le & [ STEM < "especulación" >, SYNSEM.LKEYS.KEYREL.PRED "_especulación_n_rel" ]. especulación_n2 := n_intr_count_le & [ STEM < "especulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_especulación_n_rel" ] ]. especulador_n1 := n_subj-nom_le & [ STEM < "especulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_especulador_n_rel" ] ]. especular_2v := v_trans_cp_prop_fin_le & [ STEM < "especular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_especular_v_rel" ] ]. especular_a1 := a_rel_nonprd_intr_le & [ STEM < "especular" >, SYNSEM.LKEYS.KEYREL.PRED "_especular_a_rel" ]. especular_v1 := v_intr_mrkd_np*_le & [ STEM < "especular" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_especular_v_rel" ] ]. especular_v3 := v_trans_np_le & [ STEM < "especular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_especular_v_rel" ] ]. especularita_n1 := n_intr_count_le & [ STEM < "especularita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_especularita_n_rel" ] ]. especularmente_x1 := av_i_spr_le & [ STEM < "especularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_especularmente_x_rel" ]. especulativamente_x1 := av_i_spr_le & [ STEM < "especulativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_especulativamente_x_rel" ]. especulativo_a1 := a_qual_intr_scopal_le & [ STEM < "especulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_especulativo_a_rel" ]. específicamente_x1 := av_i_foc_le & [ STEM < "específicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_específicamente_x_rel" ]. específicamente_x2 := av_s_cp_prop_le & [ STEM < "específicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_específicamente_x_rel" ]. específicamente_x3 := av_i_np-foc_le & [ STEM < "específicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_específicamente_x_rel" ]. específico_a1 := a_adv_int_le & [ STEM < "específico" >, SYNSEM.LKEYS.KEYREL.PRED "_específico_a_rel" ]. específico_a2 := a_qual_trans*_ser_le & [ STEM < "específico" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_específico_a_rel" ] ]. especímenes_n1 := n_intr_count_le & [ STEM < "especímenes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_especímenes_n_rel" ] ]. espejillo_n1 := n_ppcomp_count_le & [ STEM < "espejillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espejillo_n_rel" ] ]. espejismo_n1 := n_intr_count_le & [ STEM < "espejismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espejismo_n_rel" ] ]. espejo_n1 := n_intr_count_le & [ STEM < "espejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espejo_n_rel" ] ]. espejuelo_n1 := n_intr_count_le & [ STEM < "espejuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espejuelo_n_rel" ] ]. espeleología_n1 := n_intr_uncount_le & [ STEM < "espeleología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espeleología_n_rel" ] ]. espeleólogo_n1 := n_intr_count_le & [ STEM < "espeleólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espeleólogo_n_rel" ] ]. espelta_n1 := n_intr_mass_le & [ STEM < "espelta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espelta_n_rel" ] ]. espeluznante_a1 := a_qual_intr_scopal_le & [ STEM < "espeluznante" >, SYNSEM.LKEYS.KEYREL.PRED "_espeluznante_a_rel" ]. espeluznantemente_x1 := av_i_spr_le & [ STEM < "espeluznantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_espeluznantemente_x_rel" ]. espeluznar_v1 := v_intr_io*_le & [ STEM < "espeluznar" >, SYNSEM.LKEYS.KEYREL.PRED "_espeluznar_v_rel" ]. espeluznar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "espeluznar" >, SYNSEM.LKEYS.KEYREL.PRED "_espeluznar_v_rel" ]. espeluznar_v3 := v_trans_np_le & [ STEM < "espeluznar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_espeluznar_v_rel" ] ]. espeque_n1 := n_intr_count_le & [ STEM < "espeque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espeque_n_rel" ] ]. espera_n1 := n_trans_le & [ STEM < "espera" >, SYNSEM.LKEYS.KEYREL.PRED "_espera_n_rel" ]. esperable_a1 := a_qual_trans*_ser_le & [ STEM < "esperable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_esperable_a_rel" ] ]. esperanto_n1 := n_intr_uncount_le & [ STEM < "esperanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esperanto_n_rel" ] ]. esperanza_n1 := n_intr_mass_le & [ STEM < "esperanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esperanza_n_rel" ] ]. esperanzadamente_x1 := av_s_spr_le & [ STEM < "esperanzadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esperanzadamente_x_rel" ]. esperanzadamente_x2 := av_i_psthd_spr_le & [ STEM < "esperanzadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esperanzadamente_x_rel" ]. esperanzador_a1 := a_qual_intr_scopal_le & [ STEM < "esperanzador" >, SYNSEM.LKEYS.KEYREL.PRED "_esperanzador_a_rel" ]. esperanzar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "esperanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_esperanzar_v_rel" ]. esperanzar_v2 := v_trans_np_le & [ STEM < "esperanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_esperanzar_v_rel" ]. esperar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "esperar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_esperar_v_rel" ] ]. esperar_v2 := v_intr_mrkd_np_le & [ STEM < "esperar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_esperar_v_rel" ] ]. esperar_v3 := v_trans_np*_le & [ STEM < "esperar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_esperar_v_rel" ] ]. esperar_v4 := v_trans_s_or_cp_prop_fin_sub_le & [ STEM < "esperar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_esperar_v_rel" ] ]. esperma_n1 := n_intr_mass_le & [ STEM < "esperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esperma_n_rel" ] ]. espermatida_n1 := n_intr_count_le & [ STEM < "espermatida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espermatida_n_rel" ] ]. espermatocito_n1 := n_intr_count_le & [ STEM < "espermatocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_espermatocito_n_rel" ] ]. espermatocitogénesis_n1 := n_intr_uncount_le & [ STEM < "espermatocitogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espermatocitogénesis_n_rel" ] ]. espermatogonia_n1 := n_intr_count_le & [ STEM < "espermatogonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espermatogonia_n_rel" ] ]. espermatogénesis_n1 := n_intr_uncount_le & [ STEM < "espermatogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espermatogénesis_n_rel" ] ]. espermatozoide_n1 := n_ppcomp_count_le & [ STEM < "espermatozoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espermatozoide_n_rel" ] ]. espermatozoo_n2 := n_ppcomp_count_le & [ STEM < "espermatozoo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espermatozoo_n_rel" ] ]. espermina_n1 := n_intr_count_le & [ STEM < "espermina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espermina_n_rel" ] ]. espermiogénesis_n1 := n_intr_uncount_le & [ STEM < "espermiogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espermiogénesis_n_rel" ] ]. espermático_a1 := a_rel_nonprd_intr_le & [ STEM < "espermático" >, SYNSEM.LKEYS.KEYREL.PRED "_espermático_a_rel" ]. espermátida_n1 := n_intr_count_le & [ STEM < "espermátida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espermátida_n_rel" ] ]. espermátide_n1 := n_intr_count_le & [ STEM < "espermátide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_espermátide_n_rel" ] ]. esperpento_n1 := n_intr_count_le & [ STEM < "esperpento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esperpento_n_rel" ] ]. espesador_n1 := n_intr_count_le & [ STEM < "espesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espesador_n_rel" ] ]. espesamente_x1 := av_i_spr_le & [ STEM < "espesamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espesamente_x_rel" ]. espesamiento_n1 := n_trans_le & [ STEM < "espesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_espesamiento_n_rel" ]. espesante_n1 := n_intr_mass-or-count_le & [ STEM < "espesante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_espesante_n_rel" ] ]. espesar_v := v_trans_np_caus_le & [ STEM < "espesar" >, SYNSEM.LKEYS.KEYREL.PRED "_espesar_v_rel" ]. espesartita_n1 := n_intr_count_le & [ STEM < "espesartita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espesartita_n_rel" ] ]. espeso_a1 := a_qual_intr_scopal_le & [ STEM < "espeso" >, SYNSEM.LKEYS.KEYREL.PRED "_espeso_a_rel" ]. espesor_n1 := n_intr_mass_le & [ STEM < "espesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_espesor_n_rel" ] ]. espesura_n1 := n_ppcomp_mass_le & [ STEM < "espesura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espesura_n_rel" ] ]. espetar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "espetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_espetar_v_rel" ] ]. espetar_v2 := v_ditrans*_le & [ STEM < "espetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_espetar_v_rel" ] ]. espetar_v3 := v_ditrans_le & [ STEM < "espetar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro_sem, PRED "_espetar_v_rel" ] ]. espiar_v1 := v_trans_np_le & [ STEM < "espiar" >, SYNSEM.LKEYS.KEYREL.PRED "_espiar_v_rel" ]. espiar_v2 := v_trans_cp_semi_ques_le & [ STEM < "espiar" >, SYNSEM.LKEYS.KEYREL.PRED "_espiar_v_rel" ]. espiga_n1 := n_intr_count_le & [ STEM < "espiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espiga_n_rel" ] ]. espigar_v := v_trans_np*_le & [ STEM < "espigar" >, SYNSEM.LKEYS.KEYREL.PRED "_espigar_v_rel" ]. espigón_n1 := n_intr_count_le & [ STEM < "espigón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espigón_n_rel" ] ]. espina_n1 := n_intr_count_le & [ STEM < "espina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espina_n_rel" ] ]. espinaca_n1 := n_intr_mass_le & [ STEM < "espinaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_espinaca_n_rel" ] ]. espinal_a1 := a_rel_nonprd_intr_le & [ STEM < "espinal" >, SYNSEM.LKEYS.KEYREL.PRED "_espinal_a_rel" ]. espinal_n1 := n_intr_count_le & [ STEM < "espinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_espinal_n_rel" ] ]. espinazo_n2 := n_ppcomp_count_le & [ STEM < "espinazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_espinazo_n_rel" ] ]. espinela_n1 := n_intr_count_le & [ STEM < "espinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espinela_n_rel" ] ]. espineta_n1 := n_intr_count_le & [ STEM < "espineta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espineta_n_rel" ] ]. espinilla_n1 := n_intr_count_le & [ STEM < "espinilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espinilla_n_rel" ] ]. espinillera_n1 := n_intr_count_le & [ STEM < "espinillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espinillera_n_rel" ] ]. espino_n1 := n_intr_count_le & [ STEM < "espino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_espino_n_rel" ] ]. espinoso_a1 := a_qual_intr_scopal_le & [ STEM < "espinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_espinoso_a_rel" ]. espinterómetro_n1 := n_intr_count_le & [ STEM < "espinterómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espinterómetro_n_rel" ] ]. espionaje_n1 := n_trans_le & [ STEM < "espionaje" >, SYNSEM.LKEYS.KEYREL.PRED "_espionaje_n_rel" ]. espira_n1 := n_intr_count_le & [ STEM < "espira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espira_n_rel" ] ]. espiración_n1 := n_result_intr_le & [ STEM < "espiración" >, SYNSEM.LKEYS.KEYREL.PRED "_espiración_n_rel" ]. espiral_a1 := a_rel_nonprd_intr_le & [ STEM < "espiral" >, SYNSEM.LKEYS.KEYREL.PRED "_espiral_a_rel" ]. espiral_n1 := n_intr_count_le & [ STEM < "espiral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espiral_n_rel" ] ]. espirante_a1 := a_rel_nonprd_intr_le & [ STEM < "espirante" >, SYNSEM.LKEYS.KEYREL.PRED "_espirante_a_rel" ]. espirar_v := v_trans_np*_le & [ STEM < "espirar" >, SYNSEM.LKEYS.KEYREL.PRED "_espirar_v_rel" ]. espirea_n1 := n_intr_count_le & [ STEM < "espirea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_espirea_n_rel" ] ]. espirema_n1 := n_intr_count_le & [ STEM < "espirema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espirema_n_rel" ] ]. espiritismo_n1 := n_intr_uncount_le & [ STEM < "espiritismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espiritismo_n_rel" ] ]. espiritista_n1 := n_intr_count_le & [ STEM < "espiritista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espiritista_n_rel" ] ]. espiritual_a1 := a_rel_nonprd_intr_le & [ STEM < "espiritual" >, SYNSEM.LKEYS.KEYREL.PRED "_espiritual_a_rel" ]. espiritualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "espiritualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espiritualidad_n_rel" ] ]. espiritualismo_n1 := n_intr_uncount_le & [ STEM < "espiritualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espiritualismo_n_rel" ] ]. espiritualista_a1 := a_qual_intr_scopal_le & [ STEM < "espiritualista" >, SYNSEM.LKEYS.KEYREL.PRED "_espiritualista_a_rel" ]. espiritualista_n1 := n_intr_count_le & [ STEM < "espiritualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espiritualista_n_rel" ] ]. espiritualización_n1 := n_trans_le & [ STEM < "espiritualización" >, SYNSEM.LKEYS.KEYREL.PRED "_espiritualización_n_rel" ]. espiritualmente_x1 := av_i_spr_le & [ STEM < "espiritualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_espiritualmente_x_rel" ]. espiroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "espiroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_espiroideo_a_rel" ]. espirometría_n1 := n_intr_count_le & [ STEM < "espirometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espirometría_n_rel" ] ]. espirometálico_a1 := a_rel_nonprd_intr_le & [ STEM < "espirometálico" >, SYNSEM.LKEYS.KEYREL.PRED "_espirometálico_a_rel" ]. espiráculo_n1 := n_intr_count_le & [ STEM < "espiráculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espiráculo_n_rel" ] ]. espirógrafo_n1 := n_intr_count_le & [ STEM < "espirógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_espirógrafo_n_rel" ] ]. espirómetro_n1 := n_intr_count_le & [ STEM < "espirómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_espirómetro_n_rel" ] ]. espita_n1 := n_intr_count_le & [ STEM < "espita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espita_n_rel" ] ]. esplacnocráneo_n1 := n_ppcomp_count_le & [ STEM < "esplacnocráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esplacnocráneo_n_rel" ] ]. esplacnoesqueleto_n1 := n_ppcomp_count_le & [ STEM < "esplacnoesqueleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esplacnoesqueleto_n_rel" ] ]. esplendor_n1 := n_intr_uncount_pl_le & [ STEM < "esplendor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esplendor_n_rel" ] ]. esplenectomía_n1 := n_intr_count_le & [ STEM < "esplenectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esplenectomía_n_rel" ] ]. esplenio_n1 := n_ppcomp_count_le & [ STEM < "esplenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esplenio_n_rel" ] ]. esplenomegalia_n1 := n_intr_uncount_le & [ STEM < "esplenomegalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esplenomegalia_n_rel" ] ]. esplenócito_n1 := n_intr_count_le & [ STEM < "esplenócito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esplenócito_n_rel" ] ]. espliego_n1 := n_intr_mass_le & [ STEM < "espliego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espliego_n_rel" ] ]. esplácnico_a1 := a_rel_nonprd_intr_le & [ STEM < "esplácnico" >, SYNSEM.LKEYS.KEYREL.PRED "_esplácnico_a_rel" ]. espléndidamente_x1 := av_i_spr_le & [ STEM < "espléndidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espléndidamente_x_rel" ]. espléndido_a1 := a_qual_intr_scopal_le & [ STEM < "espléndido" >, SYNSEM.LKEYS.KEYREL.PRED "_espléndido_a_rel" ]. esplénico_a1 := a_rel_nonprd_intr_le & [ STEM < "esplénico" >, SYNSEM.LKEYS.KEYREL.PRED "_esplénico_a_rel" ]. espodumena_n1 := n_intr_count_le & [ STEM < "espodumena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espodumena_n_rel" ] ]. espodúmeno_n1 := n_intr_mass_le & [ STEM < "espodúmeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_espodúmeno_n_rel" ] ]. espolear_v := v_trans_np_le & [ STEM < "espolear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT ani_hum, PRED "_espolear_v_rel" ] ]. espoleta_n1 := n_intr_count_le & [ STEM < "espoleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espoleta_n_rel" ] ]. espolio_n1 := n_intr_uncount_pl_le & [ STEM < "espolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espolio_n_rel" ] ]. espolvoreadora_n1 := n_intr_count_le & [ STEM < "espolvoreadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espolvoreadora_n_rel" ] ]. espolvorear_v := v_trans_np_le & [ STEM < "espolvorear" >, SYNSEM.LKEYS.KEYREL.PRED "_espolvorear_v_rel" ]. espolvoreo_n1 := n_trans_le & [ STEM < "espolvoreo" >, SYNSEM.LKEYS.KEYREL.PRED "_espolvoreo_n_rel" ]. espolón_n1 := n_intr_count_le & [ STEM < "espolón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espolón_n_rel" ] ]. espondilitis_n1 := n_intr_uncount_le & [ STEM < "espondilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espondilitis_n_rel" ] ]. esponja_n1 := n_intr_count_le & [ STEM < "esponja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esponja_n_rel" ] ]. esponjamiento_n1 := n_trans_le & [ STEM < "esponjamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_esponjamiento_n_rel" ]. esponjar_v := v_trans_np_caus_le & [ STEM < "esponjar" >, SYNSEM.LKEYS.KEYREL.PRED "_esponjar_v_rel" ]. esponjera_n1 := n_intr_count_le & [ STEM < "esponjera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esponjera_n_rel" ] ]. esponjosidad_n1 := n_intr_uncount_le & [ STEM < "esponjosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esponjosidad_n_rel" ] ]. esponjoso_a1 := a_qual_intr_scopal_le & [ STEM < "esponjoso" >, SYNSEM.LKEYS.KEYREL.PRED "_esponjoso_a_rel" ]. esponsales_n1 := n_intr_uncount_pl_le & [ STEM < "esponsales" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esponsales_n_rel" ] ]. esponsalicio_a1 := a_rel_nonprd_intr_le & [ STEM < "esponsalicio" >, SYNSEM.LKEYS.KEYREL.PRED "_esponsalicio_a_rel" ]. esponsorización_n1 := n_trans_le & [ STEM < "esponsorización" >, SYNSEM.LKEYS.KEYREL.PRED "_esponsorización_n_rel" ]. espontaneidad_n1 := n_ppcomp_mass_le & [ STEM < "espontaneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espontaneidad_n_rel" ] ]. espontáneamente_x1 := av_i_spr_le & [ STEM < "espontáneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espontáneamente_x_rel" ]. espontáneo_a1 := a_qual_intr_scopal_le & [ STEM < "espontáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_espontáneo_a_rel" ]. espora_n1 := n_intr_count_le & [ STEM < "espora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espora_n_rel" ] ]. esporádicamente_x1 := av_s_prhd_spr_le & [ STEM < "esporádicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esporádicamente_x_rel" ]. esporádicamente_x2 := av_i_psthd_spr_le & [ STEM < "esporádicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esporádicamente_x_rel" ]. esporádico_a1 := a_adv_event_le & [ STEM < "esporádico" >, SYNSEM.LKEYS.KEYREL.PRED "_esporádico_a_rel" ]. esporócito_n1 := n_intr_count_le & [ STEM < "esporócito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esporócito_n_rel" ] ]. esporófito_n1 := n_intr_count_le & [ STEM < "esporófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esporófito_n_rel" ] ]. esposa_n1 := n_intr_count_le & [ STEM < "esposa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esposa_n_rel" ] ]. esposar_v := v_trans_np_le & [ STEM < "esposar" >, SYNSEM.LKEYS.KEYREL.PRED "_esposar_v_rel" ]. esposas_n1 := n_intr_count_le & [ STEM < "esposas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esposas_n_rel" ] ]. esposo_n1 := n_ppcomp_count_le & [ STEM < "esposo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esposo_n_rel" ] ]. espray_n1 := n_intr_count_le & [ STEM < "espray" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espray_n_rel" ] ]. esprint_n1 := n_intr_count_le & [ STEM < "esprint" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esprint_n_rel" ] ]. esprintar_v := v_intr_le & [ STEM < "esprintar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_esprintar_v_rel" ] ]. esprinter_n1 := n_intr_count_le & [ STEM < "esprinter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esprinter_n_rel" ] ]. esprínter_n1 := n_intr_count_le & [ STEM < "esprínter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esprínter_n_rel" ] ]. espuela_n1 := n_intr_count_le & [ STEM < "espuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espuela_n_rel" ] ]. espuma_n1 := n_intr_mass_le & [ STEM < "espuma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espuma_n_rel" ] ]. espumadera_n1 := n_intr_count_le & [ STEM < "espumadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espumadera_n_rel" ] ]. espumante_a1 := a_rel_nonprd_intr_le & [ STEM < "espumante" >, SYNSEM.LKEYS.KEYREL.PRED "_espumante_a_rel" ]. espumantemente_x1 := av_i_spr_le & [ STEM < "espumantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_espumantemente_x_rel" ]. espumar_v := v_trans_np*_le & [ STEM < "espumar" >, SYNSEM.LKEYS.KEYREL.PRED "_espumar_v_rel" ]. espumoso_a1 := a_qual_intr_scopal_le & [ STEM < "espumoso" >, SYNSEM.LKEYS.KEYREL.PRED "_espumoso_a_rel" ]. espuriamente_x1 := av_i_spr_le & [ STEM < "espuriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_espuriamente_x_rel" ]. espurio_a1 := a_rel_nonprd_intr_le & [ STEM < "espurio" >, SYNSEM.LKEYS.KEYREL.PRED "_espurio_a_rel" ]. esputo_n1 := n_intr_mass_le & [ STEM < "esputo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esputo_n_rel" ] ]. espádice_n1 := n_intr_uncount_pl_le & [ STEM < "espádice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espádice_n_rel" ] ]. espárrago_n1 := n_intr_mass_le & [ STEM < "espárrago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espárrago_n_rel" ] ]. espástico_a1 := a_rel_nonprd_intr_le & [ STEM < "espástico" >, SYNSEM.LKEYS.KEYREL.PRED "_espástico_a_rel" ]. espático_a1 := a_rel_nonprd_intr_le & [ STEM < "espático" >, SYNSEM.LKEYS.KEYREL.PRED "_espático_a_rel" ]. espátula_n1 := n_intr_count_le & [ STEM < "espátula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espátula_n_rel" ] ]. espécimen_n1 := n_intr_count_le & [ STEM < "espécimen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_espécimen_n_rel" ] ]. espéculo_n1 := n_intr_count_le & [ STEM < "espéculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_espéculo_n_rel" ] ]. espía_n1 := n_intr_count_le & [ STEM < "espía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_espía_n_rel" ] ]. espíritu_n1 := n_intr_count_le & [ STEM < "espíritu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_espíritu_n_rel" ] ]. espódico_a1 := a_rel_nonprd_intr_le & [ STEM < "espódico" >, SYNSEM.LKEYS.KEYREL.PRED "_espódico_a_rel" ]. espónsor_n1 := n_intr_count_le & [ STEM < "espónsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_espónsor_n_rel" ] ]. espúreo_a1 := a_rel_nonprd_intr_le & [ STEM < "espúreo" >, SYNSEM.LKEYS.KEYREL.PRED "_espúreo_a_rel" ]. esqueje_n1 := n_intr_count_le & [ STEM < "esqueje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_esqueje_n_rel" ] ]. esquela_n1 := n_intr_count_le & [ STEM < "esquela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_esquela_n_rel" ] ]. esqueleto_n1 := n_intr_count_le & [ STEM < "esqueleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esqueleto_n_rel" ] ]. esquelético_a1 := a_qual_intr_scopal_le & [ STEM < "esquelético" >, SYNSEM.LKEYS.KEYREL.PRED "_esquelético_a_rel" ]. esquema_n1 := n_intr_count_le & [ STEM < "esquema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_esquema_n_rel" ] ]. esquematismo_n1 := n_intr_uncount_le & [ STEM < "esquematismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquematismo_n_rel" ] ]. esquematizadamente_x1 := av_i_spr_le & [ STEM < "esquematizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esquematizadamente_x_rel" ]. esquematizar_v := v_trans_np_le & [ STEM < "esquematizar" >, SYNSEM.LKEYS.KEYREL.PRED "_esquematizar_v_rel" ]. esquemáticamente_x1 := av_i_spr_le & [ STEM < "esquemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_esquemáticamente_x_rel" ]. esquemático_a1 := a_rel_nonprd_intr_le & [ STEM < "esquemático" >, SYNSEM.LKEYS.KEYREL.PRED "_esquemático_a_rel" ]. esquerranista_a1 := a_qual_intr_ser_le & [ STEM < "esquerranista" >, SYNSEM.LKEYS.KEYREL.PRED "_esquerranista_a_rel" ]. esquiable_a1 := a_rel_prd_le & [ STEM < "esquiable" >, SYNSEM.LKEYS.KEYREL.PRED "_esquiable_a_rel" ]. esquiador_n1 := n_intr_count_le & [ STEM < "esquiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquiador_n_rel" ] ]. esquiar_v := v_intr_le & [ STEM < "esquiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_esquiar_v_rel" ] ]. esquiascopia_n1 := n_intr_uncount_le & [ STEM < "esquiascopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquiascopia_n_rel" ] ]. esquife_n1 := n_intr_count_le & [ STEM < "esquife" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_esquife_n_rel" ] ]. esquifista_n1 := n_intr_count_le & [ STEM < "esquifista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquifista_n_rel" ] ]. esquilador_n1 := n_subj-nom_le & [ STEM < "esquilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquilador_n_rel" ] ]. esquilar_v := v_trans_np_le & [ STEM < "esquilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, ARG2.SORT ani_hum, PRED "_esquilar_v_rel" ] ]. esquilmación_n1 := n_trans_le & [ STEM < "esquilmación" >, SYNSEM.LKEYS.KEYREL.PRED "_esquilmación_n_rel" ]. esquilmar_v := v_trans_np_le & [ STEM < "esquilmar" >, SYNSEM.LKEYS.KEYREL.PRED "_esquilmar_v_rel" ]. esquimal_a1 := a_rel_prd_le & [ STEM < "esquimal" >, SYNSEM.LKEYS.KEYREL.PRED "_esquimal_a_rel" ]. esquimal_n1 := n_intr_count_le & [ STEM < "esquimal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquimal_n_rel" ] ]. esquimotaje_n1 := n_intr_uncount_le & [ STEM < "esquimotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquimotaje_n_rel" ] ]. esquimotaje_n2 := n_intr_count_le & [ STEM < "esquimotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquimotaje_n_rel" ] ]. esquina_n1 := n_intr_count_le & [ STEM < "esquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_esquina_n_rel" ] ]. esquindelesis_n1 := n_intr_uncount_le & [ STEM < "esquindelesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquindelesis_n_rel" ] ]. esquirla_n1 := n_intr_count_le & [ STEM < "esquirla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esquirla_n_rel" ] ]. esquirol_n1 := n_intr_count_le & [ STEM < "esquirol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_esquirol_n_rel" ] ]. esquisto_n1 := n_intr_mass_le & [ STEM < "esquisto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esquisto_n_rel" ] ]. esquistocito_n1 := n_intr_count_le & [ STEM < "esquistocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esquistocito_n_rel" ] ]. esquistosidad_n1 := n_intr_uncount_le & [ STEM < "esquistosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquistosidad_n_rel" ] ]. esquistoso_a1 := a_rel_nonprd_intr_le & [ STEM < "esquistoso" >, SYNSEM.LKEYS.KEYREL.PRED "_esquistoso_a_rel" ]. esquivo_a1 := a_qual_intr_ser_le & [ STEM < "esquivo" >, SYNSEM.LKEYS.KEYREL.PRED "_esquivo_a_rel" ]. esquizofasia_n1 := n_intr_uncount_le & [ STEM < "esquizofasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquizofasia_n_rel" ] ]. esquizofrenia_n1 := n_intr_uncount_le & [ STEM < "esquizofrenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esquizofrenia_n_rel" ] ]. esquizofrénico_a1 := a_qual_intr_ser_le & [ STEM < "esquizofrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_esquizofrénico_a_rel" ]. esquizofrénico_n1 := n_intr_count_le & [ STEM < "esquizofrénico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquizofrénico_n_rel" ] ]. esquizoide_a1 := a_rel_nonprd_intr_le & [ STEM < "esquizoide" >, SYNSEM.LKEYS.KEYREL.PRED "_esquizoide_a_rel" ]. esquizoide_n1 := n_intr_count_le & [ STEM < "esquizoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esquizoide_n_rel" ] ]. esquizomiceto_n1 := n_intr_count_le & [ STEM < "esquizomiceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_esquizomiceto_n_rel" ] ]. esquí_n1 := n_intr_count_le & [ STEM < "esquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esquí_n_rel" ] ]. estabilidad_n1 := n_ppcomp_mass_le & [ STEM < "estabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estabilidad_n_rel" ] ]. estabiliente_n1 := n_intr_count_le & [ STEM < "estabiliente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estabiliente_n_rel" ] ]. estabilización_n1 := n_trans_le & [ STEM < "estabilización" >, SYNSEM.LKEYS.KEYREL.PRED "_estabilización_n_rel" ]. estabilizador_a1 := a_rel_nonprd_intr_le & [ STEM < "estabilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_estabilizador_a_rel" ]. estabilizador_n1 := n_intr_count_le & [ STEM < "estabilizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estabilizador_n_rel" ] ]. estabilizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "estabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_estabilizar_v_rel" ]. estabilizar_v2 := v_trans_np_caus_le & [ STEM < "estabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_estabilizar_v_rel" ]. estable_a1 := a_qual_intr_scopal_le & [ STEM < "estable" >, SYNSEM.LKEYS.KEYREL.PRED "_estable_a_rel" ]. establecer_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "establecer" >, SYNSEM.LKEYS.KEYREL.PRED "_establecer_v_rel" ]. establecer_v2 := v_trans_cp_prop_fin_ind_le & [ STEM < "establecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_establecer_v_rel" ] ]. establecer_v3 := v_trans_np_le & [ STEM < "establecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_establecer_v_rel" ] ]. establecimiento_n1 := n_intr_count_le & [ STEM < "establecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_establecimiento_n_rel" ] ]. establo_n1 := n_intr_count_le & [ STEM < "establo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_establo_n_rel" ] ]. estabulación_n1 := n_trans_le & [ STEM < "estabulación" >, SYNSEM.LKEYS.KEYREL.PRED "_estabulación_n_rel" ]. estaca_n1 := n_intr_count_le & [ STEM < "estaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estaca_n_rel" ] ]. estacada_n1 := n_intr_count_le & [ STEM < "estacada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estacada_n_rel" ] ]. estacha_n1 := n_intr_count_le & [ STEM < "estacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estacha_n_rel" ] ]. estacional_a1 := a_rel_nonprd_intr_le & [ STEM < "estacional" >, SYNSEM.LKEYS.KEYREL.PRED "_estacional_a_rel" ]. estacionalidad_n1 := n_intr_uncount_le & [ STEM < "estacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estacionalidad_n_rel" ] ]. estacionalmente_x1 := av_i_spr_le & [ STEM < "estacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_estacionalmente_x_rel" ]. estacionamiento_n1 := n_trans_le & [ STEM < "estacionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estacionamiento_n_rel" ]. estacionar_v := v_pron_unacc_lcomp_loc*_le & [ STEM < "estacionar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot, PRED "_estacionar_v_rel" ] ]. estacionariamente_x1 := av_i_spr_le & [ STEM < "estacionariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estacionariamente_x_rel" ]. estacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "estacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_estacionario_a_rel" ]. estación_n1 := n_intr_count_le & [ STEM < "estación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_estación_n_rel" ] ]. estadillo_n1 := n_intr_count_le & [ STEM < "estadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_estadillo_n_rel" ] ]. estadimetría_n1 := n_intr_uncount_le & [ STEM < "estadimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estadimetría_n_rel" ] ]. estadimétricamente_x1 := av_i_spr_le & [ STEM < "estadimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estadimétricamente_x_rel" ]. estadimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "estadimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_estadimétrico_a_rel" ]. estadio_n1 := n_intr_count_le & [ STEM < "estadio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_estadio_n_rel" ] ]. estadista_n1 := n_intr_count_le & [ STEM < "estadista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estadista_n_rel" ] ]. estado_n1 := n_intr_count_le & [ STEM < "estado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_estado_n_rel" ] ]. estadounidense_a1 := a_rel_prd_le & [ STEM < "estadounidense" >, SYNSEM.LKEYS.KEYREL.PRED "_estadounidense_a_rel" ]. estadounidense_n1 := n_intr_count_le & [ STEM < "estadounidense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estadounidense_n_rel" ] ]. estadía_n1 := n_intr_count_le & [ STEM < "estadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estadía_n_rel" ] ]. estadímetro_n1 := n_intr_count_le & [ STEM < "estadímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estadímetro_n_rel" ] ]. estadística_n1 := n_intr_mass_le & [ STEM < "estadística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_estadística_n_rel" ] ]. estadísticamente_x1 := av_i_spr_le & [ STEM < "estadísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estadísticamente_x_rel" ]. estadístico_a1 := a_rel_nonprd_intr_le & [ STEM < "estadístico" >, SYNSEM.LKEYS.KEYREL.PRED "_estadístico_a_rel" ]. estafa_n1 := n_trans_le & [ STEM < "estafa" >, SYNSEM.LKEYS.KEYREL.PRED "_estafa_n_rel" ]. estafador_n1 := n_subj-nom_le & [ STEM < "estafador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estafador_n_rel" ] ]. estafar_v := v_ditrans*_le & [ STEM < "estafar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_estafar_v_rel" ] ]. estafeta_n1 := n_intr_count_le & [ STEM < "estafeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estafeta_n_rel" ] ]. estafiloma_n1 := n_intr_count_le & [ STEM < "estafiloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estafiloma_n_rel" ] ]. estajanovismo_n1 := n_intr_uncount_le & [ STEM < "estajanovismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estajanovismo_n_rel" ] ]. estalactita_n1 := n_intr_count_le & [ STEM < "estalactita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estalactita_n_rel" ] ]. estalagmita_n1 := n_intr_count_le & [ STEM < "estalagmita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estalagmita_n_rel" ] ]. estalinista_a1 := a_qual_intr_ser_le & [ STEM < "estalinista" >, SYNSEM.LKEYS.KEYREL.PRED "_estalinista_a_rel" ]. estallar_v := v_unacc_perf_le & [ STEM < "estallar" >, SYNSEM.LKEYS.KEYREL.PRED "_estallar_v_rel" ]. estallido_n1 := n_result_intr_le & [ STEM < "estallido" >, SYNSEM.LKEYS.KEYREL.PRED "_estallido_n_rel" ]. estambre_n1 := n_intr_count_le & [ STEM < "estambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estambre_n_rel" ] ]. estamento_n1 := n_intr_count_le & [ STEM < "estamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_estamento_n_rel" ] ]. estampa_n1 := n_trans_le & [ STEM < "estampa" >, SYNSEM.LKEYS.KEYREL.PRED "_estampa_n_rel" ]. estampación_n1 := n_trans_le & [ STEM < "estampación" >, SYNSEM.LKEYS.KEYREL.PRED "_estampación_n_rel" ]. estampado_n1 := n_trans_le & [ STEM < "estampado" >, SYNSEM.LKEYS.KEYREL.PRED "_estampado_n_rel" ]. estampador_n1 := n_intr_count_le & [ STEM < "estampador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_estampador_n_rel" ] ]. estampar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "estampar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_estampar_v_rel" ] ]. estampar_v2 := v_trans_np_le & [ STEM < "estampar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, PRED "_estampar_v_rel" ] ]. estampida_n1 := n_intr_count_le & [ STEM < "estampida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estampida_n_rel" ] ]. estampido_n1 := n_intr_count_le & [ STEM < "estampido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estampido_n_rel" ] ]. estampilla_n1 := n_intr_count_le & [ STEM < "estampilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estampilla_n_rel" ] ]. estancamiento_n1 := n_trans_le & [ STEM < "estancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estancamiento_n_rel" ]. estancar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "estancar" >, SYNSEM.LKEYS.KEYREL.PRED "_estancar_v_rel" ]. estancar_v2 := v_trans_np_caus_le & [ STEM < "estancar" >, SYNSEM.LKEYS.KEYREL.PRED "_estancar_v_rel" ]. estancia_n1 := n_intr_count_le & [ STEM < "estancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_estancia_n_rel" ] ]. estanco_a1 := a_rel_nonprd_intr_le & [ STEM < "estanco" >, SYNSEM.LKEYS.KEYREL.PRED "_estanco_a_rel" ]. estanco_n1 := n_intr_count_le & [ STEM < "estanco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_estanco_n_rel" ] ]. estandarización_n1 := n_trans_le & [ STEM < "estandarización" >, SYNSEM.LKEYS.KEYREL.PRED "_estandarización_n_rel" ]. estandarizadamente_x1 := av_i_spr_le & [ STEM < "estandarizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estandarizadamente_x_rel" ]. estandarizar_v := v_trans_np_le & [ STEM < "estandarizar" >, SYNSEM.LKEYS.KEYREL.PRED "_estandarizar_v_rel" ]. estandarte_n1 := n_intr_count_le & [ STEM < "estandarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_estandarte_n_rel" ] ]. estannato_n1 := n_intr_count_le & [ STEM < "estannato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estannato_n_rel" ] ]. estannita_n1 := n_intr_count_le & [ STEM < "estannita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estannita_n_rel" ] ]. estanque_n1 := n_intr_count_le & [ STEM < "estanque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estanque_n_rel" ] ]. estanqueidad_n1 := n_intr_uncount_le & [ STEM < "estanqueidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estanqueidad_n_rel" ] ]. estanquero_n1 := n_intr_count_le & [ STEM < "estanquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estanquero_n_rel" ] ]. estanquidad_n1 := n_ppcomp_uncount_le & [ STEM < "estanquidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estanquidad_n_rel" ] ]. estante_n1 := n_intr_count_le & [ STEM < "estante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estante_n_rel" ] ]. estantería_n1 := n_intr_count_le & [ STEM < "estantería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estantería_n_rel" ] ]. estapedectomía_n1 := n_intr_count_le & [ STEM < "estapedectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estapedectomía_n_rel" ] ]. estapedial_a1 := a_rel_nonprd_intr_le & [ STEM < "estapedial" >, SYNSEM.LKEYS.KEYREL.PRED "_estapedial_a_rel" ]. estapediotomía_n1 := n_intr_count_le & [ STEM < "estapediotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estapediotomía_n_rel" ] ]. estapediovestibular_a1 := a_rel_nonprd_intr_le & [ STEM < "estapediovestibular" >, SYNSEM.LKEYS.KEYREL.PRED "_estapediovestibular_a_rel" ]. estar_va := v_cop_prd_estar_le & [ STEM < "estar" > ]. estarcidor_n1 := n_intr_count_le & [ STEM < "estarcidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estarcidor_n_rel" ] ]. estatal_a1 := a_rel_nonprd_intr_le & [ STEM < "estatal" >, SYNSEM.LKEYS.KEYREL.PRED "_estatal_a_rel" ]. estatalismo_n1 := n_intr_uncount_le & [ STEM < "estatalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estatalismo_n_rel" ] ]. estatera_n1 := n_intr_count_le & [ STEM < "estatera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estatera_n_rel" ] ]. estatismo_n1 := n_intr_uncount_le & [ STEM < "estatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estatismo_n_rel" ] ]. estatoacústico_a1 := a_rel_nonprd_intr_le & [ STEM < "estatoacústico" >, SYNSEM.LKEYS.KEYREL.PRED "_estatoacústico_a_rel" ]. estator_n1 := n_intr_count_le & [ STEM < "estator" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estator_n_rel" ] ]. estatua_n1 := n_intr_count_le & [ STEM < "estatua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estatua_n_rel" ] ]. estatuario_n1 := n_intr_count_le & [ STEM < "estatuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_estatuario_n_rel" ] ]. estatuilla_n1 := n_intr_count_le & [ STEM < "estatuilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estatuilla_n_rel" ] ]. estatuir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "estatuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_estatuir_v_rel" ] ]. estatuir_v2 := v_trans_np_le & [ STEM < "estatuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_estatuir_v_rel" ] ]. estatura_n1 := n_intr_mass_le & [ STEM < "estatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estatura_n_rel" ] ]. estatutariamente_x1 := av_i_spr_le & [ STEM < "estatutariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estatutariamente_x_rel" ]. estatutario_a1 := a_rel_nonprd_intr_le & [ STEM < "estatutario" >, SYNSEM.LKEYS.KEYREL.PRED "_estatutario_a_rel" ]. estatuto_n1 := n_intr_count_le & [ STEM < "estatuto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_estatuto_n_rel" ] ]. estaurolita_n1 := n_intr_count_le & [ STEM < "estaurolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estaurolita_n_rel" ] ]. estañadura_n1 := n_trans_le & [ STEM < "estañadura" >, SYNSEM.LKEYS.KEYREL.PRED "_estañadura_n_rel" ]. estañar_v := v_trans_np*_le & [ STEM < "estañar" >, SYNSEM.LKEYS.KEYREL.PRED "_estañar_v_rel" ]. estaño_n1 := n_intr_mass_le & [ STEM < "estaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estaño_n_rel" ] ]. este_d := d_dem_este_le & [ STEM < "este" > ]. este_p := pr_dem_le & [ STEM < "este" >, SYNSEM.LKEYS.ALTKEYREL.PRED _este_q_rel ]. estearato_n1 := n_intr_count_le & [ STEM < "estearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estearato_n_rel" ] ]. estearina_n1 := n_intr_mass_le & [ STEM < "estearina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estearina_n_rel" ] ]. estearílico_a1 := a_rel_nonprd_intr_le & [ STEM < "estearílico" >, SYNSEM.LKEYS.KEYREL.PRED "_estearílico_a_rel" ]. esteatita_n1 := n_intr_count_le & [ STEM < "esteatita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esteatita_n_rel" ] ]. estefanita_n1 := n_intr_count_le & [ STEM < "estefanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estefanita_n_rel" ] ]. estela_n1 := n_intr_count_le & [ STEM < "estela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estela_n_rel" ] ]. estelar_a1 := a_rel_nonprd_intr_le & [ STEM < "estelar" >, SYNSEM.LKEYS.KEYREL.PRED "_estelar_a_rel" ]. estelionato_n1 := n_intr_uncount_le & [ STEM < "estelionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estelionato_n_rel" ] ]. estelita_n1 := n_intr_count_le & [ STEM < "estelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estelita_n_rel" ] ]. estelómetro_n1 := n_intr_count_le & [ STEM < "estelómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estelómetro_n_rel" ] ]. estenografiar_v := v_trans_np_le & [ STEM < "estenografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_estenografiar_v_rel" ]. estenografía_n1 := n_intr_uncount_le & [ STEM < "estenografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estenografía_n_rel" ] ]. estenograma_n1 := n_intr_count_le & [ STEM < "estenograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_estenograma_n_rel" ] ]. estenosis_n1 := n_intr_uncount_le & [ STEM < "estenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estenosis_n_rel" ] ]. estentéreo_a1 := a_adv_event_le & [ STEM < "estentéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_estentéreo_a_rel" ]. estentóreo_a1 := a_adv_event_le & [ STEM < "estentóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_estentóreo_a_rel" ]. estenógrafo_n1 := n_intr_count_le & [ STEM < "estenógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estenógrafo_n_rel" ] ]. esteorradián_n := n_intr_count_le & [ STEM < "esteorradián" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_esteorradián_n_rel" ] ]. estepa_n1 := n_intr_count_le & [ STEM < "estepa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estepa_n_rel" ] ]. estequiometría_n1 := n_intr_count_le & [ STEM < "estequiometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estequiometría_n_rel" ] ]. estequiométricamente_x1 := av_i_spr_le & [ STEM < "estequiométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estequiométricamente_x_rel" ]. estequiométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "estequiométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_estequiométrico_a_rel" ]. estera_n1 := n_intr_count_le & [ STEM < "estera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estera_n_rel" ] ]. esterasa_n1 := n_intr_count_le & [ STEM < "esterasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esterasa_n_rel" ] ]. estercoladura_n1 := n_trans_le & [ STEM < "estercoladura" >, SYNSEM.LKEYS.KEYREL.PRED "_estercoladura_n_rel" ]. estercolar_v := v_trans_np_le & [ STEM < "estercolar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_mat_plant, PRED "_estercolar_v_rel" ] ]. estercolero_n1 := n_intr_count_le & [ STEM < "estercolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_estercolero_n_rel" ] ]. estereobloque_n1 := n_intr_count_le & [ STEM < "estereobloque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estereobloque_n_rel" ] ]. estereocilio_n1 := n_intr_count_le & [ STEM < "estereocilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estereocilio_n_rel" ] ]. estereocristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "estereocristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_estereocristalino_a_rel" ]. estereoespecífico_a1 := a_rel_nonprd_intr_le & [ STEM < "estereoespecífico" >, SYNSEM.LKEYS.KEYREL.PRED "_estereoespecífico_a_rel" ]. estereofonía_n1 := n_intr_uncount_le & [ STEM < "estereofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estereofonía_n_rel" ] ]. estereofónicamente_x1 := av_i_spr_le & [ STEM < "estereofónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estereofónicamente_x_rel" ]. estereofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "estereofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_estereofónico_a_rel" ]. estereograma_n1 := n_intr_count_le & [ STEM < "estereograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estereograma_n_rel" ] ]. estereográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "estereográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_estereográfico_a_rel" ]. estereoisómero_n1 := n_intr_mass-or-count_le & [ STEM < "estereoisómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_estereoisómero_n_rel" ] ]. estereomicroscopio_n1 := n_intr_count_le & [ STEM < "estereomicroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_estereomicroscopio_n_rel" ] ]. estereoquímica_n1 := n_intr_uncount_le & [ STEM < "estereoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estereoquímica_n_rel" ] ]. estereorradián_n := n_intr_count_le & [ STEM < "estereorradián" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_estereorradián_n_rel" ] ]. estereorregular_a1 := a_rel_nonprd_intr_le & [ STEM < "estereorregular" >, SYNSEM.LKEYS.KEYREL.PRED "_estereorregular_a_rel" ]. estereoscopia_n1 := n_intr_count_le & [ STEM < "estereoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estereoscopia_n_rel" ] ]. estereoscopio_n1 := n_intr_count_le & [ STEM < "estereoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estereoscopio_n_rel" ] ]. estereoscópicamente_x1 := av_i_spr_le & [ STEM < "estereoscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estereoscópicamente_x_rel" ]. estereoscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "estereoscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_estereoscópico_a_rel" ]. estereoselectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "estereoselectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_estereoselectivo_a_rel" ]. estereotipia_n1 := n_intr_count_le & [ STEM < "estereotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_estereotipia_n_rel" ] ]. estereotipo_n1 := n_intr_count_le & [ STEM < "estereotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estereotipo_n_rel" ] ]. estereotomía_n1 := n_intr_count_le & [ STEM < "estereotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estereotomía_n_rel" ] ]. estereóbato_n1 := n_intr_count_le & [ STEM < "estereóbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estereóbato_n_rel" ] ]. esterificación_n1 := n_trans_le & [ STEM < "esterificación" >, SYNSEM.LKEYS.KEYREL.PRED "_esterificación_n_rel" ]. esterilidad_n1 := n_ppcomp_uncount_le & [ STEM < "esterilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esterilidad_n_rel" ] ]. esterilización_n1 := n_trans_le & [ STEM < "esterilización" >, SYNSEM.LKEYS.KEYREL.PRED "_esterilización_n_rel" ]. esterilizador_a1 := a_rel_nonprd_intr_le & [ STEM < "esterilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_esterilizador_a_rel" ]. esterilizador_n1 := n_intr_count_le & [ STEM < "esterilizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_esterilizador_n_rel" ] ]. esterilizadoramente_x1 := av_i_spr_le & [ STEM < "esterilizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_esterilizadoramente_x_rel" ]. esterilizar_v := v_trans_np_le & [ STEM < "esterilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_esterilizar_v_rel" ]. esterilla_n1 := n_intr_count_le & [ STEM < "esterilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esterilla_n_rel" ] ]. esterlina_a1 := a_rel_nonprd_intr_le & [ STEM < "esterlina" >, SYNSEM.LKEYS.KEYREL.PRED "_esterlina_a_rel" ]. esternal_a1 := a_rel_nonprd_intr_le & [ STEM < "esternal" >, SYNSEM.LKEYS.KEYREL.PRED "_esternal_a_rel" ]. esternoclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "esternoclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_esternoclavicular_a_rel" ]. esternocleidomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "esternocleidomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_esternocleidomastoideo_a_rel" ]. esternocostal_a1 := a_rel_nonprd_intr_le & [ STEM < "esternocostal" >, SYNSEM.LKEYS.KEYREL.PRED "_esternocostal_a_rel" ]. esternocostoclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "esternocostoclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_esternocostoclavicular_a_rel" ]. esternohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "esternohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_esternohioideo_a_rel" ]. esternopericardíaco_a1 := a_rel_nonprd_intr_le & [ STEM < "esternopericardíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_esternopericardíaco_a_rel" ]. esternotiroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "esternotiroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_esternotiroideo_a_rel" ]. esternón_n1 := n_ppcomp_count_le & [ STEM < "esternón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_esternón_n_rel" ] ]. estero_n1 := n_intr_count_le & [ STEM < "estero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estero_n_rel" ] ]. esteroide_n1 := n_intr_count_le & [ STEM < "esteroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_esteroide_n_rel" ] ]. estertor_n1 := n_intr_uncount_pl_le & [ STEM < "estertor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estertor_n_rel" ] ]. estertoroso_a1 := a_rel_nonprd_intr_le & [ STEM < "estertoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_estertoroso_a_rel" ]. esteta_n1 := n_intr_count_le & [ STEM < "esteta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esteta_n_rel" ] ]. esteticismo_n1 := n_intr_uncount_le & [ STEM < "esteticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_esteticismo_n_rel" ] ]. esteticista_n1 := n_intr_count_le & [ STEM < "esteticista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_esteticista_n_rel" ] ]. estetoscopio_n1 := n_intr_count_le & [ STEM < "estetoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estetoscopio_n_rel" ] ]. esteárico_a1 := a_rel_nonprd_intr_le & [ STEM < "esteárico" >, SYNSEM.LKEYS.KEYREL.PRED "_esteárico_a_rel" ]. estheticienne_n1 := n_intr_count_le & [ STEM < "estheticienne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estheticienne_n_rel" ] ]. estiaje_n1 := n_intr_uncount_le & [ STEM < "estiaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estiaje_n_rel" ] ]. estiaje_n2 := n_intr_count_le & [ STEM < "estiaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estiaje_n_rel" ] ]. estiba_n1 := n_trans_le & [ STEM < "estiba" >, SYNSEM.LKEYS.KEYREL.PRED "_estiba_n_rel" ]. estiba_n2 := n_intr_count_le & [ STEM < "estiba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estiba_n_rel" ] ]. estibador_n1 := n_subj-nom_le & [ STEM < "estibador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estibador_n_rel" ] ]. estibar_v := v_trans_np_le & [ STEM < "estibar" >, SYNSEM.LKEYS.KEYREL.PRED "_estibar_v_rel" ]. estibina_n1 := n_intr_count_le & [ STEM < "estibina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estibina_n_rel" ] ]. esticopo_n1 := n_intr_count_le & [ STEM < "esticopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_esticopo_n_rel" ] ]. estigma_n1 := n_intr_count_le & [ STEM < "estigma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estigma_n_rel" ] ]. estigmasterol_n1 := n_intr_count_le & [ STEM < "estigmasterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estigmasterol_n_rel" ] ]. estigmatización_n1 := n_trans_le & [ STEM < "estigmatización" >, SYNSEM.LKEYS.KEYREL.PRED "_estigmatización_n_rel" ]. estigmatizar_v := v_trans_np_le & [ STEM < "estigmatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_estigmatizar_v_rel" ]. estigmático_a1 := a_rel_nonprd_intr_le & [ STEM < "estigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_estigmático_a_rel" ]. estilbeno_n1 := n_intr_count_le & [ STEM < "estilbeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estilbeno_n_rel" ] ]. estilbita_n1 := n_intr_count_le & [ STEM < "estilbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estilbita_n_rel" ] ]. estilete_n1 := n_intr_count_le & [ STEM < "estilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estilete_n_rel" ] ]. estilista_n1 := n_intr_count_le & [ STEM < "estilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estilista_n_rel" ] ]. estilización_n1 := n_trans_le & [ STEM < "estilización" >, SYNSEM.LKEYS.KEYREL.PRED "_estilización_n_rel" ]. estilizar_v := v_trans_np_caus_le & [ STEM < "estilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_estilizar_v_rel" ]. estilo_n1 := n_intr_count_le & [ STEM < "estilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_estilo_n_rel" ] ]. estilofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "estilofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_estilofaríngeo_a_rel" ]. estilogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "estilogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_estilogloso_a_rel" ]. estilográfica_n1 := n_intr_count_le & [ STEM < "estilográfica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estilográfica_n_rel" ] ]. estilográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "estilográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_estilográfico_a_rel" ]. estilohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "estilohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_estilohioideo_a_rel" ]. estiloideo_a1 := a_rel_nonprd_intr_le & [ STEM < "estiloideo" >, SYNSEM.LKEYS.KEYREL.PRED "_estiloideo_a_rel" ]. estilomandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "estilomandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_estilomandibular_a_rel" ]. estilomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "estilomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_estilomastoideo_a_rel" ]. estilística_n1 := n_intr_uncount_le & [ STEM < "estilística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estilística_n_rel" ] ]. estilísticamente_x1 := av_i_spr_le & [ STEM < "estilísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estilísticamente_x_rel" ]. estilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "estilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_estilístico_a_rel" ]. estilóbato_n1 := n_intr_count_le & [ STEM < "estilóbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estilóbato_n_rel" ] ]. estilógrafo_n1 := n_intr_count_le & [ STEM < "estilógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estilógrafo_n_rel" ] ]. estima_n1 := n_trans_le & [ STEM < "estima" >, SYNSEM.LKEYS.KEYREL.PRED "_estima_n_rel" ]. estimable_a1 := a_qual_intr_scopal_le & [ STEM < "estimable" >, SYNSEM.LKEYS.KEYREL.PRED "_estimable_a_rel" ]. estimación_n1 := n_intr_mass-or-count_le & [ STEM < "estimación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estimación_n_rel" ] ]. estimador_n1 := n_subj-nom_le & [ STEM < "estimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estimador_n_rel" ] ]. estimativo_a1 := a_qual_intr_scopal_le & [ STEM < "estimativo" >, SYNSEM.LKEYS.KEYREL.PRED "_estimativo_a_rel" ]. estimatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "estimatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_estimatorio_a_rel" ]. estimulación_n1 := n_trans_le & [ STEM < "estimulación" >, SYNSEM.LKEYS.KEYREL.PRED "_estimulación_n_rel" ]. estimulador_a1 := a_qual_intr_scopal_le & [ STEM < "estimulador" >, SYNSEM.LKEYS.KEYREL.PRED "_estimulador_a_rel" ]. estimulador_n1 := n_intr_count_le & [ STEM < "estimulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estimulador_n_rel" ] ]. estimulante_a1 := a_qual_intr_scopal_le & [ STEM < "estimulante" >, SYNSEM.LKEYS.KEYREL.PRED "_estimulante_a_rel" ]. estimulante_n1 := n_intr_count_le & [ STEM < "estimulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_estimulante_n_rel" ] ]. estimular_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "estimular" >, SYNSEM.LKEYS.KEYREL.PRED "_estimular_v_rel" ]. estimular_v2 := v_trans_np*_le & [ STEM < "estimular" >, SYNSEM.LKEYS.KEYREL.PRED "_estimular_v_rel" ]. estimular_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "estimular" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_estimular_v_rel" ] ] ]. estimular_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "estimular" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_estimular_v_rel" ] ] ]. estimular_v5 := v_trans_np*_mrkd_np_le & [ STEM < "estimular" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_estimular_v_rel" ] ] ]. estipendio_n1 := n_intr_count_le & [ STEM < "estipendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estipendio_n_rel" ] ]. estipulación_n1 := n_trans_le & [ STEM < "estipulación" >, SYNSEM.LKEYS.KEYREL.PRED "_estipulación_n_rel" ]. estipular_v1 := v_trans_cp_prop_fin_le & [ STEM < "estipular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_estipular_v_rel" ] ]. estipular_v2 := v_trans_np_le & [ STEM < "estipular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_estipular_v_rel" ] ]. estique_n1 := n_intr_count_le & [ STEM < "estique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estique_n_rel" ] ]. estirable_a1 := a_qual_intr_scopal_le & [ STEM < "estirable" >, SYNSEM.LKEYS.KEYREL.PRED "_estirable_a_rel" ]. estiradora_n1 := n_intr_count_le & [ STEM < "estiradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estiradora_n_rel" ] ]. estiralílico_a1 := a_rel_nonprd_intr_le & [ STEM < "estiralílico" >, SYNSEM.LKEYS.KEYREL.PRED "_estiralílico_a_rel" ]. estiramiento_n1 := n_trans_le & [ STEM < "estiramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estiramiento_n_rel" ]. estirar_v1 := v_intr_mrkd_np_le & [ STEM < "estirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_estirar_v_rel" ] ]. estirar_v2 := v_pron_intr_le & [ STEM < "estirar" >, SYNSEM.LKEYS.KEYREL.PRED "_estirar_v_rel" ]. estirar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "estirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_estirar_v_rel" ] ] ]. estirar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "estirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_estirar_v_rel" ] ] ]. estirar_v5 := v_trans_np_le & [ STEM < "estirar" >, SYNSEM.LKEYS.KEYREL.PRED "_estirar_v_rel" ]. estireno_n1 := n_intr_mass_le & [ STEM < "estireno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estireno_n_rel" ] ]. estirpe_n1 := n_intr_count_le & [ STEM < "estirpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estirpe_n_rel" ] ]. estirón_n1 := n_intr_count_le & [ STEM < "estirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estirón_n_rel" ] ]. estival_a1 := a_rel_nonprd_intr_le & [ STEM < "estival" >, SYNSEM.LKEYS.KEYREL.PRED "_estival_a_rel" ]. estivalmente_x1 := av_i_spr_le & [ STEM < "estivalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_estivalmente_x_rel" ]. estiércol_n1 := n_intr_count_le & [ STEM < "estiércol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estiércol_n_rel" ] ]. estoc_n1 := n_intr_uncount_pl_le & [ STEM < "estoc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estoc_n_rel" ] ]. estocástico_a1 := a_rel_nonprd_intr_le & [ STEM < "estocástico" >, SYNSEM.LKEYS.KEYREL.PRED "_estocástico_a_rel" ]. estofado_n1 := n_intr_mass_le & [ STEM < "estofado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estofado_n_rel" ] ]. estoicismo_n1 := n_intr_uncount_le & [ STEM < "estoicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estoicismo_n_rel" ] ]. estoico_a1 := a_qual_intr_scopal_le & [ STEM < "estoico" >, SYNSEM.LKEYS.KEYREL.PRED "_estoico_a_rel" ]. estola_n1 := n_intr_count_le & [ STEM < "estola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estola_n_rel" ] ]. estoma_n1 := n_intr_count_le & [ STEM < "estoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estoma_n_rel" ] ]. estomacal_a1 := a_rel_nonprd_intr_le & [ STEM < "estomacal" >, SYNSEM.LKEYS.KEYREL.PRED "_estomacal_a_rel" ]. estomatalgia_n1 := n_intr_uncount_le & [ STEM < "estomatalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatalgia_n_rel" ] ]. estomatitis_n1 := n_intr_uncount_le & [ STEM < "estomatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatitis_n_rel" ] ]. estomatocito_n1 := n_intr_count_le & [ STEM < "estomatocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estomatocito_n_rel" ] ]. estomatocitosis_n1 := n_intr_uncount_le & [ STEM < "estomatocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatocitosis_n_rel" ] ]. estomatoglositis_n1 := n_intr_uncount_le & [ STEM < "estomatoglositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatoglositis_n_rel" ] ]. estomatognático_a1 := a_rel_nonprd_intr_le & [ STEM < "estomatognático" >, SYNSEM.LKEYS.KEYREL.PRED "_estomatognático_a_rel" ]. estomatografía_n1 := n_intr_count_le & [ STEM < "estomatografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estomatografía_n_rel" ] ]. estomatolalia_n1 := n_intr_uncount_le & [ STEM < "estomatolalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatolalia_n_rel" ] ]. estomatología_n1 := n_intr_uncount_le & [ STEM < "estomatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatología_n_rel" ] ]. estomatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "estomatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_estomatológico_a_rel" ]. estomatopatía_n1 := n_intr_uncount_pl_le & [ STEM < "estomatopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatopatía_n_rel" ] ]. estomatoplastia_n1 := n_intr_count_le & [ STEM < "estomatoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatoplastia_n_rel" ] ]. estomatorragia_n1 := n_intr_count_le & [ STEM < "estomatorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estomatorragia_n_rel" ] ]. estomatoscopio_n1 := n_intr_count_le & [ STEM < "estomatoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estomatoscopio_n_rel" ] ]. estomatólogo_n1 := n_intr_count_le & [ STEM < "estomatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estomatólogo_n_rel" ] ]. estomiátido_n1 := n_intr_count_le & [ STEM < "estomiátido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_estomiátido_n_rel" ] ]. estoniano_a1 := a_rel_prd_le & [ STEM < "estoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_estoniano_a_rel" ]. estoniano_n1 := n_intr_count_le & [ STEM < "estoniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estoniano_n_rel" ] ]. estonio_a1 := a_rel_prd_le & [ STEM < "estonio" >, SYNSEM.LKEYS.KEYREL.PRED "_estonio_a_rel" ]. estonio_n1 := n_intr_count_le & [ STEM < "estonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estonio_n_rel" ] ]. estopa_n1 := n_intr_count_le & [ STEM < "estopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estopa_n_rel" ] ]. estoque_n1 := n_intr_count_le & [ STEM < "estoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_estoque_n_rel" ] ]. estorbar_v1 := v_intr_io*_le & [ STEM < "estorbar" >, SYNSEM.LKEYS.KEYREL.PRED "_estorbar_v_rel" ]. estorbar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "estorbar" >, SYNSEM.LKEYS.KEYREL.PRED "_estorbar_v_rel" ]. estorbar_v3 := v_trans_np_le & [ STEM < "estorbar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_estorbar_v_rel" ] ]. estorbo_n1 := n_intr_count_le & [ STEM < "estorbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estorbo_n_rel" ] ]. estornino_n1 := n_intr_count_le & [ STEM < "estornino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_estornino_n_rel" ] ]. estornudar_v := v_intr_le & [ STEM < "estornudar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_estornudar_v_rel" ] ]. estornudo_n1 := n_result_intr_le & [ STEM < "estornudo" >, SYNSEM.LKEYS.KEYREL.PRED "_estornudo_n_rel" ]. estotro_d := d_dem_este_le & [ STEM < "estotro" > ]. estotro_p := pr_dem_le & [ STEM < "estotro" >, SYNSEM.LKEYS.ALTKEYREL.PRED _estotro_q_rel ]. estrabismo_n1 := n_intr_uncount_le & [ STEM < "estrabismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrabismo_n_rel" ] ]. estrabismómetro_n1 := n_intr_count_le & [ STEM < "estrabismómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estrabismómetro_n_rel" ] ]. estrabometría_n1 := n_intr_count_le & [ STEM < "estrabometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrabometría_n_rel" ] ]. estrabotomía_n1 := n_intr_count_le & [ STEM < "estrabotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrabotomía_n_rel" ] ]. estrabómetro_n1 := n_intr_count_le & [ STEM < "estrabómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estrabómetro_n_rel" ] ]. estradiol_n1 := n_intr_count_le & [ STEM < "estradiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estradiol_n_rel" ] ]. estrado_n1 := n_intr_count_le & [ STEM < "estrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estrado_n_rel" ] ]. estrafalario_a1 := a_qual_intr_scopal_le & [ STEM < "estrafalario" >, SYNSEM.LKEYS.KEYREL.PRED "_estrafalario_a_rel" ]. estrago_n1 := n_trans_le & [ STEM < "estrago" >, SYNSEM.LKEYS.KEYREL.PRED "_estrago_n_rel" ]. estragol_n1 := n_intr_count_le & [ STEM < "estragol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estragol_n_rel" ] ]. estragón_n1 := n_intr_mass_le & [ STEM < "estragón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estragón_n_rel" ] ]. estrambótico_a1 := a_qual_intr_scopal_le & [ STEM < "estrambótico" >, SYNSEM.LKEYS.KEYREL.PRED "_estrambótico_a_rel" ]. estramonio_n1 := n_intr_count_le & [ STEM < "estramonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estramonio_n_rel" ] ]. estrangulación_n1 := n_trans_le & [ STEM < "estrangulación" >, SYNSEM.LKEYS.KEYREL.PRED "_estrangulación_n_rel" ]. estrangulador_n1 := n_subj-nom_le & [ STEM < "estrangulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estrangulador_n_rel" ] ]. estrangulamiento_n1 := n_trans_le & [ STEM < "estrangulamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estrangulamiento_n_rel" ]. estrangular_v := v_trans_np_le & [ STEM < "estrangular" >, SYNSEM.LKEYS.KEYREL.PRED "_estrangular_v_rel" ]. estraperlista_n1 := n_intr_count_le & [ STEM < "estraperlista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estraperlista_n_rel" ] ]. estraperlo_n1 := n_intr_uncount_le & [ STEM < "estraperlo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estraperlo_n_rel" ] ]. estratagema_n1 := n_intr_count_le & [ STEM < "estratagema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estratagema_n_rel" ] ]. estratega_n1 := n_intr_count_le & [ STEM < "estratega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estratega_n_rel" ] ]. estrategia_n1 := n_intr_count_le & [ STEM < "estrategia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrategia_n_rel" ] ]. estratificación_n1 := n_trans_le & [ STEM < "estratificación" >, SYNSEM.LKEYS.KEYREL.PRED "_estratificación_n_rel" ]. estratificadamente_x1 := av_i_spr_le & [ STEM < "estratificadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estratificadamente_x_rel" ]. estratificar_v := v_trans_np_le & [ STEM < "estratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_estratificar_v_rel" ]. estratigrafía_n1 := n_intr_count_le & [ STEM < "estratigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estratigrafía_n_rel" ] ]. estratigráficamente_x1 := av_i_spr_le & [ STEM < "estratigráficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estratigráficamente_x_rel" ]. estratigráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "estratigráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_estratigráfico_a_rel" ]. estrato_n1 := n_intr_count_le & [ STEM < "estrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_estrato_n_rel" ] ]. estratocúmulo_n1 := n_intr_count_le & [ STEM < "estratocúmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estratocúmulo_n_rel" ] ]. estratopausa_n1 := n_intr_count_le & [ STEM < "estratopausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estratopausa_n_rel" ] ]. estratosfera_n1 := n_intr_count_le & [ STEM < "estratosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estratosfera_n_rel" ] ]. estratosférico_a1 := a_rel_nonprd_intr_le & [ STEM < "estratosférico" >, SYNSEM.LKEYS.KEYREL.PRED "_estratosférico_a_rel" ]. estratégicamente_x1 := av_i_spr_le & [ STEM < "estratégicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estratégicamente_x_rel" ]. estratégico_a1 := a_qual_intr_scopal_le & [ STEM < "estratégico" >, SYNSEM.LKEYS.KEYREL.PRED "_estratégico_a_rel" ]. estrechamente_x1 := av_i_spr_le & [ STEM < "estrechamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estrechamente_x_rel" ]. estrechamiento_n1 := n_trans_le & [ STEM < "estrechamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estrechamiento_n_rel" ]. estrechar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "estrechar" >, SYNSEM.LKEYS.KEYREL.PRED "_estrechar_v_rel" ]. estrechar_v2 := v_trans_np_caus_le & [ STEM < "estrechar" >, SYNSEM.LKEYS.KEYREL.PRED "_estrechar_v_rel" ]. estrechez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "estrechez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrechez_n_rel" ] ]. estrecho_a1 := a_qual_intr_scopal_le & [ STEM < "estrecho" >, SYNSEM.LKEYS.KEYREL.PRED "_estrecho_a_rel" ]. estrecho_n1 := n_intr_count_le & [ STEM < "estrecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estrecho_n_rel" ] ]. estrella_n1 := n_intr_count_le & [ STEM < "estrella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_estrella_n_rel" ] ]. estrellar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "estrellar" >, SYNSEM.LKEYS.KEYREL.PRED "_estrellar_v_rel" ]. estrellato_n1 := n_intr_uncount_le & [ STEM < "estrellato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrellato_n_rel" ] ]. estremecedor_a1 := a_qual_intr_scopal_le & [ STEM < "estremecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_estremecedor_a_rel" ]. estremecer_v1 := v_intr_io*_le & [ STEM < "estremecer" >, SYNSEM.LKEYS.KEYREL.PRED "_estremecer_v_rel" ]. estremecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "estremecer" >, SYNSEM.LKEYS.KEYREL.PRED "_estremecer_v_rel" ]. estremecer_v3 := v_trans_np_caus_le & [ STEM < "estremecer" >, SYNSEM.LKEYS.KEYREL.PRED "_estremecer_v_rel" ]. estremecimiento_n1 := n_trans_le & [ STEM < "estremecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estremecimiento_n_rel" ]. estreno_n1 := n_trans_le & [ STEM < "estreno" >, SYNSEM.LKEYS.KEYREL.PRED "_estreno_n_rel" ]. estrepada_n1 := n_intr_count_le & [ STEM < "estrepada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrepada_n_rel" ] ]. estrepitosamente_x1 := av_i_spr_le & [ STEM < "estrepitosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estrepitosamente_x_rel" ]. estrepitoso_a1 := a_qual_intr_scopal_le & [ STEM < "estrepitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_estrepitoso_a_rel" ]. estreptococo_n1 := n_intr_count_le & [ STEM < "estreptococo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_estreptococo_n_rel" ] ]. estreptocócico_a1 := a_rel_nonprd_intr_le & [ STEM < "estreptocócico" >, SYNSEM.LKEYS.KEYREL.PRED "_estreptocócico_a_rel" ]. estreptodornasa_n1 := n_intr_count_le & [ STEM < "estreptodornasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estreptodornasa_n_rel" ] ]. estreptoduocina_n1 := n_intr_count_le & [ STEM < "estreptoduocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estreptoduocina_n_rel" ] ]. estreptomicina_n1 := n_intr_count_le & [ STEM < "estreptomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estreptomicina_n_rel" ] ]. estreptoquinasa_n1 := n_intr_count_le & [ STEM < "estreptoquinasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estreptoquinasa_n_rel" ] ]. estreptotricina_n1 := n_intr_count_le & [ STEM < "estreptotricina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estreptotricina_n_rel" ] ]. estresante_a1 := a_qual_intr_scopal_le & [ STEM < "estresante" >, SYNSEM.LKEYS.KEYREL.PRED "_estresante_a_rel" ]. estreñimiento_n1 := n_trans_le & [ STEM < "estreñimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estreñimiento_n_rel" ]. estriación_n1 := n_trans_le & [ STEM < "estriación" >, SYNSEM.LKEYS.KEYREL.PRED "_estriación_n_rel" ]. estriar_v := v_trans_np_le & [ STEM < "estriar" >, SYNSEM.LKEYS.KEYREL.PRED "_estriar_v_rel" ]. estribación_n1 := n_intr_count_le & [ STEM < "estribación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estribación_n_rel" ] ]. estribar_v1 := v_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "estribar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_estribar_v_rel" ] ] ]. estribar_v2 := v_intr_mrkd_np_le & [ STEM < "estribar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_estribar_v_rel" ] ] ]. estribar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "estribar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_estribar_v_rel" ] ]. estribera_n1 := n_intr_count_le & [ STEM < "estribera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estribera_n_rel" ] ]. estribillo_n1 := n_intr_count_le & [ STEM < "estribillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_estribillo_n_rel" ] ]. estribo_n1 := n_intr_count_le & [ STEM < "estribo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estribo_n_rel" ] ]. estribor_n1 := n_intr_uncount_pl_le & [ STEM < "estribor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estribor_n_rel" ] ]. estricnina_n1 := n_intr_mass_le & [ STEM < "estricnina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estricnina_n_rel" ] ]. estrictamente_x1 := av_i_spr_le & [ STEM < "estrictamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estrictamente_x_rel" ]. estricto_a1 := a_qual_intr_scopal_le & [ STEM < "estricto" >, SYNSEM.LKEYS.KEYREL.PRED "_estricto_a_rel" ]. estridencia_n1 := n_intr_mass_le & [ STEM < "estridencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estridencia_n_rel" ] ]. estridente_a1 := a_qual_intr_scopal_le & [ STEM < "estridente" >, SYNSEM.LKEYS.KEYREL.PRED "_estridente_a_rel" ]. estridentemente_x1 := av_i_spr_le & [ STEM < "estridentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_estridentemente_x_rel" ]. estridor_n1 := n_intr_count_le & [ STEM < "estridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estridor_n_rel" ] ]. estriduloso_a1 := a_qual_intr_scopal_le & [ STEM < "estriduloso" >, SYNSEM.LKEYS.KEYREL.PRED "_estriduloso_a_rel" ]. estriol_n1 := n_intr_count_le & [ STEM < "estriol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estriol_n_rel" ] ]. estrioscopia_n1 := n_intr_count_le & [ STEM < "estrioscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrioscopia_n_rel" ] ]. estrobo_n1 := n_intr_count_le & [ STEM < "estrobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estrobo_n_rel" ] ]. estroboscopio_n1 := n_intr_count_le & [ STEM < "estroboscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estroboscopio_n_rel" ] ]. estroboscópicamente_x1 := av_i_spr_le & [ STEM < "estroboscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estroboscópicamente_x_rel" ]. estroboscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "estroboscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_estroboscópico_a_rel" ]. estrofa_n1 := n_intr_count_le & [ STEM < "estrofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_estrofa_n_rel" ] ]. estrofantina_n1 := n_intr_count_le & [ STEM < "estrofantina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estrofantina_n_rel" ] ]. estrofoide_n1 := n_intr_count_le & [ STEM < "estrofoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrofoide_n_rel" ] ]. estroma_n1 := n_intr_count_le & [ STEM < "estroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estroma_n_rel" ] ]. estroncianita_n1 := n_intr_count_le & [ STEM < "estroncianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estroncianita_n_rel" ] ]. estroncio_n1 := n_intr_mass_le & [ STEM < "estroncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estroncio_n_rel" ] ]. estropajo_n1 := n_intr_count_le & [ STEM < "estropajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estropajo_n_rel" ] ]. estropear_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "estropear" >, SYNSEM.LKEYS.KEYREL.PRED "_estropear_v_rel" ]. estropear_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "estropear" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_estropear_v_rel" ] ] ]. estropear_v3 := v_trans_np_caus_le & [ STEM < "estropear" >, SYNSEM.LKEYS.KEYREL.PRED "_estropear_v_rel" ]. estropicio_n1 := n_intr_count_le & [ STEM < "estropicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estropicio_n_rel" ] ]. estructura_n1 := n_intr_count_le & [ STEM < "estructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estructura_n_rel" ] ]. estructurable_a1 := a_rel_prd_le & [ STEM < "estructurable" >, SYNSEM.LKEYS.KEYREL.PRED "_estructurable_a_rel" ]. estructuración_n1 := n_trans_le & [ STEM < "estructuración" >, SYNSEM.LKEYS.KEYREL.PRED "_estructuración_n_rel" ]. estructuradamente_x1 := av_i_spr_le & [ STEM < "estructuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estructuradamente_x_rel" ]. estructural_a1 := a_rel_prd_le & [ STEM < "estructural" >, SYNSEM.LKEYS.KEYREL.PRED "_estructural_a_rel" ]. estructuralismo_n1 := n_intr_uncount_le & [ STEM < "estructuralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estructuralismo_n_rel" ] ]. estructuralista_a1 := a_rel_prd_le & [ STEM < "estructuralista" >, SYNSEM.LKEYS.KEYREL.PRED "_estructuralista_a_rel" ]. estructuralista_n1 := n_intr_count_le & [ STEM < "estructuralista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estructuralista_n_rel" ] ]. estructuralmente_x1 := av_i_spr_le & [ STEM < "estructuralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_estructuralmente_x_rel" ]. estructurar_v := v_trans_np_le & [ STEM < "estructurar" >, SYNSEM.LKEYS.KEYREL.PRED "_estructurar_v_rel" ]. estruendo_n1 := n_intr_count_le & [ STEM < "estruendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estruendo_n_rel" ] ]. estruendoso_a1 := a_qual_intr_scopal_le & [ STEM < "estruendoso" >, SYNSEM.LKEYS.KEYREL.PRED "_estruendoso_a_rel" ]. estrujamiento_n1 := n_trans_le & [ STEM < "estrujamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_estrujamiento_n_rel" ]. estrujar_v := v_trans_np_le & [ STEM < "estrujar" >, SYNSEM.LKEYS.KEYREL.PRED "_estrujar_v_rel" ]. estrábico_a1 := a_rel_nonprd_intr_le & [ STEM < "estrábico" >, SYNSEM.LKEYS.KEYREL.PRED "_estrábico_a_rel" ]. estrépito_n1 := n_intr_count_le & [ STEM < "estrépito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrépito_n_rel" ] ]. estrés_n1 := n_intr_mass_le & [ STEM < "estrés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estrés_n_rel" ] ]. estría_n1 := n_intr_count_le & [ STEM < "estría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estría_n_rel" ] ]. estrógeno_n1 := n_intr_count_le & [ STEM < "estrógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estrógeno_n_rel" ] ]. estrón_n1 := n_intr_count_le & [ STEM < "estrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estrón_n_rel" ] ]. estuario_n1 := n_intr_count_le & [ STEM < "estuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estuario_n_rel" ] ]. estucado_n1 := n_intr_mass_le & [ STEM < "estucado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estucado_n_rel" ] ]. estucador_n1 := n_intr_count_le & [ STEM < "estucador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estucador_n_rel" ] ]. estucar_v := v_trans_np_le & [ STEM < "estucar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_estucar_v_rel" ] ]. estuchar_v := v_trans_np_le & [ STEM < "estuchar" >, SYNSEM.LKEYS.KEYREL.PRED "_estuchar_v_rel" ]. estuche_n1 := n_intr_count_le & [ STEM < "estuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estuche_n_rel" ] ]. estuco_n1 := n_intr_mass_le & [ STEM < "estuco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estuco_n_rel" ] ]. estudiante_n1 := n_intr_count_le & [ STEM < "estudiante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estudiante_n_rel" ] ]. estudiantil_a1 := a_rel_nonprd_intr_le & [ STEM < "estudiantil" >, SYNSEM.LKEYS.KEYREL.PRED "_estudiantil_a_rel" ]. estudiar_v1 := v_trans_cp_prop_fin_le & [ STEM < "estudiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_estudiar_v_rel" ] ]. estudiar_v2 := v_trans_np_le & [ STEM < "estudiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_estudiar_v_rel" ] ]. estudio_n1 := n_intr_count_le & [ STEM < "estudio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_estudio_n_rel" ] ]. estudio_n2 := n_trans_le & [ STEM < "estudio" >, SYNSEM.LKEYS.KEYREL.PRED "_estudio_n_rel" ]. estudioso_a1 := a_qual_intr_ser_le & [ STEM < "estudioso" >, SYNSEM.LKEYS.KEYREL.PRED "_estudioso_a_rel" ]. estufa_n1 := n_intr_count_le & [ STEM < "estufa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estufa_n_rel" ] ]. estufar_v := v_trans_np_le & [ STEM < "estufar" >, SYNSEM.LKEYS.KEYREL.PRED "_estufar_v_rel" ]. estupefacción_n1 := n_intr_mass_le & [ STEM < "estupefacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estupefacción_n_rel" ] ]. estupefaciente_a1 := a_rel_nonprd_intr_le & [ STEM < "estupefaciente" >, SYNSEM.LKEYS.KEYREL.PRED "_estupefaciente_a_rel" ]. estupefaciente_n1 := n_intr_mass_le & [ STEM < "estupefaciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_estupefaciente_n_rel" ] ]. estupefacto_a1 := a_qual_intr_estar_le & [ STEM < "estupefacto" >, SYNSEM.LKEYS.KEYREL.PRED "_estupefacto_a_rel" ]. estupendamente_x1 := av_i_spr_le & [ STEM < "estupendamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estupendamente_x_rel" ]. estupendo_a1 := a_qual_intr_scopal_le & [ STEM < "estupendo" >, SYNSEM.LKEYS.KEYREL.PRED "_estupendo_a_rel" ]. estupidez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "estupidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estupidez_n_rel" ] ]. estupidez_n2 := n_ppde_cp_prop_inf_uncount_le & [ STEM < "estupidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estupidez_n_rel" ] ]. estupor_n1 := n_intr_mass_le & [ STEM < "estupor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estupor_n_rel" ] ]. estuprador_n1 := n_subj-nom_le & [ STEM < "estuprador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estuprador_n_rel" ] ]. estuprar_v := v_trans_np_le & [ STEM < "estuprar" >, SYNSEM.LKEYS.KEYREL.PRED "_estuprar_v_rel" ]. estupro_n1 := n_intr_count_le & [ STEM < "estupro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estupro_n_rel" ] ]. estuquista_n1 := n_intr_count_le & [ STEM < "estuquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_estuquista_n_rel" ] ]. esturión_n1 := n_intr_count_le & [ STEM < "esturión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_esturión_n_rel" ] ]. estándar_a1 := a_qual_intr_scopal_le & [ STEM < "estándar" >, SYNSEM.LKEYS.KEYREL.PRED "_estándar_a_rel" ]. estándar_n1 := n_intr_count_le & [ STEM < "estándar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estándar_n_rel" ] ]. estárter_n1 := n_intr_count_le & [ STEM < "estárter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_estárter_n_rel" ] ]. estática_n1 := n_intr_uncount_le & [ STEM < "estática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estática_n_rel" ] ]. estáticamente_x1 := av_i_spr_le & [ STEM < "estáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estáticamente_x_rel" ]. estático_a1 := a_qual_intr_scopal_le & [ STEM < "estático" >, SYNSEM.LKEYS.KEYREL.PRED "_estático_a_rel" ]. estéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "estéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_estéreo_a_rel" ]. estérico_a1 := a_rel_nonprd_intr_le & [ STEM < "estérico" >, SYNSEM.LKEYS.KEYREL.PRED "_estérico_a_rel" ]. estéril_a1 := a_qual_intr_scopal_le & [ STEM < "estéril" >, SYNSEM.LKEYS.KEYREL.PRED "_estéril_a_rel" ]. estérilmente_x1 := av_i_spr_le & [ STEM < "estérilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_estérilmente_x_rel" ]. estéticamente_x1 := av_i_spr_le & [ STEM < "estéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estéticamente_x_rel" ]. estético_a1 := a_rel_nonprd_intr_le & [ STEM < "estético" >, SYNSEM.LKEYS.KEYREL.PRED "_estético_a_rel" ]. estímulo_n1 := n_intr_count_le & [ STEM < "estímulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_estímulo_n_rel" ] ]. estío_n1 := n_intr_count_le & [ STEM < "estío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_estío_n_rel" ] ]. estíptico_a1 := a_rel_nonprd_intr_le & [ STEM < "estíptico" >, SYNSEM.LKEYS.KEYREL.PRED "_estíptico_a_rel" ]. estómago_n1 := n_ppcomp_count_le & [ STEM < "estómago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_estómago_n_rel" ] ]. estúpidamente_x1 := av_i_spr_le & [ STEM < "estúpidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_estúpidamente_x_rel" ]. estúpido_a1 := a_qual_intr_ser_le & [ STEM < "estúpido" >, SYNSEM.LKEYS.KEYREL.PRED "_estúpido_a_rel" ]. esvástica_n1 := n_intr_count_le & [ STEM < "esvástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esvástica_n_rel" ] ]. esófago_n1 := n_intr_count_le & [ STEM < "esófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_esófago_n_rel" ] ]. etalaje_n1 := n_intr_count_le & [ STEM < "etalaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_etalaje_n_rel" ] ]. etalón_n1 := n_intr_count_le & [ STEM < "etalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_etalón_n_rel" ] ]. etano_n1 := n_intr_mass_le & [ STEM < "etano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etano_n_rel" ] ]. etanol_n1 := n_intr_mass_le & [ STEM < "etanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etanol_n_rel" ] ]. etanolamina_n1 := n_intr_count_le & [ STEM < "etanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etanolamina_n_rel" ] ]. etapa_n1 := n_intr_count_le & [ STEM < "etapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_etapa_n_rel" ] ]. etarra_a1 := a_qual_intr_ser_le & [ STEM < "etarra" >, SYNSEM.LKEYS.KEYREL.PRED "_etarra_a_rel" ]. etarra_n1 := n_intr_count_le & [ STEM < "etarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etarra_n_rel" ] ]. etenoide_a1 := a_rel_nonprd_intr_le & [ STEM < "etenoide" >, SYNSEM.LKEYS.KEYREL.PRED "_etenoide_a_rel" ]. eternidad_n1 := n_intr_mass_le & [ STEM < "eternidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_eternidad_n_rel" ] ]. eternizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "eternizar" >, SYNSEM.LKEYS.KEYREL.PRED "_eternizar_v_rel" ]. eternizar_v2 := v_trans_np_caus_le & [ STEM < "eternizar" >, SYNSEM.LKEYS.KEYREL.PRED "_eternizar_v_rel" ]. eterno_a1 := a_adv_event_le & [ STEM < "eterno" >, SYNSEM.LKEYS.KEYREL.PRED "_eterno_a_rel" ]. etilamina_n1 := n_intr_count_le & [ STEM < "etilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilamina_n_rel" ] ]. etilarsenioso_a1 := a_rel_nonprd_intr_le & [ STEM < "etilarsenioso" >, SYNSEM.LKEYS.KEYREL.PRED "_etilarsenioso_a_rel" ]. etilato_n1 := n_intr_count_le & [ STEM < "etilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilato_n_rel" ] ]. etilbenceno_n1 := n_intr_count_le & [ STEM < "etilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilbenceno_n_rel" ] ]. etilbencilanilina_n1 := n_intr_count_le & [ STEM < "etilbencilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilbencilanilina_n_rel" ] ]. etilbutiraldehído_n1 := n_intr_mass_le & [ STEM < "etilbutiraldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilbutiraldehído_n_rel" ] ]. etilbutírico_a1 := a_rel_nonprd_intr_le & [ STEM < "etilbutírico" >, SYNSEM.LKEYS.KEYREL.PRED "_etilbutírico_a_rel" ]. etilcarbonato_n1 := n_intr_count_le & [ STEM < "etilcarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilcarbonato_n_rel" ] ]. etilcelulosa_n1 := n_intr_count_le & [ STEM < "etilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilcelulosa_n_rel" ] ]. etilciclohexano_n1 := n_intr_count_le & [ STEM < "etilciclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilciclohexano_n_rel" ] ]. etildiclorosilano_n1 := n_intr_count_le & [ STEM < "etildiclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etildiclorosilano_n_rel" ] ]. etildietanolamina_n1 := n_intr_count_le & [ STEM < "etildietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etildietanolamina_n_rel" ] ]. etilenbisditiocarbamida_n1 := n_intr_count_le & [ STEM < "etilenbisditiocarbamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilenbisditiocarbamida_n_rel" ] ]. etilendiamina_n1 := n_intr_count_le & [ STEM < "etilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilendiamina_n_rel" ] ]. etilenimina_n1 := n_intr_count_le & [ STEM < "etilenimina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilenimina_n_rel" ] ]. etileno_n1 := n_intr_mass_le & [ STEM < "etileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etileno_n_rel" ] ]. etiletanolamina_n1 := n_intr_count_le & [ STEM < "etiletanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etiletanolamina_n_rel" ] ]. etilfosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "etilfosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_etilfosfórico_a_rel" ]. etilhexilamina_n1 := n_intr_count_le & [ STEM < "etilhexilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilhexilamina_n_rel" ] ]. etilhexoato_n1 := n_intr_count_le & [ STEM < "etilhexoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilhexoato_n_rel" ] ]. etilhexoico_a1 := a_rel_nonprd_intr_le & [ STEM < "etilhexoico" >, SYNSEM.LKEYS.KEYREL.PRED "_etilhexoico_a_rel" ]. etilmercúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "etilmercúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_etilmercúrico_a_rel" ]. etilo_n1 := n_intr_mass_le & [ STEM < "etilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilo_n_rel" ] ]. etilsulfato_n1 := n_intr_count_le & [ STEM < "etilsulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etilsulfato_n_rel" ] ]. etilsulfuroso_a1 := a_rel_nonprd_intr_le & [ STEM < "etilsulfuroso" >, SYNSEM.LKEYS.KEYREL.PRED "_etilsulfuroso_a_rel" ]. etilsulfúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "etilsulfúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_etilsulfúrico_a_rel" ]. etiltriclorosilano_n1 := n_intr_count_le & [ STEM < "etiltriclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etiltriclorosilano_n_rel" ] ]. etilómetro_n1 := n_intr_count_le & [ STEM < "etilómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_etilómetro_n_rel" ] ]. etimologista_n1 := n_intr_count_le & [ STEM < "etimologista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etimologista_n_rel" ] ]. etimología_n1 := n_intr_count_le & [ STEM < "etimología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etimología_n_rel" ] ]. etimológicamente_x1 := av_i_spr_le & [ STEM < "etimológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_etimológicamente_x_rel" ]. etimológico_a1 := a_rel_nonprd_intr_le & [ STEM < "etimológico" >, SYNSEM.LKEYS.KEYREL.PRED "_etimológico_a_rel" ]. etimólogo_n1 := n_intr_count_le & [ STEM < "etimólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etimólogo_n_rel" ] ]. etiología_n1 := n_intr_uncount_pl_le & [ STEM < "etiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etiología_n_rel" ] ]. etiológicamente_x1 := av_i_spr_le & [ STEM < "etiológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_etiológicamente_x_rel" ]. etiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "etiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_etiológico_a_rel" ]. etioplasto_n1 := n_intr_count_le & [ STEM < "etioplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etioplasto_n_rel" ] ]. etiqueta_n1 := n_intr_count_le & [ STEM < "etiqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etiqueta_n_rel" ] ]. etiquetado_n1 := n_trans_le & [ STEM < "etiquetado" >, SYNSEM.LKEYS.KEYREL.PRED "_etiquetado_n_rel" ]. etiquetador_n1 := n_intr_count_le & [ STEM < "etiquetador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etiquetador_n_rel" ] ]. etiquetaje_n1 := n_trans_le & [ STEM < "etiquetaje" >, SYNSEM.LKEYS.KEYREL.PRED "_etiquetaje_n_rel" ]. etmoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "etmoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_etmoidal_a_rel" ]. etmoide_a1 := a_rel_nonprd_intr_le & [ STEM < "etmoide" >, SYNSEM.LKEYS.KEYREL.PRED "_etmoide_a_rel" ]. etmoidectomía_n1 := n_intr_count_le & [ STEM < "etmoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etmoidectomía_n_rel" ] ]. etmoides_n1 := n_ppcomp_count_le & [ STEM < "etmoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_etmoides_n_rel" ] ]. etmoiditis_n1 := n_intr_uncount_le & [ STEM < "etmoiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etmoiditis_n_rel" ] ]. etmoidomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "etmoidomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_etmoidomaxilar_a_rel" ]. etnia_n1 := n_intr_count_le & [ STEM < "etnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnia_n_rel" ] ]. etnicidad_n1 := n_intr_uncount_le & [ STEM < "etnicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnicidad_n_rel" ] ]. etnoarqueología_n1 := n_intr_uncount_le & [ STEM < "etnoarqueología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnoarqueología_n_rel" ] ]. etnocentrismo_n1 := n_intr_uncount_le & [ STEM < "etnocentrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnocentrismo_n_rel" ] ]. etnocidio_n1 := n_intr_count_le & [ STEM < "etnocidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnocidio_n_rel" ] ]. etnociencia_n1 := n_intr_uncount_pl_le & [ STEM < "etnociencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnociencia_n_rel" ] ]. etnografía_n1 := n_intr_uncount_pl_le & [ STEM < "etnografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnografía_n_rel" ] ]. etnográficamente_x1 := av_i_spr_le & [ STEM < "etnográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_etnográficamente_x_rel" ]. etnohistoria_n1 := n_intr_uncount_le & [ STEM < "etnohistoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnohistoria_n_rel" ] ]. etnolingüística_n1 := n_intr_uncount_le & [ STEM < "etnolingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnolingüística_n_rel" ] ]. etnología_n1 := n_intr_uncount_pl_le & [ STEM < "etnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnología_n_rel" ] ]. etnológicamente_x1 := av_i_spr_le & [ STEM < "etnológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_etnológicamente_x_rel" ]. etnológico_a1 := a_rel_nonprd_intr_le & [ STEM < "etnológico" >, SYNSEM.LKEYS.KEYREL.PRED "_etnológico_a_rel" ]. etnometodología_n1 := n_intr_uncount_pl_le & [ STEM < "etnometodología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnometodología_n_rel" ] ]. etnopsicología_n1 := n_intr_uncount_le & [ STEM < "etnopsicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnopsicología_n_rel" ] ]. etnosemántica_n1 := n_intr_uncount_le & [ STEM < "etnosemántica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnosemántica_n_rel" ] ]. etnógrafo_n1 := n_intr_count_le & [ STEM < "etnógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etnógrafo_n_rel" ] ]. etnólogo_n1 := n_intr_count_le & [ STEM < "etnólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etnólogo_n_rel" ] ]. etología_n1 := n_intr_uncount_pl_le & [ STEM < "etología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etología_n_rel" ] ]. etoxitriglicol_n1 := n_intr_count_le & [ STEM < "etoxitriglicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_etoxitriglicol_n_rel" ] ]. etrusco_a1 := a_rel_prd_le & [ STEM < "etrusco" >, SYNSEM.LKEYS.KEYREL.PRED "_etrusco_a_rel" ]. etrusco_n1 := n_intr_count_le & [ STEM < "etrusco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etrusco_n_rel" ] ]. etruscología_n1 := n_intr_uncount_le & [ STEM < "etruscología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_etruscología_n_rel" ] ]. etéreo_a1 := a_qual_intr_scopal_le & [ STEM < "etéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_etéreo_a_rel" ]. etílico_a1 := a_rel_nonprd_intr_le & [ STEM < "etílico" >, SYNSEM.LKEYS.KEYREL.PRED "_etílico_a_rel" ]. etíope_a1 := a_rel_prd_le & [ STEM < "etíope" >, SYNSEM.LKEYS.KEYREL.PRED "_etíope_a_rel" ]. etíope_n1 := n_intr_count_le & [ STEM < "etíope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_etíope_n_rel" ] ]. eucalipto_n1 := n_intr_mass_le & [ STEM < "eucalipto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_eucalipto_n_rel" ] ]. eucaliptol_n1 := n_intr_count_le & [ STEM < "eucaliptol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eucaliptol_n_rel" ] ]. eucaliptus_n1 := n_intr_count_le & [ STEM < "eucaliptus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_eucaliptus_n_rel" ] ]. eucarionte_a1 := a_rel_nonprd_intr_le & [ STEM < "eucarionte" >, SYNSEM.LKEYS.KEYREL.PRED "_eucarionte_a_rel" ]. eucarioto_a1 := a_rel_nonprd_intr_le & [ STEM < "eucarioto" >, SYNSEM.LKEYS.KEYREL.PRED "_eucarioto_a_rel" ]. eucaristía_n1 := n_intr_uncount_le & [ STEM < "eucaristía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eucaristía_n_rel" ] ]. eucariótico_a1 := a_rel_nonprd_intr_le & [ STEM < "eucariótico" >, SYNSEM.LKEYS.KEYREL.PRED "_eucariótico_a_rel" ]. eucarístico_a1 := a_rel_nonprd_intr_le & [ STEM < "eucarístico" >, SYNSEM.LKEYS.KEYREL.PRED "_eucarístico_a_rel" ]. euclidiano_a1 := a_rel_nonprd_intr_le & [ STEM < "euclidiano" >, SYNSEM.LKEYS.KEYREL.PRED "_euclidiano_a_rel" ]. euclorina_n1 := n_intr_count_le & [ STEM < "euclorina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_euclorina_n_rel" ] ]. eucromatina_n1 := n_intr_count_le & [ STEM < "eucromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eucromatina_n_rel" ] ]. eucromosoma_n1 := n_intr_count_le & [ STEM < "eucromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eucromosoma_n_rel" ] ]. eudiómetro_n1 := n_intr_count_le & [ STEM < "eudiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eudiómetro_n_rel" ] ]. eufemismo_n1 := n_intr_count_le & [ STEM < "eufemismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eufemismo_n_rel" ] ]. eufemísticamente_x1 := av_i_spr_le & [ STEM < "eufemísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eufemísticamente_x_rel" ]. eufemístico_a1 := a_rel_nonprd_intr_le & [ STEM < "eufemístico" >, SYNSEM.LKEYS.KEYREL.PRED "_eufemístico_a_rel" ]. eufonía_n1 := n_intr_count_le & [ STEM < "eufonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eufonía_n_rel" ] ]. euforia_n1 := n_intr_mass_le & [ STEM < "euforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_euforia_n_rel" ] ]. euforizante_a1 := a_rel_prd_le & [ STEM < "euforizante" >, SYNSEM.LKEYS.KEYREL.PRED "_euforizante_a_rel" ]. eufónico_a1 := a_rel_nonprd_intr_le & [ STEM < "eufónico" >, SYNSEM.LKEYS.KEYREL.PRED "_eufónico_a_rel" ]. eufóricamente_x1 := av_i_spr_le & [ STEM < "eufóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eufóricamente_x_rel" ]. eufórico_a1 := a_qual_intr_estar_le & [ STEM < "eufórico" >, SYNSEM.LKEYS.KEYREL.PRED "_eufórico_a_rel" ]. eugenato_n1 := n_intr_count_le & [ STEM < "eugenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eugenato_n_rel" ] ]. eugenesia_n1 := n_intr_uncount_le & [ STEM < "eugenesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eugenesia_n_rel" ] ]. eugenol_n1 := n_intr_count_le & [ STEM < "eugenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eugenol_n_rel" ] ]. euglobulina_n1 := n_intr_count_le & [ STEM < "euglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_euglobulina_n_rel" ] ]. euleriano_a1 := a_rel_nonprd_intr_le & [ STEM < "euleriano" >, SYNSEM.LKEYS.KEYREL.PRED "_euleriano_a_rel" ]. eunuco_n1 := n_intr_count_le & [ STEM < "eunuco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eunuco_n_rel" ] ]. euploide_a1 := a_rel_nonprd_intr_le & [ STEM < "euploide" >, SYNSEM.LKEYS.KEYREL.PRED "_euploide_a_rel" ]. euploidia_n1 := n_intr_uncount_le & [ STEM < "euploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_euploidia_n_rel" ] ]. eurignático_a1 := a_rel_nonprd_intr_le & [ STEM < "eurignático" >, SYNSEM.LKEYS.KEYREL.PRED "_eurignático_a_rel" ]. euriprosopia_n1 := n_intr_uncount_le & [ STEM < "euriprosopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_euriprosopia_n_rel" ] ]. euro_n1 := n_intr_count_le & [ STEM < "euro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_euro_n_rel" ] ]. euroasio_a1 := a_rel_prd_le & [ STEM < "euroasio" >, SYNSEM.LKEYS.KEYREL.PRED "_euroasio_a_rel" ]. euroasiático_a1 := a_rel_prd_le & [ STEM < "euroasiático" >, SYNSEM.LKEYS.KEYREL.PRED "_euroasiático_a_rel" ]. euroasiático_n1 := n_intr_count_le & [ STEM < "euroasiático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_euroasiático_n_rel" ] ]. eurobono_n1 := n_intr_count_le & [ STEM < "eurobono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eurobono_n_rel" ] ]. eurocrédito_n1 := n_intr_uncount_le & [ STEM < "eurocrédito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eurocrédito_n_rel" ] ]. eurodiputado_n1 := n_intr_count_le & [ STEM < "eurodiputado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_eurodiputado_n_rel" ] ]. eurodivisa_n1 := n_intr_uncount_pl_le & [ STEM < "eurodivisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eurodivisa_n_rel" ] ]. eurodólar_n1 := n_intr_count_le & [ STEM < "eurodólar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_eurodólar_n_rel" ] ]. euromediterráneo_a1 := a_rel_prd_le & [ STEM < "euromediterráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_euromediterráneo_a_rel" ]. euromercado_n1 := n_intr_count_le & [ STEM < "euromercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_euromercado_n_rel" ] ]. europeización_n1 := n_trans_le & [ STEM < "europeización" >, SYNSEM.LKEYS.KEYREL.PRED "_europeización_n_rel" ]. europeizar_v := v_trans_np_le & [ STEM < "europeizar" >, SYNSEM.LKEYS.KEYREL.PRED "_europeizar_v_rel" ]. europeo_a1 := a_rel_prd_le & [ STEM < "europeo" >, SYNSEM.LKEYS.KEYREL.PRED "_europeo_a_rel" ]. europeo_n1 := n_intr_count_le & [ STEM < "europeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_europeo_n_rel" ] ]. europeísmo_n1 := n_intr_uncount_le & [ STEM < "europeísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_europeísmo_n_rel" ] ]. europeísta_a1 := a_qual_intr_ser_le & [ STEM < "europeísta" >, SYNSEM.LKEYS.KEYREL.PRED "_europeísta_a_rel" ]. europio_n1 := n_intr_mass_le & [ STEM < "europio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_europio_n_rel" ] ]. eurovisión_n1 := n_intr_uncount_le & [ STEM < "eurovisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eurovisión_n_rel" ] ]. euskera_n1 := n_intr_uncount_le & [ STEM < "euskera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_euskera_n_rel" ] ]. eustaquitis_n1 := n_intr_uncount_le & [ STEM < "eustaquitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eustaquitis_n_rel" ] ]. eutanasia_n1 := n_intr_uncount_le & [ STEM < "eutanasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eutanasia_n_rel" ] ]. eutectoide_a1 := a_rel_nonprd_intr_le & [ STEM < "eutectoide" >, SYNSEM.LKEYS.KEYREL.PRED "_eutectoide_a_rel" ]. eutectoidemente_x1 := av_i_spr_le & [ STEM < "eutectoidemente" >, SYNSEM.LKEYS.KEYREL.PRED "_eutectoidemente_x_rel" ]. eutiscopio_n1 := n_intr_count_le & [ STEM < "eutiscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eutiscopio_n_rel" ] ]. eutrofia_n1 := n_intr_uncount_le & [ STEM < "eutrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eutrofia_n_rel" ] ]. eutrofización_n1 := n_intr_uncount_le & [ STEM < "eutrofización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eutrofización_n_rel" ] ]. eutrofizar_v := v_trans_np_le & [ STEM < "eutrofizar" >, SYNSEM.LKEYS.KEYREL.PRED "_eutrofizar_v_rel" ]. eutropía_n1 := n_intr_uncount_le & [ STEM < "eutropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eutropía_n_rel" ] ]. eutróficamente_x1 := av_i_spr_le & [ STEM < "eutróficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eutróficamente_x_rel" ]. eutrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "eutrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_eutrófico_a_rel" ]. eutrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "eutrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_eutrópico_a_rel" ]. eutéctico_a1 := a_rel_prd_le & [ STEM < "eutéctico" >, SYNSEM.LKEYS.KEYREL.PRED "_eutéctico_a_rel" ]. euxenita_n1 := n_intr_count_le & [ STEM < "euxenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_euxenita_n_rel" ] ]. evacuación_n1 := n_trans_le & [ STEM < "evacuación" >, SYNSEM.LKEYS.KEYREL.PRED "_evacuación_n_rel" ]. evacuado_n1 := n_intr_count_le & [ STEM < "evacuado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_evacuado_n_rel" ] ]. evadir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "evadir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evadir_v_rel" ] ] ]. evadir_v2 := v_intr_mrkd_np_le & [ STEM < "evadir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evadir_v_rel" ] ] ]. evadir_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "evadir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evadir_v_rel" ] ] ]. evadir_v4 := v_pron_intr_mrkd_np_le & [ STEM < "evadir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evadir_v_rel" ] ] ]. evadir_v5 := v_trans_np_mrkd_np*_caus_le & [ STEM < "evadir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_evadir_v_rel" ] ]. evaluable_a1 := a_rel_prd_le & [ STEM < "evaluable" >, SYNSEM.LKEYS.KEYREL.PRED "_evaluable_a_rel" ]. evaluación_n1 := n_trans_le & [ STEM < "evaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_evaluación_n_rel" ]. evaluador_n1 := n_subj-nom_le & [ STEM < "evaluador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_evaluador_n_rel" ] ]. evaluar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "evaluar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_evaluar_v_rel" ] ]. evaluar_v2 := v_trans_np_le & [ STEM < "evaluar" >, SYNSEM.LKEYS.KEYREL.PRED "_evaluar_v_rel" ]. evanescente_a1 := a_qual_intr_scopal_le & [ STEM < "evanescente" >, SYNSEM.LKEYS.KEYREL.PRED "_evanescente_a_rel" ]. evanescentemente_x1 := av_i_spr_le & [ STEM < "evanescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_evanescentemente_x_rel" ]. evangelio_n1 := n_intr_count_le & [ STEM < "evangelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_evangelio_n_rel" ] ]. evangelismo_n1 := n_intr_uncount_le & [ STEM < "evangelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evangelismo_n_rel" ] ]. evangelista_n1 := n_intr_count_le & [ STEM < "evangelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_evangelista_n_rel" ] ]. evangelización_n1 := n_trans_le & [ STEM < "evangelización" >, SYNSEM.LKEYS.KEYREL.PRED "_evangelización_n_rel" ]. evangelizador_a1 := a_rel_nonprd_intr_le & [ STEM < "evangelizador" >, SYNSEM.LKEYS.KEYREL.PRED "_evangelizador_a_rel" ]. evangelizar_v := v_trans_np_le & [ STEM < "evangelizar" >, SYNSEM.LKEYS.KEYREL.PRED "_evangelizar_v_rel" ]. evangélicamente_x1 := av_i_spr_le & [ STEM < "evangélicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_evangélicamente_x_rel" ]. evangélico_a1 := a_rel_nonprd_intr_le & [ STEM < "evangélico" >, SYNSEM.LKEYS.KEYREL.PRED "_evangélico_a_rel" ]. evaporable_a1 := a_qual_intr_scopal_le & [ STEM < "evaporable" >, SYNSEM.LKEYS.KEYREL.PRED "_evaporable_a_rel" ]. evaporación_n1 := n_trans_le & [ STEM < "evaporación" >, SYNSEM.LKEYS.KEYREL.PRED "_evaporación_n_rel" ]. evaporador_n1 := n_intr_count_le & [ STEM < "evaporador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_evaporador_n_rel" ] ]. evaporar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "evaporar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evaporar_v_rel" ] ] ]. evaporar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "evaporar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_evaporar_v_rel" ] ] ]. evaporar_v3 := v_trans_np_caus_le & [ STEM < "evaporar" >, SYNSEM.LKEYS.KEYREL.PRED "_evaporar_v_rel" ]. evaporativo_a1 := a_rel_nonprd_intr_le & [ STEM < "evaporativo" >, SYNSEM.LKEYS.KEYREL.PRED "_evaporativo_a_rel" ]. evaporita_n1 := n_intr_mass_le & [ STEM < "evaporita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_evaporita_n_rel" ] ]. evasiva_n1 := n_intr_count_le & [ STEM < "evasiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evasiva_n_rel" ] ]. evasivo_a1 := a_qual_intr_scopal_le & [ STEM < "evasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_evasivo_a_rel" ]. evasión_n1 := n_trans_le & [ STEM < "evasión" >, SYNSEM.LKEYS.KEYREL.PRED "_evasión_n_rel" ]. evasor_n1 := n_subj-nom_le & [ STEM < "evasor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_evasor_n_rel" ] ]. evento_n1 := n_intr_count_le & [ STEM < "evento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evento_n_rel" ] ]. eventual_a1 := a_rel_prd_le & [ STEM < "eventual" >, SYNSEM.LKEYS.KEYREL.PRED "_eventual_a_rel" ]. eventualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "eventualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eventualidad_n_rel" ] ]. eventualmente_x1 := av_i_spr_le & [ STEM < "eventualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_eventualmente_x_rel" ]. eversión_n1 := n_trans_le & [ STEM < "eversión" >, SYNSEM.LKEYS.KEYREL.PRED "_eversión_n_rel" ]. evicción_n1 := n_intr_uncount_le & [ STEM < "evicción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evicción_n_rel" ] ]. evidencia_n1 := n_intr_uncount_pl_le & [ STEM < "evidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evidencia_n_rel" ] ]. evidenciar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "evidenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_evidenciar_v_rel" ]. evidenciar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "evidenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_evidenciar_v_rel" ]. evidenciar_v3 := v_trans_cp_prop_fin_le & [ STEM < "evidenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_evidenciar_v_rel" ] ]. evidenciar_v4 := v_trans_np_caus_le & [ STEM < "evidenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_evidenciar_v_rel" ]. evidente_a1 := a_adv_int_le & [ STEM < "evidente" >, SYNSEM.LKEYS.KEYREL.PRED "_evidente_a_rel" ]. evidente_a2 := a_qual_intr_scopal_le & [ STEM < "evidente" >, SYNSEM.LKEYS.KEYREL.PRED "_evidente_a_rel" ]. evidentemente_x1 := av_s_prhd_le & [ STEM < "evidentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_evidentemente_x_rel" ]. evisceración_n1 := n_trans_le & [ STEM < "evisceración" >, SYNSEM.LKEYS.KEYREL.PRED "_evisceración_n_rel" ]. evitabilidad_n1 := n_intr_uncount_le & [ STEM < "evitabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evitabilidad_n_rel" ] ]. evitable_a1 := a_qual_intr_scopal_le & [ STEM < "evitable" >, SYNSEM.LKEYS.KEYREL.PRED "_evitable_a_rel" ]. evitación_n1 := n_trans_le & [ STEM < "evitación" >, SYNSEM.LKEYS.KEYREL.PRED "_evitación_n_rel" ]. evitar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "evitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_evitar_v_rel" ] ]. evitar_v2 := v_ditrans*_le & [ STEM < "evitar" >, SYNSEM.LKEYS.KEYREL.PRED "_evitar_v_rel" ]. evitar_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "evitar" >, SYNSEM.LKEYS.KEYREL.PRED "_evitar_v_rel" ]. evitar_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "evitar" >, SYNSEM.LKEYS.KEYREL.PRED "_evitar_v_rel" ]. evocación_n1 := n_trans_le & [ STEM < "evocación" >, SYNSEM.LKEYS.KEYREL.PRED "_evocación_n_rel" ]. evocador_a1 := a_rel_nonprd_intr_le & [ STEM < "evocador" >, SYNSEM.LKEYS.KEYREL.PRED "_evocador_a_rel" ]. evocar_v1 := v_trans_cp_prop_fin_le & [ STEM < "evocar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_evocar_v_rel" ] ]. evocar_v2 := v_trans_np_le & [ STEM < "evocar" >, SYNSEM.LKEYS.KEYREL.PRED "_evocar_v_rel" ]. evolucionar_v := v_unacc_perf_le & [ STEM < "evolucionar" >, SYNSEM.LKEYS.KEYREL.PRED "_evolucionar_v_rel" ]. evolucionismo_n1 := n_intr_uncount_le & [ STEM < "evolucionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_evolucionismo_n_rel" ] ]. evolución_n1 := n_result_intr_le & [ STEM < "evolución" >, SYNSEM.LKEYS.KEYREL.PRED "_evolución_n_rel" ]. evolutivamente_x1 := av_i_spr_le & [ STEM < "evolutivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_evolutivamente_x_rel" ]. evolutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "evolutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_evolutivo_a_rel" ]. ex_a1 := a_adv_int_le & [ STEM < "ex" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_a_rel" ]. ex_abrupto_x1 := av_i_le & [ STEM < "ex_abrupto" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_abrupto_x_rel" ]. ex_aequo_x1 := av_i_le & [ STEM < "ex_aequo" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_aequo_x_rel" ]. ex_cathedra_x1 := av_i_le & [ STEM < "ex_cathedra" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_cathedra_x_rel" ]. ex_cáthedra_x1 := av_i_le & [ STEM < "ex_cáthedra" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_cáthedra_x_rel" ]. ex_profeso_x1 := av_i_le & [ STEM < "ex_profeso" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_profeso_x_rel" ]. ex_testamento_x1 := av_i_le & [ STEM < "ex_testamento" >, SYNSEM.LKEYS.KEYREL.PRED "_ex_testamento_x_rel" ]. exabrupto_n1 := n_intr_count_le & [ STEM < "exabrupto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exabrupto_n_rel" ] ]. exacción_n1 := n_intr_count_le & [ STEM < "exacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exacción_n_rel" ] ]. exacerbar_v1 := v_intr_io*_le & [ STEM < "exacerbar" >, SYNSEM.LKEYS.KEYREL.PRED "_exacerbar_v_rel" ]. exacerbar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "exacerbar" >, SYNSEM.LKEYS.KEYREL.PRED "_exacerbar_v_rel" ]. exacerbar_v3 := v_trans_np_caus_le & [ STEM < "exacerbar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum, PRED "_exacerbar_v_rel" ] ]. exactamente_x1 := av_s_spr_le & [ STEM < "exactamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exactamente_x_rel" ]. exactitud_n1 := n_intr_mass_le & [ STEM < "exactitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exactitud_n_rel" ] ]. exacto_a1 := a_adv_int_le & [ STEM < "exacto" >, SYNSEM.LKEYS.KEYREL.PRED "_exacto_a_rel" ]. exacto_a2 := a_qual_intr_scopal_le & [ STEM < "exacto" >, SYNSEM.LKEYS.KEYREL.PRED "_exacto_a_rel" ]. exageración_n1 := n_trans_le & [ STEM < "exageración" >, SYNSEM.LKEYS.KEYREL.PRED "_exageración_n_rel" ]. exageradamente_x1 := av_s_spr_le & [ STEM < "exageradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exageradamente_x_rel" ]. exagerar_v1 := v_intr_le & [ STEM < "exagerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_exagerar_v_rel" ] ]. exagerar_v2 := v_trans_np_le & [ STEM < "exagerar" >, SYNSEM.LKEYS.KEYREL.PRED "_exagerar_v_rel" ]. exaltación_n1 := n_trans_le & [ STEM < "exaltación" >, SYNSEM.LKEYS.KEYREL.PRED "_exaltación_n_rel" ]. exaltado_n1 := n_intr_count_le & [ STEM < "exaltado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exaltado_n_rel" ] ]. exaltar_v1 := v_intr_io*_le & [ STEM < "exaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_exaltar_v_rel" ]. exaltar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "exaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_exaltar_v_rel" ]. exaltar_v3 := v_trans_cp_prop_fin_le & [ STEM < "exaltar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_exaltar_v_rel" ] ]. exaltar_v4 := v_trans_np_caus_le & [ STEM < "exaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_exaltar_v_rel" ]. examen_n1 := n_intr_count_le & [ STEM < "examen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_examen_n_rel" ] ]. examinación_n1 := n_trans_le & [ STEM < "examinación" >, SYNSEM.LKEYS.KEYREL.PRED "_examinación_n_rel" ]. examinador_n1 := n_subj-nom_le & [ STEM < "examinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_examinador_n_rel" ] ]. examinando_n1 := n_intr_count_le & [ STEM < "examinando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_examinando_n_rel" ] ]. examinar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "examinar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_examinar_v_rel" ] ]. examinar_v2 := v_trans_cp_semi_ques_le & [ STEM < "examinar" >, SYNSEM.LKEYS.KEYREL.PRED "_examinar_v_rel" ]. examinar_v3 := v_trans_np_le & [ STEM < "examinar" >, SYNSEM.LKEYS.KEYREL.PRED "_examinar_v_rel" ]. exangã¼e_a1 := a_qual_intr_estar_le & [ STEM < "exangÜe" >, SYNSEM.LKEYS.KEYREL.PRED "_exangüe_a_rel" ]. exantema_n1 := n_intr_count_le & [ STEM < "exantema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exantema_n_rel" ] ]. exarca_n1 := n_intr_count_le & [ STEM < "exarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exarca_n_rel" ] ]. exarcado_n1 := n_intr_count_le & [ STEM < "exarcado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_exarcado_n_rel" ] ]. exasperación_n1 := n_trans_le & [ STEM < "exasperación" >, SYNSEM.LKEYS.KEYREL.PRED "_exasperación_n_rel" ]. exasperante_a1 := a_qual_intr_scopal_le & [ STEM < "exasperante" >, SYNSEM.LKEYS.KEYREL.PRED "_exasperante_a_rel" ]. exasperar_v1 := v_intr_io*_le & [ STEM < "exasperar" >, SYNSEM.LKEYS.KEYREL.PRED "_exasperar_v_rel" ]. exasperar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "exasperar" >, SYNSEM.LKEYS.KEYREL.PRED "_exasperar_v_rel" ]. exasperar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "exasperar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_exasperar_v_rel" ] ]. exasperar_v4 := v_trans_np_caus_le & [ STEM < "exasperar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_soc, PRED "_exasperar_v_rel" ] ]. exazulgrana_n1 := n_intr_count_le & [ STEM < "exazulgrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exazulgrana_n_rel" ] ]. exbarcelonista_a1 := a_rel_prd_le & [ STEM < "exbarcelonista" >, SYNSEM.LKEYS.KEYREL.PRED "_exbarcelonista_a_rel" ]. exbarcelonista_n1 := n_intr_count_le & [ STEM < "exbarcelonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exbarcelonista_n_rel" ] ]. excarcelación_n1 := n_trans_le & [ STEM < "excarcelación" >, SYNSEM.LKEYS.KEYREL.PRED "_excarcelación_n_rel" ]. excavación_n1 := n_trans_le & [ STEM < "excavación" >, SYNSEM.LKEYS.KEYREL.PRED "_excavación_n_rel" ]. excavación_n2 := n_intr_count_le & [ STEM < "excavación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_excavación_n_rel" ] ]. excavador_a1 := a_rel_nonprd_intr_le & [ STEM < "excavador" >, SYNSEM.LKEYS.KEYREL.PRED "_excavador_a_rel" ]. excavador_n1 := n_intr_count_le & [ STEM < "excavador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_excavador_n_rel" ] ]. excavador_n2 := n_subj-nom_le & [ STEM < "excavador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_excavador_n_rel" ] ]. excavadora_n1 := n_intr_count_le & [ STEM < "excavadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_excavadora_n_rel" ] ]. excavar_v := v_trans_np*_lcomp_loc_le & [ STEM < "excavar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_excavar_v_rel" ] ]. excedencia_n1 := n_intr_uncount_pl_le & [ STEM < "excedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excedencia_n_rel" ] ]. excedentario_a1 := a_rel_nonprd_intr_le & [ STEM < "excedentario" >, SYNSEM.LKEYS.KEYREL.PRED "_excedentario_a_rel" ]. excedente_a1 := a_rel_nonprd_intr_le & [ STEM < "excedente" >, SYNSEM.LKEYS.KEYREL.PRED "_excedente_a_rel" ]. excedente_n1 := n_intr_count_le & [ STEM < "excedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excedente_n_rel" ] ]. exceder_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "exceder" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_exceder_v_rel" ] ] ]. exceder_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "exceder" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT abs_pro, PRED "_exceder_v_rel" ] ] ]. excelencia_n1 := n_intr_uncount_le & [ STEM < "excelencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excelencia_n_rel" ] ]. excelente_a1 := a_rel_prd_le & [ STEM < "excelente" >, SYNSEM.LKEYS.KEYREL.PRED "_excelente_a_rel" ]. excelentemente_x1 := av_i_spr_le & [ STEM < "excelentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_excelentemente_x_rel" ]. excelentísimo_a1 := a_adv_int_le & [ STEM < "excelentísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_excelentísimo_a_rel" ]. excementosis_n1 := n_intr_uncount_le & [ STEM < "excementosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excementosis_n_rel" ] ]. excentricidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "excentricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excentricidad_n_rel" ] ]. excepcional_a1 := a_qual_intr_scopal_le & [ STEM < "excepcional" >, SYNSEM.LKEYS.KEYREL.PRED "_excepcional_a_rel" ]. excepcionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "excepcionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excepcionalidad_n_rel" ] ]. excepcionalismo_n1 := n_intr_uncount_le & [ STEM < "excepcionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excepcionalismo_n_rel" ] ]. excepcionalmente_x1 := av_s_prhd_spr_le & [ STEM < "excepcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_excepcionalmente_x_rel" ]. excepcionalmente_x2 := av_i_psthd_spr_le & [ STEM < "excepcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_excepcionalmente_x_rel" ]. excepcionar_v := v_trans_np_le & [ STEM < "excepcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_excepcionar_v_rel" ]. excepción_n1 := n_trans_le & [ STEM < "excepción" >, SYNSEM.LKEYS.KEYREL.PRED "_excepción_n_rel" ]. excepto_p_nmod := p_nmod_le & [ STEM < "excepto" >, SYNSEM.LKEYS.KEYREL.PRED _excepto_p_rel ]. excepto_que_sc := sc_prop_fin_le & [ STEM < "excepto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_excepto_que_x_subord_rel" ]. excesivamente_x1 := av_i_spr_le & [ STEM < "excesivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_excesivamente_x_rel" ]. excesivo_a1 := a_qual_intr_ser_le & [ STEM < "excesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_excesivo_a_rel" ]. exceso_n1 := n_intr_count_le & [ STEM < "exceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exceso_n_rel" ] ]. excicloforia_n1 := n_intr_uncount_le & [ STEM < "excicloforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excicloforia_n_rel" ] ]. excisión_n1 := n_intr_uncount_le & [ STEM < "excisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excisión_n_rel" ] ]. excitabilidad_n1 := n_ppcomp_mass_le & [ STEM < "excitabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excitabilidad_n_rel" ] ]. excitable_a1 := a_qual_intr_scopal_le & [ STEM < "excitable" >, SYNSEM.LKEYS.KEYREL.PRED "_excitable_a_rel" ]. excitación_n1 := n_trans_le & [ STEM < "excitación" >, SYNSEM.LKEYS.KEYREL.PRED "_excitación_n_rel" ]. excitador_a1 := a_rel_nonprd_intr_le & [ STEM < "excitador" >, SYNSEM.LKEYS.KEYREL.PRED "_excitador_a_rel" ]. excitador_n1 := n_intr_count_le & [ STEM < "excitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_excitador_n_rel" ] ]. excitante_a1 := a_qual_intr_scopal_le & [ STEM < "excitante" >, SYNSEM.LKEYS.KEYREL.PRED "_excitante_a_rel" ]. excitante_n1 := n_intr_mass-or-count_le & [ STEM < "excitante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_excitante_n_rel" ] ]. excitar_v1 := v_intr_io*_le & [ STEM < "excitar" >, SYNSEM.LKEYS.KEYREL.PRED "_excitar_v_rel" ]. excitar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "excitar" >, SYNSEM.LKEYS.KEYREL.PRED "_excitar_v_rel" ]. excitar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "excitar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_excitar_v_rel" ] ]. excitar_v4 := v_trans_np_caus_le & [ STEM < "excitar" >, SYNSEM.LKEYS.KEYREL.PRED "_excitar_v_rel" ]. excitocatabólico_a1 := a_rel_nonprd_intr_le & [ STEM < "excitocatabólico" >, SYNSEM.LKEYS.KEYREL.PRED "_excitocatabólico_a_rel" ]. exclamación_n1 := n_intr_mass_le & [ STEM < "exclamación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_exclamación_n_rel" ] ]. exclamativo_a1 := a_rel_nonprd_intr_le & [ STEM < "exclamativo" >, SYNSEM.LKEYS.KEYREL.PRED "_exclamativo_a_rel" ]. exclave_n1 := n_intr_count_le & [ STEM < "exclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_exclave_n_rel" ] ]. excluir_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "excluir" >, SYNSEM.LKEYS.KEYREL.PRED "_excluir_v_rel" ]. excluir_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "excluir" >, SYNSEM.LKEYS.KEYREL.PRED "_excluir_v_rel" ]. excluir_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "excluir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_excluir_v_rel" ] ]. excluir_v4 := v_trans_cp_prop_fin_sub_le & [ STEM < "excluir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_excluir_v_rel" ] ]. excluir_v5 := v_trans_np_le & [ STEM < "excluir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_excluir_v_rel" ] ]. excluir_v6 := v_trans_np_mrkd_np_le & [ STEM < "excluir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_excluir_v_rel" ] ]. exclusiva_n1 := n_intr_count_le & [ STEM < "exclusiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exclusiva_n_rel" ] ]. exclusivamente_x1 := av_i_foc_le & [ STEM < "exclusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exclusivamente_x_rel" ]. exclusivamente_x2 := av_s_cp_prop_le & [ STEM < "exclusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exclusivamente_x_rel" ]. exclusivamente_x3 := av_i_np-foc_le & [ STEM < "exclusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exclusivamente_x_rel" ]. exclusividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "exclusividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exclusividad_n_rel" ] ]. exclusivista_a1 := a_rel_prd_le & [ STEM < "exclusivista" >, SYNSEM.LKEYS.KEYREL.PRED "_exclusivista_a_rel" ]. exclusivo_a1 := a_qual_trans*_ser_le & [ STEM < "exclusivo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_exclusivo_a_rel" ] ]. exclusión_n1 := n_trans_le & [ STEM < "exclusión" >, SYNSEM.LKEYS.KEYREL.PRED "_exclusión_n_rel" ]. excluyente_a1 := a_qual_intr_scopal_le & [ STEM < "excluyente" >, SYNSEM.LKEYS.KEYREL.PRED "_excluyente_a_rel" ]. excluyentemente_x1 := av_i_spr_le & [ STEM < "excluyentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_excluyentemente_x_rel" ]. excombatiente_n1 := n_intr_count_le & [ STEM < "excombatiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_excombatiente_n_rel" ] ]. excompañero_n1 := n_ppcomp_count_le & [ STEM < "excompañero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_excompañero_n_rel" ] ]. excomunión_n1 := n_trans_le & [ STEM < "excomunión" >, SYNSEM.LKEYS.KEYREL.PRED "_excomunión_n_rel" ]. excoriación_n1 := n_trans_le & [ STEM < "excoriación" >, SYNSEM.LKEYS.KEYREL.PRED "_excoriación_n_rel" ]. excrecencia_n1 := n_intr_mass_le & [ STEM < "excrecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_excrecencia_n_rel" ] ]. excreción_n1 := n_trans_le & [ STEM < "excreción" >, SYNSEM.LKEYS.KEYREL.PRED "_excreción_n_rel" ]. excremento_n1 := n_intr_mass_le & [ STEM < "excremento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_excremento_n_rel" ] ]. excretar_v := v_trans_np*_le & [ STEM < "excretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_bpart_cnc_hum, PRED "_excretar_v_rel" ] ]. excretor_a1 := a_rel_nonprd_intr_le & [ STEM < "excretor" >, SYNSEM.LKEYS.KEYREL.PRED "_excretor_a_rel" ]. exculpación_n1 := n_trans_le & [ STEM < "exculpación" >, SYNSEM.LKEYS.KEYREL.PRED "_exculpación_n_rel" ]. exculpante_a1 := a_rel_nonprd_intr_le & [ STEM < "exculpante" >, SYNSEM.LKEYS.KEYREL.PRED "_exculpante_a_rel" ]. exculpante_n1 := n_intr_count_le & [ STEM < "exculpante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exculpante_n_rel" ] ]. exculpatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "exculpatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_exculpatorio_a_rel" ]. excursionismo_n1 := n_intr_uncount_le & [ STEM < "excursionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excursionismo_n_rel" ] ]. excursionista_n1 := n_intr_count_le & [ STEM < "excursionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_excursionista_n_rel" ] ]. excursión_n1 := n_intr_count_le & [ STEM < "excursión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excursión_n_rel" ] ]. excusa_n1 := n_trans_le & [ STEM < "excusa" >, SYNSEM.LKEYS.KEYREL.PRED "_excusa_n_rel" ]. excusable_a1 := a_rel_prd_le & [ STEM < "excusable" >, SYNSEM.LKEYS.KEYREL.PRED "_excusable_a_rel" ]. excusar_v1 := v_trans_np_le & [ STEM < "excusar" >, SYNSEM.LKEYS.KEYREL.PRED "_excusar_v_rel" ]. excusar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "excusar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_excusar_v_rel" ] ] ]. excusar_v3 := v_trans_np*_mrkd_np_le & [ STEM < "excusar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_excusar_v_rel" ] ] ]. excusión_n1 := n_intr_count_le & [ STEM < "excusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_excusión_n_rel" ] ]. excéntricamente_x1 := av_i_spr_le & [ STEM < "excéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_excéntricamente_x_rel" ]. excéntrico_a1 := a_qual_intr_ser_le & [ STEM < "excéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_excéntrico_a_rel" ]. excéntrico_n1 := n_intr_count_le & [ STEM < "excéntrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_excéntrico_n_rel" ] ]. exdeportivista_n1 := n_intr_count_le & [ STEM < "exdeportivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exdeportivista_n_rel" ] ]. execrable_a1 := a_rel_nonprd_intr_le & [ STEM < "execrable" >, SYNSEM.LKEYS.KEYREL.PRED "_execrable_a_rel" ]. execrar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "execrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_execrar_v_rel" ] ]. execrar_v2 := v_trans_np_le & [ STEM < "execrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_execrar_v_rel" ] ]. exedra_n1 := n_intr_count_le & [ STEM < "exedra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_exedra_n_rel" ] ]. exegesis_n1 := n_intr_uncount_le & [ STEM < "exegesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exegesis_n_rel" ] ]. exención_n1 := n_trans_le & [ STEM < "exención" >, SYNSEM.LKEYS.KEYREL.PRED "_exención_n_rel" ]. exento_a1 := a_qual_trans*_estar_le & [ STEM < "exento" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_exento_a_rel" ] ]. exento_a2 := a_sctrl_estar_le & [ STEM < "exento" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_exento_a_rel" ] ]. exequias_n1 := n_intr_uncount_pl_le & [ STEM < "exequias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exequias_n_rel" ] ]. exequátur_n1 := n_intr_uncount_le & [ STEM < "exequátur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exequátur_n_rel" ] ]. exergo_n1 := n_intr_count_le & [ STEM < "exergo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_exergo_n_rel" ] ]. exfoliación_n1 := n_trans_le & [ STEM < "exfoliación" >, SYNSEM.LKEYS.KEYREL.PRED "_exfoliación_n_rel" ]. exfoliativo_a1 := a_rel_nonprd_intr_le & [ STEM < "exfoliativo" >, SYNSEM.LKEYS.KEYREL.PRED "_exfoliativo_a_rel" ]. exhalación_n1 := n_trans_le & [ STEM < "exhalación" >, SYNSEM.LKEYS.KEYREL.PRED "_exhalación_n_rel" ]. exhalar_v := v_trans_np_le & [ STEM < "exhalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_cnc_mat, PRED "_exhalar_v_rel" ] ]. exhaustivamente_x1 := av_i_spr_le & [ STEM < "exhaustivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exhaustivamente_x_rel" ]. exhaustivo_a1 := a_rel_prd_le & [ STEM < "exhaustivo" >, SYNSEM.LKEYS.KEYREL.PRED "_exhaustivo_a_rel" ]. exhausto_a1 := a_qual_intr_estar_le & [ STEM < "exhausto" >, SYNSEM.LKEYS.KEYREL.PRED "_exhausto_a_rel" ]. exhibicionismo_n1 := n_intr_uncount_le & [ STEM < "exhibicionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exhibicionismo_n_rel" ] ]. exhibicionista_n1 := n_intr_count_le & [ STEM < "exhibicionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exhibicionista_n_rel" ] ]. exhibición_n1 := n_trans_le & [ STEM < "exhibición" >, SYNSEM.LKEYS.KEYREL.PRED "_exhibición_n_rel" ]. exhibitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "exhibitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_exhibitorio_a_rel" ]. exhortación_n1 := n_trans_le & [ STEM < "exhortación" >, SYNSEM.LKEYS.KEYREL.PRED "_exhortación_n_rel" ]. exhortante_a1 := a_rel_nonprd_intr_le & [ STEM < "exhortante" >, SYNSEM.LKEYS.KEYREL.PRED "_exhortante_a_rel" ]. exhortar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "exhortar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_exhortar_v_rel" ] ] ]. exhortar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "exhortar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_exhortar_v_rel" ] ] ]. exhortar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "exhortar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_exhortar_v_rel" ] ]. exhortatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "exhortatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_exhortatorio_a_rel" ]. exhorto_n1 := n_intr_count_le & [ STEM < "exhorto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exhorto_n_rel" ] ]. exhuberante_a1 := a_qual_intr_scopal_le & [ STEM < "exhuberante" >, SYNSEM.LKEYS.KEYREL.PRED "_exhuberante_a_rel" ]. exhumación_n1 := n_trans_le & [ STEM < "exhumación" >, SYNSEM.LKEYS.KEYREL.PRED "_exhumación_n_rel" ]. exhumar_v := v_trans_np_le & [ STEM < "exhumar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_hum_mat_pro, PRED "_exhumar_v_rel" ] ]. exigencia_n1 := n_trans_le & [ STEM < "exigencia" >, SYNSEM.LKEYS.KEYREL.PRED "_exigencia_n_rel" ]. exigente_a1 := a_qual_intr_ser_le & [ STEM < "exigente" >, SYNSEM.LKEYS.KEYREL.PRED "_exigente_a_rel" ]. exigibilidad_n1 := n_intr_uncount_le & [ STEM < "exigibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exigibilidad_n_rel" ] ]. exigible_a1 := a_rel_nonprd_intr_le & [ STEM < "exigible" >, SYNSEM.LKEYS.KEYREL.PRED "_exigible_a_rel" ]. exigir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "exigir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_exigir_v_rel" ] ]. exigir_v2 := v_ditrans*_le & [ STEM < "exigir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_exigir_v_rel" ] ]. exigir_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "exigir" >, SYNSEM.LKEYS.KEYREL.PRED "_exigir_v_rel" ]. exigir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "exigir" >, SYNSEM.LKEYS.KEYREL.PRED "_exigir_v_rel" ]. exigir_v5 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "exigir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_exigir_v_rel" ] ] ]. exigir_v6 := v_trans_np_mrkd_np_le & [ STEM < "exigir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_exigir_v_rel" ] ] ]. exiguo_a1 := a_qual_intr_scopal_le & [ STEM < "exiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_exiguo_a_rel" ]. exilio_n1 := n_intr_mass_le & [ STEM < "exilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_exilio_n_rel" ] ]. eximente_a1 := a_rel_nonprd_intr_le & [ STEM < "eximente" >, SYNSEM.LKEYS.KEYREL.PRED "_eximente_a_rel" ]. eximente_n1 := n_intr_count_le & [ STEM < "eximente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eximente_n_rel" ] ]. eximiamente_x1 := av_i_spr_le & [ STEM < "eximiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eximiamente_x_rel" ]. eximio_a1 := a_adv_int_le & [ STEM < "eximio" >, SYNSEM.LKEYS.KEYREL.PRED "_eximio_a_rel" ]. eximir_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "eximir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_eximir_v_rel" ] ]. eximir_v3 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "eximir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_eximir_v_rel" ] ]. eximir_v4 := v_trans_np_mrkd_np_le & [ STEM < "eximir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_eximir_v_rel" ] ]. exina_n1 := n_intr_count_le & [ STEM < "exina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exina_n_rel" ] ]. exinternacional_a1 := a_rel_prd_le & [ STEM < "exinternacional" >, SYNSEM.LKEYS.KEYREL.PRED "_exinternacional_a_rel" ]. existencia_n1 := n_intr_count_le & [ STEM < "existencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_existencia_n_rel" ] ]. existencial_a1 := a_rel_nonprd_intr_le & [ STEM < "existencial" >, SYNSEM.LKEYS.KEYREL.PRED "_existencial_a_rel" ]. existencialismo_n1 := n_ppcomp_uncount_le & [ STEM < "existencialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_existencialismo_n_rel" ] ]. existencialista_a1 := a_rel_nonprd_intr_le & [ STEM < "existencialista" >, SYNSEM.LKEYS.KEYREL.PRED "_existencialista_a_rel" ]. existencialista_n1 := n_intr_count_le & [ STEM < "existencialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_existencialista_n_rel" ] ]. existente_a1 := a_qual_trans*_ser_le & [ STEM < "existente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_existente_a_rel" ] ]. existir_v := v_unacc_lcomp_loc*_le & [ STEM < "existir" >, SYNSEM.LKEYS.KEYREL.PRED "_existir_v_rel" ]. exitosamente_x1 := av_i_spr_le & [ STEM < "exitosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exitosamente_x_rel" ]. exitoso_a1 := a_qual_intr_scopal_le & [ STEM < "exitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_exitoso_a_rel" ]. exministro_n1 := n_intr_count_le & [ STEM < "exministro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exministro_n_rel" ] ]. exnúmero_n1 := n_intr_count_le & [ STEM < "exnúmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exnúmero_n_rel" ] ]. exobiología_n1 := n_intr_uncount_le & [ STEM < "exobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exobiología_n_rel" ] ]. exocinético_a1 := a_rel_nonprd_intr_le & [ STEM < "exocinético" >, SYNSEM.LKEYS.KEYREL.PRED "_exocinético_a_rel" ]. exocrina_n1 := n_intr_count_le & [ STEM < "exocrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_exocrina_n_rel" ] ]. exocrino_a1 := a_rel_nonprd_intr_le & [ STEM < "exocrino" >, SYNSEM.LKEYS.KEYREL.PRED "_exocrino_a_rel" ]. exocéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "exocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_exocéntrico_a_rel" ]. exodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "exodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exodoncia_n_rel" ] ]. exodoncista_n1 := n_intr_count_le & [ STEM < "exodoncista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exodoncista_n_rel" ] ]. exoenergéticamente_x1 := av_i_spr_le & [ STEM < "exoenergéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exoenergéticamente_x_rel" ]. exoenergético_a1 := a_rel_nonprd_intr_le & [ STEM < "exoenergético" >, SYNSEM.LKEYS.KEYREL.PRED "_exoenergético_a_rel" ]. exoenzima_n1 := n_intr_count_le & [ STEM < "exoenzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exoenzima_n_rel" ] ]. exoesqueleto_n1 := n_intr_count_le & [ STEM < "exoesqueleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exoesqueleto_n_rel" ] ]. exoforia_n1 := n_intr_uncount_le & [ STEM < "exoforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exoforia_n_rel" ] ]. exoftalmometría_n1 := n_intr_count_le & [ STEM < "exoftalmometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exoftalmometría_n_rel" ] ]. exoftalmos_n1 := n_intr_uncount_le & [ STEM < "exoftalmos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exoftalmos_n_rel" ] ]. exoftalmía_n1 := n_intr_uncount_le & [ STEM < "exoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exoftalmía_n_rel" ] ]. exoftalmómetro_n1 := n_intr_count_le & [ STEM < "exoftalmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exoftalmómetro_n_rel" ] ]. exoftálmico_a1 := a_rel_nonprd_intr_le & [ STEM < "exoftálmico" >, SYNSEM.LKEYS.KEYREL.PRED "_exoftálmico_a_rel" ]. exogamia_n1 := n_intr_uncount_le & [ STEM < "exogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exogamia_n_rel" ] ]. exognacia_n1 := n_intr_uncount_le & [ STEM < "exognacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exognacia_n_rel" ] ]. exoneración_n1 := n_trans_le & [ STEM < "exoneración" >, SYNSEM.LKEYS.KEYREL.PRED "_exoneración_n_rel" ]. exonerativo_a1 := a_rel_nonprd_intr_le & [ STEM < "exonerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_exonerativo_a_rel" ]. exoneratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "exoneratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_exoneratorio_a_rel" ]. exorbitancia_n1 := n_intr_uncount_le & [ STEM < "exorbitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exorbitancia_n_rel" ] ]. exorbitante_a1 := a_qual_intr_scopal_le & [ STEM < "exorbitante" >, SYNSEM.LKEYS.KEYREL.PRED "_exorbitante_a_rel" ]. exorbitantemente_x1 := av_i_spr_le & [ STEM < "exorbitantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_exorbitantemente_x_rel" ]. exorcismo_n1 := n_intr_count_le & [ STEM < "exorcismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exorcismo_n_rel" ] ]. exorcista_n1 := n_intr_count_le & [ STEM < "exorcista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exorcista_n_rel" ] ]. exordio_n1 := n_intr_count_le & [ STEM < "exordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exordio_n_rel" ] ]. exosfera_n1 := n_intr_count_le & [ STEM < "exosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exosfera_n_rel" ] ]. exostosis_n1 := n_intr_uncount_le & [ STEM < "exostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exostosis_n_rel" ] ]. exotismo_n1 := n_ppcomp_uncount_le & [ STEM < "exotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exotismo_n_rel" ] ]. exotoxina_n1 := n_intr_count_le & [ STEM < "exotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exotoxina_n_rel" ] ]. exotropía_n1 := n_intr_uncount_le & [ STEM < "exotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exotropía_n_rel" ] ]. exotérmicamente_x1 := av_i_spr_le & [ STEM < "exotérmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exotérmicamente_x_rel" ]. exotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "exotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_exotérmico_a_rel" ]. expandible_a1 := a_rel_prd_le & [ STEM < "expandible" >, SYNSEM.LKEYS.KEYREL.PRED "_expandible_a_rel" ]. expandir_v := v_trans_np_lcomp_dir*_caus_le & [ STEM < "expandir" >, SYNSEM.LKEYS.KEYREL.PRED "_expandir_v_rel" ]. expansibilidad_n1 := n_ppcomp_mass_le & [ STEM < "expansibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expansibilidad_n_rel" ] ]. expansible_a1 := a_rel_prd_le & [ STEM < "expansible" >, SYNSEM.LKEYS.KEYREL.PRED "_expansible_a_rel" ]. expansiblemente_x1 := av_i_spr_le & [ STEM < "expansiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_expansiblemente_x_rel" ]. expansionable_a1 := a_rel_prd_le & [ STEM < "expansionable" >, SYNSEM.LKEYS.KEYREL.PRED "_expansionable_a_rel" ]. expansionar_v := v_trans_np_caus_le & [ STEM < "expansionar" >, SYNSEM.LKEYS.KEYREL.PRED "_expansionar_v_rel" ]. expansionismo_n1 := n_intr_uncount_le & [ STEM < "expansionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expansionismo_n_rel" ] ]. expansionista_a1 := a_rel_nonprd_intr_le & [ STEM < "expansionista" >, SYNSEM.LKEYS.KEYREL.PRED "_expansionista_a_rel" ]. expansionista_n1 := n_intr_count_le & [ STEM < "expansionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_expansionista_n_rel" ] ]. expansivamente_x1 := av_i_spr_le & [ STEM < "expansivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_expansivamente_x_rel" ]. expansivo_a1 := a_rel_nonprd_intr_le & [ STEM < "expansivo" >, SYNSEM.LKEYS.KEYREL.PRED "_expansivo_a_rel" ]. expansión_n1 := n_event-result_intr_le & [ STEM < "expansión" >, SYNSEM.LKEYS.KEYREL.PRED "_expansión_n_rel" ]. expansor_a1 := a_rel_nonprd_intr_le & [ STEM < "expansor" >, SYNSEM.LKEYS.KEYREL.PRED "_expansor_a_rel" ]. expansormente_x1 := av_i_spr_le & [ STEM < "expansormente" >, SYNSEM.LKEYS.KEYREL.PRED "_expansormente_x_rel" ]. expatriación_n1 := n_trans_le & [ STEM < "expatriación" >, SYNSEM.LKEYS.KEYREL.PRED "_expatriación_n_rel" ]. expatriar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "expatriar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_expatriar_v_rel" ] ] ]. expatriar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "expatriar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_expatriar_v_rel" ] ] ]. expectación_n1 := n_intr_mass-or-count_le & [ STEM < "expectación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expectación_n_rel" ] ]. expectante_a1 := a_qual_intr_estar_le & [ STEM < "expectante" >, SYNSEM.LKEYS.KEYREL.PRED "_expectante_a_rel" ]. expectativa_n1 := n_intr_count_le & [ STEM < "expectativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expectativa_n_rel" ] ]. expectoración_n1 := n_trans_le & [ STEM < "expectoración" >, SYNSEM.LKEYS.KEYREL.PRED "_expectoración_n_rel" ]. expectorante_n1 := n_intr_mass_le & [ STEM < "expectorante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_expectorante_n_rel" ] ]. expectorar_v := v_trans_np*_le & [ STEM < "expectorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_expectorar_v_rel" ] ]. expedición_n1 := n_event-result_intr_le & [ STEM < "expedición" >, SYNSEM.LKEYS.KEYREL.PRED "_expedición_n_rel" ]. expedición_n2 := n_trans_le & [ STEM < "expedición" >, SYNSEM.LKEYS.KEYREL.PRED "_expedición_n_rel" ]. expedidor_n1 := n_subj-nom_le & [ STEM < "expedidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_expedidor_n_rel" ] ]. expedientar_v := v_trans_np_le & [ STEM < "expedientar" >, SYNSEM.LKEYS.KEYREL.PRED "_expedientar_v_rel" ]. expediente_n1 := n_intr_count_le & [ STEM < "expediente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expediente_n_rel" ] ]. expedir_v1 := v_ditrans_le & [ STEM < "expedir" >, SYNSEM.LKEYS.KEYREL.PRED "_expedir_v_rel" ]. expedir_v2 := v_trans_np_lcomp_dir*_le & [ STEM < "expedir" >, SYNSEM.LKEYS.KEYREL.PRED "_expedir_v_rel" ]. expedir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "expedir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_expedir_v_rel" ] ] ]. expeditivo_a1 := a_qual_intr_scopal_le & [ STEM < "expeditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_expeditivo_a_rel" ]. expeditor_a1 := a_rel_nonprd_intr_le & [ STEM < "expeditor" >, SYNSEM.LKEYS.KEYREL.PRED "_expeditor_a_rel" ]. expendedor_a1 := a_rel_nonprd_intr_le & [ STEM < "expendedor" >, SYNSEM.LKEYS.KEYREL.PRED "_expendedor_a_rel" ]. expendedor_n1 := n_subj-nom_le & [ STEM < "expendedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_expendedor_n_rel" ] ]. expendeduría_n1 := n_intr_count_le & [ STEM < "expendeduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_expendeduría_n_rel" ] ]. expender_v := v_trans_np_le & [ STEM < "expender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_expender_v_rel" ] ]. expendición_n1 := n_trans_le & [ STEM < "expendición" >, SYNSEM.LKEYS.KEYREL.PRED "_expendición_n_rel" ]. expendio_n1 := n_trans_le & [ STEM < "expendio" >, SYNSEM.LKEYS.KEYREL.PRED "_expendio_n_rel" ]. expensas_n1 := n_intr_uncount_pl_le & [ STEM < "expensas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expensas_n_rel" ] ]. experiencia_n1 := n_intr_mass-or-count_le & [ STEM < "experiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_experiencia_n_rel" ] ]. experimentación_n1 := n_trans_le & [ STEM < "experimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_experimentación_n_rel" ]. experimentador_n1 := n_intr_count_le & [ STEM < "experimentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_experimentador_n_rel" ] ]. experimental_a1 := a_rel_nonprd_intr_le & [ STEM < "experimental" >, SYNSEM.LKEYS.KEYREL.PRED "_experimental_a_rel" ]. experimentalmente_x1 := av_i_spr_le & [ STEM < "experimentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_experimentalmente_x_rel" ]. experimentar_v1 := v_trans_cp_prop_fin_le & [ STEM < "experimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_experimentar_v_rel" ] ]. experimentar_v2 := v_trans_np*_le & [ STEM < "experimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_experimentar_v_rel" ] ]. experimento_n1 := n_intr_count_le & [ STEM < "experimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_experimento_n_rel" ] ]. experto_a1 := a_qual_trans*_ser_le & [ STEM < "experto" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_experto_a_rel" ] ]. experto_a2 := a_sctrl_ser_le & [ STEM < "experto" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_experto_a_rel" ] ]. experto_n1 := n_intr_count_le & [ STEM < "experto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_experto_n_rel" ] ]. expiación_n1 := n_trans_le & [ STEM < "expiación" >, SYNSEM.LKEYS.KEYREL.PRED "_expiación_n_rel" ]. expiar_v := v_trans_np_le & [ STEM < "expiar" >, SYNSEM.LKEYS.KEYREL.PRED "_expiar_v_rel" ]. expiatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "expiatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_expiatorio_a_rel" ]. expiración_n1 := n_event-result_intr_le & [ STEM < "expiración" >, SYNSEM.LKEYS.KEYREL.PRED "_expiración_n_rel" ]. expirar_v := v_unacc_perf_le & [ STEM < "expirar" >, SYNSEM.LKEYS.KEYREL.PRED "_expirar_v_rel" ]. explanación_n1 := n_trans_le & [ STEM < "explanación" >, SYNSEM.LKEYS.KEYREL.PRED "_explanación_n_rel" ]. explanada_n1 := n_intr_count_le & [ STEM < "explanada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_explanada_n_rel" ] ]. explanadora_n1 := n_intr_count_le & [ STEM < "explanadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_explanadora_n_rel" ] ]. explante_n1 := n_intr_count_le & [ STEM < "explante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_explante_n_rel" ] ]. explicable_a1 := a_rel_prd_le & [ STEM < "explicable" >, SYNSEM.LKEYS.KEYREL.PRED "_explicable_a_rel" ]. explicablemente_x1 := av_i_spr_le & [ STEM < "explicablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_explicablemente_x_rel" ]. explicación_n1 := n_trans_le & [ STEM < "explicación" >, SYNSEM.LKEYS.KEYREL.PRED "_explicación_n_rel" ]. explicar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "explicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_explicar_v_rel" ] ]. explicar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "explicar" >, SYNSEM.LKEYS.KEYREL.PRED "_explicar_v_rel" ]. explicar_v3 := v_ditrans*_le & [ STEM < "explicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_explicar_v_rel" ] ]. explicar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "explicar" >, SYNSEM.LKEYS.KEYREL.PRED "_explicar_vm_rel" ]. explicar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "explicar" >, SYNSEM.LKEYS.KEYREL.PRED "_explicar_v_rel" ]. explicativo_a1 := a_qual_intr_scopal_le & [ STEM < "explicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_explicativo_a_rel" ]. explicitación_n1 := n_trans_le & [ STEM < "explicitación" >, SYNSEM.LKEYS.KEYREL.PRED "_explicitación_n_rel" ]. explicitar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "explicitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_explicitar_v_rel" ] ]. explicitar_v2 := v_ditrans*_le & [ STEM < "explicitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_explicitar_v_rel" ] ]. exploración_n1 := n_trans_le & [ STEM < "exploración" >, SYNSEM.LKEYS.KEYREL.PRED "_exploración_n_rel" ]. explorador_a1 := a_rel_nonprd_intr_le & [ STEM < "explorador" >, SYNSEM.LKEYS.KEYREL.PRED "_explorador_a_rel" ]. explorador_n1 := n_subj-nom_le & [ STEM < "explorador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_explorador_n_rel" ] ]. explorar_v1 := v_trans_cp_semi_ques_le & [ STEM < "explorar" >, SYNSEM.LKEYS.KEYREL.PRED "_explorar_v_rel" ]. explorar_v2 := v_trans_np_le & [ STEM < "explorar" >, SYNSEM.LKEYS.KEYREL.PRED "_explorar_v_rel" ]. exploratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "exploratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_exploratorio_a_rel" ]. explosionar_v := v_trans_np_caus_int_non-perf_le & [ STEM < "explosionar" >, SYNSEM.LKEYS.KEYREL.PRED "_explosionar_v_rel" ]. explosivamente_x1 := av_i_spr_le & [ STEM < "explosivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_explosivamente_x_rel" ]. explosivo_a1 := a_qual_intr_scopal_le & [ STEM < "explosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_explosivo_a_rel" ]. explosivo_n1 := n_intr_mass_le & [ STEM < "explosivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_explosivo_n_rel" ] ]. explosión_n1 := n_result_intr_le & [ STEM < "explosión" >, SYNSEM.LKEYS.KEYREL.PRED "_explosión_n_rel" ]. explosímetro_n1 := n_intr_count_le & [ STEM < "explosímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_explosímetro_n_rel" ] ]. explotable_a1 := a_qual_intr_scopal_le & [ STEM < "explotable" >, SYNSEM.LKEYS.KEYREL.PRED "_explotable_a_rel" ]. explotación_n1 := n_trans_le & [ STEM < "explotación" >, SYNSEM.LKEYS.KEYREL.PRED "_explotación_n_rel" ]. explotación_n2 := n_intr_count_le & [ STEM < "explotación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_explotación_n_rel" ] ]. explotador_a1 := a_rel_nonprd_intr_le & [ STEM < "explotador" >, SYNSEM.LKEYS.KEYREL.PRED "_explotador_a_rel" ]. explotar_v1 := v_trans_np_caus_int_le & [ STEM < "explotar" >, SYNSEM.LKEYS.KEYREL.PRED "_explotar_v_rel" ]. explénico_a1 := a_rel_nonprd_intr_le & [ STEM < "explénico" >, SYNSEM.LKEYS.KEYREL.PRED "_explénico_a_rel" ]. explícitamente_x1 := av_i_spr_le & [ STEM < "explícitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_explícitamente_x_rel" ]. explícito_a1 := a_qual_intr_scopal_le & [ STEM < "explícito" >, SYNSEM.LKEYS.KEYREL.PRED "_explícito_a_rel" ]. expoliación_n1 := n_trans_le & [ STEM < "expoliación" >, SYNSEM.LKEYS.KEYREL.PRED "_expoliación_n_rel" ]. expoliar_v := v_trans_np_le & [ STEM < "expoliar" >, SYNSEM.LKEYS.KEYREL.PRED "_expoliar_v_rel" ]. exponencial_a1 := a_rel_nonprd_intr_le & [ STEM < "exponencial" >, SYNSEM.LKEYS.KEYREL.PRED "_exponencial_a_rel" ]. exponencialmente_x1 := av_i_spr_le & [ STEM < "exponencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_exponencialmente_x_rel" ]. exponente_n1 := n_intr_count_le & [ STEM < "exponente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exponente_n_rel" ] ]. exponer_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "exponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_exponer_v_rel" ] ]. exponer_v2 := v_ditrans*_le & [ STEM < "exponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_exponer_v_rel" ] ]. exponer_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "exponer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_exponer_v_rel" ] ]. exponer_v4 := v_pron_intr_mrkd_np_le & [ STEM < "exponer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_exponer_v_rel" ] ]. exportable_a1 := a_rel_nonprd_intr_le & [ STEM < "exportable" >, SYNSEM.LKEYS.KEYREL.PRED "_exportable_a_rel" ]. exportación_n1 := n_trans_le & [ STEM < "exportación" >, SYNSEM.LKEYS.KEYREL.PRED "_exportación_n_rel" ]. exportador_a1 := a_rel_nonprd_intr_le & [ STEM < "exportador" >, SYNSEM.LKEYS.KEYREL.PRED "_exportador_a_rel" ]. exportador_n1 := n_subj-nom_le & [ STEM < "exportador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exportador_n_rel" ] ]. exportar_v := v_trans_np_lcomp_dir*_le & [ STEM < "exportar" >, SYNSEM.LKEYS.KEYREL.PRED "_exportar_v_rel" ]. exposición_n1 := n_trans_le & [ STEM < "exposición" >, SYNSEM.LKEYS.KEYREL.PRED "_exposición_n_rel" ]. expositor_n1 := n_subj-nom_le & [ STEM < "expositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_expositor_n_rel" ] ]. expresamente_x1 := av_i_spr_le & [ STEM < "expresamente" >, SYNSEM.LKEYS.KEYREL.PRED "_expresamente_x_rel" ]. expresar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "expresar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_expresar_v_rel" ] ]. expresar_v2 := v_ditrans*_le & [ STEM < "expresar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_expresar_v_rel" ] ]. expresionismo_n1 := n_intr_uncount_le & [ STEM < "expresionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expresionismo_n_rel" ] ]. expresionista_a1 := a_rel_nonprd_intr_le & [ STEM < "expresionista" >, SYNSEM.LKEYS.KEYREL.PRED "_expresionista_a_rel" ]. expresivamente_x1 := av_i_spr_le & [ STEM < "expresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_expresivamente_x_rel" ]. expresividad_n1 := n_ppcomp_mass_le & [ STEM < "expresividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_expresividad_n_rel" ] ]. expresivo_a1 := a_qual_intr_ser_le & [ STEM < "expresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_expresivo_a_rel" ]. expresión_n1 := n_trans_le & [ STEM < "expresión" >, SYNSEM.LKEYS.KEYREL.PRED "_expresión_n_rel" ]. expreso_a1 := a_rel_nonprd_intr_le & [ STEM < "expreso" >, SYNSEM.LKEYS.KEYREL.PRED "_expreso_a_rel" ]. expreso_n1 := n_intr_count_le & [ STEM < "expreso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_expreso_n_rel" ] ]. exprimelimones_n1 := n_intr_count_le & [ STEM < "exprimelimones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_exprimelimones_n_rel" ] ]. exprimidor_n1 := n_intr_count_le & [ STEM < "exprimidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exprimidor_n_rel" ] ]. exprimir_v := v_trans_np_le & [ STEM < "exprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_exprimir_v_rel" ]. expropiación_n1 := n_trans_le & [ STEM < "expropiación" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiación_n_rel" ]. expropiador_a1 := a_rel_nonprd_intr_le & [ STEM < "expropiador" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiador_a_rel" ]. expropiadoramente_x1 := av_i_spr_le & [ STEM < "expropiadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiadoramente_x_rel" ]. expropiante_a1 := a_rel_nonprd_intr_le & [ STEM < "expropiante" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiante_a_rel" ]. expropiar_v := v_ditrans*_le & [ STEM < "expropiar" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiar_v_rel" ]. expropiatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "expropiatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_expropiatorio_a_rel" ]. exprés_a1 := a_rel_nonprd_intr_le & [ STEM < "exprés" >, SYNSEM.LKEYS.KEYREL.PRED "_exprés_a_rel" ]. expulsar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "expulsar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_expulsar_v_rel" ] ] ]. expulsar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "expulsar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_expulsar_v_rel" ] ]. expulsión_n1 := n_trans_le & [ STEM < "expulsión" >, SYNSEM.LKEYS.KEYREL.PRED "_expulsión_n_rel" ]. expulsor_n1 := n_intr_count_le & [ STEM < "expulsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_expulsor_n_rel" ] ]. expósito_n1 := n_ppcomp_count_le & [ STEM < "expósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_expósito_n_rel" ] ]. exquisitamente_x1 := av_i_spr_le & [ STEM < "exquisitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exquisitamente_x_rel" ]. exquisitez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "exquisitez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exquisitez_n_rel" ] ]. exquisito_a1 := a_qual_intr_scopal_le & [ STEM < "exquisito" >, SYNSEM.LKEYS.KEYREL.PRED "_exquisito_a_rel" ]. exrepresor_n1 := n_subj-nom_le & [ STEM < "exrepresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exrepresor_n_rel" ] ]. extasiar_v1 := v_intr_io*_le & [ STEM < "extasiar" >, SYNSEM.LKEYS.KEYREL.PRED "_extasiar_v_rel" ]. extasiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "extasiar" >, SYNSEM.LKEYS.KEYREL.PRED "_extasiar_v_rel" ]. extemporáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "extemporáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_extemporáneo_a_rel" ]. extendedor_n1 := n_intr_count_le & [ STEM < "extendedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extendedor_n_rel" ] ]. extendedora_n1 := n_intr_count_le & [ STEM < "extendedora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extendedora_n_rel" ] ]. extender_v1 := v_ditrans_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extender_v2 := v_pron_unacc_lcomp_dir*_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extender_v3 := v_pron_unacc_lcomp_loc_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extender_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extender_v5 := v_trans_np_lcomp_dir*_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extender_v6 := v_trans_np_le & [ STEM < "extender" >, SYNSEM.LKEYS.KEYREL.PRED "_extender_v_rel" ]. extensamente_x1 := av_i_spr_le & [ STEM < "extensamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extensamente_x_rel" ]. extensibilidad_n1 := n_intr_uncount_le & [ STEM < "extensibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extensibilidad_n_rel" ] ]. extensible_a1 := a_rel_prd_le & [ STEM < "extensible" >, SYNSEM.LKEYS.KEYREL.PRED "_extensible_a_rel" ]. extensivamente_x1 := av_i_spr_le & [ STEM < "extensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extensivamente_x_rel" ]. extensivo_a1 := a_rel_nonprd_intr_le & [ STEM < "extensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_extensivo_a_rel" ]. extensión_n1 := n_intr_mass_le & [ STEM < "extensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_extensión_n_rel" ] ]. extensión_n2 := n_trans_le & [ STEM < "extensión" >, SYNSEM.LKEYS.KEYREL.PRED "_extensión_n_rel" ]. extensométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "extensométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_extensométrico_a_rel" ]. extensor_n1 := n_intr_count_le & [ STEM < "extensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extensor_n_rel" ] ]. extensógrafo_n1 := n_intr_count_le & [ STEM < "extensógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extensógrafo_n_rel" ] ]. extensómetro_n1 := n_intr_count_le & [ STEM < "extensómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extensómetro_n_rel" ] ]. extenuación_n1 := n_intr_mass_le & [ STEM < "extenuación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extenuación_n_rel" ] ]. extenuar_v1 := v_intr_io*_le & [ STEM < "extenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_extenuar_v_rel" ]. extenuar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "extenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_extenuar_v_rel" ]. exterior_a1 := a_qual_trans*_ser_le & [ STEM < "exterior" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_exterior_a_rel" ] ]. exterior_n1 := n_intr_count_le & [ STEM < "exterior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_exterior_n_rel" ] ]. exterioridad_n1 := n_intr_count_le & [ STEM < "exterioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exterioridad_n_rel" ] ]. exterioridad_n2 := n_intr_uncount_le & [ STEM < "exterioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exterioridad_n_rel" ] ]. exteriorización_n1 := n_trans_le & [ STEM < "exteriorización" >, SYNSEM.LKEYS.KEYREL.PRED "_exteriorización_n_rel" ]. exteriorizar_v1 := v_trans_cp_prop_fin_le & [ STEM < "exteriorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_exteriorizar_v_rel" ] ]. exteriorizar_v2 := v_trans_np_le & [ STEM < "exteriorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_exteriorizar_v_rel" ] ]. exteriormente_x1 := av_i_le & [ STEM < "exteriormente" >, SYNSEM.LKEYS.KEYREL.PRED "_exteriormente_x_rel" ]. exterminación_n1 := n_trans_le & [ STEM < "exterminación" >, SYNSEM.LKEYS.KEYREL.PRED "_exterminación_n_rel" ]. exterminador_n1 := n_subj-nom_le & [ STEM < "exterminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exterminador_n_rel" ] ]. exterminar_v := v_trans_np_le & [ STEM < "exterminar" >, SYNSEM.LKEYS.KEYREL.PRED "_exterminar_v_rel" ]. exterminio_n1 := n_trans_le & [ STEM < "exterminio" >, SYNSEM.LKEYS.KEYREL.PRED "_exterminio_n_rel" ]. externalidad_n1 := n_intr_count_le & [ STEM < "externalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_externalidad_n_rel" ] ]. externalismo_n1 := n_intr_uncount_le & [ STEM < "externalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_externalismo_n_rel" ] ]. externalización_n1 := n_trans_le & [ STEM < "externalización" >, SYNSEM.LKEYS.KEYREL.PRED "_externalización_n_rel" ]. externamente_x1 := av_i_spr_le & [ STEM < "externamente" >, SYNSEM.LKEYS.KEYREL.PRED "_externamente_x_rel" ]. externo_a1 := a_rel_nonprd_intr_le & [ STEM < "externo" >, SYNSEM.LKEYS.KEYREL.PRED "_externo_a_rel" ]. exteroceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "exteroceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_exteroceptivo_a_rel" ]. extinción_n1 := n_result_intr_le & [ STEM < "extinción" >, SYNSEM.LKEYS.KEYREL.PRED "_extinción_n_rel" ]. extinguir_v := v_trans_np_caus_le & [ STEM < "extinguir" >, SYNSEM.LKEYS.KEYREL.PRED "_extinguir_v_rel" ]. extintivo_a1 := a_rel_nonprd_intr_le & [ STEM < "extintivo" >, SYNSEM.LKEYS.KEYREL.PRED "_extintivo_a_rel" ]. extinto_a1 := a_qual_intr_estar_le & [ STEM < "extinto" >, SYNSEM.LKEYS.KEYREL.PRED "_extinto_a_rel" ]. extintor_n1 := n_intr_count_le & [ STEM < "extintor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extintor_n_rel" ] ]. extirpación_n1 := n_trans_le & [ STEM < "extirpación" >, SYNSEM.LKEYS.KEYREL.PRED "_extirpación_n_rel" ]. extirpador_n1 := n_intr_count_le & [ STEM < "extirpador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extirpador_n_rel" ] ]. extirpar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "extirpar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_extirpar_v_rel" ] ]. extirpar_v2 := v_ditrans*_le & [ STEM < "extirpar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_extirpar_v_rel" ] ]. extirpar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "extirpar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_extirpar_v_rel" ] ] ]. extorno_n1 := n_trans_le & [ STEM < "extorno" >, SYNSEM.LKEYS.KEYREL.PRED "_extorno_n_rel" ]. extorsionador_n1 := n_subj-nom_le & [ STEM < "extorsionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_extorsionador_n_rel" ] ]. extorsionar_v := v_ditrans*_le & [ STEM < "extorsionar" >, SYNSEM.LKEYS.KEYREL.PRED "_extorsionar_v_rel" ]. extorsión_n1 := n_intr_count_le & [ STEM < "extorsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extorsión_n_rel" ] ]. extra_a1 := a_rel_nonprd_intr_le & [ STEM < "extra" >, SYNSEM.LKEYS.KEYREL.PRED "_extra_a_rel" ]. extra_n1 := n_intr_count_le & [ STEM < "extra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_extra_n_rel" ] ]. extrabrillante_a1 := a_rel_prd_le & [ STEM < "extrabrillante" >, SYNSEM.LKEYS.KEYREL.PRED "_extrabrillante_a_rel" ]. extrabucal_a1 := a_rel_nonprd_intr_le & [ STEM < "extrabucal" >, SYNSEM.LKEYS.KEYREL.PRED "_extrabucal_a_rel" ]. extracción_n1 := n_trans_le & [ STEM < "extracción" >, SYNSEM.LKEYS.KEYREL.PRED "_extracción_n_rel" ]. extracelular_a1 := a_rel_nonprd_intr_le & [ STEM < "extracelular" >, SYNSEM.LKEYS.KEYREL.PRED "_extracelular_a_rel" ]. extracontable_a1 := a_rel_nonprd_intr_le & [ STEM < "extracontable" >, SYNSEM.LKEYS.KEYREL.PRED "_extracontable_a_rel" ]. extracoronal_a1 := a_rel_nonprd_intr_le & [ STEM < "extracoronal" >, SYNSEM.LKEYS.KEYREL.PRED "_extracoronal_a_rel" ]. extracorpóreo_a1 := a_rel_nonprd_intr_le & [ STEM < "extracorpóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_extracorpóreo_a_rel" ]. extracraneal_a1 := a_rel_nonprd_intr_le & [ STEM < "extracraneal" >, SYNSEM.LKEYS.KEYREL.PRED "_extracraneal_a_rel" ]. extractivo_a1 := a_rel_nonprd_intr_le & [ STEM < "extractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_extractivo_a_rel" ]. extracto_n1 := n_intr_count_le & [ STEM < "extracto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extracto_n_rel" ] ]. extractor_a1 := a_rel_nonprd_intr_le & [ STEM < "extractor" >, SYNSEM.LKEYS.KEYREL.PRED "_extractor_a_rel" ]. extractor_n1 := n_intr_count_le & [ STEM < "extractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extractor_n_rel" ] ]. extracurricular_a1 := a_rel_nonprd_intr_le & [ STEM < "extracurricular" >, SYNSEM.LKEYS.KEYREL.PRED "_extracurricular_a_rel" ]. extradición_n1 := n_intr_mass-or-count_le & [ STEM < "extradición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extradición_n_rel" ] ]. extraditable_a1 := a_rel_prd_le & [ STEM < "extraditable" >, SYNSEM.LKEYS.KEYREL.PRED "_extraditable_a_rel" ]. extraditar_v := v_trans_np_le & [ STEM < "extraditar" >, SYNSEM.LKEYS.KEYREL.PRED "_extraditar_v_rel" ]. extradós_n1 := n_intr_count_le & [ STEM < "extradós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_extradós_n_rel" ] ]. extraescolar_a1 := a_rel_nonprd_intr_le & [ STEM < "extraescolar" >, SYNSEM.LKEYS.KEYREL.PRED "_extraescolar_a_rel" ]. extrafino_a1 := a_rel_nonprd_intr_le & [ STEM < "extrafino" >, SYNSEM.LKEYS.KEYREL.PRED "_extrafino_a_rel" ]. extrafuncional_a1 := a_rel_nonprd_intr_le & [ STEM < "extrafuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_extrafuncional_a_rel" ]. extrajudicial_a1 := a_rel_nonprd_intr_le & [ STEM < "extrajudicial" >, SYNSEM.LKEYS.KEYREL.PRED "_extrajudicial_a_rel" ]. extralargo_a1 := a_qual_intr_scopal_le & [ STEM < "extralargo" >, SYNSEM.LKEYS.KEYREL.PRED "_extralargo_a_rel" ]. extralimitación_n1 := n_result_intr_le & [ STEM < "extralimitación" >, SYNSEM.LKEYS.KEYREL.PRED "_extralimitación_n_rel" ]. extralimitar_v := v_pron_intr_mrkd_np*_le & [ STEM < "extralimitar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_extralimitar_v_rel" ] ]. extralingã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "extralingüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_extralingüístico_a_rel" ]. extralingüísticamente_x1 := av_i_spr_le & [ STEM < "extralingüísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extralingüísticamente_x_rel" ]. extramarital_a1 := a_rel_nonprd_intr_le & [ STEM < "extramarital" >, SYNSEM.LKEYS.KEYREL.PRED "_extramarital_a_rel" ]. extranjero_a1 := a_rel_nonprd_intr_le & [ STEM < "extranjero" >, SYNSEM.LKEYS.KEYREL.PRED "_extranjero_a_rel" ]. extranjero_n1 := n_intr_count_le & [ STEM < "extranjero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_loc, PRED "_extranjero_n_rel" ] ]. extranjería_n1 := n_intr_uncount_pl_le & [ STEM < "extranjería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extranjería_n_rel" ] ]. extraocular_a1 := a_rel_nonprd_intr_le & [ STEM < "extraocular" >, SYNSEM.LKEYS.KEYREL.PRED "_extraocular_a_rel" ]. extraoficial_a1 := a_rel_nonprd_intr_le & [ STEM < "extraoficial" >, SYNSEM.LKEYS.KEYREL.PRED "_extraoficial_a_rel" ]. extraoficialmente_x1 := av_i_spr_le & [ STEM < "extraoficialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_extraoficialmente_x_rel" ]. extraoral_a1 := a_rel_nonprd_intr_le & [ STEM < "extraoral" >, SYNSEM.LKEYS.KEYREL.PRED "_extraoral_a_rel" ]. extraordinariamente_x1 := av_deg_le & [ STEM < "extraordinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extraordinariamente_x_rel" ]. extraordinario_a1 := a_qual_intr_ser_le & [ STEM < "extraordinario" >, SYNSEM.LKEYS.KEYREL.PRED "_extraordinario_a_rel" ]. extraplomo_n1 := n_intr_count_le & [ STEM < "extraplomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extraplomo_n_rel" ] ]. extrapolable_a1 := a_rel_prd_le & [ STEM < "extrapolable" >, SYNSEM.LKEYS.KEYREL.PRED "_extrapolable_a_rel" ]. extrapolación_n1 := n_trans_le & [ STEM < "extrapolación" >, SYNSEM.LKEYS.KEYREL.PRED "_extrapolación_n_rel" ]. extrapolar_v := v_trans_np_lcomp_dir*_le & [ STEM < "extrapolar" >, SYNSEM.LKEYS.KEYREL.PRED "_extrapolar_v_rel" ]. extrarradio_n1 := n_intr_count_le & [ STEM < "extrarradio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extrarradio_n_rel" ] ]. extrasalarial_a1 := a_rel_nonprd_intr_le & [ STEM < "extrasalarial" >, SYNSEM.LKEYS.KEYREL.PRED "_extrasalarial_a_rel" ]. extrasensorial_a1 := a_rel_nonprd_intr_le & [ STEM < "extrasensorial" >, SYNSEM.LKEYS.KEYREL.PRED "_extrasensorial_a_rel" ]. extraterrestre_a1 := a_rel_nonprd_intr_le & [ STEM < "extraterrestre" >, SYNSEM.LKEYS.KEYREL.PRED "_extraterrestre_a_rel" ]. extraterritorial_a1 := a_rel_nonprd_intr_le & [ STEM < "extraterritorial" >, SYNSEM.LKEYS.KEYREL.PRED "_extraterritorial_a_rel" ]. extraterritorialidad_n1 := n_intr_uncount_le & [ STEM < "extraterritorialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extraterritorialidad_n_rel" ] ]. extravagancia_n1 := n_ppcomp_mass_le & [ STEM < "extravagancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extravagancia_n_rel" ] ]. extravagante_a1 := a_qual_intr_scopal_le & [ STEM < "extravagante" >, SYNSEM.LKEYS.KEYREL.PRED "_extravagante_a_rel" ]. extraversión_n1 := n_intr_mass-or-count_le & [ STEM < "extraversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extraversión_n_rel" ] ]. extraviar_v := v_trans_np_caus_le & [ STEM < "extraviar" >, SYNSEM.LKEYS.KEYREL.PRED "_extraviar_v_rel" ]. extravío_n1 := n_trans_le & [ STEM < "extravío" >, SYNSEM.LKEYS.KEYREL.PRED "_extravío_n_rel" ]. extraíble_a1 := a_qual_trans*_ser_le & [ STEM < "extraíble" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_extraíble_a_rel" ] ]. extrañamente_x1 := av_s_spr_le & [ STEM < "extrañamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extrañamente_x_rel" ]. extrañamiento_n1 := n_trans_le & [ STEM < "extrañamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_extrañamiento_n_rel" ]. extrañar_v1 := v_intr_io*_le & [ STEM < "extrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_extrañar_v_rel" ]. extrañar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "extrañar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_extrañar_v_rel" ] ] ]. extrañar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "extrañar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_extrañar_v_rel" ] ]. extrañar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "extrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_extrañar_v_rel" ]. extrañar_v5 := v_trans_np_le & [ STEM < "extrañar" >, SYNSEM.LKEYS.KEYREL.PRED "_extrañar_v_rel" ]. extrañeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "extrañeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extrañeza_n_rel" ] ]. extraño_a1 := a_qual_intr_scopal_le & [ STEM < "extraño" >, SYNSEM.LKEYS.KEYREL.PRED "_extraño_a_rel" ]. extremadamente_x1 := av_qnt-deg_det_le & [ STEM < "extremadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extremadamente_x_deg_rel" ]. extremar_v := v_trans_np_caus_le & [ STEM < "extremar" >, SYNSEM.LKEYS.KEYREL.PRED "_extremar_v_rel" ]. extremaunción_n1 := n_intr_uncount_le & [ STEM < "extremaunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extremaunción_n_rel" ] ]. extremeño_a1 := a_rel_prd_le & [ STEM < "extremeño" >, SYNSEM.LKEYS.KEYREL.PRED "_extremeño_a_rel" ]. extremeño_n1 := n_intr_count_le & [ STEM < "extremeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_extremeño_n_rel" ] ]. extremidad_n1 := n_intr_count_le & [ STEM < "extremidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_extremidad_n_rel" ] ]. extremismo_n1 := n_intr_uncount_le & [ STEM < "extremismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extremismo_n_rel" ] ]. extremista_a1 := a_qual_intr_ser_le & [ STEM < "extremista" >, SYNSEM.LKEYS.KEYREL.PRED "_extremista_a_rel" ]. extremista_n1 := n_intr_count_le & [ STEM < "extremista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_extremista_n_rel" ] ]. extremo_a1 := a_qual_intr_scopal_le & [ STEM < "extremo" >, SYNSEM.LKEYS.KEYREL.PRED "_extremo_a_rel" ]. extremo_n1 := n_intr_count_le & [ STEM < "extremo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum_loc, PRED "_extremo_n_rel" ] ]. extroversión_n1 := n_intr_uncount_le & [ STEM < "extroversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_extroversión_n_rel" ] ]. extrovertido_a1 := a_qual_intr_ser_le & [ STEM < "extrovertido" >, SYNSEM.LKEYS.KEYREL.PRED "_extrovertido_a_rel" ]. extrudir_v := v_trans_np_le & [ STEM < "extrudir" >, SYNSEM.LKEYS.KEYREL.PRED "_extrudir_v_rel" ]. extruidor_n1 := n_intr_count_le & [ STEM < "extruidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extruidor_n_rel" ] ]. extrusionador_n1 := n_subj-nom_le & [ STEM < "extrusionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_extrusionador_n_rel" ] ]. extrusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "extrusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_extrusivo_a_rel" ]. extrusión_n1 := n_trans_le & [ STEM < "extrusión" >, SYNSEM.LKEYS.KEYREL.PRED "_extrusión_n_rel" ]. extrusor_n1 := n_intr_count_le & [ STEM < "extrusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extrusor_n_rel" ] ]. extrusora_n1 := n_intr_count_le & [ STEM < "extrusora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_extrusora_n_rel" ] ]. extrínsecamente_x1 := av_i_spr_le & [ STEM < "extrínsecamente" >, SYNSEM.LKEYS.KEYREL.PRED "_extrínsecamente_x_rel" ]. extrínseco_a1 := a_qual_trans*_ser_le & [ STEM < "extrínseco" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_extrínseco_a_rel" ] ]. exuberancia_n1 := n_intr_uncount_pl_le & [ STEM < "exuberancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exuberancia_n_rel" ] ]. exuberante_a1 := a_qual_intr_scopal_le & [ STEM < "exuberante" >, SYNSEM.LKEYS.KEYREL.PRED "_exuberante_a_rel" ]. exudación_n1 := n_trans_le & [ STEM < "exudación" >, SYNSEM.LKEYS.KEYREL.PRED "_exudación_n_rel" ]. exudativo_a1 := a_rel_nonprd_intr_le & [ STEM < "exudativo" >, SYNSEM.LKEYS.KEYREL.PRED "_exudativo_a_rel" ]. exultante_a1 := a_qual_intr_scopal_le & [ STEM < "exultante" >, SYNSEM.LKEYS.KEYREL.PRED "_exultante_a_rel" ]. exutorio_n1 := n_intr_count_le & [ STEM < "exutorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exutorio_n_rel" ] ]. exvicesecretario_n1 := n_intr_count_le & [ STEM < "exvicesecretario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exvicesecretario_n_rel" ] ]. exvoto_n1 := n_intr_count_le & [ STEM < "exvoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_exvoto_n_rel" ] ]. exánime_a1 := a_rel_nonprd_intr_le & [ STEM < "exánime" >, SYNSEM.LKEYS.KEYREL.PRED "_exánime_a_rel" ]. exégesis_n1 := n_intr_uncount_le & [ STEM < "exégesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exégesis_n_rel" ] ]. exégeta_n1 := n_intr_count_le & [ STEM < "exégeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_exégeta_n_rel" ] ]. exéresis_n1 := n_intr_uncount_le & [ STEM < "exéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_exéresis_n_rel" ] ]. exógenamente_x1 := av_i_spr_le & [ STEM < "exógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_exógenamente_x_rel" ]. exógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "exógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_exógeno_a_rel" ]. exón_n1 := n_intr_count_le & [ STEM < "exón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_exón_n_rel" ] ]. exótico_a1 := a_qual_intr_scopal_le & [ STEM < "exótico" >, SYNSEM.LKEYS.KEYREL.PRED "_exótico_a_rel" ]. eyaculación_n1 := n_result_intr_le & [ STEM < "eyaculación" >, SYNSEM.LKEYS.KEYREL.PRED "_eyaculación_n_rel" ]. eyaculador_a1 := a_rel_nonprd_intr_le & [ STEM < "eyaculador" >, SYNSEM.LKEYS.KEYREL.PRED "_eyaculador_a_rel" ]. eyacular_v := v_intr_le & [ STEM < "eyacular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_eyacular_v_rel" ] ]. eyección_n1 := n_trans_le & [ STEM < "eyección" >, SYNSEM.LKEYS.KEYREL.PRED "_eyección_n_rel" ]. eyectable_a1 := a_rel_nonprd_intr_le & [ STEM < "eyectable" >, SYNSEM.LKEYS.KEYREL.PRED "_eyectable_a_rel" ]. eyectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "eyectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_eyectivo_a_rel" ]. eyector_n1 := n_intr_count_le & [ STEM < "eyector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_eyector_n_rel" ] ]. eólicamente_x1 := av_i_spr_le & [ STEM < "eólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_eólicamente_x_rel" ]. eólico_a1 := a_rel_nonprd_intr_le & [ STEM < "eólico" >, SYNSEM.LKEYS.KEYREL.PRED "_eólico_a_rel" ]. eón_n1 := n_intr_count_le & [ STEM < "eón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_eón_n_rel" ] ]. fabada_n1 := n_intr_count_le & [ STEM < "fabada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fabada_n_rel" ] ]. fabricación_n1 := n_trans_le & [ STEM < "fabricación" >, SYNSEM.LKEYS.KEYREL.PRED "_fabricación_n_rel" ]. fabricante_n1 := n_intr_count_le & [ STEM < "fabricante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fabricante_n_rel" ] ]. fabricar_v1 := v_trans_np_le & [ STEM < "fabricar" >, SYNSEM.LKEYS.KEYREL.PRED "_fabricar_v_rel" ]. fabril_a1 := a_rel_nonprd_intr_le & [ STEM < "fabril" >, SYNSEM.LKEYS.KEYREL.PRED "_fabril_a_rel" ]. fabrilmente_x1 := av_i_spr_le & [ STEM < "fabrilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fabrilmente_x_rel" ]. fabulista_n1 := n_intr_count_le & [ STEM < "fabulista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fabulista_n_rel" ] ]. fabulosamente_x1 := av_deg_le & [ STEM < "fabulosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fabulosamente_x_rel" ]. fabuloso_a1 := a_qual_intr_scopal_le & [ STEM < "fabuloso" >, SYNSEM.LKEYS.KEYREL.PRED "_fabuloso_a_rel" ]. facción_n1 := n_intr_count_le & [ STEM < "facción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facción_n_rel" ] ]. faceta_n1 := n_intr_count_le & [ STEM < "faceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_faceta_n_rel" ] ]. fachada_n1 := n_intr_count_le & [ STEM < "fachada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fachada_n_rel" ] ]. facial_a1 := a_rel_nonprd_intr_le & [ STEM < "facial" >, SYNSEM.LKEYS.KEYREL.PRED "_facial_a_rel" ]. facies_n1 := n_ppcomp_count_le & [ STEM < "facies" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_facies_n_rel" ] ]. facilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "facilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facilidad_n_rel" ] ]. facilitación_n1 := n_trans_le & [ STEM < "facilitación" >, SYNSEM.LKEYS.KEYREL.PRED "_facilitación_n_rel" ]. facilitador_a1 := a_rel_nonprd_intr_le & [ STEM < "facilitador" >, SYNSEM.LKEYS.KEYREL.PRED "_facilitador_a_rel" ]. facilitar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "facilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_facilitar_v_rel" ] ]. facilitar_v2 := v_ditrans*_le & [ STEM < "facilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_facilitar_v_rel" ] ]. facineroso_a1 := a_rel_nonprd_intr_le & [ STEM < "facineroso" >, SYNSEM.LKEYS.KEYREL.PRED "_facineroso_a_rel" ]. facocistectomía_n1 := n_intr_count_le & [ STEM < "facocistectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facocistectomía_n_rel" ] ]. facocistitis_n1 := n_intr_uncount_le & [ STEM < "facocistitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facocistitis_n_rel" ] ]. facoglaucoma_n1 := n_intr_uncount_le & [ STEM < "facoglaucoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facoglaucoma_n_rel" ] ]. facomalacia_n1 := n_intr_uncount_le & [ STEM < "facomalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facomalacia_n_rel" ] ]. facoscopia_n1 := n_intr_count_le & [ STEM < "facoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facoscopia_n_rel" ] ]. facsímil_n1 := n_intr_count_le & [ STEM < "facsímil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_facsímil_n_rel" ] ]. factibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "factibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_factibilidad_n_rel" ] ]. factible_a1 := a_qual_intr_scopal_le & [ STEM < "factible" >, SYNSEM.LKEYS.KEYREL.PRED "_factible_a_rel" ]. facticiamente_x1 := av_i_spr_le & [ STEM < "facticiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_facticiamente_x_rel" ]. facticio_a1 := a_qual_intr_scopal_le & [ STEM < "facticio" >, SYNSEM.LKEYS.KEYREL.PRED "_facticio_a_rel" ]. factitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "factitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_factitivo_a_rel" ]. facto_n1 := n_intr_uncount_le & [ STEM < "facto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facto_n_rel" ] ]. factor_n1 := n_intr_count_le & [ STEM < "factor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_factor_n_rel" ] ]. factorial_a1 := a_rel_nonprd_intr_le & [ STEM < "factorial" >, SYNSEM.LKEYS.KEYREL.PRED "_factorial_a_rel" ]. factorizable_a1 := a_rel_prd_le & [ STEM < "factorizable" >, SYNSEM.LKEYS.KEYREL.PRED "_factorizable_a_rel" ]. factorización_n1 := n_trans_le & [ STEM < "factorización" >, SYNSEM.LKEYS.KEYREL.PRED "_factorización_n_rel" ]. factoría_n1 := n_intr_count_le & [ STEM < "factoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_factoría_n_rel" ] ]. factura_n1 := n_intr_count_le & [ STEM < "factura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_factura_n_rel" ] ]. facturable_a1 := a_rel_prd_le & [ STEM < "facturable" >, SYNSEM.LKEYS.KEYREL.PRED "_facturable_a_rel" ]. facturación_n1 := n_trans_le & [ STEM < "facturación" >, SYNSEM.LKEYS.KEYREL.PRED "_facturación_n_rel" ]. factótum_n1 := n_intr_count_le & [ STEM < "factótum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_factótum_n_rel" ] ]. facultad_n1 := n_intr_count_le & [ STEM < "facultad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_facultad_n_rel" ] ]. facultar_v := v_trans_np_mrkd_np*_le & [ STEM < "facultar" >, SYNSEM.LKEYS [ --OCOMPKEY _para_p_sel_rel, KEYREL.PRED "_facultar_v_rel" ] ]. facultativamente_x1 := av_i_spr_le & [ STEM < "facultativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_facultativamente_x_rel" ]. facultativo_a1 := a_rel_nonprd_intr_le & [ STEM < "facultativo" >, SYNSEM.LKEYS.KEYREL.PRED "_facultativo_a_rel" ]. facólisis_n1 := n_intr_uncount_le & [ STEM < "facólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_facólisis_n_rel" ] ]. faena_n1 := n_intr_mass-or-count_le & [ STEM < "faena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faena_n_rel" ] ]. faena_n2 := n_trans_le & [ STEM < "faena" >, SYNSEM.LKEYS.KEYREL.PRED "_faena_n_rel" ]. faenar_v1 := v_trans_np_le & [ STEM < "faenar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT soc, PRED "_faenar_v_rel" ] ]. faenar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "faenar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_faenar_v_rel" ] ]. fagocitario_a1 := a_rel_nonprd_intr_le & [ STEM < "fagocitario" >, SYNSEM.LKEYS.KEYREL.PRED "_fagocitario_a_rel" ]. fagocito_n1 := n_intr_count_le & [ STEM < "fagocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fagocito_n_rel" ] ]. fagocitolisis_n1 := n_intr_uncount_le & [ STEM < "fagocitolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fagocitolisis_n_rel" ] ]. fagocitosis_n1 := n_intr_uncount_le & [ STEM < "fagocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fagocitosis_n_rel" ] ]. fagocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "fagocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_fagocítico_a_rel" ]. fagot_n1 := n_intr_count_le & [ STEM < "fagot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fagot_n_rel" ] ]. fagólisis_n1 := n_intr_uncount_le & [ STEM < "fagólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fagólisis_n_rel" ] ]. faisán_n1 := n_intr_count_le & [ STEM < "faisán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_faisán_n_rel" ] ]. faja_n1 := n_intr_count_le & [ STEM < "faja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_faja_n_rel" ] ]. fajina_n1 := n_intr_count_le & [ STEM < "fajina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fajina_n_rel" ] ]. fajo_n := n_group_le & [ STEM < "fajo" >, SYNSEM.LKEYS.KEYREL.PRED "_fajo_n_rel" ]. fajín_n1 := n_intr_count_le & [ STEM < "fajín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fajín_n_rel" ] ]. falacia_n1 := n_intr_count_le & [ STEM < "falacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falacia_n_rel" ] ]. falange_n1 := n_intr_count_le & [ STEM < "falange" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_falange_n_rel" ] ]. falangeta_n1 := n_ppcomp_count_le & [ STEM < "falangeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_falangeta_n_rel" ] ]. falangina_n1 := n_ppcomp_count_le & [ STEM < "falangina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_falangina_n_rel" ] ]. falangismo_n1 := n_intr_uncount_le & [ STEM < "falangismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falangismo_n_rel" ] ]. falangista_a1 := a_rel_nonprd_intr_le & [ STEM < "falangista" >, SYNSEM.LKEYS.KEYREL.PRED "_falangista_a_rel" ]. falangista_n1 := n_intr_count_le & [ STEM < "falangista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_falangista_n_rel" ] ]. falansterio_n1 := n_intr_uncount_pl_le & [ STEM < "falansterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falansterio_n_rel" ] ]. falaz_a1 := a_qual_intr_scopal_le & [ STEM < "falaz" >, SYNSEM.LKEYS.KEYREL.PRED "_falaz_a_rel" ]. falazmente_x1 := av_i_spr_le & [ STEM < "falazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_falazmente_x_rel" ]. falcidia_n1 := n_intr_uncount_le & [ STEM < "falcidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falcidia_n_rel" ] ]. falciforme_a1 := a_qual_intr_ser_le & [ STEM < "falciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_falciforme_a_rel" ]. falda_n1 := n_intr_count_le & [ STEM < "falda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_falda_n_rel" ] ]. faldero_a1 := a_rel_nonprd_intr_le & [ STEM < "faldero" >, SYNSEM.LKEYS.KEYREL.PRED "_faldero_a_rel" ]. faldoncillo_n1 := n_intr_count_le & [ STEM < "faldoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_faldoncillo_n_rel" ] ]. faldón_n1 := n_intr_count_le & [ STEM < "faldón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_faldón_n_rel" ] ]. falibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "falibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falibilidad_n_rel" ] ]. falible_a1 := a_qual_intr_scopal_le & [ STEM < "falible" >, SYNSEM.LKEYS.KEYREL.PRED "_falible_a_rel" ]. falla_n1 := n_intr_count_le & [ STEM < "falla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_falla_n_rel" ] ]. fallar_v1 := v_intr_io*_le & [ STEM < "fallar" >, SYNSEM.LKEYS.KEYREL.PRED "_fallar_v_rel" ]. fallar_v2 := v_trans_cp_prop_fin_le & [ STEM < "fallar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_fallar_v_rel" ] ]. fallar_v3 := v_trans_np_le & [ STEM < "fallar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT sem, PRED "_fallar_v_rel" ] ]. fallecer_v := v_unacc_perf_le & [ STEM < "fallecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_fallecer_v_rel" ] ]. fallecimiento_n1 := n_event-result_intr_le & [ STEM < "fallecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fallecimiento_n_rel" ]. fallo_n1 := n_trans_le & [ STEM < "fallo" >, SYNSEM.LKEYS.KEYREL.PRED "_fallo_n_rel" ]. falo_n1 := n_intr_count_le & [ STEM < "falo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_falo_n_rel" ] ]. faloidina_n1 := n_intr_mass-or-count_le & [ STEM < "faloidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_faloidina_n_rel" ] ]. falsabraga_n1 := n_intr_count_le & [ STEM < "falsabraga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_falsabraga_n_rel" ] ]. falsamente_x1 := av_s_spr_le & [ STEM < "falsamente" >, SYNSEM.LKEYS.KEYREL.PRED "_falsamente_x_rel" ]. falsario_n1 := n_intr_count_le & [ STEM < "falsario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_falsario_n_rel" ] ]. falseador_n1 := n_subj-nom_le & [ STEM < "falseador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_falseador_n_rel" ] ]. falseamiento_n1 := n_trans_le & [ STEM < "falseamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_falseamiento_n_rel" ]. falsear_v := v_trans_np_le & [ STEM < "falsear" >, SYNSEM.LKEYS.KEYREL.PRED "_falsear_v_rel" ]. falsedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "falsedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falsedad_n_rel" ] ]. falsete_n1 := n_intr_count_le & [ STEM < "falsete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_falsete_n_rel" ] ]. falsificación_n1 := n_trans_le & [ STEM < "falsificación" >, SYNSEM.LKEYS.KEYREL.PRED "_falsificación_n_rel" ]. falsificador_n1 := n_subj-nom_le & [ STEM < "falsificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_falsificador_n_rel" ] ]. falsificar_v := v_trans_np_le & [ STEM < "falsificar" >, SYNSEM.LKEYS.KEYREL.PRED "_falsificar_v_rel" ]. falso_a1 := a_adv_int_le & [ STEM < "falso" >, SYNSEM.LKEYS.KEYREL.PRED "_falso_a_rel" ]. falso_a2 := a_qual_intr_scopal_le & [ STEM < "falso" >, SYNSEM.LKEYS.KEYREL.PRED "_falso_a_rel" ]. falta_n1 := n_intr_count_le & [ STEM < "falta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_falta_n_rel" ] ]. faltante_a1 := a_qual_intr_estar_le & [ STEM < "faltante" >, SYNSEM.LKEYS.KEYREL.PRED "_faltante_a_rel" ]. faltar_v1 := v_intr_io*_le & [ STEM < "faltar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_faltar_v_rel" ] ]. faltar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "faltar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_faltar_v_rel" ] ]. faltar_v3 := v_intr_mrkd_np_le & [ STEM < "faltar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_loc, PRED "_faltar_v_rel" ] ] ]. faltar_v4 := v_intr_mrkd_np_le & [ STEM < "faltar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_faltar_v_rel" ] ]. faltar_v5 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "faltar" >, SYNSEM.LKEYS.KEYREL.PRED "_faltar_v_rel" ]. faltar_v6 := v_unacc_lcomp_loc*_le & [ STEM < "faltar" >, SYNSEM.LKEYS.KEYREL.PRED "_faltar_v_rel" ]. falto_a1 := a_qual_trans_estar_le & [ STEM < "falto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_falto_a_rel" ] ]. fama_n1 := n_intr_mass_le & [ STEM < "fama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fama_n_rel" ] ]. famatinita_n1 := n_intr_count_le & [ STEM < "famatinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_famatinita_n_rel" ] ]. familia_n1 := n_intr_coll_le & [ STEM < "familia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_familia_n_rel" ] ]. familiar_a1 := a_rel_nonprd_intr_le & [ STEM < "familiar" >, SYNSEM.LKEYS.KEYREL.PRED "_familiar_a_rel" ]. familiar_n1 := n_intr_count_le & [ STEM < "familiar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_familiar_n_rel" ] ]. familiaridad_n1 := n_intr_mass-or-count_le & [ STEM < "familiaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_familiaridad_n_rel" ] ]. familiarización_n1 := n_result_intr_ppcomp_le & [ STEM < "familiarización" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_familiarización_n_rel" ] ]. familiarmente_x1 := av_i_spr_le & [ STEM < "familiarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_familiarmente_x_rel" ]. familismo_n1 := n_intr_uncount_le & [ STEM < "familismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_familismo_n_rel" ] ]. famoso_a1 := a_qual_trans*_ser_le & [ STEM < "famoso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_famoso_a_rel" ] ]. famoso_a2 := a_sctrl_ser_le & [ STEM < "famoso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_famoso_a_rel" ] ]. famélico_a1 := a_qual_intr_ser_le & [ STEM < "famélico" >, SYNSEM.LKEYS.KEYREL.PRED "_famélico_a_rel" ]. fan_n1 := n_ppcomp_count_le & [ STEM < "fan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fan_n_rel" ] ]. fanal_n1 := n_intr_count_le & [ STEM < "fanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fanal_n_rel" ] ]. fanatismo_n1 := n_intr_mass_le & [ STEM < "fanatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fanatismo_n_rel" ] ]. fanatizar_v := v_trans_np_caus_le & [ STEM < "fanatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_fanatizar_v_rel" ]. fandango_n1 := n_intr_count_le & [ STEM < "fandango" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fandango_n_rel" ] ]. faneca_n1 := n_intr_count_le & [ STEM < "faneca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_faneca_n_rel" ] ]. fanega_n := n_intr_count_le & [ STEM < "fanega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_fanega_n_rel" ] ]. fanerocristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "fanerocristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_fanerocristalino_a_rel" ]. fanerófito_n1 := n_intr_count_le & [ STEM < "fanerófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fanerófito_n_rel" ] ]. fanerógama_n1 := n_intr_count_le & [ STEM < "fanerógama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fanerógama_n_rel" ] ]. fanerógamo_a1 := a_rel_nonprd_intr_le & [ STEM < "fanerógamo" >, SYNSEM.LKEYS.KEYREL.PRED "_fanerógamo_a_rel" ]. fanfarrear_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "fanfarrear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fanfarrear_v_rel" ] ] ]. fanfarrear_v2 := v_intr_mrkd_np_le & [ STEM < "fanfarrear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fanfarrear_v_rel" ] ] ]. fanfarria_n1 := n_event-result_intr_le & [ STEM < "fanfarria" >, SYNSEM.LKEYS.KEYREL.PRED "_fanfarria_n_rel" ]. fanfarronear_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "fanfarronear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fanfarronear_v_rel" ] ] ]. fanfarronear_v2 := v_intr_mrkd_np_le & [ STEM < "fanfarronear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fanfarronear_v_rel" ] ] ]. fanfarronería_n1 := n_intr_uncount_pl_le & [ STEM < "fanfarronería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fanfarronería_n_rel" ] ]. fanfarrón_n1 := n_intr_count_le & [ STEM < "fanfarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fanfarrón_n_rel" ] ]. fangal_n1 := n_intr_count_le & [ STEM < "fangal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_fangal_n_rel" ] ]. fango_n1 := n_intr_mass_le & [ STEM < "fango" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fango_n_rel" ] ]. fangoso_a1 := a_qual_intr_scopal_le & [ STEM < "fangoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fangoso_a_rel" ]. fanotrón_n1 := n_intr_count_le & [ STEM < "fanotrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fanotrón_n_rel" ] ]. fantasear_v := v_intr_le & [ STEM < "fantasear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_fantasear_v_rel" ] ]. fantasioso_a1 := a_qual_intr_scopal_le & [ STEM < "fantasioso" >, SYNSEM.LKEYS.KEYREL.PRED "_fantasioso_a_rel" ]. fantasma_n1 := n_intr_count_le & [ STEM < "fantasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fantasma_n_rel" ] ]. fantasmagórico_a1 := a_qual_intr_scopal_le & [ STEM < "fantasmagórico" >, SYNSEM.LKEYS.KEYREL.PRED "_fantasmagórico_a_rel" ]. fantasmal_a1 := a_qual_intr_scopal_le & [ STEM < "fantasmal" >, SYNSEM.LKEYS.KEYREL.PRED "_fantasmal_a_rel" ]. fantasía_n1 := n_intr_count_le & [ STEM < "fantasía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fantasía_n_rel" ] ]. fantásticamente_x1 := av_i_spr_le & [ STEM < "fantásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fantásticamente_x_rel" ]. fantástico_a1 := a_qual_intr_scopal_le & [ STEM < "fantástico" >, SYNSEM.LKEYS.KEYREL.PRED "_fantástico_a_rel" ]. fanático_a1 := a_qual_intr_ser_le & [ STEM < "fanático" >, SYNSEM.LKEYS.KEYREL.PRED "_fanático_a_rel" ]. faquir_n1 := n_intr_count_le & [ STEM < "faquir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_faquir_n_rel" ] ]. faquín_n1 := n_intr_count_le & [ STEM < "faquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_faquín_n_rel" ] ]. faradio_n := n_intr_count_le & [ STEM < "faradio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_faradio_n_rel" ] ]. farallón_n1 := n_intr_count_le & [ STEM < "farallón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_farallón_n_rel" ] ]. faralá_n1 := n_intr_count_le & [ STEM < "faralá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_faralá_n_rel" ] ]. faraón_n1 := n_intr_count_le & [ STEM < "faraón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_faraón_n_rel" ] ]. faraónico_a1 := a_rel_nonprd_intr_le & [ STEM < "faraónico" >, SYNSEM.LKEYS.KEYREL.PRED "_faraónico_a_rel" ]. fardo_n1 := n_intr_count_le & [ STEM < "fardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fardo_n_rel" ] ]. farellón_n1 := n_intr_count_le & [ STEM < "farellón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_farellón_n_rel" ] ]. farero_n1 := n_intr_count_le & [ STEM < "farero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_farero_n_rel" ] ]. faringalgia_n1 := n_intr_uncount_le & [ STEM < "faringalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringalgia_n_rel" ] ]. faringe_n1 := n_ppcomp_count_le & [ STEM < "faringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_faringe_n_rel" ] ]. faringectomía_n1 := n_intr_count_le & [ STEM < "faringectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringectomía_n_rel" ] ]. faringitis_n1 := n_intr_uncount_le & [ STEM < "faringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringitis_n_rel" ] ]. faringoamigdalitis_n1 := n_intr_uncount_le & [ STEM < "faringoamigdalitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringoamigdalitis_n_rel" ] ]. faringobasilar_a1 := a_rel_nonprd_intr_le & [ STEM < "faringobasilar" >, SYNSEM.LKEYS.KEYREL.PRED "_faringobasilar_a_rel" ]. faringolaringitis_n1 := n_intr_uncount_le & [ STEM < "faringolaringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringolaringitis_n_rel" ] ]. faringología_n1 := n_intr_uncount_le & [ STEM < "faringología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringología_n_rel" ] ]. faringomicosis_n1 := n_intr_uncount_le & [ STEM < "faringomicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringomicosis_n_rel" ] ]. faringopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "faringopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_faringopalatino_a_rel" ]. faringopatía_n1 := n_intr_uncount_pl_le & [ STEM < "faringopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringopatía_n_rel" ] ]. faringoperístole_n1 := n_intr_uncount_le & [ STEM < "faringoperístole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringoperístole_n_rel" ] ]. faringoplastia_n1 := n_intr_count_le & [ STEM < "faringoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringoplastia_n_rel" ] ]. faringoqueratosis_n1 := n_intr_uncount_le & [ STEM < "faringoqueratosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringoqueratosis_n_rel" ] ]. faringorragia_n1 := n_intr_count_le & [ STEM < "faringorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringorragia_n_rel" ] ]. faringorrinitis_n1 := n_intr_uncount_le & [ STEM < "faringorrinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringorrinitis_n_rel" ] ]. faringosalpingitis_n1 := n_intr_uncount_le & [ STEM < "faringosalpingitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringosalpingitis_n_rel" ] ]. faringotomía_n1 := n_intr_count_le & [ STEM < "faringotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faringotomía_n_rel" ] ]. faringítico_a1 := a_rel_nonprd_intr_le & [ STEM < "faringítico" >, SYNSEM.LKEYS.KEYREL.PRED "_faringítico_a_rel" ]. farináceo_a1 := a_rel_nonprd_intr_le & [ STEM < "farináceo" >, SYNSEM.LKEYS.KEYREL.PRED "_farináceo_a_rel" ]. fariseo_n1 := n_intr_count_le & [ STEM < "fariseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fariseo_n_rel" ] ]. farmacia_n1 := n_intr_count_le & [ STEM < "farmacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_farmacia_n_rel" ] ]. farmacodinámica_n1 := n_intr_uncount_le & [ STEM < "farmacodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_farmacodinámica_n_rel" ] ]. farmacología_n1 := n_intr_uncount_le & [ STEM < "farmacología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_farmacología_n_rel" ] ]. farmacológico_a1 := a_rel_nonprd_intr_le & [ STEM < "farmacológico" >, SYNSEM.LKEYS.KEYREL.PRED "_farmacológico_a_rel" ]. farmacopea_n1 := n_intr_count_le & [ STEM < "farmacopea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_farmacopea_n_rel" ] ]. farmacéutico_a1 := a_rel_nonprd_intr_le & [ STEM < "farmacéutico" >, SYNSEM.LKEYS.KEYREL.PRED "_farmacéutico_a_rel" ]. farmacéutico_n1 := n_intr_count_le & [ STEM < "farmacéutico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_farmacéutico_n_rel" ] ]. farmacólogo_n1 := n_intr_count_le & [ STEM < "farmacólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_farmacólogo_n_rel" ] ]. farnesol_n1 := n_intr_count_le & [ STEM < "farnesol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_farnesol_n_rel" ] ]. faro_n1 := n_intr_count_le & [ STEM < "faro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_faro_n_rel" ] ]. farol_n1 := n_intr_count_le & [ STEM < "farol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_farol_n_rel" ] ]. farola_n1 := n_intr_count_le & [ STEM < "farola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_farola_n_rel" ] ]. farolero_n1 := n_intr_count_le & [ STEM < "farolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_farolero_n_rel" ] ]. farolillo_n1 := n_intr_count_le & [ STEM < "farolillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_farolillo_n_rel" ] ]. farragoso_a1 := a_qual_intr_scopal_le & [ STEM < "farragoso" >, SYNSEM.LKEYS.KEYREL.PRED "_farragoso_a_rel" ]. farsa_n1 := n_intr_count_le & [ STEM < "farsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_farsa_n_rel" ] ]. farádico_a1 := a_rel_nonprd_intr_le & [ STEM < "farádico" >, SYNSEM.LKEYS.KEYREL.PRED "_farádico_a_rel" ]. faríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "faríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_faríngeo_a_rel" ]. fascia_n1 := n_intr_count_le & [ STEM < "fascia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fascia_n_rel" ] ]. fasciculado_a1 := a_rel_nonprd_intr_le & [ STEM < "fasciculado" >, SYNSEM.LKEYS.KEYREL.PRED "_fasciculado_a_rel" ]. fascinación_n1 := n_intr_mass_le & [ STEM < "fascinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fascinación_n_rel" ] ]. fascinador_a1 := a_qual_intr_scopal_le & [ STEM < "fascinador" >, SYNSEM.LKEYS.KEYREL.PRED "_fascinador_a_rel" ]. fascinante_a1 := a_qual_intr_scopal_le & [ STEM < "fascinante" >, SYNSEM.LKEYS.KEYREL.PRED "_fascinante_a_rel" ]. fascinar_v1 := v_intr_io*_le & [ STEM < "fascinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_fascinar_v_rel" ] ]. fascinar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "fascinar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fascinar_v_rel" ] ] ]. fascinar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "fascinar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fascinar_v_rel" ] ] ]. fascinar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "fascinar" >, SYNSEM.LKEYS.KEYREL.PRED "_fascinar_v_rel" ]. fascinar_v5 := v_trans_np*_le & [ STEM < "fascinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_fascinar_v_rel" ] ]. fascismo_n1 := n_intr_uncount_le & [ STEM < "fascismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fascismo_n_rel" ] ]. fascista_a1 := a_qual_intr_ser_le & [ STEM < "fascista" >, SYNSEM.LKEYS.KEYREL.PRED "_fascista_a_rel" ]. fascista_n1 := n_intr_count_le & [ STEM < "fascista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fascista_n_rel" ] ]. fascistoide_a1 := a_rel_nonprd_intr_le & [ STEM < "fascistoide" >, SYNSEM.LKEYS.KEYREL.PRED "_fascistoide_a_rel" ]. fascículo_n1 := n_intr_count_le & [ STEM < "fascículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fascículo_n_rel" ] ]. fase_n1 := n_intr_count_le & [ STEM < "fase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_fase_n_rel" ] ]. fastidiar_v1 := v_intr_io*_le & [ STEM < "fastidiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fastidiar_v_rel" ]. fastidiar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "fastidiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fastidiar_v_rel" ] ] ]. fastidiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "fastidiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fastidiar_v_rel" ] ] ]. fastidiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "fastidiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fastidiar_v_rel" ]. fastidiar_v5 := v_trans_np*_caus_le & [ STEM < "fastidiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fastidiar_v_rel" ]. fastidio_n1 := n_intr_mass_le & [ STEM < "fastidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fastidio_n_rel" ] ]. fastidioso_a1 := a_qual_intr_scopal_le & [ STEM < "fastidioso" >, SYNSEM.LKEYS.KEYREL.PRED "_fastidioso_a_rel" ]. fastuosamente_x1 := av_i_spr_le & [ STEM < "fastuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fastuosamente_x_rel" ]. fastuoso_a1 := a_qual_intr_scopal_le & [ STEM < "fastuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fastuoso_a_rel" ]. fasímetro_n1 := n_intr_count_le & [ STEM < "fasímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fasímetro_n_rel" ] ]. fatal_a1 := a_qual_intr_scopal_le & [ STEM < "fatal" >, SYNSEM.LKEYS.KEYREL.PRED "_fatal_a_rel" ]. fatalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fatalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fatalidad_n_rel" ] ]. fatalismo_n1 := n_ppcomp_uncount_le & [ STEM < "fatalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fatalismo_n_rel" ] ]. fatalista_a1 := a_qual_intr_scopal_le & [ STEM < "fatalista" >, SYNSEM.LKEYS.KEYREL.PRED "_fatalista_a_rel" ]. fatalista_n1 := n_intr_count_le & [ STEM < "fatalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fatalista_n_rel" ] ]. fatalmente_x1 := av_s_spr_le & [ STEM < "fatalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fatalmente_x_rel" ]. fatiga_n1 := n_trans_le & [ STEM < "fatiga" >, SYNSEM.LKEYS.KEYREL.PRED "_fatiga_n_rel" ]. fatigar_v1 := v_intr_io*_le & [ STEM < "fatigar" >, SYNSEM.LKEYS.KEYREL.PRED "_fatigar_v_rel" ]. fatigar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "fatigar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_fatigar_v_rel" ] ]. fatigar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "fatigar" >, SYNSEM.LKEYS.KEYREL.PRED "_fatigar_v_rel" ]. fatigosamente_x1 := av_i_spr_le & [ STEM < "fatigosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fatigosamente_x_rel" ]. fatigoso_a1 := a_qual_intr_scopal_le & [ STEM < "fatigoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fatigoso_a_rel" ]. fatuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fatuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fatuidad_n_rel" ] ]. fatuo_a1 := a_rel_nonprd_intr_le & [ STEM < "fatuo" >, SYNSEM.LKEYS.KEYREL.PRED "_fatuo_a_rel" ]. fatídicamente_x1 := av_i_spr_le & [ STEM < "fatídicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fatídicamente_x_rel" ]. fatídico_a1 := a_qual_intr_scopal_le & [ STEM < "fatídico" >, SYNSEM.LKEYS.KEYREL.PRED "_fatídico_a_rel" ]. fauces_n1 := n_intr_uncount_pl_le & [ STEM < "fauces" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fauces_n_rel" ] ]. fauna_n1 := n_intr_coll_le & [ STEM < "fauna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fauna_n_rel" ] ]. fauno_n1 := n_intr_count_le & [ STEM < "fauno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fauno_n_rel" ] ]. faunísticamente_x1 := av_i_spr_le & [ STEM < "faunísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_faunísticamente_x_rel" ]. faunístico_a1 := a_rel_nonprd_intr_le & [ STEM < "faunístico" >, SYNSEM.LKEYS.KEYREL.PRED "_faunístico_a_rel" ]. fausto_n1 := n_intr_uncount_le & [ STEM < "fausto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fausto_n_rel" ] ]. favismo_n1 := n_intr_uncount_le & [ STEM < "favismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_favismo_n_rel" ] ]. favor_n1 := n_intr_count_le & [ STEM < "favor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_favor_n_rel" ] ]. favorable_a1 := a_qual_trans*_ser_le & [ STEM < "favorable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_favorable_a_rel" ] ]. favorable_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "favorable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_favorable_a_rel" ] ]. favorable_a3 := a_qual_cp_ques_ser_le & [ STEM < "favorable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_favorable_a_rel" ] ]. favorablemente_x1 := av_i_spr_le & [ STEM < "favorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_favorablemente_x_rel" ]. favorecedor_a1 := a_qual_intr_scopal_le & [ STEM < "favorecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_favorecedor_a_rel" ]. favorecer_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "favorecer" >, SYNSEM.LKEYS.KEYREL.PRED "_favorecer_v_rel" ]. favorecer_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "favorecer" >, SYNSEM.LKEYS.KEYREL.PRED "_favorecer_v_rel" ]. favorecer_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "favorecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_favorecer_v_rel" ] ]. favorecer_v4 := v_trans_np_le & [ STEM < "favorecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_favorecer_v_rel" ] ]. favorecimiento_n1 := n_trans_le & [ STEM < "favorecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_favorecimiento_n_rel" ]. favoritismo_n1 := n_intr_mass_le & [ STEM < "favoritismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_favoritismo_n_rel" ] ]. favorito_a1 := a_qual_intr_scopal_le & [ STEM < "favorito" >, SYNSEM.LKEYS.KEYREL.PRED "_favorito_a_rel" ]. favorito_n1 := n_intr_count_le & [ STEM < "favorito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_favorito_n_rel" ] ]. fax_n1 := n_intr_count_le & [ STEM < "fax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fax_n_rel" ] ]. faya_n1 := n_intr_count_le & [ STEM < "faya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_faya_n_rel" ] ]. fayalita_n1 := n_intr_mass_le & [ STEM < "fayalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fayalita_n_rel" ] ]. fayenza_n1 := n_intr_count_le & [ STEM < "fayenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fayenza_n_rel" ] ]. faz_n1 := n_intr_count_le & [ STEM < "faz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_faz_n_rel" ] ]. fe_n1 := n_intr_mass_le & [ STEM < "fe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_fe_n_rel" ] ]. fe_pnct := pnct_fe_le & [ STEM < "fe" > ]. fealdad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fealdad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fealdad_n_rel" ] ]. febrero_n1 := n_intr_count_le & [ STEM < "febrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_febrero_n_rel" ] ]. febril_a1 := a_rel_nonprd_intr_le & [ STEM < "febril" >, SYNSEM.LKEYS.KEYREL.PRED "_febril_a_rel" ]. febrilmente_x1 := av_i_spr_le & [ STEM < "febrilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_febrilmente_x_rel" ]. febrífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "febrífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_febrífugo_a_rel" ]. fecal_a1 := a_rel_nonprd_intr_le & [ STEM < "fecal" >, SYNSEM.LKEYS.KEYREL.PRED "_fecal_a_rel" ]. fecha_n1 := n_intr_count_le & [ STEM < "fecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_fecha_n_rel" ] ]. fechar_v := v_trans_np_le & [ STEM < "fechar" >, SYNSEM.LKEYS.KEYREL.PRED "_fechar_v_rel" ]. fechoría_n1 := n_intr_count_le & [ STEM < "fechoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fechoría_n_rel" ] ]. fecial_n1 := n_intr_count_le & [ STEM < "fecial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fecial_n_rel" ] ]. feculento_a1 := a_rel_nonprd_intr_le & [ STEM < "feculento" >, SYNSEM.LKEYS.KEYREL.PRED "_feculento_a_rel" ]. fecundación_n1 := n_trans_le & [ STEM < "fecundación" >, SYNSEM.LKEYS.KEYREL.PRED "_fecundación_n_rel" ]. fecundar_v := v_trans_np_le & [ STEM < "fecundar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_bpart_cnc_hum, ARG2.SORT ani_bpart_cnc_hum, PRED "_fecundar_v_rel" ] ]. fecundidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fecundidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fecundidad_n_rel" ] ]. fecundizar_v := v_trans_np_le & [ STEM < "fecundizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_bpart_cnc_hum, ARG2.SORT ani_bpart_cnc_hum, PRED "_fecundizar_v_rel" ] ]. fecundo_a1 := a_qual_intr_scopal_le & [ STEM < "fecundo" >, SYNSEM.LKEYS.KEYREL.PRED "_fecundo_a_rel" ]. fedatario_n1 := n_intr_count_le & [ STEM < "fedatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fedatario_n_rel" ] ]. federación_n1 := n_intr_coll_le & [ STEM < "federación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_federación_n_rel" ] ]. federal_a1 := a_rel_nonprd_intr_le & [ STEM < "federal" >, SYNSEM.LKEYS.KEYREL.PRED "_federal_a_rel" ]. federalidad_n1 := n_intr_uncount_le & [ STEM < "federalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_federalidad_n_rel" ] ]. federalismo_n1 := n_ppcomp_uncount_le & [ STEM < "federalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_federalismo_n_rel" ] ]. federalista_a1 := a_qual_intr_ser_le & [ STEM < "federalista" >, SYNSEM.LKEYS.KEYREL.PRED "_federalista_a_rel" ]. federalista_n1 := n_intr_count_le & [ STEM < "federalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_federalista_n_rel" ] ]. federalizar_v := v_trans_np_le & [ STEM < "federalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_federalizar_v_rel" ]. federativo_a1 := a_rel_nonprd_intr_le & [ STEM < "federativo" >, SYNSEM.LKEYS.KEYREL.PRED "_federativo_a_rel" ]. fedrí_n1 := n_intr_count_le & [ STEM < "fedrí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fedrí_n_rel" ] ]. feedback_n1 := n_intr_mass_le & [ STEM < "feedback" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feedback_n_rel" ] ]. fehaciente_a1 := a_qual_intr_scopal_le & [ STEM < "fehaciente" >, SYNSEM.LKEYS.KEYREL.PRED "_fehaciente_a_rel" ]. fehacientemente_x1 := av_i_spr_le & [ STEM < "fehacientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fehacientemente_x_rel" ]. felación_n1 := n_intr_uncount_le & [ STEM < "felación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_felación_n_rel" ] ]. feldespato_n1 := n_intr_mass_le & [ STEM < "feldespato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_feldespato_n_rel" ] ]. felicidad_n1 := n_intr_mass-or-count_le & [ STEM < "felicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_felicidad_n_rel" ] ]. felicitación_n1 := n_trans_le & [ STEM < "felicitación" >, SYNSEM.LKEYS.KEYREL.PRED "_felicitación_n_rel" ]. felicitar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "felicitar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_felicitar_v_rel" ] ] ]. felicitar_v2 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "felicitar" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_felicitar_v_rel" ] ] ]. feligresía_n1 := n_intr_coll_le & [ STEM < "feligresía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feligresía_n_rel" ] ]. feligrés_n1 := n_intr_count_le & [ STEM < "feligrés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_feligrés_n_rel" ] ]. felino_a1 := a_rel_nonprd_intr_le & [ STEM < "felino" >, SYNSEM.LKEYS.KEYREL.PRED "_felino_a_rel" ]. felino_n1 := n_intr_count_le & [ STEM < "felino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_felino_n_rel" ] ]. felipismo_n1 := n_intr_uncount_le & [ STEM < "felipismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_felipismo_n_rel" ] ]. felipista_a1 := a_qual_intr_scopal_le & [ STEM < "felipista" >, SYNSEM.LKEYS.KEYREL.PRED "_felipista_a_rel" ]. felipista_n1 := n_intr_count_le & [ STEM < "felipista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_felipista_n_rel" ] ]. feliz_a1 := a_adv_int_le & [ STEM < "feliz" >, SYNSEM.LKEYS.KEYREL.PRED "_feliz_a_rel" ]. feliz_a2 := a_qual_intr_ser_le & [ STEM < "feliz" >, SYNSEM.LKEYS.KEYREL.PRED "_feliz_a_rel" ]. felizmente_x1 := av_s_spr_le & [ STEM < "felizmente" >, SYNSEM.LKEYS.KEYREL.PRED "_felizmente_x_rel" ]. felonía_n1 := n_intr_count_le & [ STEM < "felonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_felonía_n_rel" ] ]. felpa_n1 := n_intr_mass_le & [ STEM < "felpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_felpa_n_rel" ] ]. felpudo_n1 := n_intr_count_le & [ STEM < "felpudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_felpudo_n_rel" ] ]. felón_a1 := a_qual_intr_ser_le & [ STEM < "felón" >, SYNSEM.LKEYS.KEYREL.PRED "_felón_a_rel" ]. femeninamente_x1 := av_i_spr_le & [ STEM < "femeninamente" >, SYNSEM.LKEYS.KEYREL.PRED "_femeninamente_x_rel" ]. femenino_a1 := a_qual_intr_scopal_le & [ STEM < "femenino" >, SYNSEM.LKEYS.KEYREL.PRED "_femenino_a_rel" ]. feminidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "feminidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feminidad_n_rel" ] ]. feminismo_n1 := n_intr_uncount_le & [ STEM < "feminismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feminismo_n_rel" ] ]. feminista_a1 := a_qual_intr_ser_le & [ STEM < "feminista" >, SYNSEM.LKEYS.KEYREL.PRED "_feminista_a_rel" ]. feminista_n1 := n_intr_count_le & [ STEM < "feminista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_feminista_n_rel" ] ]. femoral_a1 := a_rel_nonprd_intr_le & [ STEM < "femoral" >, SYNSEM.LKEYS.KEYREL.PRED "_femoral_a_rel" ]. femorocutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "femorocutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_femorocutáneo_a_rel" ]. femorotibial_a1 := a_rel_nonprd_intr_le & [ STEM < "femorotibial" >, SYNSEM.LKEYS.KEYREL.PRED "_femorotibial_a_rel" ]. femtómetro_n := n_intr_count_le & [ STEM < "femtómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_femtómetro_n_rel" ] ]. fenacemida_n1 := n_intr_count_le & [ STEM < "fenacemida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenacemida_n_rel" ] ]. fenacina_n1 := n_intr_count_le & [ STEM < "fenacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenacina_n_rel" ] ]. fenacita_n1 := n_intr_count_le & [ STEM < "fenacita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenacita_n_rel" ] ]. fenantreno_n1 := n_intr_count_le & [ STEM < "fenantreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenantreno_n_rel" ] ]. fenantrenoquinona_n1 := n_intr_count_le & [ STEM < "fenantrenoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenantrenoquinona_n_rel" ] ]. fenaquita_n1 := n_intr_count_le & [ STEM < "fenaquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenaquita_n_rel" ] ]. fenato_n1 := n_intr_count_le & [ STEM < "fenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenato_n_rel" ] ]. fenecer_v1 := v_intr_le & [ STEM < "fenecer" >, SYNSEM.LKEYS.KEYREL.PRED "_fenecer_v_rel" ]. fenecer_v2 := v_trans_np_le & [ STEM < "fenecer" >, SYNSEM.LKEYS.KEYREL.PRED "_fenecer_v_rel" ]. fenecimiento_n1 := n_event-result_intr_le & [ STEM < "fenecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fenecimiento_n_rel" ]. fenestración_n1 := n_intr_count_le & [ STEM < "fenestración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenestración_n_rel" ] ]. fenestrado_a1 := a_qual_intr_scopal_le & [ STEM < "fenestrado" >, SYNSEM.LKEYS.KEYREL.PRED "_fenestrado_a_rel" ]. fenetidina_n1 := n_intr_count_le & [ STEM < "fenetidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenetidina_n_rel" ] ]. fenicio_a1 := a_rel_prd_le & [ STEM < "fenicio" >, SYNSEM.LKEYS.KEYREL.PRED "_fenicio_a_rel" ]. fenicio_n1 := n_intr_count_le & [ STEM < "fenicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fenicio_n_rel" ] ]. fenilacetaldehído_n1 := n_intr_mass_le & [ STEM < "fenilacetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilacetaldehído_n_rel" ] ]. fenilacetamida_n1 := n_intr_count_le & [ STEM < "fenilacetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilacetamida_n_rel" ] ]. fenilacetato_n1 := n_intr_count_le & [ STEM < "fenilacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilacetato_n_rel" ] ]. fenilacético_a1 := a_rel_nonprd_intr_le & [ STEM < "fenilacético" >, SYNSEM.LKEYS.KEYREL.PRED "_fenilacético_a_rel" ]. fenilarsónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenilarsónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenilarsónico_a_rel" ]. fenilbutazona_n1 := n_intr_count_le & [ STEM < "fenilbutazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fenilbutazona_n_rel" ] ]. fenilbutinol_n1 := n_intr_count_le & [ STEM < "fenilbutinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilbutinol_n_rel" ] ]. fenilcarbamato_n1 := n_intr_count_le & [ STEM < "fenilcarbamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilcarbamato_n_rel" ] ]. fenilcarbetoxipirazolona_n1 := n_intr_count_le & [ STEM < "fenilcarbetoxipirazolona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilcarbetoxipirazolona_n_rel" ] ]. fenilciclohexano_n1 := n_intr_count_le & [ STEM < "fenilciclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilciclohexano_n_rel" ] ]. fenilciclohexanol_n1 := n_intr_count_le & [ STEM < "fenilciclohexanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilciclohexanol_n_rel" ] ]. fenilendiamina_n1 := n_intr_count_le & [ STEM < "fenilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilendiamina_n_rel" ] ]. feniletanolamina_n1 := n_intr_count_le & [ STEM < "feniletanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_feniletanolamina_n_rel" ] ]. feniletilacético_a1 := a_rel_nonprd_intr_le & [ STEM < "feniletilacético" >, SYNSEM.LKEYS.KEYREL.PRED "_feniletilacético_a_rel" ]. feniletiletanolamina_n1 := n_intr_count_le & [ STEM < "feniletiletanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_feniletiletanolamina_n_rel" ] ]. fenilfenol_n1 := n_intr_count_le & [ STEM < "fenilfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilfenol_n_rel" ] ]. fenilfosfinato_n1 := n_intr_count_le & [ STEM < "fenilfosfinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilfosfinato_n_rel" ] ]. fenilhidracina_n1 := n_intr_count_le & [ STEM < "fenilhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilhidracina_n_rel" ] ]. fenilmercúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenilmercúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenilmercúrico_a_rel" ]. fenilmetiletanolamina_n1 := n_intr_count_le & [ STEM < "fenilmetiletanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilmetiletanolamina_n_rel" ] ]. fenilmorfolina_n1 := n_intr_count_le & [ STEM < "fenilmorfolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilmorfolina_n_rel" ] ]. fenilnaftilamina_n1 := n_intr_count_le & [ STEM < "fenilnaftilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilnaftilamina_n_rel" ] ]. fenilpiperacina_n1 := n_intr_count_le & [ STEM < "fenilpiperacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilpiperacina_n_rel" ] ]. fenilpropilmetilamina_n1 := n_intr_count_le & [ STEM < "fenilpropilmetilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenilpropilmetilamina_n_rel" ] ]. feniltriclorosilano_n1 := n_intr_count_le & [ STEM < "feniltriclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_feniltriclorosilano_n_rel" ] ]. fenobarbital_n1 := n_intr_count_le & [ STEM < "fenobarbital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenobarbital_n_rel" ] ]. fenoclino_n1 := n_intr_count_le & [ STEM < "fenoclino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenoclino_n_rel" ] ]. fenogreco_n1 := n_intr_count_le & [ STEM < "fenogreco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fenogreco_n_rel" ] ]. fenol_n1 := n_intr_mass_le & [ STEM < "fenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenol_n_rel" ] ]. fenoldisulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenoldisulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenoldisulfónico_a_rel" ]. fenolftaleína_n1 := n_intr_count_le & [ STEM < "fenolftaleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenolftaleína_n_rel" ] ]. fenología_n1 := n_intr_uncount_le & [ STEM < "fenología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenología_n_rel" ] ]. fenolsulfonato_n1 := n_intr_count_le & [ STEM < "fenolsulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenolsulfonato_n_rel" ] ]. fenolsulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenolsulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenolsulfónico_a_rel" ]. fenológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenológico_a_rel" ]. fenomenal_a1 := a_qual_intr_scopal_le & [ STEM < "fenomenal" >, SYNSEM.LKEYS.KEYREL.PRED "_fenomenal_a_rel" ]. fenomenalmente_x1 := av_i_spr_le & [ STEM < "fenomenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fenomenalmente_x_rel" ]. fenomenismo_n1 := n_intr_uncount_le & [ STEM < "fenomenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenomenismo_n_rel" ] ]. fenomenología_n1 := n_intr_uncount_le & [ STEM < "fenomenología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenomenología_n_rel" ] ]. fenotiacina_n1 := n_intr_count_le & [ STEM < "fenotiacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenotiacina_n_rel" ] ]. fenotipo_n1 := n_intr_count_le & [ STEM < "fenotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenotipo_n_rel" ] ]. fenotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenotípico_a_rel" ]. fenoxiacético_a1 := a_rel_nonprd_intr_le & [ STEM < "fenoxiacético" >, SYNSEM.LKEYS.KEYREL.PRED "_fenoxiacético_a_rel" ]. fenoxibenzamina_n1 := n_intr_count_le & [ STEM < "fenoxibenzamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenoxibenzamina_n_rel" ] ]. fenoxipropanodiol_n1 := n_intr_count_le & [ STEM < "fenoxipropanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fenoxipropanodiol_n_rel" ] ]. fenólico_a1 := a_rel_nonprd_intr_le & [ STEM < "fenólico" >, SYNSEM.LKEYS.KEYREL.PRED "_fenólico_a_rel" ]. fenómeno_n1 := n_intr_count_le & [ STEM < "fenómeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fenómeno_n_rel" ] ]. feo_a1 := a_qual_intr_scopal_le & [ STEM < "feo" >, SYNSEM.LKEYS.KEYREL.PRED "_feo_a_rel" ]. feral_a1 := a_qual_intr_scopal_le & [ STEM < "feral" >, SYNSEM.LKEYS.KEYREL.PRED "_feral_a_rel" ]. ferbam_n1 := n_intr_count_le & [ STEM < "ferbam" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ferbam_n_rel" ] ]. ferberita_n1 := n_intr_count_le & [ STEM < "ferberita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferberita_n_rel" ] ]. ferbisialsol_n1 := n_intr_uncount_le & [ STEM < "ferbisialsol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferbisialsol_n_rel" ] ]. fergusonita_n1 := n_intr_count_le & [ STEM < "fergusonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fergusonita_n_rel" ] ]. feria_n1 := n_intr_count_le & [ STEM < "feria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_feria_n_rel" ] ]. ferial_n1 := n_intr_count_le & [ STEM < "ferial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ferial_n_rel" ] ]. feriante_n1 := n_intr_count_le & [ STEM < "feriante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_feriante_n_rel" ] ]. fermentable_a1 := a_rel_prd_le & [ STEM < "fermentable" >, SYNSEM.LKEYS.KEYREL.PRED "_fermentable_a_rel" ]. fermentación_n1 := n_event-result_intr_le & [ STEM < "fermentación" >, SYNSEM.LKEYS.KEYREL.PRED "_fermentación_n_rel" ]. fermentador_n1 := n_intr_count_le & [ STEM < "fermentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fermentador_n_rel" ] ]. fermentar_v := v_trans_np*_le & [ STEM < "fermentar" >, SYNSEM.LKEYS.KEYREL.PRED "_fermentar_v_rel" ]. fermento_n1 := n_intr_mass_le & [ STEM < "fermento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fermento_n_rel" ] ]. fermio_n1 := n_intr_mass_le & [ STEM < "fermio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fermio_n_rel" ] ]. ferocidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ferocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferocidad_n_rel" ] ]. feroz_a1 := a_qual_intr_scopal_le & [ STEM < "feroz" >, SYNSEM.LKEYS.KEYREL.PRED "_feroz_a_rel" ]. ferozmente_x1 := av_i_spr_le & [ STEM < "ferozmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferozmente_x_rel" ]. ferralítico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferralítico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferralítico_a_rel" ]. ferretero_n1 := n_intr_count_le & [ STEM < "ferretero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ferretero_n_rel" ] ]. ferretería_n1 := n_intr_count_le & [ STEM < "ferretería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_ferretería_n_rel" ] ]. ferricianuro_n1 := n_intr_count_le & [ STEM < "ferricianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferricianuro_n_rel" ] ]. ferrieléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrieléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrieléctrico_a_rel" ]. ferrimagnetismo_n1 := n_intr_mass_le & [ STEM < "ferrimagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferrimagnetismo_n_rel" ] ]. ferrimagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrimagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrimagnético_a_rel" ]. ferrita_n1 := n_intr_mass_le & [ STEM < "ferrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferrita_n_rel" ] ]. ferritina_n1 := n_intr_count_le & [ STEM < "ferritina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ferritina_n_rel" ] ]. ferroaluminio_n1 := n_intr_count_le & [ STEM < "ferroaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferroaluminio_n_rel" ] ]. ferroboro_n1 := n_intr_mass-or-count_le & [ STEM < "ferroboro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferroboro_n_rel" ] ]. ferrocarril_n1 := n_intr_count_le & [ STEM < "ferrocarril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ferrocarril_n_rel" ] ]. ferrocarrilero_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrocarrilero" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrocarrilero_a_rel" ]. ferroceno_n1 := n_intr_count_le & [ STEM < "ferroceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferroceno_n_rel" ] ]. ferrocianuro_n1 := n_intr_count_le & [ STEM < "ferrocianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferrocianuro_n_rel" ] ]. ferrocromo_n1 := n_intr_mass-or-count_le & [ STEM < "ferrocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferrocromo_n_rel" ] ]. ferrodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrodinámico_a_rel" ]. ferroelectricidad_n1 := n_intr_uncount_le & [ STEM < "ferroelectricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferroelectricidad_n_rel" ] ]. ferroeléctricamente_x1 := av_i_spr_le & [ STEM < "ferroeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroeléctricamente_x_rel" ]. ferroeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferroeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroeléctrico_a_rel" ]. ferrofósforo_n1 := n_intr_uncount_le & [ STEM < "ferrofósforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferrofósforo_n_rel" ] ]. ferroinductivamente_x1 := av_i_spr_le & [ STEM < "ferroinductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroinductivamente_x_rel" ]. ferroinductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "ferroinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroinductivo_a_rel" ]. ferromagnetismo_n1 := n_intr_uncount_le & [ STEM < "ferromagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferromagnetismo_n_rel" ] ]. ferromagnéticamente_x1 := av_i_spr_le & [ STEM < "ferromagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferromagnéticamente_x_rel" ]. ferromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "ferromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_ferromagnético_a_rel" ]. ferromanganeso_n1 := n_intr_mass-or-count_le & [ STEM < "ferromanganeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferromanganeso_n_rel" ] ]. ferromolibdeno_n1 := n_intr_mass-or-count_le & [ STEM < "ferromolibdeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferromolibdeno_n_rel" ] ]. ferroníquel_n1 := n_intr_mass-or-count_le & [ STEM < "ferroníquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferroníquel_n_rel" ] ]. ferropénico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferropénico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferropénico_a_rel" ]. ferrorresonancia_n1 := n_intr_uncount_le & [ STEM < "ferrorresonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ferrorresonancia_n_rel" ] ]. ferrorresonante_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrorresonante" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrorresonante_a_rel" ]. ferrorresonantemente_x1 := av_i_spr_le & [ STEM < "ferrorresonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrorresonantemente_x_rel" ]. ferrosamente_x1 := av_i_spr_le & [ STEM < "ferrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrosamente_x_rel" ]. ferrosilicio_n1 := n_intr_mass-or-count_le & [ STEM < "ferrosilicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ferrosilicio_n_rel" ] ]. ferroso_a1 := a_rel_nonprd_intr_le & [ STEM < "ferroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroso_a_rel" ]. ferrotitanio_n1 := n_intr_count_le & [ STEM < "ferrotitanio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferrotitanio_n_rel" ] ]. ferrotungsteno_n1 := n_intr_count_le & [ STEM < "ferrotungsteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferrotungsteno_n_rel" ] ]. ferrovanadio_n1 := n_intr_count_le & [ STEM < "ferrovanadio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ferrovanadio_n_rel" ] ]. ferroviario_a1 := a_rel_nonprd_intr_le & [ STEM < "ferroviario" >, SYNSEM.LKEYS.KEYREL.PRED "_ferroviario_a_rel" ]. ferruginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "ferruginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ferruginoso_a_rel" ]. ferry_n1 := n_intr_count_le & [ STEM < "ferry" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ferry_n_rel" ] ]. ferrífero_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrífero" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrífero_a_rel" ]. ferríticamente_x1 := av_i_spr_le & [ STEM < "ferríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferríticamente_x_rel" ]. ferrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "ferrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_ferrítico_a_rel" ]. fersialítico_a1 := a_rel_nonprd_intr_le & [ STEM < "fersialítico" >, SYNSEM.LKEYS.KEYREL.PRED "_fersialítico_a_rel" ]. fertilidad_n1 := n_ppcomp_mass_le & [ STEM < "fertilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fertilidad_n_rel" ] ]. fertilización_n1 := n_trans_le & [ STEM < "fertilización" >, SYNSEM.LKEYS.KEYREL.PRED "_fertilización_n_rel" ]. fertilizante_n1 := n_intr_mass_le & [ STEM < "fertilizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fertilizante_n_rel" ] ]. fertilizar_v := v_trans_np*_le & [ STEM < "fertilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_fertilizar_v_rel" ]. ferviente_a1 := a_qual_intr_scopal_le & [ STEM < "ferviente" >, SYNSEM.LKEYS.KEYREL.PRED "_ferviente_a_rel" ]. fervientemente_x1 := av_i_spr_le & [ STEM < "fervientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fervientemente_x_rel" ]. fervor_n1 := n_intr_uncount_pl_le & [ STEM < "fervor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fervor_n_rel" ] ]. fervorosamente_x1 := av_i_spr_le & [ STEM < "fervorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fervorosamente_x_rel" ]. fervoroso_a1 := a_qual_intr_scopal_le & [ STEM < "fervoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_fervoroso_a_rel" ]. festejar_v1 := v_trans_cp_prop_fin_le & [ STEM < "festejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_festejar_v_rel" ] ]. festejar_v2 := v_trans_np*_le & [ STEM < "festejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_festejar_v_rel" ] ]. festejo_n1 := n_trans_le & [ STEM < "festejo" >, SYNSEM.LKEYS.KEYREL.PRED "_festejo_n_rel" ]. festinación_n1 := n_trans_le & [ STEM < "festinación" >, SYNSEM.LKEYS.KEYREL.PRED "_festinación_n_rel" ]. festival_n1 := n_intr_count_le & [ STEM < "festival" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_festival_n_rel" ] ]. festividad_n1 := n_intr_count_le & [ STEM < "festividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_festividad_n_rel" ] ]. festivo_a1 := a_qual_intr_scopal_le & [ STEM < "festivo" >, SYNSEM.LKEYS.KEYREL.PRED "_festivo_a_rel" ]. festivo_n1 := n_intr_count_le & [ STEM < "festivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_festivo_n_rel" ] ]. festonear_v := v_trans_np_le & [ STEM < "festonear" >, SYNSEM.LKEYS.KEYREL.PRED "_festonear_v_rel" ]. festuca_n1 := n_intr_count_le & [ STEM < "festuca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_festuca_n_rel" ] ]. festín_n1 := n_intr_count_le & [ STEM < "festín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_festín_n_rel" ] ]. festón_n1 := n_intr_count_le & [ STEM < "festón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_festón_n_rel" ] ]. fetal_a1 := a_rel_nonprd_intr_le & [ STEM < "fetal" >, SYNSEM.LKEYS.KEYREL.PRED "_fetal_a_rel" ]. fetiche_n1 := n_intr_count_le & [ STEM < "fetiche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fetiche_n_rel" ] ]. fetichismo_n1 := n_intr_uncount_le & [ STEM < "fetichismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fetichismo_n_rel" ] ]. fetichista_a1 := a_qual_intr_scopal_le & [ STEM < "fetichista" >, SYNSEM.LKEYS.KEYREL.PRED "_fetichista_a_rel" ]. fetichista_n1 := n_intr_count_le & [ STEM < "fetichista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fetichista_n_rel" ] ]. feticidio_n1 := n_intr_uncount_le & [ STEM < "feticidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feticidio_n_rel" ] ]. feto_n1 := n_intr_count_le & [ STEM < "feto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_feto_n_rel" ] ]. fetoproteína_n1 := n_intr_uncount_pl_le & [ STEM < "fetoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fetoproteína_n_rel" ] ]. feudal_a1 := a_rel_nonprd_intr_le & [ STEM < "feudal" >, SYNSEM.LKEYS.KEYREL.PRED "_feudal_a_rel" ]. feudalismo_n1 := n_intr_uncount_le & [ STEM < "feudalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_feudalismo_n_rel" ] ]. feudalmente_x1 := av_i_spr_le & [ STEM < "feudalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_feudalmente_x_rel" ]. feudatario_a1 := a_rel_nonprd_intr_le & [ STEM < "feudatario" >, SYNSEM.LKEYS.KEYREL.PRED "_feudatario_a_rel" ]. feudo_n1 := n_intr_count_le & [ STEM < "feudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_feudo_n_rel" ] ]. feúcho_a1 := a_qual_intr_scopal_le & [ STEM < "feúcho" >, SYNSEM.LKEYS.KEYREL.PRED "_feúcho_a_rel" ]. fiabilidad_n1 := n_ppcomp_mass_le & [ STEM < "fiabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiabilidad_n_rel" ] ]. fiable_a1 := a_qual_intr_scopal_le & [ STEM < "fiable" >, SYNSEM.LKEYS.KEYREL.PRED "_fiable_a_rel" ]. fiador_n1 := n_subj-nom_le & [ STEM < "fiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fiador_n_rel" ] ]. fiambre_n1 := n_intr_count_le & [ STEM < "fiambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fiambre_n_rel" ] ]. fiambrera_n1 := n_intr_count_le & [ STEM < "fiambrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fiambrera_n_rel" ] ]. fianza_n1 := n_intr_count_le & [ STEM < "fianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fianza_n_rel" ] ]. fiar_v1 := v_ditrans*_le & [ STEM < "fiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fiar_v_rel" ]. fiar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "fiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_fiar_v_rel" ] ] ]. fiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "fiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_fiar_v_rel" ] ] ]. fiasco_n1 := n_intr_count_le & [ STEM < "fiasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiasco_n_rel" ] ]. fibra_n1 := n_intr_mass-or-count_le & [ STEM < "fibra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fibra_n_rel" ] ]. fibrado_a1 := a_qual_intr_scopal_le & [ STEM < "fibrado" >, SYNSEM.LKEYS.KEYREL.PRED "_fibrado_a_rel" ]. fibrilar_a1 := a_rel_nonprd_intr_le & [ STEM < "fibrilar" >, SYNSEM.LKEYS.KEYREL.PRED "_fibrilar_a_rel" ]. fibrilarmente_x1 := av_i_spr_le & [ STEM < "fibrilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fibrilarmente_x_rel" ]. fibrilla_n1 := n_intr_count_le & [ STEM < "fibrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrilla_n_rel" ] ]. fibrina_n1 := n_intr_mass-or-count_le & [ STEM < "fibrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fibrina_n_rel" ] ]. fibrinasa_n1 := n_intr_mass_le & [ STEM < "fibrinasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fibrinasa_n_rel" ] ]. fibrinemia_n1 := n_intr_uncount_le & [ STEM < "fibrinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibrinemia_n_rel" ] ]. fibrinolisina_n1 := n_intr_count_le & [ STEM < "fibrinolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrinolisina_n_rel" ] ]. fibrinolisis_n1 := n_intr_uncount_le & [ STEM < "fibrinolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibrinolisis_n_rel" ] ]. fibrinógeno_n1 := n_intr_count_le & [ STEM < "fibrinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrinógeno_n_rel" ] ]. fibroblasto_n1 := n_intr_count_le & [ STEM < "fibroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibroblasto_n_rel" ] ]. fibrocartilaginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "fibrocartilaginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fibrocartilaginoso_a_rel" ]. fibrocartílago_n1 := n_intr_mass_le & [ STEM < "fibrocartílago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fibrocartílago_n_rel" ] ]. fibrocemento_n1 := n_intr_mass_le & [ STEM < "fibrocemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fibrocemento_n_rel" ] ]. fibrocito_n1 := n_intr_count_le & [ STEM < "fibrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrocito_n_rel" ] ]. fibrodentina_n1 := n_intr_count_le & [ STEM < "fibrodentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrodentina_n_rel" ] ]. fibrolita_n1 := n_intr_mass_le & [ STEM < "fibrolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fibrolita_n_rel" ] ]. fibroma_n1 := n_intr_count_le & [ STEM < "fibroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibroma_n_rel" ] ]. fibromatosis_n1 := n_intr_uncount_le & [ STEM < "fibromatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibromatosis_n_rel" ] ]. fibromucosa_n1 := n_intr_count_le & [ STEM < "fibromucosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fibromucosa_n_rel" ] ]. fibronectina_n1 := n_intr_count_le & [ STEM < "fibronectina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibronectina_n_rel" ] ]. fibroplasia_n1 := n_intr_uncount_le & [ STEM < "fibroplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibroplasia_n_rel" ] ]. fibrosamente_x1 := av_i_spr_le & [ STEM < "fibrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fibrosamente_x_rel" ]. fibroscopio_n1 := n_intr_count_le & [ STEM < "fibroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibroscopio_n_rel" ] ]. fibrosis_n1 := n_intr_uncount_le & [ STEM < "fibrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibrosis_n_rel" ] ]. fibrositis_n1 := n_intr_uncount_le & [ STEM < "fibrositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fibrositis_n_rel" ] ]. fibroso_a1 := a_qual_intr_scopal_le & [ STEM < "fibroso" >, SYNSEM.LKEYS.KEYREL.PRED "_fibroso_a_rel" ]. fibrógrafo_n1 := n_intr_count_le & [ STEM < "fibrógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fibrógrafo_n_rel" ] ]. ficción_n1 := n_trans_le & [ STEM < "ficción" >, SYNSEM.LKEYS.KEYREL.PRED "_ficción_n_rel" ]. ficción_n2 := n_intr_mass-or-count_le & [ STEM < "ficción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ficción_n_rel" ] ]. ficha_n1 := n_intr_count_le & [ STEM < "ficha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_ficha_n_rel" ] ]. fichaje_n1 := n_trans_le & [ STEM < "fichaje" >, SYNSEM.LKEYS.KEYREL.PRED "_fichaje_n_rel" ]. fichar_v1 := v_intr_mrkd_np_le & [ STEM < "fichar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_soc, PRED "_fichar_v_rel" ] ] ]. fichar_v2 := v_trans_np_le & [ STEM < "fichar" >, SYNSEM.LKEYS.KEYREL.PRED "_fichar_v_rel" ]. fichero_n1 := n_intr_count_le & [ STEM < "fichero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fichero_n_rel" ] ]. ficina_n1 := n_intr_count_le & [ STEM < "ficina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ficina_n_rel" ] ]. ficticiamente_x1 := av_i_spr_le & [ STEM < "ficticiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ficticiamente_x_rel" ]. ficticio_a1 := a_qual_intr_scopal_le & [ STEM < "ficticio" >, SYNSEM.LKEYS.KEYREL.PRED "_ficticio_a_rel" ]. fidedignamente_x1 := av_i_spr_le & [ STEM < "fidedignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fidedignamente_x_rel" ]. fidedigno_a1 := a_qual_intr_scopal_le & [ STEM < "fidedigno" >, SYNSEM.LKEYS.KEYREL.PRED "_fidedigno_a_rel" ]. fideicometer_v := v_trans_np_le & [ STEM < "fideicometer" >, SYNSEM.LKEYS.KEYREL.PRED "_fideicometer_v_rel" ]. fideicomisario_a1 := a_rel_nonprd_intr_le & [ STEM < "fideicomisario" >, SYNSEM.LKEYS.KEYREL.PRED "_fideicomisario_a_rel" ]. fideicomisario_n1 := n_intr_count_le & [ STEM < "fideicomisario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fideicomisario_n_rel" ] ]. fideicomiso_a1 := a_rel_nonprd_intr_le & [ STEM < "fideicomiso" >, SYNSEM.LKEYS.KEYREL.PRED "_fideicomiso_a_rel" ]. fideicomiso_n1 := n_intr_count_le & [ STEM < "fideicomiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fideicomiso_n_rel" ] ]. fideicomitente_n1 := n_intr_count_le & [ STEM < "fideicomitente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fideicomitente_n_rel" ] ]. fidelidad_n1 := n_intr_mass_le & [ STEM < "fidelidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fidelidad_n_rel" ] ]. fideo_n1 := n_intr_count_le & [ STEM < "fideo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fideo_n_rel" ] ]. fideuá_n1 := n_intr_count_le & [ STEM < "fideuá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fideuá_n_rel" ] ]. fideísmo_n1 := n_intr_uncount_le & [ STEM < "fideísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fideísmo_n_rel" ] ]. fiducia_n1 := n_intr_uncount_le & [ STEM < "fiducia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiducia_n_rel" ] ]. fiducial_a1 := a_rel_nonprd_intr_le & [ STEM < "fiducial" >, SYNSEM.LKEYS.KEYREL.PRED "_fiducial_a_rel" ]. fiduciario_a1 := a_rel_nonprd_intr_le & [ STEM < "fiduciario" >, SYNSEM.LKEYS.KEYREL.PRED "_fiduciario_a_rel" ]. fiducidario_a1 := a_rel_nonprd_intr_le & [ STEM < "fiducidario" >, SYNSEM.LKEYS.KEYREL.PRED "_fiducidario_a_rel" ]. fiebre_n1 := n_intr_mass_le & [ STEM < "fiebre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_fiebre_n_rel" ] ]. fiel_a1 := a_qual_trans*_ser_le & [ STEM < "fiel" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_fiel_a_rel" ] ]. fielmente_x1 := av_i_spr_le & [ STEM < "fielmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fielmente_x_rel" ]. fieltro_n1 := n_intr_mass_le & [ STEM < "fieltro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fieltro_n_rel" ] ]. fiera_n1 := n_intr_count_le & [ STEM < "fiera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fiera_n_rel" ] ]. fierabrás_n1 := n_intr_count_le & [ STEM < "fierabrás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fierabrás_n_rel" ] ]. fiereza_n1 := n_ppcomp_uncount_le & [ STEM < "fiereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiereza_n_rel" ] ]. fiero_a1 := a_qual_intr_scopal_le & [ STEM < "fiero" >, SYNSEM.LKEYS.KEYREL.PRED "_fiero_a_rel" ]. fiesta_n1 := n_intr_count_le & [ STEM < "fiesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiesta_n_rel" ] ]. figle_n1 := n_intr_count_le & [ STEM < "figle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_figle_n_rel" ] ]. figuerense_a1 := a_rel_prd_le & [ STEM < "figuerense" >, SYNSEM.LKEYS.KEYREL.PRED "_figuerense_a_rel" ]. figuerense_n1 := n_intr_count_le & [ STEM < "figuerense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_figuerense_n_rel" ] ]. figura_n1 := n_intr_count_le & [ STEM < "figura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_hum, PRED "_figura_n_rel" ] ]. figuración_n1 := n_trans_le & [ STEM < "figuración" >, SYNSEM.LKEYS.KEYREL.PRED "_figuración_n_rel" ]. figuradamente_x1 := av_i_spr_le & [ STEM < "figuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_figuradamente_x_rel" ]. figurante_n1 := n_intr_count_le & [ STEM < "figurante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_figurante_n_rel" ] ]. figurar_v1 := v_pron_trans_cp_prop_fin_ind_le & [ STEM < "figurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_figurar_v_rel" ] ]. figurar_v2 := v_pron_trans_np_le & [ STEM < "figurarse" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_figurarse_v_rel" ] ]. figurar_v3 := v_subj_cp_prop_fin_unacc_le & [ STEM < "figurar" >, SYNSEM.LKEYS.KEYREL.PRED "_figurar_v_rel" ]. figurar_v4 := v_unacc_lcomp_loc*_le & [ STEM < "figurar" >, SYNSEM.LKEYS.KEYREL.PRED "_figurar_v_rel" ]. figurativamente_x1 := av_i_spr_le & [ STEM < "figurativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_figurativamente_x_rel" ]. figurativo_a1 := a_qual_intr_scopal_le & [ STEM < "figurativo" >, SYNSEM.LKEYS.KEYREL.PRED "_figurativo_a_rel" ]. figurilla_n1 := n_intr_count_le & [ STEM < "figurilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_figurilla_n_rel" ] ]. figurinista_n1 := n_intr_count_le & [ STEM < "figurinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_figurinista_n_rel" ] ]. figurín_n1 := n_intr_count_le & [ STEM < "figurín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_figurín_n_rel" ] ]. fijación_n1 := n_trans_le & [ STEM < "fijación" >, SYNSEM.LKEYS.KEYREL.PRED "_fijación_n_rel" ]. fijador_a1 := a_rel_nonprd_intr_le & [ STEM < "fijador" >, SYNSEM.LKEYS.KEYREL.PRED "_fijador_a_rel" ]. fijador_n1 := n_intr_mass_le & [ STEM < "fijador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fijador_n_rel" ] ]. fijamente_x1 := av_i_spr_le & [ STEM < "fijamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fijamente_x_rel" ]. fijapelo_n1 := n_intr_mass_le & [ STEM < "fijapelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fijapelo_n_rel" ] ]. fijar_v1 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "fijar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fijar_v_rel" ] ] ]. fijar_v2 := v_pron_intr_mrkd_cp_semi_ques_le & [ STEM < "fijar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fijar_v_rel" ] ] ]. fijar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "fijar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fijar_v_rel" ] ] ]. fijar_v4 := v_ditrans_cp_prop_fin_le & [ STEM < "fijar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_fijar_v_rel" ] ]. fijar_v5 := v_trans_np_mrkd_np*_le & [ STEM < "fijar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_fijar_v_rel" ] ]. fijeza_n1 := n_ppcomp_uncount_le & [ STEM < "fijeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fijeza_n_rel" ] ]. fijo_a1 := a_qual_trans*_estar_le & [ STEM < "fijo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_fijo_a_rel" ] ]. fila_n2 := n_pseudo-part_le & [ STEM < "fila" >, SYNSEM.LKEYS.KEYREL.PRED "_fila_n_rel" ]. filadiz_n1 := n_intr_count_le & [ STEM < "filadiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filadiz_n_rel" ] ]. filamento_n1 := n_intr_count_le & [ STEM < "filamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filamento_n_rel" ] ]. filamentoso_a1 := a_qual_intr_scopal_le & [ STEM < "filamentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_filamentoso_a_rel" ]. filantropía_n1 := n_intr_uncount_le & [ STEM < "filantropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filantropía_n_rel" ] ]. filantrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "filantrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_filantrópico_a_rel" ]. filarmónica_n1 := n_intr_coll_le & [ STEM < "filarmónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_filarmónica_n_rel" ] ]. filarmónico_a1 := a_rel_nonprd_intr_le & [ STEM < "filarmónico" >, SYNSEM.LKEYS.KEYREL.PRED "_filarmónico_a_rel" ]. filatelia_n1 := n_intr_uncount_le & [ STEM < "filatelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filatelia_n_rel" ] ]. filatelista_n1 := n_intr_count_le & [ STEM < "filatelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filatelista_n_rel" ] ]. filatélico_a1 := a_rel_nonprd_intr_le & [ STEM < "filatélico" >, SYNSEM.LKEYS.KEYREL.PRED "_filatélico_a_rel" ]. filete_n1 := n_intr_count_le & [ STEM < "filete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filete_n_rel" ] ]. filhelenismo_n1 := n_intr_uncount_le & [ STEM < "filhelenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filhelenismo_n_rel" ] ]. filiación_n1 := n_trans_le & [ STEM < "filiación" >, SYNSEM.LKEYS.KEYREL.PRED "_filiación_n_rel" ]. filial_a1 := a_rel_nonprd_intr_le & [ STEM < "filial" >, SYNSEM.LKEYS.KEYREL.PRED "_filial_a_rel" ]. filial_n1 := n_intr_count_le & [ STEM < "filial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_filial_n_rel" ] ]. filialmente_x1 := av_i_le & [ STEM < "filialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_filialmente_x_rel" ]. filiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "filiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_filiforme_a_rel" ]. filigrana_n1 := n_intr_count_le & [ STEM < "filigrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filigrana_n_rel" ] ]. filipino_a1 := a_rel_prd_le & [ STEM < "filipino" >, SYNSEM.LKEYS.KEYREL.PRED "_filipino_a_rel" ]. filipino_n1 := n_intr_count_le & [ STEM < "filipino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filipino_n_rel" ] ]. filisteo_n1 := n_intr_count_le & [ STEM < "filisteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filisteo_n_rel" ] ]. film_n1 := n_intr_count_le & [ STEM < "film" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_film_n_rel" ] ]. filmación_n1 := n_trans_le & [ STEM < "filmación" >, SYNSEM.LKEYS.KEYREL.PRED "_filmación_n_rel" ]. filmador_n1 := n_subj-nom_le & [ STEM < "filmador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filmador_n_rel" ] ]. filme_n1 := n_intr_count_le & [ STEM < "filme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_filme_n_rel" ] ]. filmina_n1 := n_intr_count_le & [ STEM < "filmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filmina_n_rel" ] ]. filmografía_n1 := n_intr_uncount_le & [ STEM < "filmografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filmografía_n_rel" ] ]. filmoteca_n1 := n_intr_count_le & [ STEM < "filmoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_filmoteca_n_rel" ] ]. filo_n1 := n_intr_mass_le & [ STEM < "filo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filo_n_rel" ] ]. filogenéticamente_x1 := av_i_spr_le & [ STEM < "filogenéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_filogenéticamente_x_rel" ]. filogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "filogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_filogenético_a_rel" ]. filogénesis_n1 := n_intr_uncount_le & [ STEM < "filogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filogénesis_n_rel" ] ]. filología_n1 := n_intr_uncount_pl_le & [ STEM < "filología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filología_n_rel" ] ]. filológicamente_x1 := av_i_spr_le & [ STEM < "filológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_filológicamente_x_rel" ]. filológico_a1 := a_rel_nonprd_intr_le & [ STEM < "filológico" >, SYNSEM.LKEYS.KEYREL.PRED "_filológico_a_rel" ]. filosilicato_n1 := n_intr_count_le & [ STEM < "filosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_filosilicato_n_rel" ] ]. filosofar_v := v_intr_le & [ STEM < "filosofar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_filosofar_v_rel" ] ]. filosofema_n1 := n_intr_count_le & [ STEM < "filosofema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filosofema_n_rel" ] ]. filosofismo_n1 := n_intr_uncount_le & [ STEM < "filosofismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filosofismo_n_rel" ] ]. filosofía_n1 := n_intr_uncount_pl_le & [ STEM < "filosofía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filosofía_n_rel" ] ]. filosóficamente_x1 := av_s_le & [ STEM < "filosóficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_filosóficamente_x_rel" ]. filosófico_a1 := a_rel_nonprd_intr_le & [ STEM < "filosófico" >, SYNSEM.LKEYS.KEYREL.PRED "_filosófico_a_rel" ]. filtrable_a1 := a_rel_prd_le & [ STEM < "filtrable" >, SYNSEM.LKEYS.KEYREL.PRED "_filtrable_a_rel" ]. filtración_n1 := n_trans_le & [ STEM < "filtración" >, SYNSEM.LKEYS.KEYREL.PRED "_filtración_n_rel" ]. filtrado_n1 := n_trans_le & [ STEM < "filtrado" >, SYNSEM.LKEYS.KEYREL.PRED "_filtrado_n_rel" ]. filtrador_a1 := a_rel_nonprd_intr_le & [ STEM < "filtrador" >, SYNSEM.LKEYS.KEYREL.PRED "_filtrador_a_rel" ]. filtraje_n1 := n_trans_le & [ STEM < "filtraje" >, SYNSEM.LKEYS.KEYREL.PRED "_filtraje_n_rel" ]. filtrante_a1 := a_rel_nonprd_intr_le & [ STEM < "filtrante" >, SYNSEM.LKEYS.KEYREL.PRED "_filtrante_a_rel" ]. filtrar_v := v_trans_np_caus_le & [ STEM < "filtrar" >, SYNSEM.LKEYS.KEYREL.PRED "_filtrar_v_rel" ]. filtro_n1 := n_intr_count_le & [ STEM < "filtro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filtro_n_rel" ] ]. filum_n1 := n_intr_count_le & [ STEM < "filum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_filum_n_rel" ] ]. filántropo_n1 := n_intr_count_le & [ STEM < "filántropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filántropo_n_rel" ] ]. filástica_n1 := n_intr_uncount_le & [ STEM < "filástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filástica_n_rel" ] ]. filólogo_n1 := n_intr_count_le & [ STEM < "filólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filólogo_n_rel" ] ]. filón_n1 := n_intr_mass-or-count_le & [ STEM < "filón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_filón_n_rel" ] ]. filósofo_n1 := n_intr_count_le & [ STEM < "filósofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_filósofo_n_rel" ] ]. fimbrina_n1 := n_intr_count_le & [ STEM < "fimbrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fimbrina_n_rel" ] ]. fin_n1 := n_intr_count_le & [ STEM < "fin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_fin_n_rel" ] ]. finado_n1 := n_intr_count_le & [ STEM < "finado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_finado_n_rel" ] ]. final_a1 := a_rel_nonprd_intr_le & [ STEM < "final" >, SYNSEM.LKEYS.KEYREL.PRED "_final_a_rel" ]. final_n1 := n_intr_count_le & [ STEM < "final" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_final_n_rel" ] ]. finalidad_n1 := n_intr_count_le & [ STEM < "finalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finalidad_n_rel" ] ]. finalismo_n1 := n_intr_uncount_le & [ STEM < "finalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finalismo_n_rel" ] ]. finalista_a1 := a_rel_nonprd_intr_le & [ STEM < "finalista" >, SYNSEM.LKEYS.KEYREL.PRED "_finalista_a_rel" ]. finalización_n1 := n_result_intr_le & [ STEM < "finalización" >, SYNSEM.LKEYS.KEYREL.PRED "_finalización_n_rel" ]. finalización_n2 := n_trans_le & [ STEM < "finalización" >, SYNSEM.LKEYS.KEYREL.PRED "_finalización_n_rel" ]. finalizador_n1 := n_intr_count_le & [ STEM < "finalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_finalizador_n_rel" ] ]. finalizar_v := v_trans_np_caus_int_le & [ STEM < "finalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_finalizar_v_rel" ]. finalmente_x1 := av_i_le & [ STEM < "finalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_finalmente_x_rel" ]. finamente_x1 := av_i_spr_le & [ STEM < "finamente" >, SYNSEM.LKEYS.KEYREL.PRED "_finamente_x_rel" ]. financiable_a1 := a_rel_prd_le & [ STEM < "financiable" >, SYNSEM.LKEYS.KEYREL.PRED "_financiable_a_rel" ]. financiación_n1 := n_intr_mass_le & [ STEM < "financiación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_financiación_n_rel" ] ]. financiador_a1 := a_rel_nonprd_intr_le & [ STEM < "financiador" >, SYNSEM.LKEYS.KEYREL.PRED "_financiador_a_rel" ]. financiamiento_n1 := n_trans_le & [ STEM < "financiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_financiamiento_n_rel" ]. financiar_v1 := v_trans_np_le & [ STEM < "financiar" >, SYNSEM.LKEYS.KEYREL.PRED "_financiar_v_rel" ]. financiera_n1 := n_intr_count_le & [ STEM < "financiera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_financiera_n_rel" ] ]. financieramente_x1 := av_i_spr_le & [ STEM < "financieramente" >, SYNSEM.LKEYS.KEYREL.PRED "_financieramente_x_rel" ]. financiero_a1 := a_rel_nonprd_intr_le & [ STEM < "financiero" >, SYNSEM.LKEYS.KEYREL.PRED "_financiero_a_rel" ]. financiero_n1 := n_intr_count_le & [ STEM < "financiero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_financiero_n_rel" ] ]. financista_n1 := n_intr_count_le & [ STEM < "financista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_financista_n_rel" ] ]. finanzas_n1 := n_intr_uncount_pl_le & [ STEM < "finanzas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finanzas_n_rel" ] ]. finarmente_x1 := av_i_spr_le & [ STEM < "finarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_finarmente_x_rel" ]. finca_n1 := n_intr_count_le & [ STEM < "finca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_finca_n_rel" ] ]. fineza_n1 := n_ppcomp_uncount_le & [ STEM < "fineza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fineza_n_rel" ] ]. finiquitar_v := v_trans_np_le & [ STEM < "finiquitar" >, SYNSEM.LKEYS.KEYREL.PRED "_finiquitar_v_rel" ]. finiquito_n1 := n_intr_count_le & [ STEM < "finiquito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finiquito_n_rel" ] ]. finito_a1 := a_rel_nonprd_intr_le & [ STEM < "finito" >, SYNSEM.LKEYS.KEYREL.PRED "_finito_a_rel" ]. finlandés_a1 := a_rel_prd_le & [ STEM < "finlandés" >, SYNSEM.LKEYS.KEYREL.PRED "_finlandés_a_rel" ]. finlandés_n1 := n_intr_count_le & [ STEM < "finlandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_finlandés_n_rel" ] ]. fino_a1 := a_qual_intr_scopal_le & [ STEM < "fino" >, SYNSEM.LKEYS.KEYREL.PRED "_fino_a_rel" ]. finta_n1 := n_intr_count_le & [ STEM < "finta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finta_n_rel" ] ]. fintar_v := v_intr_le & [ STEM < "fintar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_fintar_v_rel" ] ]. finura_n1 := n_ppcomp_uncount_le & [ STEM < "finura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_finura_n_rel" ] ]. finés_a1 := a_rel_prd_le & [ STEM < "finés" >, SYNSEM.LKEYS.KEYREL.PRED "_finés_a_rel" ]. finés_n1 := n_intr_count_le & [ STEM < "finés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_finés_n_rel" ] ]. fiordo_n1 := n_intr_count_le & [ STEM < "fiordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fiordo_n_rel" ] ]. firma_n1 := n_trans_le & [ STEM < "firma" >, SYNSEM.LKEYS.KEYREL.PRED "_firma_n_rel" ]. firmamento_n1 := n_intr_mass_le & [ STEM < "firmamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_firmamento_n_rel" ] ]. firmante_a1 := a_rel_nonprd_intr_le & [ STEM < "firmante" >, SYNSEM.LKEYS.KEYREL.PRED "_firmante_a_rel" ]. firmante_n1 := n_intr_count_le & [ STEM < "firmante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_firmante_n_rel" ] ]. firmar_v1 := v_trans_cp_prop_fin_le & [ STEM < "firmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_firmar_v_rel" ] ]. firmar_v2 := v_trans_np*_le & [ STEM < "firmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_firmar_v_rel" ] ]. firme_a1 := a_qual_intr_scopal_le & [ STEM < "firme" >, SYNSEM.LKEYS.KEYREL.PRED "_firme_a_rel" ]. firme_n1 := n_intr_count_le & [ STEM < "firme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_firme_n_rel" ] ]. firmemente_x1 := av_i_spr_le & [ STEM < "firmemente" >, SYNSEM.LKEYS.KEYREL.PRED "_firmemente_x_rel" ]. firmeza_n1 := n_ppcomp_uncount_le & [ STEM < "firmeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_firmeza_n_rel" ] ]. firmware_n1 := n_intr_uncount_le & [ STEM < "firmware" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_firmware_n_rel" ] ]. fiscal_a1 := a_rel_nonprd_intr_le & [ STEM < "fiscal" >, SYNSEM.LKEYS.KEYREL.PRED "_fiscal_a_rel" ]. fiscal_n1 := n_intr_count_le & [ STEM < "fiscal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fiscal_n_rel" ] ]. fiscalidad_n1 := n_intr_uncount_le & [ STEM < "fiscalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fiscalidad_n_rel" ] ]. fiscalista_n1 := n_intr_count_le & [ STEM < "fiscalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fiscalista_n_rel" ] ]. fiscalización_n1 := n_trans_le & [ STEM < "fiscalización" >, SYNSEM.LKEYS.KEYREL.PRED "_fiscalización_n_rel" ]. fiscalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "fiscalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_fiscalizador_a_rel" ]. fiscalizar_v := v_trans_np_le & [ STEM < "fiscalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_fiscalizar_v_rel" ]. fiscalmente_x1 := av_i_spr_le & [ STEM < "fiscalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fiscalmente_x_rel" ]. fiscalía_n1 := n_intr_count_le & [ STEM < "fiscalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_fiscalía_n_rel" ] ]. fisco_n1 := n_intr_uncount_le & [ STEM < "fisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisco_n_rel" ] ]. fisgón_n1 := n_intr_count_le & [ STEM < "fisgón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fisgón_n_rel" ] ]. fisible_a1 := a_rel_nonprd_intr_le & [ STEM < "fisible" >, SYNSEM.LKEYS.KEYREL.PRED "_fisible_a_rel" ]. fisicoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "fisicoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_fisicoquímico_a_rel" ]. fisiocracia_n1 := n_intr_uncount_le & [ STEM < "fisiocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisiocracia_n_rel" ] ]. fisiocromatina_n1 := n_intr_count_le & [ STEM < "fisiocromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fisiocromatina_n_rel" ] ]. fisiocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "fisiocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_fisiocrático_a_rel" ]. fisiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "fisiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_fisiográfico_a_rel" ]. fisiología_n1 := n_intr_uncount_le & [ STEM < "fisiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisiología_n_rel" ] ]. fisiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fisiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fisiológico_a_rel" ]. fisionable_a1 := a_rel_nonprd_intr_le & [ STEM < "fisionable" >, SYNSEM.LKEYS.KEYREL.PRED "_fisionable_a_rel" ]. fisionar_v := v_trans_np_le & [ STEM < "fisionar" >, SYNSEM.LKEYS.KEYREL.PRED "_fisionar_v_rel" ]. fisiopatológicamente_x1 := av_i_spr_le & [ STEM < "fisiopatológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fisiopatológicamente_x_rel" ]. fisiopatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fisiopatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fisiopatológico_a_rel" ]. fisioquímica_n1 := n_intr_uncount_le & [ STEM < "fisioquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisioquímica_n_rel" ] ]. fisioterapeuta_n1 := n_intr_count_le & [ STEM < "fisioterapeuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fisioterapeuta_n_rel" ] ]. fisioterapia_n1 := n_intr_uncount_le & [ STEM < "fisioterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisioterapia_n_rel" ] ]. fisioterapista_n1 := n_intr_count_le & [ STEM < "fisioterapista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fisioterapista_n_rel" ] ]. fisiócrata_n1 := n_intr_count_le & [ STEM < "fisiócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fisiócrata_n_rel" ] ]. fisiólogo_n1 := n_intr_count_le & [ STEM < "fisiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fisiólogo_n_rel" ] ]. fisión_n1 := n_intr_count_le & [ STEM < "fisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisión_n_rel" ] ]. fisonomía_n1 := n_intr_count_le & [ STEM < "fisonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fisonomía_n_rel" ] ]. fisostigmina_n1 := n_intr_count_le & [ STEM < "fisostigmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fisostigmina_n_rel" ] ]. fistuloplastia_n1 := n_intr_count_le & [ STEM < "fistuloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fistuloplastia_n_rel" ] ]. fisura_n1 := n_intr_count_le & [ STEM < "fisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fisura_n_rel" ] ]. fisurabilidad_n1 := n_trans_le & [ STEM < "fisurabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_fisurabilidad_n_rel" ]. fisuración_n1 := n_trans_le & [ STEM < "fisuración" >, SYNSEM.LKEYS.KEYREL.PRED "_fisuración_n_rel" ]. fisurante_a1 := a_rel_nonprd_intr_le & [ STEM < "fisurante" >, SYNSEM.LKEYS.KEYREL.PRED "_fisurante_a_rel" ]. fitness_n1 := n_intr_mass_le & [ STEM < "fitness" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitness_n_rel" ] ]. fitoaglutinina_n1 := n_intr_count_le & [ STEM < "fitoaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fitoaglutinina_n_rel" ] ]. fitocenosis_n1 := n_intr_uncount_le & [ STEM < "fitocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitocenosis_n_rel" ] ]. fitogeografía_n1 := n_intr_uncount_le & [ STEM < "fitogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitogeografía_n_rel" ] ]. fitográficamente_x1 := av_i_spr_le & [ STEM < "fitográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitográficamente_x_rel" ]. fitográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "fitográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_fitográfico_a_rel" ]. fitohemaglutinina_n1 := n_intr_count_le & [ STEM < "fitohemaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fitohemaglutinina_n_rel" ] ]. fitol_n1 := n_intr_count_le & [ STEM < "fitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fitol_n_rel" ] ]. fitología_n1 := n_intr_uncount_le & [ STEM < "fitología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitología_n_rel" ] ]. fitonadiona_n1 := n_intr_count_le & [ STEM < "fitonadiona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fitonadiona_n_rel" ] ]. fitoparásito_n1 := n_intr_count_le & [ STEM < "fitoparásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fitoparásito_n_rel" ] ]. fitopatología_n1 := n_intr_uncount_le & [ STEM < "fitopatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitopatología_n_rel" ] ]. fitopatológicamente_x1 := av_i_spr_le & [ STEM < "fitopatológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitopatológicamente_x_rel" ]. fitopatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fitopatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fitopatológico_a_rel" ]. fitopatógenamente_x1 := av_i_spr_le & [ STEM < "fitopatógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitopatógenamente_x_rel" ]. fitopatógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "fitopatógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_fitopatógeno_a_rel" ]. fitoplancton_n1 := n_intr_coll_le & [ STEM < "fitoplancton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fitoplancton_n_rel" ] ]. fitoplanctónicamente_x1 := av_i_spr_le & [ STEM < "fitoplanctónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitoplanctónicamente_x_rel" ]. fitoplanctónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fitoplanctónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fitoplanctónico_a_rel" ]. fitoquímicamente_x1 := av_i_spr_le & [ STEM < "fitoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitoquímicamente_x_rel" ]. fitoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "fitoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_fitoquímico_a_rel" ]. fitorregulador_n1 := n_intr_count_le & [ STEM < "fitorregulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fitorregulador_n_rel" ] ]. fitosanitariamente_x1 := av_i_spr_le & [ STEM < "fitosanitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitosanitariamente_x_rel" ]. fitosanitario_a1 := a_rel_nonprd_intr_le & [ STEM < "fitosanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_fitosanitario_a_rel" ]. fitosociología_n1 := n_intr_uncount_le & [ STEM < "fitosociología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitosociología_n_rel" ] ]. fitosterol_n1 := n_intr_count_le & [ STEM < "fitosterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fitosterol_n_rel" ] ]. fitotoxicidad_n1 := n_intr_uncount_le & [ STEM < "fitotoxicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fitotoxicidad_n_rel" ] ]. fitófagamente_x1 := av_i_spr_le & [ STEM < "fitófagamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fitófagamente_x_rel" ]. fitófago_a1 := a_rel_nonprd_intr_le & [ STEM < "fitófago" >, SYNSEM.LKEYS.KEYREL.PRED "_fitófago_a_rel" ]. flabeliforme_a1 := a_qual_intr_ser_le & [ STEM < "flabeliforme" >, SYNSEM.LKEYS.KEYREL.PRED "_flabeliforme_a_rel" ]. flaccidez_n1 := n_ppcomp_uncount_le & [ STEM < "flaccidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flaccidez_n_rel" ] ]. flaco_a1 := a_qual_intr_scopal_le & [ STEM < "flaco" >, SYNSEM.LKEYS.KEYREL.PRED "_flaco_a_rel" ]. flag_n1 := n_intr_count_le & [ STEM < "flag" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flag_n_rel" ] ]. flagelación_n1 := n_trans_le & [ STEM < "flagelación" >, SYNSEM.LKEYS.KEYREL.PRED "_flagelación_n_rel" ]. flagelar_v := v_trans_np_le & [ STEM < "flagelar" >, SYNSEM.LKEYS.KEYREL.PRED "_flagelar_v_rel" ]. flagelina_n1 := n_intr_count_le & [ STEM < "flagelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flagelina_n_rel" ] ]. flagelo_n1 := n_intr_count_le & [ STEM < "flagelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flagelo_n_rel" ] ]. flagrante_a1 := a_qual_intr_scopal_le & [ STEM < "flagrante" >, SYNSEM.LKEYS.KEYREL.PRED "_flagrante_a_rel" ]. flagrantemente_x1 := av_i_spr_le & [ STEM < "flagrantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_flagrantemente_x_rel" ]. flamante_a1 := a_adv_event_le & [ STEM < "flamante" >, SYNSEM.LKEYS.KEYREL.PRED "_flamante_a_rel" ]. flamear_v := v_trans_np_caus_le & [ STEM < "flamear" >, SYNSEM.LKEYS.KEYREL.PRED "_flamear_v_rel" ]. flamenco_a1 := a_rel_nonprd_intr_le & [ STEM < "flamenco" >, SYNSEM.LKEYS.KEYREL.PRED "_flamenco_a_rel" ]. flamenco_n1 := n_intr_count_le & [ STEM < "flamenco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_flamenco_n_rel" ] ]. flan_n1 := n_intr_mass_le & [ STEM < "flan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flan_n_rel" ] ]. flanco_n1 := n_intr_count_le & [ STEM < "flanco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_flanco_n_rel" ] ]. flanquear_v := v_trans_np_le & [ STEM < "flanquear" >, SYNSEM.LKEYS.KEYREL.PRED "_flanquear_v_rel" ]. flanqueo_n1 := n_trans_le & [ STEM < "flanqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_flanqueo_n_rel" ]. flaquear_v := v_intr_io*_le & [ STEM < "flaquear" >, SYNSEM.LKEYS.KEYREL.PRED "_flaquear_v_rel" ]. flaqueza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "flaqueza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flaqueza_n_rel" ] ]. flash_n1 := n_intr_count_le & [ STEM < "flash" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flash_n_rel" ] ]. flashback_n1 := n_intr_count_le & [ STEM < "flashback" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flashback_n_rel" ] ]. flato_n1 := n_intr_count_le & [ STEM < "flato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flato_n_rel" ] ]. flatulencia_n1 := n_intr_uncount_pl_le & [ STEM < "flatulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flatulencia_n_rel" ] ]. flauta_n1 := n_intr_count_le & [ STEM < "flauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flauta_n_rel" ] ]. flautista_n1 := n_intr_count_le & [ STEM < "flautista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_flautista_n_rel" ] ]. flautín_n1 := n_intr_count_le & [ STEM < "flautín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flautín_n_rel" ] ]. flavantreno_n1 := n_intr_mass-or-count_le & [ STEM < "flavantreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_flavantreno_n_rel" ] ]. flavina_n1 := n_intr_count_le & [ STEM < "flavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_flavina_n_rel" ] ]. flavona_n1 := n_intr_count_le & [ STEM < "flavona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_flavona_n_rel" ] ]. flavoproteína_n1 := n_intr_count_le & [ STEM < "flavoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_flavoproteína_n_rel" ] ]. flebitis_n1 := n_intr_uncount_le & [ STEM < "flebitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flebitis_n_rel" ] ]. flebograma_n1 := n_intr_count_le & [ STEM < "flebograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flebograma_n_rel" ] ]. flebotomía_n1 := n_intr_count_le & [ STEM < "flebotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flebotomía_n_rel" ] ]. flecha_n1 := n_intr_count_le & [ STEM < "flecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flecha_n_rel" ] ]. flechazo_n1 := n_intr_count_le & [ STEM < "flechazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flechazo_n_rel" ] ]. fleco_n1 := n_intr_mass-or-count_le & [ STEM < "fleco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fleco_n_rel" ] ]. flector_a1 := a_rel_nonprd_intr_le & [ STEM < "flector" >, SYNSEM.LKEYS.KEYREL.PRED "_flector_a_rel" ]. flector_n1 := n_intr_count_le & [ STEM < "flector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_flector_n_rel" ] ]. fleje_n1 := n_intr_count_le & [ STEM < "fleje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fleje_n_rel" ] ]. flema_n1 := n_intr_mass_le & [ STEM < "flema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flema_n_rel" ] ]. flemáticamente_x1 := av_i_spr_le & [ STEM < "flemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_flemáticamente_x_rel" ]. flemático_a1 := a_rel_nonprd_intr_le & [ STEM < "flemático" >, SYNSEM.LKEYS.KEYREL.PRED "_flemático_a_rel" ]. flemón_n1 := n_intr_count_le & [ STEM < "flemón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flemón_n_rel" ] ]. fleo_n1 := n_intr_mass_le & [ STEM < "fleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fleo_n_rel" ] ]. flequillo_n1 := n_ppcomp_uncount_le & [ STEM < "flequillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_flequillo_n_rel" ] ]. fletador_n1 := n_subj-nom_le & [ STEM < "fletador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fletador_n_rel" ] ]. fletamento_n1 := n_trans_le & [ STEM < "fletamento" >, SYNSEM.LKEYS.KEYREL.PRED "_fletamento_n_rel" ]. fletamiento_n1 := n_intr_uncount_le & [ STEM < "fletamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fletamiento_n_rel" ] ]. fletante_n1 := n_intr_count_le & [ STEM < "fletante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_fletante_n_rel" ] ]. fletar_v := v_trans_np_le & [ STEM < "fletar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_fletar_v_rel" ] ]. flete_n1 := n_intr_count_le & [ STEM < "flete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_flete_n_rel" ] ]. flexar_v := v_trans_np_le & [ STEM < "flexar" >, SYNSEM.LKEYS.KEYREL.PRED "_flexar_v_rel" ]. flexibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "flexibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flexibilidad_n_rel" ] ]. flexibilización_n1 := n_trans_le & [ STEM < "flexibilización" >, SYNSEM.LKEYS.KEYREL.PRED "_flexibilización_n_rel" ]. flexibilizar_v := v_trans_np_le & [ STEM < "flexibilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_flexibilizar_v_rel" ]. flexible_a1 := a_qual_intr_scopal_le & [ STEM < "flexible" >, SYNSEM.LKEYS.KEYREL.PRED "_flexible_a_rel" ]. flexiblemente_x1 := av_i_spr_le & [ STEM < "flexiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_flexiblemente_x_rel" ]. flexionable_a1 := a_rel_prd_le & [ STEM < "flexionable" >, SYNSEM.LKEYS.KEYREL.PRED "_flexionable_a_rel" ]. flexional_a1 := a_rel_nonprd_intr_le & [ STEM < "flexional" >, SYNSEM.LKEYS.KEYREL.PRED "_flexional_a_rel" ]. flexionar_v1 := v_intr_le & [ STEM < "flexionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_sem, PRED "_flexionar_v_rel" ] ]. flexionar_v2 := v_trans_np_le & [ STEM < "flexionar" >, SYNSEM.LKEYS.KEYREL.PRED "_flexionar_v_rel" ]. flexivo_a1 := a_rel_nonprd_intr_le & [ STEM < "flexivo" >, SYNSEM.LKEYS.KEYREL.PRED "_flexivo_a_rel" ]. flexión_n1 := n_trans_le & [ STEM < "flexión" >, SYNSEM.LKEYS.KEYREL.PRED "_flexión_n_rel" ]. flexo_n1 := n_intr_count_le & [ STEM < "flexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flexo_n_rel" ] ]. flexor_a1 := a_rel_nonprd_intr_le & [ STEM < "flexor" >, SYNSEM.LKEYS.KEYREL.PRED "_flexor_a_rel" ]. flexura_n1 := n_intr_count_le & [ STEM < "flexura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flexura_n_rel" ] ]. flexómetro_n1 := n_intr_count_le & [ STEM < "flexómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flexómetro_n_rel" ] ]. flictenular_a1 := a_rel_nonprd_intr_le & [ STEM < "flictenular" >, SYNSEM.LKEYS.KEYREL.PRED "_flictenular_a_rel" ]. flictenulosis_n1 := n_intr_uncount_le & [ STEM < "flictenulosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flictenulosis_n_rel" ] ]. flip_n1 := n_intr_count_le & [ STEM < "flip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flip_n_rel" ] ]. flipar_v1 := v_intr_io*_le & [ STEM < "flipar" >, SYNSEM.LKEYS.KEYREL.PRED "_flipar_v_rel" ]. flipar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "flipar" >, SYNSEM.LKEYS.KEYREL.PRED "_flipar_v_rel" ]. flirtear_v := v_intr_mrkd_np*_le & [ STEM < "flirtear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_flirtear_v_rel" ] ]. flirteo_n1 := n_intr_uncount_le & [ STEM < "flirteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flirteo_n_rel" ] ]. floca_n1 := n_intr_count_le & [ STEM < "floca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_floca_n_rel" ] ]. floculación_n1 := n_intr_uncount_le & [ STEM < "floculación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_floculación_n_rel" ] ]. floculador_n1 := n_intr_count_le & [ STEM < "floculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_floculador_n_rel" ] ]. floculante_n1 := n_intr_count_le & [ STEM < "floculante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_floculante_n_rel" ] ]. flocular_v := v_trans_np_caus_int_le & [ STEM < "flocular" >, SYNSEM.LKEYS.KEYREL.PRED "_flocular_v_rel" ]. floculentamente_x1 := av_i_spr_le & [ STEM < "floculentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_floculentamente_x_rel" ]. floculente_a1 := a_rel_nonprd_intr_le & [ STEM < "floculente" >, SYNSEM.LKEYS.KEYREL.PRED "_floculente_a_rel" ]. floculento_a1 := a_rel_nonprd_intr_le & [ STEM < "floculento" >, SYNSEM.LKEYS.KEYREL.PRED "_floculento_a_rel" ]. floculonodular_a1 := a_rel_nonprd_intr_le & [ STEM < "floculonodular" >, SYNSEM.LKEYS.KEYREL.PRED "_floculonodular_a_rel" ]. floema_n1 := n_intr_count_le & [ STEM < "floema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_floema_n_rel" ] ]. flogopita_n1 := n_intr_count_le & [ STEM < "flogopita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_flogopita_n_rel" ] ]. flogístico_a1 := a_rel_nonprd_intr_le & [ STEM < "flogístico" >, SYNSEM.LKEYS.KEYREL.PRED "_flogístico_a_rel" ]. flojear_v := v_unacc_le & [ STEM < "flojear" >, SYNSEM.LKEYS.KEYREL.PRED "_flojear_v_rel" ]. flojedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "flojedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flojedad_n_rel" ] ]. flojel_n1 := n_intr_mass_le & [ STEM < "flojel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flojel_n_rel" ] ]. flojo_a1 := a_qual_intr_scopal_le & [ STEM < "flojo" >, SYNSEM.LKEYS.KEYREL.PRED "_flojo_a_rel" ]. flor_n1 := n_intr_count_le & [ STEM < "flor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_flor_n_rel" ] ]. flora_n1 := n_intr_coll_le & [ STEM < "flora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_flora_n_rel" ] ]. floración_n1 := n_event-result_intr_le & [ STEM < "floración" >, SYNSEM.LKEYS.KEYREL.PRED "_floración_n_rel" ]. floral_a1 := a_rel_nonprd_intr_le & [ STEM < "floral" >, SYNSEM.LKEYS.KEYREL.PRED "_floral_a_rel" ]. florecer_v := v_unacc_perf_le & [ STEM < "florecer" >, SYNSEM.LKEYS.KEYREL.PRED "_florecer_v_rel" ]. floreciente_a1 := a_qual_intr_estar_le & [ STEM < "floreciente" >, SYNSEM.LKEYS.KEYREL.PRED "_floreciente_a_rel" ]. florecimiento_n1 := n_event-result_intr_le & [ STEM < "florecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_florecimiento_n_rel" ]. florentino_a1 := a_rel_nonprd_intr_le & [ STEM < "florentino" >, SYNSEM.LKEYS.KEYREL.PRED "_florentino_a_rel" ]. florentino_n1 := n_intr_count_le & [ STEM < "florentino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_florentino_n_rel" ] ]. florero_n1 := n_intr_count_le & [ STEM < "florero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_florero_n_rel" ] ]. floresta_n1 := n_intr_count_le & [ STEM < "floresta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_floresta_n_rel" ] ]. florete_n1 := n_intr_count_le & [ STEM < "florete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_florete_n_rel" ] ]. floretista_n1 := n_intr_count_le & [ STEM < "floretista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_floretista_n_rel" ] ]. floricultor_n1 := n_intr_count_le & [ STEM < "floricultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_floricultor_n_rel" ] ]. floricultura_n1 := n_intr_uncount_le & [ STEM < "floricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_floricultura_n_rel" ] ]. florido_a1 := a_qual_intr_scopal_le & [ STEM < "florido" >, SYNSEM.LKEYS.KEYREL.PRED "_florido_a_rel" ]. florista_n1 := n_intr_count_le & [ STEM < "florista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_florista_n_rel" ] ]. floristería_n1 := n_intr_mass_le & [ STEM < "floristería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_floristería_n_rel" ] ]. floritura_n1 := n_intr_count_le & [ STEM < "floritura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_floritura_n_rel" ] ]. floroglucinol_n1 := n_intr_count_le & [ STEM < "floroglucinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_floroglucinol_n_rel" ] ]. florín_n1 := n_intr_count_le & [ STEM < "florín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_florín_n_rel" ] ]. flota_n1 := n_intr_coll_le & [ STEM < "flota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flota_n_rel" ] ]. flotabilidad_n1 := n_intr_uncount_le & [ STEM < "flotabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_flotabilidad_n_rel" ] ]. flotable_a1 := a_rel_prd_le & [ STEM < "flotable" >, SYNSEM.LKEYS.KEYREL.PRED "_flotable_a_rel" ]. flotación_n1 := n_event-result_intr_le & [ STEM < "flotación" >, SYNSEM.LKEYS.KEYREL.PRED "_flotación_n_rel" ]. flotador_a1 := a_rel_nonprd_intr_le & [ STEM < "flotador" >, SYNSEM.LKEYS.KEYREL.PRED "_flotador_a_rel" ]. flotador_n1 := n_intr_count_le & [ STEM < "flotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flotador_n_rel" ] ]. flotante_a1 := a_rel_nonprd_intr_le & [ STEM < "flotante" >, SYNSEM.LKEYS.KEYREL.PRED "_flotante_a_rel" ]. flotar_v := v_unacc_lcomp_loc*_le & [ STEM < "flotar" >, SYNSEM.LKEYS.KEYREL.PRED "_flotar_v_rel" ]. flotilla_n1 := n_intr_coll_le & [ STEM < "flotilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flotilla_n_rel" ] ]. fluctuación_n1 := n_event-result_intr_le & [ STEM < "fluctuación" >, SYNSEM.LKEYS.KEYREL.PRED "_fluctuación_n_rel" ]. fluctuante_a1 := a_qual_intr_scopal_le & [ STEM < "fluctuante" >, SYNSEM.LKEYS.KEYREL.PRED "_fluctuante_a_rel" ]. fluctuar_v := v_intr_mrkd_np*_le & [ STEM < "fluctuar" >, SYNSEM.LKEYS [ --COMPKEY _entre_p_sel_rel, KEYREL.PRED "_fluctuar_v_rel" ] ]. fluencia_n1 := n_event-result_intr_le & [ STEM < "fluencia" >, SYNSEM.LKEYS.KEYREL.PRED "_fluencia_n_rel" ]. fluente_a1 := a_qual_intr_scopal_le & [ STEM < "fluente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluente_a_rel" ]. fluentemente_x1 := av_i_spr_le & [ STEM < "fluentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluentemente_x_rel" ]. fluidal_a1 := a_rel_nonprd_intr_le & [ STEM < "fluidal" >, SYNSEM.LKEYS.KEYREL.PRED "_fluidal_a_rel" ]. fluidalmente_x1 := av_i_spr_le & [ STEM < "fluidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluidalmente_x_rel" ]. fluidez_n1 := n_ppcomp_uncount_le & [ STEM < "fluidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fluidez_n_rel" ] ]. fluidificación_n1 := n_trans_le & [ STEM < "fluidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_fluidificación_n_rel" ]. fluidificante_n1 := n_intr_count_le & [ STEM < "fluidificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fluidificante_n_rel" ] ]. fluidificar_v := v_trans_np_le & [ STEM < "fluidificar" >, SYNSEM.LKEYS.KEYREL.PRED "_fluidificar_v_rel" ]. fluidización_n1 := n_trans_le & [ STEM < "fluidización" >, SYNSEM.LKEYS.KEYREL.PRED "_fluidización_n_rel" ]. fluido_n1 := n_intr_uncount_pl_le & [ STEM < "fluido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fluido_n_rel" ] ]. fluir_v := v_intr_le & [ STEM < "fluir" >, SYNSEM.LKEYS.KEYREL.PRED "_fluir_v_rel" ]. flujo_n1 := n_event-result_intr_le & [ STEM < "flujo" >, SYNSEM.LKEYS.KEYREL.PRED "_flujo_n_rel" ]. fluminense_n1 := n_intr_count_le & [ STEM < "fluminense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fluminense_n_rel" ] ]. fluoacetato_n1 := n_intr_count_le & [ STEM < "fluoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoacetato_n_rel" ] ]. fluoacetofenona_n1 := n_intr_count_le & [ STEM < "fluoacetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoacetofenona_n_rel" ] ]. fluoanilina_n1 := n_intr_count_le & [ STEM < "fluoanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoanilina_n_rel" ] ]. fluobenceno_n1 := n_intr_count_le & [ STEM < "fluobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluobenceno_n_rel" ] ]. fluobórico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluobórico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluobórico_a_rel" ]. fluocarbono_n1 := n_intr_count_le & [ STEM < "fluocarbono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluocarbono_n_rel" ] ]. fluofosfato_n1 := n_intr_count_le & [ STEM < "fluofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluofosfato_n_rel" ] ]. fluofosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluofosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluofosfórico_a_rel" ]. fluoración_n1 := n_trans_le & [ STEM < "fluoración" >, SYNSEM.LKEYS.KEYREL.PRED "_fluoración_n_rel" ]. fluorapatita_n1 := n_intr_count_le & [ STEM < "fluorapatita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluorapatita_n_rel" ] ]. fluorescencia_n1 := n_intr_uncount_pl_le & [ STEM < "fluorescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fluorescencia_n_rel" ] ]. fluorescente_a1 := a_qual_intr_ser_le & [ STEM < "fluorescente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluorescente_a_rel" ]. fluorescente_n1 := n_intr_count_le & [ STEM < "fluorescente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fluorescente_n_rel" ] ]. fluorescer_v := v_intr_le & [ STEM < "fluorescer" >, SYNSEM.LKEYS.KEYREL.PRED "_fluorescer_v_rel" ]. fluoresceína_n1 := n_intr_count_le & [ STEM < "fluoresceína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoresceína_n_rel" ] ]. fluoretileno_n1 := n_intr_count_le & [ STEM < "fluoretileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoretileno_n_rel" ] ]. fluorhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluorhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluorhídrico_a_rel" ]. fluorita_n1 := n_intr_mass_le & [ STEM < "fluorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluorita_n_rel" ] ]. fluorización_n1 := n_trans_le & [ STEM < "fluorización" >, SYNSEM.LKEYS.KEYREL.PRED "_fluorización_n_rel" ]. fluorocromo_n1 := n_intr_mass-or-count_le & [ STEM < "fluorocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fluorocromo_n_rel" ] ]. fluorofosfato_n1 := n_intr_mass_le & [ STEM < "fluorofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluorofosfato_n_rel" ] ]. fluorografía_n1 := n_intr_count_le & [ STEM < "fluorografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fluorografía_n_rel" ] ]. fluoroscópicamente_x1 := av_i_spr_le & [ STEM < "fluoroscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluoroscópicamente_x_rel" ]. fluoroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluoroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluoroscópico_a_rel" ]. fluorosis_n1 := n_intr_count_le & [ STEM < "fluorosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluorosis_n_rel" ] ]. fluoruro_n1 := n_intr_count_le & [ STEM < "fluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoruro_n_rel" ] ]. fluorímetro_n1 := n_intr_count_le & [ STEM < "fluorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fluorímetro_n_rel" ] ]. fluosilicato_n1 := n_intr_mass_le & [ STEM < "fluosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fluosilicato_n_rel" ] ]. fluosilícico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluosilícico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluosilícico_a_rel" ]. fluosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluosulfónico_a_rel" ]. fluoteno_n1 := n_intr_count_le & [ STEM < "fluoteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoteno_n_rel" ] ]. fluoxetina_n1 := n_intr_mass_le & [ STEM < "fluoxetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluoxetina_n_rel" ] ]. fluvial_a1 := a_rel_nonprd_intr_le & [ STEM < "fluvial" >, SYNSEM.LKEYS.KEYREL.PRED "_fluvial_a_rel" ]. fluvialmente_x1 := av_i_spr_le & [ STEM < "fluvialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluvialmente_x_rel" ]. fluvioglaciar_a1 := a_rel_nonprd_intr_le & [ STEM < "fluvioglaciar" >, SYNSEM.LKEYS.KEYREL.PRED "_fluvioglaciar_a_rel" ]. fluvisol_n1 := n_intr_count_le & [ STEM < "fluvisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fluvisol_n_rel" ] ]. fluxión_n1 := n_intr_count_le & [ STEM < "fluxión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fluxión_n_rel" ] ]. fluxómetro_n1 := n_intr_count_le & [ STEM < "fluxómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fluxómetro_n_rel" ] ]. fluyente_a1 := a_qual_intr_scopal_le & [ STEM < "fluyente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluyente_a_rel" ]. fluóricamente_x1 := av_i_spr_le & [ STEM < "fluóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fluóricamente_x_rel" ]. fluórico_a1 := a_rel_nonprd_intr_le & [ STEM < "fluórico" >, SYNSEM.LKEYS.KEYREL.PRED "_fluórico_a_rel" ]. fláccido_a1 := a_qual_intr_scopal_le & [ STEM < "fláccido" >, SYNSEM.LKEYS.KEYREL.PRED "_fláccido_a_rel" ]. flóculo_n1 := n_intr_count_le & [ STEM < "flóculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_flóculo_n_rel" ] ]. flúor_n1 := n_intr_mass_le & [ STEM < "flúor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_flúor_n_rel" ] ]. fobia_n1 := n_intr_mass-or-count_le & [ STEM < "fobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fobia_n_rel" ] ]. foca_n1 := n_intr_count_le & [ STEM < "foca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_foca_n_rel" ] ]. focal_a1 := a_rel_nonprd_intr_le & [ STEM < "focal" >, SYNSEM.LKEYS.KEYREL.PRED "_focal_a_rel" ]. focalizar_v := v_trans_np_le & [ STEM < "focalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_focalizar_v_rel" ]. focalmente_x1 := av_i_spr_le & [ STEM < "focalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_focalmente_x_rel" ]. foco_n1 := n_intr_count_le & [ STEM < "foco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_foco_n_rel" ] ]. focómetro_n1 := n_intr_count_le & [ STEM < "focómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_focómetro_n_rel" ] ]. fofo_a1 := a_qual_intr_scopal_le & [ STEM < "fofo" >, SYNSEM.LKEYS.KEYREL.PRED "_fofo_a_rel" ]. fogonadura_n1 := n_intr_count_le & [ STEM < "fogonadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fogonadura_n_rel" ] ]. fogonazo_n1 := n_intr_count_le & [ STEM < "fogonazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fogonazo_n_rel" ] ]. fogosidad_n1 := n_ppcomp_mass_le & [ STEM < "fogosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fogosidad_n_rel" ] ]. fogoso_a1 := a_qual_intr_scopal_le & [ STEM < "fogoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fogoso_a_rel" ]. fogueo_n1 := n_trans_le & [ STEM < "fogueo" >, SYNSEM.LKEYS.KEYREL.PRED "_fogueo_n_rel" ]. fogón_n1 := n_intr_count_le & [ STEM < "fogón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fogón_n_rel" ] ]. foidítico_a1 := a_rel_nonprd_intr_le & [ STEM < "foidítico" >, SYNSEM.LKEYS.KEYREL.PRED "_foidítico_a_rel" ]. folclor_n1 := n_intr_uncount_le & [ STEM < "folclor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_folclor_n_rel" ] ]. folclore_n1 := n_intr_uncount_le & [ STEM < "folclore" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_folclore_n_rel" ] ]. folclorista_n1 := n_intr_count_le & [ STEM < "folclorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_folclorista_n_rel" ] ]. folclórico_a1 := a_rel_nonprd_intr_le & [ STEM < "folclórico" >, SYNSEM.LKEYS.KEYREL.PRED "_folclórico_a_rel" ]. foliación_n1 := n_trans_le & [ STEM < "foliación" >, SYNSEM.LKEYS.KEYREL.PRED "_foliación_n_rel" ]. foliar_a1 := a_rel_nonprd_intr_le & [ STEM < "foliar" >, SYNSEM.LKEYS.KEYREL.PRED "_foliar_a_rel" ]. foliar_v := v_trans_np_le & [ STEM < "foliar" >, SYNSEM.LKEYS.KEYREL.PRED "_foliar_v_rel" ]. folicular_a1 := a_rel_nonprd_intr_le & [ STEM < "folicular" >, SYNSEM.LKEYS.KEYREL.PRED "_folicular_a_rel" ]. foliculitis_n1 := n_intr_uncount_le & [ STEM < "foliculitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_foliculitis_n_rel" ] ]. folio_n1 := n_intr_count_le & [ STEM < "folio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_folio_n_rel" ] ]. folklore_n1 := n_intr_uncount_le & [ STEM < "folklore" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_folklore_n_rel" ] ]. folklorista_n1 := n_intr_count_le & [ STEM < "folklorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_folklorista_n_rel" ] ]. folklóricamente_x1 := av_i_spr_le & [ STEM < "folklóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_folklóricamente_x_rel" ]. folklórico_a1 := a_rel_nonprd_intr_le & [ STEM < "folklórico" >, SYNSEM.LKEYS.KEYREL.PRED "_folklórico_a_rel" ]. follaje_n1 := n_intr_coll_le & [ STEM < "follaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_follaje_n_rel" ] ]. folleto_n1 := n_intr_count_le & [ STEM < "folleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_folleto_n_rel" ] ]. folletín_n1 := n_intr_count_le & [ STEM < "folletín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_folletín_n_rel" ] ]. follón_n1 := n_intr_mass-or-count_le & [ STEM < "follón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_follón_n_rel" ] ]. folículo_n1 := n_intr_count_le & [ STEM < "folículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_folículo_n_rel" ] ]. fomentación_n1 := n_trans_le & [ STEM < "fomentación" >, SYNSEM.LKEYS.KEYREL.PRED "_fomentación_n_rel" ]. fomentar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "fomentar" >, SYNSEM.LKEYS.KEYREL.PRED "_fomentar_v_rel" ]. fomentar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "fomentar" >, SYNSEM.LKEYS.KEYREL.PRED "_fomentar_v_rel" ]. fomentar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "fomentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_fomentar_v_rel" ] ]. fomentar_v4 := v_trans_np_le & [ STEM < "fomentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_fomentar_v_rel" ] ]. fomento_n1 := n_trans_le & [ STEM < "fomento" >, SYNSEM.LKEYS.KEYREL.PRED "_fomento_n_rel" ]. fonación_n1 := n_intr_uncount_le & [ STEM < "fonación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonación_n_rel" ] ]. fonatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "fonatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_fonatorio_a_rel" ]. fonda_n1 := n_intr_count_le & [ STEM < "fonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fonda_n_rel" ] ]. fondeadero_n1 := n_intr_count_le & [ STEM < "fondeadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fondeadero_n_rel" ] ]. fondear_v1 := v_trans_np_le & [ STEM < "fondear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_pot, ARG2.SORT cnc_pot, PRED "_fondear_v_rel" ] ]. fondear_v2 := v_unacc_lcomp_loc*_le & [ STEM < "fondear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_fondear_v_rel" ] ]. fondeo_n1 := n_trans_le & [ STEM < "fondeo" >, SYNSEM.LKEYS.KEYREL.PRED "_fondeo_n_rel" ]. fondista_n1 := n_intr_count_le & [ STEM < "fondista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fondista_n_rel" ] ]. fondo_n1 := n_intr_count_le & [ STEM < "fondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_fondo_n_rel" ] ]. fondue_n1 := n_intr_mass_le & [ STEM < "fondue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fondue_n_rel" ] ]. fonema_n1 := n_intr_count_le & [ STEM < "fonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonema_n_rel" ] ]. fonemáticamente_x1 := av_i_spr_le & [ STEM < "fonemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fonemáticamente_x_rel" ]. fonemático_a1 := a_rel_nonprd_intr_le & [ STEM < "fonemático" >, SYNSEM.LKEYS.KEYREL.PRED "_fonemático_a_rel" ]. fonendoscopio_n1 := n_intr_count_le & [ STEM < "fonendoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fonendoscopio_n_rel" ] ]. fonetista_n1 := n_intr_count_le & [ STEM < "fonetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fonetista_n_rel" ] ]. foniatra_n1 := n_intr_count_le & [ STEM < "foniatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_foniatra_n_rel" ] ]. foniatría_n1 := n_intr_uncount_le & [ STEM < "foniatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_foniatría_n_rel" ] ]. fonio_n := n_intr_count_le & [ STEM < "fonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_fonio_n_rel" ] ]. fonocirugía_n1 := n_intr_count_le & [ STEM < "fonocirugía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonocirugía_n_rel" ] ]. fonoestilística_n1 := n_intr_uncount_le & [ STEM < "fonoestilística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonoestilística_n_rel" ] ]. fonoestilísticamente_x1 := av_i_spr_le & [ STEM < "fonoestilísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fonoestilísticamente_x_rel" ]. fonoestilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "fonoestilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_fonoestilístico_a_rel" ]. fonografía_n1 := n_intr_uncount_pl_le & [ STEM < "fonografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonografía_n_rel" ] ]. fonograma_n1 := n_intr_count_le & [ STEM < "fonograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fonograma_n_rel" ] ]. fonográficamente_x1 := av_i_spr_le & [ STEM < "fonográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fonográficamente_x_rel" ]. fonográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "fonográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_fonográfico_a_rel" ]. fonologista_n1 := n_intr_count_le & [ STEM < "fonologista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fonologista_n_rel" ] ]. fonologización_n1 := n_intr_count_le & [ STEM < "fonologización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonologización_n_rel" ] ]. fonología_n1 := n_intr_uncount_le & [ STEM < "fonología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonología_n_rel" ] ]. fonológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fonológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fonológico_a_rel" ]. fonometría_n1 := n_intr_count_le & [ STEM < "fonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonometría_n_rel" ] ]. fonométricamente_x1 := av_i_spr_le & [ STEM < "fonométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fonométricamente_x_rel" ]. fonométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fonométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fonométrico_a_rel" ]. fonoquímica_n1 := n_intr_uncount_le & [ STEM < "fonoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonoquímica_n_rel" ] ]. fontanela_n1 := n_ppcomp_count_le & [ STEM < "fontanela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_fontanela_n_rel" ] ]. fontanero_n1 := n_intr_count_le & [ STEM < "fontanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fontanero_n_rel" ] ]. fontanería_n1 := n_intr_uncount_le & [ STEM < "fontanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fontanería_n_rel" ] ]. fonémico_a1 := a_rel_nonprd_intr_le & [ STEM < "fonémico" >, SYNSEM.LKEYS.KEYREL.PRED "_fonémico_a_rel" ]. fonética_n1 := n_intr_uncount_le & [ STEM < "fonética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fonética_n_rel" ] ]. fonéticamente_x1 := av_i_spr_le & [ STEM < "fonéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fonéticamente_x_rel" ]. fonético_a1 := a_rel_nonprd_intr_le & [ STEM < "fonético" >, SYNSEM.LKEYS.KEYREL.PRED "_fonético_a_rel" ]. fonógrafo_n1 := n_intr_count_le & [ STEM < "fonógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fonógrafo_n_rel" ] ]. fonólogo_n1 := n_intr_count_le & [ STEM < "fonólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fonólogo_n_rel" ] ]. footing_n1 := n_intr_mass_le & [ STEM < "footing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_footing_n_rel" ] ]. foque_n1 := n_intr_count_le & [ STEM < "foque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foque_n_rel" ] ]. foral_a1 := a_rel_nonprd_intr_le & [ STEM < "foral" >, SYNSEM.LKEYS.KEYREL.PRED "_foral_a_rel" ]. foralismo_n1 := n_intr_uncount_le & [ STEM < "foralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_foralismo_n_rel" ] ]. foramen_n1 := n_intr_count_le & [ STEM < "foramen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foramen_n_rel" ] ]. foramina_n1 := n_intr_uncount_pl_le & [ STEM < "foramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_foramina_n_rel" ] ]. foraminal_a1 := a_rel_nonprd_intr_le & [ STEM < "foraminal" >, SYNSEM.LKEYS.KEYREL.PRED "_foraminal_a_rel" ]. forastero_n1 := n_intr_count_le & [ STEM < "forastero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_forastero_n_rel" ] ]. forbólico_a1 := a_rel_nonprd_intr_le & [ STEM < "forbólico" >, SYNSEM.LKEYS.KEYREL.PRED "_forbólico_a_rel" ]. forcejear_v := v_intr_mrkd_np*_le & [ STEM < "forcejear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_forcejear_v_rel" ] ]. forcejeo_n1 := n_result_intr_le & [ STEM < "forcejeo" >, SYNSEM.LKEYS.KEYREL.PRED "_forcejeo_n_rel" ]. forense_a1 := a_rel_nonprd_intr_le & [ STEM < "forense" >, SYNSEM.LKEYS.KEYREL.PRED "_forense_a_rel" ]. forense_n1 := n_intr_count_le & [ STEM < "forense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_forense_n_rel" ] ]. forestación_n1 := n_trans_le & [ STEM < "forestación" >, SYNSEM.LKEYS.KEYREL.PRED "_forestación_n_rel" ]. forestal_a1 := a_rel_nonprd_intr_le & [ STEM < "forestal" >, SYNSEM.LKEYS.KEYREL.PRED "_forestal_a_rel" ]. forestar_v := v_trans_np_le & [ STEM < "forestar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_forestar_v_rel" ] ]. forfait_n1 := n_intr_count_le & [ STEM < "forfait" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forfait_n_rel" ] ]. foriascopio_n1 := n_intr_count_le & [ STEM < "foriascopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foriascopio_n_rel" ] ]. forillo_n1 := n_intr_count_le & [ STEM < "forillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forillo_n_rel" ] ]. forja_n1 := n_intr_count_le & [ STEM < "forja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forja_n_rel" ] ]. forjabilidad_n1 := n_trans_le & [ STEM < "forjabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_forjabilidad_n_rel" ]. forjador_n1 := n_subj-nom_le & [ STEM < "forjador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_forjador_n_rel" ] ]. forjadura_n1 := n_trans_le & [ STEM < "forjadura" >, SYNSEM.LKEYS.KEYREL.PRED "_forjadura_n_rel" ]. forjar_v := v_trans_np_le & [ STEM < "forjar" >, SYNSEM.LKEYS.KEYREL.PRED "_forjar_v_rel" ]. forma_n1 := n_intr_count_le & [ STEM < "forma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_forma_n_rel" ] ]. formabilidad_n1 := n_intr_uncount_le & [ STEM < "formabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_formabilidad_n_rel" ] ]. formación_n1 := n_trans_le & [ STEM < "formación" >, SYNSEM.LKEYS.KEYREL.PRED "_formación_n_rel" ]. formador_a1 := a_rel_nonprd_intr_le & [ STEM < "formador" >, SYNSEM.LKEYS.KEYREL.PRED "_formador_a_rel" ]. formador_n1 := n_intr_count_le & [ STEM < "formador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_formador_n_rel" ] ]. formadora_n1 := n_intr_count_le & [ STEM < "formadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_formadora_n_rel" ] ]. formal_a1 := a_qual_intr_scopal_le & [ STEM < "formal" >, SYNSEM.LKEYS.KEYREL.PRED "_formal_a_rel" ]. formaldehído_n1 := n_intr_mass_le & [ STEM < "formaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_formaldehído_n_rel" ] ]. formalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "formalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_formalidad_n_rel" ] ]. formalina_n1 := n_intr_count_le & [ STEM < "formalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_formalina_n_rel" ] ]. formalismo_n1 := n_intr_mass-or-count_le & [ STEM < "formalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_formalismo_n_rel" ] ]. formalista_a1 := a_qual_intr_scopal_le & [ STEM < "formalista" >, SYNSEM.LKEYS.KEYREL.PRED "_formalista_a_rel" ]. formalista_n1 := n_intr_count_le & [ STEM < "formalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_formalista_n_rel" ] ]. formalización_n1 := n_trans_le & [ STEM < "formalización" >, SYNSEM.LKEYS.KEYREL.PRED "_formalización_n_rel" ]. formalizar_v := v_trans_np_le & [ STEM < "formalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_formalizar_v_rel" ]. formalmente_x1 := av_i_spr_le & [ STEM < "formalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_formalmente_x_rel" ]. formamida_n1 := n_intr_count_le & [ STEM < "formamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_formamida_n_rel" ] ]. formateador_n1 := n_intr_count_le & [ STEM < "formateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_formateador_n_rel" ] ]. formatear_v := v_trans_np_le & [ STEM < "formatear" >, SYNSEM.LKEYS.KEYREL.PRED "_formatear_v_rel" ]. formateo_n1 := n_trans_le & [ STEM < "formateo" >, SYNSEM.LKEYS.KEYREL.PRED "_formateo_n_rel" ]. formativamente_x1 := av_i_spr_le & [ STEM < "formativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_formativamente_x_rel" ]. formativo_a1 := a_rel_nonprd_intr_le & [ STEM < "formativo" >, SYNSEM.LKEYS.KEYREL.PRED "_formativo_a_rel" ]. formato_n1 := n_intr_count_le & [ STEM < "formato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_formato_n_rel" ] ]. formiato_n1 := n_intr_count_le & [ STEM < "formiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_formiato_n_rel" ] ]. formicina_n1 := n_intr_count_le & [ STEM < "formicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_formicina_n_rel" ] ]. formidable_a1 := a_qual_intr_scopal_le & [ STEM < "formidable" >, SYNSEM.LKEYS.KEYREL.PRED "_formidable_a_rel" ]. formocresol_n1 := n_intr_count_le & [ STEM < "formocresol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_formocresol_n_rel" ] ]. formol_n1 := n_intr_mass_le & [ STEM < "formol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_formol_n_rel" ] ]. formulación_n1 := n_trans_le & [ STEM < "formulación" >, SYNSEM.LKEYS.KEYREL.PRED "_formulación_n_rel" ]. formular_v := v_trans_np_le & [ STEM < "formular" >, SYNSEM.LKEYS.KEYREL.PRED "_formular_v_rel" ]. formulario_n1 := n_intr_count_le & [ STEM < "formulario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_formulario_n_rel" ] ]. formón_n1 := n_intr_count_le & [ STEM < "formón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_formón_n_rel" ] ]. fornicación_n1 := n_result_intr_le & [ STEM < "fornicación" >, SYNSEM.LKEYS.KEYREL.PRED "_fornicación_n_rel" ]. fornicador_n1 := n_subj-nom_le & [ STEM < "fornicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fornicador_n_rel" ] ]. fornicar_v := v_intr_le & [ STEM < "fornicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_fornicar_v_rel" ] ]. fornitura_n1 := n_intr_count_le & [ STEM < "fornitura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fornitura_n_rel" ] ]. foro_n1 := n_intr_count_le & [ STEM < "foro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_foro_n_rel" ] ]. forofismo_n1 := n_intr_count_le & [ STEM < "forofismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_forofismo_n_rel" ] ]. forofo_n1 := n_intr_count_le & [ STEM < "forofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_forofo_n_rel" ] ]. forona_n1 := n_intr_count_le & [ STEM < "forona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_forona_n_rel" ] ]. forraje_n1 := n_intr_mass_le & [ STEM < "forraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forraje_n_rel" ] ]. forrajero_a1 := a_rel_nonprd_intr_le & [ STEM < "forrajero" >, SYNSEM.LKEYS.KEYREL.PRED "_forrajero_a_rel" ]. forrar_v := v_trans_np_mrkd_np*_le & [ STEM < "forrar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_forrar_v_rel" ] ]. forro_n1 := n_intr_mass_le & [ STEM < "forro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forro_n_rel" ] ]. forsitia_n1 := n_intr_count_le & [ STEM < "forsitia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_forsitia_n_rel" ] ]. forsterita_n1 := n_intr_count_le & [ STEM < "forsterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_forsterita_n_rel" ] ]. fortalecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "fortalecer" >, SYNSEM.LKEYS.KEYREL.PRED "_fortalecer_v_rel" ]. fortalecer_v2 := v_trans_np_le & [ STEM < "fortalecer" >, SYNSEM.LKEYS.KEYREL.PRED "_fortalecer_v_rel" ]. fortalecimiento_n1 := n_trans_le & [ STEM < "fortalecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fortalecimiento_n_rel" ]. fortaleza_n1 := n_intr_mass_le & [ STEM < "fortaleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_fortaleza_n_rel" ] ]. fortificación_n1 := n_trans_le & [ STEM < "fortificación" >, SYNSEM.LKEYS.KEYREL.PRED "_fortificación_n_rel" ]. fortificar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "fortificar" >, SYNSEM.LKEYS.KEYREL.PRED "_fortificar_v_rel" ]. fortificar_v2 := v_trans_np_le & [ STEM < "fortificar" >, SYNSEM.LKEYS.KEYREL.PRED "_fortificar_v_rel" ]. fortuitamente_x1 := av_i_spr_le & [ STEM < "fortuitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fortuitamente_x_rel" ]. fortuito_a1 := a_rel_nonprd_intr_le & [ STEM < "fortuito" >, SYNSEM.LKEYS.KEYREL.PRED "_fortuito_a_rel" ]. fortuna_n1 := n_intr_mass_le & [ STEM < "fortuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fortuna_n_rel" ] ]. fortín_n1 := n_intr_count_le & [ STEM < "fortín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fortín_n_rel" ] ]. forzadamente_x1 := av_i_spr_le & [ STEM < "forzadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_forzadamente_x_rel" ]. forzar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "forzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_forzar_v_rel" ] ] ]. forzar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "forzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_forzar_v_rel" ] ] ]. forzar_v3 := v_trans_np_le & [ STEM < "forzar" >, SYNSEM.LKEYS.KEYREL.PRED "_forzar_v_rel" ]. forzar_v4 := v_trans_np_mrkd_np_le & [ STEM < "forzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_forzar_v_rel" ] ]. forzosamente_x1 := av_s_spr_le & [ STEM < "forzosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_forzosamente_x_rel" ]. forzoso_a1 := a_qual_intr_scopal_le & [ STEM < "forzoso" >, SYNSEM.LKEYS.KEYREL.PRED "_forzoso_a_rel" ]. forzudamente_x1 := av_i_spr_le & [ STEM < "forzudamente" >, SYNSEM.LKEYS.KEYREL.PRED "_forzudamente_x_rel" ]. forzudo_a1 := a_qual_intr_ser_le & [ STEM < "forzudo" >, SYNSEM.LKEYS.KEYREL.PRED "_forzudo_a_rel" ]. forzudo_n1 := n_intr_count_le & [ STEM < "forzudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_forzudo_n_rel" ] ]. foráneamente_x1 := av_i_spr_le & [ STEM < "foráneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_foráneamente_x_rel" ]. foráneo_a1 := a_qual_intr_ser_le & [ STEM < "foráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_foráneo_a_rel" ]. forúnculo_n1 := n_intr_count_le & [ STEM < "forúnculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_forúnculo_n_rel" ] ]. fosa_n1 := n_intr_count_le & [ STEM < "fosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fosa_n_rel" ] ]. fosfatación_n1 := n_event-result_intr_le & [ STEM < "fosfatación" >, SYNSEM.LKEYS.KEYREL.PRED "_fosfatación_n_rel" ]. fosfatar_v := v_trans_np_le & [ STEM < "fosfatar" >, SYNSEM.LKEYS.KEYREL.PRED "_fosfatar_v_rel" ]. fosfatasa_n1 := n_intr_count_le & [ STEM < "fosfatasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fosfatasa_n_rel" ] ]. fosfato_n1 := n_intr_mass_le & [ STEM < "fosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfato_n_rel" ] ]. fosfeno_n1 := n_intr_uncount_le & [ STEM < "fosfeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fosfeno_n_rel" ] ]. fosfina_n1 := n_intr_count_le & [ STEM < "fosfina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfina_n_rel" ] ]. fosfito_n1 := n_intr_mass-or-count_le & [ STEM < "fosfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fosfito_n_rel" ] ]. fosfolípido_n1 := n_intr_mass-or-count_le & [ STEM < "fosfolípido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fosfolípido_n_rel" ] ]. fosfomolibdato_n1 := n_intr_count_le & [ STEM < "fosfomolibdato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfomolibdato_n_rel" ] ]. fosfomolíbdico_a1 := a_rel_nonprd_intr_le & [ STEM < "fosfomolíbdico" >, SYNSEM.LKEYS.KEYREL.PRED "_fosfomolíbdico_a_rel" ]. fosfonato_n1 := n_intr_count_le & [ STEM < "fosfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfonato_n_rel" ] ]. fosfopenia_n1 := n_intr_count_le & [ STEM < "fosfopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfopenia_n_rel" ] ]. fosforecer_v := v_intr_le & [ STEM < "fosforecer" >, SYNSEM.LKEYS.KEYREL.PRED "_fosforecer_v_rel" ]. fosforescencia_n1 := n_intr_uncount_le & [ STEM < "fosforescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fosforescencia_n_rel" ] ]. fosforescente_a1 := a_qual_intr_ser_le & [ STEM < "fosforescente" >, SYNSEM.LKEYS.KEYREL.PRED "_fosforescente_a_rel" ]. fosforoso_a1 := a_rel_nonprd_intr_le & [ STEM < "fosforoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fosforoso_a_rel" ]. fosfotioato_n1 := n_intr_count_le & [ STEM < "fosfotioato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfotioato_n_rel" ] ]. fosfotungstato_n1 := n_intr_count_le & [ STEM < "fosfotungstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfotungstato_n_rel" ] ]. fosfotúngstico_a1 := a_rel_nonprd_intr_le & [ STEM < "fosfotúngstico" >, SYNSEM.LKEYS.KEYREL.PRED "_fosfotúngstico_a_rel" ]. fosfuranilita_n1 := n_intr_count_le & [ STEM < "fosfuranilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfuranilita_n_rel" ] ]. fosfuro_n1 := n_intr_mass_le & [ STEM < "fosfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fosfuro_n_rel" ] ]. fosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "fosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_fosfórico_a_rel" ]. fosgeno_n1 := n_intr_mass-or-count_le & [ STEM < "fosgeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fosgeno_n_rel" ] ]. fosilización_n1 := n_event-result_intr_le & [ STEM < "fosilización" >, SYNSEM.LKEYS.KEYREL.PRED "_fosilización_n_rel" ]. fosilizar_v := v_pron_unacc_le & [ STEM < "fosilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_fosilizar_v_rel" ]. foso_n1 := n_intr_count_le & [ STEM < "foso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foso_n_rel" ] ]. foto_n1 := n_intr_count_le & [ STEM < "foto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foto_n_rel" ] ]. fotoactivamente_x1 := av_i_spr_le & [ STEM < "fotoactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoactivamente_x_rel" ]. fotoactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoactivo_a_rel" ]. fotocatálisis_n1 := n_intr_uncount_le & [ STEM < "fotocatálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotocatálisis_n_rel" ] ]. fotocomponedora_n1 := n_intr_count_le & [ STEM < "fotocomponedora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotocomponedora_n_rel" ] ]. fotocomposición_n1 := n_intr_uncount_le & [ STEM < "fotocomposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotocomposición_n_rel" ] ]. fotoconductivamente_x1 := av_i_spr_le & [ STEM < "fotoconductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoconductivamente_x_rel" ]. fotoconductividad_n1 := n_intr_uncount_le & [ STEM < "fotoconductividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoconductividad_n_rel" ] ]. fotoconductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoconductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoconductivo_a_rel" ]. fotoconductor_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoconductor" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoconductor_a_rel" ]. fotocontrol_n1 := n_intr_uncount_le & [ STEM < "fotocontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotocontrol_n_rel" ] ]. fotocopia_n1 := n_intr_count_le & [ STEM < "fotocopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotocopia_n_rel" ] ]. fotocopiador_a1 := a_rel_nonprd_intr_le & [ STEM < "fotocopiador" >, SYNSEM.LKEYS.KEYREL.PRED "_fotocopiador_a_rel" ]. fotocopiadora_n1 := n_intr_count_le & [ STEM < "fotocopiadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_fotocopiadora_n_rel" ] ]. fotocopiar_v := v_trans_np_le & [ STEM < "fotocopiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fotocopiar_v_rel" ]. fotocélula_n1 := n_intr_count_le & [ STEM < "fotocélula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotocélula_n_rel" ] ]. fotodetector_n1 := n_intr_count_le & [ STEM < "fotodetector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_fotodetector_n_rel" ] ]. fotodiodo_n1 := n_intr_count_le & [ STEM < "fotodiodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotodiodo_n_rel" ] ]. fotoelasticidad_n1 := n_intr_uncount_le & [ STEM < "fotoelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoelasticidad_n_rel" ] ]. fotoelásticamente_x1 := av_i_spr_le & [ STEM < "fotoelásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoelásticamente_x_rel" ]. fotoelástico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoelástico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoelástico_a_rel" ]. fotoeléctricamente_x1 := av_i_spr_le & [ STEM < "fotoeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoeléctricamente_x_rel" ]. fotoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoeléctrico_a_rel" ]. fotoemisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoemisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoemisivo_a_rel" ]. fotoemisor_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoemisor" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoemisor_a_rel" ]. fotoestáticamente_x1 := av_i_spr_le & [ STEM < "fotoestáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoestáticamente_x_rel" ]. fotoestático_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoestático" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoestático_a_rel" ]. fotofobia_n1 := n_intr_uncount_le & [ STEM < "fotofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotofobia_n_rel" ] ]. fotogeología_n1 := n_intr_uncount_le & [ STEM < "fotogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotogeología_n_rel" ] ]. fotograbado_n1 := n_intr_count_le & [ STEM < "fotograbado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotograbado_n_rel" ] ]. fotograbador_n1 := n_intr_count_le & [ STEM < "fotograbador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotograbador_n_rel" ] ]. fotograbar_v := v_trans_np_le & [ STEM < "fotograbar" >, SYNSEM.LKEYS.KEYREL.PRED "_fotograbar_v_rel" ]. fotografía_n1 := n_intr_count_le & [ STEM < "fotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fotografía_n_rel" ] ]. fotograma_n1 := n_intr_count_le & [ STEM < "fotograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotograma_n_rel" ] ]. fotogrametría_n1 := n_intr_uncount_le & [ STEM < "fotogrametría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotogrametría_n_rel" ] ]. fotogramétricamente_x1 := av_i_spr_le & [ STEM < "fotogramétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotogramétricamente_x_rel" ]. fotogramétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotogramétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotogramétrico_a_rel" ]. fotográficamente_x1 := av_i_spr_le & [ STEM < "fotográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotográficamente_x_rel" ]. fotográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotográfico_a_rel" ]. fotogénicamente_x1 := av_i_spr_le & [ STEM < "fotogénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotogénicamente_x_rel" ]. fotogénico_a1 := a_qual_intr_scopal_le & [ STEM < "fotogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotogénico_a_rel" ]. fotointerpretación_n1 := n_intr_count_le & [ STEM < "fotointerpretación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_fotointerpretación_n_rel" ] ]. fotolisis_n1 := n_intr_uncount_le & [ STEM < "fotolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotolisis_n_rel" ] ]. fotolito_n1 := n_intr_count_le & [ STEM < "fotolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotolito_n_rel" ] ]. fotolitografiar_v := v_trans_np_le & [ STEM < "fotolitografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_fotolitografiar_v_rel" ]. fotolitográficamente_x1 := av_i_spr_le & [ STEM < "fotolitográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotolitográficamente_x_rel" ]. fotolitográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotolitográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotolitográfico_a_rel" ]. fotoluminiscencia_n1 := n_intr_uncount_le & [ STEM < "fotoluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoluminiscencia_n_rel" ] ]. fotomapa_n1 := n_intr_count_le & [ STEM < "fotomapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotomapa_n_rel" ] ]. fotomecánicamente_x1 := av_i_spr_le & [ STEM < "fotomecánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotomecánicamente_x_rel" ]. fotomecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotomecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotomecánico_a_rel" ]. fotometeoro_n1 := n_intr_count_le & [ STEM < "fotometeoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotometeoro_n_rel" ] ]. fotometría_n1 := n_intr_count_le & [ STEM < "fotometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotometría_n_rel" ] ]. fotomontaje_n1 := n_intr_count_le & [ STEM < "fotomontaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fotomontaje_n_rel" ] ]. fotomosaico_n1 := n_intr_count_le & [ STEM < "fotomosaico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotomosaico_n_rel" ] ]. fotomultiplicador_a1 := a_rel_nonprd_intr_le & [ STEM < "fotomultiplicador" >, SYNSEM.LKEYS.KEYREL.PRED "_fotomultiplicador_a_rel" ]. fotomultiplicador_n1 := n_intr_count_le & [ STEM < "fotomultiplicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotomultiplicador_n_rel" ] ]. fotométricamente_x1 := av_i_spr_le & [ STEM < "fotométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotométricamente_x_rel" ]. fotométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotométrico_a_rel" ]. fotonegativo_a1 := a_rel_nonprd_intr_le & [ STEM < "fotonegativo" >, SYNSEM.LKEYS.KEYREL.PRED "_fotonegativo_a_rel" ]. fotoperiodicidad_n1 := n_intr_uncount_le & [ STEM < "fotoperiodicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoperiodicidad_n_rel" ] ]. fotoperiodista_n1 := n_intr_count_le & [ STEM < "fotoperiodista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fotoperiodista_n_rel" ] ]. fotoplano_n1 := n_intr_count_le & [ STEM < "fotoplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoplano_n_rel" ] ]. fotopolímero_n1 := n_intr_mass-or-count_le & [ STEM < "fotopolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fotopolímero_n_rel" ] ]. fotopositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "fotopositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_fotopositivo_a_rel" ]. fotopsia_n1 := n_intr_count_le & [ STEM < "fotopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotopsia_n_rel" ] ]. fotoquímica_n1 := n_intr_uncount_le & [ STEM < "fotoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotoquímica_n_rel" ] ]. fotoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotoquímico_a_rel" ]. fotorreactivación_n1 := n_intr_uncount_le & [ STEM < "fotorreactivación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotorreactivación_n_rel" ] ]. fotorreceptor_n1 := n_intr_count_le & [ STEM < "fotorreceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotorreceptor_n_rel" ] ]. fotorresina_n1 := n_intr_count_le & [ STEM < "fotorresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotorresina_n_rel" ] ]. fotorresistencia_n1 := n_intr_uncount_le & [ STEM < "fotorresistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotorresistencia_n_rel" ] ]. fotosensible_a1 := a_rel_nonprd_intr_le & [ STEM < "fotosensible" >, SYNSEM.LKEYS.KEYREL.PRED "_fotosensible_a_rel" ]. fotosensor_n1 := n_intr_count_le & [ STEM < "fotosensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotosensor_n_rel" ] ]. fotosintetizador_a1 := a_rel_nonprd_intr_le & [ STEM < "fotosintetizador" >, SYNSEM.LKEYS.KEYREL.PRED "_fotosintetizador_a_rel" ]. fotosintetizadoramente_x1 := av_i_spr_le & [ STEM < "fotosintetizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotosintetizadoramente_x_rel" ]. fotosintéticamente_x1 := av_i_spr_le & [ STEM < "fotosintéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fotosintéticamente_x_rel" ]. fotosintético_a1 := a_rel_nonprd_intr_le & [ STEM < "fotosintético" >, SYNSEM.LKEYS.KEYREL.PRED "_fotosintético_a_rel" ]. fotostato_n1 := n_intr_count_le & [ STEM < "fotostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotostato_n_rel" ] ]. fotosíntesis_n1 := n_intr_uncount_le & [ STEM < "fotosíntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotosíntesis_n_rel" ] ]. fototaxia_n1 := n_intr_uncount_le & [ STEM < "fototaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fototaxia_n_rel" ] ]. fototaxis_n1 := n_intr_uncount_le & [ STEM < "fototaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fototaxis_n_rel" ] ]. fototeca_n1 := n_intr_count_le & [ STEM < "fototeca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_fototeca_n_rel" ] ]. fototelegrafía_n1 := n_intr_count_le & [ STEM < "fototelegrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fototelegrafía_n_rel" ] ]. fototelégrafo_n1 := n_intr_count_le & [ STEM < "fototelégrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fototelégrafo_n_rel" ] ]. fototiristor_n1 := n_intr_count_le & [ STEM < "fototiristor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fototiristor_n_rel" ] ]. fototopografía_n1 := n_intr_mass_le & [ STEM < "fototopografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fototopografía_n_rel" ] ]. fototransistor_n1 := n_intr_count_le & [ STEM < "fototransistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fototransistor_n_rel" ] ]. fototropismo_n1 := n_intr_uncount_le & [ STEM < "fototropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fototropismo_n_rel" ] ]. fototubo_n1 := n_intr_count_le & [ STEM < "fototubo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fototubo_n_rel" ] ]. fotovoltaico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotovoltaico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotovoltaico_a_rel" ]. fotófono_n1 := n_intr_count_le & [ STEM < "fotófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotófono_n_rel" ] ]. fotógrafo_n1 := n_intr_count_le & [ STEM < "fotógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fotógrafo_n_rel" ] ]. fotólisis_n1 := n_intr_uncount_le & [ STEM < "fotólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fotólisis_n_rel" ] ]. fotómetro_n1 := n_intr_count_le & [ STEM < "fotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotómetro_n_rel" ] ]. fotón_n1 := n_intr_count_le & [ STEM < "fotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fotón_n_rel" ] ]. fotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotónico_a_rel" ]. fotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "fotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_fotópico_a_rel" ]. fourierismo_n1 := n_intr_uncount_le & [ STEM < "fourierismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fourierismo_n_rel" ] ]. foveal_a1 := a_rel_nonprd_intr_le & [ STEM < "foveal" >, SYNSEM.LKEYS.KEYREL.PRED "_foveal_a_rel" ]. foveola_n1 := n_intr_count_le & [ STEM < "foveola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_foveola_n_rel" ] ]. foveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "foveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_foveolar_a_rel" ]. foxterrier_n1 := n_intr_count_le & [ STEM < "foxterrier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_foxterrier_n_rel" ] ]. fra_pnct := pnct_fra_le & [ STEM < "fra" > ]. frac_n1 := n_intr_count_le & [ STEM < "frac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frac_n_rel" ] ]. fracasar_v := v_intr_mrkd_np*_le & [ STEM < "fracasar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_fracasar_v_rel" ] ]. fracaso_n1 := n_event-result_intr_le & [ STEM < "fracaso" >, SYNSEM.LKEYS.KEYREL.PRED "_fracaso_n_rel" ]. fraccionable_a1 := a_rel_prd_le & [ STEM < "fraccionable" >, SYNSEM.LKEYS.KEYREL.PRED "_fraccionable_a_rel" ]. fraccionamiento_n1 := n_trans_le & [ STEM < "fraccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fraccionamiento_n_rel" ]. fraccionar_v := v_trans_np_mrkd_np*_le & [ STEM < "fraccionar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_fraccionar_v_rel" ] ]. fraccionariamente_x1 := av_i_spr_le & [ STEM < "fraccionariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fraccionariamente_x_rel" ]. fraccionario_a1 := a_rel_nonprd_intr_le & [ STEM < "fraccionario" >, SYNSEM.LKEYS.KEYREL.PRED "_fraccionario_a_rel" ]. fracción_n1 := n_intr_count_le & [ STEM < "fracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fracción_n_rel" ] ]. fractografía_n1 := n_intr_count_le & [ STEM < "fractografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fractografía_n_rel" ] ]. fractura_n1 := n_trans_le & [ STEM < "fractura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fractura_n_rel" ] ]. fractura_n2 := n_trans_le & [ STEM < "fractura" >, SYNSEM.LKEYS.KEYREL.PRED "_fractura_n_rel" ]. fracturar_v1 := v_ditrans*_le & [ STEM < "fracturar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc, PRED "_fracturar_v_rel" ] ]. fragancia_n1 := n_intr_uncount_pl_le & [ STEM < "fragancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fragancia_n_rel" ] ]. fragante_a1 := a_qual_intr_scopal_le & [ STEM < "fragante" >, SYNSEM.LKEYS.KEYREL.PRED "_fragante_a_rel" ]. fragata_n1 := n_intr_count_le & [ STEM < "fragata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_fragata_n_rel" ] ]. fragilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fragilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fragilidad_n_rel" ] ]. fragiácuico_a1 := a_rel_nonprd_intr_le & [ STEM < "fragiácuico" >, SYNSEM.LKEYS.KEYREL.PRED "_fragiácuico_a_rel" ]. fragmentación_n1 := n_trans_le & [ STEM < "fragmentación" >, SYNSEM.LKEYS.KEYREL.PRED "_fragmentación_n_rel" ]. fragmentar_v := v_trans_np_mrkd_np*_le & [ STEM < "fragmentar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_fragmentar_v_rel" ] ]. fragmentariamente_x1 := av_i_spr_le & [ STEM < "fragmentariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fragmentariamente_x_rel" ]. fragmentariedad_n1 := n_intr_uncount_le & [ STEM < "fragmentariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fragmentariedad_n_rel" ] ]. fragmentario_a1 := a_rel_nonprd_intr_le & [ STEM < "fragmentario" >, SYNSEM.LKEYS.KEYREL.PRED "_fragmentario_a_rel" ]. fragmentina_n1 := n_intr_count_le & [ STEM < "fragmentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fragmentina_n_rel" ] ]. fragmento_n1 := n_intr_count_le & [ STEM < "fragmento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fragmento_n_rel" ] ]. fragmoplasto_n1 := n_intr_count_le & [ STEM < "fragmoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fragmoplasto_n_rel" ] ]. fragmosoma_n1 := n_intr_count_le & [ STEM < "fragmosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fragmosoma_n_rel" ] ]. fragor_n1 := n_intr_uncount_pl_le & [ STEM < "fragor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fragor_n_rel" ] ]. fragoroso_a1 := a_qual_intr_scopal_le & [ STEM < "fragoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_fragoroso_a_rel" ]. fragua_n1 := n_intr_count_le & [ STEM < "fragua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_fragua_n_rel" ] ]. fraguable_a1 := a_rel_prd_le & [ STEM < "fraguable" >, SYNSEM.LKEYS.KEYREL.PRED "_fraguable_a_rel" ]. fraguado_n1 := n_trans_le & [ STEM < "fraguado" >, SYNSEM.LKEYS.KEYREL.PRED "_fraguado_n_rel" ]. fraguar_v1 := v_intr_le & [ STEM < "fraguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, PRED "_fraguar_v_rel" ] ]. fraguar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "fraguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_fraguar_v_rel" ] ]. fraguar_v3 := v_trans_np_le & [ STEM < "fraguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_fraguar_v_rel" ] ]. fraile_n1 := n_intr_count_le & [ STEM < "fraile" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fraile_n_rel" ] ]. frailecillo_n1 := n_intr_count_le & [ STEM < "frailecillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_frailecillo_n_rel" ] ]. frailero_n1 := n_intr_count_le & [ STEM < "frailero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frailero_n_rel" ] ]. frambuesa_n1 := n_intr_mass_le & [ STEM < "frambuesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frambuesa_n_rel" ] ]. francachela_n1 := n_intr_count_le & [ STEM < "francachela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_francachela_n_rel" ] ]. francamente_x1 := av_s_spr_le & [ STEM < "francamente" >, SYNSEM.LKEYS.KEYREL.PRED "_francamente_x_rel" ]. francesilla_n1 := n_intr_mass_le & [ STEM < "francesilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_francesilla_n_rel" ] ]. francio_n1 := n_intr_mass_le & [ STEM < "francio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_francio_n_rel" ] ]. franciscano_a1 := a_rel_nonprd_intr_le & [ STEM < "franciscano" >, SYNSEM.LKEYS.KEYREL.PRED "_franciscano_a_rel" ]. franciscano_n1 := n_intr_count_le & [ STEM < "franciscano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_franciscano_n_rel" ] ]. francmasonería_n1 := n_intr_uncount_le & [ STEM < "francmasonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_francmasonería_n_rel" ] ]. francmasón_n1 := n_intr_count_le & [ STEM < "francmasón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francmasón_n_rel" ] ]. franco_a1 := a_qual_intr_ser_le & [ STEM < "franco" >, SYNSEM.LKEYS.KEYREL.PRED "_franco_a_rel" ]. franco_belga_n1 := n_intr_count_le & [ STEM < "franco_belga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franco_belga_n_rel" ] ]. franco_francés_n1 := n_intr_count_le & [ STEM < "franco_francés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franco_francés_n_rel" ] ]. franco_luxemburgués_n1 := n_intr_count_le & [ STEM < "franco_luxemburgués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franco_luxemburgués_n_rel" ] ]. franco_n1 := n_intr_count_le & [ STEM < "franco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franco_n_rel" ] ]. franco_suizo_n1 := n_intr_count_le & [ STEM < "franco_suizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franco_suizo_n_rel" ] ]. francobordo_n1 := n_intr_uncount_le & [ STEM < "francobordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_francobordo_n_rel" ] ]. francotirador_n1 := n_subj-nom_le & [ STEM < "francotirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francotirador_n_rel" ] ]. francés_a1 := a_rel_prd_le & [ STEM < "francés" >, SYNSEM.LKEYS.KEYREL.PRED "_francés_a_rel" ]. francés_n1 := n_intr_count_le & [ STEM < "francés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francés_n_rel" ] ]. francófilo_n1 := n_intr_count_le & [ STEM < "francófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francófilo_n_rel" ] ]. francófobo_n1 := n_intr_count_le & [ STEM < "francófobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francófobo_n_rel" ] ]. francófono_n1 := n_intr_count_le & [ STEM < "francófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_francófono_n_rel" ] ]. franela_n1 := n_intr_mass-or-count_le & [ STEM < "franela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_franela_n_rel" ] ]. franja_n1 := n_intr_count_le & [ STEM < "franja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_franja_n_rel" ] ]. franjear_v := v_trans_np_le & [ STEM < "franjear" >, SYNSEM.LKEYS.KEYREL.PRED "_franjear_v_rel" ]. franklinita_n1 := n_intr_count_le & [ STEM < "franklinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_franklinita_n_rel" ] ]. franquear_v := v_trans_np_le & [ STEM < "franquear" >, SYNSEM.LKEYS.KEYREL.PRED "_franquear_v_rel" ]. franqueo_n1 := n_trans_le & [ STEM < "franqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_franqueo_n_rel" ]. franqueza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "franqueza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_franqueza_n_rel" ] ]. franquicia_n1 := n_intr_count_le & [ STEM < "franquicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_franquicia_n_rel" ] ]. franquiciador_n1 := n_subj-nom_le & [ STEM < "franquiciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_franquiciador_n_rel" ] ]. franquismo_n1 := n_intr_uncount_le & [ STEM < "franquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_franquismo_n_rel" ] ]. franquista_a1 := a_rel_nonprd_intr_le & [ STEM < "franquista" >, SYNSEM.LKEYS.KEYREL.PRED "_franquista_a_rel" ]. franquista_n1 := n_intr_count_le & [ STEM < "franquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_franquista_n_rel" ] ]. frasco_n1 := n_intr_count_le & [ STEM < "frasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frasco_n_rel" ] ]. frase_n1 := n_intr_count_le & [ STEM < "frase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frase_n_rel" ] ]. fraseo_n1 := n_result_intr_le & [ STEM < "fraseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fraseo_n_rel" ] ]. fraseología_n1 := n_intr_uncount_le & [ STEM < "fraseología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fraseología_n_rel" ] ]. fraseológico_a1 := a_rel_nonprd_intr_le & [ STEM < "fraseológico" >, SYNSEM.LKEYS.KEYREL.PRED "_fraseológico_a_rel" ]. fraternal_a1 := a_qual_intr_scopal_le & [ STEM < "fraternal" >, SYNSEM.LKEYS.KEYREL.PRED "_fraternal_a_rel" ]. fraternalmente_x1 := av_i_spr_le & [ STEM < "fraternalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fraternalmente_x_rel" ]. fraternidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fraternidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fraternidad_n_rel" ] ]. fraternización_n1 := n_result_intr_ppcomp_le & [ STEM < "fraternización" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_fraternización_n_rel" ] ]. fraternizar_v := v_intr_mrkd_np*_le & [ STEM < "fraternizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_fraternizar_v_rel" ] ]. fraterno_a1 := a_qual_intr_scopal_le & [ STEM < "fraterno" >, SYNSEM.LKEYS.KEYREL.PRED "_fraterno_a_rel" ]. fratricida_a1 := a_rel_nonprd_intr_le & [ STEM < "fratricida" >, SYNSEM.LKEYS.KEYREL.PRED "_fratricida_a_rel" ]. fratricida_n1 := n_intr_count_le & [ STEM < "fratricida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fratricida_n_rel" ] ]. fratricidio_n1 := n_intr_count_le & [ STEM < "fratricidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fratricidio_n_rel" ] ]. fratás_n1 := n_intr_count_le & [ STEM < "fratás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fratás_n_rel" ] ]. fraude_n1 := n_intr_count_le & [ STEM < "fraude" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fraude_n_rel" ] ]. fraudulencia_n1 := n_intr_uncount_pl_le & [ STEM < "fraudulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fraudulencia_n_rel" ] ]. fraudulentamente_x1 := av_i_spr_le & [ STEM < "fraudulentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fraudulentamente_x_rel" ]. fraudulento_a1 := a_qual_intr_scopal_le & [ STEM < "fraudulento" >, SYNSEM.LKEYS.KEYREL.PRED "_fraudulento_a_rel" ]. frc_pnct := pnct_frc_le & [ STEM < "frc" > ]. frecuencia_n1 := n_intr_mass_le & [ STEM < "frecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_frecuencia_n_rel" ] ]. frecuencialmente_x1 := av_i_spr_le & [ STEM < "frecuencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuencialmente_x_rel" ]. frecuencímetro_n1 := n_intr_count_le & [ STEM < "frecuencímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_frecuencímetro_n_rel" ] ]. frecuentar_v := v_trans_np_le & [ STEM < "frecuentar" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuentar_v_rel" ]. frecuentativo_a1 := a_rel_nonprd_intr_le & [ STEM < "frecuentativo" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuentativo_a_rel" ]. frecuente_a1 := a_adv_event_le & [ STEM < "frecuente" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuente_a_rel" ]. frecuente_a2 := a_qual_intr_scopal_le & [ STEM < "frecuente" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuente_a_rel" ]. frecuentemente_x1 := av_s_prhd_spr_le & [ STEM < "frecuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuentemente_x_rel" ]. frecuentemente_x2 := av_i_psthd_spr_le & [ STEM < "frecuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_frecuentemente_x_rel" ]. fregadero_n1 := n_intr_count_le & [ STEM < "fregadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fregadero_n_rel" ] ]. fregado_n1 := n_trans_le & [ STEM < "fregado" >, SYNSEM.LKEYS.KEYREL.PRED "_fregado_n_rel" ]. fregar_v := v_trans_np_le & [ STEM < "fregar" >, SYNSEM.LKEYS.KEYREL.PRED "_fregar_v_rel" ]. fregasuelos_n1 := n_intr_count_le & [ STEM < "fregasuelos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fregasuelos_n_rel" ] ]. fregona_n1 := n_intr_count_le & [ STEM < "fregona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fregona_n_rel" ] ]. freibergita_n1 := n_intr_count_le & [ STEM < "freibergita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_freibergita_n_rel" ] ]. freidora_n1 := n_intr_count_le & [ STEM < "freidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_freidora_n_rel" ] ]. freiduría_n1 := n_intr_count_le & [ STEM < "freiduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_freiduría_n_rel" ] ]. frenado_n1 := n_trans_le & [ STEM < "frenado" >, SYNSEM.LKEYS.KEYREL.PRED "_frenado_n_rel" ]. frenante_a1 := a_rel_nonprd_intr_le & [ STEM < "frenante" >, SYNSEM.LKEYS.KEYREL.PRED "_frenante_a_rel" ]. frenar_v1 := v_intr_le & [ STEM < "frenar" >, SYNSEM.LKEYS.KEYREL.PRED "_frenar_v_rel" ]. frenar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "frenar" >, SYNSEM.LKEYS.KEYREL.PRED "_frenar_v_rel" ]. frenar_v3 := v_trans_np_le & [ STEM < "frenar" >, SYNSEM.LKEYS.KEYREL.PRED "_frenar_v_rel" ]. frenazo_n1 := n_intr_count_le & [ STEM < "frenazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frenazo_n_rel" ] ]. frenectomía_n1 := n_intr_count_le & [ STEM < "frenectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frenectomía_n_rel" ] ]. frenesí_n1 := n_intr_mass_le & [ STEM < "frenesí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frenesí_n_rel" ] ]. frenicoesplénico_a1 := a_rel_nonprd_intr_le & [ STEM < "frenicoesplénico" >, SYNSEM.LKEYS.KEYREL.PRED "_frenicoesplénico_a_rel" ]. frenicopleural_a1 := a_rel_nonprd_intr_le & [ STEM < "frenicopleural" >, SYNSEM.LKEYS.KEYREL.PRED "_frenicopleural_a_rel" ]. frenillo_n1 := n_ppcomp_count_le & [ STEM < "frenillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_frenillo_n_rel" ] ]. freno_n1 := n_intr_count_le & [ STEM < "freno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_freno_n_rel" ] ]. frenocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "frenocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_frenocólico_a_rel" ]. frenológicamente_x1 := av_i_spr_le & [ STEM < "frenológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_frenológicamente_x_rel" ]. frenológico_a1 := a_rel_nonprd_intr_le & [ STEM < "frenológico" >, SYNSEM.LKEYS.KEYREL.PRED "_frenológico_a_rel" ]. frenoplastia_n1 := n_intr_count_le & [ STEM < "frenoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frenoplastia_n_rel" ] ]. frenotomía_n1 := n_intr_count_le & [ STEM < "frenotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frenotomía_n_rel" ] ]. frente_a_p_vmod := p_vmod_le & [ STEM < "frente_a" >, SYNSEM.LKEYS.KEYREL.PRED _frente_a_p_rel ]. frente_n1 := n_ppcomp_count_le & [ STEM < "frente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_frente_n_rel" ] ]. frente_n2 := n_intr_count_le & [ STEM < "frente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc_soc, PRED "_frente_n_rel" ] ]. frente_x1 := av_i_spr_le & [ STEM < "frente" >, SYNSEM.LKEYS.KEYREL.PRED "_frente_x_rel" ]. frenéticamente_x1 := av_i_spr_le & [ STEM < "frenéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_frenéticamente_x_rel" ]. frenético_a1 := a_qual_intr_scopal_le & [ STEM < "frenético" >, SYNSEM.LKEYS.KEYREL.PRED "_frenético_a_rel" ]. fresa_n1 := n_intr_mass_le & [ STEM < "fresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fresa_n_rel" ] ]. fresado_n1 := n_trans_le & [ STEM < "fresado" >, SYNSEM.LKEYS.KEYREL.PRED "_fresado_n_rel" ]. fresador_n1 := n_intr_count_le & [ STEM < "fresador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fresador_n_rel" ] ]. fresador_n2 := n_subj-nom_le & [ STEM < "fresador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fresador_n_rel" ] ]. fresadora_n1 := n_intr_count_le & [ STEM < "fresadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_fresadora_n_rel" ] ]. fresar_v := v_trans_np_le & [ STEM < "fresar" >, SYNSEM.LKEYS.KEYREL.PRED "_fresar_v_rel" ]. fresco_a1 := a_qual_intr_scopal_le & [ STEM < "fresco" >, SYNSEM.LKEYS.KEYREL.PRED "_fresco_a_rel" ]. fresco_n1 := n_intr_count_le & [ STEM < "fresco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fresco_n_rel" ] ]. frescor_n1 := n_ppcomp_mass_le & [ STEM < "frescor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frescor_n_rel" ] ]. frescura_n1 := n_ppcomp_mass_le & [ STEM < "frescura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frescura_n_rel" ] ]. fresia_n1 := n_intr_mass_le & [ STEM < "fresia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fresia_n_rel" ] ]. fresno_n1 := n_intr_mass_le & [ STEM < "fresno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fresno_n_rel" ] ]. fresón_n1 := n_intr_mass_le & [ STEM < "fresón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fresón_n_rel" ] ]. freudiano_a1 := a_rel_nonprd_intr_le & [ STEM < "freudiano" >, SYNSEM.LKEYS.KEYREL.PRED "_freudiano_a_rel" ]. freudismo_n1 := n_intr_uncount_le & [ STEM < "freudismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_freudismo_n_rel" ] ]. freáticamente_x1 := av_i_spr_le & [ STEM < "freáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_freáticamente_x_rel" ]. freático_a1 := a_rel_nonprd_intr_le & [ STEM < "freático" >, SYNSEM.LKEYS.KEYREL.PRED "_freático_a_rel" ]. freã­r_v := v_trans_np_caus_le & [ STEM < "freír" >, SYNSEM.LKEYS.KEYREL.PRED "_freír_v_rel" ]. freón_n1 := n_intr_mass-or-count_le & [ STEM < "freón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_freón_n_rel" ] ]. friabilidad_n1 := n_intr_mass_le & [ STEM < "friabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_friabilidad_n_rel" ] ]. friable_a1 := a_qual_intr_scopal_le & [ STEM < "friable" >, SYNSEM.LKEYS.KEYREL.PRED "_friable_a_rel" ]. frialdad_n1 := n_ppcomp_mass_le & [ STEM < "frialdad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frialdad_n_rel" ] ]. fricación_n1 := n_trans_le & [ STEM < "fricación" >, SYNSEM.LKEYS.KEYREL.PRED "_fricación_n_rel" ]. fricandó_n1 := n_intr_count_le & [ STEM < "fricandó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fricandó_n_rel" ] ]. fricativo_a1 := a_rel_nonprd_intr_le & [ STEM < "fricativo" >, SYNSEM.LKEYS.KEYREL.PRED "_fricativo_a_rel" ]. friccional_a1 := a_rel_nonprd_intr_le & [ STEM < "friccional" >, SYNSEM.LKEYS.KEYREL.PRED "_friccional_a_rel" ]. friccionar_v := v_trans_np_le & [ STEM < "friccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_friccionar_v_rel" ]. fricción_n1 := n_trans_le & [ STEM < "fricción" >, SYNSEM.LKEYS.KEYREL.PRED "_fricción_n_rel" ]. friega_n1 := n_intr_count_le & [ STEM < "friega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_friega_n_rel" ] ]. frigidez_n1 := n_ppcomp_uncount_le & [ STEM < "frigidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frigidez_n_rel" ] ]. frigorífico_a1 := a_rel_nonprd_intr_le & [ STEM < "frigorífico" >, SYNSEM.LKEYS.KEYREL.PRED "_frigorífico_a_rel" ]. frigorífico_n1 := n_intr_count_le & [ STEM < "frigorífico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_frigorífico_n_rel" ] ]. frigorígeno_a1 := a_rel_nonprd_intr_le & [ STEM < "frigorígeno" >, SYNSEM.LKEYS.KEYREL.PRED "_frigorígeno_a_rel" ]. friso_n1 := n_intr_count_le & [ STEM < "friso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_friso_n_rel" ] ]. frisón_n1 := n_intr_count_le & [ STEM < "frisón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_frisón_n_rel" ] ]. frita_n1 := n_intr_count_le & [ STEM < "frita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_frita_n_rel" ] ]. frito_a1 := a_rel_nonprd_intr_le & [ STEM < "frito" >, SYNSEM.LKEYS.KEYREL.PRED "_frito_a_rel" ]. fritura_n1 := n_trans_le & [ STEM < "fritura" >, SYNSEM.LKEYS.KEYREL.PRED "_fritura_n_rel" ]. frivolidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "frivolidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frivolidad_n_rel" ] ]. fronda_n1 := n_intr_count_le & [ STEM < "fronda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fronda_n_rel" ] ]. frondosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "frondosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frondosidad_n_rel" ] ]. frondoso_a1 := a_qual_intr_scopal_le & [ STEM < "frondoso" >, SYNSEM.LKEYS.KEYREL.PRED "_frondoso_a_rel" ]. frontal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontal_a_rel" ]. frontal_n1 := n_intr_count_le & [ STEM < "frontal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frontal_n_rel" ] ]. frontalera_n1 := n_intr_count_le & [ STEM < "frontalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frontalera_n_rel" ] ]. frontalmente_x1 := av_i_spr_le & [ STEM < "frontalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_frontalmente_x_rel" ]. frontenis_n1 := n_intr_uncount_le & [ STEM < "frontenis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frontenis_n_rel" ] ]. frontenista_n1 := n_intr_count_le & [ STEM < "frontenista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_frontenista_n_rel" ] ]. frontera_n1 := n_intr_count_le & [ STEM < "frontera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_frontera_n_rel" ] ]. fronterizo_a1 := a_rel_nonprd_intr_le & [ STEM < "fronterizo" >, SYNSEM.LKEYS.KEYREL.PRED "_fronterizo_a_rel" ]. fronting_n1 := n_intr_count_le & [ STEM < "fronting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fronting_n_rel" ] ]. frontis_n1 := n_intr_count_le & [ STEM < "frontis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frontis_n_rel" ] ]. frontispicio_n1 := n_intr_count_le & [ STEM < "frontispicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frontispicio_n_rel" ] ]. frontocigomático_a1 := a_rel_nonprd_intr_le & [ STEM < "frontocigomático" >, SYNSEM.LKEYS.KEYREL.PRED "_frontocigomático_a_rel" ]. frontoetmoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontoetmoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontoetmoidal_a_rel" ]. frontogénesis_n1 := n_intr_uncount_le & [ STEM < "frontogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frontogénesis_n_rel" ] ]. frontolacrimal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontolacrimal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontolacrimal_a_rel" ]. frontomalar_a1 := a_rel_nonprd_intr_le & [ STEM < "frontomalar" >, SYNSEM.LKEYS.KEYREL.PRED "_frontomalar_a_rel" ]. frontomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "frontomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_frontomaxilar_a_rel" ]. frontonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontonasal_a_rel" ]. frontooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "frontooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_frontooccipital_a_rel" ]. frontoparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontoparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontoparietal_a_rel" ]. frontotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "frontotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_frontotemporal_a_rel" ]. frontón_n1 := n_intr_count_le & [ STEM < "frontón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_frontón_n_rel" ] ]. frotador_n1 := n_intr_count_le & [ STEM < "frotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frotador_n_rel" ] ]. frotamiento_n1 := n_trans_le & [ STEM < "frotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_frotamiento_n_rel" ]. frotante_a1 := a_rel_nonprd_intr_le & [ STEM < "frotante" >, SYNSEM.LKEYS.KEYREL.PRED "_frotante_a_rel" ]. frotar_v := v_trans_np_le & [ STEM < "frotar" >, SYNSEM.LKEYS.KEYREL.PRED "_frotar_v_rel" ]. frotis_n1 := n_intr_count_le & [ STEM < "frotis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frotis_n_rel" ] ]. fructificación_n1 := n_event-result_intr_le & [ STEM < "fructificación" >, SYNSEM.LKEYS.KEYREL.PRED "_fructificación_n_rel" ]. fructificar_v := v_intr_le & [ STEM < "fructificar" >, SYNSEM.LKEYS.KEYREL.PRED "_fructificar_v_rel" ]. fructosa_n1 := n_intr_count_le & [ STEM < "fructosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fructosa_n_rel" ] ]. fructuario_a1 := a_rel_nonprd_intr_le & [ STEM < "fructuario" >, SYNSEM.LKEYS.KEYREL.PRED "_fructuario_a_rel" ]. fructuosamente_x1 := av_i_spr_le & [ STEM < "fructuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fructuosamente_x_rel" ]. fructuoso_a1 := a_qual_intr_scopal_le & [ STEM < "fructuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_fructuoso_a_rel" ]. fructurario_n1 := n_intr_count_le & [ STEM < "fructurario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fructurario_n_rel" ] ]. fructífero_a1 := a_qual_intr_scopal_le & [ STEM < "fructífero" >, SYNSEM.LKEYS.KEYREL.PRED "_fructífero_a_rel" ]. frugal_a1 := a_qual_intr_scopal_le & [ STEM < "frugal" >, SYNSEM.LKEYS.KEYREL.PRED "_frugal_a_rel" ]. frugalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "frugalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frugalidad_n_rel" ] ]. frugalmente_x1 := av_i_spr_le & [ STEM < "frugalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_frugalmente_x_rel" ]. fruición_n1 := n_intr_mass_le & [ STEM < "fruición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fruición_n_rel" ] ]. frunce_n1 := n_trans_le & [ STEM < "frunce" >, SYNSEM.LKEYS.KEYREL.PRED "_frunce_n_rel" ]. fruncimiento_n1 := n_trans_le & [ STEM < "fruncimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fruncimiento_n_rel" ]. frustración_n1 := n_trans_le & [ STEM < "frustración" >, SYNSEM.LKEYS.KEYREL.PRED "_frustración_n_rel" ]. frustrante_a1 := a_qual_intr_scopal_le & [ STEM < "frustrante" >, SYNSEM.LKEYS.KEYREL.PRED "_frustrante_a_rel" ]. frustrar_v1 := v_intr_io*_le & [ STEM < "frustrar" >, SYNSEM.LKEYS.KEYREL.PRED "_frustrar_v_rel" ]. frustrar_v2 := v_pron_intr_le & [ STEM < "frustrar" >, SYNSEM.LKEYS.KEYREL.PRED "_frustrar_v_rel" ]. frustrar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "frustrar" >, SYNSEM.LKEYS.KEYREL.PRED "_frustrar_v_rel" ]. frustrar_v4 := v_trans_np*_le & [ STEM < "frustrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_frustrar_v_rel" ] ]. frutal_a1 := a_qual_intr_scopal_le & [ STEM < "frutal" >, SYNSEM.LKEYS.KEYREL.PRED "_frutal_a_rel" ]. frutero_a1 := a_rel_nonprd_intr_le & [ STEM < "frutero" >, SYNSEM.LKEYS.KEYREL.PRED "_frutero_a_rel" ]. frutero_n1 := n_intr_count_le & [ STEM < "frutero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_frutero_n_rel" ] ]. frutería_n1 := n_intr_count_le & [ STEM < "frutería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_frutería_n_rel" ] ]. fruticultura_n1 := n_intr_uncount_le & [ STEM < "fruticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fruticultura_n_rel" ] ]. fruto_n1 := n_intr_count_le & [ STEM < "fruto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fruto_n_rel" ] ]. frágil_a1 := a_qual_intr_scopal_le & [ STEM < "frágil" >, SYNSEM.LKEYS.KEYREL.PRED "_frágil_a_rel" ]. frágilmente_x1 := av_i_spr_le & [ STEM < "frágilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_frágilmente_x_rel" ]. frénico_a1 := a_rel_nonprd_intr_le & [ STEM < "frénico" >, SYNSEM.LKEYS.KEYREL.PRED "_frénico_a_rel" ]. fríamente_x1 := av_i_spr_le & [ STEM < "fríamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fríamente_x_rel" ]. frígido_a1 := a_qual_intr_ser_le & [ STEM < "frígido" >, SYNSEM.LKEYS.KEYREL.PRED "_frígido_a_rel" ]. fríjol_n1 := n_intr_count_le & [ STEM < "fríjol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fríjol_n_rel" ] ]. frío_a1 := a_adv_event_le & [ STEM < "frío" >, SYNSEM.LKEYS.KEYREL.PRED "_frío_a_rel" ]. frío_a2 := a_qual_intr_scopal_le & [ STEM < "frío" >, SYNSEM.LKEYS.KEYREL.PRED "_frío_a_rel" ]. frío_n1 := n_intr_mass_le & [ STEM < "frío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_frío_n_rel" ] ]. frívolamente_x1 := av_i_spr_le & [ STEM < "frívolamente" >, SYNSEM.LKEYS.KEYREL.PRED "_frívolamente_x_rel" ]. frívolo_a1 := a_qual_intr_ser_le & [ STEM < "frívolo" >, SYNSEM.LKEYS.KEYREL.PRED "_frívolo_a_rel" ]. ftalamida_n1 := n_intr_count_le & [ STEM < "ftalamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalamida_n_rel" ] ]. ftalato_n1 := n_intr_count_le & [ STEM < "ftalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalato_n_rel" ] ]. ftaleína_n1 := n_intr_count_le & [ STEM < "ftaleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftaleína_n_rel" ] ]. ftalilsulfacetamida_n1 := n_intr_count_le & [ STEM < "ftalilsulfacetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalilsulfacetamida_n_rel" ] ]. ftalilsulfatiazol_n1 := n_intr_count_le & [ STEM < "ftalilsulfatiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalilsulfatiazol_n_rel" ] ]. ftalimida_n1 := n_intr_count_le & [ STEM < "ftalimida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalimida_n_rel" ] ]. ftalonitrilo_n1 := n_intr_count_le & [ STEM < "ftalonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ftalonitrilo_n_rel" ] ]. ftp_n1 := n_intr_count_le & [ STEM < "ftp" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_ftp_n_rel" ] ]. ftálicamente_x1 := av_i_spr_le & [ STEM < "ftálicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ftálicamente_x_rel" ]. fucsia_a1 := a_qual_intr_ser_le & [ STEM < "fucsia" >, SYNSEM.LKEYS.KEYREL.PRED "_fucsia_a_rel" ]. fucsia_n1 := n_intr_count_le & [ STEM < "fucsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fucsia_n_rel" ] ]. fucsina_n1 := n_intr_count_le & [ STEM < "fucsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fucsina_n_rel" ] ]. fucsita_n1 := n_intr_count_le & [ STEM < "fucsita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fucsita_n_rel" ] ]. fuego_n1 := n_intr_mass_le & [ STEM < "fuego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuego_n_rel" ] ]. fuel-oil_n1 := n_intr_mass_le & [ STEM < "fuel-oil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fuel-oil_n_rel" ] ]. fuelle_n1 := n_intr_count_le & [ STEM < "fuelle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuelle_n_rel" ] ]. fuente-madre_n1 := n_intr_count_le & [ STEM < "fuente-madre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fuente-madre_n_rel" ] ]. fuente_de_energía_n1 := n_intr_count_le & [ STEM < "fuente_de_energía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fuente_de_energía_n_rel" ] ]. fuente_n1 := n_intr_count_le & [ STEM < "fuente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fuente_n_rel" ] ]. fuera_de_p_vmod := p_vmod_le & [ STEM < "fuera_de" >, SYNSEM.LKEYS.KEYREL.PRED _fuera_de_p_rel ]. fuera_x1 := av_i_spr_le & [ STEM < "fuera" >, SYNSEM.LKEYS.KEYREL.PRED "_fuera_x_rel" ]. fuero_n1 := n_intr_count_le & [ STEM < "fuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fuero_n_rel" ] ]. fuerte_a1 := a_qual_intr_scopal_le & [ STEM < "fuerte" >, SYNSEM.LKEYS.KEYREL.PRED "_fuerte_a_rel" ]. fuerte_n1 := n_intr_count_le & [ STEM < "fuerte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fuerte_n_rel" ] ]. fuertemente_x1 := av_i_spr_le & [ STEM < "fuertemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fuertemente_x_rel" ]. fuerza_n1 := n_intr_mass_le & [ STEM < "fuerza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_fuerza_n_rel" ] ]. fuet_n1 := n_intr_count_le & [ STEM < "fuet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuet_n_rel" ] ]. fuga_n1 := n_result_intr_ppcomp_le & [ STEM < "fuga" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_fuga_n_rel" ] ]. fugacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "fugacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fugacidad_n_rel" ] ]. fugar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "fugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fugar_v_rel" ] ] ]. fugar_v2 := v_intr_mrkd_np_le & [ STEM < "fugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_fugar_v_rel" ] ] ]. fugar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "fugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_fugar_v_rel" ] ] ]. fugar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "fugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_fugar_v_rel" ] ] ]. fugar_v5 := v_pron_unacc_perf_le & [ STEM < "fugar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_mat_soc, PRED "_fugar_v_rel" ] ]. fugaz_a1 := a_qual_intr_scopal_le & [ STEM < "fugaz" >, SYNSEM.LKEYS.KEYREL.PRED "_fugaz_a_rel" ]. fugazmente_x1 := av_i_spr_le & [ STEM < "fugazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fugazmente_x_rel" ]. fugitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "fugitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_fugitivo_a_rel" ]. fugitivo_n1 := n_intr_count_le & [ STEM < "fugitivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fugitivo_n_rel" ] ]. fugitómetro_n1 := n_intr_count_le & [ STEM < "fugitómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fugitómetro_n_rel" ] ]. fulano_n1 := n_intr_count_le & [ STEM < "fulano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fulano_n_rel" ] ]. fular_n1 := n_intr_count_le & [ STEM < "fular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fular_n_rel" ] ]. fulbito_n1 := n_intr_count_le & [ STEM < "fulbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fulbito_n_rel" ] ]. fulcro_n1 := n_intr_count_le & [ STEM < "fulcro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_fulcro_n_rel" ] ]. fulgor_n1 := n_intr_uncount_pl_le & [ STEM < "fulgor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fulgor_n_rel" ] ]. fulguración_n1 := n_event-result_intr_le & [ STEM < "fulguración" >, SYNSEM.LKEYS.KEYREL.PRED "_fulguración_n_rel" ]. fulgurante_a1 := a_qual_intr_scopal_le & [ STEM < "fulgurante" >, SYNSEM.LKEYS.KEYREL.PRED "_fulgurante_a_rel" ]. full-stop_pnct := pnct_fp_le & [ STEM < "fp" > ]. full_time_x1 := av_i_le & [ STEM < "full_time" >, SYNSEM.LKEYS.KEYREL.PRED "_full_time_x_rel" ]. fulminación_n1 := n_trans_le & [ STEM < "fulminación" >, SYNSEM.LKEYS.KEYREL.PRED "_fulminación_n_rel" ]. fulminante_a1 := a_qual_intr_scopal_le & [ STEM < "fulminante" >, SYNSEM.LKEYS.KEYREL.PRED "_fulminante_a_rel" ]. fulminantemente_x1 := av_i_spr_le & [ STEM < "fulminantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fulminantemente_x_rel" ]. fulminar_v := v_trans_np_le & [ STEM < "fulminar" >, SYNSEM.LKEYS.KEYREL.PRED "_fulminar_v_rel" ]. fulminato_n1 := n_intr_mass-or-count_le & [ STEM < "fulminato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fulminato_n_rel" ] ]. fumador_n1 := n_subj-nom_le & [ STEM < "fumador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fumador_n_rel" ] ]. fumar_v := v_trans_np*_le & [ STEM < "fumar" >, SYNSEM.LKEYS.KEYREL.PRED "_fumar_v_rel" ]. fumarato_n1 := n_intr_count_le & [ STEM < "fumarato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fumarato_n_rel" ] ]. fumigación_n1 := n_trans_le & [ STEM < "fumigación" >, SYNSEM.LKEYS.KEYREL.PRED "_fumigación_n_rel" ]. fumigante_a1 := a_rel_nonprd_intr_le & [ STEM < "fumigante" >, SYNSEM.LKEYS.KEYREL.PRED "_fumigante_a_rel" ]. fumigantemente_x1 := av_i_spr_le & [ STEM < "fumigantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fumigantemente_x_rel" ]. fumigar_v := v_trans_np*_le & [ STEM < "fumigar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_fumigar_v_rel" ] ]. fumista_n1 := n_intr_count_le & [ STEM < "fumista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fumista_n_rel" ] ]. fumárico_a1 := a_rel_nonprd_intr_le & [ STEM < "fumárico" >, SYNSEM.LKEYS.KEYREL.PRED "_fumárico_a_rel" ]. fumívoro_a1 := a_rel_nonprd_intr_le & [ STEM < "fumívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_fumívoro_a_rel" ]. funambulista_n1 := n_intr_count_le & [ STEM < "funambulista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_funambulista_n_rel" ] ]. funcional_a1 := a_qual_intr_scopal_le & [ STEM < "funcional" >, SYNSEM.LKEYS.KEYREL.PRED "_funcional_a_rel" ]. funcionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "funcionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_funcionalidad_n_rel" ] ]. funcionalismo_n1 := n_intr_uncount_le & [ STEM < "funcionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_funcionalismo_n_rel" ] ]. funcionalista_a1 := a_rel_nonprd_intr_le & [ STEM < "funcionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_funcionalista_a_rel" ]. funcionalmente_x1 := av_i_spr_le & [ STEM < "funcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_funcionalmente_x_rel" ]. funcionamiento_n1 := n_result_intr_le & [ STEM < "funcionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_funcionamiento_n_rel" ]. funcionar_v := v_intr_le & [ STEM < "funcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_funcionar_v_rel" ]. funcionariado_n1 := n_intr_count_le & [ STEM < "funcionariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_funcionariado_n_rel" ] ]. funcionario_n1 := n_intr_count_le & [ STEM < "funcionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_funcionario_n_rel" ] ]. función_n1 := n_intr_count_le & [ STEM < "función" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_función_n_rel" ] ]. funda_n1 := n_intr_count_le & [ STEM < "funda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_funda_n_rel" ] ]. fundacional_a1 := a_rel_nonprd_intr_le & [ STEM < "fundacional" >, SYNSEM.LKEYS.KEYREL.PRED "_fundacional_a_rel" ]. fundacionalismo_n1 := n_intr_uncount_le & [ STEM < "fundacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fundacionalismo_n_rel" ] ]. fundación_n1 := n_intr_count_le & [ STEM < "fundación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_fundación_n_rel" ] ]. fundación_n2 := n_trans_le & [ STEM < "fundación" >, SYNSEM.LKEYS.KEYREL.PRED "_fundación_n_rel" ]. fundador_a1 := a_rel_nonprd_intr_le & [ STEM < "fundador" >, SYNSEM.LKEYS.KEYREL.PRED "_fundador_a_rel" ]. fundador_n1 := n_subj-nom_le & [ STEM < "fundador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fundador_n_rel" ] ]. fundamentación_n1 := n_trans_le & [ STEM < "fundamentación" >, SYNSEM.LKEYS.KEYREL.PRED "_fundamentación_n_rel" ]. fundamental_a1 := a_rel_prd_le & [ STEM < "fundamental" >, SYNSEM.LKEYS.KEYREL.PRED "_fundamental_a_rel" ]. fundamentalismo_n1 := n_intr_uncount_le & [ STEM < "fundamentalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fundamentalismo_n_rel" ] ]. fundamentalista_a1 := a_qual_intr_scopal_le & [ STEM < "fundamentalista" >, SYNSEM.LKEYS.KEYREL.PRED "_fundamentalista_a_rel" ]. fundamentalista_n1 := n_intr_count_le & [ STEM < "fundamentalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fundamentalista_n_rel" ] ]. fundamento_n1 := n_intr_count_le & [ STEM < "fundamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_fundamento_n_rel" ] ]. fundar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "fundar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_fundar_v_rel" ] ]. fundar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "fundar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_fundar_v_rel" ] ]. fundar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "fundar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_fundar_v_rel" ] ]. fundente_a1 := a_rel_nonprd_intr_le & [ STEM < "fundente" >, SYNSEM.LKEYS.KEYREL.PRED "_fundente_a_rel" ]. fundente_n1 := n_intr_count_le & [ STEM < "fundente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fundente_n_rel" ] ]. fundible_a1 := a_qual_intr_scopal_le & [ STEM < "fundible" >, SYNSEM.LKEYS.KEYREL.PRED "_fundible_a_rel" ]. fundición_n1 := n_intr_count_le & [ STEM < "fundición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_fundición_n_rel" ] ]. fundidor_n1 := n_intr_count_le & [ STEM < "fundidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fundidor_n_rel" ] ]. fundidor_n2 := n_subj-nom_le & [ STEM < "fundidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fundidor_n_rel" ] ]. fundidora_n1 := n_intr_count_le & [ STEM < "fundidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fundidora_n_rel" ] ]. fundir_v := v_trans_np_caus_le & [ STEM < "fundir" >, SYNSEM.LKEYS.KEYREL.PRED "_fundir_v_rel" ]. fundo_n1 := n_intr_count_le & [ STEM < "fundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_fundo_n_rel" ] ]. funeral_n1 := n_intr_count_le & [ STEM < "funeral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_funeral_n_rel" ] ]. funeraria_n1 := n_intr_count_le & [ STEM < "funeraria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_funeraria_n_rel" ] ]. funerario_a1 := a_rel_nonprd_intr_le & [ STEM < "funerario" >, SYNSEM.LKEYS.KEYREL.PRED "_funerario_a_rel" ]. funesto_a1 := a_qual_intr_scopal_le & [ STEM < "funesto" >, SYNSEM.LKEYS.KEYREL.PRED "_funesto_a_rel" ]. fungible_a1 := a_rel_nonprd_intr_le & [ STEM < "fungible" >, SYNSEM.LKEYS.KEYREL.PRED "_fungible_a_rel" ]. fungicida_a1 := a_rel_nonprd_intr_le & [ STEM < "fungicida" >, SYNSEM.LKEYS.KEYREL.PRED "_fungicida_a_rel" ]. fungicida_n1 := n_intr_mass-or-count_le & [ STEM < "fungicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fungicida_n_rel" ] ]. fungiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "fungiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_fungiforme_a_rel" ]. fungistato_n1 := n_intr_count_le & [ STEM < "fungistato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fungistato_n_rel" ] ]. funicular_a1 := a_rel_nonprd_intr_le & [ STEM < "funicular" >, SYNSEM.LKEYS.KEYREL.PRED "_funicular_a_rel" ]. funicular_n1 := n_intr_count_le & [ STEM < "funicular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_funicular_n_rel" ] ]. funámbulo_n1 := n_intr_count_le & [ STEM < "funámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_funámbulo_n_rel" ] ]. furano_n1 := n_intr_count_le & [ STEM < "furano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_furano_n_rel" ] ]. furgoneta_n1 := n_intr_count_le & [ STEM < "furgoneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_furgoneta_n_rel" ] ]. furgón_n1 := n_intr_count_le & [ STEM < "furgón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_furgón_n_rel" ] ]. furia_n1 := n_intr_mass_le & [ STEM < "furia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_furia_n_rel" ] ]. furibundo_a1 := a_rel_nonprd_intr_le & [ STEM < "furibundo" >, SYNSEM.LKEYS.KEYREL.PRED "_furibundo_a_rel" ]. furilacrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "furilacrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_furilacrílico_a_rel" ]. furiosamente_x1 := av_i_spr_le & [ STEM < "furiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_furiosamente_x_rel" ]. furioso_a1 := a_qual_intr_estar_le & [ STEM < "furioso" >, SYNSEM.LKEYS.KEYREL.PRED "_furioso_a_rel" ]. furoato_n1 := n_intr_count_le & [ STEM < "furoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_furoato_n_rel" ] ]. furor_n1 := n_intr_uncount_pl_le & [ STEM < "furor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_furor_n_rel" ] ]. furtivamente_x1 := av_i_spr_le & [ STEM < "furtivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_furtivamente_x_rel" ]. furtivismo_n1 := n_intr_uncount_le & [ STEM < "furtivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_furtivismo_n_rel" ] ]. furtivo_a1 := a_rel_nonprd_intr_le & [ STEM < "furtivo" >, SYNSEM.LKEYS.KEYREL.PRED "_furtivo_a_rel" ]. furánico_a1 := a_rel_nonprd_intr_le & [ STEM < "furánico" >, SYNSEM.LKEYS.KEYREL.PRED "_furánico_a_rel" ]. furúnculo_n1 := n_intr_count_le & [ STEM < "furúnculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_furúnculo_n_rel" ] ]. fusa_n1 := n_intr_count_le & [ STEM < "fusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fusa_n_rel" ] ]. fuseladamente_x1 := av_i_spr_le & [ STEM < "fuseladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fuseladamente_x_rel" ]. fuselaje_n1 := n_intr_mass_le & [ STEM < "fuselaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuselaje_n_rel" ] ]. fuseno_n1 := n_intr_count_le & [ STEM < "fuseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_fuseno_n_rel" ] ]. fusibilidad_n1 := n_ppcomp_uncount_le & [ STEM < "fusibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fusibilidad_n_rel" ] ]. fusible_a1 := a_rel_nonprd_intr_le & [ STEM < "fusible" >, SYNSEM.LKEYS.KEYREL.PRED "_fusible_a_rel" ]. fusible_n1 := n_intr_count_le & [ STEM < "fusible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fusible_n_rel" ] ]. fusiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "fusiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_fusiforme_a_rel" ]. fusiformemente_x1 := av_i_spr_le & [ STEM < "fusiformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_fusiformemente_x_rel" ]. fusil_n1 := n_intr_count_le & [ STEM < "fusil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_fusil_n_rel" ] ]. fusilamiento_n1 := n_trans_le & [ STEM < "fusilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_fusilamiento_n_rel" ]. fusilar_v := v_trans_np_le & [ STEM < "fusilar" >, SYNSEM.LKEYS.KEYREL.PRED "_fusilar_v_rel" ]. fusilero_n1 := n_intr_count_le & [ STEM < "fusilero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fusilero_n_rel" ] ]. fusión_n1 := n_trans_le & [ STEM < "fusión" >, SYNSEM.LKEYS.KEYREL.PRED "_fusión_n_rel" ]. fuso_n1 := n_intr_count_le & [ STEM < "fuso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuso_n_rel" ] ]. fusobacteria_n1 := n_intr_count_le & [ STEM < "fusobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fusobacteria_n_rel" ] ]. fusoespirilar_a1 := a_rel_nonprd_intr_le & [ STEM < "fusoespirilar" >, SYNSEM.LKEYS.KEYREL.PRED "_fusoespirilar_a_rel" ]. fusoespirilosis_n1 := n_intr_uncount_le & [ STEM < "fusoespirilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fusoespirilosis_n_rel" ] ]. fusoespiroquetosis_n1 := n_intr_uncount_le & [ STEM < "fusoespiroquetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fusoespiroquetosis_n_rel" ] ]. fusta_n1 := n_intr_count_le & [ STEM < "fusta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fusta_n_rel" ] ]. fuste_n1 := n_intr_count_le & [ STEM < "fuste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fuste_n_rel" ] ]. fustete_n1 := n_intr_count_le & [ STEM < "fustete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_fustete_n_rel" ] ]. fustigar_v := v_trans_np_le & [ STEM < "fustigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_fustigar_v_rel" ] ]. futbito_n1 := n_intr_uncount_le & [ STEM < "futbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_futbito_n_rel" ] ]. futbolero_a1 := a_rel_nonprd_intr_le & [ STEM < "futbolero" >, SYNSEM.LKEYS.KEYREL.PRED "_futbolero_a_rel" ]. futbolista_n1 := n_intr_count_le & [ STEM < "futbolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_futbolista_n_rel" ] ]. futbolístico_a1 := a_rel_nonprd_intr_le & [ STEM < "futbolístico" >, SYNSEM.LKEYS.KEYREL.PRED "_futbolístico_a_rel" ]. futilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "futilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_futilidad_n_rel" ] ]. futurismo_n1 := n_intr_uncount_le & [ STEM < "futurismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_futurismo_n_rel" ] ]. futurista_a1 := a_qual_intr_scopal_le & [ STEM < "futurista" >, SYNSEM.LKEYS.KEYREL.PRED "_futurista_a_rel" ]. futuro_a1 := a_adv_event_le & [ STEM < "futuro" >, SYNSEM.LKEYS.KEYREL.PRED "_futuro_a_rel" ]. futuro_a2 := a_rel_nonprd_intr_le & [ STEM < "futuro" >, SYNSEM.LKEYS.KEYREL.PRED "_futuro_a_rel" ]. futuro_n1 := n_intr_mass_le & [ STEM < "futuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_futuro_n_rel" ] ]. futurología_n1 := n_intr_uncount_le & [ STEM < "futurología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_futurología_n_rel" ] ]. futurístico_a1 := a_qual_intr_scopal_le & [ STEM < "futurístico" >, SYNSEM.LKEYS.KEYREL.PRED "_futurístico_a_rel" ]. fábrica_n1 := n_intr_count_le & [ STEM < "fábrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_fábrica_n_rel" ] ]. fábula_n1 := n_intr_count_le & [ STEM < "fábula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fábula_n_rel" ] ]. fácil_a1 := a_or_le & [ STEM < "fácil" >, SYNSEM.LKEYS.KEYREL.PRED "_fácil_a_rel" ]. fácilmente_x1 := av_i_spr_le & [ STEM < "fácilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_fácilmente_x_rel" ]. fácticamente_x1 := av_i_spr_le & [ STEM < "fácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fácticamente_x_rel" ]. fáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "fáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_fáctico_a_rel" ]. fágico_a1 := a_rel_nonprd_intr_le & [ STEM < "fágico" >, SYNSEM.LKEYS.KEYREL.PRED "_fágico_a_rel" ]. fálico_a1 := a_rel_nonprd_intr_le & [ STEM < "fálico" >, SYNSEM.LKEYS.KEYREL.PRED "_fálico_a_rel" ]. fármaco_n1 := n_intr_mass-or-count_le & [ STEM < "fármaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fármaco_n_rel" ] ]. fáticamente_x1 := av_i_spr_le & [ STEM < "fáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fáticamente_x_rel" ]. fático_a1 := a_rel_nonprd_intr_le & [ STEM < "fático" >, SYNSEM.LKEYS.KEYREL.PRED "_fático_a_rel" ]. fécula_n1 := n_intr_count_le & [ STEM < "fécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fécula_n_rel" ] ]. fémina_n1 := n_intr_count_le & [ STEM < "fémina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_fémina_n_rel" ] ]. fémur_n1 := n_ppcomp_count_le & [ STEM < "fémur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_fémur_n_rel" ] ]. fénix_n1 := n_intr_count_le & [ STEM < "fénix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_fénix_n_rel" ] ]. féresis_n1 := n_intr_uncount_le & [ STEM < "féresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_féresis_n_rel" ] ]. féretro_n1 := n_intr_count_le & [ STEM < "féretro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_féretro_n_rel" ] ]. férreamente_x1 := av_i_spr_le & [ STEM < "férreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_férreamente_x_rel" ]. férreo_a1 := a_rel_nonprd_intr_le & [ STEM < "férreo" >, SYNSEM.LKEYS.KEYREL.PRED "_férreo_a_rel" ]. férricamente_x1 := av_i_spr_le & [ STEM < "férricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_férricamente_x_rel" ]. férrico_a1 := a_rel_nonprd_intr_le & [ STEM < "férrico" >, SYNSEM.LKEYS.KEYREL.PRED "_férrico_a_rel" ]. fértil_a1 := a_qual_intr_scopal_le & [ STEM < "fértil" >, SYNSEM.LKEYS.KEYREL.PRED "_fértil_a_rel" ]. férula_n1 := n_intr_count_le & [ STEM < "férula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_férula_n_rel" ] ]. fétido_a1 := a_qual_intr_scopal_le & [ STEM < "fétido" >, SYNSEM.LKEYS.KEYREL.PRED "_fétido_a_rel" ]. fíbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "fíbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_fíbrico_a_rel" ]. física_n1 := n_intr_uncount_le & [ STEM < "física" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_física_n_rel" ] ]. físicamente_x1 := av_i_spr_le & [ STEM < "físicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_físicamente_x_rel" ]. físico-químicamente_x1 := av_i_spr_le & [ STEM < "físico-químicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_físico-químicamente_x_rel" ]. físico-químico_a1 := a_rel_nonprd_intr_le & [ STEM < "físico-químico" >, SYNSEM.LKEYS.KEYREL.PRED "_físico-químico_a_rel" ]. físico_a1 := a_rel_nonprd_intr_le & [ STEM < "físico" >, SYNSEM.LKEYS.KEYREL.PRED "_físico_a_rel" ]. físico_n1 := n_intr_count_le & [ STEM < "físico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_físico_n_rel" ] ]. físilmente_x1 := av_i_spr_le & [ STEM < "físilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_físilmente_x_rel" ]. fístula_n1 := n_intr_count_le & [ STEM < "fístula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fístula_n_rel" ] ]. fólico_a1 := a_rel_nonprd_intr_le & [ STEM < "fólico" >, SYNSEM.LKEYS.KEYREL.PRED "_fólico_a_rel" ]. fónico_a1 := a_rel_nonprd_intr_le & [ STEM < "fónico" >, SYNSEM.LKEYS.KEYREL.PRED "_fónico_a_rel" ]. fórceps_n1 := n_intr_count_le & [ STEM < "fórceps" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fórceps_n_rel" ] ]. fórmico_a1 := a_rel_nonprd_intr_le & [ STEM < "fórmico" >, SYNSEM.LKEYS.KEYREL.PRED "_fórmico_a_rel" ]. fórmula_n1 := n_intr_count_le & [ STEM < "fórmula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_fórmula_n_rel" ] ]. fórnix_n1 := n_intr_count_le & [ STEM < "fórnix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fórnix_n_rel" ] ]. fórnix_n2 := n_ppcomp_count_le & [ STEM < "fórnix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_fórnix_n_rel" ] ]. fórum_n1 := n_intr_count_le & [ STEM < "fórum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fórum_n_rel" ] ]. fósforo_n1 := n_intr_mass-or-count_le & [ STEM < "fósforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_fósforo_n_rel" ] ]. fósil_a1 := a_rel_nonprd_intr_le & [ STEM < "fósil" >, SYNSEM.LKEYS.KEYREL.PRED "_fósil_a_rel" ]. fósil_n1 := n_intr_count_le & [ STEM < "fósil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_fósil_n_rel" ] ]. fóticamente_x1 := av_i_spr_le & [ STEM < "fóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_fóticamente_x_rel" ]. fótico_a1 := a_rel_nonprd_intr_le & [ STEM < "fótico" >, SYNSEM.LKEYS.KEYREL.PRED "_fótico_a_rel" ]. fóvea_n1 := n_ppcomp_count_le & [ STEM < "fóvea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_fóvea_n_rel" ] ]. fúndico_a1 := a_rel_nonprd_intr_le & [ STEM < "fúndico" >, SYNSEM.LKEYS.KEYREL.PRED "_fúndico_a_rel" ]. fúnebre_a1 := a_rel_nonprd_intr_le & [ STEM < "fúnebre" >, SYNSEM.LKEYS.KEYREL.PRED "_fúnebre_a_rel" ]. fútbol_n1 := n_intr_uncount_le & [ STEM < "fútbol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_fútbol_n_rel" ] ]. fútil_a1 := a_qual_intr_scopal_le & [ STEM < "fútil" >, SYNSEM.LKEYS.KEYREL.PRED "_fútil_a_rel" ]. gabardina_n1 := n_intr_count_le & [ STEM < "gabardina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gabardina_n_rel" ] ]. gabarra_n1 := n_intr_count_le & [ STEM < "gabarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gabarra_n_rel" ] ]. gabarro_n1 := n_intr_count_le & [ STEM < "gabarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gabarro_n_rel" ] ]. gabinete_n1 := n_intr_count_le & [ STEM < "gabinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_gabinete_n_rel" ] ]. gabonés_a1 := a_rel_prd_le & [ STEM < "gabonés" >, SYNSEM.LKEYS.KEYREL.PRED "_gabonés_a_rel" ]. gabonés_n1 := n_intr_count_le & [ STEM < "gabonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gabonés_n_rel" ] ]. gabro_n1 := n_intr_count_le & [ STEM < "gabro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gabro_n_rel" ] ]. gabán_n1 := n_intr_count_le & [ STEM < "gabán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gabán_n_rel" ] ]. gacela_n1 := n_intr_count_le & [ STEM < "gacela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gacela_n_rel" ] ]. gacetilla_n1 := n_intr_count_le & [ STEM < "gacetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gacetilla_n_rel" ] ]. gacha_n1 := n_intr_count_le & [ STEM < "gacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gacha_n_rel" ] ]. gaditano_a1 := a_rel_prd_le & [ STEM < "gaditano" >, SYNSEM.LKEYS.KEYREL.PRED "_gaditano_a_rel" ]. gaditano_n1 := n_intr_count_le & [ STEM < "gaditano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gaditano_n_rel" ] ]. gadolinio_n1 := n_intr_mass_le & [ STEM < "gadolinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gadolinio_n_rel" ] ]. gadolinita_n1 := n_intr_count_le & [ STEM < "gadolinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gadolinita_n_rel" ] ]. gafas_n1 := n_intr_coll_le & [ STEM < "gafas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gafas_n_rel" ] ]. gahnita_n1 := n_intr_count_le & [ STEM < "gahnita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gahnita_n_rel" ] ]. gahnoespinela_n1 := n_intr_count_le & [ STEM < "gahnoespinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gahnoespinela_n_rel" ] ]. gaita_n1 := n_intr_count_le & [ STEM < "gaita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gaita_n_rel" ] ]. gaitero_n1 := n_intr_count_le & [ STEM < "gaitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gaitero_n_rel" ] ]. gajo_n1 := n_pseudo-part_le & [ STEM < "gajo" >, SYNSEM.LKEYS.KEYREL.PRED "_gajo_n_rel" ]. galactosa_n1 := n_intr_count_le & [ STEM < "galactosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_galactosa_n_rel" ] ]. galactóforo_a1 := a_rel_nonprd_intr_le & [ STEM < "galactóforo" >, SYNSEM.LKEYS.KEYREL.PRED "_galactóforo_a_rel" ]. galaicoportugués_a1 := a_rel_prd_le & [ STEM < "galaicoportugués" >, SYNSEM.LKEYS.KEYREL.PRED "_galaicoportugués_a_rel" ]. galaicoportugués_n1 := n_intr_count_le & [ STEM < "galaicoportugués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galaicoportugués_n_rel" ] ]. galalita_n1 := n_intr_count_le & [ STEM < "galalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_galalita_n_rel" ] ]. galante_a1 := a_qual_intr_ser_le & [ STEM < "galante" >, SYNSEM.LKEYS.KEYREL.PRED "_galante_a_rel" ]. galantemente_x1 := av_i_spr_le & [ STEM < "galantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_galantemente_x_rel" ]. galanteo_n1 := n_trans_le & [ STEM < "galanteo" >, SYNSEM.LKEYS.KEYREL.PRED "_galanteo_n_rel" ]. galantería_n1 := n_intr_mass-or-count_le & [ STEM < "galantería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galantería_n_rel" ] ]. galardonar_v := v_trans_np_le & [ STEM < "galardonar" >, SYNSEM.LKEYS.KEYREL.PRED "_galardonar_v_rel" ]. galardón_n1 := n_intr_count_le & [ STEM < "galardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galardón_n_rel" ] ]. galaxia_n1 := n_intr_count_le & [ STEM < "galaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_galaxia_n_rel" ] ]. galeaza_n1 := n_intr_count_le & [ STEM < "galeaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galeaza_n_rel" ] ]. galena_n1 := n_intr_count_le & [ STEM < "galena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galena_n_rel" ] ]. galeota_n1 := n_intr_count_le & [ STEM < "galeota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_galeota_n_rel" ] ]. galeote_n1 := n_intr_count_le & [ STEM < "galeote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galeote_n_rel" ] ]. galera_n1 := n_intr_count_le & [ STEM < "galera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galera_n_rel" ] ]. galerada_n1 := n_intr_count_le & [ STEM < "galerada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galerada_n_rel" ] ]. galerista_n1 := n_intr_count_le & [ STEM < "galerista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galerista_n_rel" ] ]. galerna_n1 := n_intr_count_le & [ STEM < "galerna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galerna_n_rel" ] ]. galería_n1 := n_intr_count_le & [ STEM < "galería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_galería_n_rel" ] ]. galeón_n1 := n_intr_count_le & [ STEM < "galeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galeón_n_rel" ] ]. galga_n1 := n_trans_le & [ STEM < "galga" >, SYNSEM.LKEYS.KEYREL.PRED "_galga_n_rel" ]. galgar_v := v_trans_np_le & [ STEM < "galgar" >, SYNSEM.LKEYS.KEYREL.PRED "_galgar_v_rel" ]. galgo_n1 := n_intr_count_le & [ STEM < "galgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_galgo_n_rel" ] ]. galicismo_n1 := n_intr_mass-or-count_le & [ STEM < "galicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galicismo_n_rel" ] ]. galio_n1 := n_intr_mass_le & [ STEM < "galio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_galio_n_rel" ] ]. galipodio_n1 := n_intr_count_le & [ STEM < "galipodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_galipodio_n_rel" ] ]. gallardete_n1 := n_intr_count_le & [ STEM < "gallardete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gallardete_n_rel" ] ]. gallardo_a1 := a_qual_intr_scopal_le & [ STEM < "gallardo" >, SYNSEM.LKEYS.KEYREL.PRED "_gallardo_a_rel" ]. gallardía_n1 := n_intr_mass_le & [ STEM < "gallardía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gallardía_n_rel" ] ]. gallego_a1 := a_rel_prd_le & [ STEM < "gallego" >, SYNSEM.LKEYS.KEYREL.PRED "_gallego_a_rel" ]. gallego_n1 := n_intr_count_le & [ STEM < "gallego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_gallego_n_rel" ] ]. galleta_n1 := n_intr_mass_le & [ STEM < "galleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galleta_n_rel" ] ]. galletero_n1 := n_intr_count_le & [ STEM < "galletero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galletero_n_rel" ] ]. gallina_n1 := n_intr_count_le & [ STEM < "gallina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gallina_n_rel" ] ]. gallinero_n1 := n_intr_count_le & [ STEM < "gallinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_gallinero_n_rel" ] ]. gallináceo_a1 := a_rel_nonprd_intr_le & [ STEM < "gallináceo" >, SYNSEM.LKEYS.KEYREL.PRED "_gallináceo_a_rel" ]. gallipavo_n1 := n_intr_count_le & [ STEM < "gallipavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gallipavo_n_rel" ] ]. gallipuente_n1 := n_intr_count_le & [ STEM < "gallipuente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gallipuente_n_rel" ] ]. gallito_n1 := n_intr_count_le & [ STEM < "gallito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gallito_n_rel" ] ]. gallo_n1 := n_intr_count_le & [ STEM < "gallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gallo_n_rel" ] ]. galo_a1 := a_rel_prd_le & [ STEM < "galo" >, SYNSEM.LKEYS.KEYREL.PRED "_galo_a_rel" ]. galo_n1 := n_intr_count_le & [ STEM < "galo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galo_n_rel" ] ]. galocha_n1 := n_intr_count_le & [ STEM < "galocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galocha_n_rel" ] ]. galocianina_n1 := n_intr_count_le & [ STEM < "galocianina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_galocianina_n_rel" ] ]. galop_n1 := n_intr_count_le & [ STEM < "galop" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galop_n_rel" ] ]. galopante_a1 := a_rel_nonprd_intr_le & [ STEM < "galopante" >, SYNSEM.LKEYS.KEYREL.PRED "_galopante_a_rel" ]. galopar_v := v_intr_le & [ STEM < "galopar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_galopar_v_rel" ] ]. galope_n1 := n_result_intr_le & [ STEM < "galope" >, SYNSEM.LKEYS.KEYREL.PRED "_galope_n_rel" ]. galvanismo_n1 := n_intr_uncount_le & [ STEM < "galvanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galvanismo_n_rel" ] ]. galvanización_n1 := n_trans_le & [ STEM < "galvanización" >, SYNSEM.LKEYS.KEYREL.PRED "_galvanización_n_rel" ]. galvanizado_n1 := n_trans_le & [ STEM < "galvanizado" >, SYNSEM.LKEYS.KEYREL.PRED "_galvanizado_n_rel" ]. galvanizar_v := v_trans_np_le & [ STEM < "galvanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_galvanizar_v_rel" ]. galvanoplásticamente_x1 := av_i_spr_le & [ STEM < "galvanoplásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_galvanoplásticamente_x_rel" ]. galvanoplástico_a1 := a_rel_nonprd_intr_le & [ STEM < "galvanoplástico" >, SYNSEM.LKEYS.KEYREL.PRED "_galvanoplástico_a_rel" ]. galvanoscopio_n1 := n_intr_count_le & [ STEM < "galvanoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galvanoscopio_n_rel" ] ]. galvanómetro_n1 := n_intr_count_le & [ STEM < "galvanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galvanómetro_n_rel" ] ]. galvánico_a1 := a_rel_nonprd_intr_le & [ STEM < "galvánico" >, SYNSEM.LKEYS.KEYREL.PRED "_galvánico_a_rel" ]. galáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "galáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_galáctico_a_rel" ]. galán_n1 := n_intr_count_le & [ STEM < "galán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galán_n_rel" ] ]. galénico_a1 := a_rel_nonprd_intr_le & [ STEM < "galénico" >, SYNSEM.LKEYS.KEYREL.PRED "_galénico_a_rel" ]. galés_a1 := a_rel_prd_le & [ STEM < "galés" >, SYNSEM.LKEYS.KEYREL.PRED "_galés_a_rel" ]. galés_n1 := n_intr_count_le & [ STEM < "galés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_galés_n_rel" ] ]. galón_n1 := n_intr_count_le & [ STEM < "galón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_galón_n_rel" ] ]. gamado_a1 := a_rel_nonprd_intr_le & [ STEM < "gamado" >, SYNSEM.LKEYS.KEYREL.PRED "_gamado_a_rel" ]. gamba_n1 := n_intr_count_le & [ STEM < "gamba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gamba_n_rel" ] ]. gamberrada_n1 := n_intr_count_le & [ STEM < "gamberrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gamberrada_n_rel" ] ]. gamberrismo_n1 := n_intr_uncount_le & [ STEM < "gamberrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gamberrismo_n_rel" ] ]. gamberro_n1 := n_intr_count_le & [ STEM < "gamberro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gamberro_n_rel" ] ]. gambiano_a1 := a_rel_prd_le & [ STEM < "gambiano" >, SYNSEM.LKEYS.KEYREL.PRED "_gambiano_a_rel" ]. gamechogo_n1 := n_intr_count_le & [ STEM < "gamechogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gamechogo_n_rel" ] ]. gameto_n1 := n_intr_count_le & [ STEM < "gameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gameto_n_rel" ] ]. gametocito_n1 := n_intr_count_le & [ STEM < "gametocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gametocito_n_rel" ] ]. gamma_n := n_intr_count_le & [ STEM < "gamma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_gamma_n_rel" ] ]. gammaglobulina_n1 := n_intr_mass-or-count_le & [ STEM < "gammaglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_gammaglobulina_n_rel" ] ]. gammagrafía_n1 := n_intr_count_le & [ STEM < "gammagrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gammagrafía_n_rel" ] ]. gammapatía_n1 := n_intr_uncount_pl_le & [ STEM < "gammapatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gammapatía_n_rel" ] ]. gammarradiografía_n1 := n_intr_count_le & [ STEM < "gammarradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gammarradiografía_n_rel" ] ]. gammopatía_n1 := n_intr_uncount_pl_le & [ STEM < "gammopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gammopatía_n_rel" ] ]. gamodemo_n1 := n_intr_count_le & [ STEM < "gamodemo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gamodemo_n_rel" ] ]. gamuza_n1 := n_intr_count_le & [ STEM < "gamuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gamuza_n_rel" ] ]. gamético_a1 := a_rel_nonprd_intr_le & [ STEM < "gamético" >, SYNSEM.LKEYS.KEYREL.PRED "_gamético_a_rel" ]. ganadero_a1 := a_rel_nonprd_intr_le & [ STEM < "ganadero" >, SYNSEM.LKEYS.KEYREL.PRED "_ganadero_a_rel" ]. ganadero_n1 := n_intr_count_le & [ STEM < "ganadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ganadero_n_rel" ] ]. ganadería_n1 := n_intr_uncount_pl_le & [ STEM < "ganadería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ganadería_n_rel" ] ]. ganado_n1 := n_intr_count_le & [ STEM < "ganado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ganado_n_rel" ] ]. ganador_a1 := a_rel_nonprd_intr_le & [ STEM < "ganador" >, SYNSEM.LKEYS.KEYREL.PRED "_ganador_a_rel" ]. ganador_n1 := n_subj-nom_le & [ STEM < "ganador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ganador_n_rel" ] ]. ganancia_n1 := n_trans_le & [ STEM < "ganancia" >, SYNSEM.LKEYS.KEYREL.PRED "_ganancia_n_rel" ]. ganancial_a1 := a_rel_nonprd_intr_le & [ STEM < "ganancial" >, SYNSEM.LKEYS.KEYREL.PRED "_ganancial_a_rel" ]. ganapán_n1 := n_intr_count_le & [ STEM < "ganapán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ganapán_n_rel" ] ]. ganar_v1 := v_intr_mrkd_np_le & [ STEM < "ganar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_ganar_v_rel" ] ]. ganar_v2 := v_trans_np*_io_le & [ STEM < "ganar" >, SYNSEM.LKEYS.KEYREL.PRED "_ganar_v_rel" ]. ganar_v3 := v_trans_np_le & [ STEM < "ganar" >, SYNSEM.LKEYS.KEYREL.PRED "_ganar_v_rel" ]. ganar_v4 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "ganar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ganar_v_rel" ] ] ]. ganar_v5 := v_non_pass_np*_mrkd_cp_prop_inf_sc_le & [ STEM < "ganar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ganar_v_rel" ] ] ]. ganar_v6 := v_pron_trans_np_le & [ STEM < "ganar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_hum, PRED "_ganar_v_rel" ] ]. ganchero_n1 := n_intr_count_le & [ STEM < "ganchero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ganchero_n_rel" ] ]. ganchillo_n1 := n_intr_count_le & [ STEM < "ganchillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ganchillo_n_rel" ] ]. gancho_n1 := n_intr_count_le & [ STEM < "gancho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gancho_n_rel" ] ]. ganchudo_a1 := a_qual_intr_ser_le & [ STEM < "ganchudo" >, SYNSEM.LKEYS.KEYREL.PRED "_ganchudo_a_rel" ]. gandulería_n1 := n_intr_uncount_pl_le & [ STEM < "gandulería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gandulería_n_rel" ] ]. gangliocito_n1 := n_intr_count_le & [ STEM < "gangliocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gangliocito_n_rel" ] ]. ganglionar_a1 := a_rel_nonprd_intr_le & [ STEM < "ganglionar" >, SYNSEM.LKEYS.KEYREL.PRED "_ganglionar_a_rel" ]. gangliósido_n1 := n_intr_count_le & [ STEM < "gangliósido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gangliósido_n_rel" ] ]. gangrena_n1 := n_intr_uncount_le & [ STEM < "gangrena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gangrena_n_rel" ] ]. gangrenoso_a1 := a_rel_nonprd_intr_le & [ STEM < "gangrenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gangrenoso_a_rel" ]. ganso_n1 := n_intr_count_le & [ STEM < "ganso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ganso_n_rel" ] ]. ganzúa_n1 := n_intr_count_le & [ STEM < "ganzúa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ganzúa_n_rel" ] ]. ganíster_n1 := n_intr_count_le & [ STEM < "ganíster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ganíster_n_rel" ] ]. garabatear_v1 := v_ditrans_cp_semi_ques_le & [ STEM < "garabatear" >, SYNSEM.LKEYS.KEYREL.PRED "_garabatear_v_rel" ]. garabatear_v2 := v_trans_np*_le & [ STEM < "garabatear" >, SYNSEM.LKEYS.KEYREL.PRED "_garabatear_v_rel" ]. garabato_n1 := n_intr_count_le & [ STEM < "garabato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_garabato_n_rel" ] ]. garaje_n1 := n_intr_count_le & [ STEM < "garaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_garaje_n_rel" ] ]. garante_a1 := a_qual_trans*_ser_le & [ STEM < "garante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_garante_a_rel" ] ]. garante_n1 := n_intr_count_le & [ STEM < "garante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_garante_n_rel" ] ]. garantizar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "garantizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_garantizar_v_rel" ] ]. garantizar_v2 := v_ditrans*_le & [ STEM < "garantizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_garantizar_v_rel" ] ]. garantizar_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "garantizar" >, SYNSEM.LKEYS.KEYREL.PRED "_garantizar_v_rel" ]. garantizar_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "garantizar" >, SYNSEM.LKEYS.KEYREL.PRED "_garantizar_v_rel" ]. garantía_n1 := n_intr_count_le & [ STEM < "garantía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_garantía_n_rel" ] ]. garbanzo_n1 := n_intr_count_le & [ STEM < "garbanzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garbanzo_n_rel" ] ]. garboso_a1 := a_qual_intr_ser_le & [ STEM < "garboso" >, SYNSEM.LKEYS.KEYREL.PRED "_garboso_a_rel" ]. garceta_n1 := n_intr_count_le & [ STEM < "garceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_garceta_n_rel" ] ]. gardenia_n1 := n_intr_count_le & [ STEM < "gardenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gardenia_n_rel" ] ]. garduña_n1 := n_intr_count_le & [ STEM < "garduña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_garduña_n_rel" ] ]. garfio_n1 := n_intr_count_le & [ STEM < "garfio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garfio_n_rel" ] ]. garganta_n1 := n_ppcomp_count_le & [ STEM < "garganta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_garganta_n_rel" ] ]. gargarismo_n1 := n_intr_count_le & [ STEM < "gargarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gargarismo_n_rel" ] ]. gargarizar_v := v_intr_le & [ STEM < "gargarizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gargarizar_v_rel" ] ]. garita_n1 := n_intr_count_le & [ STEM < "garita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_garita_n_rel" ] ]. garlopa_n1 := n_intr_count_le & [ STEM < "garlopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garlopa_n_rel" ] ]. garnacha_n1 := n_intr_count_le & [ STEM < "garnacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_garnacha_n_rel" ] ]. garnierita_n1 := n_intr_count_le & [ STEM < "garnierita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_garnierita_n_rel" ] ]. garra_n1 := n_intr_count_le & [ STEM < "garra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_garra_n_rel" ] ]. garrafa_n1 := n_intr_count_le & [ STEM < "garrafa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garrafa_n_rel" ] ]. garrafal_a1 := a_qual_intr_scopal_le & [ STEM < "garrafal" >, SYNSEM.LKEYS.KEYREL.PRED "_garrafal_a_rel" ]. garrapata_n1 := n_intr_count_le & [ STEM < "garrapata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_garrapata_n_rel" ] ]. garrapatear_v := v_trans_np*_le & [ STEM < "garrapatear" >, SYNSEM.LKEYS.KEYREL.PRED "_garrapatear_v_rel" ]. garrapiñar_v := v_trans_np_le & [ STEM < "garrapiñar" >, SYNSEM.LKEYS.KEYREL.PRED "_garrapiñar_v_rel" ]. garrote_n1 := n_intr_count_le & [ STEM < "garrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garrote_n_rel" ] ]. garrón_n1 := n_intr_count_le & [ STEM < "garrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_garrón_n_rel" ] ]. garrón_n2 := n_ppcomp_count_le & [ STEM < "garrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_garrón_n_rel" ] ]. garza_n1 := n_intr_count_le & [ STEM < "garza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_garza_n_rel" ] ]. gas_n1 := n_intr_mass_le & [ STEM < "gas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gas_n_rel" ] ]. gasa_n1 := n_intr_mass_le & [ STEM < "gasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasa_n_rel" ] ]. gascón_a1 := a_rel_prd_le & [ STEM < "gascón" >, SYNSEM.LKEYS.KEYREL.PRED "_gascón_a_rel" ]. gascón_n1 := n_intr_count_le & [ STEM < "gascón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gascón_n_rel" ] ]. gasear_v := v_trans_np_le & [ STEM < "gasear" >, SYNSEM.LKEYS.KEYREL.PRED "_gasear_v_rel" ]. gaseiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "gaseiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_gaseiforme_a_rel" ]. gaseiformemente_x1 := av_i_spr_le & [ STEM < "gaseiformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_gaseiformemente_x_rel" ]. gaseoducto_n1 := n_intr_count_le & [ STEM < "gaseoducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gaseoducto_n_rel" ] ]. gaseosa_n1 := n_intr_count_le & [ STEM < "gaseosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gaseosa_n_rel" ] ]. gaseoso_a1 := a_qual_intr_scopal_le & [ STEM < "gaseoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gaseoso_a_rel" ]. gasificable_a1 := a_rel_prd_le & [ STEM < "gasificable" >, SYNSEM.LKEYS.KEYREL.PRED "_gasificable_a_rel" ]. gasificación_n1 := n_trans_le & [ STEM < "gasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_gasificación_n_rel" ]. gasificador_n1 := n_intr_count_le & [ STEM < "gasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasificador_n_rel" ] ]. gasificar_v := v_trans_np_caus_le & [ STEM < "gasificar" >, SYNSEM.LKEYS.KEYREL.PRED "_gasificar_v_rel" ]. gasiformemente_x1 := av_i_spr_le & [ STEM < "gasiformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_gasiformemente_x_rel" ]. gasoducto_n1 := n_intr_count_le & [ STEM < "gasoducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasoducto_n_rel" ] ]. gasoil_n1 := n_intr_mass_le & [ STEM < "gasoil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gasoil_n_rel" ] ]. gasolina_n1 := n_intr_mass_le & [ STEM < "gasolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasolina_n_rel" ] ]. gasolinera_n1 := n_intr_count_le & [ STEM < "gasolinera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_gasolinera_n_rel" ] ]. gasolinero_n1 := n_intr_count_le & [ STEM < "gasolinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gasolinero_n_rel" ] ]. gasométricamente_x1 := av_i_spr_le & [ STEM < "gasométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gasométricamente_x_rel" ]. gasométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "gasométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_gasométrico_a_rel" ]. gastador_n1 := n_subj-nom_le & [ STEM < "gastador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gastador_n_rel" ] ]. gastar_v := v_trans_np_le & [ STEM < "gastar" >, SYNSEM.LKEYS.KEYREL.PRED "_gastar_v_rel" ]. gasterópodo_n1 := n_intr_count_le & [ STEM < "gasterópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gasterópodo_n_rel" ] ]. gasto_n1 := n_trans_le & [ STEM < "gasto" >, SYNSEM.LKEYS.KEYREL.PRED "_gasto_n_rel" ]. gastrocelo_n1 := n_intr_count_le & [ STEM < "gastrocelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gastrocelo_n_rel" ] ]. gastrocnemio_a1 := a_rel_nonprd_intr_le & [ STEM < "gastrocnemio" >, SYNSEM.LKEYS.KEYREL.PRED "_gastrocnemio_a_rel" ]. gastrocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "gastrocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_gastrocólico_a_rel" ]. gastroduodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "gastroduodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_gastroduodenal_a_rel" ]. gastroenterología_n1 := n_intr_uncount_le & [ STEM < "gastroenterología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gastroenterología_n_rel" ] ]. gastroepiploico_a1 := a_rel_nonprd_intr_le & [ STEM < "gastroepiploico" >, SYNSEM.LKEYS.KEYREL.PRED "_gastroepiploico_a_rel" ]. gastroesplénico_a1 := a_rel_nonprd_intr_le & [ STEM < "gastroesplénico" >, SYNSEM.LKEYS.KEYREL.PRED "_gastroesplénico_a_rel" ]. gastrofrénico_a1 := a_rel_nonprd_intr_le & [ STEM < "gastrofrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_gastrofrénico_a_rel" ]. gastrointestinal_a1 := a_rel_nonprd_intr_le & [ STEM < "gastrointestinal" >, SYNSEM.LKEYS.KEYREL.PRED "_gastrointestinal_a_rel" ]. gastronomía_n1 := n_intr_uncount_pl_le & [ STEM < "gastronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gastronomía_n_rel" ] ]. gastronómicamente_x1 := av_i_spr_le & [ STEM < "gastronómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gastronómicamente_x_rel" ]. gastronómico_a1 := a_rel_nonprd_intr_le & [ STEM < "gastronómico" >, SYNSEM.LKEYS.KEYREL.PRED "_gastronómico_a_rel" ]. gastropancreático_a1 := a_rel_nonprd_intr_le & [ STEM < "gastropancreático" >, SYNSEM.LKEYS.KEYREL.PRED "_gastropancreático_a_rel" ]. gastrónomo_n1 := n_intr_count_le & [ STEM < "gastrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gastrónomo_n_rel" ] ]. gasógeno_n1 := n_intr_count_le & [ STEM < "gasógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasógeno_n_rel" ] ]. gasóleo_n1 := n_intr_mass_le & [ STEM < "gasóleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gasóleo_n_rel" ] ]. gasómetro_n1 := n_intr_count_le & [ STEM < "gasómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gasómetro_n_rel" ] ]. gatear_v := v_intr_le & [ STEM < "gatear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_gatear_v_rel" ] ]. gatena_n1 := n_intr_count_le & [ STEM < "gatena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gatena_n_rel" ] ]. gatera_n1 := n_intr_count_le & [ STEM < "gatera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_gatera_n_rel" ] ]. gatillo_n1 := n_intr_count_le & [ STEM < "gatillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gatillo_n_rel" ] ]. gato_n1 := n_intr_count_le & [ STEM < "gato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gato_n_rel" ] ]. gaucho_n1 := n_intr_count_le & [ STEM < "gaucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gaucho_n_rel" ] ]. gaullista_n1 := n_intr_count_le & [ STEM < "gaullista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gaullista_n_rel" ] ]. gausianamente_x1 := av_i_spr_le & [ STEM < "gausianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gausianamente_x_rel" ]. gausiano_a1 := a_rel_nonprd_intr_le & [ STEM < "gausiano" >, SYNSEM.LKEYS.KEYREL.PRED "_gausiano_a_rel" ]. gausiómetro_n1 := n_intr_count_le & [ STEM < "gausiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gausiómetro_n_rel" ] ]. gauss_n := n_intr_count_le & [ STEM < "gauss" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_gauss_n_rel" ] ]. gaussiano_a1 := a_rel_nonprd_intr_le & [ STEM < "gaussiano" >, SYNSEM.LKEYS.KEYREL.PRED "_gaussiano_a_rel" ]. gavetero_n1 := n_intr_count_le & [ STEM < "gavetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gavetero_n_rel" ] ]. gavilla_n := n_group_le & [ STEM < "gavilla" >, SYNSEM.LKEYS.KEYREL.PRED "_gavilla_n_rel" ]. gavilán_n1 := n_intr_count_le & [ STEM < "gavilán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gavilán_n_rel" ] ]. gaviota_n1 := n_intr_count_le & [ STEM < "gaviota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gaviota_n_rel" ] ]. gavota_n1 := n_intr_count_le & [ STEM < "gavota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gavota_n_rel" ] ]. gay_a1 := a_rel_nonprd_intr_le & [ STEM < "gay" >, SYNSEM.LKEYS.KEYREL.PRED "_gay_a_rel" ]. gaylusita_n1 := n_intr_count_le & [ STEM < "gaylusita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gaylusita_n_rel" ] ]. gaza_n1 := n_intr_count_le & [ STEM < "gaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gaza_n_rel" ] ]. gazpacho_n1 := n_intr_count_le & [ STEM < "gazpacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gazpacho_n_rel" ] ]. gaélico_a1 := a_rel_nonprd_intr_le & [ STEM < "gaélico" >, SYNSEM.LKEYS.KEYREL.PRED "_gaélico_a_rel" ]. gañido_n1 := n_intr_uncount_pl_le & [ STEM < "gañido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gañido_n_rel" ] ]. geiser_n1 := n_intr_count_le & [ STEM < "geiser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_geiser_n_rel" ] ]. geisha_n1 := n_intr_count_le & [ STEM < "geisha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geisha_n_rel" ] ]. gel_n1 := n_intr_mass_le & [ STEM < "gel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gel_n_rel" ] ]. gelatina_n1 := n_intr_mass_le & [ STEM < "gelatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gelatina_n_rel" ] ]. gelatinización_n1 := n_trans_le & [ STEM < "gelatinización" >, SYNSEM.LKEYS.KEYREL.PRED "_gelatinización_n_rel" ]. gelatinizar_v := v_trans_np_caus_le & [ STEM < "gelatinizar" >, SYNSEM.LKEYS.KEYREL.PRED "_gelatinizar_v_rel" ]. gelatinosamente_x1 := av_i_spr_le & [ STEM < "gelatinosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gelatinosamente_x_rel" ]. gelatinoso_a1 := a_qual_intr_scopal_le & [ STEM < "gelatinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gelatinoso_a_rel" ]. gelenita_n1 := n_intr_mass-or-count_le & [ STEM < "gelenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_gelenita_n_rel" ] ]. gelificar_v := v_trans_np_le & [ STEM < "gelificar" >, SYNSEM.LKEYS.KEYREL.PRED "_gelificar_v_rel" ]. gelosa_n1 := n_intr_count_le & [ STEM < "gelosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gelosa_n_rel" ] ]. gelsemina_n1 := n_intr_count_le & [ STEM < "gelsemina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gelsemina_n_rel" ] ]. gelsolina_n1 := n_intr_count_le & [ STEM < "gelsolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gelsolina_n_rel" ] ]. gema_n1 := n_intr_count_le & [ STEM < "gema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gema_n_rel" ] ]. gemación_n1 := n_intr_uncount_le & [ STEM < "gemación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gemación_n_rel" ] ]. gemelo_a1 := a_rel_nonprd_intr_le & [ STEM < "gemelo" >, SYNSEM.LKEYS.KEYREL.PRED "_gemelo_a_rel" ]. gemelo_n1 := n_intr_count_le & [ STEM < "gemelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_gemelo_n_rel" ] ]. gemido_n1 := n_result_intr_le & [ STEM < "gemido" >, SYNSEM.LKEYS.KEYREL.PRED "_gemido_n_rel" ]. geminación_n1 := n_event-result_intr_le & [ STEM < "geminación" >, SYNSEM.LKEYS.KEYREL.PRED "_geminación_n_rel" ]. gemir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "gemir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gemir_v_rel" ] ]. gemir_v2 := v_ditrans_cp_ques_le & [ STEM < "gemir" >, SYNSEM.LKEYS.KEYREL.PRED "_gemir_v_rel" ]. gemir_v3 := v_ditrans*_le & [ STEM < "gemir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gemir_v_rel" ] ]. gemir_v4 := v_intr_le & [ STEM < "gemir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_gemir_v_rel" ] ]. gemología_n1 := n_intr_uncount_le & [ STEM < "gemología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gemología_n_rel" ] ]. gemólogo_n1 := n_intr_count_le & [ STEM < "gemólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gemólogo_n_rel" ] ]. gen_n1 := n_intr_count_le & [ STEM < "gen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gen_n_rel" ] ]. genciana_n1 := n_intr_mass_le & [ STEM < "genciana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_genciana_n_rel" ] ]. gendarme_n1 := n_intr_count_le & [ STEM < "gendarme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gendarme_n_rel" ] ]. gendarmería_n1 := n_intr_count_le & [ STEM < "gendarmería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_gendarmería_n_rel" ] ]. genealogista_n1 := n_intr_count_le & [ STEM < "genealogista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_genealogista_n_rel" ] ]. genealogía_n1 := n_intr_count_le & [ STEM < "genealogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genealogía_n_rel" ] ]. genealógicamente_x1 := av_i_spr_le & [ STEM < "genealógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_genealógicamente_x_rel" ]. genealógico_a1 := a_rel_nonprd_intr_le & [ STEM < "genealógico" >, SYNSEM.LKEYS.KEYREL.PRED "_genealógico_a_rel" ]. generacional_a1 := a_rel_nonprd_intr_le & [ STEM < "generacional" >, SYNSEM.LKEYS.KEYREL.PRED "_generacional_a_rel" ]. generacionalmente_x1 := av_i_spr_le & [ STEM < "generacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_generacionalmente_x_rel" ]. generación_n1 := n_trans_le & [ STEM < "generación" >, SYNSEM.LKEYS.KEYREL.PRED "_generación_n_rel" ]. generador_a1 := a_qual_trans*_ser_le & [ STEM < "generador" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_generador_a_rel" ] ]. generador_n1 := n_intr_count_le & [ STEM < "generador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_generador_n_rel" ] ]. general_a1 := a_qual_intr_scopal_le & [ STEM < "general" >, SYNSEM.LKEYS.KEYREL.PRED "_general_a_rel" ]. general_n1 := n_intr_count_le & [ STEM < "general" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_general_n_rel" ] ]. generalato_n1 := n_intr_uncount_le & [ STEM < "generalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_generalato_n_rel" ] ]. generalidad_n1 := n_intr_count_le & [ STEM < "generalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_generalidad_n_rel" ] ]. generalista_a1 := a_qual_intr_ser_le & [ STEM < "generalista" >, SYNSEM.LKEYS.KEYREL.PRED "_generalista_a_rel" ]. generalización_n1 := n_trans_le & [ STEM < "generalización" >, SYNSEM.LKEYS.KEYREL.PRED "_generalización_n_rel" ]. generalizador_n1 := n_intr_count_le & [ STEM < "generalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_generalizador_n_rel" ] ]. generalizar_v2 := v_trans_np_le & [ STEM < "generalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_generalizar_v_rel" ]. generalísimo_n1 := n_intr_count_le & [ STEM < "generalísimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_generalísimo_n_rel" ] ]. generar_v1 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "generar" >, SYNSEM.LKEYS.KEYREL.PRED "_generar_v_rel" ]. generar_v2 := v_trans_np_le & [ STEM < "generar" >, SYNSEM.LKEYS.KEYREL.PRED "_generar_v_rel" ]. generativismo_n1 := n_intr_uncount_le & [ STEM < "generativismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_generativismo_n_rel" ] ]. generativo_a1 := a_rel_nonprd_intr_le & [ STEM < "generativo" >, SYNSEM.LKEYS.KEYREL.PRED "_generativo_a_rel" ]. generatriz_a1 := a_rel_nonprd_intr_le & [ STEM < "generatriz" >, SYNSEM.LKEYS.KEYREL.PRED "_generatriz_a_rel" ]. generatriz_n1 := n_intr_count_le & [ STEM < "generatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_generatriz_n_rel" ] ]. generosamente_x1 := av_s_spr_le & [ STEM < "generosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_generosamente_x_rel" ]. generosamente_x2 := av_i_psthd_spr_le & [ STEM < "generosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_generosamente_x_rel" ]. generosidad_n1 := n_intr_mass-or-count_le & [ STEM < "generosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_generosidad_n_rel" ] ]. generoso_a1 := a_qual_intr_ser_le & [ STEM < "generoso" >, SYNSEM.LKEYS.KEYREL.PRED "_generoso_a_rel" ]. genesiología_n1 := n_intr_uncount_le & [ STEM < "genesiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genesiología_n_rel" ] ]. genetista_n1 := n_intr_count_le & [ STEM < "genetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_genetista_n_rel" ] ]. genial_a1 := a_adv_event_le & [ STEM < "genial" >, SYNSEM.LKEYS.KEYREL.PRED "_genial_a_rel" ]. genial_a2 := a_qual_intr_ser_le & [ STEM < "genial" >, SYNSEM.LKEYS.KEYREL.PRED "_genial_a_rel" ]. genialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "genialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genialidad_n_rel" ] ]. genialmente_x1 := av_i_spr_le & [ STEM < "genialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_genialmente_x_rel" ]. genicular_a1 := a_rel_nonprd_intr_le & [ STEM < "genicular" >, SYNSEM.LKEYS.KEYREL.PRED "_genicular_a_rel" ]. genio_n1 := n_intr_count_le & [ STEM < "genio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_genio_n_rel" ] ]. geniogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "geniogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_geniogloso_a_rel" ]. geniohiogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "geniohiogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_geniohiogloso_a_rel" ]. geniohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "geniohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_geniohioideo_a_rel" ]. genital_a1 := a_rel_nonprd_intr_le & [ STEM < "genital" >, SYNSEM.LKEYS.KEYREL.PRED "_genital_a_rel" ]. genitales_n1 := n_ppcomp_count_le & [ STEM < "genitales" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_genitales_n_rel" ] ]. genitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "genitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_genitivo_a_rel" ]. genitocrural_a1 := a_rel_nonprd_intr_le & [ STEM < "genitocrural" >, SYNSEM.LKEYS.KEYREL.PRED "_genitocrural_a_rel" ]. genitofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "genitofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_genitofemoral_a_rel" ]. genitoinguinal_a1 := a_rel_nonprd_intr_le & [ STEM < "genitoinguinal" >, SYNSEM.LKEYS.KEYREL.PRED "_genitoinguinal_a_rel" ]. genocida_n1 := n_intr_count_le & [ STEM < "genocida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_genocida_n_rel" ] ]. genograma_n1 := n_intr_count_le & [ STEM < "genograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_genograma_n_rel" ] ]. genomio_n1 := n_intr_count_le & [ STEM < "genomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_genomio_n_rel" ] ]. genoteca_n1 := n_intr_count_le & [ STEM < "genoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_genoteca_n_rel" ] ]. genovés_a1 := a_rel_prd_le & [ STEM < "genovés" >, SYNSEM.LKEYS.KEYREL.PRED "_genovés_a_rel" ]. genovés_n1 := n_intr_count_le & [ STEM < "genovés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_genovés_n_rel" ] ]. gente_n1 := n_intr_mass_le & [ STEM < "gente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gente_n_rel" ] ]. gentil_a1 := a_qual_intr_ser_le & [ STEM < "gentil" >, SYNSEM.LKEYS.KEYREL.PRED "_gentil_a_rel" ]. gentileza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "gentileza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gentileza_n_rel" ] ]. gentilicio_a1 := a_rel_prd_le & [ STEM < "gentilicio" >, SYNSEM.LKEYS.KEYREL.PRED "_gentilicio_a_rel" ]. gentilmente_x1 := av_i_spr_le & [ STEM < "gentilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_gentilmente_x_rel" ]. gentisato_n1 := n_intr_uncount_le & [ STEM < "gentisato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gentisato_n_rel" ] ]. gentuza_n1 := n_intr_coll_le & [ STEM < "gentuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gentuza_n_rel" ] ]. gentío_n1 := n_intr_coll_le & [ STEM < "gentío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gentío_n_rel" ] ]. genuflexión_n1 := n_intr_uncount_le & [ STEM < "genuflexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genuflexión_n_rel" ] ]. genuinamente_x1 := av_i_spr_le & [ STEM < "genuinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_genuinamente_x_rel" ]. genuino_a1 := a_qual_intr_scopal_le & [ STEM < "genuino" >, SYNSEM.LKEYS.KEYREL.PRED "_genuino_a_rel" ]. genéricamente_x1 := av_i_spr_le & [ STEM < "genéricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_genéricamente_x_rel" ]. genérico_a1 := a_qual_intr_scopal_le & [ STEM < "genérico" >, SYNSEM.LKEYS.KEYREL.PRED "_genérico_a_rel" ]. genéticamente_x1 := av_i_spr_le & [ STEM < "genéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_genéticamente_x_rel" ]. genético_a1 := a_rel_nonprd_intr_le & [ STEM < "genético" >, SYNSEM.LKEYS.KEYREL.PRED "_genético_a_rel" ]. geoarqueología_n1 := n_intr_uncount_le & [ STEM < "geoarqueología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geoarqueología_n_rel" ] ]. geobiotecnología_n1 := n_intr_uncount_le & [ STEM < "geobiotecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geobiotecnología_n_rel" ] ]. geocentro_n1 := n_intr_count_le & [ STEM < "geocentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_geocentro_n_rel" ] ]. geocronología_n1 := n_intr_uncount_le & [ STEM < "geocronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geocronología_n_rel" ] ]. geocronometraje_n1 := n_intr_uncount_le & [ STEM < "geocronometraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geocronometraje_n_rel" ] ]. geocéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "geocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_geocéntrico_a_rel" ]. geoda_n1 := n_intr_count_le & [ STEM < "geoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_geoda_n_rel" ] ]. geodesista_n1 := n_intr_count_le & [ STEM < "geodesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geodesista_n_rel" ] ]. geodesta_n1 := n_intr_count_le & [ STEM < "geodesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geodesta_n_rel" ] ]. geodésicamente_x1 := av_i_spr_le & [ STEM < "geodésicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geodésicamente_x_rel" ]. geodésico_a1 := a_rel_nonprd_intr_le & [ STEM < "geodésico" >, SYNSEM.LKEYS.KEYREL.PRED "_geodésico_a_rel" ]. geodéticamente_x1 := av_i_spr_le & [ STEM < "geodéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geodéticamente_x_rel" ]. geodético_a1 := a_rel_nonprd_intr_le & [ STEM < "geodético" >, SYNSEM.LKEYS.KEYREL.PRED "_geodético_a_rel" ]. geoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "geoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_geoeléctrico_a_rel" ]. geoestacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "geoestacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_geoestacionario_a_rel" ]. geofractura_n1 := n_intr_count_le & [ STEM < "geofractura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geofractura_n_rel" ] ]. geofísicamente_x1 := av_i_spr_le & [ STEM < "geofísicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geofísicamente_x_rel" ]. geofísico_a1 := a_rel_nonprd_intr_le & [ STEM < "geofísico" >, SYNSEM.LKEYS.KEYREL.PRED "_geofísico_a_rel" ]. geofísico_n1 := n_intr_count_le & [ STEM < "geofísico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geofísico_n_rel" ] ]. geogonía_n1 := n_intr_uncount_pl_le & [ STEM < "geogonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geogonía_n_rel" ] ]. geografía_n1 := n_intr_uncount_pl_le & [ STEM < "geografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geografía_n_rel" ] ]. geográficamente_x1 := av_s_le & [ STEM < "geográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geográficamente_x_rel" ]. geográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "geográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_geográfico_a_rel" ]. geohidrología_n1 := n_intr_uncount_le & [ STEM < "geohidrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geohidrología_n_rel" ] ]. geohidrológicamente_x1 := av_i_spr_le & [ STEM < "geohidrológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geohidrológicamente_x_rel" ]. geohidrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "geohidrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_geohidrológico_a_rel" ]. geología_n1 := n_intr_uncount_le & [ STEM < "geología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geología_n_rel" ] ]. geológicamente_x1 := av_i_spr_le & [ STEM < "geológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geológicamente_x_rel" ]. geológico_a1 := a_rel_nonprd_intr_le & [ STEM < "geológico" >, SYNSEM.LKEYS.KEYREL.PRED "_geológico_a_rel" ]. geomagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "geomagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_geomagnético_a_rel" ]. geomancia_n1 := n_intr_uncount_le & [ STEM < "geomancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geomancia_n_rel" ] ]. geometría_n1 := n_intr_uncount_le & [ STEM < "geometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geometría_n_rel" ] ]. geometría_n2 := n_intr_count_le & [ STEM < "geometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geometría_n_rel" ] ]. geomorfología_n1 := n_intr_uncount_le & [ STEM < "geomorfología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geomorfología_n_rel" ] ]. geomorfológico_a1 := a_rel_nonprd_intr_le & [ STEM < "geomorfológico" >, SYNSEM.LKEYS.KEYREL.PRED "_geomorfológico_a_rel" ]. geométricamente_x1 := av_i_spr_le & [ STEM < "geométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geométricamente_x_rel" ]. geométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "geométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_geométrico_a_rel" ]. geomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "geomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_geomórfico_a_rel" ]. geopolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "geopolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_geopolítico_a_rel" ]. geoquímicamente_x1 := av_i_spr_le & [ STEM < "geoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geoquímicamente_x_rel" ]. geoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "geoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_geoquímico_a_rel" ]. georgiano_a1 := a_rel_prd_le & [ STEM < "georgiano" >, SYNSEM.LKEYS.KEYREL.PRED "_georgiano_a_rel" ]. georgiano_n1 := n_intr_count_le & [ STEM < "georgiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_georgiano_n_rel" ] ]. geosfera_n1 := n_intr_count_le & [ STEM < "geosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_geosfera_n_rel" ] ]. geostrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "geostrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_geostrófico_a_rel" ]. geostáticamente_x1 := av_i_spr_le & [ STEM < "geostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_geostáticamente_x_rel" ]. geostático_a1 := a_rel_nonprd_intr_le & [ STEM < "geostático" >, SYNSEM.LKEYS.KEYREL.PRED "_geostático_a_rel" ]. geotectónico_a1 := a_rel_nonprd_intr_le & [ STEM < "geotectónico" >, SYNSEM.LKEYS.KEYREL.PRED "_geotectónico_a_rel" ]. geotextil_a1 := a_rel_nonprd_intr_le & [ STEM < "geotextil" >, SYNSEM.LKEYS.KEYREL.PRED "_geotextil_a_rel" ]. geotextil_n1 := n_intr_count_le & [ STEM < "geotextil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_geotextil_n_rel" ] ]. geotropismo_n1 := n_intr_uncount_le & [ STEM < "geotropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geotropismo_n_rel" ] ]. geotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "geotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_geotrópico_a_rel" ]. geotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "geotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_geotécnico_a_rel" ]. geotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "geotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_geotérmico_a_rel" ]. geranio_n1 := n_intr_count_le & [ STEM < "geranio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_geranio_n_rel" ] ]. geraniol_n1 := n_intr_count_le & [ STEM < "geraniol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_geraniol_n_rel" ] ]. gerencia_n1 := n_intr_count_le & [ STEM < "gerencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_gerencia_n_rel" ] ]. gerencial_a1 := a_rel_nonprd_intr_le & [ STEM < "gerencial" >, SYNSEM.LKEYS.KEYREL.PRED "_gerencial_a_rel" ]. gerente_n1 := n_intr_count_le & [ STEM < "gerente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gerente_n_rel" ] ]. geriatra_n1 := n_intr_count_le & [ STEM < "geriatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geriatra_n_rel" ] ]. geriatría_n1 := n_intr_uncount_pl_le & [ STEM < "geriatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geriatría_n_rel" ] ]. geriátrico_a1 := a_rel_nonprd_intr_le & [ STEM < "geriátrico" >, SYNSEM.LKEYS.KEYREL.PRED "_geriátrico_a_rel" ]. germanio_n1 := n_intr_mass_le & [ STEM < "germanio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_germanio_n_rel" ] ]. germanismo_n1 := n_intr_mass-or-count_le & [ STEM < "germanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_germanismo_n_rel" ] ]. germanizar_v := v_trans_np_le & [ STEM < "germanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_germanizar_v_rel" ]. germano_a1 := a_rel_prd_le & [ STEM < "germano" >, SYNSEM.LKEYS.KEYREL.PRED "_germano_a_rel" ]. germano_n1 := n_intr_count_le & [ STEM < "germano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_germano_n_rel" ] ]. germanía_n1 := n_intr_coll_le & [ STEM < "germanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_germanía_n_rel" ] ]. germanófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "germanófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_germanófilo_a_rel" ]. germanófilo_n1 := n_intr_count_le & [ STEM < "germanófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_germanófilo_n_rel" ] ]. germanófono_n1 := n_intr_count_le & [ STEM < "germanófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_germanófono_n_rel" ] ]. germectomía_n1 := n_intr_count_le & [ STEM < "germectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_germectomía_n_rel" ] ]. germen_n1 := n_intr_count_le & [ STEM < "germen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_germen_n_rel" ] ]. germicida_a1 := a_rel_nonprd_intr_le & [ STEM < "germicida" >, SYNSEM.LKEYS.KEYREL.PRED "_germicida_a_rel" ]. germicida_n1 := n_intr_mass_le & [ STEM < "germicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_germicida_n_rel" ] ]. germinación_n1 := n_event-result_intr_le & [ STEM < "germinación" >, SYNSEM.LKEYS.KEYREL.PRED "_germinación_n_rel" ]. germinador_n1 := n_intr_count_le & [ STEM < "germinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_germinador_n_rel" ] ]. germinal_a1 := a_rel_nonprd_intr_le & [ STEM < "germinal" >, SYNSEM.LKEYS.KEYREL.PRED "_germinal_a_rel" ]. germinar_v := v_unacc_perf_le & [ STEM < "germinar" >, SYNSEM.LKEYS.KEYREL.PRED "_germinar_v_rel" ]. germinativo_a1 := a_rel_nonprd_intr_le & [ STEM < "germinativo" >, SYNSEM.LKEYS.KEYREL.PRED "_germinativo_a_rel" ]. germánico_a1 := a_rel_prd_le & [ STEM < "germánico" >, SYNSEM.LKEYS.KEYREL.PRED "_germánico_a_rel" ]. gerodontología_n1 := n_intr_uncount_le & [ STEM < "gerodontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gerodontología_n_rel" ] ]. gerontología_n1 := n_intr_uncount_le & [ STEM < "gerontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gerontología_n_rel" ] ]. gerontólogo_n1 := n_intr_count_le & [ STEM < "gerontólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gerontólogo_n_rel" ] ]. gerundense_a1 := a_rel_prd_le & [ STEM < "gerundense" >, SYNSEM.LKEYS.KEYREL.PRED "_gerundense_a_rel" ]. gerundense_n1 := n_intr_count_le & [ STEM < "gerundense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gerundense_n_rel" ] ]. gestacional_a1 := a_rel_nonprd_intr_le & [ STEM < "gestacional" >, SYNSEM.LKEYS.KEYREL.PRED "_gestacional_a_rel" ]. gestacionalmente_x1 := av_i_spr_le & [ STEM < "gestacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_gestacionalmente_x_rel" ]. gestación_n1 := n_trans_le & [ STEM < "gestación" >, SYNSEM.LKEYS.KEYREL.PRED "_gestación_n_rel" ]. gestante_a1 := a_rel_nonprd_intr_le & [ STEM < "gestante" >, SYNSEM.LKEYS.KEYREL.PRED "_gestante_a_rel" ]. gestar_v := v_trans_np*_le & [ STEM < "gestar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_ani_hum_pro_sem, PRED "_gestar_v_rel" ] ]. gesticulación_n1 := n_result_intr_le & [ STEM < "gesticulación" >, SYNSEM.LKEYS.KEYREL.PRED "_gesticulación_n_rel" ]. gesticular_v := v_intr_le & [ STEM < "gesticular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gesticular_v_rel" ] ]. gestionable_a1 := a_qual_intr_scopal_le & [ STEM < "gestionable" >, SYNSEM.LKEYS.KEYREL.PRED "_gestionable_a_rel" ]. gestionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "gestionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gestionar_v_rel" ] ]. gestionar_v2 := v_trans_np_le & [ STEM < "gestionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gestionar_v_rel" ] ]. gestión_n1 := n_trans_le & [ STEM < "gestión" >, SYNSEM.LKEYS.KEYREL.PRED "_gestión_n_rel" ]. gesto_n1 := n_intr_count_le & [ STEM < "gesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_gesto_n_rel" ] ]. gestor_a1 := a_rel_nonprd_intr_le & [ STEM < "gestor" >, SYNSEM.LKEYS.KEYREL.PRED "_gestor_a_rel" ]. gestor_n1 := n_subj-nom_le & [ STEM < "gestor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gestor_n_rel" ] ]. gestoría_n1 := n_intr_count_le & [ STEM < "gestoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_gestoría_n_rel" ] ]. geto_n1 := n_intr_count_le & [ STEM < "geto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_geto_n_rel" ] ]. geófito_n1 := n_intr_count_le & [ STEM < "geófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_geófito_n_rel" ] ]. geógrafo_n1 := n_intr_count_le & [ STEM < "geógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geógrafo_n_rel" ] ]. geólogo_n1 := n_intr_count_le & [ STEM < "geólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geólogo_n_rel" ] ]. geómetra_n1 := n_intr_count_le & [ STEM < "geómetra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_geómetra_n_rel" ] ]. ghaneano_n1 := n_intr_count_le & [ STEM < "ghaneano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ghaneano_n_rel" ] ]. ghetto_n1 := n_intr_count_le & [ STEM < "ghetto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ghetto_n_rel" ] ]. giba_n1 := n_intr_count_le & [ STEM < "giba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giba_n_rel" ] ]. gibelino_n1 := n_intr_count_le & [ STEM < "gibelino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gibelino_n_rel" ] ]. gibraltareño_a1 := a_rel_prd_le & [ STEM < "gibraltareño" >, SYNSEM.LKEYS.KEYREL.PRED "_gibraltareño_a_rel" ]. gibraltareño_n1 := n_intr_count_le & [ STEM < "gibraltareño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gibraltareño_n_rel" ] ]. gibón_n1 := n_intr_count_le & [ STEM < "gibón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gibón_n_rel" ] ]. giga_n := n_intr_count_le & [ STEM < "giga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_giga_n_rel" ] ]. gigabits_por_segundo_n := n_intr_count_le & [ STEM < "gigabits_por_segundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_gigabits_por_segundo_n_rel" ] ]. gigabyte_n := n_intr_count_le & [ STEM < "gigabyte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_gigabyte_n_rel" ] ]. gigante_a1 := a_rel_nonprd_intr_le & [ STEM < "gigante" >, SYNSEM.LKEYS.KEYREL.PRED "_gigante_a_rel" ]. gigante_n1 := n_intr_count_le & [ STEM < "gigante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gigante_n_rel" ] ]. gigantesco_a1 := a_rel_prd_le & [ STEM < "gigantesco" >, SYNSEM.LKEYS.KEYREL.PRED "_gigantesco_a_rel" ]. gigantismo_n1 := n_intr_uncount_le & [ STEM < "gigantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gigantismo_n_rel" ] ]. gigantocito_n1 := n_intr_count_le & [ STEM < "gigantocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gigantocito_n_rel" ] ]. gigaocteto_n := n_intr_count_le & [ STEM < "gigaocteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_gigaocteto_n_rel" ] ]. gigoló_n1 := n_intr_count_le & [ STEM < "gigoló" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gigoló_n_rel" ] ]. gijonense_n1 := n_intr_count_le & [ STEM < "gijonense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gijonense_n_rel" ] ]. gilsonita_n1 := n_intr_count_le & [ STEM < "gilsonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gilsonita_n_rel" ] ]. gimnasia_n1 := n_intr_mass_le & [ STEM < "gimnasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gimnasia_n_rel" ] ]. gimnasio_n1 := n_intr_count_le & [ STEM < "gimnasio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_gimnasio_n_rel" ] ]. gimnasta_n1 := n_intr_count_le & [ STEM < "gimnasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gimnasta_n_rel" ] ]. gimnobelídeo_n1 := n_intr_count_le & [ STEM < "gimnobelídeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gimnobelídeo_n_rel" ] ]. gimnosperma_n1 := n_intr_count_le & [ STEM < "gimnosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gimnosperma_n_rel" ] ]. gimnástico_a1 := a_rel_nonprd_intr_le & [ STEM < "gimnástico" >, SYNSEM.LKEYS.KEYREL.PRED "_gimnástico_a_rel" ]. gimotear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "gimotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gimotear_v_rel" ] ]. gimotear_v2 := v_ditrans*_le & [ STEM < "gimotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_gimotear_v_rel" ] ]. gimoteo_n1 := n_result_intr_le & [ STEM < "gimoteo" >, SYNSEM.LKEYS.KEYREL.PRED "_gimoteo_n_rel" ]. ginebra_n1 := n_intr_mass_le & [ STEM < "ginebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ginebra_n_rel" ] ]. ginebrino_a1 := a_rel_prd_le & [ STEM < "ginebrino" >, SYNSEM.LKEYS.KEYREL.PRED "_ginebrino_a_rel" ]. ginebrino_n1 := n_intr_count_le & [ STEM < "ginebrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ginebrino_n_rel" ] ]. ginecocracia_n1 := n_intr_uncount_pl_le & [ STEM < "ginecocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ginecocracia_n_rel" ] ]. ginecología_n1 := n_intr_uncount_le & [ STEM < "ginecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ginecología_n_rel" ] ]. ginecológico_a1 := a_rel_nonprd_intr_le & [ STEM < "ginecológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ginecológico_a_rel" ]. ginecomastia_n1 := n_intr_uncount_le & [ STEM < "ginecomastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ginecomastia_n_rel" ] ]. ginecomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "ginecomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_ginecomórfico_a_rel" ]. ginecólogo_n1 := n_intr_count_le & [ STEM < "ginecólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ginecólogo_n_rel" ] ]. gingival_a1 := a_rel_nonprd_intr_le & [ STEM < "gingival" >, SYNSEM.LKEYS.KEYREL.PRED "_gingival_a_rel" ]. gingivectomía_n1 := n_intr_uncount_le & [ STEM < "gingivectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivectomía_n_rel" ] ]. gingivoaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "gingivoaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_gingivoaxial_a_rel" ]. gingivobucoaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "gingivobucoaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_gingivobucoaxial_a_rel" ]. gingivolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "gingivolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_gingivolabial_a_rel" ]. gingivolinguoaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "gingivolinguoaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_gingivolinguoaxial_a_rel" ]. gingivoplastia_n1 := n_intr_uncount_le & [ STEM < "gingivoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivoplastia_n_rel" ] ]. gingivorragia_n1 := n_intr_uncount_le & [ STEM < "gingivorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivorragia_n_rel" ] ]. gingivotomía_n1 := n_intr_count_le & [ STEM < "gingivotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivotomía_n_rel" ] ]. ginocardato_n1 := n_intr_count_le & [ STEM < "ginocardato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ginocardato_n_rel" ] ]. gipsita_n1 := n_intr_count_le & [ STEM < "gipsita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gipsita_n_rel" ] ]. gira_n1 := n_intr_count_le & [ STEM < "gira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gira_n_rel" ] ]. girable_a1 := a_rel_prd_le & [ STEM < "girable" >, SYNSEM.LKEYS.KEYREL.PRED "_girable_a_rel" ]. giración_n1 := n_trans_le & [ STEM < "giración" >, SYNSEM.LKEYS.KEYREL.PRED "_giración_n_rel" ]. giradiscos_n1 := n_intr_count_le & [ STEM < "giradiscos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giradiscos_n_rel" ] ]. girador_n1 := n_intr_count_le & [ STEM < "girador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_girador_n_rel" ] ]. giramachos_n1 := n_intr_count_le & [ STEM < "giramachos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giramachos_n_rel" ] ]. girar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "girar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_girar_v_rel" ] ] ]. girar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "girar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_girar_v_rel" ] ] ]. girar_v3 := v_trans_np_lcomp_dir*_le & [ STEM < "girar" >, SYNSEM.LKEYS.KEYREL.PRED "_girar_v_rel" ]. girar_v4 := v_unacc_lcomp_dir*_le & [ STEM < "girar" >, SYNSEM.LKEYS.KEYREL.PRED "_girar_v_rel" ]. girasol_n1 := n_intr_count_le & [ STEM < "girasol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_girasol_n_rel" ] ]. giratorio_a1 := a_rel_prd_le & [ STEM < "giratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_giratorio_a_rel" ]. giro_n1 := n_event-result_intr_le & [ STEM < "giro" >, SYNSEM.LKEYS.KEYREL.PRED "_giro_n_rel" ]. giroide_n1 := n_intr_count_le & [ STEM < "giroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giroide_n_rel" ] ]. girola_n1 := n_intr_count_le & [ STEM < "girola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_girola_n_rel" ] ]. giromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "giromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_giromagnético_a_rel" ]. giroscopio_n1 := n_intr_count_le & [ STEM < "giroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giroscopio_n_rel" ] ]. giroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "giroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_giroscópico_a_rel" ]. girostáticamente_x1 := av_i_spr_le & [ STEM < "girostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_girostáticamente_x_rel" ]. girostático_a1 := a_rel_nonprd_intr_le & [ STEM < "girostático" >, SYNSEM.LKEYS.KEYREL.PRED "_girostático_a_rel" ]. girón_n1 := n_intr_count_le & [ STEM < "girón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_girón_n_rel" ] ]. giróscopo_n1 := n_intr_count_le & [ STEM < "giróscopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_giróscopo_n_rel" ] ]. gitano_a1 := a_rel_nonprd_intr_le & [ STEM < "gitano" >, SYNSEM.LKEYS.KEYREL.PRED "_gitano_a_rel" ]. gitano_n1 := n_intr_count_le & [ STEM < "gitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gitano_n_rel" ] ]. gitoxina_n1 := n_intr_count_le & [ STEM < "gitoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gitoxina_n_rel" ] ]. glabela_n1 := n_intr_count_le & [ STEM < "glabela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glabela_n_rel" ] ]. glabro_a1 := a_qual_intr_ser_le & [ STEM < "glabro" >, SYNSEM.LKEYS.KEYREL.PRED "_glabro_a_rel" ]. glaciación_n1 := n_intr_count_le & [ STEM < "glaciación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glaciación_n_rel" ] ]. glacial_a1 := a_rel_nonprd_intr_le & [ STEM < "glacial" >, SYNSEM.LKEYS.KEYREL.PRED "_glacial_a_rel" ]. glaciar_a1 := a_rel_nonprd_intr_le & [ STEM < "glaciar" >, SYNSEM.LKEYS.KEYREL.PRED "_glaciar_a_rel" ]. glaciar_n1 := n_intr_count_le & [ STEM < "glaciar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_glaciar_n_rel" ] ]. glaciología_n1 := n_intr_uncount_le & [ STEM < "glaciología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glaciología_n_rel" ] ]. glaciárico_a1 := a_rel_nonprd_intr_le & [ STEM < "glaciárico" >, SYNSEM.LKEYS.KEYREL.PRED "_glaciárico_a_rel" ]. glacé_a1 := a_rel_nonprd_intr_le & [ STEM < "glacé" >, SYNSEM.LKEYS.KEYREL.PRED "_glacé_a_rel" ]. gladiador_n1 := n_subj-nom_le & [ STEM < "gladiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gladiador_n_rel" ] ]. gladiolo_n1 := n_intr_count_le & [ STEM < "gladiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gladiolo_n_rel" ] ]. gladíolo_n1 := n_intr_count_le & [ STEM < "gladíolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gladíolo_n_rel" ] ]. glande_n1 := n_ppcomp_count_le & [ STEM < "glande" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_glande_n_rel" ] ]. glandular_a1 := a_rel_nonprd_intr_le & [ STEM < "glandular" >, SYNSEM.LKEYS.KEYREL.PRED "_glandular_a_rel" ]. glasear_v := v_trans_np_le & [ STEM < "glasear" >, SYNSEM.LKEYS.KEYREL.PRED "_glasear_v_rel" ]. glaserita_n1 := n_intr_count_le & [ STEM < "glaserita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glaserita_n_rel" ] ]. glauberita_n1 := n_intr_count_le & [ STEM < "glauberita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glauberita_n_rel" ] ]. glauco_a1 := a_qual_intr_ser_le & [ STEM < "glauco" >, SYNSEM.LKEYS.KEYREL.PRED "_glauco_a_rel" ]. glaucodota_n1 := n_intr_count_le & [ STEM < "glaucodota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glaucodota_n_rel" ] ]. glaucomatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "glaucomatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_glaucomatoso_a_rel" ]. glauconita_n1 := n_intr_count_le & [ STEM < "glauconita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glauconita_n_rel" ] ]. gleba_n1 := n_intr_count_le & [ STEM < "gleba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gleba_n_rel" ] ]. glenohumeral_a1 := a_rel_nonprd_intr_le & [ STEM < "glenohumeral" >, SYNSEM.LKEYS.KEYREL.PRED "_glenohumeral_a_rel" ]. glenoide_a1 := a_rel_nonprd_intr_le & [ STEM < "glenoide" >, SYNSEM.LKEYS.KEYREL.PRED "_glenoide_a_rel" ]. glenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "glenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_glenoideo_a_rel" ]. glera_n1 := n_intr_count_le & [ STEM < "glera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glera_n_rel" ] ]. glial_a1 := a_rel_nonprd_intr_le & [ STEM < "glial" >, SYNSEM.LKEYS.KEYREL.PRED "_glial_a_rel" ]. gliceraldehído_n1 := n_intr_mass_le & [ STEM < "gliceraldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gliceraldehído_n_rel" ] ]. glicerina_n1 := n_intr_mass-or-count_le & [ STEM < "glicerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_glicerina_n_rel" ] ]. glicerofosfato_n1 := n_intr_count_le & [ STEM < "glicerofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicerofosfato_n_rel" ] ]. glicerofosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "glicerofosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_glicerofosfórico_a_rel" ]. glicerol_n1 := n_intr_count_le & [ STEM < "glicerol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glicerol_n_rel" ] ]. glicidol_n1 := n_intr_count_le & [ STEM < "glicidol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicidol_n_rel" ] ]. glicina_n1 := n_intr_mass_le & [ STEM < "glicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glicina_n_rel" ] ]. glicinato_n1 := n_intr_count_le & [ STEM < "glicinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicinato_n_rel" ] ]. glicirrina_n1 := n_intr_count_le & [ STEM < "glicirrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicirrina_n_rel" ] ]. glicocola_n1 := n_intr_count_le & [ STEM < "glicocola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicocola_n_rel" ] ]. glicocálix_n1 := n_intr_count_le & [ STEM < "glicocálix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glicocálix_n_rel" ] ]. glicoforina_n1 := n_intr_count_le & [ STEM < "glicoforina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glicoforina_n_rel" ] ]. glicol_n1 := n_intr_mass-or-count_le & [ STEM < "glicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_glicol_n_rel" ] ]. glicolato_n1 := n_intr_count_le & [ STEM < "glicolato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicolato_n_rel" ] ]. glicolonitrilo_n1 := n_intr_count_le & [ STEM < "glicolonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicolonitrilo_n_rel" ] ]. glicolípido_n1 := n_intr_count_le & [ STEM < "glicolípido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glicolípido_n_rel" ] ]. glicoproteína_n1 := n_intr_count_le & [ STEM < "glicoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicoproteína_n_rel" ] ]. glicógeno_n1 := n_intr_count_le & [ STEM < "glicógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicógeno_n_rel" ] ]. glicólicamente_x1 := av_i_spr_le & [ STEM < "glicólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_glicólicamente_x_rel" ]. glicólico_a1 := a_rel_nonprd_intr_le & [ STEM < "glicólico" >, SYNSEM.LKEYS.KEYREL.PRED "_glicólico_a_rel" ]. glicólisis_n1 := n_intr_uncount_le & [ STEM < "glicólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glicólisis_n_rel" ] ]. glicósido_n1 := n_intr_count_le & [ STEM < "glicósido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glicósido_n_rel" ] ]. gliodina_n1 := n_intr_count_le & [ STEM < "gliodina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gliodina_n_rel" ] ]. glioxisoma_n1 := n_intr_count_le & [ STEM < "glioxisoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glioxisoma_n_rel" ] ]. gliptal_n1 := n_intr_mass-or-count_le & [ STEM < "gliptal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_gliptal_n_rel" ] ]. global_a1 := a_rel_nonprd_intr_le & [ STEM < "global" >, SYNSEM.LKEYS.KEYREL.PRED "_global_a_rel" ]. globalidad_n1 := n_intr_uncount_le & [ STEM < "globalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_globalidad_n_rel" ] ]. globalización_n1 := n_trans_le & [ STEM < "globalización" >, SYNSEM.LKEYS.KEYREL.PRED "_globalización_n_rel" ]. globalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "globalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_globalizador_a_rel" ]. globalizar_v := v_trans_np_le & [ STEM < "globalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_globalizar_v_rel" ]. globalmente_x1 := av_i_spr_le & [ STEM < "globalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_globalmente_x_rel" ]. globina_n1 := n_intr_mass-or-count_le & [ STEM < "globina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_globina_n_rel" ] ]. globo_n1 := n_intr_count_le & [ STEM < "globo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_globo_n_rel" ] ]. globoide_n1 := n_intr_count_le & [ STEM < "globoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_globoide_n_rel" ] ]. globosidad_n1 := n_intr_uncount_le & [ STEM < "globosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_globosidad_n_rel" ] ]. globoso_a1 := a_qual_intr_ser_le & [ STEM < "globoso" >, SYNSEM.LKEYS.KEYREL.PRED "_globoso_a_rel" ]. globular_a1 := a_rel_nonprd_intr_le & [ STEM < "globular" >, SYNSEM.LKEYS.KEYREL.PRED "_globular_a_rel" ]. globularmente_x1 := av_i_spr_le & [ STEM < "globularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_globularmente_x_rel" ]. globulina_n1 := n_intr_mass-or-count_le & [ STEM < "globulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_globulina_n_rel" ] ]. glomerular_a1 := a_rel_nonprd_intr_le & [ STEM < "glomerular" >, SYNSEM.LKEYS.KEYREL.PRED "_glomerular_a_rel" ]. glomiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "glomiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_glomiforme_a_rel" ]. glomérulo_n1 := n_intr_count_le & [ STEM < "glomérulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glomérulo_n_rel" ] ]. glomérulo_n2 := n_ppcomp_count_le & [ STEM < "glomérulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_glomérulo_n_rel" ] ]. gloriar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "gloriar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_gloriar_v_rel" ] ] ]. gloriar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "gloriar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_gloriar_v_rel" ] ] ]. glorieta_n1 := n_intr_count_le & [ STEM < "glorieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_glorieta_n_rel" ] ]. glorificación_n1 := n_trans_le & [ STEM < "glorificación" >, SYNSEM.LKEYS.KEYREL.PRED "_glorificación_n_rel" ]. glorificar_v1 := v_trans_cp_prop_fin_le & [ STEM < "glorificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_glorificar_v_rel" ] ]. glorificar_v2 := v_trans_np_le & [ STEM < "glorificar" >, SYNSEM.LKEYS.KEYREL.PRED "_glorificar_v_rel" ]. gloriosamente_x1 := av_i_spr_le & [ STEM < "gloriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gloriosamente_x_rel" ]. glorioso_a1 := a_qual_intr_scopal_le & [ STEM < "glorioso" >, SYNSEM.LKEYS.KEYREL.PRED "_glorioso_a_rel" ]. glosa_n1 := n_intr_count_le & [ STEM < "glosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_glosa_n_rel" ] ]. glosar_v := v_trans_np_le & [ STEM < "glosar" >, SYNSEM.LKEYS.KEYREL.PRED "_glosar_v_rel" ]. glosario_n1 := n_intr_count_le & [ STEM < "glosario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_glosario_n_rel" ] ]. glosectomía_n1 := n_intr_count_le & [ STEM < "glosectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosectomía_n_rel" ] ]. glosobórico_a1 := a_rel_nonprd_intr_le & [ STEM < "glosobórico" >, SYNSEM.LKEYS.KEYREL.PRED "_glosobórico_a_rel" ]. glosocinestésico_a1 := a_rel_nonprd_intr_le & [ STEM < "glosocinestésico" >, SYNSEM.LKEYS.KEYREL.PRED "_glosocinestésico_a_rel" ]. glosodinamómetro_n1 := n_intr_count_le & [ STEM < "glosodinamómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glosodinamómetro_n_rel" ] ]. glosoepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "glosoepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_glosoepiglótico_a_rel" ]. glosofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "glosofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_glosofaríngeo_a_rel" ]. glosopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "glosopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_glosopalatino_a_rel" ]. glosopatía_n1 := n_intr_uncount_pl_le & [ STEM < "glosopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosopatía_n_rel" ] ]. glosoplejía_n1 := n_intr_uncount_le & [ STEM < "glosoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosoplejía_n_rel" ] ]. glosotomía_n1 := n_intr_count_le & [ STEM < "glosotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosotomía_n_rel" ] ]. glosácuico_a1 := a_rel_nonprd_intr_le & [ STEM < "glosácuico" >, SYNSEM.LKEYS.KEYREL.PRED "_glosácuico_a_rel" ]. glosógrafo_n1 := n_intr_count_le & [ STEM < "glosógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glosógrafo_n_rel" ] ]. glotal_a1 := a_rel_nonprd_intr_le & [ STEM < "glotal" >, SYNSEM.LKEYS.KEYREL.PRED "_glotal_a_rel" ]. glotalización_n1 := n_trans_le & [ STEM < "glotalización" >, SYNSEM.LKEYS.KEYREL.PRED "_glotalización_n_rel" ]. glotis_n1 := n_ppcomp_count_le & [ STEM < "glotis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_glotis_n_rel" ] ]. glotocronología_n1 := n_intr_uncount_le & [ STEM < "glotocronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glotocronología_n_rel" ] ]. glotología_n1 := n_intr_uncount_le & [ STEM < "glotología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glotología_n_rel" ] ]. glotonería_n1 := n_intr_uncount_pl_le & [ STEM < "glotonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glotonería_n_rel" ] ]. glotólogo_n1 := n_intr_count_le & [ STEM < "glotólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_glotólogo_n_rel" ] ]. glotón_a1 := a_qual_intr_ser_le & [ STEM < "glotón" >, SYNSEM.LKEYS.KEYREL.PRED "_glotón_a_rel" ]. glotónamente_x1 := av_i_spr_le & [ STEM < "glotónamente" >, SYNSEM.LKEYS.KEYREL.PRED "_glotónamente_x_rel" ]. gloxínea_n1 := n_intr_count_le & [ STEM < "gloxínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gloxínea_n_rel" ] ]. glucagón_n1 := n_intr_count_le & [ STEM < "glucagón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucagón_n_rel" ] ]. glucemia_n1 := n_intr_count_le & [ STEM < "glucemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_glucemia_n_rel" ] ]. glucocorticoide_n1 := n_intr_count_le & [ STEM < "glucocorticoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glucocorticoide_n_rel" ] ]. glucocáliz_n1 := n_intr_count_le & [ STEM < "glucocáliz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glucocáliz_n_rel" ] ]. glucoforina_n1 := n_intr_count_le & [ STEM < "glucoforina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glucoforina_n_rel" ] ]. glucoheptinato_n1 := n_intr_count_le & [ STEM < "glucoheptinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucoheptinato_n_rel" ] ]. glucolípido_n1 := n_intr_count_le & [ STEM < "glucolípido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glucolípido_n_rel" ] ]. gluconato_n1 := n_intr_count_le & [ STEM < "gluconato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gluconato_n_rel" ] ]. glucoproteína_n1 := n_intr_count_le & [ STEM < "glucoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucoproteína_n_rel" ] ]. glucosa_n1 := n_intr_mass_le & [ STEM < "glucosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucosa_n_rel" ] ]. glucosaminoglucano_n1 := n_intr_count_le & [ STEM < "glucosaminoglucano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucosaminoglucano_n_rel" ] ]. glucosoma_n1 := n_intr_count_le & [ STEM < "glucosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucosoma_n_rel" ] ]. glucuronolactona_n1 := n_intr_count_le & [ STEM < "glucuronolactona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucuronolactona_n_rel" ] ]. glucémicamente_x1 := av_i_spr_le & [ STEM < "glucémicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_glucémicamente_x_rel" ]. glucémico_a1 := a_rel_nonprd_intr_le & [ STEM < "glucémico" >, SYNSEM.LKEYS.KEYREL.PRED "_glucémico_a_rel" ]. glucógeno_n1 := n_intr_count_le & [ STEM < "glucógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glucógeno_n_rel" ] ]. glucónico_a1 := a_rel_nonprd_intr_le & [ STEM < "glucónico" >, SYNSEM.LKEYS.KEYREL.PRED "_glucónico_a_rel" ]. gluma_n1 := n_intr_count_le & [ STEM < "gluma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gluma_n_rel" ] ]. glutamato_n1 := n_intr_count_le & [ STEM < "glutamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glutamato_n_rel" ] ]. glutamina_n1 := n_intr_count_le & [ STEM < "glutamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glutamina_n_rel" ] ]. glutaraldehído_n1 := n_intr_mass_le & [ STEM < "glutaraldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glutaraldehído_n_rel" ] ]. glutaronitrilo_n1 := n_intr_count_le & [ STEM < "glutaronitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_glutaronitrilo_n_rel" ] ]. gluten_n1 := n_intr_mass_le & [ STEM < "gluten" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gluten_n_rel" ] ]. glutámico_a1 := a_rel_nonprd_intr_le & [ STEM < "glutámico" >, SYNSEM.LKEYS.KEYREL.PRED "_glutámico_a_rel" ]. glutárico_a1 := a_rel_nonprd_intr_le & [ STEM < "glutárico" >, SYNSEM.LKEYS.KEYREL.PRED "_glutárico_a_rel" ]. glándula_n1 := n_ppcomp_count_le & [ STEM < "glándula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_glándula_n_rel" ] ]. glía_n1 := n_intr_count_le & [ STEM < "glía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glía_n_rel" ] ]. glóbulo_n1 := n_intr_count_le & [ STEM < "glóbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glóbulo_n_rel" ] ]. glósico_a1 := a_rel_nonprd_intr_le & [ STEM < "glósico" >, SYNSEM.LKEYS.KEYREL.PRED "_glósico_a_rel" ]. glótico_a1 := a_rel_nonprd_intr_le & [ STEM < "glótico" >, SYNSEM.LKEYS.KEYREL.PRED "_glótico_a_rel" ]. glúcido_n1 := n_intr_count_le & [ STEM < "glúcido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glúcido_n_rel" ] ]. glúteo_a1 := a_rel_nonprd_intr_le & [ STEM < "glúteo" >, SYNSEM.LKEYS.KEYREL.PRED "_glúteo_a_rel" ]. glúteo_n1 := n_intr_mass_le & [ STEM < "glúteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_glúteo_n_rel" ] ]. gnatodinamómetro_n1 := n_intr_count_le & [ STEM < "gnatodinamómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gnatodinamómetro_n_rel" ] ]. gnatografía_n1 := n_intr_count_le & [ STEM < "gnatografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gnatografía_n_rel" ] ]. gnatología_n1 := n_intr_uncount_le & [ STEM < "gnatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatología_n_rel" ] ]. gneis_n1 := n_intr_mass_le & [ STEM < "gneis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gneis_n_rel" ] ]. gnomo_n1 := n_intr_count_le & [ STEM < "gnomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gnomo_n_rel" ] ]. gnomon_n1 := n_intr_count_le & [ STEM < "gnomon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gnomon_n_rel" ] ]. gnomónico_a1 := a_rel_nonprd_intr_le & [ STEM < "gnomónico" >, SYNSEM.LKEYS.KEYREL.PRED "_gnomónico_a_rel" ]. gnoseología_n1 := n_intr_uncount_le & [ STEM < "gnoseología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnoseología_n_rel" ] ]. gnu_n1 := n_intr_count_le & [ STEM < "gnu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gnu_n_rel" ] ]. gnóstico_n1 := n_intr_count_le & [ STEM < "gnóstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gnóstico_n_rel" ] ]. gobernabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "gobernabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gobernabilidad_n_rel" ] ]. gobernable_a1 := a_rel_prd_le & [ STEM < "gobernable" >, SYNSEM.LKEYS.KEYREL.PRED "_gobernable_a_rel" ]. gobernación_n1 := n_trans_le & [ STEM < "gobernación" >, SYNSEM.LKEYS.KEYREL.PRED "_gobernación_n_rel" ]. gobernador_n1 := n_subj-nom_le & [ STEM < "gobernador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gobernador_n_rel" ] ]. gobernalle_n1 := n_intr_count_le & [ STEM < "gobernalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gobernalle_n_rel" ] ]. gobernanta_n1 := n_intr_count_le & [ STEM < "gobernanta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gobernanta_n_rel" ] ]. gobernante_a1 := a_rel_nonprd_intr_le & [ STEM < "gobernante" >, SYNSEM.LKEYS.KEYREL.PRED "_gobernante_a_rel" ]. gobernante_n1 := n_intr_count_le & [ STEM < "gobernante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gobernante_n_rel" ] ]. gobernar_v := v_trans_np*_le & [ STEM < "gobernar" >, SYNSEM.LKEYS.KEYREL.PRED "_gobernar_v_rel" ]. gobierno_n1 := n_intr_count_le & [ STEM < "gobierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_gobierno_n_rel" ] ]. gobio_n1 := n_intr_count_le & [ STEM < "gobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gobio_n_rel" ] ]. goce_n1 := n_trans_le & [ STEM < "goce" >, SYNSEM.LKEYS.KEYREL.PRED "_goce_n_rel" ]. godo_a1 := a_rel_nonprd_intr_le & [ STEM < "godo" >, SYNSEM.LKEYS.KEYREL.PRED "_godo_a_rel" ]. godo_n1 := n_intr_count_le & [ STEM < "godo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_godo_n_rel" ] ]. goetita_n1 := n_intr_mass_le & [ STEM < "goetita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_goetita_n_rel" ] ]. gofrar_v := v_trans_np_le & [ STEM < "gofrar" >, SYNSEM.LKEYS.KEYREL.PRED "_gofrar_v_rel" ]. gola_n1 := n_intr_count_le & [ STEM < "gola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_gola_n_rel" ] ]. gola_n2 := n_ppcomp_count_le & [ STEM < "gola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_gola_n_rel" ] ]. goleada_n1 := n_intr_count_le & [ STEM < "goleada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_goleada_n_rel" ] ]. goleador_n1 := n_subj-nom_le & [ STEM < "goleador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_goleador_n_rel" ] ]. golear_v := v_trans_np*_le & [ STEM < "golear" >, SYNSEM.LKEYS.KEYREL.PRED "_golear_v_rel" ]. goleta_n1 := n_intr_count_le & [ STEM < "goleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_goleta_n_rel" ] ]. golf_n1 := n_intr_uncount_le & [ STEM < "golf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golf_n_rel" ] ]. golfista_n1 := n_intr_count_le & [ STEM < "golfista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_golfista_n_rel" ] ]. golfo_n1 := n_intr_count_le & [ STEM < "golfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_golfo_n_rel" ] ]. golfístico_a1 := a_rel_nonprd_intr_le & [ STEM < "golfístico" >, SYNSEM.LKEYS.KEYREL.PRED "_golfístico_a_rel" ]. goliardo_n1 := n_intr_count_le & [ STEM < "goliardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_goliardo_n_rel" ] ]. golondrina_n1 := n_intr_count_le & [ STEM < "golondrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_golondrina_n_rel" ] ]. golosina_n1 := n_intr_mass_le & [ STEM < "golosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_golosina_n_rel" ] ]. goloso_a1 := a_qual_intr_ser_le & [ STEM < "goloso" >, SYNSEM.LKEYS.KEYREL.PRED "_goloso_a_rel" ]. golpazo_n1 := n_intr_count_le & [ STEM < "golpazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golpazo_n_rel" ] ]. golpe_de_estado_n1 := n_intr_count_le & [ STEM < "golpe_de_estado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golpe_de_estado_n_rel" ] ]. golpe_n1 := n_trans_le & [ STEM < "golpe" >, SYNSEM.LKEYS.KEYREL.PRED "_golpe_n_rel" ]. golpeador_a1 := a_rel_nonprd_intr_le & [ STEM < "golpeador" >, SYNSEM.LKEYS.KEYREL.PRED "_golpeador_a_rel" ]. golpeo_n1 := n_trans_le & [ STEM < "golpeo" >, SYNSEM.LKEYS.KEYREL.PRED "_golpeo_n_rel" ]. golpeteo_n1 := n_trans_le & [ STEM < "golpeteo" >, SYNSEM.LKEYS.KEYREL.PRED "_golpeteo_n_rel" ]. golpismo_n1 := n_intr_uncount_le & [ STEM < "golpismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golpismo_n_rel" ] ]. golpista_a1 := a_rel_nonprd_intr_le & [ STEM < "golpista" >, SYNSEM.LKEYS.KEYREL.PRED "_golpista_a_rel" ]. golpista_n1 := n_intr_count_le & [ STEM < "golpista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_golpista_n_rel" ] ]. goma_n1 := n_intr_mass-or-count_le & [ STEM < "goma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_goma_n_rel" ] ]. gomaguta_n1 := n_intr_count_le & [ STEM < "gomaguta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gomaguta_n_rel" ] ]. gomina_n1 := n_intr_mass_le & [ STEM < "gomina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gomina_n_rel" ] ]. gomosidad_n1 := n_ppcomp_mass_le & [ STEM < "gomosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gomosidad_n_rel" ] ]. gomoso_a1 := a_qual_intr_scopal_le & [ STEM < "gomoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gomoso_a_rel" ]. gondolero_n1 := n_intr_count_le & [ STEM < "gondolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gondolero_n_rel" ] ]. goniometría_n1 := n_intr_count_le & [ STEM < "goniometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_goniometría_n_rel" ] ]. goniométricamente_x1 := av_i_spr_le & [ STEM < "goniométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_goniométricamente_x_rel" ]. gonioscopio_n1 := n_intr_count_le & [ STEM < "gonioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gonioscopio_n_rel" ] ]. goniotomía_n1 := n_intr_count_le & [ STEM < "goniotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_goniotomía_n_rel" ] ]. goniómetro_n1 := n_intr_count_le & [ STEM < "goniómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_goniómetro_n_rel" ] ]. gonión_n1 := n_trans_le & [ STEM < "gonión" >, SYNSEM.LKEYS.KEYREL.PRED "_gonión_n_rel" ]. gonococo_n1 := n_intr_count_le & [ STEM < "gonococo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gonococo_n_rel" ] ]. gonocócico_a1 := a_rel_nonprd_intr_le & [ STEM < "gonocócico" >, SYNSEM.LKEYS.KEYREL.PRED "_gonocócico_a_rel" ]. gonócito_n1 := n_intr_count_le & [ STEM < "gonócito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gonócito_n_rel" ] ]. gordiano_a1 := a_rel_nonprd_intr_le & [ STEM < "gordiano" >, SYNSEM.LKEYS.KEYREL.PRED "_gordiano_a_rel" ]. gordinflón_a1 := a_qual_intr_ser_le & [ STEM < "gordinflón" >, SYNSEM.LKEYS.KEYREL.PRED "_gordinflón_a_rel" ]. gordo_a1 := a_qual_intr_scopal_le & [ STEM < "gordo" >, SYNSEM.LKEYS.KEYREL.PRED "_gordo_a_rel" ]. gorgojo_n1 := n_intr_count_le & [ STEM < "gorgojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gorgojo_n_rel" ] ]. gorgotear_v := v_intr_le & [ STEM < "gorgotear" >, SYNSEM.LKEYS.KEYREL.PRED "_gorgotear_v_rel" ]. gorgoteo_n1 := n_result_intr_le & [ STEM < "gorgoteo" >, SYNSEM.LKEYS.KEYREL.PRED "_gorgoteo_n_rel" ]. gorila_n1 := n_intr_count_le & [ STEM < "gorila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gorila_n_rel" ] ]. gorjear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "gorjear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gorjear_v_rel" ] ]. gorjear_v2 := v_ditrans*_le & [ STEM < "gorjear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_gorjear_v_rel" ] ]. gorjeo_n1 := n_result_intr_le & [ STEM < "gorjeo" >, SYNSEM.LKEYS.KEYREL.PRED "_gorjeo_n_rel" ]. gorra_n1 := n_intr_count_le & [ STEM < "gorra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gorra_n_rel" ] ]. gorrión_n1 := n_intr_count_le & [ STEM < "gorrión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gorrión_n_rel" ] ]. gorro_n1 := n_intr_count_le & [ STEM < "gorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gorro_n_rel" ] ]. gorrón_n1 := n_intr_count_le & [ STEM < "gorrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_gorrón_n_rel" ] ]. goshenita_n1 := n_intr_count_le & [ STEM < "goshenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_goshenita_n_rel" ] ]. gosipol_n1 := n_intr_count_le & [ STEM < "gosipol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gosipol_n_rel" ] ]. gota_n := n_pseudo-part_le & [ STEM < "gota" >, SYNSEM.LKEYS.KEYREL.PRED "_gota_n_rel" ]. gotear_v := v_intr_le & [ STEM < "gotear" >, SYNSEM.LKEYS.KEYREL.PRED "_gotear_v_rel" ]. goteo_n1 := n_event-result_intr_le & [ STEM < "goteo" >, SYNSEM.LKEYS.KEYREL.PRED "_goteo_n_rel" ]. gotera_n1 := n_intr_mass_le & [ STEM < "gotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gotera_n_rel" ] ]. gotero_n1 := n_intr_count_le & [ STEM < "gotero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gotero_n_rel" ] ]. goterón_n1 := n_intr_mass-or-count_le & [ STEM < "goterón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_goterón_n_rel" ] ]. gotoso_a1 := a_rel_nonprd_intr_le & [ STEM < "gotoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gotoso_a_rel" ]. gourmé_n1 := n_intr_count_le & [ STEM < "gourmé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_gourmé_n_rel" ] ]. gozar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "gozar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_gozar_v_rel" ] ] ]. gozar_v2 := v_intr_mrkd_np*_le & [ STEM < "gozar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_gozar_v_rel" ] ] ]. gozar_v3 := v_trans_np_le & [ STEM < "gozar" >, SYNSEM.LKEYS.KEYREL.PRED "_gozar_v_rel" ]. gozne_n1 := n_intr_count_le & [ STEM < "gozne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gozne_n_rel" ] ]. gozosamente_x1 := av_i_spr_le & [ STEM < "gozosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gozosamente_x_rel" ]. gozoso_a1 := a_qual_intr_scopal_le & [ STEM < "gozoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gozoso_a_rel" ]. grabación_n1 := n_intr_count_le & [ STEM < "grabación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grabación_n_rel" ] ]. grabado_n1 := n_trans_le & [ STEM < "grabado" >, SYNSEM.LKEYS.KEYREL.PRED "_grabado_n_rel" ]. grabador_n1 := n_subj-nom_le & [ STEM < "grabador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_grabador_n_rel" ] ]. grabadora_n1 := n_intr_count_le & [ STEM < "grabadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_grabadora_n_rel" ] ]. grabar_v1 := v_ditrans_cp_semi_ques_le & [ STEM < "grabar" >, SYNSEM.LKEYS.KEYREL.PRED "_grabar_v_rel" ]. grabar_v2 := v_trans_np_le & [ STEM < "grabar" >, SYNSEM.LKEYS.KEYREL.PRED "_grabar_v_rel" ]. gracia_n1 := n_intr_mass_le & [ STEM < "gracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gracia_n_rel" ] ]. graciar_v := v_trans_np_le & [ STEM < "graciar" >, SYNSEM.LKEYS.KEYREL.PRED "_graciar_v_rel" ]. gracias_a_p_vmod := p_vmod_le & [ STEM < "gracias_a" >, SYNSEM.LKEYS.KEYREL.PRED _gracias_a_p_rel ]. graciosamente_x1 := av_i_spr_le & [ STEM < "graciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_graciosamente_x_rel" ]. gracioso_a1 := a_qual_intr_ser_le & [ STEM < "gracioso" >, SYNSEM.LKEYS.KEYREL.PRED "_gracioso_a_rel" ]. grada_n1 := n_intr_count_le & [ STEM < "grada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_grada_n_rel" ] ]. gradación_n1 := n_trans_le & [ STEM < "gradación" >, SYNSEM.LKEYS.KEYREL.PRED "_gradación_n_rel" ]. gradar_v := v_trans_np_le & [ STEM < "gradar" >, SYNSEM.LKEYS.KEYREL.PRED "_gradar_v_rel" ]. gradería_n1 := n_intr_count_le & [ STEM < "gradería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gradería_n_rel" ] ]. graderío_n1 := n_intr_count_le & [ STEM < "graderío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_graderío_n_rel" ] ]. gradilla_n1 := n_intr_count_le & [ STEM < "gradilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gradilla_n_rel" ] ]. grado_angular_n := n_intr_count_le & [ STEM < "grado_angular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_grado_angular_n_rel" ] ]. grado_n := n_intr_count_le & [ STEM < "grado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_grado_n_rel" ] ]. graduable_a1 := a_qual_intr_scopal_le & [ STEM < "graduable" >, SYNSEM.LKEYS.KEYREL.PRED "_graduable_a_rel" ]. graduación_n1 := n_trans_le & [ STEM < "graduación" >, SYNSEM.LKEYS.KEYREL.PRED "_graduación_n_rel" ]. graduado_n1 := n_intr_count_le & [ STEM < "graduado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_graduado_n_rel" ] ]. gradual_a1 := a_qual_intr_scopal_le & [ STEM < "gradual" >, SYNSEM.LKEYS.KEYREL.PRED "_gradual_a_rel" ]. gradualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "gradualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gradualidad_n_rel" ] ]. gradualmente_x1 := av_i_spr_le & [ STEM < "gradualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_gradualmente_x_rel" ]. graduar_v1 := v_pron_intr_le & [ STEM < "graduar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_soc, PRED "_graduar_v_rel" ] ]. graduar_v2 := v_trans_np_le & [ STEM < "graduar" >, SYNSEM.LKEYS.KEYREL.PRED "_graduar_v_rel" ]. graffiti_n1 := n_intr_count_le & [ STEM < "graffiti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_graffiti_n_rel" ] ]. graficador_n1 := n_intr_count_le & [ STEM < "graficador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_graficador_n_rel" ] ]. grafismo_n1 := n_intr_count_le & [ STEM < "grafismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafismo_n_rel" ] ]. grafista_n1 := n_intr_count_le & [ STEM < "grafista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_grafista_n_rel" ] ]. grafitización_n1 := n_trans_le & [ STEM < "grafitización" >, SYNSEM.LKEYS.KEYREL.PRED "_grafitización_n_rel" ]. grafito_n1 := n_intr_mass-or-count_le & [ STEM < "grafito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_grafito_n_rel" ] ]. grafología_n1 := n_intr_uncount_pl_le & [ STEM < "grafología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafología_n_rel" ] ]. grafológico_a1 := a_rel_nonprd_intr_le & [ STEM < "grafológico" >, SYNSEM.LKEYS.KEYREL.PRED "_grafológico_a_rel" ]. grafometría_n1 := n_intr_uncount_le & [ STEM < "grafometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafometría_n_rel" ] ]. grafométricamente_x1 := av_i_spr_le & [ STEM < "grafométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_grafométricamente_x_rel" ]. grafométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "grafométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_grafométrico_a_rel" ]. grafostáticamente_x1 := av_i_spr_le & [ STEM < "grafostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_grafostáticamente_x_rel" ]. grafostático_a1 := a_rel_nonprd_intr_le & [ STEM < "grafostático" >, SYNSEM.LKEYS.KEYREL.PRED "_grafostático_a_rel" ]. grafía_n1 := n_intr_count_le & [ STEM < "grafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafía_n_rel" ] ]. grafítico_a1 := a_rel_nonprd_intr_le & [ STEM < "grafítico" >, SYNSEM.LKEYS.KEYREL.PRED "_grafítico_a_rel" ]. grafólogo_n1 := n_intr_count_le & [ STEM < "grafólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_grafólogo_n_rel" ] ]. gragea_n1 := n_intr_count_le & [ STEM < "gragea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gragea_n_rel" ] ]. grahamita_n1 := n_intr_count_le & [ STEM < "grahamita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_grahamita_n_rel" ] ]. graja_n1 := n_intr_count_le & [ STEM < "graja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_graja_n_rel" ] ]. grajo_n1 := n_intr_count_le & [ STEM < "grajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_grajo_n_rel" ] ]. grallero_n1 := n_intr_count_le & [ STEM < "grallero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_grallero_n_rel" ] ]. grama_n1 := n_intr_count_le & [ STEM < "grama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_grama_n_rel" ] ]. gramaje_n1 := n_intr_mass_le & [ STEM < "gramaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gramaje_n_rel" ] ]. gramatical_a1 := a_rel_nonprd_intr_le & [ STEM < "gramatical" >, SYNSEM.LKEYS.KEYREL.PRED "_gramatical_a_rel" ]. gramaticalidad_n1 := n_intr_uncount_le & [ STEM < "gramaticalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gramaticalidad_n_rel" ] ]. gramaticalización_n1 := n_event-result_intr_le & [ STEM < "gramaticalización" >, SYNSEM.LKEYS.KEYREL.PRED "_gramaticalización_n_rel" ]. gramaticalmente_x1 := av_i_spr_le & [ STEM < "gramaticalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_gramaticalmente_x_rel" ]. gramicidina_n1 := n_intr_count_le & [ STEM < "gramicidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gramicidina_n_rel" ] ]. gramil_n1 := n_intr_count_le & [ STEM < "gramil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gramil_n_rel" ] ]. graminicida_n1 := n_intr_count_le & [ STEM < "graminicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_graminicida_n_rel" ] ]. gramináceo_a1 := a_rel_nonprd_intr_le & [ STEM < "gramináceo" >, SYNSEM.LKEYS.KEYREL.PRED "_gramináceo_a_rel" ]. gramo_n1 := n_pseudo-part_le & [ STEM < "gramo" >, SYNSEM.LKEYS.KEYREL.PRED "_gramo_n_rel" ]. gramomolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "gramomolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_gramomolecular_a_rel" ]. gramático_a1 := a_rel_nonprd_intr_le & [ STEM < "gramático" >, SYNSEM.LKEYS.KEYREL.PRED "_gramático_a_rel" ]. gramático_n1 := n_intr_count_le & [ STEM < "gramático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gramático_n_rel" ] ]. gramíneo_a1 := a_rel_nonprd_intr_le & [ STEM < "gramíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_gramíneo_a_rel" ]. gramófono_n1 := n_intr_count_le & [ STEM < "gramófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gramófono_n_rel" ] ]. gran_a1 := a_qual_intr_scopal_le & [ STEM < "gran" >, SYNSEM.LKEYS.KEYREL.PRED "_gran_a_rel" ]. granada_n1 := n_intr_count_le & [ STEM < "granada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granada_n_rel" ] ]. granadero_n1 := n_intr_count_le & [ STEM < "granadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_granadero_n_rel" ] ]. granadina_n1 := n_intr_count_le & [ STEM < "granadina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granadina_n_rel" ] ]. granadino_a1 := a_rel_prd_le & [ STEM < "granadino" >, SYNSEM.LKEYS.KEYREL.PRED "_granadino_a_rel" ]. granadino_n1 := n_intr_count_le & [ STEM < "granadino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_granadino_n_rel" ] ]. granado_n1 := n_intr_count_le & [ STEM < "granado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_granado_n_rel" ] ]. granalla_n1 := n_intr_count_le & [ STEM < "granalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granalla_n_rel" ] ]. granate_a1 := a_qual_intr_ser_le & [ STEM < "granate" >, SYNSEM.LKEYS.KEYREL.PRED "_granate_a_rel" ]. grandamente_x1 := av_i_spr_le & [ STEM < "grandamente" >, SYNSEM.LKEYS.KEYREL.PRED "_grandamente_x_rel" ]. grande_a1 := a_qual_intr_scopal_le & [ STEM < "grande" >, SYNSEM.LKEYS.KEYREL.PRED "_grande_a_rel" ]. grandeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "grandeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grandeza_n_rel" ] ]. grandilocuencia_n1 := n_ppcomp_mass_le & [ STEM < "grandilocuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grandilocuencia_n_rel" ] ]. grandilocuente_a1 := a_qual_intr_scopal_le & [ STEM < "grandilocuente" >, SYNSEM.LKEYS.KEYREL.PRED "_grandilocuente_a_rel" ]. grandiosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "grandiosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grandiosidad_n_rel" ] ]. grandioso_a1 := a_qual_intr_scopal_le & [ STEM < "grandioso" >, SYNSEM.LKEYS.KEYREL.PRED "_grandioso_a_rel" ]. granear_v := v_trans_np_le & [ STEM < "granear" >, SYNSEM.LKEYS.KEYREL.PRED "_granear_v_rel" ]. granelero_n1 := n_intr_count_le & [ STEM < "granelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granelero_n_rel" ] ]. granero_n1 := n_intr_count_le & [ STEM < "granero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_granero_n_rel" ] ]. granito_n1 := n_intr_mass-or-count_le & [ STEM < "granito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_granito_n_rel" ] ]. granizada_n1 := n_intr_count_le & [ STEM < "granizada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_granizada_n_rel" ] ]. granizado_n1 := n_intr_mass_le & [ STEM < "granizado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granizado_n_rel" ] ]. granizar_v := v_impers_strict_intr_le & [ STEM < "granizar" >, SYNSEM.LKEYS.KEYREL.PRED "_granizar_v_rel" ]. granizo_n1 := n_intr_mass_le & [ STEM < "granizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granizo_n_rel" ] ]. granja_n1 := n_intr_count_le & [ STEM < "granja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_granja_n_rel" ] ]. granjear_v1 := v_pron_trans_np_le & [ STEM < "granjear" >, SYNSEM.LKEYS.KEYREL.PRED "_granjear_v_rel" ]. granjear_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "granjear" >, SYNSEM.LKEYS.KEYREL.PRED "_granjear_v_rel" ]. granjear_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "granjear" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_granjear_v_rel" ] ] ]. granjear_v4 := v_trans_cp_prop_fin_le & [ STEM < "granjear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_granjear_v_rel" ] ]. granjear_v5 := v_trans_np_le & [ STEM < "granjear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_granjear_v_rel" ] ]. granjear_v6 := v_trans_np_mrkd_np_le & [ STEM < "granjear" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_granjear_v_rel" ] ]. granjero_n1 := n_intr_count_le & [ STEM < "granjero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_granjero_n_rel" ] ]. grano_n1 := n_pseudo-part_le & [ STEM < "grano" >, SYNSEM.LKEYS.KEYREL.PRED "_grano_n_rel" ]. granodiorita_n1 := n_intr_count_le & [ STEM < "granodiorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_granodiorita_n_rel" ] ]. granuja_n1 := n_intr_count_le & [ STEM < "granuja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_granuja_n_rel" ] ]. granulación_n1 := n_trans_le & [ STEM < "granulación" >, SYNSEM.LKEYS.KEYREL.PRED "_granulación_n_rel" ]. granulador_a1 := a_rel_nonprd_intr_le & [ STEM < "granulador" >, SYNSEM.LKEYS.KEYREL.PRED "_granulador_a_rel" ]. granulador_n1 := n_intr_count_le & [ STEM < "granulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granulador_n_rel" ] ]. granuladora_n1 := n_intr_count_le & [ STEM < "granuladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granuladora_n_rel" ] ]. granular_a1 := a_rel_nonprd_intr_le & [ STEM < "granular" >, SYNSEM.LKEYS.KEYREL.PRED "_granular_a_rel" ]. granular_v := v_trans_np_caus_le & [ STEM < "granular" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_granular_v_rel" ] ]. granularidad_n1 := n_intr_mass_le & [ STEM < "granularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granularidad_n_rel" ] ]. granulita_n1 := n_intr_count_le & [ STEM < "granulita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_granulita_n_rel" ] ]. granulo_n1 := n_intr_count_le & [ STEM < "granulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_granulo_n_rel" ] ]. granulomatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "granulomatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_granulomatoso_a_rel" ]. granulometría_n1 := n_intr_count_le & [ STEM < "granulometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulometría_n_rel" ] ]. granulométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "granulométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_granulométrico_a_rel" ]. granulopoyetina_n1 := n_intr_count_le & [ STEM < "granulopoyetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_granulopoyetina_n_rel" ] ]. granulosidad_n1 := n_intr_mass_le & [ STEM < "granulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulosidad_n_rel" ] ]. granuloso_a1 := a_qual_intr_scopal_le & [ STEM < "granuloso" >, SYNSEM.LKEYS.KEYREL.PRED "_granuloso_a_rel" ]. granulómero_n1 := n_intr_count_le & [ STEM < "granulómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulómero_n_rel" ] ]. granífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "granífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_granífugo_a_rel" ]. graníticamente_x1 := av_i_spr_le & [ STEM < "graníticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_graníticamente_x_rel" ]. granítico_a1 := a_qual_intr_scopal_le & [ STEM < "granítico" >, SYNSEM.LKEYS.KEYREL.PRED "_granítico_a_rel" ]. granívoro_a1 := a_rel_nonprd_intr_le & [ STEM < "granívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_granívoro_a_rel" ]. grapa_n1 := n_intr_count_le & [ STEM < "grapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grapa_n_rel" ] ]. grapadora_n1 := n_intr_count_le & [ STEM < "grapadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grapadora_n_rel" ] ]. grapadura_n1 := n_trans_le & [ STEM < "grapadura" >, SYNSEM.LKEYS.KEYREL.PRED "_grapadura_n_rel" ]. grapar_v := v_trans_np_le & [ STEM < "grapar" >, SYNSEM.LKEYS.KEYREL.PRED "_grapar_v_rel" ]. grasa_n1 := n_intr_mass_le & [ STEM < "grasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grasa_n_rel" ] ]. grasiento_a1 := a_qual_intr_scopal_le & [ STEM < "grasiento" >, SYNSEM.LKEYS.KEYREL.PRED "_grasiento_a_rel" ]. graso_a1 := a_rel_nonprd_intr_le & [ STEM < "graso" >, SYNSEM.LKEYS.KEYREL.PRED "_graso_a_rel" ]. gratamente_x1 := av_i_spr_le & [ STEM < "gratamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gratamente_x_rel" ]. gratificación_n1 := n_intr_count_le & [ STEM < "gratificación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gratificación_n_rel" ] ]. gratificante_a1 := a_qual_intr_scopal_le & [ STEM < "gratificante" >, SYNSEM.LKEYS.KEYREL.PRED "_gratificante_a_rel" ]. gratificar_v := v_intr_io*_le & [ STEM < "gratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_gratificar_v_rel" ]. gratificar_v1 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "gratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_gratificar_v_rel" ]. gratificar_v2 := v_trans_np_le & [ STEM < "gratificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_gratificar_v_rel" ] ]. gratil_n1 := n_intr_count_le & [ STEM < "gratil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gratil_n_rel" ] ]. gratis_a1 := a_rel_prd_le & [ STEM < "gratis" >, SYNSEM.LKEYS.KEYREL.PRED "_gratis_a_rel" ]. gratis_x1 := av_i_psthd_le & [ STEM < "gratis" >, SYNSEM.LKEYS.KEYREL.PRED "_gratis_x_rel" ]. gratitud_n1 := n_intr_mass_le & [ STEM < "gratitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gratitud_n_rel" ] ]. grato_a1 := a_qual_intr_scopal_le & [ STEM < "grato" >, SYNSEM.LKEYS.KEYREL.PRED "_grato_a_rel" ]. gratuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "gratuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gratuidad_n_rel" ] ]. gratuitamente_x1 := av_i_spr_le & [ STEM < "gratuitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gratuitamente_x_rel" ]. gratuito_a1 := a_rel_prd_le & [ STEM < "gratuito" >, SYNSEM.LKEYS.KEYREL.PRED "_gratuito_a_rel" ]. grava_n1 := n_intr_mass_le & [ STEM < "grava" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_grava_n_rel" ] ]. gravable_a1 := a_rel_prd_le & [ STEM < "gravable" >, SYNSEM.LKEYS.KEYREL.PRED "_gravable_a_rel" ]. gravación_n1 := n_trans_le & [ STEM < "gravación" >, SYNSEM.LKEYS.KEYREL.PRED "_gravación_n_rel" ]. gravar_v := v_trans_np_le & [ STEM < "gravar" >, SYNSEM.LKEYS.KEYREL.PRED "_gravar_v_rel" ]. grave_a1 := a_qual_intr_scopal_le & [ STEM < "grave" >, SYNSEM.LKEYS.KEYREL.PRED "_grave_a_rel" ]. gravedad_n1 := n_intr_mass_le & [ STEM < "gravedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gravedad_n_rel" ] ]. gravedad_n2 := n_intr_uncount_le & [ STEM < "gravedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gravedad_n_rel" ] ]. gravemente_x1 := av_i_spr_le & [ STEM < "gravemente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravemente_x_rel" ]. gravicentro_n1 := n_intr_count_le & [ STEM < "gravicentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_gravicentro_n_rel" ] ]. gravilla_n1 := n_intr_mass_le & [ STEM < "gravilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gravilla_n_rel" ] ]. gravimétricamente_x1 := av_i_spr_le & [ STEM < "gravimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravimétricamente_x_rel" ]. gravimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "gravimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_gravimétrico_a_rel" ]. gravitacional_a1 := a_rel_nonprd_intr_le & [ STEM < "gravitacional" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitacional_a_rel" ]. gravitacionalmente_x1 := av_i_spr_le & [ STEM < "gravitacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitacionalmente_x_rel" ]. gravitación_n1 := n_event-result_intr_le & [ STEM < "gravitación" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitación_n_rel" ]. gravitar_v := v_unacc_lcomp_loc*_le & [ STEM < "gravitar" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitar_v_rel" ]. gravitativamente_x1 := av_i_spr_le & [ STEM < "gravitativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitativamente_x_rel" ]. gravitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "gravitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitativo_a_rel" ]. gravitatoriamente_x1 := av_i_spr_le & [ STEM < "gravitatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitatoriamente_x_rel" ]. gravitatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "gravitatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_gravitatorio_a_rel" ]. gravosamente_x1 := av_i_spr_le & [ STEM < "gravosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gravosamente_x_rel" ]. gravoso_a1 := a_qual_intr_scopal_le & [ STEM < "gravoso" >, SYNSEM.LKEYS.KEYREL.PRED "_gravoso_a_rel" ]. gravídico_a1 := a_rel_nonprd_intr_le & [ STEM < "gravídico" >, SYNSEM.LKEYS.KEYREL.PRED "_gravídico_a_rel" ]. gravímetro_n1 := n_intr_count_le & [ STEM < "gravímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gravímetro_n_rel" ] ]. graznar_v1 := v_intr_le & [ STEM < "graznar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_graznar_v_rel" ] ]. graznar_v2 := v_trans_cp_ques_le & [ STEM < "graznar" >, SYNSEM.LKEYS.KEYREL.PRED "_graznar_v_rel" ]. graznido_n1 := n_result_intr_le & [ STEM < "graznido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_graznido_n_rel" ] ]. grecorromano_a1 := a_rel_prd_le & [ STEM < "grecorromano" >, SYNSEM.LKEYS.KEYREL.PRED "_grecorromano_a_rel" ]. greda_n1 := n_intr_mass_le & [ STEM < "greda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_greda_n_rel" ] ]. greenoquita_n1 := n_intr_count_le & [ STEM < "greenoquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_greenoquita_n_rel" ] ]. gregal_n1 := n_intr_uncount_le & [ STEM < "gregal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gregal_n_rel" ] ]. gregario_a1 := a_qual_intr_ser_le & [ STEM < "gregario" >, SYNSEM.LKEYS.KEYREL.PRED "_gregario_a_rel" ]. gregarismo_n1 := n_ppcomp_uncount_le & [ STEM < "gregarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gregarismo_n_rel" ] ]. gregoriano_a1 := a_rel_nonprd_intr_le & [ STEM < "gregoriano" >, SYNSEM.LKEYS.KEYREL.PRED "_gregoriano_a_rel" ]. gremial_a1 := a_rel_nonprd_intr_le & [ STEM < "gremial" >, SYNSEM.LKEYS.KEYREL.PRED "_gremial_a_rel" ]. gremialismo_n1 := n_intr_uncount_le & [ STEM < "gremialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gremialismo_n_rel" ] ]. gremio_n1 := n_intr_count_le & [ STEM < "gremio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_gremio_n_rel" ] ]. gres_n1 := n_intr_count_le & [ STEM < "gres" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gres_n_rel" ] ]. grial_n1 := n_intr_count_le & [ STEM < "grial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grial_n_rel" ] ]. griego_a1 := a_rel_prd_le & [ STEM < "griego" >, SYNSEM.LKEYS.KEYREL.PRED "_griego_a_rel" ]. griego_n1 := n_intr_count_le & [ STEM < "griego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_griego_n_rel" ] ]. grieta_n1 := n_intr_count_le & [ STEM < "grieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grieta_n_rel" ] ]. grifería_n1 := n_intr_mass_le & [ STEM < "grifería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grifería_n_rel" ] ]. grifo_n1 := n_intr_count_le & [ STEM < "grifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grifo_n_rel" ] ]. grill_n1 := n_intr_count_le & [ STEM < "grill" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_grill_n_rel" ] ]. grillete_n1 := n_intr_count_le & [ STEM < "grillete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grillete_n_rel" ] ]. grillo_n1 := n_intr_count_le & [ STEM < "grillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_grillo_n_rel" ] ]. grindelia_n1 := n_intr_count_le & [ STEM < "grindelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_grindelia_n_rel" ] ]. gripal_a1 := a_rel_nonprd_intr_le & [ STEM < "gripal" >, SYNSEM.LKEYS.KEYREL.PRED "_gripal_a_rel" ]. gris_a1 := a_qual_intr_ser_le & [ STEM < "gris" >, SYNSEM.LKEYS.KEYREL.PRED "_gris_a_rel" ]. grisáceo_a1 := a_qual_intr_ser_le & [ STEM < "grisáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_grisáceo_a_rel" ]. grisú_n1 := n_intr_mass_le & [ STEM < "grisú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grisú_n_rel" ] ]. gritar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "gritar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gritar_v_rel" ] ]. gritar_v2 := v_ditrans_cp_ques_le & [ STEM < "gritar" >, SYNSEM.LKEYS.KEYREL.PRED "_gritar_v_rel" ]. gritar_v3 := v_trans_np*_io*_le & [ STEM < "gritar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gritar_v_rel" ] ]. griterío_n1 := n_intr_uncount_pl_le & [ STEM < "griterío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_griterío_n_rel" ] ]. grito_n1 := n_result_intr_le & [ STEM < "grito" >, SYNSEM.LKEYS.KEYREL.PRED "_grito_n_rel" ]. grito_n2 := n_trans_le & [ STEM < "grito" >, SYNSEM.LKEYS.KEYREL.PRED "_grito_n_rel" ]. groenlandés_a1 := a_rel_prd_le & [ STEM < "groenlandés" >, SYNSEM.LKEYS.KEYREL.PRED "_groenlandés_a_rel" ]. groenlandés_n1 := n_intr_count_le & [ STEM < "groenlandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_groenlandés_n_rel" ] ]. grosella_n1 := n_intr_mass_le & [ STEM < "grosella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grosella_n_rel" ] ]. groseramente_x1 := av_i_spr_le & [ STEM < "groseramente" >, SYNSEM.LKEYS.KEYREL.PRED "_groseramente_x_rel" ]. grosero_a1 := a_qual_intr_ser_le & [ STEM < "grosero" >, SYNSEM.LKEYS.KEYREL.PRED "_grosero_a_rel" ]. grosería_n1 := n_intr_count_le & [ STEM < "grosería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grosería_n_rel" ] ]. groso_a1 := a_rel_nonprd_intr_le & [ STEM < "groso" >, SYNSEM.LKEYS.KEYREL.PRED "_groso_a_rel" ]. grosor_n1 := n_intr_mass_le & [ STEM < "grosor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_grosor_n_rel" ] ]. grosso_modo_x1 := av_s_spr_le & [ STEM < "grosso_modo" >, SYNSEM.LKEYS.KEYREL.PRED "_grosso_modo_x_rel" ]. grosularia_n1 := n_intr_mass-or-count_le & [ STEM < "grosularia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_grosularia_n_rel" ] ]. grotesco_a1 := a_qual_intr_scopal_le & [ STEM < "grotesco" >, SYNSEM.LKEYS.KEYREL.PRED "_grotesco_a_rel" ]. grueso_a1 := a_qual_intr_scopal_le & [ STEM < "grueso" >, SYNSEM.LKEYS.KEYREL.PRED "_grueso_a_rel" ]. grulla_n1 := n_intr_count_le & [ STEM < "grulla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_grulla_n_rel" ] ]. grumete_n1 := n_intr_count_le & [ STEM < "grumete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_grumete_n_rel" ] ]. grumo_n1 := n_intr_count_le & [ STEM < "grumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grumo_n_rel" ] ]. grumoso_a1 := a_qual_intr_scopal_le & [ STEM < "grumoso" >, SYNSEM.LKEYS.KEYREL.PRED "_grumoso_a_rel" ]. grupa_n1 := n_intr_count_le & [ STEM < "grupa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grupa_n_rel" ] ]. grupal_a1 := a_rel_nonprd_intr_le & [ STEM < "grupal" >, SYNSEM.LKEYS.KEYREL.PRED "_grupal_a_rel" ]. grupo_n1 := n_group_le & [ STEM < "grupo" >, SYNSEM.LKEYS.KEYREL.PRED "_grupo_n_rel" ]. gruta_n1 := n_intr_count_le & [ STEM < "gruta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_gruta_n_rel" ] ]. gruñido_n1 := n_result_intr_le & [ STEM < "gruñido" >, SYNSEM.LKEYS.KEYREL.PRED "_gruñido_n_rel" ]. gruñir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "gruñir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_gruñir_v_rel" ] ]. gruñir_v2 := v_ditrans_cp_ques_le & [ STEM < "gruñir" >, SYNSEM.LKEYS.KEYREL.PRED "_gruñir_v_rel" ]. gruñir_v3 := v_ditrans*_le & [ STEM < "gruñir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_gruñir_v_rel" ] ]. gruñir_v4 := v_intr_io*_le & [ STEM < "gruñir" >, SYNSEM.LKEYS.KEYREL.PRED "_gruñir_v_rel" ]. gruñón_a1 := a_qual_intr_ser_le & [ STEM < "gruñón" >, SYNSEM.LKEYS.KEYREL.PRED "_gruñón_a_rel" ]. grácil_a1 := a_qual_intr_scopal_le & [ STEM < "grácil" >, SYNSEM.LKEYS.KEYREL.PRED "_grácil_a_rel" ]. grácilmente_x1 := av_i_spr_le & [ STEM < "grácilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_grácilmente_x_rel" ]. gráfica_n1 := n_intr_count_le & [ STEM < "gráfica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_gráfica_n_rel" ] ]. gráficamente_x1 := av_i_spr_le & [ STEM < "gráficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gráficamente_x_rel" ]. gráfico_a1 := a_qual_intr_scopal_le & [ STEM < "gráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_gráfico_a_rel" ]. gráfico_n1 := n_intr_count_le & [ STEM < "gráfico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_gráfico_n_rel" ] ]. gráfila_n1 := n_intr_count_le & [ STEM < "gráfila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gráfila_n_rel" ] ]. gránulo_n1 := n_intr_mass-or-count_le & [ STEM < "gránulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_gránulo_n_rel" ] ]. grátil_n1 := n_intr_count_le & [ STEM < "grátil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_grátil_n_rel" ] ]. grávido_a1 := a_rel_nonprd_intr_le & [ STEM < "grávido" >, SYNSEM.LKEYS.KEYREL.PRED "_grávido_a_rel" ]. grúa_n1 := n_intr_count_le & [ STEM < "grúa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_grúa_n_rel" ] ]. guacamayo_n1 := n_intr_count_le & [ STEM < "guacamayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_guacamayo_n_rel" ] ]. guadalajareño_n1 := n_intr_count_le & [ STEM < "guadalajareño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guadalajareño_n_rel" ] ]. guadaña_n1 := n_intr_count_le & [ STEM < "guadaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guadaña_n_rel" ] ]. guadañar_v := v_trans_np_le & [ STEM < "guadañar" >, SYNSEM.LKEYS.KEYREL.PRED "_guadañar_v_rel" ]. recorrer_v := v_trans_np_le & [ STEM < "recorrer" >, SYNSEM.LKEYS.KEYREL.PRED "_recorrer_v_rel" ]. guaicán_n1 := n_intr_count_le & [ STEM < "guaicán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_guaicán_n_rel" ] ]. guaimí_n1 := n_intr_count_le & [ STEM < "guaimí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_guaimí_n_rel" ] ]. guaira_n1 := n_intr_count_le & [ STEM < "guaira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guaira_n_rel" ] ]. guajiro_a1 := a_rel_prd_le & [ STEM < "guajiro" >, SYNSEM.LKEYS.KEYREL.PRED "_guajiro_a_rel" ]. guajiro_n1 := n_intr_count_le & [ STEM < "guajiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guajiro_n_rel" ] ]. gualdo_a1 := a_qual_intr_ser_le & [ STEM < "gualdo" >, SYNSEM.LKEYS.KEYREL.PRED "_gualdo_a_rel" ]. guanaco_n1 := n_intr_count_le & [ STEM < "guanaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_guanaco_n_rel" ] ]. guanche_a1 := a_rel_nonprd_intr_le & [ STEM < "guanche" >, SYNSEM.LKEYS.KEYREL.PRED "_guanche_a_rel" ]. guanche_n1 := n_intr_count_le & [ STEM < "guanche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guanche_n_rel" ] ]. guanidina_n1 := n_intr_count_le & [ STEM < "guanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_guanidina_n_rel" ] ]. guanina_n1 := n_intr_mass-or-count_le & [ STEM < "guanina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_guanina_n_rel" ] ]. guano_n1 := n_intr_mass_le & [ STEM < "guano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guano_n_rel" ] ]. guanosina_n1 := n_intr_count_le & [ STEM < "guanosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_guanosina_n_rel" ] ]. guantanamero_a1 := a_rel_prd_le & [ STEM < "guantanamero" >, SYNSEM.LKEYS.KEYREL.PRED "_guantanamero_a_rel" ]. guantanamero_n1 := n_intr_count_le & [ STEM < "guantanamero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guantanamero_n_rel" ] ]. guante_n1 := n_intr_count_le & [ STEM < "guante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guante_n_rel" ] ]. guantera_n1 := n_intr_count_le & [ STEM < "guantera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guantera_n_rel" ] ]. guanábana_n1 := n_intr_count_le & [ STEM < "guanábana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_guanábana_n_rel" ] ]. guanílico_a1 := a_rel_nonprd_intr_le & [ STEM < "guanílico" >, SYNSEM.LKEYS.KEYREL.PRED "_guanílico_a_rel" ]. guapo_a1 := a_qual_intr_scopal_le & [ STEM < "guapo" >, SYNSEM.LKEYS.KEYREL.PRED "_guapo_a_rel" ]. guaraní_n1 := n_intr_count_le & [ STEM < "guaraní" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_guaraní_n_rel" ] ]. guarda_n1 := n_intr_count_le & [ STEM < "guarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guarda_n_rel" ] ]. guardabarrera_n1 := n_intr_count_le & [ STEM < "guardabarrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardabarrera_n_rel" ] ]. guardabarros_n1 := n_intr_count_le & [ STEM < "guardabarros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardabarros_n_rel" ] ]. guardabosque_n1 := n_intr_count_le & [ STEM < "guardabosque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardabosque_n_rel" ] ]. guardacabo_n1 := n_intr_count_le & [ STEM < "guardacabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardacabo_n_rel" ] ]. guardacabos_n1 := n_intr_count_le & [ STEM < "guardacabos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardacabos_n_rel" ] ]. guardacadenas_n1 := n_intr_count_le & [ STEM < "guardacadenas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_guardacadenas_n_rel" ] ]. guardacostas_n1 := n_intr_count_le & [ STEM < "guardacostas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_guardacostas_n_rel" ] ]. guardador_n1 := n_subj-nom_le & [ STEM < "guardador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardador_n_rel" ] ]. guardaduría_n1 := n_intr_count_le & [ STEM < "guardaduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guardaduría_n_rel" ] ]. guardaespaldas_n1 := n_ppcomp_count_le & [ STEM < "guardaespaldas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardaespaldas_n_rel" ] ]. guardafuego_n1 := n_intr_count_le & [ STEM < "guardafuego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardafuego_n_rel" ] ]. guardagujas_n1 := n_intr_count_le & [ STEM < "guardagujas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardagujas_n_rel" ] ]. guardamalleta_n1 := n_intr_count_le & [ STEM < "guardamalleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardamalleta_n_rel" ] ]. guardamarina_n1 := n_intr_count_le & [ STEM < "guardamarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardamarina_n_rel" ] ]. guardameta_n1 := n_intr_count_le & [ STEM < "guardameta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardameta_n_rel" ] ]. guardamuebles_n1 := n_intr_count_le & [ STEM < "guardamuebles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guardamuebles_n_rel" ] ]. guardapesca_n1 := n_intr_count_le & [ STEM < "guardapesca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardapesca_n_rel" ] ]. guardapolvo_n1 := n_intr_count_le & [ STEM < "guardapolvo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardapolvo_n_rel" ] ]. guardar_v1 := v_ditrans*_le & [ STEM < "guardar" >, SYNSEM.LKEYS.KEYREL.PRED "_guardar_v_rel" ]. guardar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "guardar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_guardar_v_rel" ] ] ]. guardar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "guardar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_guardar_v_rel" ] ]. guardarropa_n1 := n_intr_count_le & [ STEM < "guardarropa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_guardarropa_n_rel" ] ]. guardarropía_n1 := n_intr_count_le & [ STEM < "guardarropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guardarropía_n_rel" ] ]. guardería_n1 := n_intr_count_le & [ STEM < "guardería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guardería_n_rel" ] ]. guardia_n1 := n_intr_count_le & [ STEM < "guardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardia_n_rel" ] ]. guardilla_n1 := n_intr_count_le & [ STEM < "guardilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guardilla_n_rel" ] ]. guardián_n1 := n_intr_count_le & [ STEM < "guardián" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guardián_n_rel" ] ]. guarida_n1 := n_intr_count_le & [ STEM < "guarida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guarida_n_rel" ] ]. guarismo_n1 := n_intr_count_le & [ STEM < "guarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guarismo_n_rel" ] ]. guarnecer_v := v_trans_np_mrkd_np*_le & [ STEM < "guarnecer" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_guarnecer_v_rel" ] ]. guarnicionero_n1 := n_intr_count_le & [ STEM < "guarnicionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guarnicionero_n_rel" ] ]. guarnición_n1 := n_intr_mass-or-count_le & [ STEM < "guarnición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_guarnición_n_rel" ] ]. guarro_a1 := a_qual_intr_ser_le & [ STEM < "guarro" >, SYNSEM.LKEYS.KEYREL.PRED "_guarro_a_rel" ]. guata_n1 := n_intr_count_le & [ STEM < "guata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guata_n_rel" ] ]. guatemalteco_a1 := a_rel_prd_le & [ STEM < "guatemalteco" >, SYNSEM.LKEYS.KEYREL.PRED "_guatemalteco_a_rel" ]. guatemalteco_n1 := n_intr_count_le & [ STEM < "guatemalteco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guatemalteco_n_rel" ] ]. guayaba_n1 := n_intr_count_le & [ STEM < "guayaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_guayaba_n_rel" ] ]. guayacol_n1 := n_intr_count_le & [ STEM < "guayacol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_guayacol_n_rel" ] ]. guayanés_a1 := a_rel_prd_le & [ STEM < "guayanés" >, SYNSEM.LKEYS.KEYREL.PRED "_guayanés_a_rel" ]. guayanés_n1 := n_intr_count_le & [ STEM < "guayanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guayanés_n_rel" ] ]. gubernamental_a1 := a_rel_nonprd_intr_le & [ STEM < "gubernamental" >, SYNSEM.LKEYS.KEYREL.PRED "_gubernamental_a_rel" ]. gubernativamente_x1 := av_i_spr_le & [ STEM < "gubernativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gubernativamente_x_rel" ]. gubernativo_a1 := a_rel_nonprd_intr_le & [ STEM < "gubernativo" >, SYNSEM.LKEYS.KEYREL.PRED "_gubernativo_a_rel" ]. gubia_n1 := n_intr_count_le & [ STEM < "gubia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gubia_n_rel" ] ]. guepardo_n1 := n_intr_count_le & [ STEM < "guepardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_guepardo_n_rel" ] ]. guerra_n1 := n_intr_count_le & [ STEM < "guerra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guerra_n_rel" ] ]. guerrear_v := v_intr_mrkd_np*_le & [ STEM < "guerrear" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_guerrear_v_rel" ] ]. guerrera_n1 := n_intr_count_le & [ STEM < "guerrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guerrera_n_rel" ] ]. guerrero_n1 := n_intr_count_le & [ STEM < "guerrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guerrero_n_rel" ] ]. guerrillero_n1 := n_intr_count_le & [ STEM < "guerrillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guerrillero_n_rel" ] ]. gueto_n1 := n_intr_count_le & [ STEM < "gueto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_gueto_n_rel" ] ]. guiaje_n1 := n_trans_le & [ STEM < "guiaje" >, SYNSEM.LKEYS.KEYREL.PRED "_guiaje_n_rel" ]. guiar_v1 := v_trans_np_caus_le & [ STEM < "guiar" >, SYNSEM.LKEYS.KEYREL.PRED "_guiar_v_rel" ]. guiar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "guiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_guiar_v_rel" ] ] ]. guiar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "guiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_guiar_v_rel" ] ] ]. guija_n1 := n_intr_count_le & [ STEM < "guija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guija_n_rel" ] ]. guijarral_n1 := n_intr_count_le & [ STEM < "guijarral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_guijarral_n_rel" ] ]. guijarro_n1 := n_intr_count_le & [ STEM < "guijarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guijarro_n_rel" ] ]. guijarroso_a1 := a_qual_intr_scopal_le & [ STEM < "guijarroso" >, SYNSEM.LKEYS.KEYREL.PRED "_guijarroso_a_rel" ]. guillotina_n1 := n_intr_count_le & [ STEM < "guillotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guillotina_n_rel" ] ]. guillotinar_v := v_trans_np_le & [ STEM < "guillotinar" >, SYNSEM.LKEYS.KEYREL.PRED "_guillotinar_v_rel" ]. guimbarda_n1 := n_intr_count_le & [ STEM < "guimbarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guimbarda_n_rel" ] ]. guinda_n1 := n_intr_mass_le & [ STEM < "guinda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guinda_n_rel" ] ]. guindilla_n1 := n_intr_count_le & [ STEM < "guindilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guindilla_n_rel" ] ]. guindola_n1 := n_intr_count_le & [ STEM < "guindola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guindola_n_rel" ] ]. guineano_a1 := a_rel_prd_le & [ STEM < "guineano" >, SYNSEM.LKEYS.KEYREL.PRED "_guineano_a_rel" ]. guineano_n1 := n_intr_count_le & [ STEM < "guineano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guineano_n_rel" ] ]. guionista_n1 := n_intr_count_le & [ STEM < "guionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guionista_n_rel" ] ]. guionización_n1 := n_trans_le & [ STEM < "guionización" >, SYNSEM.LKEYS.KEYREL.PRED "_guionización_n_rel" ]. guipuzcoano_a1 := a_rel_prd_le & [ STEM < "guipuzcoano" >, SYNSEM.LKEYS.KEYREL.PRED "_guipuzcoano_a_rel" ]. guipuzcoano_n1 := n_intr_count_le & [ STEM < "guipuzcoano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guipuzcoano_n_rel" ] ]. guirnalda_n1 := n_intr_count_le & [ STEM < "guirnalda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guirnalda_n_rel" ] ]. guisado_n1 := n_intr_mass_le & [ STEM < "guisado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guisado_n_rel" ] ]. guisante_n1 := n_intr_count_le & [ STEM < "guisante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guisante_n_rel" ] ]. guisar_v := v_trans_np*_le & [ STEM < "guisar" >, SYNSEM.LKEYS.KEYREL.PRED "_guisar_v_rel" ]. guiso_n1 := n_intr_mass_le & [ STEM < "guiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guiso_n_rel" ] ]. guitarra_n1 := n_intr_count_le & [ STEM < "guitarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guitarra_n_rel" ] ]. guitarrista_n1 := n_intr_count_le & [ STEM < "guitarrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guitarrista_n_rel" ] ]. guiñar_v := v_ditrans*_le & [ STEM < "guiñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_guiñar_v_rel" ] ]. guiño_n1 := n_trans_le & [ STEM < "guiño" >, SYNSEM.LKEYS.KEYREL.PRED "_guiño_n_rel" ]. guión_n1 := n_intr_count_le & [ STEM < "guión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_guión_n_rel" ] ]. gulasch_n1 := n_intr_count_le & [ STEM < "gulasch" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gulasch_n_rel" ] ]. gulash_n1 := n_intr_mass_le & [ STEM < "gulash" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gulash_n_rel" ] ]. gunita_n1 := n_intr_count_le & [ STEM < "gunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gunita_n_rel" ] ]. guru_n1 := n_intr_count_le & [ STEM < "guru" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_guru_n_rel" ] ]. gurú_n1 := n_intr_count_le & [ STEM < "gurú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gurú_n_rel" ] ]. gusanillo_n1 := n_intr_count_le & [ STEM < "gusanillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gusanillo_n_rel" ] ]. gusano_n1 := n_intr_count_le & [ STEM < "gusano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_gusano_n_rel" ] ]. gustación_n1 := n_trans_le & [ STEM < "gustación" >, SYNSEM.LKEYS.KEYREL.PRED "_gustación_n_rel" ]. gustar_v1 := v_intr_io*_le & [ STEM < "gustar" >, SYNSEM.LKEYS.KEYREL.PRED "_gustar_v_rel" ]. gustar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "gustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_gustar_v_rel" ] ] ]. gustar_v3 := v_intr_mrkd_np_le & [ STEM < "gustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_gustar_v_rel" ] ] ]. gustar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "gustar" >, SYNSEM.LKEYS.KEYREL.PRED "_gustar_v_rel" ]. gustativo_a1 := a_rel_nonprd_intr_le & [ STEM < "gustativo" >, SYNSEM.LKEYS.KEYREL.PRED "_gustativo_a_rel" ]. gutapercha_n1 := n_intr_count_le & [ STEM < "gutapercha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_gutapercha_n_rel" ] ]. gutural_a1 := a_rel_nonprd_intr_le & [ STEM < "gutural" >, SYNSEM.LKEYS.KEYREL.PRED "_gutural_a_rel" ]. guturalmente_x1 := av_i_spr_le & [ STEM < "guturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_guturalmente_x_rel" ]. guyot_n1 := n_intr_count_le & [ STEM < "guyot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_guyot_n_rel" ] ]. guía_n1 := n_intr_count_le & [ STEM < "guía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_sem, PRED "_guía_n_rel" ] ]. guíaondas_n1 := n_intr_count_le & [ STEM < "guíaondas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_guíaondas_n_rel" ] ]. gálibo_n1 := n_intr_count_le & [ STEM < "gálibo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_gálibo_n_rel" ] ]. gálico_a1 := a_rel_nonprd_intr_le & [ STEM < "gálico" >, SYNSEM.LKEYS.KEYREL.PRED "_gálico_a_rel" ]. gángster_n1 := n_intr_count_le & [ STEM < "gángster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_gángster_n_rel" ] ]. gánguil_n1 := n_intr_count_le & [ STEM < "gánguil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gánguil_n_rel" ] ]. gárgola_n1 := n_intr_count_le & [ STEM < "gárgola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gárgola_n_rel" ] ]. gáster_n1 := n_intr_count_le & [ STEM < "gáster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gáster_n_rel" ] ]. gástricamente_x1 := av_i_spr_le & [ STEM < "gástricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_gástricamente_x_rel" ]. gástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "gástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_gástrico_a_rel" ]. géiser_n1 := n_intr_count_le & [ STEM < "géiser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_géiser_n_rel" ] ]. gélido_a1 := a_qual_intr_scopal_le & [ STEM < "gélido" >, SYNSEM.LKEYS.KEYREL.PRED "_gélido_a_rel" ]. género_n1 := n_intr_count_le & [ STEM < "género" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_género_n_rel" ] ]. génico_a1 := a_rel_nonprd_intr_le & [ STEM < "génico" >, SYNSEM.LKEYS.KEYREL.PRED "_génico_a_rel" ]. génova_n1 := n_intr_count_le & [ STEM < "génova" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_génova_n_rel" ] ]. gínglimo_n1 := n_intr_count_le & [ STEM < "gínglimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_gínglimo_n_rel" ] ]. gónada_n1 := n_ppcomp_count_le & [ STEM < "gónada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_gónada_n_rel" ] ]. góndola_n1 := n_intr_count_le & [ STEM < "góndola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_góndola_n_rel" ] ]. gótico_a1 := a_rel_nonprd_intr_le & [ STEM < "gótico" >, SYNSEM.LKEYS.KEYREL.PRED "_gótico_a_rel" ]. güelfo_n1 := n_intr_count_le & [ STEM < "güelfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_güelfo_n_rel" ] ]. güisqui_n1 := n_intr_count_le & [ STEM < "güisqui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_güisqui_n_rel" ] ]. haba_n1 := n_intr_count_le & [ STEM < "haba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_haba_n_rel" ] ]. habanera_n1 := n_intr_uncount_pl_le & [ STEM < "habanera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habanera_n_rel" ] ]. habanero_a1 := a_rel_prd_le & [ STEM < "habanero" >, SYNSEM.LKEYS.KEYREL.PRED "_habanero_a_rel" ]. habanero_n1 := n_intr_count_le & [ STEM < "habanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_habanero_n_rel" ] ]. habano_n1 := n_intr_count_le & [ STEM < "habano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_habano_n_rel" ] ]. haber_n1 := n_intr_count_le & [ STEM < "haber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_haber_n_rel" ] ]. haber_v1 := v_impers_non_pass_np_le & [ STEM < "haber" >, SYNSEM.LKEYS.KEYREL.PRED "_haber_v_rel" ]. haber_v2 := v_aux_haber_le & [ STEM < "haber" > ]. haber_v3 := v_intr_mrkd_vp_ssr_le & [ STEM < "haber" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_haber_v_rel" ] ]. habichuela_n1 := n_intr_count_le & [ STEM < "habichuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_habichuela_n_rel" ] ]. habilidad_n1 := n_intr_count_le & [ STEM < "habilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habilidad_n_rel" ] ]. habilidoso_a1 := a_qual_intr_ser_le & [ STEM < "habilidoso" >, SYNSEM.LKEYS.KEYREL.PRED "_habilidoso_a_rel" ]. habilitación_n1 := n_trans_le & [ STEM < "habilitación" >, SYNSEM.LKEYS.KEYREL.PRED "_habilitación_n_rel" ]. habilitar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "habilitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_habilitar_v_rel" ] ] ]. habilitar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "habilitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_habilitar_v_rel" ] ] ]. habilitar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "habilitar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_habilitar_v_rel" ] ]. habitabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "habitabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habitabilidad_n_rel" ] ]. habitable_a1 := a_rel_prd_le & [ STEM < "habitable" >, SYNSEM.LKEYS.KEYREL.PRED "_habitable_a_rel" ]. habitación_n1 := n_intr_count_le & [ STEM < "habitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_habitación_n_rel" ] ]. habitante_n1 := n_intr_count_le & [ STEM < "habitante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_habitante_n_rel" ] ]. habitar_v1 := v_trans_np_le & [ STEM < "habitar" >, SYNSEM.LKEYS.KEYREL.PRED "_habitar_v_rel" ]. habitar_v2 := v_unacc_lcomp_loc_le & [ STEM < "habitar" >, SYNSEM.LKEYS.KEYREL.PRED "_habitar_v_rel" ]. habituación_n1 := n_trans_le & [ STEM < "habituación" >, SYNSEM.LKEYS.KEYREL.PRED "_habituación_n_rel" ]. habitual_a1 := a_qual_intr_scopal_le & [ STEM < "habitual" >, SYNSEM.LKEYS.KEYREL.PRED "_habitual_a_rel" ]. habitualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "habitualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habitualidad_n_rel" ] ]. habitualmente_x1 := av_s_prhd_spr_le & [ STEM < "habitualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_habitualmente_x_rel" ]. habitualmente_x2 := av_i_psthd_spr_le & [ STEM < "habitualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_habitualmente_x_rel" ]. habituar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "habituar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_habituar_v_rel" ] ] ]. habituar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "habituar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_habituar_v_rel" ] ] ]. habituar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "habituar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_habituar_v_rel" ] ] ]. habitáculo_n1 := n_intr_count_le & [ STEM < "habitáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_habitáculo_n_rel" ] ]. habla_n1 := n_result_intr_ppcomp_le & [ STEM < "habla" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_habla_n_rel" ] ]. habla_n2 := n_intr_count_le & [ STEM < "habla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habla_n_rel" ] ]. hablador_a1 := a_qual_intr_ser_le & [ STEM < "hablador" >, SYNSEM.LKEYS.KEYREL.PRED "_hablador_a_rel" ]. habladuría_n1 := n_intr_uncount_pl_le & [ STEM < "habladuría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habladuría_n_rel" ] ]. hablante_n1 := n_intr_count_le & [ STEM < "hablante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hablante_n_rel" ] ]. hablar_v1 := v_intr_mrkd_np_le & [ STEM < "hablar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_hablar_v_rel" ] ]. hablar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "hablar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_hablar_v_rel" ] ] ]. hablar_v3 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "hablar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_hablar_v_rel" ] ]. hablar_v4 := v_trans_np_le & [ STEM < "hablar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs, PRED "_hablar_v_rel" ] ]. habón_n1 := n_intr_count_le & [ STEM < "habón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_habón_n_rel" ] ]. hace_p_temp_vmod := p_temp_vmod_le & [ STEM < "hace" >, SYNSEM.LKEYS.KEYREL.PRED _hace_p_temp_rel ]. hacedor_n1 := n_intr_count_le & [ STEM < "hacedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hacedor_n_rel" ] ]. hacendoso_a1 := a_qual_intr_ser_le & [ STEM < "hacendoso" >, SYNSEM.LKEYS.KEYREL.PRED "_hacendoso_a_rel" ]. hacer_v1 := v_impers_non_pass_np_le & [ STEM < "hacer" >, SYNSEM.LKEYS.KEYREL.PRED "_hacer_v_rel" ]. hacer_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "hacer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_hacer_v_rel" ] ]. hacer_v3 := v_pron_intr_mrkd_np_le & [ STEM < "hacer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_hacer_v_rel" ] ]. hacer_v4 := v_pron_intr_mrkd_np_le & [ STEM < "hacer" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_hacer_v_rel" ] ]. hacer_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "hacer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_hacer_v_rel" ] ]. hacha_n1 := n_intr_count_le & [ STEM < "hacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hacha_n_rel" ] ]. hachazo_n1 := n_intr_count_le & [ STEM < "hachazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hachazo_n_rel" ] ]. hachís_n1 := n_intr_mass_le & [ STEM < "hachís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hachís_n_rel" ] ]. hacia_mediados_de_p_vmod := p_vmod_le & [ STEM < "hacia_mediados_de" >, SYNSEM.LKEYS.KEYREL.PRED _hacia_mediados_de_p_rel ]. hacia_p_nmod := p_nmod_le & [ STEM < "hacia" >, SYNSEM.LKEYS.KEYREL.PRED _hacia_p_rel ]. hacia_p_temp_vmod := p_temp_vmod_le & [ STEM < "hacia" >, SYNSEM.LKEYS.KEYREL.PRED _hacia_p_temp_rel ]. hacia_p_vmod := p_vmod_le & [ STEM < "hacia" >, SYNSEM.LKEYS.KEYREL.PRED _hacia_p_rel ]. hacienda_n1 := n_intr_count_le & [ STEM < "hacienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hacienda_n_rel" ] ]. hacina_n1 := n_intr_coll_le & [ STEM < "hacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hacina_n_rel" ] ]. hacinamiento_n1 := n_trans_le & [ STEM < "hacinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_hacinamiento_n_rel" ]. hacinar_v := v_trans_np_lcomp_loc*_le & [ STEM < "hacinar" >, SYNSEM.LKEYS.KEYREL.PRED "_hacinar_v_rel" ]. hada_n1 := n_intr_count_le & [ STEM < "hada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hada_n_rel" ] ]. hafnio_n1 := n_intr_mass_le & [ STEM < "hafnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hafnio_n_rel" ] ]. hagiografía_n1 := n_intr_count_le & [ STEM < "hagiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hagiografía_n_rel" ] ]. hagiógrafo_n1 := n_intr_count_le & [ STEM < "hagiógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hagiógrafo_n_rel" ] ]. haitiano_a1 := a_rel_prd_le & [ STEM < "haitiano" >, SYNSEM.LKEYS.KEYREL.PRED "_haitiano_a_rel" ]. haitiano_n1 := n_intr_count_le & [ STEM < "haitiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_haitiano_n_rel" ] ]. halagador_a1 := a_qual_intr_scopal_le & [ STEM < "halagador" >, SYNSEM.LKEYS.KEYREL.PRED "_halagador_a_rel" ]. halagar_v1 := v_intr_io*_le & [ STEM < "halagar" >, SYNSEM.LKEYS.KEYREL.PRED "_halagar_v_rel" ]. halagar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "halagar" >, SYNSEM.LKEYS.KEYREL.PRED "_halagar_v_rel" ]. halagar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "halagar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_halagar_v_rel" ] ]. halagar_v4 := v_trans_np_le & [ STEM < "halagar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_halagar_v_rel" ] ]. halagã¼eño_a1 := a_qual_intr_ser_le & [ STEM < "halagüeño" >, SYNSEM.LKEYS.KEYREL.PRED "_halagüeño_a_rel" ]. halar_v1 := v_trans_cp_prop_fin_le & [ STEM < "halar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_halar_v_rel" ] ]. halar_v2 := v_trans_np_le & [ STEM < "halar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_halar_v_rel" ] ]. halazona_n1 := n_intr_count_le & [ STEM < "halazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_halazona_n_rel" ] ]. halconero_n1 := n_intr_count_le & [ STEM < "halconero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_halconero_n_rel" ] ]. halconería_n1 := n_intr_uncount_le & [ STEM < "halconería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_halconería_n_rel" ] ]. halcón_n1 := n_intr_count_le & [ STEM < "halcón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_halcón_n_rel" ] ]. halibut_n1 := n_intr_count_le & [ STEM < "halibut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_halibut_n_rel" ] ]. halita_n1 := n_intr_count_le & [ STEM < "halita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_halita_n_rel" ] ]. halloysita_n1 := n_intr_count_le & [ STEM < "halloysita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_halloysita_n_rel" ] ]. halo_n1 := n_intr_count_le & [ STEM < "halo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_halo_n_rel" ] ]. halobacteria_n1 := n_intr_count_le & [ STEM < "halobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_halobacteria_n_rel" ] ]. halogenar_v := v_trans_np_le & [ STEM < "halogenar" >, SYNSEM.LKEYS.KEYREL.PRED "_halogenar_v_rel" ]. haloideo_a1 := a_rel_nonprd_intr_le & [ STEM < "haloideo" >, SYNSEM.LKEYS.KEYREL.PRED "_haloideo_a_rel" ]. haloysita_n1 := n_intr_count_le & [ STEM < "haloysita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_haloysita_n_rel" ] ]. haltera_n1 := n_intr_count_le & [ STEM < "haltera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_haltera_n_rel" ] ]. halterofilia_n1 := n_intr_uncount_le & [ STEM < "halterofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_halterofilia_n_rel" ] ]. halterofilista_n1 := n_intr_count_le & [ STEM < "halterofilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_halterofilista_n_rel" ] ]. halterófilo_n1 := n_intr_count_le & [ STEM < "halterófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_halterófilo_n_rel" ] ]. haluro_n1 := n_intr_count_le & [ STEM < "haluro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_haluro_n_rel" ] ]. halófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "halófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_halófilo_a_rel" ]. halófito_n1 := n_intr_count_le & [ STEM < "halófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_halófito_n_rel" ] ]. halógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "halógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_halógeno_a_rel" ]. halógeno_n1 := n_intr_count_le & [ STEM < "halógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_halógeno_n_rel" ] ]. halón_n1 := n_intr_count_le & [ STEM < "halón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_halón_n_rel" ] ]. hamaca_n1 := n_intr_count_le & [ STEM < "hamaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hamaca_n_rel" ] ]. hamadryas_n1 := n_intr_count_le & [ STEM < "hamadryas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hamadryas_n_rel" ] ]. hambergita_n1 := n_intr_count_le & [ STEM < "hambergita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hambergita_n_rel" ] ]. hambriento_a1 := a_qual_intr_estar_le & [ STEM < "hambriento" >, SYNSEM.LKEYS.KEYREL.PRED "_hambriento_a_rel" ]. hamburguesa_n1 := n_intr_mass_le & [ STEM < "hamburguesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hamburguesa_n_rel" ] ]. hamburguesería_n1 := n_intr_count_le & [ STEM < "hamburguesería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hamburguesería_n_rel" ] ]. hampa_n1 := n_intr_coll_le & [ STEM < "hampa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_hampa_n_rel" ] ]. hampón_n1 := n_intr_count_le & [ STEM < "hampón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hampón_n_rel" ] ]. handicapar_v := v_trans_np_le & [ STEM < "handicapar" >, SYNSEM.LKEYS.KEYREL.PRED "_handicapar_v_rel" ]. hangar_n1 := n_intr_count_le & [ STEM < "hangar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hangar_n_rel" ] ]. hanseático_a1 := a_rel_nonprd_intr_le & [ STEM < "hanseático" >, SYNSEM.LKEYS.KEYREL.PRED "_hanseático_a_rel" ]. haploide_a1 := a_rel_prd_le & [ STEM < "haploide" >, SYNSEM.LKEYS.KEYREL.PRED "_haploide_a_rel" ]. haploidía_n1 := n_intr_uncount_le & [ STEM < "haploidía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haploidía_n_rel" ] ]. haplología_n1 := n_intr_count_le & [ STEM < "haplología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haplología_n_rel" ] ]. haplopoliploide_a1 := a_rel_prd_le & [ STEM < "haplopoliploide" >, SYNSEM.LKEYS.KEYREL.PRED "_haplopoliploide_a_rel" ]. haploscopio_n1 := n_intr_count_le & [ STEM < "haploscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_haploscopio_n_rel" ] ]. haptoglobina_n1 := n_intr_mass-or-count_le & [ STEM < "haptoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_haptoglobina_n_rel" ] ]. haragán_n1 := n_intr_count_le & [ STEM < "haragán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_haragán_n_rel" ] ]. harapo_n1 := n_intr_count_le & [ STEM < "harapo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_harapo_n_rel" ] ]. hardware_n1 := n_intr_count_le & [ STEM < "hardware" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_hardware_n_rel" ] ]. harina_n1 := n_intr_mass_le & [ STEM < "harina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_harina_n_rel" ] ]. harinera_n1 := n_intr_count_le & [ STEM < "harinera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_harinera_n_rel" ] ]. harinoso_a1 := a_qual_intr_scopal_le & [ STEM < "harinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_harinoso_a_rel" ]. harmoniosamente_x1 := av_i_spr_le & [ STEM < "harmoniosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_harmoniosamente_x_rel" ]. harmonioso_a1 := a_qual_intr_scopal_le & [ STEM < "harmonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_harmonioso_a_rel" ]. harnero_n1 := n_intr_count_le & [ STEM < "harnero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_harnero_n_rel" ] ]. harpía_n1 := n_intr_count_le & [ STEM < "harpía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_harpía_n_rel" ] ]. hartar_v1 := v_intr_io*_le & [ STEM < "hartar" >, SYNSEM.LKEYS.KEYREL.PRED "_hartar_v_rel" ]. hartar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "hartar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_hartar_v_rel" ] ] ]. hartar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "hartar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_hartar_v_rel" ] ] ]. hartar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "hartar" >, SYNSEM.LKEYS.KEYREL.PRED "_hartar_v_rel" ]. harto_a1 := a_qual_trans*_estar_le & [ STEM < "harto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_harto_a_rel" ] ]. harto_a3 := a_qual_cp_ques_estar_le & [ STEM < "harto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_harto_a_rel" ] ]. harto_a4 := a_sctrl_estar_le & [ STEM < "harto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_harto_a_rel" ] ]. harén_n1 := n_intr_coll_le & [ STEM < "harén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_harén_n_rel" ] ]. hasta_cierto_punto_x1 := av_i_le & [ STEM < "hasta_cierto_punto" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_cierto_punto_x_rel" ]. hasta_más_ver_x1 := av_i_le & [ STEM < "hasta_más_ver" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_más_ver_x_rel" ]. hasta_p_amod := p_amod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_rel ]. hasta_p_nmod := p_nmod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_rel ]. hasta_p_pp_vmod := p_pp_vmod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_rel ]. hasta_p_temp_nmod := p_temp_nmod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_temp_rel ]. hasta_p_temp_vmod := p_temp_vmod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_temp_rel ]. hasta_p_vmod := p_vmod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_rel ]. hasta_p_vp-inf_amod := p_vp-inf_amod_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED _hasta_p_rel ]. hasta_sc1 := p_cp_prop_fin_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_x_subord_rel" ]. hasta_sc2 := p_vp_inf_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_x_subord_rel" ]. hasta_tanto_que_sc := sc_prop_fin_le & [ STEM < "hasta_tanto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_tanto_que_x_subord_rel" ]. hasta_x1 := av_i_foc_prehd_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_x_rel" ]. hasta_x2 := av_s_cp_prop_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_x_rel" ]. hasta_x3 := av_i_np-foc_le & [ STEM < "hasta" >, SYNSEM.LKEYS.KEYREL.PRED "_hasta_x_rel" ]. hastial_n1 := n_intr_count_le & [ STEM < "hastial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hastial_n_rel" ] ]. hastiar_v1 := v_intr_io*_le & [ STEM < "hastiar" >, SYNSEM.LKEYS.KEYREL.PRED "_hastiar_v_rel" ]. hastiar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "hastiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_hastiar_v_rel" ] ] ]. hastiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "hastiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_hastiar_v_rel" ] ] ]. hastiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "hastiar" >, SYNSEM.LKEYS.KEYREL.PRED "_hastiar_v_rel" ]. hatajo_n := n_group_le & [ STEM < "hatajo" >, SYNSEM.LKEYS.KEYREL.PRED "_hatajo_n_rel" ]. hawaiano_a1 := a_rel_prd_le & [ STEM < "hawaiano" >, SYNSEM.LKEYS.KEYREL.PRED "_hawaiano_a_rel" ]. hawaiano_n1 := n_intr_count_le & [ STEM < "hawaiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hawaiano_n_rel" ] ]. haya_n1 := n_intr_count_le & [ STEM < "haya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_haya_n_rel" ] ]. hayedo_n1 := n_intr_count_le & [ STEM < "hayedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hayedo_n_rel" ] ]. hayuco_n1 := n_intr_count_le & [ STEM < "hayuco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hayuco_n_rel" ] ]. hayón_n1 := n_intr_count_le & [ STEM < "hayón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hayón_n_rel" ] ]. haz_n := n_pseudo-part_le & [ STEM < "haz" >, SYNSEM.LKEYS.KEYREL.PRED "_haz_n_rel" ]. haza_n1 := n_intr_count_le & [ STEM < "haza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_haza_n_rel" ] ]. hazmerreír_n1 := n_intr_count_le & [ STEM < "hazmerreír" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hazmerreír_n_rel" ] ]. he_n1 := n_intr_mass_le & [ STEM < "He" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_he_n_rel" ] ]. hebilla_n1 := n_intr_count_le & [ STEM < "hebilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hebilla_n_rel" ] ]. hebra_n1 := n_intr_count_le & [ STEM < "hebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hebra_n_rel" ] ]. hebra_n2 := n_pseudo-part_le & [ STEM < "hebra" >, SYNSEM.LKEYS.KEYREL.PRED "_hebra_n_rel" ]. hebraico_a1 := a_rel_nonprd_intr_le & [ STEM < "hebraico" >, SYNSEM.LKEYS.KEYREL.PRED "_hebraico_a_rel" ]. hebreo_a1 := a_rel_prd_le & [ STEM < "hebreo" >, SYNSEM.LKEYS.KEYREL.PRED "_hebreo_a_rel" ]. hebreo_n1 := n_intr_count_le & [ STEM < "hebreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hebreo_n_rel" ] ]. hechicero_n1 := n_intr_count_le & [ STEM < "hechicero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hechicero_n_rel" ] ]. hechicería_n1 := n_intr_uncount_pl_le & [ STEM < "hechicería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hechicería_n_rel" ] ]. hechizar_v1 := v_intr_io*_le & [ STEM < "hechizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hechizar_v_rel" ]. hechizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "hechizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hechizar_v_rel" ]. hechizar_v3 := v_trans_np_le & [ STEM < "hechizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_hechizar_v_rel" ] ]. hechura_n1 := n_intr_count_le & [ STEM < "hechura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hechura_n_rel" ] ]. hectograma_n1 := n_intr_count_le & [ STEM < "hectograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hectograma_n_rel" ] ]. hectogramo_n1 := n_pseudo-part_le & [ STEM < "hectogramo" >, SYNSEM.LKEYS.KEYREL.PRED "_hectogramo_n_rel" ]. hectolitro_n1 := n_pseudo-part_le & [ STEM < "hectolitro" >, SYNSEM.LKEYS.KEYREL.PRED "_hectolitro_n_rel" ]. hectorita_n1 := n_intr_count_le & [ STEM < "hectorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hectorita_n_rel" ] ]. hectárea_n1 := n_pseudo-part_le & [ STEM < "hectárea" >, SYNSEM.LKEYS.KEYREL.PRED "_hectárea_n_rel" ]. hectógrafo_n1 := n_intr_count_le & [ STEM < "hectógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hectógrafo_n_rel" ] ]. hectógramo_n1 := n_pseudo-part_le & [ STEM < "hectógramo" >, SYNSEM.LKEYS.KEYREL.PRED "_hectógramo_n_rel" ]. hectólitro_n1 := n_pseudo-part_le & [ STEM < "hectólitro" >, SYNSEM.LKEYS.KEYREL.PRED "_hectólitro_n_rel" ]. hectómetro_n1 := n_pseudo-part_le & [ STEM < "hectómetro" >, SYNSEM.LKEYS.KEYREL.PRED "_hectómetro_n_rel" ]. heder_v := v_intr_le & [ STEM < "heder" >, SYNSEM.LKEYS.KEYREL.PRED "_heder_v_rel" ]. hediondo_a1 := a_qual_intr_scopal_le & [ STEM < "hediondo" >, SYNSEM.LKEYS.KEYREL.PRED "_hediondo_a_rel" ]. hedonismo_n1 := n_intr_uncount_le & [ STEM < "hedonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hedonismo_n_rel" ] ]. hedonista_a1 := a_qual_intr_ser_le & [ STEM < "hedonista" >, SYNSEM.LKEYS.KEYREL.PRED "_hedonista_a_rel" ]. hedonista_n1 := n_intr_count_le & [ STEM < "hedonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hedonista_n_rel" ] ]. hedor_n1 := n_intr_uncount_pl_le & [ STEM < "hedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hedor_n_rel" ] ]. hegemonía_n1 := n_intr_count_le & [ STEM < "hegemonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hegemonía_n_rel" ] ]. hegemónicamente_x1 := av_i_spr_le & [ STEM < "hegemónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hegemónicamente_x_rel" ]. hegemónico_a1 := a_qual_intr_scopal_le & [ STEM < "hegemónico" >, SYNSEM.LKEYS.KEYREL.PRED "_hegemónico_a_rel" ]. helada_n1 := n_intr_count_le & [ STEM < "helada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_helada_n_rel" ] ]. heladería_n1 := n_intr_count_le & [ STEM < "heladería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_heladería_n_rel" ] ]. helado_n1 := n_intr_mass_le & [ STEM < "helado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_helado_n_rel" ] ]. heladora_n1 := n_intr_count_le & [ STEM < "heladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heladora_n_rel" ] ]. helar_v := v_trans_np_caus_le & [ STEM < "helar" >, SYNSEM.LKEYS.KEYREL.PRED "_helar_v_rel" ]. helecho_n1 := n_intr_count_le & [ STEM < "helecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_helecho_n_rel" ] ]. helenismo_n1 := n_intr_uncount_le & [ STEM < "helenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_helenismo_n_rel" ] ]. heleno_a1 := a_rel_prd_le & [ STEM < "heleno" >, SYNSEM.LKEYS.KEYREL.PRED "_heleno_a_rel" ]. heleno_n1 := n_intr_count_le & [ STEM < "heleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heleno_n_rel" ] ]. helero_n1 := n_intr_count_le & [ STEM < "helero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_helero_n_rel" ] ]. helibalde_n1 := n_intr_count_le & [ STEM < "helibalde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_helibalde_n_rel" ] ]. helicoidal_a1 := a_qual_intr_ser_le & [ STEM < "helicoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_helicoidal_a_rel" ]. helicoidalidad_n1 := n_intr_uncount_le & [ STEM < "helicoidalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_helicoidalidad_n_rel" ] ]. helicoidalmente_x1 := av_i_spr_le & [ STEM < "helicoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_helicoidalmente_x_rel" ]. helicotrema_n1 := n_intr_count_le & [ STEM < "helicotrema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_helicotrema_n_rel" ] ]. helicóptero_n1 := n_intr_count_le & [ STEM < "helicóptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_helicóptero_n_rel" ] ]. heliesquí_n1 := n_intr_count_le & [ STEM < "heliesquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heliesquí_n_rel" ] ]. helio_n1 := n_intr_mass_le & [ STEM < "helio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_helio_n_rel" ] ]. heliodora_n1 := n_intr_count_le & [ STEM < "heliodora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heliodora_n_rel" ] ]. heliodoro_n1 := n_intr_count_le & [ STEM < "heliodoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heliodoro_n_rel" ] ]. heliografía_n1 := n_intr_uncount_pl_le & [ STEM < "heliografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heliografía_n_rel" ] ]. heliográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "heliográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_heliográfico_a_rel" ]. helioscopio_n1 := n_intr_count_le & [ STEM < "helioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_helioscopio_n_rel" ] ]. heliotecnología_n1 := n_intr_uncount_le & [ STEM < "heliotecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heliotecnología_n_rel" ] ]. heliotropina_n1 := n_intr_count_le & [ STEM < "heliotropina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heliotropina_n_rel" ] ]. heliotropo_n1 := n_intr_count_le & [ STEM < "heliotropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_heliotropo_n_rel" ] ]. heliotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "heliotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_heliotrópico_a_rel" ]. heliozoario_n1 := n_intr_count_le & [ STEM < "heliozoario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_heliozoario_n_rel" ] ]. helipuerto_n1 := n_intr_count_le & [ STEM < "helipuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_helipuerto_n_rel" ] ]. heliófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "heliófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_heliófilo_a_rel" ]. heliógrafo_n1 := n_intr_count_le & [ STEM < "heliógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heliógrafo_n_rel" ] ]. heliómetro_n1 := n_intr_count_le & [ STEM < "heliómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heliómetro_n_rel" ] ]. helióstato_n1 := n_intr_count_le & [ STEM < "helióstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_helióstato_n_rel" ] ]. helvita_n1 := n_intr_count_le & [ STEM < "helvita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_helvita_n_rel" ] ]. helvético_a1 := a_rel_prd_le & [ STEM < "helvético" >, SYNSEM.LKEYS.KEYREL.PRED "_helvético_a_rel" ]. helvético_n1 := n_intr_count_le & [ STEM < "helvético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_helvético_n_rel" ] ]. helófito_n1 := n_intr_count_le & [ STEM < "helófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_helófito_n_rel" ] ]. hemacito_n1 := n_intr_count_le & [ STEM < "hemacito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemacito_n_rel" ] ]. hematimetría_n1 := n_intr_count_le & [ STEM < "hematimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematimetría_n_rel" ] ]. hematina_n1 := n_intr_mass-or-count_le & [ STEM < "hematina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hematina_n_rel" ] ]. hematita_n1 := n_intr_count_le & [ STEM < "hematita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematita_n_rel" ] ]. hematoblasto_n1 := n_intr_count_le & [ STEM < "hematoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematoblasto_n_rel" ] ]. hematocito_n1 := n_intr_count_le & [ STEM < "hematocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematocito_n_rel" ] ]. hematocitoblasto_n1 := n_intr_count_le & [ STEM < "hematocitoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematocitoblasto_n_rel" ] ]. hematología_n1 := n_intr_uncount_le & [ STEM < "hematología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematología_n_rel" ] ]. hematológicamente_x1 := av_i_spr_le & [ STEM < "hematológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hematológicamente_x_rel" ]. hematológico_a1 := a_rel_nonprd_intr_le & [ STEM < "hematológico" >, SYNSEM.LKEYS.KEYREL.PRED "_hematológico_a_rel" ]. hematoporfirina_n1 := n_intr_count_le & [ STEM < "hematoporfirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematoporfirina_n_rel" ] ]. hematopoyético_a1 := a_rel_nonprd_intr_le & [ STEM < "hematopoyético" >, SYNSEM.LKEYS.KEYREL.PRED "_hematopoyético_a_rel" ]. hematotímpano_n2 := n_ppcomp_count_le & [ STEM < "hematotímpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hematotímpano_n_rel" ] ]. hematoxilina_n1 := n_intr_count_le & [ STEM < "hematoxilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematoxilina_n_rel" ] ]. hematíe_n1 := n_intr_count_le & [ STEM < "hematíe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematíe_n_rel" ] ]. hematímetro_n1 := n_intr_count_le & [ STEM < "hematímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hematímetro_n_rel" ] ]. hematógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "hematógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_hematógeno_a_rel" ]. hematólogo_n1 := n_intr_count_le & [ STEM < "hematólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hematólogo_n_rel" ] ]. hembra_a1 := a_rel_nonprd_intr_le & [ STEM < "hembra" >, SYNSEM.LKEYS.KEYREL.PRED "_hembra_a_rel" ]. hembrilla_n1 := n_intr_count_le & [ STEM < "hembrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hembrilla_n_rel" ] ]. hemeralopía_n1 := n_intr_uncount_le & [ STEM < "hemeralopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemeralopía_n_rel" ] ]. hemeroteca_n1 := n_intr_count_le & [ STEM < "hemeroteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hemeroteca_n_rel" ] ]. hemianopía_n1 := n_intr_uncount_le & [ STEM < "hemianopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemianopía_n_rel" ] ]. hemicelulosa_n1 := n_intr_count_le & [ STEM < "hemicelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hemicelulosa_n_rel" ] ]. hemiciclo_n1 := n_intr_count_le & [ STEM < "hemiciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hemiciclo_n_rel" ] ]. hemicigótico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemicigótico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemicigótico_a_rel" ]. hemicriptófito_n1 := n_intr_count_le & [ STEM < "hemicriptófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hemicriptófito_n_rel" ] ]. hemicromatídico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemicromatídico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemicromatídico_a_rel" ]. hemidesmosoma_n1 := n_intr_count_le & [ STEM < "hemidesmosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemidesmosoma_n_rel" ] ]. hemiedro_n1 := n_intr_count_le & [ STEM < "hemiedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemiedro_n_rel" ] ]. hemiedría_n1 := n_intr_uncount_le & [ STEM < "hemiedría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemiedría_n_rel" ] ]. hemifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "hemifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_hemifacial_a_rel" ]. hemihaploide_a1 := a_rel_nonprd_intr_le & [ STEM < "hemihaploide" >, SYNSEM.LKEYS.KEYREL.PRED "_hemihaploide_a_rel" ]. hemilaringectomía_n1 := n_intr_count_le & [ STEM < "hemilaringectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemilaringectomía_n_rel" ] ]. hemimaxilar_n2 := n_ppcomp_count_le & [ STEM < "hemimaxilar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hemimaxilar_n_rel" ] ]. hemimembrana_n1 := n_intr_count_le & [ STEM < "hemimembrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemimembrana_n_rel" ] ]. hemimorfita_n1 := n_intr_count_le & [ STEM < "hemimorfita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hemimorfita_n_rel" ] ]. hemiparásito_n1 := n_intr_count_le & [ STEM < "hemiparásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hemiparásito_n_rel" ] ]. hemiplejía_n1 := n_intr_uncount_pl_le & [ STEM < "hemiplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemiplejía_n_rel" ] ]. hemiseptum_n1 := n_intr_count_le & [ STEM < "hemiseptum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemiseptum_n_rel" ] ]. hemisféricamente_x1 := av_i_spr_le & [ STEM < "hemisféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hemisféricamente_x_rel" ]. hemisférico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemisférico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemisférico_a_rel" ]. hemiédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemiédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemiédrico_a_rel" ]. hemoaglutinación_n1 := n_intr_uncount_le & [ STEM < "hemoaglutinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoaglutinación_n_rel" ] ]. hemocianina_n1 := n_intr_mass-or-count_le & [ STEM < "hemocianina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hemocianina_n_rel" ] ]. hemocito_n1 := n_intr_count_le & [ STEM < "hemocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemocito_n_rel" ] ]. hemocitoblasto_n1 := n_intr_count_le & [ STEM < "hemocitoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemocitoblasto_n_rel" ] ]. hemocitología_n1 := n_intr_uncount_le & [ STEM < "hemocitología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemocitología_n_rel" ] ]. hemocitómetro_n1 := n_intr_count_le & [ STEM < "hemocitómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemocitómetro_n_rel" ] ]. hemoconcentración_n1 := n_intr_uncount_le & [ STEM < "hemoconcentración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoconcentración_n_rel" ] ]. hemocromógeno_n1 := n_intr_count_le & [ STEM < "hemocromógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemocromógeno_n_rel" ] ]. hemocultura_n1 := n_intr_count_le & [ STEM < "hemocultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemocultura_n_rel" ] ]. hemoderivado_a1 := a_rel_nonprd_intr_le & [ STEM < "hemoderivado" >, SYNSEM.LKEYS.KEYREL.PRED "_hemoderivado_a_rel" ]. hemoderivado_n1 := n_intr_count_le & [ STEM < "hemoderivado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoderivado_n_rel" ] ]. hemodonación_n1 := n_intr_uncount_le & [ STEM < "hemodonación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemodonación_n_rel" ] ]. hemofílico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemofílico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemofílico_a_rel" ]. hemofílico_n1 := n_intr_count_le & [ STEM < "hemofílico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hemofílico_n_rel" ] ]. hemoglobina_n1 := n_intr_mass-or-count_le & [ STEM < "hemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hemoglobina_n_rel" ] ]. hemoglobinopatía_n1 := n_intr_count_le & [ STEM < "hemoglobinopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoglobinopatía_n_rel" ] ]. hemograma_n1 := n_intr_count_le & [ STEM < "hemograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_hemograma_n_rel" ] ]. hemolinfa_n1 := n_intr_count_le & [ STEM < "hemolinfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hemolinfa_n_rel" ] ]. hemolinfoide_a1 := a_rel_nonprd_intr_le & [ STEM < "hemolinfoide" >, SYNSEM.LKEYS.KEYREL.PRED "_hemolinfoide_a_rel" ]. hemolisina_n1 := n_intr_mass-or-count_le & [ STEM < "hemolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hemolisina_n_rel" ] ]. hemolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemolítico_a_rel" ]. hemopatía_n1 := n_intr_uncount_le & [ STEM < "hemopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemopatía_n_rel" ] ]. hemopoyetina_n1 := n_intr_mass-or-count_le & [ STEM < "hemopoyetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hemopoyetina_n_rel" ] ]. hemopoyético_a1 := a_rel_nonprd_intr_le & [ STEM < "hemopoyético" >, SYNSEM.LKEYS.KEYREL.PRED "_hemopoyético_a_rel" ]. hemorroidal_a1 := a_rel_nonprd_intr_le & [ STEM < "hemorroidal" >, SYNSEM.LKEYS.KEYREL.PRED "_hemorroidal_a_rel" ]. hemorroide_n1 := n_intr_count_le & [ STEM < "hemorroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hemorroide_n_rel" ] ]. hemorrágico_a1 := a_rel_nonprd_intr_le & [ STEM < "hemorrágico" >, SYNSEM.LKEYS.KEYREL.PRED "_hemorrágico_a_rel" ]. hemosiderina_n1 := n_intr_mass-or-count_le & [ STEM < "hemosiderina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hemosiderina_n_rel" ] ]. hemostático_a1 := a_rel_nonprd_intr_le & [ STEM < "hemostático" >, SYNSEM.LKEYS.KEYREL.PRED "_hemostático_a_rel" ]. hemotímpano_n2 := n_ppcomp_count_le & [ STEM < "hemotímpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hemotímpano_n_rel" ] ]. hemático_a1 := a_rel_nonprd_intr_le & [ STEM < "hemático" >, SYNSEM.LKEYS.KEYREL.PRED "_hemático_a_rel" ]. hemíptero_n1 := n_intr_count_le & [ STEM < "hemíptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hemíptero_n_rel" ] ]. hender_v := v_trans_np_caus_le & [ STEM < "hender" >, SYNSEM.LKEYS.KEYREL.PRED "_hender_v_rel" ]. hendible_a1 := a_qual_intr_scopal_le & [ STEM < "hendible" >, SYNSEM.LKEYS.KEYREL.PRED "_hendible_a_rel" ]. hendidura_n1 := n_intr_count_le & [ STEM < "hendidura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hendidura_n_rel" ] ]. hendir_v := v_trans_np_caus_le & [ STEM < "hendir" >, SYNSEM.LKEYS.KEYREL.PRED "_hendir_v_rel" ]. heneicosanoato_n1 := n_intr_count_le & [ STEM < "heneicosanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heneicosanoato_n_rel" ] ]. henequén_n1 := n_intr_mass_le & [ STEM < "henequén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_henequén_n_rel" ] ]. henificadora_n1 := n_intr_count_le & [ STEM < "henificadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_henificadora_n_rel" ] ]. henil_n1 := n_intr_count_le & [ STEM < "henil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_henil_n_rel" ] ]. henna_n1 := n_intr_mass_le & [ STEM < "henna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_henna_n_rel" ] ]. heno_n1 := n_intr_mass_le & [ STEM < "heno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heno_n_rel" ] ]. henrio_n := n_intr_count_le & [ STEM < "henrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_henrio_n_rel" ] ]. heparina_n1 := n_intr_mass-or-count_le & [ STEM < "heparina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_heparina_n_rel" ] ]. heparinizar_v := v_trans_np_le & [ STEM < "heparinizar" >, SYNSEM.LKEYS.KEYREL.PRED "_heparinizar_v_rel" ]. hepatocito_n1 := n_intr_count_le & [ STEM < "hepatocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hepatocito_n_rel" ] ]. hepatocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "hepatocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_hepatocólico_a_rel" ]. hepatoduodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "hepatoduodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_hepatoduodenal_a_rel" ]. hepatogástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hepatogástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hepatogástrico_a_rel" ]. hepatología_n1 := n_intr_uncount_le & [ STEM < "hepatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hepatología_n_rel" ] ]. hepatopancreático_a1 := a_rel_nonprd_intr_le & [ STEM < "hepatopancreático" >, SYNSEM.LKEYS.KEYREL.PRED "_hepatopancreático_a_rel" ]. hepatorrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "hepatorrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_hepatorrenal_a_rel" ]. heptabarbital_a1 := a_rel_nonprd_intr_le & [ STEM < "heptabarbital" >, SYNSEM.LKEYS.KEYREL.PRED "_heptabarbital_a_rel" ]. heptacloro_n1 := n_intr_count_le & [ STEM < "heptacloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptacloro_n_rel" ] ]. heptadecanoato_n1 := n_intr_count_le & [ STEM < "heptadecanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptadecanoato_n_rel" ] ]. heptadecanol_n1 := n_intr_count_le & [ STEM < "heptadecanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptadecanol_n_rel" ] ]. heptadecilglioxalidina_n1 := n_intr_count_le & [ STEM < "heptadecilglioxalidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptadecilglioxalidina_n_rel" ] ]. heptafluobutírico_a1 := a_rel_nonprd_intr_le & [ STEM < "heptafluobutírico" >, SYNSEM.LKEYS.KEYREL.PRED "_heptafluobutírico_a_rel" ]. heptagonal_a1 := a_rel_prd_le & [ STEM < "heptagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_heptagonal_a_rel" ]. heptano_n1 := n_intr_mass_le & [ STEM < "heptano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptano_n_rel" ] ]. heptanol_n1 := n_intr_count_le & [ STEM < "heptanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heptanol_n_rel" ] ]. heptatleta_n1 := n_intr_count_le & [ STEM < "heptatleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heptatleta_n_rel" ] ]. heptatloniana_n1 := n_intr_count_le & [ STEM < "heptatloniana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heptatloniana_n_rel" ] ]. heptatlón_n1 := n_intr_count_le & [ STEM < "heptatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heptatlón_n_rel" ] ]. heptavalente_a1 := a_rel_nonprd_intr_le & [ STEM < "heptavalente" >, SYNSEM.LKEYS.KEYREL.PRED "_heptavalente_a_rel" ]. hepteno_n1 := n_intr_count_le & [ STEM < "hepteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hepteno_n_rel" ] ]. heptodo_n1 := n_intr_count_le & [ STEM < "heptodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heptodo_n_rel" ] ]. hepático_a1 := a_rel_nonprd_intr_le & [ STEM < "hepático" >, SYNSEM.LKEYS.KEYREL.PRED "_hepático_a_rel" ]. heraldista_n1 := n_intr_count_le & [ STEM < "heraldista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heraldista_n_rel" ] ]. heraldo_n1 := n_intr_count_le & [ STEM < "heraldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heraldo_n_rel" ] ]. herbaje_n1 := n_intr_mass_le & [ STEM < "herbaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_herbaje_n_rel" ] ]. herbajero_n1 := n_intr_count_le & [ STEM < "herbajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_herbajero_n_rel" ] ]. herbario_n1 := n_intr_count_le & [ STEM < "herbario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herbario_n_rel" ] ]. herbazal_n1 := n_intr_count_le & [ STEM < "herbazal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_herbazal_n_rel" ] ]. herbicida_a1 := a_rel_nonprd_intr_le & [ STEM < "herbicida" >, SYNSEM.LKEYS.KEYREL.PRED "_herbicida_a_rel" ]. herbolario_n1 := n_intr_count_le & [ STEM < "herbolario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_herbolario_n_rel" ] ]. herboso_a1 := a_rel_nonprd_intr_le & [ STEM < "herboso" >, SYNSEM.LKEYS.KEYREL.PRED "_herboso_a_rel" ]. herbáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "herbáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_herbáceo_a_rel" ]. herbívoro_a1 := a_rel_prd_le & [ STEM < "herbívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_herbívoro_a_rel" ]. herbívoro_n1 := n_intr_count_le & [ STEM < "herbívoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_herbívoro_n_rel" ] ]. hercio_n := n_intr_count_le & [ STEM < "hercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_hercio_n_rel" ] ]. hercúleo_a1 := a_rel_nonprd_intr_le & [ STEM < "hercúleo" >, SYNSEM.LKEYS.KEYREL.PRED "_hercúleo_a_rel" ]. heredable_a1 := a_rel_prd_le & [ STEM < "heredable" >, SYNSEM.LKEYS.KEYREL.PRED "_heredable_a_rel" ]. heredad_n1 := n_intr_count_le & [ STEM < "heredad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heredad_n_rel" ] ]. heredamiento_n1 := n_intr_count_le & [ STEM < "heredamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heredamiento_n_rel" ] ]. heredar_v := v_trans_np_mrkd_np*_le & [ STEM < "heredar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_heredar_v_rel" ] ]. heredero_n1 := n_intr_count_le & [ STEM < "heredero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heredero_n_rel" ] ]. hereditariamente_x1 := av_i_le & [ STEM < "hereditariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hereditariamente_x_rel" ]. hereditario_a1 := a_rel_prd_le & [ STEM < "hereditario" >, SYNSEM.LKEYS.KEYREL.PRED "_hereditario_a_rel" ]. hereje_n1 := n_intr_count_le & [ STEM < "hereje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hereje_n_rel" ] ]. herejía_n1 := n_intr_count_le & [ STEM < "herejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_herejía_n_rel" ] ]. herencia_n1 := n_intr_uncount_pl_le & [ STEM < "herencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_herencia_n_rel" ] ]. herida_n1 := n_intr_count_le & [ STEM < "herida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herida_n_rel" ] ]. herido_n1 := n_intr_count_le & [ STEM < "herido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_herido_n_rel" ] ]. herir_v1 := v_intr_io*_le & [ STEM < "herir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_herir_v_rel" ] ]. herir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "herir" >, SYNSEM.LKEYS.KEYREL.PRED "_herir_v_rel" ]. herir_v3 := v_trans_np_le & [ STEM < "herir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_pro, ARG2.SORT ani_hum, PRED "_herir_v_rel" ] ]. hermafrodita_a1 := a_rel_prd_le & [ STEM < "hermafrodita" >, SYNSEM.LKEYS.KEYREL.PRED "_hermafrodita_a_rel" ]. hermafrodita_n1 := n_intr_count_le & [ STEM < "hermafrodita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_hermafrodita_n_rel" ] ]. hermafroditismo_n1 := n_ppcomp_uncount_le & [ STEM < "hermafroditismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hermafroditismo_n_rel" ] ]. hermanable_a1 := a_rel_prd_le & [ STEM < "hermanable" >, SYNSEM.LKEYS.KEYREL.PRED "_hermanable_a_rel" ]. hermanamiento_n1 := n_trans_le & [ STEM < "hermanamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_hermanamiento_n_rel" ]. hermanastro_n1 := n_intr_count_le & [ STEM < "hermanastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hermanastro_n_rel" ] ]. hermandad_n1 := n_intr_mass_le & [ STEM < "hermandad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_hermandad_n_rel" ] ]. hermano_n1 := n_ppcomp_count_le & [ STEM < "hermano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_hermano_n_rel" ] ]. hermeticidad_n1 := n_intr_uncount_le & [ STEM < "hermeticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hermeticidad_n_rel" ] ]. hermetismo_n1 := n_ppcomp_mass_le & [ STEM < "hermetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hermetismo_n_rel" ] ]. hermetizar_v := v_trans_np_le & [ STEM < "hermetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hermetizar_v_rel" ]. hermoso_a1 := a_qual_intr_scopal_le & [ STEM < "hermoso" >, SYNSEM.LKEYS.KEYREL.PRED "_hermoso_a_rel" ]. herméticamente_x1 := av_i_spr_le & [ STEM < "herméticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_herméticamente_x_rel" ]. hermético_a1 := a_qual_intr_scopal_le & [ STEM < "hermético" >, SYNSEM.LKEYS.KEYREL.PRED "_hermético_a_rel" ]. heroicamente_x1 := av_i_spr_le & [ STEM < "heroicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heroicamente_x_rel" ]. heroicidad_n1 := n_ppcomp_mass_le & [ STEM < "heroicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heroicidad_n_rel" ] ]. heroico_a1 := a_qual_intr_scopal_le & [ STEM < "heroico" >, SYNSEM.LKEYS.KEYREL.PRED "_heroico_a_rel" ]. heroinómano_n1 := n_intr_count_le & [ STEM < "heroinómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heroinómano_n_rel" ] ]. heroína_n1 := n_intr_mass_le & [ STEM < "heroína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heroína_n_rel" ] ]. heroína_n2 := n_intr_count_le & [ STEM < "heroína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heroína_n_rel" ] ]. heroïnómano_n1 := n_intr_count_le & [ STEM < "heroïnómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heroïnómano_n_rel" ] ]. herpangina_n1 := n_intr_mass-or-count_le & [ STEM < "herpangina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_herpangina_n_rel" ] ]. herpetiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "herpetiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_herpetiforme_a_rel" ]. herpético_a1 := a_rel_nonprd_intr_le & [ STEM < "herpético" >, SYNSEM.LKEYS.KEYREL.PRED "_herpético_a_rel" ]. herrador_n1 := n_subj-nom_le & [ STEM < "herrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_herrador_n_rel" ] ]. herradura_n1 := n_intr_count_le & [ STEM < "herradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herradura_n_rel" ] ]. herraje_n1 := n_intr_count_le & [ STEM < "herraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herraje_n_rel" ] ]. herramental_n1 := n_intr_count_le & [ STEM < "herramental" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herramental_n_rel" ] ]. herramienta_n1 := n_intr_count_le & [ STEM < "herramienta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_herramienta_n_rel" ] ]. herrar_v := v_trans_np_le & [ STEM < "herrar" >, SYNSEM.LKEYS.KEYREL.PRED "_herrar_v_rel" ]. herrerillo_n1 := n_intr_count_le & [ STEM < "herrerillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_herrerillo_n_rel" ] ]. herrero_n1 := n_intr_count_le & [ STEM < "herrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_herrero_n_rel" ] ]. herrería_n1 := n_intr_mass-or-count_le & [ STEM < "herrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_herrería_n_rel" ] ]. herrumbre_n1 := n_intr_count_le & [ STEM < "herrumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mat, PRED "_herrumbre_n_rel" ] ]. hertziano_a1 := a_rel_nonprd_intr_le & [ STEM < "hertziano" >, SYNSEM.LKEYS.KEYREL.PRED "_hertziano_a_rel" ]. hertzio_n := n_intr_count_le & [ STEM < "hertzio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_hertzio_n_rel" ] ]. hervadura_n1 := n_intr_count_le & [ STEM < "hervadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hervadura_n_rel" ] ]. hervidero_n1 := n_intr_count_le & [ STEM < "hervidero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hervidero_n_rel" ] ]. hervidor_n1 := n_intr_count_le & [ STEM < "hervidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hervidor_n_rel" ] ]. hervir_v := v_trans_np_caus_int_non-perf_le & [ STEM < "hervir" >, SYNSEM.LKEYS.KEYREL.PRED "_hervir_v_rel" ]. heráldico_a1 := a_rel_nonprd_intr_le & [ STEM < "heráldico" >, SYNSEM.LKEYS.KEYREL.PRED "_heráldico_a_rel" ]. herético_a1 := a_rel_nonprd_intr_le & [ STEM < "herético" >, SYNSEM.LKEYS.KEYREL.PRED "_herético_a_rel" ]. hesonita_n1 := n_intr_count_le & [ STEM < "hesonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hesonita_n_rel" ] ]. hesperidina_n1 := n_intr_count_le & [ STEM < "hesperidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hesperidina_n_rel" ] ]. hessiano_a1 := a_rel_nonprd_intr_le & [ STEM < "hessiano" >, SYNSEM.LKEYS.KEYREL.PRED "_hessiano_a_rel" ]. heteroanticuerpo_n1 := n_intr_count_le & [ STEM < "heteroanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heteroanticuerpo_n_rel" ] ]. heterocarion_n1 := n_intr_count_le & [ STEM < "heterocarion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterocarion_n_rel" ] ]. heterocigoto_n1 := n_intr_count_le & [ STEM < "heterocigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterocigoto_n_rel" ] ]. heterocitotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterocitotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterocitotrópico_a_rel" ]. heterocliticidad_n1 := n_intr_uncount_le & [ STEM < "heterocliticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterocliticidad_n_rel" ] ]. heteroclítico_a1 := a_rel_nonprd_intr_le & [ STEM < "heteroclítico" >, SYNSEM.LKEYS.KEYREL.PRED "_heteroclítico_a_rel" ]. heterocromatina_n1 := n_intr_mass-or-count_le & [ STEM < "heterocromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_heterocromatina_n_rel" ] ]. heterocromatinosoma_n1 := n_intr_count_le & [ STEM < "heterocromatinosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterocromatinosoma_n_rel" ] ]. heterocromatismo_n1 := n_intr_uncount_le & [ STEM < "heterocromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterocromatismo_n_rel" ] ]. heterocromosoma_n1 := n_intr_count_le & [ STEM < "heterocromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterocromosoma_n_rel" ] ]. heterocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "heterocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_heterocromático_a_rel" ]. heterocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterocíclico_a_rel" ]. heterodinamente_x1 := av_i_spr_le & [ STEM < "heterodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodinamente_x_rel" ]. heterodino_a1 := a_rel_nonprd_intr_le & [ STEM < "heterodino" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodino_a_rel" ]. heterodinámicamente_x1 := av_i_spr_le & [ STEM < "heterodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodinámicamente_x_rel" ]. heterodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodinámico_a_rel" ]. heterodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "heterodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodonto_a_rel" ]. heterodoxo_a1 := a_qual_intr_scopal_le & [ STEM < "heterodoxo" >, SYNSEM.LKEYS.KEYREL.PRED "_heterodoxo_a_rel" ]. heteroestructura_n1 := n_intr_count_le & [ STEM < "heteroestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heteroestructura_n_rel" ] ]. heterofagosoma_n1 := n_intr_count_le & [ STEM < "heterofagosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterofagosoma_n_rel" ] ]. heterofibra_n1 := n_intr_mass-or-count_le & [ STEM < "heterofibra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_heterofibra_n_rel" ] ]. heterogameto_n1 := n_ppcomp_count_le & [ STEM < "heterogameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_heterogameto_n_rel" ] ]. heterogeneidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "heterogeneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterogeneidad_n_rel" ] ]. heterogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "heterogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_heterogenético_a_rel" ]. heterogéneamente_x1 := av_i_spr_le & [ STEM < "heterogéneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heterogéneamente_x_rel" ]. heterogéneo_a1 := a_qual_intr_scopal_le & [ STEM < "heterogéneo" >, SYNSEM.LKEYS.KEYREL.PRED "_heterogéneo_a_rel" ]. heterolisosoma_n1 := n_intr_count_le & [ STEM < "heterolisosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterolisosoma_n_rel" ] ]. heteromolibdato_n1 := n_intr_count_le & [ STEM < "heteromolibdato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heteromolibdato_n_rel" ] ]. heterométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterométrico_a_rel" ]. heteromórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "heteromórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_heteromórfico_a_rel" ]. heteropolar_a1 := a_rel_nonprd_intr_le & [ STEM < "heteropolar" >, SYNSEM.LKEYS.KEYREL.PRED "_heteropolar_a_rel" ]. heteropolarmente_x1 := av_i_spr_le & [ STEM < "heteropolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_heteropolarmente_x_rel" ]. heteropolímero_n1 := n_intr_count_le & [ STEM < "heteropolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heteropolímero_n_rel" ] ]. heteroscedasticidad_n1 := n_intr_uncount_le & [ STEM < "heteroscedasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heteroscedasticidad_n_rel" ] ]. heterosexual_a1 := a_rel_prd_le & [ STEM < "heterosexual" >, SYNSEM.LKEYS.KEYREL.PRED "_heterosexual_a_rel" ]. heterosexual_n1 := n_intr_count_le & [ STEM < "heterosexual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_heterosexual_n_rel" ] ]. heterosexualidad_n1 := n_intr_uncount_le & [ STEM < "heterosexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterosexualidad_n_rel" ] ]. heterosfera_n1 := n_intr_count_le & [ STEM < "heterosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterosfera_n_rel" ] ]. heterosilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterosilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterosilábico_a_rel" ]. heterostáticamente_x1 := av_i_spr_le & [ STEM < "heterostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heterostáticamente_x_rel" ]. heterostático_a1 := a_rel_nonprd_intr_le & [ STEM < "heterostático" >, SYNSEM.LKEYS.KEYREL.PRED "_heterostático_a_rel" ]. heterotropía_n1 := n_intr_uncount_pl_le & [ STEM < "heterotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterotropía_n_rel" ] ]. heterotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterotrópico_a_rel" ]. heterotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "heterotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_heterotópico_a_rel" ]. heterounión_n1 := n_intr_uncount_le & [ STEM < "heterounión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterounión_n_rel" ] ]. heterozigoto_a1 := a_rel_prd_le & [ STEM < "heterozigoto" >, SYNSEM.LKEYS.KEYREL.PRED "_heterozigoto_a_rel" ]. heterófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "heterófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_heterófilo_a_rel" ]. heterólogo_a1 := a_rel_nonprd_intr_le & [ STEM < "heterólogo" >, SYNSEM.LKEYS.KEYREL.PRED "_heterólogo_a_rel" ]. heteróptero_n1 := n_intr_count_le & [ STEM < "heteróptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_heteróptero_n_rel" ] ]. heterótrofo_a1 := a_rel_nonprd_intr_le & [ STEM < "heterótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_heterótrofo_a_rel" ]. heterótrofo_n1 := n_intr_count_le & [ STEM < "heterótrofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_heterótrofo_n_rel" ] ]. heulandita_n1 := n_intr_count_le & [ STEM < "heulandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_heulandita_n_rel" ] ]. heurísticamente_x1 := av_i_spr_le & [ STEM < "heurísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_heurísticamente_x_rel" ]. heurístico_a1 := a_rel_nonprd_intr_le & [ STEM < "heurístico" >, SYNSEM.LKEYS.KEYREL.PRED "_heurístico_a_rel" ]. hexabromoetano_n1 := n_intr_count_le & [ STEM < "hexabromoetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexabromoetano_n_rel" ] ]. hexaclorobenceno_n1 := n_intr_count_le & [ STEM < "hexaclorobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaclorobenceno_n_rel" ] ]. hexaclorobutadieno_n1 := n_intr_count_le & [ STEM < "hexaclorobutadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaclorobutadieno_n_rel" ] ]. hexaclorociclohexano_n1 := n_intr_count_le & [ STEM < "hexaclorociclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaclorociclohexano_n_rel" ] ]. hexaclorociclopentadieno_n1 := n_intr_count_le & [ STEM < "hexaclorociclopentadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaclorociclopentadieno_n_rel" ] ]. hexacloropropileno_n1 := n_intr_count_le & [ STEM < "hexacloropropileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexacloropropileno_n_rel" ] ]. hexacloruro_n1 := n_intr_count_le & [ STEM < "hexacloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexacloruro_n_rel" ] ]. hexacordo_n1 := n_intr_count_le & [ STEM < "hexacordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_hexacordo_n_rel" ] ]. hexadecano_n1 := n_intr_count_le & [ STEM < "hexadecano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexadecano_n_rel" ] ]. hexadeceno_n1 := n_intr_count_le & [ STEM < "hexadeceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexadeceno_n_rel" ] ]. hexadeciltriclorosilano_n1 := n_intr_count_le & [ STEM < "hexadeciltriclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexadeciltriclorosilano_n_rel" ] ]. hexadecimal_a1 := a_rel_nonprd_intr_le & [ STEM < "hexadecimal" >, SYNSEM.LKEYS.KEYREL.PRED "_hexadecimal_a_rel" ]. hexadecimal_n1 := n_intr_count_le & [ STEM < "hexadecimal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexadecimal_n_rel" ] ]. hexadecimalmente_x1 := av_i_spr_le & [ STEM < "hexadecimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_hexadecimalmente_x_rel" ]. hexaedrito_n1 := n_intr_count_le & [ STEM < "hexaedrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaedrito_n_rel" ] ]. hexafluorido_n1 := n_intr_mass_le & [ STEM < "hexafluorido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexafluorido_n_rel" ] ]. hexagonal_a1 := a_rel_nonprd_intr_le & [ STEM < "hexagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_hexagonal_a_rel" ]. hexagonita_n1 := n_intr_count_le & [ STEM < "hexagonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexagonita_n_rel" ] ]. hexahidrobenzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "hexahidrobenzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_hexahidrobenzoico_a_rel" ]. hexahidroftálico_a1 := a_rel_nonprd_intr_le & [ STEM < "hexahidroftálico" >, SYNSEM.LKEYS.KEYREL.PRED "_hexahidroftálico_a_rel" ]. hexaldehído_n1 := n_intr_mass_le & [ STEM < "hexaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexaldehído_n_rel" ] ]. hexametilendiamina_n1 := n_intr_count_le & [ STEM < "hexametilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexametilendiamina_n_rel" ] ]. hexametilenotetramina_n1 := n_intr_count_le & [ STEM < "hexametilenotetramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexametilenotetramina_n_rel" ] ]. hexametilentetramina_n1 := n_intr_count_le & [ STEM < "hexametilentetramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexametilentetramina_n_rel" ] ]. hexametilfosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "hexametilfosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_hexametilfosfórico_a_rel" ]. hexanitrato_n1 := n_intr_count_le & [ STEM < "hexanitrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexanitrato_n_rel" ] ]. hexano_n1 := n_intr_count_le & [ STEM < "hexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexano_n_rel" ] ]. hexanol_n1 := n_intr_count_le & [ STEM < "hexanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexanol_n_rel" ] ]. hexanotriol_n1 := n_intr_count_le & [ STEM < "hexanotriol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexanotriol_n_rel" ] ]. hexavalente_a1 := a_rel_prd_le & [ STEM < "hexavalente" >, SYNSEM.LKEYS.KEYREL.PRED "_hexavalente_a_rel" ]. hexavalentemente_x1 := av_i_spr_le & [ STEM < "hexavalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_hexavalentemente_x_rel" ]. hexaédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hexaédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hexaédrico_a_rel" ]. hexeno_n1 := n_intr_count_le & [ STEM < "hexeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexeno_n_rel" ] ]. hexenol_n1 := n_intr_count_le & [ STEM < "hexenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexenol_n_rel" ] ]. hexilfenol_n1 := n_intr_count_le & [ STEM < "hexilfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexilfenol_n_rel" ] ]. hexilresorcina_n1 := n_intr_count_le & [ STEM < "hexilresorcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexilresorcina_n_rel" ] ]. hexobarbital_a1 := a_rel_nonprd_intr_le & [ STEM < "hexobarbital" >, SYNSEM.LKEYS.KEYREL.PRED "_hexobarbital_a_rel" ]. hexoquinasa_n1 := n_intr_count_le & [ STEM < "hexoquinasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hexoquinasa_n_rel" ] ]. hexágono_n1 := n_intr_count_le & [ STEM < "hexágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_hexágono_n_rel" ] ]. hexástilo_a1 := a_rel_nonprd_intr_le & [ STEM < "hexástilo" >, SYNSEM.LKEYS.KEYREL.PRED "_hexástilo_a_rel" ]. hez_n1 := n_intr_count_le & [ STEM < "hez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hez_n_rel" ] ]. hialinización_n1 := n_intr_mass_le & [ STEM < "hialinización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hialinización_n_rel" ] ]. hialita_n1 := n_intr_count_le & [ STEM < "hialita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hialita_n_rel" ] ]. hialoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "hialoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_hialoideo_a_rel" ]. hialoplasma_n1 := n_intr_count_le & [ STEM < "hialoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hialoplasma_n_rel" ] ]. hialuronidasa_n1 := n_intr_count_le & [ STEM < "hialuronidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hialuronidasa_n_rel" ] ]. hialurónico_a1 := a_rel_nonprd_intr_le & [ STEM < "hialurónico" >, SYNSEM.LKEYS.KEYREL.PRED "_hialurónico_a_rel" ]. hiato_n1 := n_intr_count_le & [ STEM < "hiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiato_n_rel" ] ]. hibernación_n1 := n_trans_le & [ STEM < "hibernación" >, SYNSEM.LKEYS.KEYREL.PRED "_hibernación_n_rel" ]. hibernal_a1 := a_rel_nonprd_intr_le & [ STEM < "hibernal" >, SYNSEM.LKEYS.KEYREL.PRED "_hibernal_a_rel" ]. hibernar_v := v_intr_le & [ STEM < "hibernar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_hibernar_v_rel" ] ]. hibisco_n1 := n_intr_count_le & [ STEM < "hibisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hibisco_n_rel" ] ]. hibridación_n1 := n_intr_uncount_le & [ STEM < "hibridación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hibridación_n_rel" ] ]. hibridar_v := v_trans_np_le & [ STEM < "hibridar" >, SYNSEM.LKEYS.KEYREL.PRED "_hibridar_v_rel" ]. hibridización_n1 := n_trans_le & [ STEM < "hibridización" >, SYNSEM.LKEYS.KEYREL.PRED "_hibridización_n_rel" ]. hibridizar_v := v_trans_np_le & [ STEM < "hibridizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_ani_plant, PRED "_hibridizar_v_rel" ] ]. hibridoma_n1 := n_intr_count_le & [ STEM < "hibridoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hibridoma_n_rel" ] ]. hic_et_nunc_x1 := av_i_le & [ STEM < "hic_et_nunc" >, SYNSEM.LKEYS.KEYREL.PRED "_hic_et_nunc_x_rel" ]. hidalgamente_x1 := av_i_spr_le & [ STEM < "hidalgamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidalgamente_x_rel" ]. hidalgo_a1 := a_rel_nonprd_intr_le & [ STEM < "hidalgo" >, SYNSEM.LKEYS.KEYREL.PRED "_hidalgo_a_rel" ]. hidalgo_n1 := n_intr_count_le & [ STEM < "hidalgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hidalgo_n_rel" ] ]. hidalguía_n1 := n_intr_uncount_le & [ STEM < "hidalguía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidalguía_n_rel" ] ]. hidantoína_n1 := n_intr_count_le & [ STEM < "hidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidantoína_n_rel" ] ]. hiddenita_n1 := n_intr_count_le & [ STEM < "hiddenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hiddenita_n_rel" ] ]. hidnocárpico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidnocárpico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidnocárpico_a_rel" ]. hidracina_n1 := n_intr_count_le & [ STEM < "hidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidracina_n_rel" ] ]. hidratación_n1 := n_trans_le & [ STEM < "hidratación" >, SYNSEM.LKEYS.KEYREL.PRED "_hidratación_n_rel" ]. hidratante_a1 := a_qual_intr_scopal_le & [ STEM < "hidratante" >, SYNSEM.LKEYS.KEYREL.PRED "_hidratante_a_rel" ]. hidratar_v := v_trans_np_le & [ STEM < "hidratar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat_pro, PRED "_hidratar_v_rel" ] ]. hidrato_n1 := n_intr_mass_le & [ STEM < "hidrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrato_n_rel" ] ]. hidrazida_n1 := n_intr_count_le & [ STEM < "hidrazida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrazida_n_rel" ] ]. hidrazobenceno_n1 := n_intr_count_le & [ STEM < "hidrazobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrazobenceno_n_rel" ] ]. hidrazona_n1 := n_intr_mass-or-count_le & [ STEM < "hidrazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hidrazona_n_rel" ] ]. hidria_n1 := n_intr_count_le & [ STEM < "hidria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidria_n_rel" ] ]. hidroacústico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroacústico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroacústico_a_rel" ]. hidroala_n1 := n_intr_count_le & [ STEM < "hidroala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroala_n_rel" ] ]. hidroavión_n1 := n_intr_count_le & [ STEM < "hidroavión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroavión_n_rel" ] ]. hidrobiología_n1 := n_intr_uncount_le & [ STEM < "hidrobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrobiología_n_rel" ] ]. hidrobromofluorocarburo_n1 := n_intr_mass_le & [ STEM < "hidrobromofluorocarburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrobromofluorocarburo_n_rel" ] ]. hidrocarburo_n1 := n_intr_mass_le & [ STEM < "hidrocarburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrocarburo_n_rel" ] ]. hidrocelulosa_n1 := n_intr_count_le & [ STEM < "hidrocelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrocelulosa_n_rel" ] ]. hidrocincita_n1 := n_intr_count_le & [ STEM < "hidrocincita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrocincita_n_rel" ] ]. hidrocinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrocinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrocinámico_a_rel" ]. hidroclasificador_n1 := n_intr_count_le & [ STEM < "hidroclasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroclasificador_n_rel" ] ]. hidroclorato_n1 := n_intr_mass_le & [ STEM < "hidroclorato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroclorato_n_rel" ] ]. hidroclorofluorocarburo_n1 := n_intr_mass_le & [ STEM < "hidroclorofluorocarburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroclorofluorocarburo_n_rel" ] ]. hidroclorotiazida_n1 := n_intr_mass_le & [ STEM < "hidroclorotiazida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroclorotiazida_n_rel" ] ]. hidrocloruro_n1 := n_intr_count_le & [ STEM < "hidrocloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrocloruro_n_rel" ] ]. hidrocoloide_n1 := n_intr_mass-or-count_le & [ STEM < "hidrocoloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hidrocoloide_n_rel" ] ]. hidrocortisona_n1 := n_intr_count_le & [ STEM < "hidrocortisona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrocortisona_n_rel" ] ]. hidrodinámicamente_x1 := av_i_spr_le & [ STEM < "hidrodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrodinámicamente_x_rel" ]. hidrodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrodinámico_a_rel" ]. hidroelectricidad_n1 := n_intr_mass_le & [ STEM < "hidroelectricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroelectricidad_n_rel" ] ]. hidroeléctricamente_x1 := av_i_spr_le & [ STEM < "hidroeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroeléctricamente_x_rel" ]. hidroeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroeléctrico_a_rel" ]. hidroextracción_n1 := n_trans_le & [ STEM < "hidroextracción" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroextracción_n_rel" ]. hidroextractor_n1 := n_intr_count_le & [ STEM < "hidroextractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroextractor_n_rel" ] ]. hidrofana_n1 := n_intr_count_le & [ STEM < "hidrofana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrofana_n_rel" ] ]. hidroformación_n1 := n_intr_count_le & [ STEM < "hidroformación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroformación_n_rel" ] ]. hidroftalmía_n1 := n_intr_uncount_le & [ STEM < "hidroftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroftalmía_n_rel" ] ]. hidrofugacia_n1 := n_intr_uncount_le & [ STEM < "hidrofugacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrofugacia_n_rel" ] ]. hidrofuramida_n1 := n_intr_count_le & [ STEM < "hidrofuramida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrofuramida_n_rel" ] ]. hidrofóbico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrofóbico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrofóbico_a_rel" ]. hidrogela_n1 := n_intr_mass-or-count_le & [ STEM < "hidrogela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hidrogela_n_rel" ] ]. hidrogenación_n1 := n_intr_count_le & [ STEM < "hidrogenación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrogenación_n_rel" ] ]. hidrogenar_v := v_trans_np_le & [ STEM < "hidrogenar" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogenar_v_rel" ]. hidrogenasa_n1 := n_intr_count_le & [ STEM < "hidrogenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrogenasa_n_rel" ] ]. hidrogenosoma_n1 := n_intr_count_le & [ STEM < "hidrogenosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrogenosoma_n_rel" ] ]. hidrogeología_n1 := n_intr_uncount_le & [ STEM < "hidrogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrogeología_n_rel" ] ]. hidrogeológico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrogeológico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogeológico_a_rel" ]. hidrogeomorfología_n1 := n_intr_uncount_le & [ STEM < "hidrogeomorfología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrogeomorfología_n_rel" ] ]. hidrogeoquímicamente_x1 := av_i_spr_le & [ STEM < "hidrogeoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogeoquímicamente_x_rel" ]. hidrogeoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrogeoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogeoquímico_a_rel" ]. hidrogeólicamente_x1 := av_i_spr_le & [ STEM < "hidrogeólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogeólicamente_x_rel" ]. hidrogeólico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrogeólico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrogeólico_a_rel" ]. hidrogeólogo_n1 := n_intr_count_le & [ STEM < "hidrogeólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hidrogeólogo_n_rel" ] ]. hidrografía_n1 := n_intr_count_le & [ STEM < "hidrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrografía_n_rel" ] ]. hidrograma_n1 := n_intr_count_le & [ STEM < "hidrograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrograma_n_rel" ] ]. hidrogrosularia_n1 := n_intr_count_le & [ STEM < "hidrogrosularia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrogrosularia_n_rel" ] ]. hidrográficamente_x1 := av_i_spr_le & [ STEM < "hidrográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrográficamente_x_rel" ]. hidrográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrográfico_a_rel" ]. hidrojardinera_n1 := n_intr_count_le & [ STEM < "hidrojardinera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrojardinera_n_rel" ] ]. hidrolasa_n1 := n_intr_count_le & [ STEM < "hidrolasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrolasa_n_rel" ] ]. hidrología_n1 := n_intr_uncount_le & [ STEM < "hidrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrología_n_rel" ] ]. hidrolíticamente_x1 := av_i_spr_le & [ STEM < "hidrolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrolíticamente_x_rel" ]. hidrolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrolítico_a_rel" ]. hidrológicamente_x1 := av_i_spr_le & [ STEM < "hidrológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrológicamente_x_rel" ]. hidrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrológico_a_rel" ]. hidromecánicamente_x1 := av_i_spr_le & [ STEM < "hidromecánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidromecánicamente_x_rel" ]. hidromecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidromecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidromecánico_a_rel" ]. hidrometeoro_n1 := n_intr_count_le & [ STEM < "hidrometeoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrometeoro_n_rel" ] ]. hidrometeorología_n1 := n_intr_uncount_le & [ STEM < "hidrometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrometeorología_n_rel" ] ]. hidromorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "hidromorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_hidromorfo_a_rel" ]. hidromorfía_n1 := n_intr_count_le & [ STEM < "hidromorfía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidromorfía_n_rel" ] ]. hidromécanico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidromécanico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidromécanico_a_rel" ]. hidrométricamente_x1 := av_i_spr_le & [ STEM < "hidrométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrométricamente_x_rel" ]. hidrométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrométrico_a_rel" ]. hidromórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidromórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidromórfico_a_rel" ]. hidroneumáticamente_x1 := av_i_spr_le & [ STEM < "hidroneumáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroneumáticamente_x_rel" ]. hidroneumático_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroneumático" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroneumático_a_rel" ]. hidroperóxido_n1 := n_intr_count_le & [ STEM < "hidroperóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroperóxido_n_rel" ] ]. hidropesía_n1 := n_intr_uncount_pl_le & [ STEM < "hidropesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidropesía_n_rel" ] ]. hidroplano_n1 := n_intr_count_le & [ STEM < "hidroplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroplano_n_rel" ] ]. hidroptero_n1 := n_intr_count_le & [ STEM < "hidroptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidroptero_n_rel" ] ]. hidropónico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidropónico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidropónico_a_rel" ]. hidroquinona_n1 := n_intr_count_le & [ STEM < "hidroquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroquinona_n_rel" ] ]. hidroseparador_n1 := n_intr_count_le & [ STEM < "hidroseparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroseparador_n_rel" ] ]. hidrosfera_n1 := n_intr_uncount_pl_le & [ STEM < "hidrosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrosfera_n_rel" ] ]. hidroso_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroso" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroso_a_rel" ]. hidrospeed_n1 := n_intr_count_le & [ STEM < "hidrospeed" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrospeed_n_rel" ] ]. hidrostáticamente_x1 := av_i_spr_le & [ STEM < "hidrostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrostáticamente_x_rel" ]. hidrostático_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrostático" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrostático_a_rel" ]. hidrosulfito_n1 := n_intr_count_le & [ STEM < "hidrosulfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrosulfito_n_rel" ] ]. hidrosulfuro_n1 := n_intr_count_le & [ STEM < "hidrosulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrosulfuro_n_rel" ] ]. hidrotermal_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrotermal" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrotermal_a_rel" ]. hidrotimetría_n1 := n_intr_uncount_pl_le & [ STEM < "hidrotimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrotimetría_n_rel" ] ]. hidrotimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrotimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrotimétrico_a_rel" ]. hidrotérmicamente_x1 := av_i_spr_le & [ STEM < "hidrotérmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrotérmicamente_x_rel" ]. hidrotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrotérmico_a_rel" ]. hidroxiacético_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroxiacético" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroxiacético_a_rel" ]. hidroxiadipaldehído_n1 := n_intr_mass_le & [ STEM < "hidroxiadipaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiadipaldehído_n_rel" ] ]. hidroxiapatita_n1 := n_intr_count_le & [ STEM < "hidroxiapatita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiapatita_n_rel" ] ]. hidroxibenzaldehído_n1 := n_intr_mass_le & [ STEM < "hidroxibenzaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxibenzaldehído_n_rel" ] ]. hidroxibenzoato_n1 := n_intr_count_le & [ STEM < "hidroxibenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxibenzoato_n_rel" ] ]. hidroxibutírico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroxibutírico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroxibutírico_a_rel" ]. hidroxicloroquina_n1 := n_intr_mass-or-count_le & [ STEM < "hidroxicloroquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_hidroxicloroquina_n_rel" ] ]. hidroxidibenzofurano_n1 := n_intr_count_le & [ STEM < "hidroxidibenzofurano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxidibenzofurano_n_rel" ] ]. hidroxidifenilamina_n1 := n_intr_count_le & [ STEM < "hidroxidifenilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxidifenilamina_n_rel" ] ]. hidroxiestearato_n1 := n_intr_count_le & [ STEM < "hidroxiestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiestearato_n_rel" ] ]. hidroxietilcelulosa_n1 := n_intr_count_le & [ STEM < "hidroxietilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxietilcelulosa_n_rel" ] ]. hidroxietilendiamina_n1 := n_intr_count_le & [ STEM < "hidroxietilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxietilendiamina_n_rel" ] ]. hidroxietilhidracina_n1 := n_intr_count_le & [ STEM < "hidroxietilhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxietilhidracina_n_rel" ] ]. hidroxifenilglicina_n1 := n_intr_count_le & [ STEM < "hidroxifenilglicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxifenilglicina_n_rel" ] ]. hidroxifenilmercúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroxifenilmercúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroxifenilmercúrico_a_rel" ]. hidroxiisobutirato_n1 := n_intr_count_le & [ STEM < "hidroxiisobutirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiisobutirato_n_rel" ] ]. hidroxilamina_n1 := n_intr_count_le & [ STEM < "hidroxilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxilamina_n_rel" ] ]. hidroximercuriclorofenol_n1 := n_intr_count_le & [ STEM < "hidroximercuriclorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroximercuriclorofenol_n_rel" ] ]. hidroximercuricresol_n1 := n_intr_count_le & [ STEM < "hidroximercuricresol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroximercuricresol_n_rel" ] ]. hidroximercurinitrofenol_n1 := n_intr_count_le & [ STEM < "hidroximercurinitrofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroximercurinitrofenol_n_rel" ] ]. hidroximetilbutanona_n1 := n_intr_count_le & [ STEM < "hidroximetilbutanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroximetilbutanona_n_rel" ] ]. hidroxinaftoico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidroxinaftoico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidroxinaftoico_a_rel" ]. hidroxinaftoquinona_n1 := n_intr_count_le & [ STEM < "hidroxinaftoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxinaftoquinona_n_rel" ] ]. hidroxiprolina_n1 := n_intr_count_le & [ STEM < "hidroxiprolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiprolina_n_rel" ] ]. hidroxipropilglicerina_n1 := n_intr_count_le & [ STEM < "hidroxipropilglicerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxipropilglicerina_n_rel" ] ]. hidroxiquinoleína_n1 := n_intr_count_le & [ STEM < "hidroxiquinoleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidroxiquinoleína_n_rel" ] ]. hidruro_n1 := n_intr_count_le & [ STEM < "hidruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidruro_n_rel" ] ]. hidrácido_n1 := n_intr_count_le & [ STEM < "hidrácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrácido_n_rel" ] ]. hidráulicamente_x1 := av_i_spr_le & [ STEM < "hidráulicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hidráulicamente_x_rel" ]. hidráulico_a1 := a_rel_nonprd_intr_le & [ STEM < "hidráulico" >, SYNSEM.LKEYS.KEYREL.PRED "_hidráulico_a_rel" ]. hidrófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrófilo_a_rel" ]. hidrófito_n1 := n_intr_count_le & [ STEM < "hidrófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hidrófito_n_rel" ] ]. hidrófobo_a1 := a_qual_intr_ser_le & [ STEM < "hidrófobo" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrófobo_a_rel" ]. hidrófono_n1 := n_intr_count_le & [ STEM < "hidrófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrófono_n_rel" ] ]. hidrófugo_a1 := a_rel_nonprd_intr_le & [ STEM < "hidrófugo" >, SYNSEM.LKEYS.KEYREL.PRED "_hidrófugo_a_rel" ]. hidrógeno_n1 := n_intr_mass_le & [ STEM < "hidrógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidrógeno_n_rel" ] ]. hidrólogo_n1 := n_intr_count_le & [ STEM < "hidrólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hidrólogo_n_rel" ] ]. hidrómetro_n1 := n_intr_count_le & [ STEM < "hidrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidrómetro_n_rel" ] ]. hidróxido_n1 := n_intr_mass_le & [ STEM < "hidróxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hidróxido_n_rel" ] ]. hidátide_n1 := n_intr_count_le & [ STEM < "hidátide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hidátide_n_rel" ] ]. hiedra_n1 := n_intr_mass_le & [ STEM < "hiedra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hiedra_n_rel" ] ]. hiel_n1 := n_intr_mass_le & [ STEM < "hiel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hiel_n_rel" ] ]. hielo_n1 := n_intr_mass_le & [ STEM < "hielo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hielo_n_rel" ] ]. hiena_n1 := n_intr_count_le & [ STEM < "hiena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hiena_n_rel" ] ]. hierba_n1 := n_intr_mass_le & [ STEM < "hierba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hierba_n_rel" ] ]. hierro_n1 := n_intr_mass_le & [ STEM < "hierro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hierro_n_rel" ] ]. hierático_a1 := a_qual_intr_scopal_le & [ STEM < "hierático" >, SYNSEM.LKEYS.KEYREL.PRED "_hierático_a_rel" ]. higienista_n1 := n_intr_count_le & [ STEM < "higienista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_higienista_n_rel" ] ]. higiénicamente_x1 := av_i_spr_le & [ STEM < "higiénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_higiénicamente_x_rel" ]. higiénico_a1 := a_qual_intr_scopal_le & [ STEM < "higiénico" >, SYNSEM.LKEYS.KEYREL.PRED "_higiénico_a_rel" ]. higiénico_sanitario_a1 := a_qual_intr_scopal_le & [ STEM < "higiénico_sanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_higiénico_sanitario_a_rel" ]. higo_n1 := n_intr_count_le & [ STEM < "higo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_higo_n_rel" ] ]. higrometría_n1 := n_intr_uncount_pl_le & [ STEM < "higrometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_higrometría_n_rel" ] ]. higrométricamente_x1 := av_i_spr_le & [ STEM < "higrométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_higrométricamente_x_rel" ]. higrométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "higrométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_higrométrico_a_rel" ]. higroscópicamente_x1 := av_i_spr_le & [ STEM < "higroscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_higroscópicamente_x_rel" ]. higroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "higroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_higroscópico_a_rel" ]. higrófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "higrófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_higrófilo_a_rel" ]. higrófito_n1 := n_intr_count_le & [ STEM < "higrófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_higrófito_n_rel" ] ]. higrómetro_n1 := n_intr_count_le & [ STEM < "higrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_higrómetro_n_rel" ] ]. higuera_n1 := n_intr_count_le & [ STEM < "higuera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_higuera_n_rel" ] ]. hijastro_n1 := n_ppcomp_count_le & [ STEM < "hijastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hijastro_n_rel" ] ]. hijo_n1 := n_ppcomp_count_le & [ STEM < "hijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hijo_n_rel" ] ]. hijuela_n1 := n_intr_count_le & [ STEM < "hijuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_hijuela_n_rel" ] ]. hila_n1 := n_intr_count_le & [ STEM < "hila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hila_n_rel" ] ]. hilacho_n1 := n_intr_count_le & [ STEM < "hilacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilacho_n_rel" ] ]. hiladillo_n1 := n_intr_count_le & [ STEM < "hiladillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hiladillo_n_rel" ] ]. hilado_n1 := n_intr_count_le & [ STEM < "hilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilado_n_rel" ] ]. hiladora_n1 := n_intr_count_le & [ STEM < "hiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_hiladora_n_rel" ] ]. hilandero_n1 := n_intr_count_le & [ STEM < "hilandero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hilandero_n_rel" ] ]. hilar_v := v_trans_np*_le & [ STEM < "hilar" >, SYNSEM.LKEYS.KEYREL.PRED "_hilar_v_rel" ]. hilarante_a1 := a_qual_intr_scopal_le & [ STEM < "hilarante" >, SYNSEM.LKEYS.KEYREL.PRED "_hilarante_a_rel" ]. hilaridad_n1 := n_intr_uncount_le & [ STEM < "hilaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hilaridad_n_rel" ] ]. hilaza_n1 := n_intr_count_le & [ STEM < "hilaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilaza_n_rel" ] ]. hilera_n1 := n_intr_count_le & [ STEM < "hilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_hilera_n_rel" ] ]. hileradora_n1 := n_intr_count_le & [ STEM < "hileradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hileradora_n_rel" ] ]. hilio_n1 := n_intr_count_le & [ STEM < "hilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilio_n_rel" ] ]. hilo_n1 := n_intr_mass_le & [ STEM < "hilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilo_n_rel" ] ]. hilvanar_v := v_trans_np_le & [ STEM < "hilvanar" >, SYNSEM.LKEYS.KEYREL.PRED "_hilvanar_v_rel" ]. hilván_n1 := n_intr_count_le & [ STEM < "hilván" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hilván_n_rel" ] ]. himatomelánico_a1 := a_rel_nonprd_intr_le & [ STEM < "himatomelánico" >, SYNSEM.LKEYS.KEYREL.PRED "_himatomelánico_a_rel" ]. himen_n1 := n_ppcomp_count_le & [ STEM < "himen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_himen_n_rel" ] ]. himeneal_a1 := a_rel_nonprd_intr_le & [ STEM < "himeneal" >, SYNSEM.LKEYS.KEYREL.PRED "_himeneal_a_rel" ]. himnario_n1 := n_intr_count_le & [ STEM < "himnario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_himnario_n_rel" ] ]. himno_n1 := n_intr_count_le & [ STEM < "himno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_himno_n_rel" ] ]. hincadura_n1 := n_trans_le & [ STEM < "hincadura" >, SYNSEM.LKEYS.KEYREL.PRED "_hincadura_n_rel" ]. hincaestacas_n1 := n_intr_count_le & [ STEM < "hincaestacas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hincaestacas_n_rel" ] ]. hincapostes_n1 := n_intr_count_le & [ STEM < "hincapostes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hincapostes_n_rel" ] ]. hincar_v := v_trans_np_lcomp_loc*_le & [ STEM < "hincar" >, SYNSEM.LKEYS.KEYREL.PRED "_hincar_v_rel" ]. hincha_n1 := n_intr_count_le & [ STEM < "hincha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hincha_n_rel" ] ]. hinchable_a1 := a_rel_prd_le & [ STEM < "hinchable" >, SYNSEM.LKEYS.KEYREL.PRED "_hinchable_a_rel" ]. hinchada_n1 := n_intr_count_le & [ STEM < "hinchada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_hinchada_n_rel" ] ]. hinchamiento_n1 := n_trans_le & [ STEM < "hinchamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_hinchamiento_n_rel" ]. hinchar_v2 := v_trans_np_le & [ STEM < "hinchar" >, SYNSEM.LKEYS.KEYREL.PRED "_hinchar_v_rel" ]. hinduismo_n1 := n_intr_uncount_le & [ STEM < "hinduismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hinduismo_n_rel" ] ]. hindú_a1 := a_rel_prd_le & [ STEM < "hindú" >, SYNSEM.LKEYS.KEYREL.PRED "_hindú_a_rel" ]. hindú_n1 := n_intr_count_le & [ STEM < "hindú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hindú_n_rel" ] ]. hinojo_n1 := n_intr_mass_le & [ STEM < "hinojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hinojo_n_rel" ] ]. hioepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "hioepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_hioepiglótico_a_rel" ]. hiogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "hiogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_hiogloso_a_rel" ]. hioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "hioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_hioideo_a_rel" ]. hioides_n1 := n_ppcomp_count_le & [ STEM < "hioides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hioides_n_rel" ] ]. hiperactividad_n1 := n_intr_uncount_le & [ STEM < "hiperactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperactividad_n_rel" ] ]. hiperactivo_a1 := a_qual_intr_ser_le & [ STEM < "hiperactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperactivo_a_rel" ]. hiperagudo_a1 := a_rel_nonprd_intr_le & [ STEM < "hiperagudo" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperagudo_a_rel" ]. hiperalérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "hiperalérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperalérgico_a_rel" ]. hiperbólicamente_x1 := av_i_spr_le & [ STEM < "hiperbólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperbólicamente_x_rel" ]. hiperbólico_a1 := a_rel_nonprd_intr_le & [ STEM < "hiperbólico" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperbólico_a_rel" ]. hipercanal_n1 := n_intr_count_le & [ STEM < "hipercanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipercanal_n_rel" ] ]. hipercardioide_a1 := a_rel_nonprd_intr_le & [ STEM < "hipercardioide" >, SYNSEM.LKEYS.KEYREL.PRED "_hipercardioide_a_rel" ]. hipercinético_a1 := a_rel_nonprd_intr_le & [ STEM < "hipercinético" >, SYNSEM.LKEYS.KEYREL.PRED "_hipercinético_a_rel" ]. hipercoagulabilidad_n1 := n_intr_uncount_le & [ STEM < "hipercoagulabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercoagulabilidad_n_rel" ] ]. hipercorrección_n1 := n_intr_uncount_le & [ STEM < "hipercorrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercorrección_n_rel" ] ]. hipercromía_n1 := n_intr_uncount_pl_le & [ STEM < "hipercromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercromía_n_rel" ] ]. hiperemotivo_a1 := a_rel_prd_le & [ STEM < "hiperemotivo" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperemotivo_a_rel" ]. hiperespacio_n1 := n_intr_count_le & [ STEM < "hiperespacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_hiperespacio_n_rel" ] ]. hiperesplenismo_n1 := n_intr_uncount_le & [ STEM < "hiperesplenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperesplenismo_n_rel" ] ]. hipereutectoide_n1 := n_intr_count_le & [ STEM < "hipereutectoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipereutectoide_n_rel" ] ]. hiperextensión_n1 := n_intr_count_le & [ STEM < "hiperextensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperextensión_n_rel" ] ]. hiperfocal_a1 := a_rel_prd_le & [ STEM < "hiperfocal" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperfocal_a_rel" ]. hiperfocalmente_x1 := av_i_spr_le & [ STEM < "hiperfocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperfocalmente_x_rel" ]. hiperfrecuencia_n1 := n_intr_uncount_le & [ STEM < "hiperfrecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperfrecuencia_n_rel" ] ]. hipergeometría_n1 := n_intr_uncount_pl_le & [ STEM < "hipergeometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipergeometría_n_rel" ] ]. hipergeométrico_a1 := a_rel_prd_le & [ STEM < "hipergeométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipergeométrico_a_rel" ]. hiperglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "hiperglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperglucemiante_a_rel" ]. hiperinflación_n1 := n_intr_uncount_le & [ STEM < "hiperinflación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperinflación_n_rel" ] ]. hiperinmune_a1 := a_rel_prd_le & [ STEM < "hiperinmune" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperinmune_a_rel" ]. hiperinmunidad_n1 := n_intr_uncount_le & [ STEM < "hiperinmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperinmunidad_n_rel" ] ]. hiperinmunización_n1 := n_intr_uncount_le & [ STEM < "hiperinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperinmunización_n_rel" ] ]. hipermaduro_a1 := a_qual_intr_ser_le & [ STEM < "hipermaduro" >, SYNSEM.LKEYS.KEYREL.PRED "_hipermaduro_a_rel" ]. hipermercado_n1 := n_intr_count_le & [ STEM < "hipermercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hipermercado_n_rel" ] ]. hipermetropía_n1 := n_intr_uncount_pl_le & [ STEM < "hipermetropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipermetropía_n_rel" ] ]. hipermetrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipermetrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipermetrópico_a_rel" ]. hipermétrope_a1 := a_qual_intr_ser_le & [ STEM < "hipermétrope" >, SYNSEM.LKEYS.KEYREL.PRED "_hipermétrope_a_rel" ]. hipermétrope_n1 := n_intr_count_le & [ STEM < "hipermétrope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hipermétrope_n_rel" ] ]. hiperopía_n1 := n_intr_uncount_le & [ STEM < "hiperopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperopía_n_rel" ] ]. hiperparásito_n1 := n_intr_count_le & [ STEM < "hiperparásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hiperparásito_n_rel" ] ]. hiperplástico_a1 := a_rel_nonprd_intr_le & [ STEM < "hiperplástico" >, SYNSEM.LKEYS.KEYREL.PRED "_hiperplástico_a_rel" ]. hipersensibilidad_n1 := n_ppcomp_uncount_le & [ STEM < "hipersensibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipersensibilidad_n_rel" ] ]. hipersensible_a1 := a_rel_prd_le & [ STEM < "hipersensible" >, SYNSEM.LKEYS.KEYREL.PRED "_hipersensible_a_rel" ]. hiperstena_n1 := n_intr_count_le & [ STEM < "hiperstena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hiperstena_n_rel" ] ]. hipertelorismo_n1 := n_intr_uncount_le & [ STEM < "hipertelorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertelorismo_n_rel" ] ]. hipertensivo_a1 := a_rel_prd_le & [ STEM < "hipertensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_hipertensivo_a_rel" ]. hipertensión_n1 := n_intr_uncount_le & [ STEM < "hipertensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertensión_n_rel" ] ]. hipertexto_n1 := n_intr_count_le & [ STEM < "hipertexto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_hipertexto_n_rel" ] ]. hipertiroidismo_n1 := n_intr_uncount_le & [ STEM < "hipertiroidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertiroidismo_n_rel" ] ]. hipertropía_n1 := n_intr_uncount_pl_le & [ STEM < "hipertropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertropía_n_rel" ] ]. hipertrófico_a1 := a_rel_prd_le & [ STEM < "hipertrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipertrófico_a_rel" ]. hipervariable_a1 := a_rel_prd_le & [ STEM < "hipervariable" >, SYNSEM.LKEYS.KEYREL.PRED "_hipervariable_a_rel" ]. hiperviscosidad_n1 := n_intr_uncount_le & [ STEM < "hiperviscosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperviscosidad_n_rel" ] ]. hipismo_n1 := n_intr_uncount_le & [ STEM < "hipismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipismo_n_rel" ] ]. hipnoblasto_n1 := n_intr_count_le & [ STEM < "hipnoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipnoblasto_n_rel" ] ]. hipnodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "hipnodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipnodoncia_n_rel" ] ]. hipnoterapia_n1 := n_intr_uncount_le & [ STEM < "hipnoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipnoterapia_n_rel" ] ]. hipnotismo_n1 := n_intr_uncount_le & [ STEM < "hipnotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipnotismo_n_rel" ] ]. hipnotizador_a1 := a_rel_nonprd_intr_le & [ STEM < "hipnotizador" >, SYNSEM.LKEYS.KEYREL.PRED "_hipnotizador_a_rel" ]. hipnotizador_n1 := n_subj-nom_le & [ STEM < "hipnotizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hipnotizador_n_rel" ] ]. hipnotizante_a1 := a_rel_nonprd_intr_le & [ STEM < "hipnotizante" >, SYNSEM.LKEYS.KEYREL.PRED "_hipnotizante_a_rel" ]. hipnotizar_v1 := v_intr_io*_le & [ STEM < "hipnotizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hipnotizar_v_rel" ]. hipnotizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "hipnotizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hipnotizar_v_rel" ]. hipnotizar_v3 := v_trans_np_le & [ STEM < "hipnotizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pro, PRED "_hipnotizar_v_rel" ] ]. hipnótico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipnótico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipnótico_a_rel" ]. hipoadrenia_n1 := n_intr_count_le & [ STEM < "hipoadrenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hipoadrenia_n_rel" ] ]. hipocalcificar_v := v_trans_np_caus_le & [ STEM < "hipocalcificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_hipocalcificar_v_rel" ] ]. hipocampo_n1 := n_ppcomp_count_le & [ STEM < "hipocampo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipocampo_n_rel" ] ]. hipocausto_n1 := n_intr_count_le & [ STEM < "hipocausto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_hipocausto_n_rel" ] ]. hipoclorito_n1 := n_intr_mass_le & [ STEM < "hipoclorito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hipoclorito_n_rel" ] ]. hipocloroso_a1 := a_rel_nonprd_intr_le & [ STEM < "hipocloroso" >, SYNSEM.LKEYS.KEYREL.PRED "_hipocloroso_a_rel" ]. hipocoagulabilidad_n1 := n_intr_uncount_le & [ STEM < "hipocoagulabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocoagulabilidad_n_rel" ] ]. hipocondrio_n1 := n_ppcomp_count_le & [ STEM < "hipocondrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipocondrio_n_rel" ] ]. hipocondría_n1 := n_intr_uncount_pl_le & [ STEM < "hipocondría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocondría_n_rel" ] ]. hipocondríaco_a1 := a_qual_intr_ser_le & [ STEM < "hipocondríaco" >, SYNSEM.LKEYS.KEYREL.PRED "_hipocondríaco_a_rel" ]. hipocondríaco_n1 := n_intr_count_le & [ STEM < "hipocondríaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hipocondríaco_n_rel" ] ]. hipocorístico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipocorístico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipocorístico_a_rel" ]. hipocresía_n1 := n_intr_mass-or-count_le & [ STEM < "hipocresía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocresía_n_rel" ] ]. hipocromaticidad_n1 := n_intr_uncount_le & [ STEM < "hipocromaticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocromaticidad_n_rel" ] ]. hipocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "hipocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_hipocrático_a_rel" ]. hipocrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipocrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipocrómico_a_rel" ]. hipocótilo_n1 := n_intr_count_le & [ STEM < "hipocótilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipocótilo_n_rel" ] ]. hipodermis_n1 := n_intr_count_le & [ STEM < "hipodermis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipodermis_n_rel" ] ]. hipodial_a1 := a_rel_nonprd_intr_le & [ STEM < "hipodial" >, SYNSEM.LKEYS.KEYREL.PRED "_hipodial_a_rel" ]. hipodialmente_x1 := av_i_spr_le & [ STEM < "hipodialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_hipodialmente_x_rel" ]. hipodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "hipodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipodoncia_n_rel" ] ]. hipodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipodérmico_a_rel" ]. hipoesplenismo_n1 := n_intr_uncount_le & [ STEM < "hipoesplenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoesplenismo_n_rel" ] ]. hipoeutectoide_a1 := a_rel_nonprd_intr_le & [ STEM < "hipoeutectoide" >, SYNSEM.LKEYS.KEYREL.PRED "_hipoeutectoide_a_rel" ]. hipoeutéctico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipoeutéctico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipoeutéctico_a_rel" ]. hipofaringe_n1 := n_ppcomp_count_le & [ STEM < "hipofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipofaringe_n_rel" ] ]. hipofaringoscopio_n1 := n_intr_count_le & [ STEM < "hipofaringoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipofaringoscopio_n_rel" ] ]. hipofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "hipofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_hipofaríngeo_a_rel" ]. hipofisario_a1 := a_rel_nonprd_intr_le & [ STEM < "hipofisario" >, SYNSEM.LKEYS.KEYREL.PRED "_hipofisario_a_rel" ]. hipofosfito_n1 := n_intr_count_le & [ STEM < "hipofosfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hipofosfito_n_rel" ] ]. hipofosforoso_a1 := a_rel_nonprd_intr_le & [ STEM < "hipofosforoso" >, SYNSEM.LKEYS.KEYREL.PRED "_hipofosforoso_a_rel" ]. hipogastrio_n1 := n_ppcomp_count_le & [ STEM < "hipogastrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipogastrio_n_rel" ] ]. hipogeo_n1 := n_intr_mass_le & [ STEM < "hipogeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipogeo_n_rel" ] ]. hipogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "hipogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_hipogloso_a_rel" ]. hipoglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "hipoglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_hipoglucemiante_a_rel" ]. hipogástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipogástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipogástrico_a_rel" ]. hipohaploide_a1 := a_rel_nonprd_intr_le & [ STEM < "hipohaploide" >, SYNSEM.LKEYS.KEYREL.PRED "_hipohaploide_a_rel" ]. hipoide_a1 := a_rel_nonprd_intr_le & [ STEM < "hipoide" >, SYNSEM.LKEYS.KEYREL.PRED "_hipoide_a_rel" ]. hipomanía_n1 := n_intr_uncount_pl_le & [ STEM < "hipomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipomanía_n_rel" ] ]. hipopituitarismo_n1 := n_intr_uncount_le & [ STEM < "hipopituitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipopituitarismo_n_rel" ] ]. hipopión_n1 := n_intr_count_le & [ STEM < "hipopión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipopión_n_rel" ] ]. hipoplásico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipoplásico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipoplásico_a_rel" ]. hipopótamo_n1 := n_intr_count_le & [ STEM < "hipopótamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hipopótamo_n_rel" ] ]. hipostático_a1 := a_rel_nonprd_intr_le & [ STEM < "hipostático" >, SYNSEM.LKEYS.KEYREL.PRED "_hipostático_a_rel" ]. hipotalámico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipotalámico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotalámico_a_rel" ]. hipotecable_a1 := a_rel_prd_le & [ STEM < "hipotecable" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotecable_a_rel" ]. hipotecante_n1 := n_intr_count_le & [ STEM < "hipotecante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hipotecante_n_rel" ] ]. hipotecar_v := v_trans_np_le & [ STEM < "hipotecar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_loc_tmp, PRED "_hipotecar_v_rel" ] ]. hipotecariamente_x1 := av_i_spr_le & [ STEM < "hipotecariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotecariamente_x_rel" ]. hipotecario_a1 := a_rel_nonprd_intr_le & [ STEM < "hipotecario" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotecario_a_rel" ]. hipotenar_n1 := n_intr_count_le & [ STEM < "hipotenar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hipotenar_n_rel" ] ]. hipotensión_n1 := n_intr_mass_le & [ STEM < "hipotensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotensión_n_rel" ] ]. hipotiroidismo_n1 := n_intr_uncount_le & [ STEM < "hipotiroidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotiroidismo_n_rel" ] ]. hipotropía_n1 := n_intr_uncount_pl_le & [ STEM < "hipotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotropía_n_rel" ] ]. hipotáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipotáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotáctico_a_rel" ]. hipotálamo_n1 := n_ppcomp_count_le & [ STEM < "hipotálamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipotálamo_n_rel" ] ]. hipotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotérmico_a_rel" ]. hipotéticamente_x1 := av_i_spr_le & [ STEM < "hipotéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotéticamente_x_rel" ]. hipotético_a1 := a_qual_intr_scopal_le & [ STEM < "hipotético" >, SYNSEM.LKEYS.KEYREL.PRED "_hipotético_a_rel" ]. hipotímpano_n1 := n_ppcomp_count_le & [ STEM < "hipotímpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hipotímpano_n_rel" ] ]. hippie_n1 := n_intr_count_le & [ STEM < "hippie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hippie_n_rel" ] ]. hipsobatimetría_n1 := n_intr_uncount_le & [ STEM < "hipsobatimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipsobatimetría_n_rel" ] ]. hipsobatimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipsobatimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipsobatimétrico_a_rel" ]. hipsográficamente_x1 := av_i_spr_le & [ STEM < "hipsográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hipsográficamente_x_rel" ]. hipsográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipsográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipsográfico_a_rel" ]. hipsometría_n1 := n_intr_uncount_le & [ STEM < "hipsometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipsometría_n_rel" ] ]. hipsométricamente_x1 := av_i_spr_le & [ STEM < "hipsométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hipsométricamente_x_rel" ]. hipsométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipsométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipsométrico_a_rel" ]. hipérbato_n1 := n_intr_uncount_le & [ STEM < "hipérbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipérbato_n_rel" ] ]. hipérico_n1 := n_intr_count_le & [ STEM < "hipérico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hipérico_n_rel" ] ]. hipócrita_a1 := a_qual_intr_ser_le & [ STEM < "hipócrita" >, SYNSEM.LKEYS.KEYREL.PRED "_hipócrita_a_rel" ]. hipócrita_n1 := n_intr_count_le & [ STEM < "hipócrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hipócrita_n_rel" ] ]. hipódromo_n1 := n_intr_count_le & [ STEM < "hipódromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hipódromo_n_rel" ] ]. hipóstilo_a1 := a_rel_nonprd_intr_le & [ STEM < "hipóstilo" >, SYNSEM.LKEYS.KEYREL.PRED "_hipóstilo_a_rel" ]. hipótesis_n1 := n_intr_count_le & [ STEM < "hipótesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_hipótesis_n_rel" ] ]. hipúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hipúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hipúrico_a_rel" ]. hiriente_a1 := a_adv_event_le & [ STEM < "hiriente" >, SYNSEM.LKEYS.KEYREL.PRED "_hiriente_a_rel" ]. hiriente_a2 := a_qual_intr_scopal_le & [ STEM < "hiriente" >, SYNSEM.LKEYS.KEYREL.PRED "_hiriente_a_rel" ]. hirsuto_a1 := a_qual_intr_scopal_le & [ STEM < "hirsuto" >, SYNSEM.LKEYS.KEYREL.PRED "_hirsuto_a_rel" ]. hirviente_a1 := a_rel_nonprd_intr_le & [ STEM < "hirviente" >, SYNSEM.LKEYS.KEYREL.PRED "_hirviente_a_rel" ]. hisopo_n1 := n_intr_mass_le & [ STEM < "hisopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hisopo_n_rel" ] ]. hispalense_a1 := a_rel_prd_le & [ STEM < "hispalense" >, SYNSEM.LKEYS.KEYREL.PRED "_hispalense_a_rel" ]. hispalense_n1 := n_intr_count_le & [ STEM < "hispalense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispalense_n_rel" ] ]. hispanismo_n1 := n_ppcomp_mass-or-count_le & [ STEM < "hispanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hispanismo_n_rel" ] ]. hispanista_n1 := n_intr_count_le & [ STEM < "hispanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispanista_n_rel" ] ]. hispano-polaco_a1 := a_rel_prd_le & [ STEM < "hispano-polaco" >, SYNSEM.LKEYS.KEYREL.PRED "_hispano-polaco_a_rel" ]. hispano_a1 := a_rel_prd_le & [ STEM < "hispano" >, SYNSEM.LKEYS.KEYREL.PRED "_hispano_a_rel" ]. hispano_n1 := n_intr_count_le & [ STEM < "hispano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispano_n_rel" ] ]. hispanoamericano_a1 := a_rel_prd_le & [ STEM < "hispanoamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_hispanoamericano_a_rel" ]. hispanoamericano_n1 := n_intr_count_le & [ STEM < "hispanoamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispanoamericano_n_rel" ] ]. hispanoargentino_a1 := a_rel_prd_le & [ STEM < "hispanoargentino" >, SYNSEM.LKEYS.KEYREL.PRED "_hispanoargentino_a_rel" ]. hispanoargentino_n1 := n_intr_count_le & [ STEM < "hispanoargentino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispanoargentino_n_rel" ] ]. hispanocolombiano_a1 := a_rel_prd_le & [ STEM < "hispanocolombiano" >, SYNSEM.LKEYS.KEYREL.PRED "_hispanocolombiano_a_rel" ]. hispanohablante_n1 := n_intr_count_le & [ STEM < "hispanohablante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hispanohablante_n_rel" ] ]. hispánico_a1 := a_rel_prd_le & [ STEM < "hispánico" >, SYNSEM.LKEYS.KEYREL.PRED "_hispánico_a_rel" ]. histamina_n1 := n_intr_mass-or-count_le & [ STEM < "histamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_histamina_n_rel" ] ]. histaminasa_n1 := n_intr_count_le & [ STEM < "histaminasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_histaminasa_n_rel" ] ]. histerectomía_n1 := n_intr_uncount_pl_le & [ STEM < "histerectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histerectomía_n_rel" ] ]. histerismo_n1 := n_intr_uncount_le & [ STEM < "histerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histerismo_n_rel" ] ]. histeréticamente_x1 := av_i_spr_le & [ STEM < "histeréticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_histeréticamente_x_rel" ]. histidina_n1 := n_intr_count_le & [ STEM < "histidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_histidina_n_rel" ] ]. histioblasto_n1 := n_intr_count_le & [ STEM < "histioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_histioblasto_n_rel" ] ]. histiocito_n1 := n_intr_count_le & [ STEM < "histiocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_histiocito_n_rel" ] ]. histocompatibilidad_n1 := n_intr_uncount_le & [ STEM < "histocompatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histocompatibilidad_n_rel" ] ]. histocompatible_a1 := a_rel_nonprd_intr_le & [ STEM < "histocompatible" >, SYNSEM.LKEYS.KEYREL.PRED "_histocompatible_a_rel" ]. histoincompatibilidad_n1 := n_intr_uncount_le & [ STEM < "histoincompatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histoincompatibilidad_n_rel" ] ]. histología_n1 := n_intr_uncount_pl_le & [ STEM < "histología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histología_n_rel" ] ]. histológico_a1 := a_rel_nonprd_intr_le & [ STEM < "histológico" >, SYNSEM.LKEYS.KEYREL.PRED "_histológico_a_rel" ]. histona_n1 := n_intr_count_le & [ STEM < "histona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_histona_n_rel" ] ]. historia_n1 := n_intr_count_le & [ STEM < "historia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_historia_n_rel" ] ]. historiador_n1 := n_intr_count_le & [ STEM < "historiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_historiador_n_rel" ] ]. historial_n1 := n_intr_count_le & [ STEM < "historial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_historial_n_rel" ] ]. historicidad_n1 := n_intr_uncount_le & [ STEM < "historicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_historicidad_n_rel" ] ]. historicismo_n1 := n_intr_uncount_le & [ STEM < "historicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_historicismo_n_rel" ] ]. historicopenal_a1 := a_rel_nonprd_intr_le & [ STEM < "historicopenal" >, SYNSEM.LKEYS.KEYREL.PRED "_historicopenal_a_rel" ]. historieta_n1 := n_intr_count_le & [ STEM < "historieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_historieta_n_rel" ] ]. historiografía_n1 := n_intr_uncount_pl_le & [ STEM < "historiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_historiografía_n_rel" ] ]. historiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "historiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_historiográfico_a_rel" ]. historiógrafo_n1 := n_intr_count_le & [ STEM < "historiógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_historiógrafo_n_rel" ] ]. histrionismo_n1 := n_intr_uncount_le & [ STEM < "histrionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histrionismo_n_rel" ] ]. histriónico_a1 := a_rel_nonprd_intr_le & [ STEM < "histriónico" >, SYNSEM.LKEYS.KEYREL.PRED "_histriónico_a_rel" ]. histérico_a1 := a_qual_intr_ser_le & [ STEM < "histérico" >, SYNSEM.LKEYS.KEYREL.PRED "_histérico_a_rel" ]. histólogo_n1 := n_intr_count_le & [ STEM < "histólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_histólogo_n_rel" ] ]. históricamente_x1 := av_i_spr_le & [ STEM < "históricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_históricamente_x_rel" ]. histórico_a1 := a_rel_nonprd_intr_le & [ STEM < "histórico" >, SYNSEM.LKEYS.KEYREL.PRED "_histórico_a_rel" ]. hit_n1 := n_intr_count_le & [ STEM < "hit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hit_n_rel" ] ]. hitita_a1 := a_rel_prd_le & [ STEM < "hitita" >, SYNSEM.LKEYS.KEYREL.PRED "_hitita_a_rel" ]. hitita_n1 := n_intr_count_le & [ STEM < "hitita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hitita_n_rel" ] ]. hito_n1 := n_intr_count_le & [ STEM < "hito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_hito_n_rel" ] ]. hocico_n1 := n_intr_count_le & [ STEM < "hocico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hocico_n_rel" ] ]. hocino_n1 := n_intr_count_le & [ STEM < "hocino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hocino_n_rel" ] ]. hockey_n1 := n_intr_uncount_le & [ STEM < "hockey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hockey_n_rel" ] ]. hockeísta_n1 := n_intr_count_le & [ STEM < "hockeísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hockeísta_n_rel" ] ]. hogar_n1 := n_intr_count_le & [ STEM < "hogar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hogar_n_rel" ] ]. hogareño_a1 := a_qual_intr_scopal_le & [ STEM < "hogareño" >, SYNSEM.LKEYS.KEYREL.PRED "_hogareño_a_rel" ]. hogaño_n1 := av_deic_tmp_le & [ STEM < "hogaño" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_hogaño_x_rel" ]. hoguera_n1 := n_intr_count_le & [ STEM < "hoguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hoguera_n_rel" ] ]. hoja_n1 := n_pseudo-part_le & [ STEM < "hoja" >, SYNSEM.LKEYS.KEYREL.PRED "_hoja_n_rel" ]. hojalata_n1 := n_intr_mass_le & [ STEM < "hojalata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hojalata_n_rel" ] ]. hojalatero_n1 := n_intr_count_le & [ STEM < "hojalatero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hojalatero_n_rel" ] ]. hojaldre_n1 := n_intr_mass_le & [ STEM < "hojaldre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hojaldre_n_rel" ] ]. hojarasca_n1 := n_intr_mass_le & [ STEM < "hojarasca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hojarasca_n_rel" ] ]. hojeada_n1 := n_intr_count_le & [ STEM < "hojeada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hojeada_n_rel" ] ]. hojear_v := v_trans_np_le & [ STEM < "hojear" >, SYNSEM.LKEYS.KEYREL.PRED "_hojear_v_rel" ]. holandés_a1 := a_rel_prd_le & [ STEM < "holandés" >, SYNSEM.LKEYS.KEYREL.PRED "_holandés_a_rel" ]. holandés_n1 := n_intr_count_le & [ STEM < "holandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_holandés_n_rel" ] ]. holgadamente_x1 := av_i_spr_le & [ STEM < "holgadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_holgadamente_x_rel" ]. holgazanear_v := v_intr_le & [ STEM < "holgazanear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_holgazanear_v_rel" ] ]. holgazanería_n1 := n_intr_uncount_pl_le & [ STEM < "holgazanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holgazanería_n_rel" ] ]. holgazanería_n2 := n_intr_mass_le & [ STEM < "holgazanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holgazanería_n_rel" ] ]. holgazán_a1 := a_qual_intr_ser_le & [ STEM < "holgazán" >, SYNSEM.LKEYS.KEYREL.PRED "_holgazán_a_rel" ]. holgura_n1 := n_result_intr_le & [ STEM < "holgura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holgura_n_rel" ] ]. holismo_n1 := n_intr_uncount_le & [ STEM < "holismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holismo_n_rel" ] ]. hollejo_n1 := n_intr_count_le & [ STEM < "hollejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hollejo_n_rel" ] ]. hollín_n1 := n_intr_mass_le & [ STEM < "hollín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hollín_n_rel" ] ]. holmio_n1 := n_intr_mass_le & [ STEM < "holmio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_holmio_n_rel" ] ]. holoblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "holoblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_holoblástico_a_rel" ]. holocrino_n1 := n_intr_count_le & [ STEM < "holocrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_holocrino_n_rel" ] ]. holoedro_n1 := n_intr_count_le & [ STEM < "holoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_holoedro_n_rel" ] ]. holoedría_n1 := n_intr_uncount_pl_le & [ STEM < "holoedría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holoedría_n_rel" ] ]. holografía_n1 := n_intr_uncount_pl_le & [ STEM < "holografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holografía_n_rel" ] ]. holograma_n1 := n_intr_count_le & [ STEM < "holograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_holograma_n_rel" ] ]. holográficamente_x1 := av_i_spr_le & [ STEM < "holográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_holográficamente_x_rel" ]. holográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "holográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_holográfico_a_rel" ]. holomorfo_a1 := a_rel_prd_le & [ STEM < "holomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_holomorfo_a_rel" ]. holoédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "holoédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_holoédrico_a_rel" ]. holártico_a1 := a_rel_nonprd_intr_le & [ STEM < "holártico" >, SYNSEM.LKEYS.KEYREL.PRED "_holártico_a_rel" ]. holístico_a1 := a_rel_nonprd_intr_le & [ STEM < "holístico" >, SYNSEM.LKEYS.KEYREL.PRED "_holístico_a_rel" ]. homatropina_n1 := n_intr_count_le & [ STEM < "homatropina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_homatropina_n_rel" ] ]. hombre_n1 := n_intr_count_le & [ STEM < "hombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hombre_n_rel" ] ]. hombrecillo_n1 := n_intr_count_le & [ STEM < "hombrecillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hombrecillo_n_rel" ] ]. hombrera_n1 := n_intr_count_le & [ STEM < "hombrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hombrera_n_rel" ] ]. hombro_n1 := n_intr_count_le & [ STEM < "hombro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hombro_n_rel" ] ]. hombruno_a1 := a_qual_intr_ser_le & [ STEM < "hombruno" >, SYNSEM.LKEYS.KEYREL.PRED "_hombruno_a_rel" ]. hombría_n1 := n_intr_mass_le & [ STEM < "hombría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hombría_n_rel" ] ]. homenaje_n1 := n_intr_count_le & [ STEM < "homenaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homenaje_n_rel" ] ]. homenajear_v := v_trans_np_le & [ STEM < "homenajear" >, SYNSEM.LKEYS.KEYREL.PRED "_homenajear_v_rel" ]. homeomorfismo_n1 := n_intr_uncount_le & [ STEM < "homeomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homeomorfismo_n_rel" ] ]. homeopaticidad_n1 := n_intr_uncount_le & [ STEM < "homeopaticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homeopaticidad_n_rel" ] ]. homeopatía_n1 := n_intr_uncount_le & [ STEM < "homeopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homeopatía_n_rel" ] ]. homeopolar_a1 := a_rel_nonprd_intr_le & [ STEM < "homeopolar" >, SYNSEM.LKEYS.KEYREL.PRED "_homeopolar_a_rel" ]. homeopolarmente_x1 := av_i_spr_le & [ STEM < "homeopolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_homeopolarmente_x_rel" ]. homeopsórico_a1 := a_rel_nonprd_intr_le & [ STEM < "homeopsórico" >, SYNSEM.LKEYS.KEYREL.PRED "_homeopsórico_a_rel" ]. homeopático_a1 := a_rel_nonprd_intr_le & [ STEM < "homeopático" >, SYNSEM.LKEYS.KEYREL.PRED "_homeopático_a_rel" ]. homeópata_n1 := n_intr_count_le & [ STEM < "homeópata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_homeópata_n_rel" ] ]. homeótico_a1 := a_rel_nonprd_intr_le & [ STEM < "homeótico" >, SYNSEM.LKEYS.KEYREL.PRED "_homeótico_a_rel" ]. homicida_a1 := a_rel_nonprd_intr_le & [ STEM < "homicida" >, SYNSEM.LKEYS.KEYREL.PRED "_homicida_a_rel" ]. homicida_n1 := n_intr_count_le & [ STEM < "homicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_homicida_n_rel" ] ]. homilía_n1 := n_intr_count_le & [ STEM < "homilía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homilía_n_rel" ] ]. homocigoto_n1 := n_intr_count_le & [ STEM < "homocigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_homocigoto_n_rel" ] ]. homocinético_a1 := a_rel_nonprd_intr_le & [ STEM < "homocinético" >, SYNSEM.LKEYS.KEYREL.PRED "_homocinético_a_rel" ]. homocitotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "homocitotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_homocitotrópico_a_rel" ]. homocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "homocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_homocíclico_a_rel" ]. homoestructura_n1 := n_intr_count_le & [ STEM < "homoestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_homoestructura_n_rel" ] ]. homofibra_n1 := n_intr_count_le & [ STEM < "homofibra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_homofibra_n_rel" ] ]. homofocal_a1 := a_rel_nonprd_intr_le & [ STEM < "homofocal" >, SYNSEM.LKEYS.KEYREL.PRED "_homofocal_a_rel" ]. homofonía_n1 := n_intr_uncount_pl_le & [ STEM < "homofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homofonía_n_rel" ] ]. homogamético_a1 := a_rel_nonprd_intr_le & [ STEM < "homogamético" >, SYNSEM.LKEYS.KEYREL.PRED "_homogamético_a_rel" ]. homogeneidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "homogeneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homogeneidad_n_rel" ] ]. homogeneización_n1 := n_trans_le & [ STEM < "homogeneización" >, SYNSEM.LKEYS.KEYREL.PRED "_homogeneización_n_rel" ]. homogeneizador_n1 := n_intr_count_le & [ STEM < "homogeneizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_homogeneizador_n_rel" ] ]. homogeneizar_v := v_trans_np_le & [ STEM < "homogeneizar" >, SYNSEM.LKEYS.KEYREL.PRED "_homogeneizar_v_rel" ]. homografía_n1 := n_intr_uncount_pl_le & [ STEM < "homografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homografía_n_rel" ] ]. homogéneamente_x1 := av_i_spr_le & [ STEM < "homogéneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_homogéneamente_x_rel" ]. homogéneo_a1 := a_qual_intr_scopal_le & [ STEM < "homogéneo" >, SYNSEM.LKEYS.KEYREL.PRED "_homogéneo_a_rel" ]. homoinjerto_n1 := n_intr_count_le & [ STEM < "homoinjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homoinjerto_n_rel" ] ]. homologable_a1 := a_rel_prd_le & [ STEM < "homologable" >, SYNSEM.LKEYS.KEYREL.PRED "_homologable_a_rel" ]. homologación_n1 := n_trans_le & [ STEM < "homologación" >, SYNSEM.LKEYS.KEYREL.PRED "_homologación_n_rel" ]. homologar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "homologar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_homologar_v_rel" ] ]. homología_n1 := n_intr_uncount_pl_le & [ STEM < "homología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homología_n_rel" ] ]. homomorfismo_n1 := n_intr_uncount_le & [ STEM < "homomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homomorfismo_n_rel" ] ]. homomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "homomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_homomórfico_a_rel" ]. homonuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "homonuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_homonuclear_a_rel" ]. homopolar_a1 := a_rel_nonprd_intr_le & [ STEM < "homopolar" >, SYNSEM.LKEYS.KEYREL.PRED "_homopolar_a_rel" ]. homopolímero_n1 := n_intr_count_le & [ STEM < "homopolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_homopolímero_n_rel" ] ]. homorgánico_a1 := a_rel_nonprd_intr_le & [ STEM < "homorgánico" >, SYNSEM.LKEYS.KEYREL.PRED "_homorgánico_a_rel" ]. homoscedasticidad_n1 := n_intr_uncount_le & [ STEM < "homoscedasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homoscedasticidad_n_rel" ] ]. homosexual_a1 := a_qual_intr_ser_le & [ STEM < "homosexual" >, SYNSEM.LKEYS.KEYREL.PRED "_homosexual_a_rel" ]. homosexualidad_n1 := n_intr_uncount_le & [ STEM < "homosexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homosexualidad_n_rel" ] ]. homosfera_n1 := n_intr_count_le & [ STEM < "homosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_homosfera_n_rel" ] ]. homotecia_n1 := n_intr_uncount_le & [ STEM < "homotecia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homotecia_n_rel" ] ]. homotopía_n1 := n_intr_uncount_pl_le & [ STEM < "homotopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homotopía_n_rel" ] ]. homotoxicología_n1 := n_intr_uncount_le & [ STEM < "homotoxicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homotoxicología_n_rel" ] ]. homotético_a1 := a_rel_nonprd_intr_le & [ STEM < "homotético" >, SYNSEM.LKEYS.KEYREL.PRED "_homotético_a_rel" ]. homotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "homotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_homotópico_a_rel" ]. homozigoto_a1 := a_rel_nonprd_intr_le & [ STEM < "homozigoto" >, SYNSEM.LKEYS.KEYREL.PRED "_homozigoto_a_rel" ]. homínido_n1 := n_intr_count_le & [ STEM < "homínido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_homínido_n_rel" ] ]. homógrado_a1 := a_rel_nonprd_intr_le & [ STEM < "homógrado" >, SYNSEM.LKEYS.KEYREL.PRED "_homógrado_a_rel" ]. homólogo_a1 := a_rel_nonprd_intr_le & [ STEM < "homólogo" >, SYNSEM.LKEYS.KEYREL.PRED "_homólogo_a_rel" ]. homólogo_n1 := n_intr_count_le & [ STEM < "homólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_homólogo_n_rel" ] ]. homónimamente_x1 := av_i_spr_le & [ STEM < "homónimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_homónimamente_x_rel" ]. homónimo_a1 := a_rel_nonprd_intr_le & [ STEM < "homónimo" >, SYNSEM.LKEYS.KEYREL.PRED "_homónimo_a_rel" ]. honda_n1 := n_intr_count_le & [ STEM < "honda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_honda_n_rel" ] ]. hondamente_x1 := av_i_spr_le & [ STEM < "hondamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hondamente_x_rel" ]. hondear_v := v_trans_np_le & [ STEM < "hondear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_pot, PRED "_hondear_v_rel" ] ]. hondo_a1 := a_qual_intr_scopal_le & [ STEM < "hondo" >, SYNSEM.LKEYS.KEYREL.PRED "_hondo_a_rel" ]. hondonada_n1 := n_intr_count_le & [ STEM < "hondonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hondonada_n_rel" ] ]. hondureño_a1 := a_rel_prd_le & [ STEM < "hondureño" >, SYNSEM.LKEYS.KEYREL.PRED "_hondureño_a_rel" ]. hondureño_n1 := n_intr_count_le & [ STEM < "hondureño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hondureño_n_rel" ] ]. honestamente_x1 := av_s_spr_le & [ STEM < "honestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_honestamente_x_rel" ]. honestidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "honestidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_honestidad_n_rel" ] ]. honesto_a1 := a_qual_intr_ser_le & [ STEM < "honesto" >, SYNSEM.LKEYS.KEYREL.PRED "_honesto_a_rel" ]. hongo_n1 := n_intr_count_le & [ STEM < "hongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hongo_n_rel" ] ]. honor_n1 := n_intr_uncount_pl_le & [ STEM < "honor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_honor_n_rel" ] ]. honorabilidad_n1 := n_intr_uncount_le & [ STEM < "honorabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_honorabilidad_n_rel" ] ]. honorariamente_x1 := av_i_spr_le & [ STEM < "honorariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_honorariamente_x_rel" ]. honorario_a1 := a_rel_nonprd_intr_le & [ STEM < "honorario" >, SYNSEM.LKEYS.KEYREL.PRED "_honorario_a_rel" ]. honoríficamente_x1 := av_i_spr_le & [ STEM < "honoríficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_honoríficamente_x_rel" ]. honorífico_a1 := a_rel_nonprd_intr_le & [ STEM < "honorífico" >, SYNSEM.LKEYS.KEYREL.PRED "_honorífico_a_rel" ]. honradamente_x1 := av_s_spr_le & [ STEM < "honradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_honradamente_x_rel" ]. honradez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "honradez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_honradez_n_rel" ] ]. honrar_v1 := v_intr_io*_le & [ STEM < "honrar" >, SYNSEM.LKEYS.KEYREL.PRED "_honrar_v_rel" ]. honrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "honrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_honrar_v_rel" ] ] ]. honrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "honrar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_honrar_v_rel" ] ] ]. honrar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "honrar" >, SYNSEM.LKEYS.KEYREL.PRED "_honrar_v_rel" ]. honrar_v5 := v_trans_np_le & [ STEM < "honrar" >, SYNSEM.LKEYS.KEYREL.PRED "_honrar_v_rel" ]. honrosamente_x1 := av_i_spr_le & [ STEM < "honrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_honrosamente_x_rel" ]. honroso_a1 := a_qual_intr_ser_le & [ STEM < "honroso" >, SYNSEM.LKEYS.KEYREL.PRED "_honroso_a_rel" ]. hora_n1 := n_pseudo-part_temp_le & [ STEM < "hora" >, SYNSEM.LKEYS.KEYREL.PRED "_hora_n_rel" ]. hora_n2 := n_intr_temp_le & [ STEM < "hora" > ]. horario_a1 := a_rel_nonprd_intr_le & [ STEM < "horario" >, SYNSEM.LKEYS.KEYREL.PRED "_horario_a_rel" ]. horario_n1 := n_intr_count_le & [ STEM < "horario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_horario_n_rel" ] ]. horca_n1 := n_intr_count_le & [ STEM < "horca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_horca_n_rel" ] ]. horchata_n1 := n_intr_count_le & [ STEM < "horchata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_horchata_n_rel" ] ]. hordenina_n1 := n_intr_count_le & [ STEM < "hordenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hordenina_n_rel" ] ]. horizontal_a1 := a_qual_intr_ser_le & [ STEM < "horizontal" >, SYNSEM.LKEYS.KEYREL.PRED "_horizontal_a_rel" ]. horizontal_n1 := n_ppcomp_count_le & [ STEM < "horizontal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horizontal_n_rel" ] ]. horizontalmente_x1 := av_i_spr_le & [ STEM < "horizontalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_horizontalmente_x_rel" ]. horizonte_n1 := n_intr_count_le & [ STEM < "horizonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_horizonte_n_rel" ] ]. horma_n1 := n_intr_count_le & [ STEM < "horma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_horma_n_rel" ] ]. hormaza_n1 := n_intr_count_le & [ STEM < "hormaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hormaza_n_rel" ] ]. hormazo_n1 := n_intr_count_le & [ STEM < "hormazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hormazo_n_rel" ] ]. hormiga_n1 := n_intr_count_le & [ STEM < "hormiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hormiga_n_rel" ] ]. hormigonar_v := v_trans_np_le & [ STEM < "hormigonar" >, SYNSEM.LKEYS.KEYREL.PRED "_hormigonar_v_rel" ]. hormigonera_n1 := n_intr_count_le & [ STEM < "hormigonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hormigonera_n_rel" ] ]. hormigueo_n1 := n_intr_mass_le & [ STEM < "hormigueo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hormigueo_n_rel" ] ]. hormiguero_n1 := n_intr_count_le & [ STEM < "hormiguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hormiguero_n_rel" ] ]. hormigón_n1 := n_intr_count_le & [ STEM < "hormigón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hormigón_n_rel" ] ]. hormona_n1 := n_intr_count_le & [ STEM < "hormona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hormona_n_rel" ] ]. hormonal_a1 := a_rel_nonprd_intr_le & [ STEM < "hormonal" >, SYNSEM.LKEYS.KEYREL.PRED "_hormonal_a_rel" ]. hormoproteína_n1 := n_intr_count_le & [ STEM < "hormoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hormoproteína_n_rel" ] ]. hornacina_n1 := n_intr_count_le & [ STEM < "hornacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hornacina_n_rel" ] ]. hornada_n1 := n_intr_count_le & [ STEM < "hornada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hornada_n_rel" ] ]. hornada_n2 := n_intr_uncount_le & [ STEM < "hornada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hornada_n_rel" ] ]. hornblenda_n1 := n_intr_count_le & [ STEM < "hornblenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hornblenda_n_rel" ] ]. horneado_n1 := n_intr_count_le & [ STEM < "horneado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_horneado_n_rel" ] ]. hornear_v := v_trans_np_le & [ STEM < "hornear" >, SYNSEM.LKEYS.KEYREL.PRED "_hornear_v_rel" ]. hornero_n1 := n_intr_count_le & [ STEM < "hornero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hornero_n_rel" ] ]. hornillo_n1 := n_intr_count_le & [ STEM < "hornillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hornillo_n_rel" ] ]. horno_n1 := n_intr_count_le & [ STEM < "horno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_horno_n_rel" ] ]. horquilla_n1 := n_intr_count_le & [ STEM < "horquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_horquilla_n_rel" ] ]. horquilladamente_x1 := av_i_spr_le & [ STEM < "horquilladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_horquilladamente_x_rel" ]. horrendo_a1 := a_qual_intr_scopal_le & [ STEM < "horrendo" >, SYNSEM.LKEYS.KEYREL.PRED "_horrendo_a_rel" ]. horribilidad_n1 := n_ppcomp_uncount_le & [ STEM < "horribilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horribilidad_n_rel" ] ]. horrible_a1 := a_qual_intr_scopal_le & [ STEM < "horrible" >, SYNSEM.LKEYS.KEYREL.PRED "_horrible_a_rel" ]. horriblemente_x1 := av_i_spr_le & [ STEM < "horriblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_horriblemente_x_rel" ]. horripilante_a1 := a_qual_intr_scopal_le & [ STEM < "horripilante" >, SYNSEM.LKEYS.KEYREL.PRED "_horripilante_a_rel" ]. horripilar_v1 := v_intr_io*_le & [ STEM < "horripilar" >, SYNSEM.LKEYS.KEYREL.PRED "_horripilar_v_rel" ]. horripilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "horripilar" >, SYNSEM.LKEYS.KEYREL.PRED "_horripilar_v_rel" ]. horror_n1 := n_intr_uncount_pl_le & [ STEM < "horror" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horror_n_rel" ] ]. horrorizar_v1 := v_intr_io*_le & [ STEM < "horrorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_horrorizar_v_rel" ] ]. horrorizar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "horrorizar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_horrorizar_v_rel" ] ] ]. horrorizar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "horrorizar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_horrorizar_v_rel" ] ] ]. horrorizar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "horrorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_horrorizar_v_rel" ]. horrorizar_v5 := v_trans_np_caus_le & [ STEM < "horrorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_horrorizar_v_rel" ] ]. horrorosamente_x1 := av_i_spr_le & [ STEM < "horrorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_horrorosamente_x_rel" ]. horroroso_a1 := a_qual_intr_scopal_le & [ STEM < "horroroso" >, SYNSEM.LKEYS.KEYREL.PRED "_horroroso_a_rel" ]. hortaliza_n1 := n_intr_count_le & [ STEM < "hortaliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hortaliza_n_rel" ] ]. hortelano_n1 := n_intr_count_le & [ STEM < "hortelano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hortelano_n_rel" ] ]. hortensia_n1 := n_intr_count_le & [ STEM < "hortensia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_hortensia_n_rel" ] ]. horticultor_n1 := n_intr_count_le & [ STEM < "horticultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_horticultor_n_rel" ] ]. horticultura_n1 := n_intr_uncount_le & [ STEM < "horticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horticultura_n_rel" ] ]. hortofruticultura_n1 := n_intr_uncount_le & [ STEM < "hortofruticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hortofruticultura_n_rel" ] ]. hortofrutícola_a1 := a_rel_nonprd_intr_le & [ STEM < "hortofrutícola" >, SYNSEM.LKEYS.KEYREL.PRED "_hortofrutícola_a_rel" ]. hortícola_a1 := a_rel_nonprd_intr_le & [ STEM < "hortícola" >, SYNSEM.LKEYS.KEYREL.PRED "_hortícola_a_rel" ]. horóptero_n1 := n_intr_count_le & [ STEM < "horóptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_horóptero_n_rel" ] ]. horóscopo_n1 := n_intr_count_le & [ STEM < "horóscopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_horóscopo_n_rel" ] ]. hosco_a1 := a_qual_intr_scopal_le & [ STEM < "hosco" >, SYNSEM.LKEYS.KEYREL.PRED "_hosco_a_rel" ]. hospedaje_n1 := n_trans_le & [ STEM < "hospedaje" >, SYNSEM.LKEYS.KEYREL.PRED "_hospedaje_n_rel" ]. hospedar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "hospedar" >, SYNSEM.LKEYS.KEYREL.PRED "_hospedar_v_rel" ]. hospedar_v2 := v_trans_np_le & [ STEM < "hospedar" >, SYNSEM.LKEYS.KEYREL.PRED "_hospedar_v_rel" ]. hospedería_n1 := n_intr_count_le & [ STEM < "hospedería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hospedería_n_rel" ] ]. hospicio_n1 := n_intr_count_le & [ STEM < "hospicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hospicio_n_rel" ] ]. hospital_n1 := n_intr_count_le & [ STEM < "hospital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hospital_n_rel" ] ]. hospitalariamente_x1 := av_i_spr_le & [ STEM < "hospitalariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hospitalariamente_x_rel" ]. hospitalario_a1 := a_rel_nonprd_intr_le & [ STEM < "hospitalario" >, SYNSEM.LKEYS.KEYREL.PRED "_hospitalario_a_rel" ]. hospitalario_a2 := a_qual_intr_ser_le & [ STEM < "hospitalario" >, SYNSEM.LKEYS.KEYREL.PRED "_hospitalario_a_rel" ]. hospitalidad_n1 := n_intr_mass-or-count_le & [ STEM < "hospitalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hospitalidad_n_rel" ] ]. hospitalización_n1 := n_trans_le & [ STEM < "hospitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_hospitalización_n_rel" ]. hospitalizar_v := v_trans_np_le & [ STEM < "hospitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_hospitalizar_v_rel" ]. hosquedad_n1 := n_ppcomp_mass_le & [ STEM < "hosquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hosquedad_n_rel" ] ]. host_n1 := n_intr_count_le & [ STEM < "host" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_host_n_rel" ] ]. hostal_n1 := n_intr_count_le & [ STEM < "hostal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_hostal_n_rel" ] ]. hostelero_n1 := n_intr_count_le & [ STEM < "hostelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hostelero_n_rel" ] ]. hostelería_n1 := n_intr_uncount_pl_le & [ STEM < "hostelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hostelería_n_rel" ] ]. hostería_n1 := n_intr_count_le & [ STEM < "hostería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hostería_n_rel" ] ]. hostia_n1 := n_intr_count_le & [ STEM < "hostia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hostia_n_rel" ] ]. hostigar_v := v_trans_np_le & [ STEM < "hostigar" >, SYNSEM.LKEYS.KEYREL.PRED "_hostigar_v_rel" ]. hostil_a1 := a_qual_intr_scopal_le & [ STEM < "hostil" >, SYNSEM.LKEYS.KEYREL.PRED "_hostil_a_rel" ]. hostilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "hostilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hostilidad_n_rel" ] ]. hotel_n1 := n_intr_count_le & [ STEM < "hotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hotel_n_rel" ] ]. hotelero_a1 := a_rel_nonprd_intr_le & [ STEM < "hotelero" >, SYNSEM.LKEYS.KEYREL.PRED "_hotelero_a_rel" ]. hotelero_n1 := n_intr_count_le & [ STEM < "hotelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hotelero_n_rel" ] ]. howlita_n1 := n_intr_count_le & [ STEM < "howlita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_howlita_n_rel" ] ]. hoy_n1 := av_deic_tmp_le & [ STEM < "hoy" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_hoy_x_rel" ]. hoya_n1 := n_intr_count_le & [ STEM < "hoya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hoya_n_rel" ] ]. hoyo_n1 := n_intr_count_le & [ STEM < "hoyo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_hoyo_n_rel" ] ]. hoyuelo_n1 := n_ppcomp_count_le & [ STEM < "hoyuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hoyuelo_n_rel" ] ]. hoz_n1 := n_intr_count_le & [ STEM < "hoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hoz_n_rel" ] ]. hucha_n1 := n_intr_count_le & [ STEM < "hucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hucha_n_rel" ] ]. hueco_a1 := a_qual_intr_scopal_le & [ STEM < "hueco" >, SYNSEM.LKEYS.KEYREL.PRED "_hueco_a_rel" ]. hueco_n1 := n_intr_count_le & [ STEM < "hueco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hueco_n_rel" ] ]. huecograbado_n1 := n_intr_uncount_le & [ STEM < "huecograbado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_huecograbado_n_rel" ] ]. huecograbado_n2 := n_intr_count_le & [ STEM < "huecograbado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_huecograbado_n_rel" ] ]. huelga_n1 := n_intr_count_le & [ STEM < "huelga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_huelga_n_rel" ] ]. huelguista_n1 := n_intr_count_le & [ STEM < "huelguista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_huelguista_n_rel" ] ]. huella_n1 := n_intr_count_le & [ STEM < "huella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_huella_n_rel" ] ]. huelveño_n1 := n_intr_count_le & [ STEM < "huelveño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_huelveño_n_rel" ] ]. huerta_n1 := n_intr_count_le & [ STEM < "huerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_huerta_n_rel" ] ]. huerto_n1 := n_intr_count_le & [ STEM < "huerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_huerto_n_rel" ] ]. huesecillo_n2 := n_ppcomp_count_le & [ STEM < "huesecillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_huesecillo_n_rel" ] ]. hueso_n2 := n_ppcomp_count_le & [ STEM < "hueso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hueso_n_rel" ] ]. hueste_n1 := n_intr_count_le & [ STEM < "hueste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hueste_n_rel" ] ]. huesudo_a1 := a_qual_intr_ser_le & [ STEM < "huesudo" >, SYNSEM.LKEYS.KEYREL.PRED "_huesudo_a_rel" ]. hueva_n1 := n_intr_count_le & [ STEM < "hueva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hueva_n_rel" ] ]. huevera_n1 := n_intr_count_le & [ STEM < "huevera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_huevera_n_rel" ] ]. huevo_n1 := n_intr_count_le & [ STEM < "huevo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_huevo_n_rel" ] ]. huida_n1 := n_event-result_intr_le & [ STEM < "huida" >, SYNSEM.LKEYS.KEYREL.PRED "_huida_n_rel" ]. huir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "huir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_huir_v_rel" ] ] ]. huir_v2 := v_intr_mrkd_np_le & [ STEM < "huir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_huir_v_rel" ] ]. huir_v3 := v_intr_mrkd_np_le & [ STEM < "huir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_huir_v_rel" ] ]. huir_v4 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "huir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_huir_v_rel" ] ] ]. huir_v5 := v_pron_intr_mrkd_np_le & [ STEM < "huir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_huir_v_rel" ] ]. hulla_n1 := n_intr_mass_le & [ STEM < "hulla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_hulla_n_rel" ] ]. humanamente_x1 := av_s_le & [ STEM < "humanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_humanamente_x_rel" ]. humanidad_n1 := n_intr_coll_le & [ STEM < "humanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_humanidad_n_rel" ] ]. humanismo_n1 := n_intr_uncount_le & [ STEM < "humanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humanismo_n_rel" ] ]. humanista_n1 := n_intr_count_le & [ STEM < "humanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_humanista_n_rel" ] ]. humanitario_a1 := a_rel_nonprd_intr_le & [ STEM < "humanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_humanitario_a_rel" ]. humanitarismo_n1 := n_ppcomp_uncount_le & [ STEM < "humanitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humanitarismo_n_rel" ] ]. humanización_n1 := n_trans_le & [ STEM < "humanización" >, SYNSEM.LKEYS.KEYREL.PRED "_humanización_n_rel" ]. humanizar_v := v_trans_np_le & [ STEM < "humanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_humanizar_v_rel" ]. humano_a1 := a_rel_nonprd_intr_le & [ STEM < "humano" >, SYNSEM.LKEYS.KEYREL.PRED "_humano_a_rel" ]. humano_n1 := n_intr_count_le & [ STEM < "humano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_humano_n_rel" ] ]. humanoide_n1 := n_intr_count_le & [ STEM < "humanoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_humanoide_n_rel" ] ]. humanístico_a1 := a_qual_intr_scopal_le & [ STEM < "humanístico" >, SYNSEM.LKEYS.KEYREL.PRED "_humanístico_a_rel" ]. humeante_a1 := a_qual_intr_scopal_le & [ STEM < "humeante" >, SYNSEM.LKEYS.KEYREL.PRED "_humeante_a_rel" ]. humear_v := v_intr_le & [ STEM < "humear" >, SYNSEM.LKEYS.KEYREL.PRED "_humear_v_rel" ]. humectabilidad_n1 := n_intr_uncount_le & [ STEM < "humectabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humectabilidad_n_rel" ] ]. humectador_n1 := n_intr_count_le & [ STEM < "humectador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_humectador_n_rel" ] ]. humectante_a1 := a_qual_intr_scopal_le & [ STEM < "humectante" >, SYNSEM.LKEYS.KEYREL.PRED "_humectante_a_rel" ]. humedad_n1 := n_ppcomp_mass_le & [ STEM < "humedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humedad_n_rel" ] ]. humedecedor_n1 := n_intr_count_le & [ STEM < "humedecedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_humedecedor_n_rel" ] ]. humedecer_v := v_trans_np_caus_le & [ STEM < "humedecer" >, SYNSEM.LKEYS.KEYREL.PRED "_humedecer_v_rel" ]. humedecimiento_n1 := n_trans_le & [ STEM < "humedecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_humedecimiento_n_rel" ]. humeral_a1 := a_rel_nonprd_intr_le & [ STEM < "humeral" >, SYNSEM.LKEYS.KEYREL.PRED "_humeral_a_rel" ]. humerocubital_a1 := a_rel_nonprd_intr_le & [ STEM < "humerocubital" >, SYNSEM.LKEYS.KEYREL.PRED "_humerocubital_a_rel" ]. humerorradial_a1 := a_rel_nonprd_intr_le & [ STEM < "humerorradial" >, SYNSEM.LKEYS.KEYREL.PRED "_humerorradial_a_rel" ]. humidificación_n1 := n_trans_le & [ STEM < "humidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_humidificación_n_rel" ]. humidificador_n1 := n_intr_count_le & [ STEM < "humidificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_humidificador_n_rel" ] ]. humildad_n1 := n_ppcomp_mass_le & [ STEM < "humildad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humildad_n_rel" ] ]. humilde_a1 := a_qual_intr_ser_le & [ STEM < "humilde" >, SYNSEM.LKEYS.KEYREL.PRED "_humilde_a_rel" ]. humildemente_x1 := av_i_spr_le & [ STEM < "humildemente" >, SYNSEM.LKEYS.KEYREL.PRED "_humildemente_x_rel" ]. humillación_n1 := n_trans_le & [ STEM < "humillación" >, SYNSEM.LKEYS.KEYREL.PRED "_humillación_n_rel" ]. humillante_a1 := a_qual_intr_scopal_le & [ STEM < "humillante" >, SYNSEM.LKEYS.KEYREL.PRED "_humillante_a_rel" ]. humillar_v1 := v_intr_io*_le & [ STEM < "humillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_humillar_v_rel" ] ]. humillar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "humillar" >, SYNSEM.LKEYS.KEYREL.PRED "_humillar_v_rel" ]. humillar_v3 := v_trans_np_caus_le & [ STEM < "humillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_humillar_v_rel" ] ]. humo_n1 := n_intr_mass_le & [ STEM < "humo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_humo_n_rel" ] ]. humor_n1 := n_intr_uncount_pl_le & [ STEM < "humor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humor_n_rel" ] ]. humoral_a1 := a_rel_nonprd_intr_le & [ STEM < "humoral" >, SYNSEM.LKEYS.KEYREL.PRED "_humoral_a_rel" ]. humorismo_n1 := n_intr_uncount_le & [ STEM < "humorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humorismo_n_rel" ] ]. humorista_n1 := n_intr_count_le & [ STEM < "humorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_humorista_n_rel" ] ]. humorísticamente_x1 := av_i_spr_le & [ STEM < "humorísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_humorísticamente_x_rel" ]. humorístico_a1 := a_rel_nonprd_intr_le & [ STEM < "humorístico" >, SYNSEM.LKEYS.KEYREL.PRED "_humorístico_a_rel" ]. humoso_a1 := a_qual_intr_scopal_le & [ STEM < "humoso" >, SYNSEM.LKEYS.KEYREL.PRED "_humoso_a_rel" ]. humus_n1 := n_intr_mass_le & [ STEM < "humus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_humus_n_rel" ] ]. humífero_a1 := a_rel_nonprd_intr_le & [ STEM < "humífero" >, SYNSEM.LKEYS.KEYREL.PRED "_humífero_a_rel" ]. hundible_a1 := a_rel_prd_le & [ STEM < "hundible" >, SYNSEM.LKEYS.KEYREL.PRED "_hundible_a_rel" ]. hundimiento_n1 := n_trans_le & [ STEM < "hundimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_hundimiento_n_rel" ]. hundir_v1 := v_intr_io*_le & [ STEM < "hundir" >, SYNSEM.LKEYS.KEYREL.PRED "_hundir_v_rel" ]. hundir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "hundir" >, SYNSEM.LKEYS.KEYREL.PRED "_hundir_v_rel" ]. hundir_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "hundir" >, SYNSEM.LKEYS.KEYREL.PRED "_hundir_v_rel" ]. hundir_v4 := v_trans_np_caus_le & [ STEM < "hundir" >, SYNSEM.LKEYS.KEYREL.PRED "_hundir_v_rel" ]. huno_n1 := n_intr_count_le & [ STEM < "huno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_huno_n_rel" ] ]. huracanado_a1 := a_qual_intr_scopal_le & [ STEM < "huracanado" >, SYNSEM.LKEYS.KEYREL.PRED "_huracanado_a_rel" ]. huracán_n1 := n_intr_count_le & [ STEM < "huracán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_huracán_n_rel" ] ]. huraño_a1 := a_qual_intr_ser_le & [ STEM < "huraño" >, SYNSEM.LKEYS.KEYREL.PRED "_huraño_a_rel" ]. hurgador_n1 := n_subj-nom_le & [ STEM < "hurgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hurgador_n_rel" ] ]. hurgante_a1 := a_rel_nonprd_intr_le & [ STEM < "hurgante" >, SYNSEM.LKEYS.KEYREL.PRED "_hurgante_a_rel" ]. hurgar_v := v_unacc_lcomp_loc*_le & [ STEM < "hurgar" >, SYNSEM.LKEYS.KEYREL.PRED "_hurgar_v_rel" ]. hurta_n1 := n_intr_count_le & [ STEM < "hurta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hurta_n_rel" ] ]. hurtador_n1 := n_subj-nom_le & [ STEM < "hurtador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hurtador_n_rel" ] ]. hurtar_v := v_trans_np_le & [ STEM < "hurtar" >, SYNSEM.LKEYS.KEYREL.PRED "_hurtar_v_rel" ]. hurón_n1 := n_intr_count_le & [ STEM < "hurón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hurón_n_rel" ] ]. husarada_n1 := n_intr_uncount_le & [ STEM < "husarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_husarada_n_rel" ] ]. husillo_n1 := n_intr_count_le & [ STEM < "husillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_husillo_n_rel" ] ]. husita_n1 := n_intr_count_le & [ STEM < "husita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_husita_n_rel" ] ]. husmear_v := v_trans_np*_le & [ STEM < "husmear" >, SYNSEM.LKEYS.KEYREL.PRED "_husmear_v_rel" ]. husmeo_n1 := n_trans_le & [ STEM < "husmeo" >, SYNSEM.LKEYS.KEYREL.PRED "_husmeo_n_rel" ]. huso_n1 := n_intr_count_le & [ STEM < "huso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_huso_n_rel" ] ]. hutu_n1 := n_intr_count_le & [ STEM < "hutu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_hutu_n_rel" ] ]. huérfano_a1 := a_qual_intr_ser_le & [ STEM < "huérfano" >, SYNSEM.LKEYS.KEYREL.PRED "_huérfano_a_rel" ]. huérfano_n1 := n_intr_count_le & [ STEM < "huérfano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_huérfano_n_rel" ] ]. huésped_n1 := n_intr_count_le & [ STEM < "huésped" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_huésped_n_rel" ] ]. hypocalcificar_v := v_trans_np_caus_le & [ STEM < "hypocalcificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum_mat, PRED "_hypocalcificar_v_rel" ] ]. hábil_a1 := a_rel_nonprd_intr_le & [ STEM < "hábil" >, SYNSEM.LKEYS.KEYREL.PRED "_hábil_a_rel" ]. hábil_a2 := a_qual_intr_ser_le & [ STEM < "hábil" >, SYNSEM.LKEYS.KEYREL.PRED "_hábil_a_rel" ]. hábilmente_x1 := av_s_spr_le & [ STEM < "hábilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_hábilmente_x_rel" ]. hábilmente_x2 := av_i_psthd_spr_le & [ STEM < "hábilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_hábilmente_x_rel" ]. hábitat_n1 := n_intr_count_le & [ STEM < "hábitat" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_hábitat_n_rel" ] ]. hábito_n1 := n_intr_count_le & [ STEM < "hábito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_hábito_n_rel" ] ]. hámster_n1 := n_intr_count_le & [ STEM < "hámster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_hámster_n_rel" ] ]. hélice_n1 := n_intr_count_le & [ STEM < "hélice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_hélice_n_rel" ] ]. héroe_n1 := n_intr_count_le & [ STEM < "héroe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_héroe_n_rel" ] ]. híbridamente_x1 := av_i_spr_le & [ STEM < "híbridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_híbridamente_x_rel" ]. híbrido_a1 := a_rel_prd_le & [ STEM < "híbrido" >, SYNSEM.LKEYS.KEYREL.PRED "_híbrido_a_rel" ]. híbrido_n1 := n_intr_count_le & [ STEM < "híbrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_híbrido_n_rel" ] ]. hídricamente_x1 := av_i_spr_le & [ STEM < "hídricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_hídricamente_x_rel" ]. hídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "hídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_hídrico_a_rel" ]. hígado_n1 := n_ppcomp_count_le & [ STEM < "hígado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_hígado_n_rel" ] ]. hípica_n1 := n_intr_count_le & [ STEM < "hípica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_hípica_n_rel" ] ]. hípico_a1 := a_rel_nonprd_intr_le & [ STEM < "hípico" >, SYNSEM.LKEYS.KEYREL.PRED "_hípico_a_rel" ]. hístico_a1 := a_rel_nonprd_intr_le & [ STEM < "hístico" >, SYNSEM.LKEYS.KEYREL.PRED "_hístico_a_rel" ]. hólding_n1 := n_intr_count_le & [ STEM < "hólding" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_hólding_n_rel" ] ]. húmedo_a1 := a_qual_intr_scopal_le & [ STEM < "húmedo" >, SYNSEM.LKEYS.KEYREL.PRED "_húmedo_a_rel" ]. húmero_n1 := n_ppcomp_count_le & [ STEM < "húmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_húmero_n_rel" ] ]. húmico_a1 := a_rel_nonprd_intr_le & [ STEM < "húmico" >, SYNSEM.LKEYS.KEYREL.PRED "_húmico_a_rel" ]. húngaro_a1 := a_rel_prd_le & [ STEM < "húngaro" >, SYNSEM.LKEYS.KEYREL.PRED "_húngaro_a_rel" ]. húsar_n1 := n_intr_count_le & [ STEM < "húsar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_húsar_n_rel" ] ]. iberoamericano_a1 := a_rel_prd_le & [ STEM < "iberoamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_iberoamericano_a_rel" ]. ibicenco_a1 := a_rel_prd_le & [ STEM < "ibicenco" >, SYNSEM.LKEYS.KEYREL.PRED "_ibicenco_a_rel" ]. ibicenco_n1 := n_intr_count_le & [ STEM < "ibicenco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ibicenco_n_rel" ] ]. ibuprofeno_n1 := n_intr_count_le & [ STEM < "ibuprofeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ibuprofeno_n_rel" ] ]. ibuprofén_n1 := n_intr_count_le & [ STEM < "ibuprofén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ibuprofén_n_rel" ] ]. ibérico_a1 := a_rel_prd_le & [ STEM < "ibérico" >, SYNSEM.LKEYS.KEYREL.PRED "_ibérico_a_rel" ]. ibídem_n1 := av_deic_place_le & [ STEM < "ibídem" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ibídem_x_rel" ]. iceberg_n1 := n_intr_count_le & [ STEM < "iceberg" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_iceberg_n_rel" ] ]. iconicidad_n1 := n_intr_uncount_le & [ STEM < "iconicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iconicidad_n_rel" ] ]. iconizar_v := v_trans_np_le & [ STEM < "iconizar" >, SYNSEM.LKEYS.KEYREL.PRED "_iconizar_v_rel" ]. icono_n1 := n_intr_count_le & [ STEM < "icono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_icono_n_rel" ] ]. iconoclasta_a1 := a_qual_intr_ser_le & [ STEM < "iconoclasta" >, SYNSEM.LKEYS.KEYREL.PRED "_iconoclasta_a_rel" ]. iconografía_n1 := n_intr_count_le & [ STEM < "iconografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iconografía_n_rel" ] ]. iconográficamente_x1 := av_i_spr_le & [ STEM < "iconográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_iconográficamente_x_rel" ]. iconográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "iconográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_iconográfico_a_rel" ]. iconología_n1 := n_intr_uncount_pl_le & [ STEM < "iconología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iconología_n_rel" ] ]. iconoscopio_n1 := n_intr_count_le & [ STEM < "iconoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_iconoscopio_n_rel" ] ]. icosaédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "icosaédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_icosaédrico_a_rel" ]. ictericia_n1 := n_intr_uncount_pl_le & [ STEM < "ictericia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ictericia_n_rel" ] ]. ictiología_n1 := n_intr_uncount_le & [ STEM < "ictiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ictiología_n_rel" ] ]. ictiosauro_n1 := n_intr_count_le & [ STEM < "ictiosauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ictiosauro_n_rel" ] ]. ictiólogo_n1 := n_intr_count_le & [ STEM < "ictiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ictiólogo_n_rel" ] ]. ictérico_a1 := a_rel_nonprd_intr_le & [ STEM < "ictérico" >, SYNSEM.LKEYS.KEYREL.PRED "_ictérico_a_rel" ]. icónico_a1 := a_rel_nonprd_intr_le & [ STEM < "icónico" >, SYNSEM.LKEYS.KEYREL.PRED "_icónico_a_rel" ]. ideación_n1 := n_intr_uncount_le & [ STEM < "ideación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideación_n_rel" ] ]. ideal_a1 := a_qual_intr_scopal_le & [ STEM < "ideal" >, SYNSEM.LKEYS.KEYREL.PRED "_ideal_a_rel" ]. ideal_n1 := n_intr_count_le & [ STEM < "ideal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideal_n_rel" ] ]. idealidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "idealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idealidad_n_rel" ] ]. idealismo_n1 := n_ppcomp_uncount_le & [ STEM < "idealismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idealismo_n_rel" ] ]. idealista_a1 := a_qual_intr_ser_le & [ STEM < "idealista" >, SYNSEM.LKEYS.KEYREL.PRED "_idealista_a_rel" ]. idealista_n1 := n_intr_count_le & [ STEM < "idealista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_idealista_n_rel" ] ]. idealización_n1 := n_trans_le & [ STEM < "idealización" >, SYNSEM.LKEYS.KEYREL.PRED "_idealización_n_rel" ]. idealizar_v := v_trans_np_le & [ STEM < "idealizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_idealizar_v_rel" ] ]. idealmente_x1 := av_i_spr_le & [ STEM < "idealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_idealmente_x_rel" ]. idemfactor_n1 := n_intr_count_le & [ STEM < "idemfactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idemfactor_n_rel" ] ]. idempotencia_n1 := n_intr_uncount_pl_le & [ STEM < "idempotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idempotencia_n_rel" ] ]. idempotente_a1 := a_rel_prd_le & [ STEM < "idempotente" >, SYNSEM.LKEYS.KEYREL.PRED "_idempotente_a_rel" ]. identidad_n1 := n_ppcomp_mass_le & [ STEM < "identidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_identidad_n_rel" ] ]. identidad_n2 := n_intr_count_le & [ STEM < "identidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_identidad_n_rel" ] ]. identificabilidad_n1 := n_intr_uncount_le & [ STEM < "identificabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_identificabilidad_n_rel" ] ]. identificable_a1 := a_qual_intr_scopal_le & [ STEM < "identificable" >, SYNSEM.LKEYS.KEYREL.PRED "_identificable_a_rel" ]. identificación_n1 := n_trans_le & [ STEM < "identificación" >, SYNSEM.LKEYS.KEYREL.PRED "_identificación_n_rel" ]. identificador_n1 := n_intr_count_le & [ STEM < "identificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_identificador_n_rel" ] ]. identificativo_a1 := a_rel_prd_le & [ STEM < "identificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_identificativo_a_rel" ]. identificativo_n1 := n_intr_count_le & [ STEM < "identificativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_identificativo_n_rel" ] ]. ideografía_n1 := n_intr_uncount_pl_le & [ STEM < "ideografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideografía_n_rel" ] ]. ideologizar_v := v_trans_np_le & [ STEM < "ideologizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ideologizar_v_rel" ]. ideología_n1 := n_intr_count_le & [ STEM < "ideología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideología_n_rel" ] ]. ideológicamente_x1 := av_i_spr_le & [ STEM < "ideológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ideológicamente_x_rel" ]. ideológico_a1 := a_qual_intr_scopal_le & [ STEM < "ideológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ideológico_a_rel" ]. ideólogo_n1 := n_intr_count_le & [ STEM < "ideólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ideólogo_n_rel" ] ]. idioblasto_n1 := n_intr_count_le & [ STEM < "idioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_idioblasto_n_rel" ] ]. idiocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "idiocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_idiocromático_a_rel" ]. idiograma_n1 := n_intr_count_le & [ STEM < "idiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_idiograma_n_rel" ] ]. idiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "idiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_idiográfico_a_rel" ]. idiomatismo_n1 := n_intr_uncount_le & [ STEM < "idiomatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiomatismo_n_rel" ] ]. idiomáticamente_x1 := av_s_spr_le & [ STEM < "idiomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_idiomáticamente_x_rel" ]. idiomático_a1 := a_rel_nonprd_intr_le & [ STEM < "idiomático" >, SYNSEM.LKEYS.KEYREL.PRED "_idiomático_a_rel" ]. idiomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "idiomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_idiomórfico_a_rel" ]. idioplasma_n1 := n_intr_count_le & [ STEM < "idioplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_idioplasma_n_rel" ] ]. idiopático_a1 := a_rel_nonprd_intr_le & [ STEM < "idiopático" >, SYNSEM.LKEYS.KEYREL.PRED "_idiopático_a_rel" ]. idiosincrático_a1 := a_qual_intr_scopal_le & [ STEM < "idiosincrático" >, SYNSEM.LKEYS.KEYREL.PRED "_idiosincrático_a_rel" ]. idiosoma_n1 := n_intr_count_le & [ STEM < "idiosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_idiosoma_n_rel" ] ]. idiota_a1 := a_qual_intr_ser_le & [ STEM < "idiota" >, SYNSEM.LKEYS.KEYREL.PRED "_idiota_a_rel" ]. idiota_n1 := n_intr_count_le & [ STEM < "idiota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_idiota_n_rel" ] ]. idiotez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "idiotez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiotez_n_rel" ] ]. idiotez_n2 := n_ppde_cp_prop_inf_uncount_le & [ STEM < "idiotez" >, SYNSEM.LKEYS [ KEYREL [ ARG0.SORT abs, PRED "_idiotez_n_rel" ] ] ]. idiotismo_n1 := n_intr_mass-or-count_le & [ STEM < "idiotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiotismo_n_rel" ] ]. idiotizar_v := v_trans_np*_le & [ STEM < "idiotizar" >, SYNSEM.LKEYS.KEYREL.PRED "_idiotizar_v_rel" ]. idiotípico_a1 := a_rel_prd_le & [ STEM < "idiotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_idiotípico_a_rel" ]. idocrasa_n1 := n_intr_count_le & [ STEM < "idocrasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_idocrasa_n_rel" ] ]. idolatría_n1 := n_intr_uncount_pl_le & [ STEM < "idolatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idolatría_n_rel" ] ]. idoneidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "idoneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idoneidad_n_rel" ] ]. idénticamente_x1 := av_i_spr_le & [ STEM < "idénticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_idénticamente_x_rel" ]. idéntico_a1 := a_qual_trans*_ser_le & [ STEM < "idéntico" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_idéntico_a_rel" ] ]. idéntico_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "idéntico" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_idéntico_a_rel" ] ]. idéntico_a3 := a_qual_cp_ques_ser_le & [ STEM < "idéntico" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_idéntico_a_rel" ] ]. idílico_a1 := a_qual_intr_scopal_le & [ STEM < "idílico" >, SYNSEM.LKEYS.KEYREL.PRED "_idílico_a_rel" ]. idólatra_a1 := a_qual_intr_ser_le & [ STEM < "idólatra" >, SYNSEM.LKEYS.KEYREL.PRED "_idólatra_a_rel" ]. idólatra_n1 := n_intr_count_le & [ STEM < "idólatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_idólatra_n_rel" ] ]. idóneamente_x1 := av_i_spr_le & [ STEM < "idóneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_idóneamente_x_rel" ]. idóneo_a1 := a_qual_trans*_ser_le & [ STEM < "idóneo" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_idóneo_a_rel" ] ]. idóneo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "idóneo" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_idóneo_a_rel" ] ]. iglesia_n1 := n_intr_count_le & [ STEM < "iglesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_iglesia_n_rel" ] ]. iglú_n1 := n_intr_count_le & [ STEM < "iglú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_iglú_n_rel" ] ]. ignición_n1 := n_intr_uncount_le & [ STEM < "ignición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ignición_n_rel" ] ]. ignifugar_v := v_trans_np_le & [ STEM < "ignifugar" >, SYNSEM.LKEYS.KEYREL.PRED "_ignifugar_v_rel" ]. ignominiosamente_x1 := av_i_spr_le & [ STEM < "ignominiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ignominiosamente_x_rel" ]. ignominioso_a1 := a_qual_intr_scopal_le & [ STEM < "ignominioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ignominioso_a_rel" ]. ignorancia_n1 := n_intr_mass_le & [ STEM < "ignorancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ignorancia_n_rel" ] ]. ignorante_a1 := a_qual_intr_ser_le & [ STEM < "ignorante" >, SYNSEM.LKEYS.KEYREL.PRED "_ignorante_a_rel" ]. ignorante_n1 := n_intr_count_le & [ STEM < "ignorante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ignorante_n_rel" ] ]. ignorar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "ignorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ignorar_v_rel" ] ]. ignorar_v2 := v_trans_cp_semi_ques_le & [ STEM < "ignorar" >, SYNSEM.LKEYS.KEYREL.PRED "_ignorar_v_rel" ]. ignorar_v3 := v_trans_np_le & [ STEM < "ignorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ignorar_v_rel" ] ]. ignoto_a1 := a_qual_intr_scopal_le & [ STEM < "ignoto" >, SYNSEM.LKEYS.KEYREL.PRED "_ignoto_a_rel" ]. ignífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "ignífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_ignífugo_a_rel" ]. igual_a1 := a_compar_alt_le & [ STEM < "igual" >, SYNSEM.LKEYS.KEYREL.PRED "_igual_a_rel" ]. igual_a3 := a_qual_cp_prop_fin_ser_le & [ STEM < "igual" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_igual_a_rel" ] ]. igual_a4 := a_qual_cp_ques_ser_le & [ STEM < "igual" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_igual_a_rel" ] ]. igual_n1 := n_intr_count_le & [ STEM < "igual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_igual_n_rel" ] ]. igual_x1 := av_s_cp_prop_le & [ STEM < "igual" >, SYNSEM.LKEYS.KEYREL.PRED "_igual_x_rel" ]. igual_x2 := av_i_le & [ STEM < "igual" >, SYNSEM.LKEYS.KEYREL.PRED "_igual_x_rel" ]. igualación_n1 := n_trans_le & [ STEM < "igualación" >, SYNSEM.LKEYS.KEYREL.PRED "_igualación_n_rel" ]. igualada_n1 := n_trans_le & [ STEM < "igualada" >, SYNSEM.LKEYS.KEYREL.PRED "_igualada_n_rel" ]. igualador_n1 := n_subj-nom_le & [ STEM < "igualador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_igualador_n_rel" ] ]. igualar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "igualar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_igualar_v_rel" ] ]. igualdad_n1 := n_intr_mass-or-count_le & [ STEM < "igualdad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_igualdad_n_rel" ] ]. igualitariamente_x1 := av_i_spr_le & [ STEM < "igualitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_igualitariamente_x_rel" ]. igualitario_a1 := a_qual_intr_ser_le & [ STEM < "igualitario" >, SYNSEM.LKEYS.KEYREL.PRED "_igualitario_a_rel" ]. igualitarismo_n1 := n_intr_uncount_le & [ STEM < "igualitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_igualitarismo_n_rel" ] ]. igualmente_x1 := av_i_spr_le & [ STEM < "igualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_igualmente_x_rel" ]. iguana_n1 := n_intr_count_le & [ STEM < "iguana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_iguana_n_rel" ] ]. ijada_n1 := n_intr_count_le & [ STEM < "ijada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ijada_n_rel" ] ]. ijada_n2 := n_ppcomp_count_le & [ STEM < "ijada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ijada_n_rel" ] ]. ilación_n1 := n_intr_uncount_le & [ STEM < "ilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilación_n_rel" ] ]. ilativo_a1 := a_rel_nonprd_intr_le & [ STEM < "ilativo" >, SYNSEM.LKEYS.KEYREL.PRED "_ilativo_a_rel" ]. ilegal_a1 := a_qual_intr_scopal_le & [ STEM < "ilegal" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegal_a_rel" ]. ilegalidad_n1 := n_intr_mass_le & [ STEM < "ilegalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilegalidad_n_rel" ] ]. ilegalización_n1 := n_trans_le & [ STEM < "ilegalización" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegalización_n_rel" ]. ilegalizar_v := v_trans_np_le & [ STEM < "ilegalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegalizar_v_rel" ]. ilegalmente_x1 := av_i_spr_le & [ STEM < "ilegalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegalmente_x_rel" ]. ilegible_a1 := a_qual_intr_scopal_le & [ STEM < "ilegible" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegible_a_rel" ]. ilegiblemente_x1 := av_i_spr_le & [ STEM < "ilegiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegiblemente_x_rel" ]. ilegitimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ilegitimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilegitimidad_n_rel" ] ]. ilegítimamente_x1 := av_i_spr_le & [ STEM < "ilegítimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegítimamente_x_rel" ]. ilegítimo_a1 := a_rel_nonprd_intr_le & [ STEM < "ilegítimo" >, SYNSEM.LKEYS.KEYREL.PRED "_ilegítimo_a_rel" ]. ileocecal_a1 := a_rel_nonprd_intr_le & [ STEM < "ileocecal" >, SYNSEM.LKEYS.KEYREL.PRED "_ileocecal_a_rel" ]. ileocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "ileocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_ileocólico_a_rel" ]. ilerdense_a1 := a_rel_prd_le & [ STEM < "ilerdense" >, SYNSEM.LKEYS.KEYREL.PRED "_ilerdense_a_rel" ]. ilerdense_n1 := n_intr_count_le & [ STEM < "ilerdense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ilerdense_n_rel" ] ]. ilergete_n1 := n_intr_count_le & [ STEM < "ilergete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ilergete_n_rel" ] ]. ileso_a1 := a_qual_intr_estar_le & [ STEM < "ileso" >, SYNSEM.LKEYS.KEYREL.PRED "_ileso_a_rel" ]. iletrado_a1 := a_qual_intr_ser_le & [ STEM < "iletrado" >, SYNSEM.LKEYS.KEYREL.PRED "_iletrado_a_rel" ]. ilicitano_a1 := a_rel_prd_le & [ STEM < "ilicitano" >, SYNSEM.LKEYS.KEYREL.PRED "_ilicitano_a_rel" ]. ilicitano_n1 := n_intr_count_le & [ STEM < "ilicitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ilicitano_n_rel" ] ]. ilicitud_n1 := n_intr_uncount_pl_le & [ STEM < "ilicitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilicitud_n_rel" ] ]. ilimitadamente_x1 := av_i_spr_le & [ STEM < "ilimitadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilimitadamente_x_rel" ]. iliococcígeo_a1 := a_rel_nonprd_intr_le & [ STEM < "iliococcígeo" >, SYNSEM.LKEYS.KEYREL.PRED "_iliococcígeo_a_rel" ]. iliocostal_a1 := a_rel_nonprd_intr_le & [ STEM < "iliocostal" >, SYNSEM.LKEYS.KEYREL.PRED "_iliocostal_a_rel" ]. iliofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "iliofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_iliofemoral_a_rel" ]. iliohipogástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "iliohipogástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_iliohipogástrico_a_rel" ]. ilioinguinal_a1 := a_rel_nonprd_intr_le & [ STEM < "ilioinguinal" >, SYNSEM.LKEYS.KEYREL.PRED "_ilioinguinal_a_rel" ]. iliolumbar_a1 := a_rel_nonprd_intr_le & [ STEM < "iliolumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_iliolumbar_a_rel" ]. ilion_n2 := n_ppcomp_count_le & [ STEM < "ilion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ilion_n_rel" ] ]. iliopectinio_a1 := a_rel_nonprd_intr_le & [ STEM < "iliopectinio" >, SYNSEM.LKEYS.KEYREL.PRED "_iliopectinio_a_rel" ]. iliopectíneo_a1 := a_rel_nonprd_intr_le & [ STEM < "iliopectíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_iliopectíneo_a_rel" ]. iliopúbico_a1 := a_rel_nonprd_intr_le & [ STEM < "iliopúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_iliopúbico_a_rel" ]. iliotibial_a1 := a_rel_nonprd_intr_le & [ STEM < "iliotibial" >, SYNSEM.LKEYS.KEYREL.PRED "_iliotibial_a_rel" ]. iliquidez_n1 := n_ppcomp_uncount_le & [ STEM < "iliquidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iliquidez_n_rel" ] ]. illita_n1 := n_intr_count_le & [ STEM < "illita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_illita_n_rel" ] ]. ilmenita_n1 := n_intr_count_le & [ STEM < "ilmenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ilmenita_n_rel" ] ]. ilocutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "ilocutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ilocutivo_a_rel" ]. ilota_n1 := n_intr_count_le & [ STEM < "ilota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ilota_n_rel" ] ]. iluminación_n1 := n_trans_le & [ STEM < "iluminación" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminación_n_rel" ]. iluminador_a1 := a_rel_nonprd_intr_le & [ STEM < "iluminador" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminador_a_rel" ]. iluminancia_n1 := n_intr_uncount_le & [ STEM < "iluminancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iluminancia_n_rel" ] ]. iluminar_v1 := v_intr_io*_le & [ STEM < "iluminar" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminar_v_rel" ]. iluminar_v2 := v_pron_intr_le & [ STEM < "iluminar" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminar_v_rel" ]. iluminar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "iluminar" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminar_v_rel" ]. iluminar_v4 := v_trans_np*_le & [ STEM < "iluminar" >, SYNSEM.LKEYS.KEYREL.PRED "_iluminar_v_rel" ]. iluminaria_n1 := n_intr_count_le & [ STEM < "iluminaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_iluminaria_n_rel" ] ]. ilusionar_v1 := v_intr_io*_le & [ STEM < "ilusionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_ilusionar_v_rel" ] ]. ilusionar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "ilusionar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_ilusionar_v_rel" ] ]. ilusionar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ilusionar" >, SYNSEM.LKEYS.KEYREL.PRED "_ilusionar_v_rel" ]. ilusionar_v4 := v_trans_np_le & [ STEM < "ilusionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_ilusionar_v_rel" ] ]. ilusionismo_n1 := n_intr_uncount_le & [ STEM < "ilusionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilusionismo_n_rel" ] ]. ilusionista_n1 := n_intr_count_le & [ STEM < "ilusionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ilusionista_n_rel" ] ]. ilusión_n1 := n_intr_count_le & [ STEM < "ilusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilusión_n_rel" ] ]. ilusorio_a1 := a_qual_intr_scopal_le & [ STEM < "ilusorio" >, SYNSEM.LKEYS.KEYREL.PRED "_ilusorio_a_rel" ]. ilustración_n1 := n_trans_le & [ STEM < "ilustración" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustración_n_rel" ]. ilustrador_a1 := a_rel_nonprd_intr_le & [ STEM < "ilustrador" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustrador_a_rel" ]. ilustrador_n1 := n_intr_count_le & [ STEM < "ilustrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ilustrador_n_rel" ] ]. ilustrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "ilustrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_ilustrar_v_rel" ] ]. ilustrar_v2 := v_trans_np_le & [ STEM < "ilustrar" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustrar_v_rel" ]. ilustrativamente_x1 := av_i_spr_le & [ STEM < "ilustrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustrativamente_x_rel" ]. ilustrativo_a1 := a_qual_trans*_ser_le & [ STEM < "ilustrativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_ilustrativo_a_rel" ] ]. ilustre_a1 := a_qual_intr_ser_le & [ STEM < "ilustre" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustre_a_rel" ]. ilustrísimo_a1 := a_adv_event_le & [ STEM < "ilustrísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_ilustrísimo_a_rel" ]. ilíaco_a1 := a_rel_nonprd_intr_le & [ STEM < "ilíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_ilíaco_a_rel" ]. ilícitamente_x1 := av_i_spr_le & [ STEM < "ilícitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilícitamente_x_rel" ]. ilícito_a1 := a_qual_intr_scopal_le & [ STEM < "ilícito" >, SYNSEM.LKEYS.KEYREL.PRED "_ilícito_a_rel" ]. ilógicamente_x1 := av_i_spr_le & [ STEM < "ilógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ilógicamente_x_rel" ]. ilógico_a1 := a_qual_intr_scopal_le & [ STEM < "ilógico" >, SYNSEM.LKEYS.KEYREL.PRED "_ilógico_a_rel" ]. imagen_n1 := n_intr_count_le & [ STEM < "imagen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_imagen_n_rel" ] ]. imagería_n1 := n_intr_uncount_le & [ STEM < "imagería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imagería_n_rel" ] ]. imaginable_a1 := a_qual_intr_scopal_le & [ STEM < "imaginable" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginable_a_rel" ]. imaginablemente_x1 := av_i_spr_le & [ STEM < "imaginablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginablemente_x_rel" ]. imaginación_n1 := n_intr_count_le & [ STEM < "imaginación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imaginación_n_rel" ] ]. imaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "imaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginal_a_rel" ]. imaginar_v1 := v_pron_trans_cp_prop_fin_ind_le & [ STEM < "imaginar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imaginar_v_rel" ] ]. imaginar_v2 := v_pron_trans_np_le & [ STEM < "imaginar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imaginar_v_rel" ] ]. imaginar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "imaginar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imaginar_v_rel" ] ]. imaginar_v4 := v_trans_np_le & [ STEM < "imaginar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imaginar_v_rel" ] ]. imaginariamente_x1 := av_i_spr_le & [ STEM < "imaginariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginariamente_x_rel" ]. imaginario_a1 := a_qual_intr_scopal_le & [ STEM < "imaginario" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginario_a_rel" ]. imaginativamente_x1 := av_i_spr_le & [ STEM < "imaginativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginativamente_x_rel" ]. imaginativo_a1 := a_qual_intr_ser_le & [ STEM < "imaginativo" >, SYNSEM.LKEYS.KEYREL.PRED "_imaginativo_a_rel" ]. imaginería_n1 := n_intr_uncount_pl_le & [ STEM < "imaginería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imaginería_n_rel" ] ]. imago_n1 := n_intr_count_le & [ STEM < "imago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_imago_n_rel" ] ]. imanación_n1 := n_trans_le & [ STEM < "imanación" >, SYNSEM.LKEYS.KEYREL.PRED "_imanación_n_rel" ]. imantación_n1 := n_trans_le & [ STEM < "imantación" >, SYNSEM.LKEYS.KEYREL.PRED "_imantación_n_rel" ]. imantar_v := v_trans_np_le & [ STEM < "imantar" >, SYNSEM.LKEYS.KEYREL.PRED "_imantar_v_rel" ]. imbatibilidad_n1 := n_ppcomp_uncount_le & [ STEM < "imbatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imbatibilidad_n_rel" ] ]. imbatible_a1 := a_rel_prd_le & [ STEM < "imbatible" >, SYNSEM.LKEYS.KEYREL.PRED "_imbatible_a_rel" ]. imbatido_a1 := a_rel_nonprd_intr_le & [ STEM < "imbatido" >, SYNSEM.LKEYS.KEYREL.PRED "_imbatido_a_rel" ]. imbatilidad_n1 := n_intr_uncount_le & [ STEM < "imbatilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imbatilidad_n_rel" ] ]. imbecilidad_n1 := n_intr_mass-or-count_le & [ STEM < "imbecilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imbecilidad_n_rel" ] ]. imberbe_a1 := a_qual_intr_ser_le & [ STEM < "imberbe" >, SYNSEM.LKEYS.KEYREL.PRED "_imberbe_a_rel" ]. imbibición_n1 := n_trans_le & [ STEM < "imbibición" >, SYNSEM.LKEYS.KEYREL.PRED "_imbibición_n_rel" ]. imbibición_n2 := n_result_intr_ppcomp_le & [ STEM < "imbibición" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_imbibición_n_rel" ] ]. imbornal_n1 := n_intr_count_le & [ STEM < "imbornal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_imbornal_n_rel" ] ]. imborrable_a1 := a_rel_prd_le & [ STEM < "imborrable" >, SYNSEM.LKEYS.KEYREL.PRED "_imborrable_a_rel" ]. imbricación_n1 := n_trans_le & [ STEM < "imbricación" >, SYNSEM.LKEYS.KEYREL.PRED "_imbricación_n_rel" ]. imbricar_v := v_trans_np_le & [ STEM < "imbricar" >, SYNSEM.LKEYS.KEYREL.PRED "_imbricar_v_rel" ]. imbécil_a1 := a_qual_intr_ser_le & [ STEM < "imbécil" >, SYNSEM.LKEYS.KEYREL.PRED "_imbécil_a_rel" ]. imbécil_n1 := n_intr_count_le & [ STEM < "imbécil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_imbécil_n_rel" ] ]. imida_n1 := n_intr_count_le & [ STEM < "imida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_imida_n_rel" ] ]. imidazol_n1 := n_intr_count_le & [ STEM < "imidazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_imidazol_n_rel" ] ]. iminobispropilamina_n1 := n_intr_count_le & [ STEM < "iminobispropilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_iminobispropilamina_n_rel" ] ]. imitable_a1 := a_qual_intr_scopal_le & [ STEM < "imitable" >, SYNSEM.LKEYS.KEYREL.PRED "_imitable_a_rel" ]. imitación_n1 := n_result_intr_ppcomp_le & [ STEM < "imitación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_imitación_n_rel" ] ]. imitador_a1 := a_rel_nonprd_intr_le & [ STEM < "imitador" >, SYNSEM.LKEYS.KEYREL.PRED "_imitador_a_rel" ]. imitador_n1 := n_subj-nom_le & [ STEM < "imitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_imitador_n_rel" ] ]. imitar_v := v_trans_np_le & [ STEM < "imitar" >, SYNSEM.LKEYS.KEYREL.PRED "_imitar_v_rel" ]. imitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "imitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_imitativo_a_rel" ]. immunodifusión_n1 := n_intr_count_le & [ STEM < "immunodifusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_immunodifusión_n_rel" ] ]. impaciencia_n1 := n_intr_mass_le & [ STEM < "impaciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impaciencia_n_rel" ] ]. impacientar_v1 := v_intr_io*_le & [ STEM < "impacientar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_impacientar_v_rel" ] ]. impacientar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "impacientar" >, SYNSEM.LKEYS.KEYREL.PRED "_impacientar_v_rel" ]. impacientar_v3 := v_trans_np_caus_le & [ STEM < "impacientar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_impacientar_v_rel" ] ]. impaciente_a1 := a_qual_intr_ser_le & [ STEM < "impaciente" >, SYNSEM.LKEYS.KEYREL.PRED "_impaciente_a_rel" ]. impacientemente_x1 := av_i_spr_le & [ STEM < "impacientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impacientemente_x_rel" ]. impactante_a1 := a_qual_intr_scopal_le & [ STEM < "impactante" >, SYNSEM.LKEYS.KEYREL.PRED "_impactante_a_rel" ]. impactar_v1 := v_intr_io*_le & [ STEM < "impactar" >, SYNSEM.LKEYS.KEYREL.PRED "_impactar_v_rel" ]. impactar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "impactar" >, SYNSEM.LKEYS.KEYREL.PRED "_impactar_v_rel" ]. impactar_v3 := v_trans_np*_mrkd_np*_le & [ STEM < "impactar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_impactar_v_rel" ] ]. impactita_n1 := n_intr_count_le & [ STEM < "impactita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_impactita_n_rel" ] ]. impagable_a1 := a_rel_prd_le & [ STEM < "impagable" >, SYNSEM.LKEYS.KEYREL.PRED "_impagable_a_rel" ]. impagado_a1 := a_rel_nonprd_intr_le & [ STEM < "impagado" >, SYNSEM.LKEYS.KEYREL.PRED "_impagado_a_rel" ]. impala_n1 := n_intr_count_le & [ STEM < "impala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_impala_n_rel" ] ]. impalpable_a1 := a_rel_prd_le & [ STEM < "impalpable" >, SYNSEM.LKEYS.KEYREL.PRED "_impalpable_a_rel" ]. impar_a1 := a_rel_nonprd_intr_le & [ STEM < "impar" >, SYNSEM.LKEYS.KEYREL.PRED "_impar_a_rel" ]. imparable_a1 := a_rel_prd_le & [ STEM < "imparable" >, SYNSEM.LKEYS.KEYREL.PRED "_imparable_a_rel" ]. imparcial_a1 := a_qual_intr_ser_le & [ STEM < "imparcial" >, SYNSEM.LKEYS.KEYREL.PRED "_imparcial_a_rel" ]. imparcialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "imparcialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imparcialidad_n_rel" ] ]. imparcialmente_x1 := av_i_spr_le & [ STEM < "imparcialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_imparcialmente_x_rel" ]. impartición_n1 := n_trans_le & [ STEM < "impartición" >, SYNSEM.LKEYS.KEYREL.PRED "_impartición_n_rel" ]. impartir_v := v_ditrans_le & [ STEM < "impartir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_impartir_v_rel" ] ]. impasibilidad_n1 := n_ppcomp_mass_le & [ STEM < "impasibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impasibilidad_n_rel" ] ]. impasible_a1 := a_qual_intr_ser_le & [ STEM < "impasible" >, SYNSEM.LKEYS.KEYREL.PRED "_impasible_a_rel" ]. impasiblemente_x1 := av_i_spr_le & [ STEM < "impasiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impasiblemente_x_rel" ]. impecable_a1 := a_qual_intr_scopal_le & [ STEM < "impecable" >, SYNSEM.LKEYS.KEYREL.PRED "_impecable_a_rel" ]. impecablemente_x1 := av_i_spr_le & [ STEM < "impecablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impecablemente_x_rel" ]. impedancia_n1 := n_intr_uncount_le & [ STEM < "impedancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impedancia_n_rel" ] ]. impedanciometría_n1 := n_intr_count_le & [ STEM < "impedanciometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impedanciometría_n_rel" ] ]. impedimento_n1 := n_intr_count_le & [ STEM < "impedimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impedimento_n_rel" ] ]. impedir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "impedir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_impedir_v_rel" ] ]. impedir_v2 := v_ditrans*_le & [ STEM < "impedir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_impedir_v_rel" ] ]. impedir_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "impedir" >, SYNSEM.LKEYS.KEYREL.PRED "_impedir_v_rel" ]. impedir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "impedir" >, SYNSEM.LKEYS.KEYREL.PRED "_impedir_v_rel" ]. impedir_v5 := v_trans_np_le & [ STEM < "impedir" >, SYNSEM.LKEYS.KEYREL.PRED "_impedir_v_rel" ]. impeditivo_a1 := a_rel_prd_le & [ STEM < "impeditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_impeditivo_a_rel" ]. impelente_a1 := a_rel_nonprd_intr_le & [ STEM < "impelente" >, SYNSEM.LKEYS.KEYREL.PRED "_impelente_a_rel" ]. impeler_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "impeler" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impeler_v_rel" ] ] ]. impeler_v2 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "impeler" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impeler_v_rel" ] ] ]. impeler_v3 := v_non_pass_np_mrkd_np*_le & [ STEM < "impeler" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impeler_v_rel" ] ] ]. impenetrabilidad_n1 := n_ppcomp_mass_le & [ STEM < "impenetrabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impenetrabilidad_n_rel" ] ]. impenetrable_a1 := a_rel_prd_le & [ STEM < "impenetrable" >, SYNSEM.LKEYS.KEYREL.PRED "_impenetrable_a_rel" ]. impenitente_a1 := a_qual_intr_ser_le & [ STEM < "impenitente" >, SYNSEM.LKEYS.KEYREL.PRED "_impenitente_a_rel" ]. impensable_a1 := a_rel_prd_le & [ STEM < "impensable" >, SYNSEM.LKEYS.KEYREL.PRED "_impensable_a_rel" ]. impensado_a1 := a_rel_nonprd_intr_le & [ STEM < "impensado" >, SYNSEM.LKEYS.KEYREL.PRED "_impensado_a_rel" ]. imperante_a1 := a_rel_nonprd_intr_le & [ STEM < "imperante" >, SYNSEM.LKEYS.KEYREL.PRED "_imperante_a_rel" ]. imperar_v := v_unacc_lcomp_loc*_le & [ STEM < "imperar" >, SYNSEM.LKEYS.KEYREL.PRED "_imperar_v_rel" ]. imperativamente_x1 := av_i_spr_le & [ STEM < "imperativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperativamente_x_rel" ]. imperativo_a1 := a_qual_intr_scopal_le & [ STEM < "imperativo" >, SYNSEM.LKEYS.KEYREL.PRED "_imperativo_a_rel" ]. imperceptible_a1 := a_qual_intr_scopal_le & [ STEM < "imperceptible" >, SYNSEM.LKEYS.KEYREL.PRED "_imperceptible_a_rel" ]. imperceptiblemente_x1 := av_i_spr_le & [ STEM < "imperceptiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperceptiblemente_x_rel" ]. imperdible_a1 := a_rel_prd_le & [ STEM < "imperdible" >, SYNSEM.LKEYS.KEYREL.PRED "_imperdible_a_rel" ]. imperdible_n1 := n_intr_count_le & [ STEM < "imperdible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_imperdible_n_rel" ] ]. imperdonable_a1 := a_qual_intr_scopal_le & [ STEM < "imperdonable" >, SYNSEM.LKEYS.KEYREL.PRED "_imperdonable_a_rel" ]. imperdonablemente_x1 := av_i_spr_le & [ STEM < "imperdonablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperdonablemente_x_rel" ]. imperecedero_a1 := a_rel_nonprd_intr_le & [ STEM < "imperecedero" >, SYNSEM.LKEYS.KEYREL.PRED "_imperecedero_a_rel" ]. imperfección_n1 := n_ppcomp_count_le & [ STEM < "imperfección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperfección_n_rel" ] ]. imperfectamente_x1 := av_i_spr_le & [ STEM < "imperfectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperfectamente_x_rel" ]. imperfectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "imperfectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_imperfectivo_a_rel" ]. imperfecto_a1 := a_rel_nonprd_intr_le & [ STEM < "imperfecto" >, SYNSEM.LKEYS.KEYREL.PRED "_imperfecto_a_rel" ]. imperforación_n1 := n_intr_count_le & [ STEM < "imperforación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperforación_n_rel" ] ]. imperial_a1 := a_rel_nonprd_intr_le & [ STEM < "imperial" >, SYNSEM.LKEYS.KEYREL.PRED "_imperial_a_rel" ]. imperialismo_n1 := n_ppcomp_uncount_le & [ STEM < "imperialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperialismo_n_rel" ] ]. imperialista_a1 := a_qual_intr_scopal_le & [ STEM < "imperialista" >, SYNSEM.LKEYS.KEYREL.PRED "_imperialista_a_rel" ]. impericia_n1 := n_intr_uncount_le & [ STEM < "impericia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impericia_n_rel" ] ]. imperio_n1 := n_intr_count_le & [ STEM < "imperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_imperio_n_rel" ] ]. imperiosamente_x1 := av_i_spr_le & [ STEM < "imperiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperiosamente_x_rel" ]. imperioso_a1 := a_qual_intr_scopal_le & [ STEM < "imperioso" >, SYNSEM.LKEYS.KEYREL.PRED "_imperioso_a_rel" ]. impermeabilidad_n1 := n_ppcomp_mass_le & [ STEM < "impermeabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impermeabilidad_n_rel" ] ]. impermeabilización_n1 := n_trans_le & [ STEM < "impermeabilización" >, SYNSEM.LKEYS.KEYREL.PRED "_impermeabilización_n_rel" ]. impermeabilizar_v := v_trans_np_le & [ STEM < "impermeabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_impermeabilizar_v_rel" ]. impermeable_a1 := a_rel_prd_le & [ STEM < "impermeable" >, SYNSEM.LKEYS.KEYREL.PRED "_impermeable_a_rel" ]. impermeable_n1 := n_intr_count_le & [ STEM < "impermeable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_impermeable_n_rel" ] ]. impersonal_a1 := a_qual_intr_scopal_le & [ STEM < "impersonal" >, SYNSEM.LKEYS.KEYREL.PRED "_impersonal_a_rel" ]. impersonalizar_v := v_trans_np_caus_le & [ STEM < "impersonalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_impersonalizar_v_rel" ]. impersonalmente_x1 := av_i_spr_le & [ STEM < "impersonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_impersonalmente_x_rel" ]. impertinencia_n1 := n_intr_mass-or-count_le & [ STEM < "impertinencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impertinencia_n_rel" ] ]. impertinente_a1 := a_qual_intr_ser_le & [ STEM < "impertinente" >, SYNSEM.LKEYS.KEYREL.PRED "_impertinente_a_rel" ]. impertinentemente_x1 := av_i_spr_le & [ STEM < "impertinentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impertinentemente_x_rel" ]. imperturbabilidad_n1 := n_ppcomp_mass_le & [ STEM < "imperturbabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperturbabilidad_n_rel" ] ]. imperturbablamente_x1 := av_i_spr_le & [ STEM < "imperturbablamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imperturbablamente_x_rel" ]. imperturbable_a1 := a_rel_prd_le & [ STEM < "imperturbable" >, SYNSEM.LKEYS.KEYREL.PRED "_imperturbable_a_rel" ]. impertérrito_a1 := a_qual_intr_ser_le & [ STEM < "impertérrito" >, SYNSEM.LKEYS.KEYREL.PRED "_impertérrito_a_rel" ]. impetración_n1 := n_trans_le & [ STEM < "impetración" >, SYNSEM.LKEYS.KEYREL.PRED "_impetración_n_rel" ]. impetrar_v := v_trans_np_le & [ STEM < "impetrar" >, SYNSEM.LKEYS.KEYREL.PRED "_impetrar_v_rel" ]. impetuosamente_x1 := av_i_spr_le & [ STEM < "impetuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impetuosamente_x_rel" ]. impetuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impetuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impetuosidad_n_rel" ] ]. impetuoso_a1 := a_qual_intr_scopal_le & [ STEM < "impetuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_impetuoso_a_rel" ]. impiedad_n1 := n_intr_mass-or-count_le & [ STEM < "impiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impiedad_n_rel" ] ]. implacable_a1 := a_qual_intr_scopal_le & [ STEM < "implacable" >, SYNSEM.LKEYS.KEYREL.PRED "_implacable_a_rel" ]. implantación_n1 := n_trans_le & [ STEM < "implantación" >, SYNSEM.LKEYS.KEYREL.PRED "_implantación_n_rel" ]. implantar_v := v_trans_np_le & [ STEM < "implantar" >, SYNSEM.LKEYS.KEYREL.PRED "_implantar_v_rel" ]. implantología_n1 := n_intr_uncount_le & [ STEM < "implantología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_implantología_n_rel" ] ]. implementación_n1 := n_trans_le & [ STEM < "implementación" >, SYNSEM.LKEYS.KEYREL.PRED "_implementación_n_rel" ]. implementador_a1 := a_rel_nonprd_intr_le & [ STEM < "implementador" >, SYNSEM.LKEYS.KEYREL.PRED "_implementador_a_rel" ]. implementador_n1 := n_subj-nom_le & [ STEM < "implementador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_implementador_n_rel" ] ]. implementadoramente_x1 := av_i_spr_le & [ STEM < "implementadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_implementadoramente_x_rel" ]. implementar_v := v_trans_np_le & [ STEM < "implementar" >, SYNSEM.LKEYS.KEYREL.PRED "_implementar_v_rel" ]. implemento_n1 := n_intr_count_le & [ STEM < "implemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_implemento_n_rel" ] ]. implicación_n1 := n_trans_le & [ STEM < "implicación" >, SYNSEM.LKEYS.KEYREL.PRED "_implicación_n_rel" ]. implicadura_n1 := n_intr_count_le & [ STEM < "implicadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_implicadura_n_rel" ] ]. implicar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "implicar" >, SYNSEM.LKEYS.KEYREL.PRED "_implicar_v_rel" ]. implicar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "implicar" >, SYNSEM.LKEYS.KEYREL.PRED "_implicar_v_rel" ]. implicar_v3 := v_trans_cp_prop_fin_le & [ STEM < "implicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_implicar_v_rel" ] ]. implicar_v4 := v_trans_np_le & [ STEM < "implicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_implicar_v_rel" ] ]. implicar_v5 := v_trans_np_mrkd_np_le & [ STEM < "implicar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_implicar_v_rel" ] ]. implicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "implicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_implicativo_a_rel" ]. implorar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "implorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_implorar_v_rel" ] ]. implorar_v2 := v_ditrans*_le & [ STEM < "implorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_implorar_v_rel" ] ]. implosionar_v := v_intr_le & [ STEM < "implosionar" >, SYNSEM.LKEYS.KEYREL.PRED "_implosionar_v_rel" ]. implosión_n1 := n_intr_uncount_le & [ STEM < "implosión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_implosión_n_rel" ] ]. implotar_v := v_intr_le & [ STEM < "implotar" >, SYNSEM.LKEYS.KEYREL.PRED "_implotar_v_rel" ]. implícitamente_x1 := av_i_spr_le & [ STEM < "implícitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_implícitamente_x_rel" ]. implícito_a1 := a_qual_intr_scopal_le & [ STEM < "implícito" >, SYNSEM.LKEYS.KEYREL.PRED "_implícito_a_rel" ]. impolarizable_a1 := a_rel_nonprd_intr_le & [ STEM < "impolarizable" >, SYNSEM.LKEYS.KEYREL.PRED "_impolarizable_a_rel" ]. impoluto_a1 := a_adv_event_le & [ STEM < "impoluto" >, SYNSEM.LKEYS.KEYREL.PRED "_impoluto_a_rel" ]. imponderablamente_x1 := av_i_spr_le & [ STEM < "imponderablamente" >, SYNSEM.LKEYS.KEYREL.PRED "_imponderablamente_x_rel" ]. imponderable_a1 := a_rel_prd_le & [ STEM < "imponderable" >, SYNSEM.LKEYS.KEYREL.PRED "_imponderable_a_rel" ]. imponencia_n1 := n_ppcomp_uncount_le & [ STEM < "imponencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imponencia_n_rel" ] ]. imponente_a1 := a_qual_intr_estar_le & [ STEM < "imponente" >, SYNSEM.LKEYS.KEYREL.PRED "_imponente_a_rel" ]. imponentemente_x1 := av_i_spr_le & [ STEM < "imponentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imponentemente_x_rel" ]. imponer_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "imponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_imponer_v_rel" ] ]. imponer_v2 := v_ditrans*_le & [ STEM < "imponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_hum_pro_sem, PRED "_imponer_v_rel" ] ]. imponer_v3 := v_intr_io*_le & [ STEM < "imponer" >, SYNSEM.LKEYS.KEYREL.PRED "_imponer_v_rel" ]. imponer_v4 := v_pron_intr_le & [ STEM < "imponer" >, SYNSEM.LKEYS.KEYREL.PRED "_imponer_v_rel" ]. imponibilidad_n1 := n_intr_uncount_le & [ STEM < "imponibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imponibilidad_n_rel" ] ]. imponible_a1 := a_rel_nonprd_intr_le & [ STEM < "imponible" >, SYNSEM.LKEYS.KEYREL.PRED "_imponible_a_rel" ]. impopular_a1 := a_qual_intr_scopal_le & [ STEM < "impopular" >, SYNSEM.LKEYS.KEYREL.PRED "_impopular_a_rel" ]. impopularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impopularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impopularidad_n_rel" ] ]. importable_a1 := a_rel_prd_le & [ STEM < "importable" >, SYNSEM.LKEYS.KEYREL.PRED "_importable_a_rel" ]. importación_n1 := n_trans_le & [ STEM < "importación" >, SYNSEM.LKEYS.KEYREL.PRED "_importación_n_rel" ]. importador_a1 := a_rel_nonprd_intr_le & [ STEM < "importador" >, SYNSEM.LKEYS.KEYREL.PRED "_importador_a_rel" ]. importador_n1 := n_subj-nom_le & [ STEM < "importador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_importador_n_rel" ] ]. importancia_n1 := n_ppcomp_uncount_le & [ STEM < "importancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_importancia_n_rel" ] ]. importante_a1 := a_qual_intr_scopal_le & [ STEM < "importante" >, SYNSEM.LKEYS.KEYREL.PRED "_importante_a_rel" ]. importar_v1 := v_intr_io*_le & [ STEM < "importar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_importar_v_rel" ] ]. importar_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "importar" >, SYNSEM.LKEYS.KEYREL.PRED "_importar_v_rel" ]. importar_v3 := v_trans_np_le & [ STEM < "importar" >, SYNSEM.LKEYS.KEYREL.PRED "_importar_v_rel" ]. importunamente_x1 := av_i_spr_le & [ STEM < "importunamente" >, SYNSEM.LKEYS.KEYREL.PRED "_importunamente_x_rel" ]. importunar_v1 := v_intr_io*_le & [ STEM < "importunar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_importunar_v_rel" ] ]. importunar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "importunar" >, SYNSEM.LKEYS.KEYREL.PRED "_importunar_v_rel" ]. importunar_v3 := v_trans_np_caus_le & [ STEM < "importunar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_importunar_v_rel" ] ]. importunidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "importunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_importunidad_n_rel" ] ]. importuno_a1 := a_qual_intr_scopal_le & [ STEM < "importuno" >, SYNSEM.LKEYS.KEYREL.PRED "_importuno_a_rel" ]. imposibilidad_n1 := n_intr_count_le & [ STEM < "imposibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imposibilidad_n_rel" ] ]. imposibilitar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imposibilitar_v_rel" ] ]. imposibilitar_v2 := v_ditrans*_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_imposibilitar_v_rel" ] ]. imposibilitar_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_imposibilitar_v_rel" ]. imposibilitar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_imposibilitar_v_rel" ]. imposibilitar_v5 := v_trans_cp_prop_fin_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_imposibilitar_v_rel" ] ]. imposibilitar_v6 := v_trans_np_le & [ STEM < "imposibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_imposibilitar_v_rel" ] ]. imposible_a1 := a_or_le & [ STEM < "imposible" >, SYNSEM.LKEYS.KEYREL.PRED "_imposible_a_rel" ]. imposible_a2 := a_qual_intr_scopal_le & [ STEM < "imposible" >, SYNSEM.LKEYS.KEYREL.PRED "_imposible_a_rel" ]. imposición_n1 := n_trans_le & [ STEM < "imposición" >, SYNSEM.LKEYS.KEYREL.PRED "_imposición_n_rel" ]. impositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "impositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_impositivo_a_rel" ]. impositor_n1 := n_subj-nom_le & [ STEM < "impositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_impositor_n_rel" ] ]. impostor_n1 := n_subj-nom_le & [ STEM < "impostor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_impostor_n_rel" ] ]. impostura_n1 := n_intr_count_le & [ STEM < "impostura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impostura_n_rel" ] ]. impotencia_n1 := n_intr_mass_le & [ STEM < "impotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impotencia_n_rel" ] ]. impotente_a1 := a_qual_intr_ser_le & [ STEM < "impotente" >, SYNSEM.LKEYS.KEYREL.PRED "_impotente_a_rel" ]. impracticable_a1 := a_rel_prd_le & [ STEM < "impracticable" >, SYNSEM.LKEYS.KEYREL.PRED "_impracticable_a_rel" ]. imprecación_n1 := n_trans_le & [ STEM < "imprecación" >, SYNSEM.LKEYS.KEYREL.PRED "_imprecación_n_rel" ]. imprecisión_n1 := n_ppcomp_count_le & [ STEM < "imprecisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imprecisión_n_rel" ] ]. impreciso_a1 := a_qual_intr_scopal_le & [ STEM < "impreciso" >, SYNSEM.LKEYS.KEYREL.PRED "_impreciso_a_rel" ]. impredecibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impredecibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impredecibilidad_n_rel" ] ]. impredecible_a1 := a_qual_intr_scopal_le & [ STEM < "impredecible" >, SYNSEM.LKEYS.KEYREL.PRED "_impredecible_a_rel" ]. impregnabilidad_n1 := n_intr_uncount_le & [ STEM < "impregnabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impregnabilidad_n_rel" ] ]. impregnación_n1 := n_trans_le & [ STEM < "impregnación" >, SYNSEM.LKEYS.KEYREL.PRED "_impregnación_n_rel" ]. impregnar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "impregnar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_impregnar_v_rel" ] ]. impregnar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "impregnar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_impregnar_v_rel" ] ]. impremeditación_n1 := n_intr_mass_le & [ STEM < "impremeditación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impremeditación_n_rel" ] ]. imprescindible_a1 := a_qual_intr_scopal_le & [ STEM < "imprescindible" >, SYNSEM.LKEYS.KEYREL.PRED "_imprescindible_a_rel" ]. imprescriptible_a1 := a_rel_prd_le & [ STEM < "imprescriptible" >, SYNSEM.LKEYS.KEYREL.PRED "_imprescriptible_a_rel" ]. impresentable_a1 := a_qual_intr_scopal_le & [ STEM < "impresentable" >, SYNSEM.LKEYS.KEYREL.PRED "_impresentable_a_rel" ]. impresionabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impresionabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impresionabilidad_n_rel" ] ]. impresionable_a1 := a_qual_intr_ser_le & [ STEM < "impresionable" >, SYNSEM.LKEYS.KEYREL.PRED "_impresionable_a_rel" ]. impresionante_a1 := a_qual_intr_scopal_le & [ STEM < "impresionante" >, SYNSEM.LKEYS.KEYREL.PRED "_impresionante_a_rel" ]. impresionantemente_x1 := av_i_spr_le & [ STEM < "impresionantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impresionantemente_x_rel" ]. impresionar_v1 := v_intr_io*_le & [ STEM < "impresionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_impresionar_v_rel" ] ]. impresionar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "impresionar" >, SYNSEM.LKEYS.KEYREL.PRED "_impresionar_v_rel" ]. impresionar_v3 := v_trans_np_caus_le & [ STEM < "impresionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_impresionar_v_rel" ] ]. impresionismo_n1 := n_intr_uncount_le & [ STEM < "impresionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impresionismo_n_rel" ] ]. impresionista_a1 := a_rel_nonprd_intr_le & [ STEM < "impresionista" >, SYNSEM.LKEYS.KEYREL.PRED "_impresionista_a_rel" ]. impresionista_n1 := n_intr_count_le & [ STEM < "impresionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_impresionista_n_rel" ] ]. impresión_n1 := n_trans_le & [ STEM < "impresión" >, SYNSEM.LKEYS.KEYREL.PRED "_impresión_n_rel" ]. impreso_a1 := a_rel_nonprd_intr_le & [ STEM < "impreso" >, SYNSEM.LKEYS.KEYREL.PRED "_impreso_a_rel" ]. impreso_a2 := a_qual_trans*_estar_le & [ STEM < "impreso" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_impreso_a_rel" ] ]. impreso_n1 := n_intr_count_le & [ STEM < "impreso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_impreso_n_rel" ] ]. impresor_a1 := a_rel_nonprd_intr_le & [ STEM < "impresor" >, SYNSEM.LKEYS.KEYREL.PRED "_impresor_a_rel" ]. impresor_n1 := n_subj-nom_le & [ STEM < "impresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_impresor_n_rel" ] ]. impresora_n1 := n_intr_count_le & [ STEM < "impresora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_pot, PRED "_impresora_n_rel" ] ]. imprevisible_a1 := a_qual_intr_scopal_le & [ STEM < "imprevisible" >, SYNSEM.LKEYS.KEYREL.PRED "_imprevisible_a_rel" ]. imprevisiblemente_x1 := av_i_spr_le & [ STEM < "imprevisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imprevisiblemente_x_rel" ]. imprevisión_n1 := n_intr_count_le & [ STEM < "imprevisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imprevisión_n_rel" ] ]. imprevisto_a1 := a_qual_intr_scopal_le & [ STEM < "imprevisto" >, SYNSEM.LKEYS.KEYREL.PRED "_imprevisto_a_rel" ]. imprimación_n1 := n_trans_le & [ STEM < "imprimación" >, SYNSEM.LKEYS.KEYREL.PRED "_imprimación_n_rel" ]. imprimible_a1 := a_rel_prd_le & [ STEM < "imprimible" >, SYNSEM.LKEYS.KEYREL.PRED "_imprimible_a_rel" ]. imprimir_v := v_trans_np_le & [ STEM < "imprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_imprimir_v_rel" ]. improbabilidad_n1 := n_intr_mass-or-count_le & [ STEM < "improbabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_improbabilidad_n_rel" ] ]. improbable_a1 := a_qual_intr_scopal_le & [ STEM < "improbable" >, SYNSEM.LKEYS.KEYREL.PRED "_improbable_a_rel" ]. improbablemente_x1 := av_i_spr_le & [ STEM < "improbablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_improbablemente_x_rel" ]. improcedencia_n1 := n_intr_uncount_le & [ STEM < "improcedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_improcedencia_n_rel" ] ]. improcedente_a1 := a_rel_prd_le & [ STEM < "improcedente" >, SYNSEM.LKEYS.KEYREL.PRED "_improcedente_a_rel" ]. improductivamente_x1 := av_i_spr_le & [ STEM < "improductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_improductivamente_x_rel" ]. improductivo_a1 := a_rel_prd_le & [ STEM < "improductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_improductivo_a_rel" ]. impronunciable_a1 := a_rel_prd_le & [ STEM < "impronunciable" >, SYNSEM.LKEYS.KEYREL.PRED "_impronunciable_a_rel" ]. impropiamente_x1 := av_i_spr_le & [ STEM < "impropiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impropiamente_x_rel" ]. impropiedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impropiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impropiedad_n_rel" ] ]. impropio_a1 := a_qual_trans*_ser_le & [ STEM < "impropio" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_impropio_a_rel" ] ]. improrrogable_a1 := a_rel_prd_le & [ STEM < "improrrogable" >, SYNSEM.LKEYS.KEYREL.PRED "_improrrogable_a_rel" ]. improvisación_n1 := n_trans_le & [ STEM < "improvisación" >, SYNSEM.LKEYS.KEYREL.PRED "_improvisación_n_rel" ]. improvisar_v1 := v_trans_cp_prop_fin_le & [ STEM < "improvisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_improvisar_v_rel" ] ]. improvisar_v2 := v_trans_np*_le & [ STEM < "improvisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_improvisar_v_rel" ] ]. improvisatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "improvisatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_improvisatorio_a_rel" ]. improvisto_a1 := a_qual_intr_scopal_le & [ STEM < "improvisto" >, SYNSEM.LKEYS.KEYREL.PRED "_improvisto_a_rel" ]. imprudencia_n1 := n_intr_mass-or-count_le & [ STEM < "imprudencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imprudencia_n_rel" ] ]. imprudente_a1 := a_qual_intr_ser_le & [ STEM < "imprudente" >, SYNSEM.LKEYS.KEYREL.PRED "_imprudente_a_rel" ]. imprudentemente_x1 := av_s_spr_le & [ STEM < "imprudentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imprudentemente_x_rel" ]. imprudentemente_x2 := av_i_psthd_spr_le & [ STEM < "imprudentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_imprudentemente_x_rel" ]. impsonita_n1 := n_intr_count_le & [ STEM < "impsonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_impsonita_n_rel" ] ]. impublicable_a1 := a_rel_prd_le & [ STEM < "impublicable" >, SYNSEM.LKEYS.KEYREL.PRED "_impublicable_a_rel" ]. impudicia_n1 := n_intr_uncount_le & [ STEM < "impudicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impudicia_n_rel" ] ]. impugnabilidad_n1 := n_intr_uncount_le & [ STEM < "impugnabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impugnabilidad_n_rel" ] ]. impugnable_a1 := a_rel_prd_le & [ STEM < "impugnable" >, SYNSEM.LKEYS.KEYREL.PRED "_impugnable_a_rel" ]. impugnablemente_x1 := av_i_spr_le & [ STEM < "impugnablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impugnablemente_x_rel" ]. impugnación_n1 := n_trans_le & [ STEM < "impugnación" >, SYNSEM.LKEYS.KEYREL.PRED "_impugnación_n_rel" ]. impugnar_v := v_trans_np_le & [ STEM < "impugnar" >, SYNSEM.LKEYS.KEYREL.PRED "_impugnar_v_rel" ]. impugnatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "impugnatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_impugnatorio_a_rel" ]. impulsar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "impulsar" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsar_v_rel" ]. impulsar_v2 := v_trans_np_le & [ STEM < "impulsar" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsar_v_rel" ]. impulsar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "impulsar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impulsar_v_rel" ] ] ]. impulsar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "impulsar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impulsar_v_rel" ] ] ]. impulsar_v5 := v_trans_np*_mrkd_np_le & [ STEM < "impulsar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_impulsar_v_rel" ] ] ]. impulsivamente_x1 := av_i_spr_le & [ STEM < "impulsivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsivamente_x_rel" ]. impulsividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "impulsividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impulsividad_n_rel" ] ]. impulsivo_a1 := a_qual_intr_ser_le & [ STEM < "impulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsivo_a_rel" ]. impulsión_n1 := n_trans_le & [ STEM < "impulsión" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsión_n_rel" ]. impulsor_a1 := a_rel_nonprd_intr_le & [ STEM < "impulsor" >, SYNSEM.LKEYS.KEYREL.PRED "_impulsor_a_rel" ]. impulsor_n1 := n_intr_count_le & [ STEM < "impulsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_impulsor_n_rel" ] ]. impune_a1 := a_qual_intr_ser_le & [ STEM < "impune" >, SYNSEM.LKEYS.KEYREL.PRED "_impune_a_rel" ]. impunemente_x1 := av_i_spr_le & [ STEM < "impunemente" >, SYNSEM.LKEYS.KEYREL.PRED "_impunemente_x_rel" ]. impunibilidad_n1 := n_intr_uncount_le & [ STEM < "impunibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impunibilidad_n_rel" ] ]. impunidad_n1 := n_intr_mass-or-count_le & [ STEM < "impunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impunidad_n_rel" ] ]. impuntual_a1 := a_qual_intr_ser_le & [ STEM < "impuntual" >, SYNSEM.LKEYS.KEYREL.PRED "_impuntual_a_rel" ]. impuntualidad_n1 := n_intr_mass_le & [ STEM < "impuntualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impuntualidad_n_rel" ] ]. impuntualmente_x1 := av_i_spr_le & [ STEM < "impuntualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_impuntualmente_x_rel" ]. impuramente_x1 := av_i_spr_le & [ STEM < "impuramente" >, SYNSEM.LKEYS.KEYREL.PRED "_impuramente_x_rel" ]. impureza_n1 := n_intr_count_le & [ STEM < "impureza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_impureza_n_rel" ] ]. impuro_a1 := a_qual_intr_scopal_le & [ STEM < "impuro" >, SYNSEM.LKEYS.KEYREL.PRED "_impuro_a_rel" ]. imputabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "imputabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imputabilidad_n_rel" ] ]. imputable_a1 := a_qual_trans*_ser_le & [ STEM < "imputable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_imputable_a_rel" ] ]. imputación_n1 := n_trans_le & [ STEM < "imputación" >, SYNSEM.LKEYS.KEYREL.PRED "_imputación_n_rel" ]. imputar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "imputar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_imputar_v_rel" ] ]. imputar_v2 := v_ditrans*_le & [ STEM < "imputar" >, SYNSEM.LKEYS.KEYREL.PRED "_imputar_v_rel" ]. imputar_v3 := v_trans_np_mrkd_cp_prop_fin_le & [ STEM < "imputar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_imputar_v_rel" ] ] ]. imputar_v4 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "imputar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_imputar_v_rel" ] ] ]. imputar_v5 := v_trans_np_mrkd_np_le & [ STEM < "imputar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_imputar_v_rel" ] ] ]. impávidamente_x1 := av_i_spr_le & [ STEM < "impávidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impávidamente_x_rel" ]. impávido_a1 := a_qual_intr_ser_le & [ STEM < "impávido" >, SYNSEM.LKEYS.KEYREL.PRED "_impávido_a_rel" ]. impíamente_x1 := av_i_spr_le & [ STEM < "impíamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impíamente_x_rel" ]. impío_a1 := a_qual_intr_ser_le & [ STEM < "impío" >, SYNSEM.LKEYS.KEYREL.PRED "_impío_a_rel" ]. impúber_n1 := n_intr_count_le & [ STEM < "impúber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_impúber_n_rel" ] ]. impúdicamente_x1 := av_i_spr_le & [ STEM < "impúdicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_impúdicamente_x_rel" ]. impúdico_a1 := a_qual_intr_ser_le & [ STEM < "impúdico" >, SYNSEM.LKEYS.KEYREL.PRED "_impúdico_a_rel" ]. imán_n1 := n_intr_count_le & [ STEM < "imán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_imán_n_rel" ] ]. in_aeternum_x1 := av_i_le & [ STEM < "in_aeternum" >, SYNSEM.LKEYS.KEYREL.PRED "_in_aeternum_x_rel" ]. in_albis_x1 := av_i_le & [ STEM < "in_albis" >, SYNSEM.LKEYS.KEYREL.PRED "_in_albis_x_rel" ]. in_artículo_mortis_x1 := av_i_le & [ STEM < "in_artículo_mortis" >, SYNSEM.LKEYS.KEYREL.PRED "_in_artículo_mortis_x_rel" ]. in_crescendo_x1 := av_i_le & [ STEM < "in_crescendo" >, SYNSEM.LKEYS.KEYREL.PRED "_in_crescendo_x_rel" ]. in_extenso_x1 := av_i_le & [ STEM < "in_extenso" >, SYNSEM.LKEYS.KEYREL.PRED "_in_extenso_x_rel" ]. in_extremis_x1 := av_i_le & [ STEM < "in_extremis" >, SYNSEM.LKEYS.KEYREL.PRED "_in_extremis_x_rel" ]. in_fieri_x1 := av_i_le & [ STEM < "in_fieri" >, SYNSEM.LKEYS.KEYREL.PRED "_in_fieri_x_rel" ]. in_fraganti_x1 := av_i_le & [ STEM < "in_fraganti" >, SYNSEM.LKEYS.KEYREL.PRED "_in_fraganti_x_rel" ]. in_illo_tempore_x1 := av_i_le & [ STEM < "in_illo_tempore" >, SYNSEM.LKEYS.KEYREL.PRED "_in_illo_tempore_x_rel" ]. in_illo_témpore_x1 := av_i_le & [ STEM < "in_illo_témpore" >, SYNSEM.LKEYS.KEYREL.PRED "_in_illo_témpore_x_rel" ]. in_memóriam_x1 := av_i_le & [ STEM < "in_memóriam" >, SYNSEM.LKEYS.KEYREL.PRED "_in_memóriam_x_rel" ]. in_pectore_x1 := av_i_le & [ STEM < "in_pectore" >, SYNSEM.LKEYS.KEYREL.PRED "_in_pectore_x_rel" ]. in_perpétuum_x1 := av_i_le & [ STEM < "in_perpétuum" >, SYNSEM.LKEYS.KEYREL.PRED "_in_perpétuum_x_rel" ]. in_promptu_x1 := av_i_le & [ STEM < "in_promptu" >, SYNSEM.LKEYS.KEYREL.PRED "_in_promptu_x_rel" ]. in_pártibus_infidélium_x1 := av_i_le & [ STEM < "in_pártibus_infidélium" >, SYNSEM.LKEYS.KEYREL.PRED "_in_pártibus_infidélium_x_rel" ]. in_péctore_x1 := av_i_le & [ STEM < "in_péctore" >, SYNSEM.LKEYS.KEYREL.PRED "_in_péctore_x_rel" ]. in_púribus_x1 := av_i_le & [ STEM < "in_púribus" >, SYNSEM.LKEYS.KEYREL.PRED "_in_púribus_x_rel" ]. in_situ_x1 := av_i_le & [ STEM < "in_situ" >, SYNSEM.LKEYS.KEYREL.PRED "_in_situ_x_rel" ]. in_sólidum_x1 := av_i_le & [ STEM < "in_sólidum" >, SYNSEM.LKEYS.KEYREL.PRED "_in_sólidum_x_rel" ]. in_vitro_x1 := av_i_le & [ STEM < "in_vitro" >, SYNSEM.LKEYS.KEYREL.PRED "_in_vitro_x_rel" ]. in_vivo_x1 := av_i_le & [ STEM < "in_vivo" >, SYNSEM.LKEYS.KEYREL.PRED "_in_vivo_x_rel" ]. in_ánima_vili_x1 := av_i_le & [ STEM < "in_ánima_vili" >, SYNSEM.LKEYS.KEYREL.PRED "_in_ánima_vili_x_rel" ]. inabordable_a1 := a_qual_intr_scopal_le & [ STEM < "inabordable" >, SYNSEM.LKEYS.KEYREL.PRED "_inabordable_a_rel" ]. inacabable_a1 := a_qual_intr_scopal_le & [ STEM < "inacabable" >, SYNSEM.LKEYS.KEYREL.PRED "_inacabable_a_rel" ]. inacabado_a1 := a_qual_intr_estar_le & [ STEM < "inacabado" >, SYNSEM.LKEYS.KEYREL.PRED "_inacabado_a_rel" ]. inaccesibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inaccesibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inaccesibilidad_n_rel" ] ]. inaccesible_a1 := a_qual_trans*_ser_le & [ STEM < "inaccesible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_inaccesible_a_rel" ] ]. inaccesiblemente_x1 := av_i_spr_le & [ STEM < "inaccesiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inaccesiblemente_x_rel" ]. inaceptable_a1 := a_qual_intr_scopal_le & [ STEM < "inaceptable" >, SYNSEM.LKEYS.KEYREL.PRED "_inaceptable_a_rel" ]. inactivamente_x1 := av_i_spr_le & [ STEM < "inactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inactivamente_x_rel" ]. inactivar_v := v_trans_np_caus_le & [ STEM < "inactivar" >, SYNSEM.LKEYS.KEYREL.PRED "_inactivar_v_rel" ]. inactividad_n1 := n_intr_mass_le & [ STEM < "inactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inactividad_n_rel" ] ]. inactivo_a1 := a_qual_intr_scopal_le & [ STEM < "inactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inactivo_a_rel" ]. inadaptado_a1 := a_qual_intr_estar_le & [ STEM < "inadaptado" >, SYNSEM.LKEYS.KEYREL.PRED "_inadaptado_a_rel" ]. inadaptado_n1 := n_intr_count_le & [ STEM < "inadaptado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inadaptado_n_rel" ] ]. inadecuación_n1 := n_result_intr_le & [ STEM < "inadecuación" >, SYNSEM.LKEYS.KEYREL.PRED "_inadecuación_n_rel" ]. inadecuadamente_x1 := av_i_spr_le & [ STEM < "inadecuadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inadecuadamente_x_rel" ]. inadecuado_a1 := a_qual_intr_scopal_le & [ STEM < "inadecuado" >, SYNSEM.LKEYS.KEYREL.PRED "_inadecuado_a_rel" ]. inadmisibilidad_n1 := n_intr_uncount_le & [ STEM < "inadmisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inadmisibilidad_n_rel" ] ]. inadmisible_a1 := a_rel_prd_le & [ STEM < "inadmisible" >, SYNSEM.LKEYS.KEYREL.PRED "_inadmisible_a_rel" ]. inadmisiblemente_x1 := av_i_spr_le & [ STEM < "inadmisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inadmisiblemente_x_rel" ]. inadmitir_v := v_trans_np_le & [ STEM < "inadmitir" >, SYNSEM.LKEYS.KEYREL.PRED "_inadmitir_v_rel" ]. inadvertencia_n1 := n_intr_uncount_pl_le & [ STEM < "inadvertencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inadvertencia_n_rel" ] ]. inadvertidamente_x1 := av_i_spr_le & [ STEM < "inadvertidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inadvertidamente_x_rel" ]. inadvertido_a1 := a_qual_intr_ser_le & [ STEM < "inadvertido" >, SYNSEM.LKEYS.KEYREL.PRED "_inadvertido_a_rel" ]. inagotabilidad_n1 := n_intr_uncount_le & [ STEM < "inagotabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inagotabilidad_n_rel" ] ]. inagotable_a1 := a_rel_prd_le & [ STEM < "inagotable" >, SYNSEM.LKEYS.KEYREL.PRED "_inagotable_a_rel" ]. inaguantable_a1 := a_qual_intr_scopal_le & [ STEM < "inaguantable" >, SYNSEM.LKEYS.KEYREL.PRED "_inaguantable_a_rel" ]. inaguantablemente_x1 := av_i_spr_le & [ STEM < "inaguantablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inaguantablemente_x_rel" ]. inajustable_a1 := a_rel_prd_le & [ STEM < "inajustable" >, SYNSEM.LKEYS.KEYREL.PRED "_inajustable_a_rel" ]. inalcanzabilidad_n1 := n_intr_uncount_le & [ STEM < "inalcanzabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inalcanzabilidad_n_rel" ] ]. inalcanzable_a1 := a_qual_intr_scopal_le & [ STEM < "inalcanzable" >, SYNSEM.LKEYS.KEYREL.PRED "_inalcanzable_a_rel" ]. inalienabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "inalienabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inalienabilidad_n_rel" ] ]. inalienable_a1 := a_rel_prd_le & [ STEM < "inalienable" >, SYNSEM.LKEYS.KEYREL.PRED "_inalienable_a_rel" ]. inalienablemente_x1 := av_i_spr_le & [ STEM < "inalienablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inalienablemente_x_rel" ]. inalterabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "inalterabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inalterabilidad_n_rel" ] ]. inalterable_a1 := a_rel_prd_le & [ STEM < "inalterable" >, SYNSEM.LKEYS.KEYREL.PRED "_inalterable_a_rel" ]. inalterablemente_x1 := av_i_spr_le & [ STEM < "inalterablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inalterablemente_x_rel" ]. inalteradamente_x1 := av_i_spr_le & [ STEM < "inalteradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inalteradamente_x_rel" ]. inalámbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "inalámbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_inalámbrico_a_rel" ]. inambiguo_a1 := a_rel_prd_le & [ STEM < "inambiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_inambiguo_a_rel" ]. inamovible_a1 := a_rel_prd_le & [ STEM < "inamovible" >, SYNSEM.LKEYS.KEYREL.PRED "_inamovible_a_rel" ]. inamoviblemente_x1 := av_i_spr_le & [ STEM < "inamoviblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inamoviblemente_x_rel" ]. inamovilidad_n1 := n_intr_uncount_le & [ STEM < "inamovilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inamovilidad_n_rel" ] ]. inane_a1 := a_qual_intr_scopal_le & [ STEM < "inane" >, SYNSEM.LKEYS.KEYREL.PRED "_inane_a_rel" ]. inanición_n1 := n_intr_uncount_le & [ STEM < "inanición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inanición_n_rel" ] ]. inanimado_a1 := a_rel_prd_le & [ STEM < "inanimado" >, SYNSEM.LKEYS.KEYREL.PRED "_inanimado_a_rel" ]. inapagable_a1 := a_rel_prd_le & [ STEM < "inapagable" >, SYNSEM.LKEYS.KEYREL.PRED "_inapagable_a_rel" ]. inapelable_a1 := a_rel_prd_le & [ STEM < "inapelable" >, SYNSEM.LKEYS.KEYREL.PRED "_inapelable_a_rel" ]. inapetencia_n1 := n_intr_mass_le & [ STEM < "inapetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inapetencia_n_rel" ] ]. inaplazable_a1 := a_rel_prd_le & [ STEM < "inaplazable" >, SYNSEM.LKEYS.KEYREL.PRED "_inaplazable_a_rel" ]. inaplicabilidad_n1 := n_intr_uncount_le & [ STEM < "inaplicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inaplicabilidad_n_rel" ] ]. inaplicable_a1 := a_rel_prd_le & [ STEM < "inaplicable" >, SYNSEM.LKEYS.KEYREL.PRED "_inaplicable_a_rel" ]. inapreciable_a1 := a_rel_prd_le & [ STEM < "inapreciable" >, SYNSEM.LKEYS.KEYREL.PRED "_inapreciable_a_rel" ]. inapropiado_a1 := a_qual_intr_scopal_le & [ STEM < "inapropiado" >, SYNSEM.LKEYS.KEYREL.PRED "_inapropiado_a_rel" ]. inarmónico_a1 := a_rel_prd_le & [ STEM < "inarmónico" >, SYNSEM.LKEYS.KEYREL.PRED "_inarmónico_a_rel" ]. inarrugable_a1 := a_rel_prd_le & [ STEM < "inarrugable" >, SYNSEM.LKEYS.KEYREL.PRED "_inarrugable_a_rel" ]. inarticulado_a1 := a_qual_intr_scopal_le & [ STEM < "inarticulado" >, SYNSEM.LKEYS.KEYREL.PRED "_inarticulado_a_rel" ]. inasegurable_a1 := a_rel_prd_le & [ STEM < "inasegurable" >, SYNSEM.LKEYS.KEYREL.PRED "_inasegurable_a_rel" ]. inasequible_a1 := a_rel_prd_le & [ STEM < "inasequible" >, SYNSEM.LKEYS.KEYREL.PRED "_inasequible_a_rel" ]. inasimilable_a1 := a_rel_prd_le & [ STEM < "inasimilable" >, SYNSEM.LKEYS.KEYREL.PRED "_inasimilable_a_rel" ]. inasistencia_n1 := n_intr_uncount_pl_le & [ STEM < "inasistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inasistencia_n_rel" ] ]. inastillable_a1 := a_rel_prd_le & [ STEM < "inastillable" >, SYNSEM.LKEYS.KEYREL.PRED "_inastillable_a_rel" ]. inasumible_a1 := a_rel_prd_le & [ STEM < "inasumible" >, SYNSEM.LKEYS.KEYREL.PRED "_inasumible_a_rel" ]. inatacable_a1 := a_rel_prd_le & [ STEM < "inatacable" >, SYNSEM.LKEYS.KEYREL.PRED "_inatacable_a_rel" ]. inatacablemente_x1 := av_i_spr_le & [ STEM < "inatacablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inatacablemente_x_rel" ]. inaudible_a1 := a_rel_prd_le & [ STEM < "inaudible" >, SYNSEM.LKEYS.KEYREL.PRED "_inaudible_a_rel" ]. inaudito_a1 := a_qual_intr_scopal_le & [ STEM < "inaudito" >, SYNSEM.LKEYS.KEYREL.PRED "_inaudito_a_rel" ]. inauguración_n1 := n_trans_le & [ STEM < "inauguración" >, SYNSEM.LKEYS.KEYREL.PRED "_inauguración_n_rel" ]. inaugural_a1 := a_rel_nonprd_intr_le & [ STEM < "inaugural" >, SYNSEM.LKEYS.KEYREL.PRED "_inaugural_a_rel" ]. inauguralmente_x1 := av_i_spr_le & [ STEM < "inauguralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inauguralmente_x_rel" ]. inaugurar_v := v_trans_np_le & [ STEM < "inaugurar" >, SYNSEM.LKEYS.KEYREL.PRED "_inaugurar_v_rel" ]. inca_a1 := a_rel_prd_le & [ STEM < "inca" >, SYNSEM.LKEYS.KEYREL.PRED "_inca_a_rel" ]. inca_n1 := n_intr_count_le & [ STEM < "inca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inca_n_rel" ] ]. incalculable_a1 := a_rel_prd_le & [ STEM < "incalculable" >, SYNSEM.LKEYS.KEYREL.PRED "_incalculable_a_rel" ]. incandescencia_n1 := n_intr_uncount_le & [ STEM < "incandescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incandescencia_n_rel" ] ]. incandescendente_a1 := a_qual_intr_estar_le & [ STEM < "incandescendente" >, SYNSEM.LKEYS.KEYREL.PRED "_incandescendente_a_rel" ]. incandescente_a1 := a_qual_intr_scopal_le & [ STEM < "incandescente" >, SYNSEM.LKEYS.KEYREL.PRED "_incandescente_a_rel" ]. incandescentemente_x1 := av_i_spr_le & [ STEM < "incandescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incandescentemente_x_rel" ]. incansable_a1 := a_rel_prd_le & [ STEM < "incansable" >, SYNSEM.LKEYS.KEYREL.PRED "_incansable_a_rel" ]. incansablemente_x1 := av_i_spr_le & [ STEM < "incansablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incansablemente_x_rel" ]. incapacidad_n1 := n_intr_mass-or-count_le & [ STEM < "incapacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incapacidad_n_rel" ] ]. incapacitación_n1 := n_trans_le & [ STEM < "incapacitación" >, SYNSEM.LKEYS.KEYREL.PRED "_incapacitación_n_rel" ]. incapacitado_n1 := n_intr_count_le & [ STEM < "incapacitado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_incapacitado_n_rel" ] ]. incapacitar_v1 := v_trans_np_le & [ STEM < "incapacitar" >, SYNSEM.LKEYS.KEYREL.PRED "_incapacitar_v_rel" ]. incapacitar_v2 := v_trans_np_mrkd_np_le & [ STEM < "incapacitar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_incapacitar_v_rel" ] ]. incapaz_a1 := a_sctrl_ser_le & [ STEM < "incapaz" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_incapaz_a_rel" ] ]. incardinar_v := v_trans_np_le & [ STEM < "incardinar" >, SYNSEM.LKEYS.KEYREL.PRED "_incardinar_v_rel" ]. incautación_n1 := n_trans_le & [ STEM < "incautación" >, SYNSEM.LKEYS.KEYREL.PRED "_incautación_n_rel" ]. incendiar_v := v_trans_np_caus_le & [ STEM < "incendiar" >, SYNSEM.LKEYS.KEYREL.PRED "_incendiar_v_rel" ]. incendiario_a1 := a_rel_nonprd_intr_le & [ STEM < "incendiario" >, SYNSEM.LKEYS.KEYREL.PRED "_incendiario_a_rel" ]. incendiarismo_n1 := n_intr_uncount_le & [ STEM < "incendiarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incendiarismo_n_rel" ] ]. incendio_n1 := n_intr_count_le & [ STEM < "incendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incendio_n_rel" ] ]. incensario_n1 := n_intr_count_le & [ STEM < "incensario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_incensario_n_rel" ] ]. incentivación_n1 := n_trans_le & [ STEM < "incentivación" >, SYNSEM.LKEYS.KEYREL.PRED "_incentivación_n_rel" ]. incentivar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "incentivar" >, SYNSEM.LKEYS.KEYREL.PRED "_incentivar_v_rel" ]. incentivar_v2 := v_trans_np_le & [ STEM < "incentivar" >, SYNSEM.LKEYS.KEYREL.PRED "_incentivar_v_rel" ]. incerteza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "incerteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incerteza_n_rel" ] ]. incesable_a1 := a_rel_nonprd_intr_le & [ STEM < "incesable" >, SYNSEM.LKEYS.KEYREL.PRED "_incesable_a_rel" ]. incesante_a1 := a_rel_nonprd_intr_le & [ STEM < "incesante" >, SYNSEM.LKEYS.KEYREL.PRED "_incesante_a_rel" ]. incesantemente_x1 := av_i_spr_le & [ STEM < "incesantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incesantemente_x_rel" ]. incestuosamente_x1 := av_i_spr_le & [ STEM < "incestuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_incestuosamente_x_rel" ]. incestuoso_a1 := a_rel_nonprd_intr_le & [ STEM < "incestuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_incestuoso_a_rel" ]. inciclotropía_n1 := n_intr_uncount_le & [ STEM < "inciclotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inciclotropía_n_rel" ] ]. incidencia_n1 := n_intr_uncount_le & [ STEM < "incidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incidencia_n_rel" ] ]. incidental_a1 := a_rel_nonprd_intr_le & [ STEM < "incidental" >, SYNSEM.LKEYS.KEYREL.PRED "_incidental_a_rel" ]. incidentalmente_x1 := av_s_spr_le & [ STEM < "incidentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_incidentalmente_x_rel" ]. incidente_a1 := a_rel_nonprd_intr_le & [ STEM < "incidente" >, SYNSEM.LKEYS.KEYREL.PRED "_incidente_a_rel" ]. incidir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "incidir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_incidir_v_rel" ] ] ]. incidir_v2 := v_intr_mrkd_np_le & [ STEM < "incidir" >, SYNSEM.LKEYS [ --COMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_incidir_v_rel" ] ]. incidir_v3 := v_unacc_lcomp_loc*_le & [ STEM < "incidir" >, SYNSEM.LKEYS.KEYREL.PRED "_incidir_v_rel" ]. incienso_n1 := n_intr_mass_le & [ STEM < "incienso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_incienso_n_rel" ] ]. incierto_a1 := a_qual_intr_scopal_le & [ STEM < "incierto" >, SYNSEM.LKEYS.KEYREL.PRED "_incierto_a_rel" ]. incineración_n1 := n_trans_le & [ STEM < "incineración" >, SYNSEM.LKEYS.KEYREL.PRED "_incineración_n_rel" ]. incinerador_a1 := a_rel_nonprd_intr_le & [ STEM < "incinerador" >, SYNSEM.LKEYS.KEYREL.PRED "_incinerador_a_rel" ]. incineradora_n1 := n_intr_count_le & [ STEM < "incineradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_incineradora_n_rel" ] ]. incinerar_v := v_trans_np_le & [ STEM < "incinerar" >, SYNSEM.LKEYS.KEYREL.PRED "_incinerar_v_rel" ]. incipiente_a1 := a_qual_intr_scopal_le & [ STEM < "incipiente" >, SYNSEM.LKEYS.KEYREL.PRED "_incipiente_a_rel" ]. incipientemente_x1 := av_i_spr_le & [ STEM < "incipientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incipientemente_x_rel" ]. incircunciso_a1 := a_qual_intr_estar_le & [ STEM < "incircunciso" >, SYNSEM.LKEYS.KEYREL.PRED "_incircunciso_a_rel" ]. incisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "incisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_incisivo_a_rel" ]. incisivo_n1 := n_ppcomp_count_le & [ STEM < "incisivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_incisivo_n_rel" ] ]. incisión_n1 := n_intr_count_le & [ STEM < "incisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incisión_n_rel" ] ]. inciso_a1 := a_rel_nonprd_intr_le & [ STEM < "inciso" >, SYNSEM.LKEYS.KEYREL.PRED "_inciso_a_rel" ]. incisura_n1 := n_intr_count_le & [ STEM < "incisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incisura_n_rel" ] ]. incitación_n1 := n_trans_le & [ STEM < "incitación" >, SYNSEM.LKEYS.KEYREL.PRED "_incitación_n_rel" ]. incitante_a1 := a_qual_intr_scopal_le & [ STEM < "incitante" >, SYNSEM.LKEYS.KEYREL.PRED "_incitante_a_rel" ]. incitar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "incitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_incitar_v_rel" ] ] ]. incitar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "incitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_incitar_v_rel" ] ] ]. incitar_v3 := v_trans_np*_mrkd_np*_le & [ STEM < "incitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_incitar_v_rel" ] ] ]. inclasificable_a1 := a_rel_prd_le & [ STEM < "inclasificable" >, SYNSEM.LKEYS.KEYREL.PRED "_inclasificable_a_rel" ]. inclemencia_n1 := n_intr_uncount_le & [ STEM < "inclemencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inclemencia_n_rel" ] ]. inclemente_a1 := a_qual_intr_scopal_le & [ STEM < "inclemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inclemente_a_rel" ]. inclinable_a1 := a_rel_nonprd_intr_le & [ STEM < "inclinable" >, SYNSEM.LKEYS.KEYREL.PRED "_inclinable_a_rel" ]. inclinación_n1 := n_trans_le & [ STEM < "inclinación" >, SYNSEM.LKEYS.KEYREL.PRED "_inclinación_n_rel" ]. inclinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "inclinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inclinar_v_rel" ] ] ]. inclinar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "inclinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inclinar_v_rel" ] ] ]. inclinar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "inclinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inclinar_v_rel" ] ] ]. inclinar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "inclinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inclinar_v_rel" ] ] ]. inclinómetro_n1 := n_intr_count_le & [ STEM < "inclinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inclinómetro_n_rel" ] ]. incluir_v1 := v_trans_cp_prop_fin_le & [ STEM < "incluir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_incluir_v_rel" ] ]. incluir_v2 := v_trans_np_lcomp_loc_le & [ STEM < "incluir" >, SYNSEM.LKEYS.KEYREL.PRED "_incluir_v_rel" ]. incluir_v3 := v_trans_np_le & [ STEM < "incluir" >, SYNSEM.LKEYS.KEYREL.PRED "_incluir_v_rel" ]. inclusivamente_x1 := av_i_spr_le & [ STEM < "inclusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusivamente_x_rel" ]. inclusive_x1 := av_i_foc_le & [ STEM < "inclusive" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusive_x_rel" ]. inclusive_x2 := av_s_cp_prop_le & [ STEM < "inclusive" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusive_x_rel" ]. inclusive_x3 := av_i_np-foc_le & [ STEM < "inclusive" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusive_x_rel" ]. inclusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "inclusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusivo_a_rel" ]. inclusión_n1 := n_trans_le & [ STEM < "inclusión" >, SYNSEM.LKEYS.KEYREL.PRED "_inclusión_n_rel" ]. incluso_sc := sc_prop_fin_le & [ STEM < "incluso" >, SYNSEM.LKEYS.KEYREL.PRED "_incluso_x_subord_rel" ]. incluso_x1 := av_i_foc_le & [ STEM < "incluso" >, SYNSEM.LKEYS.KEYREL.PRED "_incluso_x_rel" ]. incluso_x2 := av_s_cp_prop_le & [ STEM < "incluso" >, SYNSEM.LKEYS.KEYREL.PRED "_incluso_x_rel" ]. incluso_x3 := av_i_np-foc_le & [ STEM < "incluso" >, SYNSEM.LKEYS.KEYREL.PRED "_incluso_x_rel" ]. incoación_n1 := n_trans_le & [ STEM < "incoación" >, SYNSEM.LKEYS.KEYREL.PRED "_incoación_n_rel" ]. incoativo_a1 := a_rel_nonprd_intr_le & [ STEM < "incoativo" >, SYNSEM.LKEYS.KEYREL.PRED "_incoativo_a_rel" ]. incobrable_a1 := a_rel_prd_le & [ STEM < "incobrable" >, SYNSEM.LKEYS.KEYREL.PRED "_incobrable_a_rel" ]. incognoscible_a1 := a_rel_nonprd_intr_le & [ STEM < "incognoscible" >, SYNSEM.LKEYS.KEYREL.PRED "_incognoscible_a_rel" ]. incoherencia_n1 := n_intr_mass-or-count_le & [ STEM < "incoherencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incoherencia_n_rel" ] ]. incoherente_a1 := a_qual_intr_scopal_le & [ STEM < "incoherente" >, SYNSEM.LKEYS.KEYREL.PRED "_incoherente_a_rel" ]. incoherentemente_x1 := av_i_spr_le & [ STEM < "incoherentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incoherentemente_x_rel" ]. incolocable_a1 := a_rel_prd_le & [ STEM < "incolocable" >, SYNSEM.LKEYS.KEYREL.PRED "_incolocable_a_rel" ]. incoloro_a1 := a_qual_intr_scopal_le & [ STEM < "incoloro" >, SYNSEM.LKEYS.KEYREL.PRED "_incoloro_a_rel" ]. incombustibilidad_n1 := n_intr_uncount_le & [ STEM < "incombustibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incombustibilidad_n_rel" ] ]. incombustible_a1 := a_rel_nonprd_intr_le & [ STEM < "incombustible" >, SYNSEM.LKEYS.KEYREL.PRED "_incombustible_a_rel" ]. incomestible_a1 := a_qual_intr_scopal_le & [ STEM < "incomestible" >, SYNSEM.LKEYS.KEYREL.PRED "_incomestible_a_rel" ]. incomible_a1 := a_qual_intr_scopal_le & [ STEM < "incomible" >, SYNSEM.LKEYS.KEYREL.PRED "_incomible_a_rel" ]. incomodar_v1 := v_intr_io*_le & [ STEM < "incomodar" >, SYNSEM.LKEYS.KEYREL.PRED "_incomodar_v_rel" ]. incomodar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "incomodar" >, SYNSEM.LKEYS.KEYREL.PRED "_incomodar_v_rel" ]. incomodidad_n1 := n_intr_mass-or-count_le & [ STEM < "incomodidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incomodidad_n_rel" ] ]. incomparable_a1 := a_rel_prd_le & [ STEM < "incomparable" >, SYNSEM.LKEYS.KEYREL.PRED "_incomparable_a_rel" ]. incomparablemente_x1 := av_i_spr_le & [ STEM < "incomparablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incomparablemente_x_rel" ]. incomparecencia_n1 := n_intr_uncount_pl_le & [ STEM < "incomparecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incomparecencia_n_rel" ] ]. incompasivo_a1 := a_qual_intr_scopal_le & [ STEM < "incompasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_incompasivo_a_rel" ]. incompatibilidad_n1 := n_intr_mass-or-count_le & [ STEM < "incompatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incompatibilidad_n_rel" ] ]. incompatible_a1 := a_qual_trans*_ser_le & [ STEM < "incompatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_incompatible_a_rel" ] ]. incompatible_a2 := a_sctrl_ser_le & [ STEM < "incompatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_incompatible_a_rel" ] ]. incompatible_a3 := a_qual_cp_prop_fin_ser_le & [ STEM < "incompatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_incompatible_a_rel" ] ]. incompatible_a4 := a_qual_cp_ques_ser_le & [ STEM < "incompatible" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_incompatible_a_rel" ] ]. incompetencia_n1 := n_intr_uncount_le & [ STEM < "incompetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incompetencia_n_rel" ] ]. incompetente_a1 := a_qual_intr_ser_le & [ STEM < "incompetente" >, SYNSEM.LKEYS.KEYREL.PRED "_incompetente_a_rel" ]. incompleto_a1 := a_qual_intr_scopal_le & [ STEM < "incompleto" >, SYNSEM.LKEYS.KEYREL.PRED "_incompleto_a_rel" ]. incomprendido_a1 := a_qual_intr_ser_le & [ STEM < "incomprendido" >, SYNSEM.LKEYS.KEYREL.PRED "_incomprendido_a_rel" ]. incomprensible_a1 := a_qual_intr_ser_le & [ STEM < "incomprensible" >, SYNSEM.LKEYS.KEYREL.PRED "_incomprensible_a_rel" ]. incomprensiblemente_x1 := av_i_spr_le & [ STEM < "incomprensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incomprensiblemente_x_rel" ]. incomprensión_n1 := n_intr_mass_le & [ STEM < "incomprensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incomprensión_n_rel" ] ]. incompresible_a1 := a_rel_prd_le & [ STEM < "incompresible" >, SYNSEM.LKEYS.KEYREL.PRED "_incompresible_a_rel" ]. incomprimible_a1 := a_rel_prd_le & [ STEM < "incomprimible" >, SYNSEM.LKEYS.KEYREL.PRED "_incomprimible_a_rel" ]. incomprobable_a1 := a_rel_prd_le & [ STEM < "incomprobable" >, SYNSEM.LKEYS.KEYREL.PRED "_incomprobable_a_rel" ]. incomunicabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "incomunicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incomunicabilidad_n_rel" ] ]. incomunicable_a1 := a_rel_prd_le & [ STEM < "incomunicable" >, SYNSEM.LKEYS.KEYREL.PRED "_incomunicable_a_rel" ]. incomunicación_n1 := n_intr_mass_le & [ STEM < "incomunicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incomunicación_n_rel" ] ]. incomunicar_v := v_trans_np_le & [ STEM < "incomunicar" >, SYNSEM.LKEYS.KEYREL.PRED "_incomunicar_v_rel" ]. inconcebible_a1 := a_qual_intr_scopal_le & [ STEM < "inconcebible" >, SYNSEM.LKEYS.KEYREL.PRED "_inconcebible_a_rel" ]. inconcebiblemente_x1 := av_i_spr_le & [ STEM < "inconcebiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconcebiblemente_x_rel" ]. inconciliable_a1 := a_qual_intr_scopal_le & [ STEM < "inconciliable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconciliable_a_rel" ]. inconcluso_a1 := a_qual_intr_scopal_le & [ STEM < "inconcluso" >, SYNSEM.LKEYS.KEYREL.PRED "_inconcluso_a_rel" ]. inconcomitante_a1 := a_rel_prd_le & [ STEM < "inconcomitante" >, SYNSEM.LKEYS.KEYREL.PRED "_inconcomitante_a_rel" ]. inconcuso_a1 := a_rel_nonprd_intr_le & [ STEM < "inconcuso" >, SYNSEM.LKEYS.KEYREL.PRED "_inconcuso_a_rel" ]. incondensable_a1 := a_rel_nonprd_intr_le & [ STEM < "incondensable" >, SYNSEM.LKEYS.KEYREL.PRED "_incondensable_a_rel" ]. incondicionado_a1 := a_rel_nonprd_intr_le & [ STEM < "incondicionado" >, SYNSEM.LKEYS.KEYREL.PRED "_incondicionado_a_rel" ]. incondicional_a1 := a_qual_intr_scopal_le & [ STEM < "incondicional" >, SYNSEM.LKEYS.KEYREL.PRED "_incondicional_a_rel" ]. incondicionalmente_x1 := av_i_spr_le & [ STEM < "incondicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_incondicionalmente_x_rel" ]. inconexo_a1 := a_rel_nonprd_intr_le & [ STEM < "inconexo" >, SYNSEM.LKEYS.KEYREL.PRED "_inconexo_a_rel" ]. inconfesable_a1 := a_rel_prd_le & [ STEM < "inconfesable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconfesable_a_rel" ]. inconfeso_a1 := a_qual_intr_ser_le & [ STEM < "inconfeso" >, SYNSEM.LKEYS.KEYREL.PRED "_inconfeso_a_rel" ]. inconformidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inconformidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconformidad_n_rel" ] ]. inconformismo_n1 := n_intr_uncount_le & [ STEM < "inconformismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconformismo_n_rel" ] ]. inconformista_a1 := a_qual_intr_ser_le & [ STEM < "inconformista" >, SYNSEM.LKEYS.KEYREL.PRED "_inconformista_a_rel" ]. inconformista_n1 := n_intr_count_le & [ STEM < "inconformista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inconformista_n_rel" ] ]. inconfundible_a1 := a_qual_intr_scopal_le & [ STEM < "inconfundible" >, SYNSEM.LKEYS.KEYREL.PRED "_inconfundible_a_rel" ]. incongelable_a1 := a_rel_prd_le & [ STEM < "incongelable" >, SYNSEM.LKEYS.KEYREL.PRED "_incongelable_a_rel" ]. incongruencia_n1 := n_intr_uncount_pl_le & [ STEM < "incongruencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incongruencia_n_rel" ] ]. incongruente_a1 := a_qual_intr_scopal_le & [ STEM < "incongruente" >, SYNSEM.LKEYS.KEYREL.PRED "_incongruente_a_rel" ]. incongruentemente_x1 := av_i_spr_le & [ STEM < "incongruentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incongruentemente_x_rel" ]. inconmensurable_a1 := a_rel_prd_le & [ STEM < "inconmensurable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconmensurable_a_rel" ]. inconmovible_a1 := a_qual_intr_ser_le & [ STEM < "inconmovible" >, SYNSEM.LKEYS.KEYREL.PRED "_inconmovible_a_rel" ]. inconmutable_a1 := a_rel_prd_le & [ STEM < "inconmutable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconmutable_a_rel" ]. inconquistable_a1 := a_rel_prd_le & [ STEM < "inconquistable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconquistable_a_rel" ]. inconsciencia_n1 := n_intr_uncount_pl_le & [ STEM < "inconsciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconsciencia_n_rel" ] ]. inconsciente_a1 := a_qual_intr_ser_le & [ STEM < "inconsciente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsciente_a_rel" ]. inconscientemente_x1 := av_i_spr_le & [ STEM < "inconscientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconscientemente_x_rel" ]. inconsecuencia_n1 := n_intr_uncount_pl_le & [ STEM < "inconsecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconsecuencia_n_rel" ] ]. inconsecuente_a1 := a_rel_prd_le & [ STEM < "inconsecuente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsecuente_a_rel" ]. inconsideración_n1 := n_intr_mass_le & [ STEM < "inconsideración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconsideración_n_rel" ] ]. inconsideradamente_x1 := av_i_spr_le & [ STEM < "inconsideradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsideradamente_x_rel" ]. inconsiderado_a1 := a_qual_intr_ser_le & [ STEM < "inconsiderado" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsiderado_a_rel" ]. inconsistencia_n1 := n_intr_mass_le & [ STEM < "inconsistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconsistencia_n_rel" ] ]. inconsistente_a1 := a_qual_intr_scopal_le & [ STEM < "inconsistente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsistente_a_rel" ]. inconsistentemente_x1 := av_i_spr_le & [ STEM < "inconsistentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsistentemente_x_rel" ]. inconsolable_a1 := a_rel_prd_le & [ STEM < "inconsolable" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsolable_a_rel" ]. inconsolablemente_x1 := av_i_spr_le & [ STEM < "inconsolablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconsolablemente_x_rel" ]. inconstancia_n1 := n_intr_uncount_le & [ STEM < "inconstancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconstancia_n_rel" ] ]. inconstante_a1 := a_rel_prd_le & [ STEM < "inconstante" >, SYNSEM.LKEYS.KEYREL.PRED "_inconstante_a_rel" ]. inconstantemente_x1 := av_i_spr_le & [ STEM < "inconstantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconstantemente_x_rel" ]. inconstitucional_a1 := a_rel_prd_le & [ STEM < "inconstitucional" >, SYNSEM.LKEYS.KEYREL.PRED "_inconstitucional_a_rel" ]. inconstitucionalidad_n1 := n_intr_uncount_le & [ STEM < "inconstitucionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconstitucionalidad_n_rel" ] ]. incontable_a1 := a_rel_prd_le & [ STEM < "incontable" >, SYNSEM.LKEYS.KEYREL.PRED "_incontable_a_rel" ]. incontaminado_a1 := a_rel_prd_le & [ STEM < "incontaminado" >, SYNSEM.LKEYS.KEYREL.PRED "_incontaminado_a_rel" ]. incontenible_a1 := a_rel_prd_le & [ STEM < "incontenible" >, SYNSEM.LKEYS.KEYREL.PRED "_incontenible_a_rel" ]. incontenido_a1 := a_rel_nonprd_intr_le & [ STEM < "incontenido" >, SYNSEM.LKEYS.KEYREL.PRED "_incontenido_a_rel" ]. incontestabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "incontestabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incontestabilidad_n_rel" ] ]. incontestable_a1 := a_rel_prd_le & [ STEM < "incontestable" >, SYNSEM.LKEYS.KEYREL.PRED "_incontestable_a_rel" ]. incontestado_a1 := a_rel_nonprd_intr_le & [ STEM < "incontestado" >, SYNSEM.LKEYS.KEYREL.PRED "_incontestado_a_rel" ]. incontinencia_n1 := n_intr_uncount_le & [ STEM < "incontinencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incontinencia_n_rel" ] ]. incontinente_a1 := a_qual_intr_ser_le & [ STEM < "incontinente" >, SYNSEM.LKEYS.KEYREL.PRED "_incontinente_a_rel" ]. incontinentemente_x1 := av_i_spr_le & [ STEM < "incontinentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incontinentemente_x_rel" ]. incontrolable_a1 := a_rel_prd_le & [ STEM < "incontrolable" >, SYNSEM.LKEYS.KEYREL.PRED "_incontrolable_a_rel" ]. incontrolablemente_x1 := av_i_spr_le & [ STEM < "incontrolablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incontrolablemente_x_rel" ]. incontrolado_a1 := a_qual_intr_ser_le & [ STEM < "incontrolado" >, SYNSEM.LKEYS.KEYREL.PRED "_incontrolado_a_rel" ]. inconveniente_a1 := a_qual_intr_scopal_le & [ STEM < "inconveniente" >, SYNSEM.LKEYS.KEYREL.PRED "_inconveniente_a_rel" ]. inconvertibilidad_n1 := n_intr_uncount_le & [ STEM < "inconvertibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconvertibilidad_n_rel" ] ]. inconvertible_a1 := a_rel_prd_le & [ STEM < "inconvertible" >, SYNSEM.LKEYS.KEYREL.PRED "_inconvertible_a_rel" ]. incordiar_v1 := v_intr_io*_le & [ STEM < "incordiar" >, SYNSEM.LKEYS.KEYREL.PRED "_incordiar_v_rel" ]. incordiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "incordiar" >, SYNSEM.LKEYS.KEYREL.PRED "_incordiar_v_rel" ]. incorporable_a1 := a_rel_prd_le & [ STEM < "incorporable" >, SYNSEM.LKEYS.KEYREL.PRED "_incorporable_a_rel" ]. incorporación_n1 := n_trans_le & [ STEM < "incorporación" >, SYNSEM.LKEYS.KEYREL.PRED "_incorporación_n_rel" ]. incorporal_a1 := a_rel_nonprd_intr_le & [ STEM < "incorporal" >, SYNSEM.LKEYS.KEYREL.PRED "_incorporal_a_rel" ]. incorpóreo_a1 := a_rel_nonprd_intr_le & [ STEM < "incorpóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_incorpóreo_a_rel" ]. incorrección_n1 := n_intr_mass_le & [ STEM < "incorrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incorrección_n_rel" ] ]. incorrectamente_x1 := av_s_spr_le & [ STEM < "incorrectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_incorrectamente_x_rel" ]. incorrecto_a1 := a_qual_intr_scopal_le & [ STEM < "incorrecto" >, SYNSEM.LKEYS.KEYREL.PRED "_incorrecto_a_rel" ]. incorregible_a1 := a_rel_prd_le & [ STEM < "incorregible" >, SYNSEM.LKEYS.KEYREL.PRED "_incorregible_a_rel" ]. incorruptible_a1 := a_rel_prd_le & [ STEM < "incorruptible" >, SYNSEM.LKEYS.KEYREL.PRED "_incorruptible_a_rel" ]. incorrupto_a1 := a_qual_intr_ser_le & [ STEM < "incorrupto" >, SYNSEM.LKEYS.KEYREL.PRED "_incorrupto_a_rel" ]. incredulidad_n1 := n_intr_mass-or-count_le & [ STEM < "incredulidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incredulidad_n_rel" ] ]. incremental_a1 := a_rel_nonprd_intr_le & [ STEM < "incremental" >, SYNSEM.LKEYS.KEYREL.PRED "_incremental_a_rel" ]. incrementar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "incrementar" >, SYNSEM.LKEYS.KEYREL.PRED "_incrementar_v_rel" ]. incrementar_v2 := v_trans_np_le & [ STEM < "incrementar" >, SYNSEM.LKEYS.KEYREL.PRED "_incrementar_v_rel" ]. incremento_n1 := n_intr_mass_le & [ STEM < "incremento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incremento_n_rel" ] ]. increpación_n1 := n_trans_le & [ STEM < "increpación" >, SYNSEM.LKEYS.KEYREL.PRED "_increpación_n_rel" ]. increpar_v := v_trans_np_le & [ STEM < "increpar" >, SYNSEM.LKEYS.KEYREL.PRED "_increpar_v_rel" ]. increíble_a1 := a_qual_intr_scopal_le & [ STEM < "increíble" >, SYNSEM.LKEYS.KEYREL.PRED "_increíble_a_rel" ]. increíblemente_x1 := av_s_spr_le & [ STEM < "increíblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_increíblemente_x_rel" ]. incriminación_n1 := n_trans_le & [ STEM < "incriminación" >, SYNSEM.LKEYS.KEYREL.PRED "_incriminación_n_rel" ]. incriminador_a1 := a_rel_nonprd_intr_le & [ STEM < "incriminador" >, SYNSEM.LKEYS.KEYREL.PRED "_incriminador_a_rel" ]. incriminar_v := v_trans_np_le & [ STEM < "incriminar" >, SYNSEM.LKEYS.KEYREL.PRED "_incriminar_v_rel" ]. incromar_v := v_trans_np_le & [ STEM < "incromar" >, SYNSEM.LKEYS.KEYREL.PRED "_incromar_v_rel" ]. incruento_a1 := a_rel_nonprd_intr_le & [ STEM < "incruento" >, SYNSEM.LKEYS.KEYREL.PRED "_incruento_a_rel" ]. incrustación_n1 := n_trans_le & [ STEM < "incrustación" >, SYNSEM.LKEYS.KEYREL.PRED "_incrustación_n_rel" ]. incrustante_a1 := a_rel_nonprd_intr_le & [ STEM < "incrustante" >, SYNSEM.LKEYS.KEYREL.PRED "_incrustante_a_rel" ]. incrustar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "incrustar" >, SYNSEM.LKEYS.KEYREL.PRED "_incrustar_v_rel" ]. incrédulamente_x1 := av_i_spr_le & [ STEM < "incrédulamente" >, SYNSEM.LKEYS.KEYREL.PRED "_incrédulamente_x_rel" ]. incrédulo_a1 := a_qual_intr_ser_le & [ STEM < "incrédulo" >, SYNSEM.LKEYS.KEYREL.PRED "_incrédulo_a_rel" ]. incubación_n1 := n_trans_le & [ STEM < "incubación" >, SYNSEM.LKEYS.KEYREL.PRED "_incubación_n_rel" ]. incubadora_n1 := n_intr_count_le & [ STEM < "incubadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_incubadora_n_rel" ] ]. incubar_v := v_trans_np*_le & [ STEM < "incubar" >, SYNSEM.LKEYS.KEYREL.PRED "_incubar_v_rel" ]. incuestionable_a1 := a_rel_prd_le & [ STEM < "incuestionable" >, SYNSEM.LKEYS.KEYREL.PRED "_incuestionable_a_rel" ]. incuestionablemente_x1 := av_s_prhd_le & [ STEM < "incuestionablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_incuestionablemente_x_rel" ]. inculcar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "inculcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_inculcar_v_rel" ] ]. inculcar_v2 := v_ditrans*_le & [ STEM < "inculcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_inculcar_v_rel" ] ]. inculpabilidad_n1 := n_intr_uncount_le & [ STEM < "inculpabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inculpabilidad_n_rel" ] ]. inculpable_a1 := a_rel_nonprd_intr_le & [ STEM < "inculpable" >, SYNSEM.LKEYS.KEYREL.PRED "_inculpable_a_rel" ]. inculpación_n1 := n_trans_le & [ STEM < "inculpación" >, SYNSEM.LKEYS.KEYREL.PRED "_inculpación_n_rel" ]. inculpado_n1 := n_intr_count_le & [ STEM < "inculpado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inculpado_n_rel" ] ]. inculpatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "inculpatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_inculpatorio_a_rel" ]. incultivable_a1 := a_rel_prd_le & [ STEM < "incultivable" >, SYNSEM.LKEYS.KEYREL.PRED "_incultivable_a_rel" ]. inculto_a1 := a_qual_intr_ser_le & [ STEM < "inculto" >, SYNSEM.LKEYS.KEYREL.PRED "_inculto_a_rel" ]. incultura_n1 := n_intr_count_le & [ STEM < "incultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incultura_n_rel" ] ]. incumbencia_n1 := n_intr_uncount_le & [ STEM < "incumbencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incumbencia_n_rel" ] ]. incumbente_a1 := a_qual_intr_scopal_le & [ STEM < "incumbente" >, SYNSEM.LKEYS.KEYREL.PRED "_incumbente_a_rel" ]. incumbir_v1 := v_intr_io*_le & [ STEM < "incumbir" >, SYNSEM.LKEYS.KEYREL.PRED "_incumbir_v_rel" ]. incumbir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "incumbir" >, SYNSEM.LKEYS.KEYREL.PRED "_incumbir_v_rel" ]. incumplimiento_n1 := n_trans_le & [ STEM < "incumplimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_incumplimiento_n_rel" ]. incumplir_v := v_trans_np_le & [ STEM < "incumplir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_incumplir_v_rel" ] ]. incunable_a1 := a_rel_prd_le & [ STEM < "incunable" >, SYNSEM.LKEYS.KEYREL.PRED "_incunable_a_rel" ]. incunable_n1 := n_intr_count_le & [ STEM < "incunable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_incunable_n_rel" ] ]. incurabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "incurabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incurabilidad_n_rel" ] ]. incurable_a1 := a_rel_prd_le & [ STEM < "incurable" >, SYNSEM.LKEYS.KEYREL.PRED "_incurable_a_rel" ]. incurrir_v1 := v_intr_mrkd_np_le & [ STEM < "incurrir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_incurrir_v_rel" ] ]. incursión_n1 := n_result_intr_ppcomp_le & [ STEM < "incursión" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_incursión_n_rel" ] ]. incurso_a1 := a_qual_trans_estar_le & [ STEM < "incurso" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_incurso_a_rel" ] ]. incógnita_n1 := n_cp_ques_count_le & [ STEM < "incógnita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incógnita_n_rel" ] ]. incógnito_a1 := a_rel_nonprd_intr_le & [ STEM < "incógnito" >, SYNSEM.LKEYS.KEYREL.PRED "_incógnito_a_rel" ]. incólume_a1 := a_rel_prd_le & [ STEM < "incólume" >, SYNSEM.LKEYS.KEYREL.PRED "_incólume_a_rel" ]. incómodamente_x1 := av_i_spr_le & [ STEM < "incómodamente" >, SYNSEM.LKEYS.KEYREL.PRED "_incómodamente_x_rel" ]. incómodo_a1 := a_qual_intr_ser_le & [ STEM < "incómodo" >, SYNSEM.LKEYS.KEYREL.PRED "_incómodo_a_rel" ]. indagación_n1 := n_trans_le & [ STEM < "indagación" >, SYNSEM.LKEYS.KEYREL.PRED "_indagación_n_rel" ]. indagar_v1 := v_trans_cp_semi_ques_le & [ STEM < "indagar" >, SYNSEM.LKEYS.KEYREL.PRED "_indagar_v_rel" ]. indagar_v2 := v_trans_np_le & [ STEM < "indagar" >, SYNSEM.LKEYS.KEYREL.PRED "_indagar_v_rel" ]. indamina_n1 := n_intr_count_le & [ STEM < "indamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indamina_n_rel" ] ]. indantreno_n1 := n_intr_count_le & [ STEM < "indantreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indantreno_n_rel" ] ]. indebidamente_x1 := av_i_spr_le & [ STEM < "indebidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indebidamente_x_rel" ]. indebido_a1 := a_qual_intr_scopal_le & [ STEM < "indebido" >, SYNSEM.LKEYS.KEYREL.PRED "_indebido_a_rel" ]. indecencia_n1 := n_intr_uncount_pl_le & [ STEM < "indecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indecencia_n_rel" ] ]. indecente_a1 := a_qual_intr_ser_le & [ STEM < "indecente" >, SYNSEM.LKEYS.KEYREL.PRED "_indecente_a_rel" ]. indecentemente_x1 := av_i_spr_le & [ STEM < "indecentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indecentemente_x_rel" ]. indecible_a1 := a_rel_prd_le & [ STEM < "indecible" >, SYNSEM.LKEYS.KEYREL.PRED "_indecible_a_rel" ]. indecidibilidad_n1 := n_intr_uncount_le & [ STEM < "indecidibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indecidibilidad_n_rel" ] ]. indecidible_a1 := a_rel_prd_le & [ STEM < "indecidible" >, SYNSEM.LKEYS.KEYREL.PRED "_indecidible_a_rel" ]. indecisión_n1 := n_ppcomp_mass_le & [ STEM < "indecisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indecisión_n_rel" ] ]. indeciso_a1 := a_qual_intr_ser_le & [ STEM < "indeciso" >, SYNSEM.LKEYS.KEYREL.PRED "_indeciso_a_rel" ]. indecisorio_a1 := a_rel_nonprd_intr_le & [ STEM < "indecisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_indecisorio_a_rel" ]. indeclinable_a1 := a_rel_prd_le & [ STEM < "indeclinable" >, SYNSEM.LKEYS.KEYREL.PRED "_indeclinable_a_rel" ]. indecorosamente_x1 := av_i_spr_le & [ STEM < "indecorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indecorosamente_x_rel" ]. indecoroso_a1 := a_qual_intr_scopal_le & [ STEM < "indecoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_indecoroso_a_rel" ]. indefectible_a1 := a_rel_prd_le & [ STEM < "indefectible" >, SYNSEM.LKEYS.KEYREL.PRED "_indefectible_a_rel" ]. indefectiblemente_x1 := av_s_spr_le & [ STEM < "indefectiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indefectiblemente_x_rel" ]. indefensible_a1 := a_qual_intr_scopal_le & [ STEM < "indefensible" >, SYNSEM.LKEYS.KEYREL.PRED "_indefensible_a_rel" ]. indefensión_n1 := n_intr_mass_le & [ STEM < "indefensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indefensión_n_rel" ] ]. indefenso_a1 := a_qual_intr_estar_le & [ STEM < "indefenso" >, SYNSEM.LKEYS.KEYREL.PRED "_indefenso_a_rel" ]. indefinible_a1 := a_rel_prd_le & [ STEM < "indefinible" >, SYNSEM.LKEYS.KEYREL.PRED "_indefinible_a_rel" ]. indefinición_n1 := n_intr_uncount_le & [ STEM < "indefinición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indefinición_n_rel" ] ]. indefinidamente_x1 := av_i_spr_le & [ STEM < "indefinidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indefinidamente_x_rel" ]. indefinido_a1 := a_qual_intr_scopal_le & [ STEM < "indefinido" >, SYNSEM.LKEYS.KEYREL.PRED "_indefinido_a_rel" ]. indeleble_a1 := a_rel_nonprd_intr_le & [ STEM < "indeleble" >, SYNSEM.LKEYS.KEYREL.PRED "_indeleble_a_rel" ]. indeleblemente_x1 := av_i_spr_le & [ STEM < "indeleblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indeleblemente_x_rel" ]. indelegable_a1 := a_rel_prd_le & [ STEM < "indelegable" >, SYNSEM.LKEYS.KEYREL.PRED "_indelegable_a_rel" ]. indemne_a1 := a_rel_prd_le & [ STEM < "indemne" >, SYNSEM.LKEYS.KEYREL.PRED "_indemne_a_rel" ]. indemnidad_n1 := n_intr_uncount_le & [ STEM < "indemnidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indemnidad_n_rel" ] ]. indemnizable_a1 := a_rel_prd_le & [ STEM < "indemnizable" >, SYNSEM.LKEYS.KEYREL.PRED "_indemnizable_a_rel" ]. indemnización_n1 := n_trans_le & [ STEM < "indemnización" >, SYNSEM.LKEYS.KEYREL.PRED "_indemnización_n_rel" ]. indemnizar_v := v_trans_np_le & [ STEM < "indemnizar" >, SYNSEM.LKEYS.KEYREL.PRED "_indemnizar_v_rel" ]. indemnizatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "indemnizatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_indemnizatorio_a_rel" ]. indemostrabilidad_n1 := n_intr_uncount_le & [ STEM < "indemostrabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indemostrabilidad_n_rel" ] ]. indemostrable_a1 := a_rel_prd_le & [ STEM < "indemostrable" >, SYNSEM.LKEYS.KEYREL.PRED "_indemostrable_a_rel" ]. indeno_n1 := n_intr_count_le & [ STEM < "indeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indeno_n_rel" ] ]. indentación_n1 := n_trans_le & [ STEM < "indentación" >, SYNSEM.LKEYS.KEYREL.PRED "_indentación_n_rel" ]. indentar_v := v_trans_np_le & [ STEM < "indentar" >, SYNSEM.LKEYS.KEYREL.PRED "_indentar_v_rel" ]. independencia_n1 := n_ppcomp_mass_le & [ STEM < "independencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_independencia_n_rel" ] ]. independentismo_n1 := n_intr_uncount_le & [ STEM < "independentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_independentismo_n_rel" ] ]. independentista_a1 := a_rel_nonprd_intr_le & [ STEM < "independentista" >, SYNSEM.LKEYS.KEYREL.PRED "_independentista_a_rel" ]. independiente_a1 := a_qual_intr_scopal_le & [ STEM < "independiente" >, SYNSEM.LKEYS.KEYREL.PRED "_independiente_a_rel" ]. independientemente_x1 := av_i_spr_le & [ STEM < "independientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_independientemente_x_rel" ]. indescifrable_a1 := a_rel_prd_le & [ STEM < "indescifrable" >, SYNSEM.LKEYS.KEYREL.PRED "_indescifrable_a_rel" ]. indescomponible_a1 := a_rel_prd_le & [ STEM < "indescomponible" >, SYNSEM.LKEYS.KEYREL.PRED "_indescomponible_a_rel" ]. indescriptible_a1 := a_rel_prd_le & [ STEM < "indescriptible" >, SYNSEM.LKEYS.KEYREL.PRED "_indescriptible_a_rel" ]. indeseable_a1 := a_rel_prd_le & [ STEM < "indeseable" >, SYNSEM.LKEYS.KEYREL.PRED "_indeseable_a_rel" ]. indeseablemente_x1 := av_i_spr_le & [ STEM < "indeseablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indeseablemente_x_rel" ]. indeseado_a1 := a_rel_nonprd_intr_le & [ STEM < "indeseado" >, SYNSEM.LKEYS.KEYREL.PRED "_indeseado_a_rel" ]. indesmallable_a1 := a_rel_prd_le & [ STEM < "indesmallable" >, SYNSEM.LKEYS.KEYREL.PRED "_indesmallable_a_rel" ]. indestructible_a1 := a_rel_prd_le & [ STEM < "indestructible" >, SYNSEM.LKEYS.KEYREL.PRED "_indestructible_a_rel" ]. indeterminable_a1 := a_rel_prd_le & [ STEM < "indeterminable" >, SYNSEM.LKEYS.KEYREL.PRED "_indeterminable_a_rel" ]. indeterminación_n1 := n_intr_uncount_le & [ STEM < "indeterminación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indeterminación_n_rel" ] ]. indeterminadamente_x1 := av_i_spr_le & [ STEM < "indeterminadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indeterminadamente_x_rel" ]. indeterminado_a1 := a_rel_prd_le & [ STEM < "indeterminado" >, SYNSEM.LKEYS.KEYREL.PRED "_indeterminado_a_rel" ]. indeterminismo_n1 := n_intr_uncount_le & [ STEM < "indeterminismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indeterminismo_n_rel" ] ]. indexación_n1 := n_trans_le & [ STEM < "indexación" >, SYNSEM.LKEYS.KEYREL.PRED "_indexación_n_rel" ]. indexar_v := v_trans_np_le & [ STEM < "indexar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_sem, PRED "_indexar_v_rel" ] ]. indiano_n1 := n_intr_count_le & [ STEM < "indiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indiano_n_rel" ] ]. indicación_n1 := n_trans_le & [ STEM < "indicación" >, SYNSEM.LKEYS.KEYREL.PRED "_indicación_n_rel" ]. indicador_a1 := a_rel_nonprd_intr_le & [ STEM < "indicador" >, SYNSEM.LKEYS.KEYREL.PRED "_indicador_a_rel" ]. indicador_n1 := n_intr_count_le & [ STEM < "indicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_indicador_n_rel" ] ]. indicar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "indicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_indicar_v_rel" ] ]. indicar_v2 := v_ditrans*_le & [ STEM < "indicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_indicar_v_rel" ] ]. indicativo_a1 := a_qual_trans*_ser_le & [ STEM < "indicativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_indicativo_a_rel" ] ]. indiciario_a1 := a_rel_nonprd_intr_le & [ STEM < "indiciario" >, SYNSEM.LKEYS.KEYREL.PRED "_indiciario_a_rel" ]. indicolita_n1 := n_intr_count_le & [ STEM < "indicolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indicolita_n_rel" ] ]. indiferencia_n1 := n_intr_uncount_pl_le & [ STEM < "indiferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indiferencia_n_rel" ] ]. indiferente_a1 := a_qual_trans*_ser_le & [ STEM < "indiferente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_indiferente_a_rel" ] ]. indiferentemente_x1 := av_i_spr_le & [ STEM < "indiferentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indiferentemente_x_rel" ]. indigencia_n1 := n_intr_uncount_le & [ STEM < "indigencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indigencia_n_rel" ] ]. indigenismo_n1 := n_intr_uncount_le & [ STEM < "indigenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indigenismo_n_rel" ] ]. indigente_a1 := a_rel_nonprd_intr_le & [ STEM < "indigente" >, SYNSEM.LKEYS.KEYREL.PRED "_indigente_a_rel" ]. indigestible_a1 := a_rel_prd_le & [ STEM < "indigestible" >, SYNSEM.LKEYS.KEYREL.PRED "_indigestible_a_rel" ]. indigestión_n1 := n_intr_uncount_le & [ STEM < "indigestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indigestión_n_rel" ] ]. indigesto_a1 := a_rel_nonprd_intr_le & [ STEM < "indigesto" >, SYNSEM.LKEYS.KEYREL.PRED "_indigesto_a_rel" ]. indigistar_v1 := v_intr_io*_le & [ STEM < "indigistar" >, SYNSEM.LKEYS.KEYREL.PRED "_indigistar_v_rel" ]. indigistar_v2 := v_pron_intr_io_le & [ STEM < "indigistar" >, SYNSEM.LKEYS.KEYREL.PRED "_indigistar_v_rel" ]. indignación_n1 := n_intr_mass_le & [ STEM < "indignación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indignación_n_rel" ] ]. indignamente_x1 := av_i_spr_le & [ STEM < "indignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indignamente_x_rel" ]. indignante_a1 := a_qual_intr_scopal_le & [ STEM < "indignante" >, SYNSEM.LKEYS.KEYREL.PRED "_indignante_a_rel" ]. indignar_v1 := v_intr_io*_le & [ STEM < "indignar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_indignar_v_rel" ] ]. indignar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "indignar" >, SYNSEM.LKEYS.KEYREL.PRED "_indignar_v_rel" ]. indignar_v3 := v_trans_np_caus_le & [ STEM < "indignar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_indignar_v_rel" ] ]. indignidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "indignidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indignidad_n_rel" ] ]. indigno_a1 := a_qual_intr_ser_le & [ STEM < "indigno" >, SYNSEM.LKEYS.KEYREL.PRED "_indigno_a_rel" ]. indio_a1 := a_rel_prd_le & [ STEM < "indio" >, SYNSEM.LKEYS.KEYREL.PRED "_indio_a_rel" ]. indio_n1 := n_intr_count_le & [ STEM < "indio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indio_n_rel" ] ]. indirectamente_x1 := av_i_spr_le & [ STEM < "indirectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indirectamente_x_rel" ]. indirecto_a1 := a_qual_intr_scopal_le & [ STEM < "indirecto" >, SYNSEM.LKEYS.KEYREL.PRED "_indirecto_a_rel" ]. indiscernible_a1 := a_rel_prd_le & [ STEM < "indiscernible" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscernible_a_rel" ]. indiscreción_n1 := n_intr_mass_le & [ STEM < "indiscreción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indiscreción_n_rel" ] ]. indiscretamente_x1 := av_i_spr_le & [ STEM < "indiscretamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscretamente_x_rel" ]. indiscreto_a1 := a_qual_intr_ser_le & [ STEM < "indiscreto" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscreto_a_rel" ]. indiscriminadamente_x1 := av_i_spr_le & [ STEM < "indiscriminadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscriminadamente_x_rel" ]. indiscriminado_a1 := a_rel_prd_le & [ STEM < "indiscriminado" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscriminado_a_rel" ]. indiscutible_a1 := a_rel_prd_le & [ STEM < "indiscutible" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscutible_a_rel" ]. indiscutiblemente_x1 := av_s_prhd_le & [ STEM < "indiscutiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscutiblemente_x_rel" ]. indiscutido_a1 := a_rel_nonprd_intr_le & [ STEM < "indiscutido" >, SYNSEM.LKEYS.KEYREL.PRED "_indiscutido_a_rel" ]. indisoluble_a1 := a_rel_prd_le & [ STEM < "indisoluble" >, SYNSEM.LKEYS.KEYREL.PRED "_indisoluble_a_rel" ]. indisolublemente_x1 := av_i_spr_le & [ STEM < "indisolublemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indisolublemente_x_rel" ]. indispensable_a1 := a_qual_intr_scopal_le & [ STEM < "indispensable" >, SYNSEM.LKEYS.KEYREL.PRED "_indispensable_a_rel" ]. indispensablemente_x1 := av_i_spr_le & [ STEM < "indispensablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indispensablemente_x_rel" ]. indisponer_v1 := v_intr_io*_le & [ STEM < "indisponer" >, SYNSEM.LKEYS.KEYREL.PRED "_indisponer_v_rel" ]. indisponer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "indisponer" >, SYNSEM.LKEYS.KEYREL.PRED "_indisponer_v_rel" ]. indisponer_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "indisponer" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_indisponer_v_rel" ] ]. indisponibilidad_n1 := n_intr_uncount_le & [ STEM < "indisponibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indisponibilidad_n_rel" ] ]. indisposición_n1 := n_intr_mass_le & [ STEM < "indisposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indisposición_n_rel" ] ]. indispuesto_a1 := a_qual_intr_estar_le & [ STEM < "indispuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_indispuesto_a_rel" ]. indisputabilidad_n1 := n_intr_uncount_le & [ STEM < "indisputabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indisputabilidad_n_rel" ] ]. indistinguible_a1 := a_rel_prd_le & [ STEM < "indistinguible" >, SYNSEM.LKEYS.KEYREL.PRED "_indistinguible_a_rel" ]. indistintamente_x1 := av_i_spr_le & [ STEM < "indistintamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indistintamente_x_rel" ]. indistinto_a1 := a_rel_prd_le & [ STEM < "indistinto" >, SYNSEM.LKEYS.KEYREL.PRED "_indistinto_a_rel" ]. individual_a1 := a_rel_nonprd_intr_le & [ STEM < "individual" >, SYNSEM.LKEYS.KEYREL.PRED "_individual_a_rel" ]. individualidad_n1 := n_intr_uncount_le & [ STEM < "individualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_individualidad_n_rel" ] ]. individualismo_n1 := n_intr_uncount_le & [ STEM < "individualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_individualismo_n_rel" ] ]. individualista_a1 := a_qual_intr_ser_le & [ STEM < "individualista" >, SYNSEM.LKEYS.KEYREL.PRED "_individualista_a_rel" ]. individualista_n1 := n_intr_count_le & [ STEM < "individualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_individualista_n_rel" ] ]. individualizable_a1 := a_rel_nonprd_intr_le & [ STEM < "individualizable" >, SYNSEM.LKEYS.KEYREL.PRED "_individualizable_a_rel" ]. individualización_n1 := n_trans_le & [ STEM < "individualización" >, SYNSEM.LKEYS.KEYREL.PRED "_individualización_n_rel" ]. individualizar_v := v_trans_np_le & [ STEM < "individualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_individualizar_v_rel" ]. individualmente_x1 := av_i_spr_le & [ STEM < "individualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_individualmente_x_rel" ]. individuo_n1 := n_intr_count_le & [ STEM < "individuo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_individuo_n_rel" ] ]. indivisibilidad_n1 := n_ppcomp_uncount_le & [ STEM < "indivisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indivisibilidad_n_rel" ] ]. indivisible_a1 := a_rel_prd_le & [ STEM < "indivisible" >, SYNSEM.LKEYS.KEYREL.PRED "_indivisible_a_rel" ]. indivisiblemente_x1 := av_i_spr_le & [ STEM < "indivisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indivisiblemente_x_rel" ]. indivisión_n1 := n_intr_uncount_le & [ STEM < "indivisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indivisión_n_rel" ] ]. indiviso_a1 := a_rel_nonprd_intr_le & [ STEM < "indiviso" >, SYNSEM.LKEYS.KEYREL.PRED "_indiviso_a_rel" ]. indización_n1 := n_trans_le & [ STEM < "indización" >, SYNSEM.LKEYS.KEYREL.PRED "_indización_n_rel" ]. indochino_a1 := a_rel_prd_le & [ STEM < "indochino" >, SYNSEM.LKEYS.KEYREL.PRED "_indochino_a_rel" ]. indochino_n1 := n_intr_count_le & [ STEM < "indochino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indochino_n_rel" ] ]. indocianina_n1 := n_intr_mass_le & [ STEM < "indocianina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indocianina_n_rel" ] ]. indoctamente_x1 := av_i_spr_le & [ STEM < "indoctamente" >, SYNSEM.LKEYS.KEYREL.PRED "_indoctamente_x_rel" ]. indocto_a1 := a_qual_intr_ser_le & [ STEM < "indocto" >, SYNSEM.LKEYS.KEYREL.PRED "_indocto_a_rel" ]. indocumentado_a1 := a_rel_nonprd_intr_le & [ STEM < "indocumentado" >, SYNSEM.LKEYS.KEYREL.PRED "_indocumentado_a_rel" ]. indoeuropeo_a1 := a_rel_prd_le & [ STEM < "indoeuropeo" >, SYNSEM.LKEYS.KEYREL.PRED "_indoeuropeo_a_rel" ]. indoeuropeo_n1 := n_intr_count_le & [ STEM < "indoeuropeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indoeuropeo_n_rel" ] ]. indofenol_n1 := n_intr_count_le & [ STEM < "indofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indofenol_n_rel" ] ]. indol_n1 := n_intr_count_le & [ STEM < "indol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indol_n_rel" ] ]. indolencia_n1 := n_intr_uncount_le & [ STEM < "indolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indolencia_n_rel" ] ]. indolente_a1 := a_qual_intr_ser_le & [ STEM < "indolente" >, SYNSEM.LKEYS.KEYREL.PRED "_indolente_a_rel" ]. indolentemente_x1 := av_i_spr_le & [ STEM < "indolentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indolentemente_x_rel" ]. indoloro_a1 := a_qual_intr_scopal_le & [ STEM < "indoloro" >, SYNSEM.LKEYS.KEYREL.PRED "_indoloro_a_rel" ]. indomable_a1 := a_rel_prd_le & [ STEM < "indomable" >, SYNSEM.LKEYS.KEYREL.PRED "_indomable_a_rel" ]. indomado_a1 := a_rel_nonprd_intr_le & [ STEM < "indomado" >, SYNSEM.LKEYS.KEYREL.PRED "_indomado_a_rel" ]. indometacina_n1 := n_intr_count_le & [ STEM < "indometacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indometacina_n_rel" ] ]. indonesio_a1 := a_rel_prd_le & [ STEM < "indonesio" >, SYNSEM.LKEYS.KEYREL.PRED "_indonesio_a_rel" ]. indonesio_n1 := n_intr_count_le & [ STEM < "indonesio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indonesio_n_rel" ] ]. indoor_a1 := a_rel_nonprd_intr_le & [ STEM < "indoor" >, SYNSEM.LKEYS.KEYREL.PRED "_indoor_a_rel" ]. indorromano_a1 := a_rel_prd_le & [ STEM < "indorromano" >, SYNSEM.LKEYS.KEYREL.PRED "_indorromano_a_rel" ]. indubitado_a1 := a_rel_nonprd_intr_le & [ STEM < "indubitado" >, SYNSEM.LKEYS.KEYREL.PRED "_indubitado_a_rel" ]. inducción_n1 := n_trans_le & [ STEM < "inducción" >, SYNSEM.LKEYS.KEYREL.PRED "_inducción_n_rel" ]. inducido_n1 := n_intr_count_le & [ STEM < "inducido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inducido_n_rel" ] ]. inducir_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "inducir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_inducir_v_rel" ] ] ]. inducir_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "inducir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_inducir_v_rel" ] ] ]. inducir_v3 := v_trans_np*_mrkd_np_le & [ STEM < "inducir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_inducir_v_rel" ] ] ]. inductancia_n1 := n_intr_uncount_le & [ STEM < "inductancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inductancia_n_rel" ] ]. inductivamente_x1 := av_i_spr_le & [ STEM < "inductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inductivamente_x_rel" ]. inductividad_n1 := n_intr_uncount_le & [ STEM < "inductividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inductividad_n_rel" ] ]. inductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "inductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inductivo_a_rel" ]. inductor_a1 := a_rel_nonprd_intr_le & [ STEM < "inductor" >, SYNSEM.LKEYS.KEYREL.PRED "_inductor_a_rel" ]. inductor_n1 := n_intr_count_le & [ STEM < "inductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inductor_n_rel" ] ]. inductor_n2 := n_subj-nom_le & [ STEM < "inductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inductor_n_rel" ] ]. inductómetro_n1 := n_intr_count_le & [ STEM < "inductómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inductómetro_n_rel" ] ]. indudable_a1 := a_rel_prd_le & [ STEM < "indudable" >, SYNSEM.LKEYS.KEYREL.PRED "_indudable_a_rel" ]. indudablemente_x1 := av_s_prhd_le & [ STEM < "indudablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indudablemente_x_rel" ]. indulgencia_n1 := n_intr_uncount_le & [ STEM < "indulgencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indulgencia_n_rel" ] ]. indulgente_a1 := a_qual_intr_scopal_le & [ STEM < "indulgente" >, SYNSEM.LKEYS.KEYREL.PRED "_indulgente_a_rel" ]. indulgentemente_x1 := av_i_spr_le & [ STEM < "indulgentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_indulgentemente_x_rel" ]. indulina_n1 := n_intr_count_le & [ STEM < "indulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_indulina_n_rel" ] ]. indumentaria_n1 := n_intr_count_le & [ STEM < "indumentaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_indumentaria_n_rel" ] ]. induración_n1 := n_intr_uncount_le & [ STEM < "induración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_induración_n_rel" ] ]. industria_n1 := n_intr_mass_le & [ STEM < "industria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_industria_n_rel" ] ]. industrial_a1 := a_rel_nonprd_intr_le & [ STEM < "industrial" >, SYNSEM.LKEYS.KEYREL.PRED "_industrial_a_rel" ]. industrial_n1 := n_intr_count_le & [ STEM < "industrial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_industrial_n_rel" ] ]. industrialismo_n1 := n_ppcomp_uncount_le & [ STEM < "industrialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_industrialismo_n_rel" ] ]. industrialización_n1 := n_trans_le & [ STEM < "industrialización" >, SYNSEM.LKEYS.KEYREL.PRED "_industrialización_n_rel" ]. industrializar_v := v_trans_np_caus_le & [ STEM < "industrializar" >, SYNSEM.LKEYS.KEYREL.PRED "_industrializar_v_rel" ]. industrialmente_x1 := av_i_spr_le & [ STEM < "industrialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_industrialmente_x_rel" ]. industrioso_a1 := a_qual_intr_ser_le & [ STEM < "industrioso" >, SYNSEM.LKEYS.KEYREL.PRED "_industrioso_a_rel" ]. indígena_a1 := a_rel_nonprd_intr_le & [ STEM < "indígena" >, SYNSEM.LKEYS.KEYREL.PRED "_indígena_a_rel" ]. indígena_n1 := n_intr_count_le & [ STEM < "indígena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_indígena_n_rel" ] ]. indócilmente_x1 := av_i_spr_le & [ STEM < "indócilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_indócilmente_x_rel" ]. indómito_a1 := a_qual_intr_scopal_le & [ STEM < "indómito" >, SYNSEM.LKEYS.KEYREL.PRED "_indómito_a_rel" ]. inecuación_n1 := n_intr_count_le & [ STEM < "inecuación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inecuación_n_rel" ] ]. inefable_a1 := a_rel_prd_le & [ STEM < "inefable" >, SYNSEM.LKEYS.KEYREL.PRED "_inefable_a_rel" ]. inefablemente_x1 := av_i_spr_le & [ STEM < "inefablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inefablemente_x_rel" ]. inefectivamente_x1 := av_i_spr_le & [ STEM < "inefectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inefectivamente_x_rel" ]. inefectivo_a1 := a_rel_prd_le & [ STEM < "inefectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inefectivo_a_rel" ]. ineficacia_n1 := n_ppcomp_mass_le & [ STEM < "ineficacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ineficacia_n_rel" ] ]. ineficaz_a1 := a_rel_prd_le & [ STEM < "ineficaz" >, SYNSEM.LKEYS.KEYREL.PRED "_ineficaz_a_rel" ]. ineficazmente_x1 := av_i_spr_le & [ STEM < "ineficazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ineficazmente_x_rel" ]. ineficiencia_n1 := n_intr_mass_le & [ STEM < "ineficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ineficiencia_n_rel" ] ]. inelasticidad_n1 := n_intr_uncount_le & [ STEM < "inelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inelasticidad_n_rel" ] ]. inelegibilidad_n1 := n_intr_uncount_le & [ STEM < "inelegibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inelegibilidad_n_rel" ] ]. inelegible_a1 := a_rel_prd_le & [ STEM < "inelegible" >, SYNSEM.LKEYS.KEYREL.PRED "_inelegible_a_rel" ]. ineluctable_a1 := a_rel_prd_le & [ STEM < "ineluctable" >, SYNSEM.LKEYS.KEYREL.PRED "_ineluctable_a_rel" ]. ineluctablemente_x1 := av_i_spr_le & [ STEM < "ineluctablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ineluctablemente_x_rel" ]. ineludible_a1 := a_rel_prd_le & [ STEM < "ineludible" >, SYNSEM.LKEYS.KEYREL.PRED "_ineludible_a_rel" ]. inelástico_a1 := a_rel_prd_le & [ STEM < "inelástico" >, SYNSEM.LKEYS.KEYREL.PRED "_inelástico_a_rel" ]. inembargabilidad_n1 := n_intr_uncount_le & [ STEM < "inembargabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inembargabilidad_n_rel" ] ]. inenarrable_a1 := a_rel_prd_le & [ STEM < "inenarrable" >, SYNSEM.LKEYS.KEYREL.PRED "_inenarrable_a_rel" ]. ineptitud_n1 := n_intr_uncount_pl_le & [ STEM < "ineptitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ineptitud_n_rel" ] ]. inepto_a1 := a_qual_intr_ser_le & [ STEM < "inepto" >, SYNSEM.LKEYS.KEYREL.PRED "_inepto_a_rel" ]. inequívocamente_x1 := av_i_spr_le & [ STEM < "inequívocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inequívocamente_x_rel" ]. inequívoco_a1 := a_rel_prd_le & [ STEM < "inequívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_inequívoco_a_rel" ]. inercia_n1 := n_intr_uncount_le & [ STEM < "inercia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inercia_n_rel" ] ]. inerme_a1 := a_rel_nonprd_intr_le & [ STEM < "inerme" >, SYNSEM.LKEYS.KEYREL.PRED "_inerme_a_rel" ]. inerte_a1 := a_qual_intr_scopal_le & [ STEM < "inerte" >, SYNSEM.LKEYS.KEYREL.PRED "_inerte_a_rel" ]. inertemente_x1 := av_i_spr_le & [ STEM < "inertemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inertemente_x_rel" ]. inescrupulosidad_n1 := n_intr_uncount_le & [ STEM < "inescrupulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inescrupulosidad_n_rel" ] ]. inescrutabilidad_n1 := n_intr_uncount_le & [ STEM < "inescrutabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inescrutabilidad_n_rel" ] ]. inescrutable_a1 := a_qual_intr_scopal_le & [ STEM < "inescrutable" >, SYNSEM.LKEYS.KEYREL.PRED "_inescrutable_a_rel" ]. inescrutablemente_x1 := av_i_spr_le & [ STEM < "inescrutablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inescrutablemente_x_rel" ]. inesperadamente_x1 := av_i_spr_le & [ STEM < "inesperadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inesperadamente_x_rel" ]. inesperado_a1 := a_qual_intr_scopal_le & [ STEM < "inesperado" >, SYNSEM.LKEYS.KEYREL.PRED "_inesperado_a_rel" ]. inestabilidad_n1 := n_intr_mass-or-count_le & [ STEM < "inestabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inestabilidad_n_rel" ] ]. inestable_a1 := a_qual_intr_scopal_le & [ STEM < "inestable" >, SYNSEM.LKEYS.KEYREL.PRED "_inestable_a_rel" ]. inestablemente_x1 := av_i_spr_le & [ STEM < "inestablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inestablemente_x_rel" ]. inestimable_a1 := a_rel_prd_le & [ STEM < "inestimable" >, SYNSEM.LKEYS.KEYREL.PRED "_inestimable_a_rel" ]. inevaluable_a1 := a_rel_prd_le & [ STEM < "inevaluable" >, SYNSEM.LKEYS.KEYREL.PRED "_inevaluable_a_rel" ]. inevitabilidad_n1 := n_intr_uncount_le & [ STEM < "inevitabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inevitabilidad_n_rel" ] ]. inevitable_a1 := a_rel_prd_le & [ STEM < "inevitable" >, SYNSEM.LKEYS.KEYREL.PRED "_inevitable_a_rel" ]. inevitablemente_x1 := av_s_spr_le & [ STEM < "inevitablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inevitablemente_x_rel" ]. inexactitud_n1 := n_intr_count_le & [ STEM < "inexactitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inexactitud_n_rel" ] ]. inexacto_a1 := a_rel_prd_le & [ STEM < "inexacto" >, SYNSEM.LKEYS.KEYREL.PRED "_inexacto_a_rel" ]. inexcusable_a1 := a_rel_prd_le & [ STEM < "inexcusable" >, SYNSEM.LKEYS.KEYREL.PRED "_inexcusable_a_rel" ]. inexcusablemente_x1 := av_i_spr_le & [ STEM < "inexcusablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inexcusablemente_x_rel" ]. inexistencia_n1 := n_intr_uncount_le & [ STEM < "inexistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inexistencia_n_rel" ] ]. inexistente_a1 := a_rel_prd_le & [ STEM < "inexistente" >, SYNSEM.LKEYS.KEYREL.PRED "_inexistente_a_rel" ]. inexorabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inexorabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inexorabilidad_n_rel" ] ]. inexorable_a1 := a_rel_prd_le & [ STEM < "inexorable" >, SYNSEM.LKEYS.KEYREL.PRED "_inexorable_a_rel" ]. inexorablemente_x1 := av_i_spr_le & [ STEM < "inexorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inexorablemente_x_rel" ]. inexperiencia_n1 := n_intr_mass_le & [ STEM < "inexperiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inexperiencia_n_rel" ] ]. inexperto_a1 := a_qual_intr_ser_le & [ STEM < "inexperto" >, SYNSEM.LKEYS.KEYREL.PRED "_inexperto_a_rel" ]. inexplicable_a1 := a_rel_prd_le & [ STEM < "inexplicable" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplicable_a_rel" ]. inexplicablemente_x1 := av_i_spr_le & [ STEM < "inexplicablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplicablemente_x_rel" ]. inexplicadamente_x1 := av_i_spr_le & [ STEM < "inexplicadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplicadamente_x_rel" ]. inexplicado_a1 := a_rel_nonprd_intr_le & [ STEM < "inexplicado" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplicado_a_rel" ]. inexplorado_a1 := a_qual_intr_estar_le & [ STEM < "inexplorado" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplorado_a_rel" ]. inexplotado_a1 := a_qual_intr_estar_le & [ STEM < "inexplotado" >, SYNSEM.LKEYS.KEYREL.PRED "_inexplotado_a_rel" ]. inexpresable_a1 := a_rel_prd_le & [ STEM < "inexpresable" >, SYNSEM.LKEYS.KEYREL.PRED "_inexpresable_a_rel" ]. inexpresivo_a1 := a_qual_intr_ser_le & [ STEM < "inexpresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inexpresivo_a_rel" ]. inexpugnable_a1 := a_rel_prd_le & [ STEM < "inexpugnable" >, SYNSEM.LKEYS.KEYREL.PRED "_inexpugnable_a_rel" ]. inextinguible_a1 := a_rel_prd_le & [ STEM < "inextinguible" >, SYNSEM.LKEYS.KEYREL.PRED "_inextinguible_a_rel" ]. inextricable_a1 := a_rel_prd_le & [ STEM < "inextricable" >, SYNSEM.LKEYS.KEYREL.PRED "_inextricable_a_rel" ]. infalibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "infalibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infalibilidad_n_rel" ] ]. infalible_a1 := a_rel_prd_le & [ STEM < "infalible" >, SYNSEM.LKEYS.KEYREL.PRED "_infalible_a_rel" ]. infaliblemente_x1 := av_i_spr_le & [ STEM < "infaliblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_infaliblemente_x_rel" ]. infalsificabilidad_n1 := n_intr_uncount_le & [ STEM < "infalsificabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infalsificabilidad_n_rel" ] ]. infamar_v := v_trans_np_le & [ STEM < "infamar" >, SYNSEM.LKEYS.KEYREL.PRED "_infamar_v_rel" ]. infame_a1 := a_qual_intr_scopal_le & [ STEM < "infame" >, SYNSEM.LKEYS.KEYREL.PRED "_infame_a_rel" ]. infamemente_x1 := av_i_spr_le & [ STEM < "infamemente" >, SYNSEM.LKEYS.KEYREL.PRED "_infamemente_x_rel" ]. infancia_n1 := n_intr_uncount_le & [ STEM < "infancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infancia_n_rel" ] ]. infante_n1 := n_intr_count_le & [ STEM < "infante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_infante_n_rel" ] ]. infantería_n1 := n_intr_coll_le & [ STEM < "infantería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_infantería_n_rel" ] ]. infanticida_n1 := n_intr_count_le & [ STEM < "infanticida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_infanticida_n_rel" ] ]. infantil_a1 := a_qual_intr_ser_le & [ STEM < "infantil" >, SYNSEM.LKEYS.KEYREL.PRED "_infantil_a_rel" ]. infantilismo_n1 := n_intr_uncount_le & [ STEM < "infantilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infantilismo_n_rel" ] ]. infatigable_a1 := a_rel_prd_le & [ STEM < "infatigable" >, SYNSEM.LKEYS.KEYREL.PRED "_infatigable_a_rel" ]. infatigablemente_x1 := av_i_spr_le & [ STEM < "infatigablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_infatigablemente_x_rel" ]. infatuación_n1 := n_trans_le & [ STEM < "infatuación" >, SYNSEM.LKEYS.KEYREL.PRED "_infatuación_n_rel" ]. infeccioso_a1 := a_qual_intr_scopal_le & [ STEM < "infeccioso" >, SYNSEM.LKEYS.KEYREL.PRED "_infeccioso_a_rel" ]. infección_n1 := n_trans_le & [ STEM < "infección" >, SYNSEM.LKEYS.KEYREL.PRED "_infección_n_rel" ]. infectar_v := v_trans_np_caus_le & [ STEM < "infectar" >, SYNSEM.LKEYS.KEYREL.PRED "_infectar_v_rel" ]. infecto_a1 := a_qual_intr_scopal_le & [ STEM < "infecto" >, SYNSEM.LKEYS.KEYREL.PRED "_infecto_a_rel" ]. infecundidad_n1 := n_intr_mass-or-count_le & [ STEM < "infecundidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infecundidad_n_rel" ] ]. infelicidad_n1 := n_intr_mass-or-count_le & [ STEM < "infelicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infelicidad_n_rel" ] ]. infeliz_a1 := a_qual_intr_ser_le & [ STEM < "infeliz" >, SYNSEM.LKEYS.KEYREL.PRED "_infeliz_a_rel" ]. infelizmente_x1 := av_i_spr_le & [ STEM < "infelizmente" >, SYNSEM.LKEYS.KEYREL.PRED "_infelizmente_x_rel" ]. inferencia_n1 := n_trans_le & [ STEM < "inferencia" >, SYNSEM.LKEYS.KEYREL.PRED "_inferencia_n_rel" ]. inferencial_a1 := a_rel_nonprd_intr_le & [ STEM < "inferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_inferencial_a_rel" ]. inferencialmente_x1 := av_i_spr_le & [ STEM < "inferencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inferencialmente_x_rel" ]. inferior_a1 := a_compar_alt_le & [ STEM < "inferior" >, SYNSEM.LKEYS.KEYREL.PRED "_inferior_a_rel" ]. inferioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inferioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inferioridad_n_rel" ] ]. inferir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "inferir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_inferir_v_rel" ] ] ]. infernal_a1 := a_qual_intr_scopal_le & [ STEM < "infernal" >, SYNSEM.LKEYS.KEYREL.PRED "_infernal_a_rel" ]. infertilidad_n1 := n_intr_uncount_le & [ STEM < "infertilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infertilidad_n_rel" ] ]. infestación_n1 := n_trans_le & [ STEM < "infestación" >, SYNSEM.LKEYS.KEYREL.PRED "_infestación_n_rel" ]. infestar_v := v_trans_np_le & [ STEM < "infestar" >, SYNSEM.LKEYS.KEYREL.PRED "_infestar_v_rel" ]. infibulación_n1 := n_trans_le & [ STEM < "infibulación" >, SYNSEM.LKEYS.KEYREL.PRED "_infibulación_n_rel" ]. infidelidad_n1 := n_intr_mass-or-count_le & [ STEM < "infidelidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infidelidad_n_rel" ] ]. infiel_a1 := a_qual_intr_ser_le & [ STEM < "infiel" >, SYNSEM.LKEYS.KEYREL.PRED "_infiel_a_rel" ]. infielmente_x1 := av_i_spr_le & [ STEM < "infielmente" >, SYNSEM.LKEYS.KEYREL.PRED "_infielmente_x_rel" ]. infierno_n1 := n_intr_count_le & [ STEM < "infierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_infierno_n_rel" ] ]. infijo_n1 := n_intr_count_le & [ STEM < "infijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_infijo_n_rel" ] ]. infiltración_n1 := n_trans_le & [ STEM < "infiltración" >, SYNSEM.LKEYS.KEYREL.PRED "_infiltración_n_rel" ]. infiltrar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "infiltrar" >, SYNSEM.LKEYS.KEYREL.PRED "_infiltrar_v_rel" ]. infiltrómetro_n1 := n_intr_count_le & [ STEM < "infiltrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_infiltrómetro_n_rel" ] ]. infinidad_n1 := n_ppcomp_count_le & [ STEM < "infinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infinidad_n_rel" ] ]. infinidad_n2 := n_ppcomp_uncount_le & [ STEM < "infinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infinidad_n_rel" ] ]. infinitamente_x1 := av_i_spr_le & [ STEM < "infinitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infinitamente_x_rel" ]. infinitesimalmente_x1 := av_i_spr_le & [ STEM < "infinitesimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_infinitesimalmente_x_rel" ]. infinito_n1 := n_intr_count_le & [ STEM < "infinito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_infinito_n_rel" ] ]. infinitud_n1 := n_intr_uncount_pl_le & [ STEM < "infinitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infinitud_n_rel" ] ]. infinitésimamente_x1 := av_i_spr_le & [ STEM < "infinitésimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infinitésimamente_x_rel" ]. infinitésimo_a1 := a_adv_event_le & [ STEM < "infinitésimo" >, SYNSEM.LKEYS.KEYREL.PRED "_infinitésimo_a_rel" ]. infinitísimo_a1 := a_adv_event_le & [ STEM < "infinitísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_infinitísimo_a_rel" ]. inflable_a1 := a_rel_prd_le & [ STEM < "inflable" >, SYNSEM.LKEYS.KEYREL.PRED "_inflable_a_rel" ]. inflacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "inflacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_inflacionario_a_rel" ]. inflacionismo_n1 := n_intr_uncount_le & [ STEM < "inflacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inflacionismo_n_rel" ] ]. inflacionista_a1 := a_rel_nonprd_intr_le & [ STEM < "inflacionista" >, SYNSEM.LKEYS.KEYREL.PRED "_inflacionista_a_rel" ]. inflación_n1 := n_trans_le & [ STEM < "inflación" >, SYNSEM.LKEYS.KEYREL.PRED "_inflación_n_rel" ]. inflamabilidad_n1 := n_intr_uncount_le & [ STEM < "inflamabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inflamabilidad_n_rel" ] ]. inflamable_a1 := a_qual_intr_scopal_le & [ STEM < "inflamable" >, SYNSEM.LKEYS.KEYREL.PRED "_inflamable_a_rel" ]. inflamablemente_x1 := av_i_spr_le & [ STEM < "inflamablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inflamablemente_x_rel" ]. inflamación_n1 := n_intr_count_le & [ STEM < "inflamación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_inflamación_n_rel" ] ]. inflamar_v := v_pron_unacc_perf_le & [ STEM < "inflamar" >, SYNSEM.LKEYS.KEYREL.PRED "_inflamar_v_rel" ]. inflamatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "inflamatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_inflamatorio_a_rel" ]. inflamiento_n1 := n_trans_le & [ STEM < "inflamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_inflamiento_n_rel" ]. inflar_v := v_trans_np_le & [ STEM < "inflar" >, SYNSEM.LKEYS.KEYREL.PRED "_inflar_v_rel" ]. inflexibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inflexibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inflexibilidad_n_rel" ] ]. inflexible_a1 := a_rel_prd_le & [ STEM < "inflexible" >, SYNSEM.LKEYS.KEYREL.PRED "_inflexible_a_rel" ]. inflexiblemente_x1 := av_i_spr_le & [ STEM < "inflexiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inflexiblemente_x_rel" ]. inflexional_a1 := a_rel_nonprd_intr_le & [ STEM < "inflexional" >, SYNSEM.LKEYS.KEYREL.PRED "_inflexional_a_rel" ]. inflexión_n1 := n_intr_count_le & [ STEM < "inflexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inflexión_n_rel" ] ]. infligir_v1 := v_ditrans*_le & [ STEM < "infligir" >, SYNSEM.LKEYS.KEYREL.PRED "_infligir_v_rel" ]. inflingir_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "inflingir" >, SYNSEM.LKEYS.KEYREL.PRED "_inflingir_v_rel" ]. inflingir_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "inflingir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_inflingir_v_rel" ] ] ]. inflingir_v4 := v_trans_np_mrkd_np_le & [ STEM < "inflingir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_inflingir_v_rel" ] ] ]. inflorescencia_n1 := n_intr_count_le & [ STEM < "inflorescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inflorescencia_n_rel" ] ]. influencia_n1 := n_result_intr_le & [ STEM < "influencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_influencia_n_rel" ] ]. influenciar_v1 := v_intr_mrkd_np_le & [ STEM < "influenciar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_influenciar_v_rel" ] ]. influenciar_v2 := v_trans_np_le & [ STEM < "influenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_influenciar_v_rel" ]. influente_a1 := a_qual_intr_scopal_le & [ STEM < "influente" >, SYNSEM.LKEYS.KEYREL.PRED "_influente_a_rel" ]. influentemente_x1 := av_i_spr_le & [ STEM < "influentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_influentemente_x_rel" ]. influir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "influir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_influir_v_rel" ] ] ]. influir_v2 := v_intr_mrkd_np_le & [ STEM < "influir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_influir_v_rel" ] ]. influir_v3 := v_trans_np*_le & [ STEM < "influir" >, SYNSEM.LKEYS.KEYREL.PRED "_influir_v_rel" ]. influyente_a1 := a_qual_trans*_ser_le & [ STEM < "influyente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_influyente_a_rel" ] ]. infografía_n1 := n_intr_count_le & [ STEM < "infografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infografía_n_rel" ] ]. infográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "infográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_infográfico_a_rel" ]. informacional_a1 := a_rel_nonprd_intr_le & [ STEM < "informacional" >, SYNSEM.LKEYS.KEYREL.PRED "_informacional_a_rel" ]. información_n1 := n_trans_le & [ STEM < "información" >, SYNSEM.LKEYS.KEYREL.PRED "_información_n_rel" ]. informador_n1 := n_subj-nom_le & [ STEM < "informador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_informador_n_rel" ] ]. informal_a1 := a_qual_intr_scopal_le & [ STEM < "informal" >, SYNSEM.LKEYS.KEYREL.PRED "_informal_a_rel" ]. informalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "informalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_informalidad_n_rel" ] ]. informalmente_x1 := av_i_spr_le & [ STEM < "informalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_informalmente_x_rel" ]. informante_n1 := n_intr_count_le & [ STEM < "informante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_informante_n_rel" ] ]. informar_v1 := v_trans_cp_semi_ques_le & [ STEM < "informar" >, SYNSEM.LKEYS.KEYREL.PRED "_informar_v_rel" ]. informar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "informar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_materia_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_informar_v_rel" ] ] ]. informar_v3 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "informar" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_informar_v_rel" ] ] ]. informar_v4 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "informar" >, SYNSEM.LKEYS [ --OCOMPKEY materia_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_informar_v_rel" ] ] ]. informativamente_x1 := av_i_spr_le & [ STEM < "informativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_informativamente_x_rel" ]. informativo_a1 := a_qual_intr_scopal_le & [ STEM < "informativo" >, SYNSEM.LKEYS.KEYREL.PRED "_informativo_a_rel" ]. informatización_n1 := n_trans_le & [ STEM < "informatización" >, SYNSEM.LKEYS.KEYREL.PRED "_informatización_n_rel" ]. informatizar_v := v_trans_np_le & [ STEM < "informatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_informatizar_v_rel" ]. informe_n1 := n_intr_count_le & [ STEM < "informe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_informe_n_rel" ] ]. informología_n1 := n_intr_uncount_le & [ STEM < "informología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_informología_n_rel" ] ]. informática_n1 := n_intr_uncount_le & [ STEM < "informática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_informática_n_rel" ] ]. informático_a1 := a_rel_nonprd_intr_le & [ STEM < "informático" >, SYNSEM.LKEYS.KEYREL.PRED "_informático_a_rel" ]. informático_n1 := n_intr_count_le & [ STEM < "informático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_informático_n_rel" ] ]. infortunadamente_x1 := av_i_spr_le & [ STEM < "infortunadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infortunadamente_x_rel" ]. infortunado_a1 := a_qual_intr_ser_le & [ STEM < "infortunado" >, SYNSEM.LKEYS.KEYREL.PRED "_infortunado_a_rel" ]. infraacústicamente_x1 := av_i_spr_le & [ STEM < "infraacústicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infraacústicamente_x_rel" ]. infraacústico_a1 := a_rel_nonprd_intr_le & [ STEM < "infraacústico" >, SYNSEM.LKEYS.KEYREL.PRED "_infraacústico_a_rel" ]. infracción_n1 := n_trans_le & [ STEM < "infracción" >, SYNSEM.LKEYS.KEYREL.PRED "_infracción_n_rel" ]. infraclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "infraclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_infraclavicular_a_rel" ]. infractor_n1 := n_intr_count_le & [ STEM < "infractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_infractor_n_rel" ] ]. infracubrir_v := v_trans_np_caus_le & [ STEM < "infracubrir" >, SYNSEM.LKEYS.KEYREL.PRED "_infracubrir_v_rel" ]. infradinamente_x1 := av_i_spr_le & [ STEM < "infradinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infradinamente_x_rel" ]. infraespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "infraespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_infraespinoso_a_rel" ]. infraestructura_n1 := n_intr_count_le & [ STEM < "infraestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infraestructura_n_rel" ] ]. infraestructural_a1 := a_rel_nonprd_intr_le & [ STEM < "infraestructural" >, SYNSEM.LKEYS.KEYREL.PRED "_infraestructural_a_rel" ]. infraestructuralmente_x1 := av_i_spr_le & [ STEM < "infraestructuralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_infraestructuralmente_x_rel" ]. infraglenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "infraglenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_infraglenoideo_a_rel" ]. infraglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "infraglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_infraglótico_a_rel" ]. infragnacia_n1 := n_intr_uncount_le & [ STEM < "infragnacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infragnacia_n_rel" ] ]. infrahioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "infrahioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_infrahioideo_a_rel" ]. infrahumano_a1 := a_rel_nonprd_intr_le & [ STEM < "infrahumano" >, SYNSEM.LKEYS.KEYREL.PRED "_infrahumano_a_rel" ]. inframodulación_n1 := n_intr_uncount_le & [ STEM < "inframodulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inframodulación_n_rel" ] ]. infranqueable_a1 := a_rel_nonprd_intr_le & [ STEM < "infranqueable" >, SYNSEM.LKEYS.KEYREL.PRED "_infranqueable_a_rel" ]. infraoccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "infraoccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_infraoccipital_a_rel" ]. infraorbitario_a1 := a_rel_nonprd_intr_le & [ STEM < "infraorbitario" >, SYNSEM.LKEYS.KEYREL.PRED "_infraorbitario_a_rel" ]. infrapilórico_a1 := a_rel_nonprd_intr_le & [ STEM < "infrapilórico" >, SYNSEM.LKEYS.KEYREL.PRED "_infrapilórico_a_rel" ]. infrapiriforme_a1 := a_rel_nonprd_intr_le & [ STEM < "infrapiriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_infrapiriforme_a_rel" ]. infraproteína_n1 := n_intr_count_le & [ STEM < "infraproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_infraproteína_n_rel" ] ]. infrarojo_a1 := a_rel_nonprd_intr_le & [ STEM < "infrarojo" >, SYNSEM.LKEYS.KEYREL.PRED "_infrarojo_a_rel" ]. infrarrotuliano_a1 := a_rel_nonprd_intr_le & [ STEM < "infrarrotuliano" >, SYNSEM.LKEYS.KEYREL.PRED "_infrarrotuliano_a_rel" ]. infrasonido_n1 := n_intr_count_le & [ STEM < "infrasonido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infrasonido_n_rel" ] ]. infrasónicamente_x1 := av_i_spr_le & [ STEM < "infrasónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infrasónicamente_x_rel" ]. infrasónico_a1 := a_rel_nonprd_intr_le & [ STEM < "infrasónico" >, SYNSEM.LKEYS.KEYREL.PRED "_infrasónico_a_rel" ]. infratemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "infratemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_infratemporal_a_rel" ]. infratroclear_a1 := a_rel_nonprd_intr_le & [ STEM < "infratroclear" >, SYNSEM.LKEYS.KEYREL.PRED "_infratroclear_a_rel" ]. infravaloración_n1 := n_trans_le & [ STEM < "infravaloración" >, SYNSEM.LKEYS.KEYREL.PRED "_infravaloración_n_rel" ]. infravalorar_v1 := v_trans_cp_prop_fin_le & [ STEM < "infravalorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_infravalorar_v_rel" ] ]. infravalorar_v2 := v_trans_np_le & [ STEM < "infravalorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_infravalorar_v_rel" ] ]. infrecuente_a1 := a_qual_intr_scopal_le & [ STEM < "infrecuente" >, SYNSEM.LKEYS.KEYREL.PRED "_infrecuente_a_rel" ]. infrecuentemente_x1 := av_s_prhd_spr_le & [ STEM < "infrecuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_infrecuentemente_x_rel" ]. infrecuentemente_x2 := av_i_psthd_spr_le & [ STEM < "infrecuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_infrecuentemente_x_rel" ]. infringir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "infringir" >, SYNSEM.LKEYS.KEYREL.PRED "_infringir_v_rel" ]. infringir_v2 := v_trans_np_le & [ STEM < "infringir" >, SYNSEM.LKEYS.KEYREL.PRED "_infringir_v_rel" ]. infructuosamente_x1 := av_i_spr_le & [ STEM < "infructuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infructuosamente_x_rel" ]. infructuoso_a1 := a_qual_intr_scopal_le & [ STEM < "infructuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_infructuoso_a_rel" ]. infrutescencia_n1 := n_intr_uncount_le & [ STEM < "infrutescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infrutescencia_n_rel" ] ]. infundadamente_x1 := av_i_spr_le & [ STEM < "infundadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_infundadamente_x_rel" ]. infundado_a1 := a_qual_intr_scopal_le & [ STEM < "infundado" >, SYNSEM.LKEYS.KEYREL.PRED "_infundado_a_rel" ]. infundibular_a1 := a_rel_prd_le & [ STEM < "infundibular" >, SYNSEM.LKEYS.KEYREL.PRED "_infundibular_a_rel" ]. infundibuliforme_a1 := a_rel_nonprd_intr_le & [ STEM < "infundibuliforme" >, SYNSEM.LKEYS.KEYREL.PRED "_infundibuliforme_a_rel" ]. infundir_v1 := v_ditrans*_le & [ STEM < "infundir" >, SYNSEM.LKEYS.KEYREL.PRED "_infundir_v_rel" ]. infundir_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "infundir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_infundir_v_rel" ] ]. infundir_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "infundir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_infundir_v_rel" ] ] ]. infundir_v4 := v_trans_np_mrkd_np_le & [ STEM < "infundir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_infundir_v_rel" ] ] ]. infundíbulo_n1 := n_intr_count_le & [ STEM < "infundíbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_infundíbulo_n_rel" ] ]. infusión_n1 := n_intr_count_le & [ STEM < "infusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_infusión_n_rel" ] ]. ingeniero_n1 := n_intr_count_le & [ STEM < "ingeniero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ingeniero_n_rel" ] ]. ingeniería_n1 := n_intr_uncount_pl_le & [ STEM < "ingeniería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingeniería_n_rel" ] ]. ingeniosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ingeniosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingeniosidad_n_rel" ] ]. ingenioso_a1 := a_qual_intr_ser_le & [ STEM < "ingenioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ingenioso_a_rel" ]. ingente_a1 := a_qual_intr_scopal_le & [ STEM < "ingente" >, SYNSEM.LKEYS.KEYREL.PRED "_ingente_a_rel" ]. ingenuamente_x1 := av_s_spr_le & [ STEM < "ingenuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ingenuamente_x_rel" ]. ingenuamente_x2 := av_i_psthd_spr_le & [ STEM < "ingenuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ingenuamente_x_rel" ]. ingenuidad_n1 := n_intr_mass-or-count_le & [ STEM < "ingenuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingenuidad_n_rel" ] ]. ingenuo_a1 := a_qual_intr_ser_le & [ STEM < "ingenuo" >, SYNSEM.LKEYS.KEYREL.PRED "_ingenuo_a_rel" ]. ingerencia_n1 := n_intr_uncount_pl_le & [ STEM < "ingerencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingerencia_n_rel" ] ]. ingerir_v := v_trans_np_le & [ STEM < "ingerir" >, SYNSEM.LKEYS.KEYREL.PRED "_ingerir_v_rel" ]. ingesta_n1 := n_trans_le & [ STEM < "ingesta" >, SYNSEM.LKEYS.KEYREL.PRED "_ingesta_n_rel" ]. ingestión_n1 := n_trans_le & [ STEM < "ingestión" >, SYNSEM.LKEYS.KEYREL.PRED "_ingestión_n_rel" ]. ingle_n1 := n_ppcomp_count_le & [ STEM < "ingle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ingle_n_rel" ] ]. inglés_a1 := a_rel_prd_le & [ STEM < "inglés" >, SYNSEM.LKEYS.KEYREL.PRED "_inglés_a_rel" ]. inglés_n1 := n_intr_count_le & [ STEM < "inglés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inglés_n_rel" ] ]. ingobernable_a1 := a_rel_prd_le & [ STEM < "ingobernable" >, SYNSEM.LKEYS.KEYREL.PRED "_ingobernable_a_rel" ]. ingratamente_x1 := av_i_spr_le & [ STEM < "ingratamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ingratamente_x_rel" ]. ingratitud_n1 := n_intr_mass_le & [ STEM < "ingratitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingratitud_n_rel" ] ]. ingrato_a1 := a_qual_intr_scopal_le & [ STEM < "ingrato" >, SYNSEM.LKEYS.KEYREL.PRED "_ingrato_a_rel" ]. ingravidez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ingravidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingravidez_n_rel" ] ]. ingresar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ingresar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ingresar_v_rel" ] ] ]. ingresar_v2 := v_intr_mrkd_np_le & [ STEM < "ingresar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ingresar_v_rel" ] ] ]. ingresar_v3 := v_trans_np_lcomp_loc*_le & [ STEM < "ingresar" >, SYNSEM.LKEYS.KEYREL.PRED "_ingresar_v_rel" ]. ingresar_v4 := v_unacc_lcomp_loc_le & [ STEM < "ingresar" >, SYNSEM.LKEYS.KEYREL.PRED "_ingresar_v_rel" ]. ingresivo_a1 := a_rel_nonprd_intr_le & [ STEM < "ingresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ingresivo_a_rel" ]. ingrávido_a1 := a_rel_prd_le & [ STEM < "ingrávido" >, SYNSEM.LKEYS.KEYREL.PRED "_ingrávido_a_rel" ]. inguinal_a1 := a_rel_nonprd_intr_le & [ STEM < "inguinal" >, SYNSEM.LKEYS.KEYREL.PRED "_inguinal_a_rel" ]. ingush_n1 := n_intr_count_le & [ STEM < "ingush" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ingush_n_rel" ] ]. inhabilidad_n1 := n_intr_mass-or-count_le & [ STEM < "inhabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inhabilidad_n_rel" ] ]. inhabilitación_n1 := n_trans_le & [ STEM < "inhabilitación" >, SYNSEM.LKEYS.KEYREL.PRED "_inhabilitación_n_rel" ]. inhabilitar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "inhabilitar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_inhabilitar_v_rel" ] ]. inhabitable_a1 := a_rel_prd_le & [ STEM < "inhabitable" >, SYNSEM.LKEYS.KEYREL.PRED "_inhabitable_a_rel" ]. inhabitado_a1 := a_qual_intr_estar_le & [ STEM < "inhabitado" >, SYNSEM.LKEYS.KEYREL.PRED "_inhabitado_a_rel" ]. inhalación_n1 := n_trans_le & [ STEM < "inhalación" >, SYNSEM.LKEYS.KEYREL.PRED "_inhalación_n_rel" ]. inhalador_n1 := n_intr_count_le & [ STEM < "inhalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inhalador_n_rel" ] ]. inhalante_n1 := n_intr_count_le & [ STEM < "inhalante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inhalante_n_rel" ] ]. inhalar_v := v_trans_np_le & [ STEM < "inhalar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_mat, PRED "_inhalar_v_rel" ] ]. inherencia_n1 := n_intr_uncount_le & [ STEM < "inherencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inherencia_n_rel" ] ]. inherente_a1 := a_qual_intr_scopal_le & [ STEM < "inherente" >, SYNSEM.LKEYS.KEYREL.PRED "_inherente_a_rel" ]. inherentemente_x1 := av_i_spr_le & [ STEM < "inherentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inherentemente_x_rel" ]. inhibición_n1 := n_trans_le & [ STEM < "inhibición" >, SYNSEM.LKEYS.KEYREL.PRED "_inhibición_n_rel" ]. inhibidor_a1 := a_rel_nonprd_intr_le & [ STEM < "inhibidor" >, SYNSEM.LKEYS.KEYREL.PRED "_inhibidor_a_rel" ]. inhibir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "inhibir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inhibir_v_rel" ] ] ]. inhibir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "inhibir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inhibir_v_rel" ] ] ]. inhibir_v3 := v_trans_np_le & [ STEM < "inhibir" >, SYNSEM.LKEYS.KEYREL.PRED "_inhibir_v_rel" ]. inhibitoriamente_x1 := av_i_spr_le & [ STEM < "inhibitoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inhibitoriamente_x_rel" ]. inhibitorio_a1 := a_rel_prd_le & [ STEM < "inhibitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_inhibitorio_a_rel" ]. inhospitalario_a1 := a_rel_nonprd_intr_le & [ STEM < "inhospitalario" >, SYNSEM.LKEYS.KEYREL.PRED "_inhospitalario_a_rel" ]. inhumación_n1 := n_trans_le & [ STEM < "inhumación" >, SYNSEM.LKEYS.KEYREL.PRED "_inhumación_n_rel" ]. inhumanamente_x1 := av_i_spr_le & [ STEM < "inhumanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inhumanamente_x_rel" ]. inhumanidad_n1 := n_intr_mass-or-count_le & [ STEM < "inhumanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inhumanidad_n_rel" ] ]. inhumano_a1 := a_qual_intr_scopal_le & [ STEM < "inhumano" >, SYNSEM.LKEYS.KEYREL.PRED "_inhumano_a_rel" ]. inhumar_v := v_trans_np_le & [ STEM < "inhumar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_bpart_cnc_hum, PRED "_inhumar_v_rel" ] ]. inhábil_a1 := a_adv_event_le & [ STEM < "inhábil" >, SYNSEM.LKEYS.KEYREL.PRED "_inhábil_a_rel" ]. inhábil_a2 := a_rel_nonprd_intr_le & [ STEM < "inhábil" >, SYNSEM.LKEYS.KEYREL.PRED "_inhábil_a_rel" ]. inhóspito_a1 := a_qual_intr_scopal_le & [ STEM < "inhóspito" >, SYNSEM.LKEYS.KEYREL.PRED "_inhóspito_a_rel" ]. iniciación_n1 := n_trans_le & [ STEM < "iniciación" >, SYNSEM.LKEYS.KEYREL.PRED "_iniciación_n_rel" ]. iniciación_n2 := n_event-result_intr_le & [ STEM < "iniciación" >, SYNSEM.LKEYS.KEYREL.PRED "_iniciación_n_rel" ]. iniciador_n1 := n_subj-nom_le & [ STEM < "iniciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_iniciador_n_rel" ] ]. inicial_a1 := a_qual_intr_ser_postn_le & [ STEM < "inicial" >, SYNSEM.LKEYS.KEYREL.PRED "_inicial_a_rel" ]. inicial_n1 := n_intr_count_le & [ STEM < "inicial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inicial_n_rel" ] ]. inicialización_n1 := n_trans_le & [ STEM < "inicialización" >, SYNSEM.LKEYS.KEYREL.PRED "_inicialización_n_rel" ]. inicializador_n1 := n_subj-nom_le & [ STEM < "inicializador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inicializador_n_rel" ] ]. inicializar_v := v_trans_np_le & [ STEM < "inicializar" >, SYNSEM.LKEYS.KEYREL.PRED "_inicializar_v_rel" ]. inicialmente_x1 := av_i_le & [ STEM < "inicialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inicialmente_v_rel" ]. iniciar_v1 := v_pron_unacc_perf_le & [ STEM < "iniciar" >, SYNSEM.LKEYS.KEYREL.PRED "_iniciar_v_rel" ]. iniciar_v2 := v_trans_np_le & [ STEM < "iniciar" >, SYNSEM.LKEYS.KEYREL.PRED "_iniciar_v_rel" ]. iniciar_v3 := v_trans_np_mrkd_np_caus_le & [ STEM < "iniciar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_iniciar_v_rel" ] ]. iniciativa_n1 := n_intr_count_le & [ STEM < "iniciativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iniciativa_n_rel" ] ]. inicuamente_x1 := av_i_spr_le & [ STEM < "inicuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inicuamente_x_rel" ]. inicuo_a1 := a_qual_intr_scopal_le & [ STEM < "inicuo" >, SYNSEM.LKEYS.KEYREL.PRED "_inicuo_a_rel" ]. inidentificable_a1 := a_qual_intr_estar_le & [ STEM < "inidentificable" >, SYNSEM.LKEYS.KEYREL.PRED "_inidentificable_a_rel" ]. inigualable_a1 := a_rel_prd_le & [ STEM < "inigualable" >, SYNSEM.LKEYS.KEYREL.PRED "_inigualable_a_rel" ]. inigualado_a1 := a_rel_nonprd_intr_le & [ STEM < "inigualado" >, SYNSEM.LKEYS.KEYREL.PRED "_inigualado_a_rel" ]. inimaginable_a1 := a_qual_intr_scopal_le & [ STEM < "inimaginable" >, SYNSEM.LKEYS.KEYREL.PRED "_inimaginable_a_rel" ]. inimitable_a1 := a_rel_prd_le & [ STEM < "inimitable" >, SYNSEM.LKEYS.KEYREL.PRED "_inimitable_a_rel" ]. inimputabilidad_n1 := n_intr_mass_le & [ STEM < "inimputabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inimputabilidad_n_rel" ] ]. ininflamabilidad_n1 := n_intr_uncount_le & [ STEM < "ininflamabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ininflamabilidad_n_rel" ] ]. ininflamable_a1 := a_rel_prd_le & [ STEM < "ininflamable" >, SYNSEM.LKEYS.KEYREL.PRED "_ininflamable_a_rel" ]. ininflamablemente_x1 := av_i_spr_le & [ STEM < "ininflamablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ininflamablemente_x_rel" ]. ininteligencia_n1 := n_intr_uncount_le & [ STEM < "ininteligencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ininteligencia_n_rel" ] ]. ininteligente_a1 := a_qual_intr_scopal_le & [ STEM < "ininteligente" >, SYNSEM.LKEYS.KEYREL.PRED "_ininteligente_a_rel" ]. ininteligentemente_x1 := av_i_spr_le & [ STEM < "ininteligentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ininteligentemente_x_rel" ]. ininteligibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ininteligibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ininteligibilidad_n_rel" ] ]. ininteligible_a1 := a_rel_prd_le & [ STEM < "ininteligible" >, SYNSEM.LKEYS.KEYREL.PRED "_ininteligible_a_rel" ]. ininterrumpibilidad_n1 := n_intr_uncount_le & [ STEM < "ininterrumpibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ininterrumpibilidad_n_rel" ] ]. ininterrumpidamente_x1 := av_i_le & [ STEM < "ininterrumpidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ininterrumpidamente_x_rel" ]. ininterrumpido_a1 := a_rel_prd_le & [ STEM < "ininterrumpido" >, SYNSEM.LKEYS.KEYREL.PRED "_ininterrumpido_a_rel" ]. iniquidad_n1 := n_intr_mass-or-count_le & [ STEM < "iniquidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iniquidad_n_rel" ] ]. inión_n1 := n_ppcomp_count_le & [ STEM < "inión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_inión_n_rel" ] ]. injerencia_n1 := n_trans_le & [ STEM < "injerencia" >, SYNSEM.LKEYS.KEYREL.PRED "_injerencia_n_rel" ]. injerir_v := v_trans_np_lcomp_loc*_le & [ STEM < "injerir" >, SYNSEM.LKEYS.KEYREL.PRED "_injerir_v_rel" ]. injerto_n1 := n_trans_le & [ STEM < "injerto" >, SYNSEM.LKEYS.KEYREL.PRED "_injerto_n_rel" ]. injuriar_v1 := v_intr_io*_le & [ STEM < "injuriar" >, SYNSEM.LKEYS.KEYREL.PRED "_injuriar_v_rel" ]. injuriar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "injuriar" >, SYNSEM.LKEYS.KEYREL.PRED "_injuriar_v_rel" ]. injuriar_v3 := v_trans_np_le & [ STEM < "injuriar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_injuriar_v_rel" ] ]. injurioso_a1 := a_qual_intr_ser_le & [ STEM < "injurioso" >, SYNSEM.LKEYS.KEYREL.PRED "_injurioso_a_rel" ]. injustamente_x1 := av_i_spr_le & [ STEM < "injustamente" >, SYNSEM.LKEYS.KEYREL.PRED "_injustamente_x_rel" ]. injusticia_n1 := n_intr_mass-or-count_le & [ STEM < "injusticia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_injusticia_n_rel" ] ]. injustificable_a1 := a_rel_prd_le & [ STEM < "injustificable" >, SYNSEM.LKEYS.KEYREL.PRED "_injustificable_a_rel" ]. injustificadamente_x1 := av_i_spr_le & [ STEM < "injustificadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_injustificadamente_x_rel" ]. injustificado_a1 := a_rel_prd_le & [ STEM < "injustificado" >, SYNSEM.LKEYS.KEYREL.PRED "_injustificado_a_rel" ]. injusto_a1 := a_qual_intr_scopal_le & [ STEM < "injusto" >, SYNSEM.LKEYS.KEYREL.PRED "_injusto_a_rel" ]. inmaculadamente_x1 := av_i_spr_le & [ STEM < "inmaculadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmaculadamente_x_rel" ]. inmaculado_a1 := a_qual_intr_scopal_le & [ STEM < "inmaculado" >, SYNSEM.LKEYS.KEYREL.PRED "_inmaculado_a_rel" ]. inmadurez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inmadurez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmadurez_n_rel" ] ]. inmaduro_a1 := a_qual_intr_ser_le & [ STEM < "inmaduro" >, SYNSEM.LKEYS.KEYREL.PRED "_inmaduro_a_rel" ]. inmanejabilidad_n1 := n_intr_uncount_le & [ STEM < "inmanejabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmanejabilidad_n_rel" ] ]. inmanejable_a1 := a_rel_prd_le & [ STEM < "inmanejable" >, SYNSEM.LKEYS.KEYREL.PRED "_inmanejable_a_rel" ]. inmanencia_n1 := n_ppcomp_uncount_le & [ STEM < "inmanencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmanencia_n_rel" ] ]. inmanente_a1 := a_rel_prd_le & [ STEM < "inmanente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmanente_a_rel" ]. inmaterial_a1 := a_rel_prd_le & [ STEM < "inmaterial" >, SYNSEM.LKEYS.KEYREL.PRED "_inmaterial_a_rel" ]. inmediación_n1 := n_intr_mass-or-count_le & [ STEM < "inmediación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmediación_n_rel" ] ]. inmediatamente_x1 := av_i_spr_le & [ STEM < "inmediatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmediatamente_x_rel" ]. inmediatez_n1 := n_ppcomp_uncount_le & [ STEM < "inmediatez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmediatez_n_rel" ] ]. inmediato_a1 := a_qual_intr_scopal_le & [ STEM < "inmediato" >, SYNSEM.LKEYS.KEYREL.PRED "_inmediato_a_rel" ]. inmejorable_a1 := a_rel_prd_le & [ STEM < "inmejorable" >, SYNSEM.LKEYS.KEYREL.PRED "_inmejorable_a_rel" ]. inmejorablemente_x1 := av_i_spr_le & [ STEM < "inmejorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmejorablemente_x_rel" ]. inmemorable_a1 := a_rel_prd_le & [ STEM < "inmemorable" >, SYNSEM.LKEYS.KEYREL.PRED "_inmemorable_a_rel" ]. inmemorablemente_x1 := av_i_spr_le & [ STEM < "inmemorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmemorablemente_x_rel" ]. inmemorial_a1 := a_rel_nonprd_intr_le & [ STEM < "inmemorial" >, SYNSEM.LKEYS.KEYREL.PRED "_inmemorial_a_rel" ]. inmensidad_n1 := n_intr_mass-or-count_le & [ STEM < "inmensidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmensidad_n_rel" ] ]. inmenso_a1 := a_rel_prd_le & [ STEM < "inmenso" >, SYNSEM.LKEYS.KEYREL.PRED "_inmenso_a_rel" ]. inmerecidamente_x1 := av_i_spr_le & [ STEM < "inmerecidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmerecidamente_x_rel" ]. inmerecido_a1 := a_rel_prd_le & [ STEM < "inmerecido" >, SYNSEM.LKEYS.KEYREL.PRED "_inmerecido_a_rel" ]. inmersión_n1 := n_result_intr_le & [ STEM < "inmersión" >, SYNSEM.LKEYS.KEYREL.PRED "_inmersión_n_rel" ]. inmerso_a1 := a_qual_intr_estar_le & [ STEM < "inmerso" >, SYNSEM.LKEYS.KEYREL.PRED "_inmerso_a_rel" ]. inmigración_n1 := n_event-result_intr_le & [ STEM < "inmigración" >, SYNSEM.LKEYS.KEYREL.PRED "_inmigración_n_rel" ]. inmigrado_n1 := n_intr_count_le & [ STEM < "inmigrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inmigrado_n_rel" ] ]. inmigrante_n1 := n_intr_count_le & [ STEM < "inmigrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inmigrante_n_rel" ] ]. inmigratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "inmigratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_inmigratorio_a_rel" ]. inminencia_n1 := n_intr_uncount_pl_le & [ STEM < "inminencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inminencia_n_rel" ] ]. inminente_a1 := a_qual_intr_scopal_le & [ STEM < "inminente" >, SYNSEM.LKEYS.KEYREL.PRED "_inminente_a_rel" ]. inminentemente_x1 := av_i_spr_le & [ STEM < "inminentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inminentemente_x_rel" ]. inmiscible_a1 := a_rel_nonprd_intr_le & [ STEM < "inmiscible" >, SYNSEM.LKEYS.KEYREL.PRED "_inmiscible_a_rel" ]. inmiscuir_v := v_pron_intr_mrkd_np*_le & [ STEM < "inmiscuir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_inmiscuir_v_rel" ] ]. inmisión_n1 := n_intr_count_le & [ STEM < "inmisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmisión_n_rel" ] ]. inmitancia_n1 := n_intr_uncount_le & [ STEM < "inmitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmitancia_n_rel" ] ]. inmobiliaria_n1 := n_intr_count_le & [ STEM < "inmobiliaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_inmobiliaria_n_rel" ] ]. inmobiliario_a1 := a_rel_nonprd_intr_le & [ STEM < "inmobiliario" >, SYNSEM.LKEYS.KEYREL.PRED "_inmobiliario_a_rel" ]. inmoderación_n1 := n_intr_mass_le & [ STEM < "inmoderación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmoderación_n_rel" ] ]. inmoderadamente_x1 := av_i_spr_le & [ STEM < "inmoderadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmoderadamente_x_rel" ]. inmodesto_a1 := a_qual_intr_ser_le & [ STEM < "inmodesto" >, SYNSEM.LKEYS.KEYREL.PRED "_inmodesto_a_rel" ]. inmodificable_a1 := a_rel_prd_le & [ STEM < "inmodificable" >, SYNSEM.LKEYS.KEYREL.PRED "_inmodificable_a_rel" ]. inmolar_v := v_trans_np_caus_le & [ STEM < "inmolar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmolar_v_rel" ]. inmoral_a1 := a_qual_intr_scopal_le & [ STEM < "inmoral" >, SYNSEM.LKEYS.KEYREL.PRED "_inmoral_a_rel" ]. inmoralidad_n1 := n_intr_mass-or-count_le & [ STEM < "inmoralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmoralidad_n_rel" ] ]. inmoralmente_x1 := av_i_spr_le & [ STEM < "inmoralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmoralmente_x_rel" ]. inmortal_a1 := a_rel_prd_le & [ STEM < "inmortal" >, SYNSEM.LKEYS.KEYREL.PRED "_inmortal_a_rel" ]. inmortalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inmortalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmortalidad_n_rel" ] ]. inmortalizar_v := v_trans_np_le & [ STEM < "inmortalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmortalizar_v_rel" ]. inmortalmente_x1 := av_i_spr_le & [ STEM < "inmortalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmortalmente_x_rel" ]. inmovible_a1 := a_rel_prd_le & [ STEM < "inmovible" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovible_a_rel" ]. inmovilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inmovilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmovilidad_n_rel" ] ]. inmovilismo_n1 := n_ppcomp_uncount_le & [ STEM < "inmovilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmovilismo_n_rel" ] ]. inmovilista_a1 := a_rel_nonprd_intr_le & [ STEM < "inmovilista" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovilista_a_rel" ]. inmovilización_n1 := n_event-result_intr_le & [ STEM < "inmovilización" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovilización_n_rel" ]. inmovilización_n2 := n_trans_le & [ STEM < "inmovilización" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovilización_n_rel" ]. inmovilizado_n1 := n_intr_count_le & [ STEM < "inmovilizado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmovilizado_n_rel" ] ]. inmovilizador_a1 := a_rel_nonprd_intr_le & [ STEM < "inmovilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovilizador_a_rel" ]. inmovilizar_v := v_trans_np_le & [ STEM < "inmovilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmovilizar_v_rel" ]. inmueble_a1 := a_rel_nonprd_intr_le & [ STEM < "inmueble" >, SYNSEM.LKEYS.KEYREL.PRED "_inmueble_a_rel" ]. inmueble_n1 := n_intr_count_le & [ STEM < "inmueble" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_inmueble_n_rel" ] ]. inmundicia_n1 := n_intr_uncount_pl_le & [ STEM < "inmundicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmundicia_n_rel" ] ]. inmundo_a1 := a_qual_intr_ser_le & [ STEM < "inmundo" >, SYNSEM.LKEYS.KEYREL.PRED "_inmundo_a_rel" ]. inmune_a1 := a_rel_prd_le & [ STEM < "inmune" >, SYNSEM.LKEYS.KEYREL.PRED "_inmune_a_rel" ]. inmunidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunidad_n_rel" ] ]. inmunitario_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunitario" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunitario_a_rel" ]. inmunización_n1 := n_trans_le & [ STEM < "inmunización" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunización_n_rel" ]. inmunizar_v := v_trans_np_mrkd_np*_le & [ STEM < "inunizar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_inmunizar_v_rel" ] ]. inmunoabsorción_n1 := n_intr_uncount_le & [ STEM < "inmunoabsorción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoabsorción_n_rel" ] ]. inmunoanálisis_n1 := n_intr_count_le & [ STEM < "inmunoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoanálisis_n_rel" ] ]. inmunocito_n1 := n_intr_count_le & [ STEM < "inmunocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inmunocito_n_rel" ] ]. inmunocompetencia_n1 := n_intr_uncount_le & [ STEM < "inmunocompetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunocompetencia_n_rel" ] ]. inmunocompetente_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunocompetente" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunocompetente_a_rel" ]. inmunoconglutinación_n1 := n_intr_uncount_le & [ STEM < "inmunoconglutinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoconglutinación_n_rel" ] ]. inmunoconglutinina_n1 := n_intr_mass-or-count_le & [ STEM < "inmunoconglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_inmunoconglutinina_n_rel" ] ]. inmunodeficiencia_n1 := n_intr_uncount_le & [ STEM < "inmunodeficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunodeficiencia_n_rel" ] ]. inmunodifusión_n1 := n_intr_count_le & [ STEM < "inmunodifusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunodifusión_n_rel" ] ]. inmunodominante_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunodominante" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunodominante_a_rel" ]. inmunofijación_n1 := n_intr_uncount_le & [ STEM < "inmunofijación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunofijación_n_rel" ] ]. inmunofluorescencia_n1 := n_intr_uncount_le & [ STEM < "inmunofluorescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunofluorescencia_n_rel" ] ]. inmunogenicidad_n1 := n_intr_uncount_le & [ STEM < "inmunogenicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunogenicidad_n_rel" ] ]. inmunoglobulina_n1 := n_intr_mass-or-count_le & [ STEM < "inmunoglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_inmunoglobulina_n_rel" ] ]. inmunoglobulínico_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunoglobulínico" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunoglobulínico_a_rel" ]. inmunogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunogénico_a_rel" ]. inmunohematología_n1 := n_intr_uncount_le & [ STEM < "inmunohematología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunohematología_n_rel" ] ]. inmunoincompetencia_n1 := n_intr_uncount_le & [ STEM < "inmunoincompetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoincompetencia_n_rel" ] ]. inmunología_n1 := n_intr_uncount_le & [ STEM < "inmunología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunología_n_rel" ] ]. inmunológico_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunológico" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunológico_a_rel" ]. inmunopatología_n1 := n_intr_uncount_pl_le & [ STEM < "inmunopatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunopatología_n_rel" ] ]. inmunopotenciación_n1 := n_intr_uncount_le & [ STEM < "inmunopotenciación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunopotenciación_n_rel" ] ]. inmunoprecipitación_n1 := n_intr_uncount_le & [ STEM < "inmunoprecipitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoprecipitación_n_rel" ] ]. inmunoproteína_n1 := n_intr_count_le & [ STEM < "inmunoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inmunoproteína_n_rel" ] ]. inmunorradiométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunorradiométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunorradiométrico_a_rel" ]. inmunorregulación_n1 := n_intr_count_le & [ STEM < "inmunorregulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunorregulación_n_rel" ] ]. inmunorregulador_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunorregulador" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunorregulador_a_rel" ]. inmunosupresión_n1 := n_intr_uncount_le & [ STEM < "inmunosupresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunosupresión_n_rel" ] ]. inmunosupresor_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunosupresor" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunosupresor_a_rel" ]. inmunotolerancia_n1 := n_intr_uncount_le & [ STEM < "inmunotolerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunotolerancia_n_rel" ] ]. inmunotoxina_n1 := n_intr_count_le & [ STEM < "inmunotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_inmunotoxina_n_rel" ] ]. inmunotransferencia_n1 := n_intr_uncount_le & [ STEM < "inmunotransferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunotransferencia_n_rel" ] ]. inmunotransfusión_n1 := n_intr_count_le & [ STEM < "inmunotransfusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunotransfusión_n_rel" ] ]. inmunógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "inmunógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_inmunógeno_a_rel" ]. inmunólogo_n1 := n_intr_count_le & [ STEM < "inmunólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inmunólogo_n_rel" ] ]. inmutabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inmutabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmutabilidad_n_rel" ] ]. inmutable_a1 := a_rel_prd_le & [ STEM < "inmutable" >, SYNSEM.LKEYS.KEYREL.PRED "_inmutable_a_rel" ]. inmutar_v1 := v_intr_io*_le & [ STEM < "inmutar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmutar_v_rel" ]. inmutar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "inmutar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmutar_v_rel" ]. inmutar_v3 := v_trans_np_caus_le & [ STEM < "inmutar" >, SYNSEM.LKEYS.KEYREL.PRED "_inmutar_v_rel" ]. inmóvil_a1 := a_qual_intr_estar_le & [ STEM < "inmóvil" >, SYNSEM.LKEYS.KEYREL.PRED "_inmóvil_a_rel" ]. innatamente_x1 := av_i_spr_le & [ STEM < "innatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_innatamente_x_rel" ]. innatismo_n1 := n_ppcomp_uncount_le & [ STEM < "innatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_innatismo_n_rel" ] ]. innato_a1 := a_rel_prd_le & [ STEM < "innato" >, SYNSEM.LKEYS.KEYREL.PRED "_innato_a_rel" ]. innatural_a1 := a_rel_prd_le & [ STEM < "innatural" >, SYNSEM.LKEYS.KEYREL.PRED "_innatural_a_rel" ]. innavegable_a1 := a_rel_prd_le & [ STEM < "innavegable" >, SYNSEM.LKEYS.KEYREL.PRED "_innavegable_a_rel" ]. innecesariamente_x1 := av_i_spr_le & [ STEM < "innecesariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_innecesariamente_x_rel" ]. innecesariedad_n1 := n_intr_count_le & [ STEM < "innecesariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_innecesariedad_n_rel" ] ]. innecesario_a1 := a_qual_intr_scopal_le & [ STEM < "innecesario" >, SYNSEM.LKEYS.KEYREL.PRED "_innecesario_a_rel" ]. innegable_a1 := a_qual_intr_scopal_le & [ STEM < "innegable" >, SYNSEM.LKEYS.KEYREL.PRED "_innegable_a_rel" ]. innegablemente_x1 := av_s_prhd_le & [ STEM < "innegablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_innegablemente_x_rel" ]. innoble_a1 := a_qual_intr_scopal_le & [ STEM < "innoble" >, SYNSEM.LKEYS.KEYREL.PRED "_innoble_a_rel" ]. innombrable_a1 := a_qual_intr_scopal_le & [ STEM < "innombrable" >, SYNSEM.LKEYS.KEYREL.PRED "_innombrable_a_rel" ]. innominado_a1 := a_rel_nonprd_intr_le & [ STEM < "innominado" >, SYNSEM.LKEYS.KEYREL.PRED "_innominado_a_rel" ]. innovación_n1 := n_trans_le & [ STEM < "innovación" >, SYNSEM.LKEYS.KEYREL.PRED "_innovación_n_rel" ]. innovador_a1 := a_qual_intr_scopal_le & [ STEM < "innovador" >, SYNSEM.LKEYS.KEYREL.PRED "_innovador_a_rel" ]. innovador_n1 := n_subj-nom_le & [ STEM < "innovador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_innovador_n_rel" ] ]. innovar_v := v_trans_np*_le & [ STEM < "innovar" >, SYNSEM.LKEYS.KEYREL.PRED "_innovar_v_rel" ]. innumerable_a1 := a_rel_prd_le & [ STEM < "innumerable" >, SYNSEM.LKEYS.KEYREL.PRED "_innumerable_a_rel" ]. inobediencia_n1 := n_intr_uncount_le & [ STEM < "inobediencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inobediencia_n_rel" ] ]. inobservancia_n1 := n_intr_uncount_le & [ STEM < "inobservancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inobservancia_n_rel" ] ]. inobservante_a1 := a_rel_prd_le & [ STEM < "inobservante" >, SYNSEM.LKEYS.KEYREL.PRED "_inobservante_a_rel" ]. inocencia_n1 := n_intr_mass_le & [ STEM < "inocencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inocencia_n_rel" ] ]. inocente_a1 := a_qual_intr_ser_le & [ STEM < "inocente" >, SYNSEM.LKEYS.KEYREL.PRED "_inocente_a_rel" ]. inocente_n1 := n_intr_count_le & [ STEM < "inocente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inocente_n_rel" ] ]. inocentemente_x1 := av_i_spr_le & [ STEM < "inocentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inocentemente_x_rel" ]. inocuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inocuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inocuidad_n_rel" ] ]. inoculable_a1 := a_rel_nonprd_intr_le & [ STEM < "inoculable" >, SYNSEM.LKEYS.KEYREL.PRED "_inoculable_a_rel" ]. inoculación_n1 := n_trans_le & [ STEM < "inoculación" >, SYNSEM.LKEYS.KEYREL.PRED "_inoculación_n_rel" ]. inoculador_n1 := n_subj-nom_le & [ STEM < "inoculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inoculador_n_rel" ] ]. inocular_v := v_ditrans_le & [ STEM < "inocular" >, SYNSEM.LKEYS.KEYREL.PRED "_inocular_v_rel" ]. inocuo_a1 := a_qual_intr_scopal_le & [ STEM < "inocuo" >, SYNSEM.LKEYS.KEYREL.PRED "_inocuo_a_rel" ]. inodoro_a1 := a_qual_intr_scopal_le & [ STEM < "inodoro" >, SYNSEM.LKEYS.KEYREL.PRED "_inodoro_a_rel" ]. inodoro_n1 := n_intr_count_le & [ STEM < "inodoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inodoro_n_rel" ] ]. inofensivamente_x1 := av_i_spr_le & [ STEM < "inofensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inofensivamente_x_rel" ]. inofensivo_a1 := a_qual_intr_scopal_le & [ STEM < "inofensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inofensivo_a_rel" ]. inoficiosidad_n1 := n_intr_uncount_le & [ STEM < "inoficiosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inoficiosidad_n_rel" ] ]. inoficioso_a1 := a_rel_prd_le & [ STEM < "inoficioso" >, SYNSEM.LKEYS.KEYREL.PRED "_inoficioso_a_rel" ]. inolvidable_a1 := a_qual_intr_scopal_le & [ STEM < "inolvidable" >, SYNSEM.LKEYS.KEYREL.PRED "_inolvidable_a_rel" ]. inoperable_a1 := a_rel_prd_le & [ STEM < "inoperable" >, SYNSEM.LKEYS.KEYREL.PRED "_inoperable_a_rel" ]. inoperancia_n1 := n_intr_uncount_le & [ STEM < "inoperancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inoperancia_n_rel" ] ]. inoperante_a1 := a_qual_intr_ser_le & [ STEM < "inoperante" >, SYNSEM.LKEYS.KEYREL.PRED "_inoperante_a_rel" ]. inoperativo_a1 := a_rel_nonprd_intr_le & [ STEM < "inoperativo" >, SYNSEM.LKEYS.KEYREL.PRED "_inoperativo_a_rel" ]. inopinado_a1 := a_rel_nonprd_intr_le & [ STEM < "inopinado" >, SYNSEM.LKEYS.KEYREL.PRED "_inopinado_a_rel" ]. inoportunamente_x1 := av_i_spr_le & [ STEM < "inoportunamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inoportunamente_x_rel" ]. inoportunidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inoportunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inoportunidad_n_rel" ] ]. inoportuno_a1 := a_qual_intr_scopal_le & [ STEM < "inoportuno" >, SYNSEM.LKEYS.KEYREL.PRED "_inoportuno_a_rel" ]. inorgánicamente_x1 := av_i_spr_le & [ STEM < "inorgánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inorgánicamente_x_rel" ]. inorgánico_a1 := a_rel_nonprd_intr_le & [ STEM < "inorgánico" >, SYNSEM.LKEYS.KEYREL.PRED "_inorgánico_a_rel" ]. inosilicato_n1 := n_intr_count_le & [ STEM < "inosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_inosilicato_n_rel" ] ]. inosina_n1 := n_intr_count_le & [ STEM < "inosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_inosina_n_rel" ] ]. inositol_n1 := n_intr_count_le & [ STEM < "inositol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_inositol_n_rel" ] ]. inoxidable_a1 := a_rel_nonprd_intr_le & [ STEM < "inoxidable" >, SYNSEM.LKEYS.KEYREL.PRED "_inoxidable_a_rel" ]. inquebrantable_a1 := a_qual_intr_scopal_le & [ STEM < "inquebrantable" >, SYNSEM.LKEYS.KEYREL.PRED "_inquebrantable_a_rel" ]. inquietante_a1 := a_qual_intr_scopal_le & [ STEM < "inquietante" >, SYNSEM.LKEYS.KEYREL.PRED "_inquietante_a_rel" ]. inquietantemente_x1 := av_i_spr_le & [ STEM < "inquietantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inquietantemente_x_rel" ]. inquietar_v1 := v_intr_io*_le & [ STEM < "inquietar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_inquietar_v_rel" ] ]. inquietar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "inquietar" >, SYNSEM.LKEYS.KEYREL.PRED "_inquietar_v_rel" ]. inquietar_v3 := v_trans_np_caus_le & [ STEM < "inquietar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_inquietar_v_rel" ] ]. inquieto_a1 := a_qual_intr_ser_le & [ STEM < "inquieto" >, SYNSEM.LKEYS.KEYREL.PRED "_inquieto_a_rel" ]. inquietud_n1 := n_intr_mass-or-count_le & [ STEM < "inquietud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inquietud_n_rel" ] ]. inquilinato_n1 := n_intr_uncount_le & [ STEM < "inquilinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inquilinato_n_rel" ] ]. inquilino_n1 := n_intr_count_le & [ STEM < "inquilino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inquilino_n_rel" ] ]. inquirir_v1 := v_trans_np_le & [ STEM < "inquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_inquirir_v_rel" ]. inquirir_v2 := v_trans_ques_le & [ STEM < "inquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_inquirir_v_rel" ]. inquisición_n1 := n_intr_count_le & [ STEM < "inquisición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_inquisición_n_rel" ] ]. inquisidor_n1 := n_subj-nom_le & [ STEM < "inquisidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inquisidor_n_rel" ] ]. inquisitivo_a1 := a_qual_intr_scopal_le & [ STEM < "inquisitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inquisitivo_a_rel" ]. inquisitorial_a1 := a_rel_nonprd_intr_le & [ STEM < "inquisitorial" >, SYNSEM.LKEYS.KEYREL.PRED "_inquisitorial_a_rel" ]. inquisión_n1 := n_trans_le & [ STEM < "inquisión" >, SYNSEM.LKEYS.KEYREL.PRED "_inquisión_n_rel" ]. insaciable_a1 := a_qual_intr_scopal_le & [ STEM < "insaciable" >, SYNSEM.LKEYS.KEYREL.PRED "_insaciable_a_rel" ]. insaciablemente_x1 := av_i_spr_le & [ STEM < "insaciablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insaciablemente_x_rel" ]. insaculación_n1 := n_trans_le & [ STEM < "insaculación" >, SYNSEM.LKEYS.KEYREL.PRED "_insaculación_n_rel" ]. insacular_v := v_trans_np_le & [ STEM < "insacular" >, SYNSEM.LKEYS.KEYREL.PRED "_insacular_v_rel" ]. insalivación_n1 := n_trans_le & [ STEM < "insalivación" >, SYNSEM.LKEYS.KEYREL.PRED "_insalivación_n_rel" ]. insalubre_a1 := a_qual_intr_scopal_le & [ STEM < "insalubre" >, SYNSEM.LKEYS.KEYREL.PRED "_insalubre_a_rel" ]. insalubridad_n1 := n_intr_mass-or-count_le & [ STEM < "insalubridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insalubridad_n_rel" ] ]. insalvable_a1 := a_rel_prd_le & [ STEM < "insalvable" >, SYNSEM.LKEYS.KEYREL.PRED "_insalvable_a_rel" ]. insano_a1 := a_qual_intr_ser_le & [ STEM < "insano" >, SYNSEM.LKEYS.KEYREL.PRED "_insano_a_rel" ]. insanía_n1 := n_intr_uncount_le & [ STEM < "insanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insanía_n_rel" ] ]. insatisfacción_n1 := n_intr_mass-or-count_le & [ STEM < "insatisfacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insatisfacción_n_rel" ] ]. insatisfactorio_a1 := a_qual_intr_scopal_le & [ STEM < "insatisfactorio" >, SYNSEM.LKEYS.KEYREL.PRED "_insatisfactorio_a_rel" ]. insatisfecho_a1 := a_qual_intr_estar_le & [ STEM < "insatisfecho" >, SYNSEM.LKEYS.KEYREL.PRED "_insatisfecho_a_rel" ]. inscribible_a1 := a_rel_prd_le & [ STEM < "inscribible" >, SYNSEM.LKEYS.KEYREL.PRED "_inscribible_a_rel" ]. inscripción_n1 := n_trans_le & [ STEM < "inscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_inscripción_n_rel" ]. insecticida_a1 := a_rel_nonprd_intr_le & [ STEM < "insecticida" >, SYNSEM.LKEYS.KEYREL.PRED "_insecticida_a_rel" ]. insecticida_n1 := n_intr_mass_le & [ STEM < "insecticida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_insecticida_n_rel" ] ]. insecto_n1 := n_intr_count_le & [ STEM < "insecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_insecto_n_rel" ] ]. insectívoro_a1 := a_rel_prd_le & [ STEM < "insectívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_insectívoro_a_rel" ]. inseguridad_n1 := n_intr_mass-or-count_le & [ STEM < "inseguridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inseguridad_n_rel" ] ]. inseguro_a1 := a_qual_intr_ser_le & [ STEM < "inseguro" >, SYNSEM.LKEYS.KEYREL.PRED "_inseguro_a_rel" ]. inseminación_n1 := n_trans_le & [ STEM < "inseminación" >, SYNSEM.LKEYS.KEYREL.PRED "_inseminación_n_rel" ]. inseminar_v := v_trans_np_le & [ STEM < "inseminar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT ani_hum, PRED "_inseminar_v_rel" ] ]. insensatamente_x1 := av_i_spr_le & [ STEM < "insensatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_insensatamente_x_rel" ]. insensatez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "insensatez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insensatez_n_rel" ] ]. insensato_a1 := a_qual_intr_ser_le & [ STEM < "insensato" >, SYNSEM.LKEYS.KEYREL.PRED "_insensato_a_rel" ]. insensibilidad_n1 := n_intr_mass-or-count_le & [ STEM < "insensibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insensibilidad_n_rel" ] ]. insensibilización_n1 := n_trans_le & [ STEM < "insensibilización" >, SYNSEM.LKEYS.KEYREL.PRED "_insensibilización_n_rel" ]. insensibilizar_v := v_trans_np_le & [ STEM < "insensibilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_insensibilizar_v_rel" ]. insensible_a1 := a_qual_trans*_ser_le & [ STEM < "insensible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_insensible_a_rel" ] ]. insensiblemente_x1 := av_i_spr_le & [ STEM < "insensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insensiblemente_x_rel" ]. inseparable_a1 := a_qual_intr_scopal_le & [ STEM < "inseparable" >, SYNSEM.LKEYS.KEYREL.PRED "_inseparable_a_rel" ]. inseparablemente_x1 := av_i_spr_le & [ STEM < "inseparablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inseparablemente_x_rel" ]. insepulto_a1 := a_rel_nonprd_intr_le & [ STEM < "insepulto" >, SYNSEM.LKEYS.KEYREL.PRED "_insepulto_a_rel" ]. inserción_n1 := n_trans_le & [ STEM < "inserción" >, SYNSEM.LKEYS.KEYREL.PRED "_inserción_n_rel" ]. inserir_v := v_trans_np_lcomp_loc*_le & [ STEM < "inserir" >, SYNSEM.LKEYS.KEYREL.PRED "_inserir_v_rel" ]. insertar_v1 := v_trans_cp_prop_fin_le & [ STEM < "insertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_insertar_v_rel" ] ]. insertar_v2 := v_trans_np_lcomp_loc*_le & [ STEM < "insertar" >, SYNSEM.LKEYS.KEYREL.PRED "_insertar_v_rel" ]. inserto_n1 := n_intr_count_le & [ STEM < "inserto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inserto_n_rel" ] ]. inservible_a1 := a_qual_intr_scopal_le & [ STEM < "inservible" >, SYNSEM.LKEYS.KEYREL.PRED "_inservible_a_rel" ]. insesgar_v := v_trans_np_le & [ STEM < "insesgar" >, SYNSEM.LKEYS.KEYREL.PRED "_insesgar_v_rel" ]. insidiosamente_x1 := av_i_spr_le & [ STEM < "insidiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_insidiosamente_x_rel" ]. insidioso_a1 := a_qual_intr_ser_le & [ STEM < "insidioso" >, SYNSEM.LKEYS.KEYREL.PRED "_insidioso_a_rel" ]. insignia_n1 := n_intr_count_le & [ STEM < "insignia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_insignia_n_rel" ] ]. insignificancia_n1 := n_ppcomp_mass-or-count_le & [ STEM < "insignificancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insignificancia_n_rel" ] ]. insignificante_a1 := a_qual_intr_scopal_le & [ STEM < "insignificante" >, SYNSEM.LKEYS.KEYREL.PRED "_insignificante_a_rel" ]. insignificantemente_x1 := av_i_spr_le & [ STEM < "insignificantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insignificantemente_x_rel" ]. insinceridad_n1 := n_intr_mass-or-count_le & [ STEM < "insinceridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insinceridad_n_rel" ] ]. insincero_a1 := a_qual_intr_ser_le & [ STEM < "insincero" >, SYNSEM.LKEYS.KEYREL.PRED "_insincero_a_rel" ]. insinuación_n1 := n_trans_le & [ STEM < "insinuación" >, SYNSEM.LKEYS.KEYREL.PRED "_insinuación_n_rel" ]. insinuador_a1 := a_qual_intr_scopal_le & [ STEM < "insinuador" >, SYNSEM.LKEYS.KEYREL.PRED "_insinuador_a_rel" ]. insinuante_a1 := a_qual_intr_scopal_le & [ STEM < "insinuante" >, SYNSEM.LKEYS.KEYREL.PRED "_insinuante_a_rel" ]. insinuar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "insinuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_insinuar_v_rel" ] ]. insinuar_v2 := v_ditrans*_le & [ STEM < "insinuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_insinuar_v_rel" ] ]. insinuar_v3 := v_pron_intr_io*_le & [ STEM < "insinuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_insinuar_v_rel" ] ]. insipidez_n1 := n_ppcomp_uncount_le & [ STEM < "insipidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insipidez_n_rel" ] ]. insistencia_n1 := n_ppcomp_uncount_le & [ STEM < "insistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insistencia_n_rel" ] ]. insistente_a1 := a_qual_intr_ser_le & [ STEM < "insistente" >, SYNSEM.LKEYS.KEYREL.PRED "_insistente_a_rel" ]. insistentemente_x1 := av_i_spr_le & [ STEM < "insistentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insistentemente_x_rel" ]. insistir_v1 := v_intr_mrkd_np_le & [ STEM < "insistir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_insistir_v_rel" ] ] ]. insistir_v2 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "insistir" >, SYNSEM.LKEYS [ --COMPKEY en_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_insistir_v_rel" ] ] ]. insobornable_a1 := a_qual_intr_ser_le & [ STEM < "insobornable" >, SYNSEM.LKEYS.KEYREL.PRED "_insobornable_a_rel" ]. insociabilidad_n1 := n_intr_uncount_le & [ STEM < "insociabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insociabilidad_n_rel" ] ]. insociable_a1 := a_qual_intr_ser_le & [ STEM < "insociable" >, SYNSEM.LKEYS.KEYREL.PRED "_insociable_a_rel" ]. insociablemente_x1 := av_i_spr_le & [ STEM < "insociablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insociablemente_x_rel" ]. insocial_a1 := a_qual_intr_ser_le & [ STEM < "insocial" >, SYNSEM.LKEYS.KEYREL.PRED "_insocial_a_rel" ]. insocialmente_x1 := av_i_spr_le & [ STEM < "insocialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_insocialmente_x_rel" ]. insolación_n1 := n_trans_le & [ STEM < "insolación" >, SYNSEM.LKEYS.KEYREL.PRED "_insolación_n_rel" ]. insolencia_n1 := n_intr_uncount_pl_le & [ STEM < "insolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insolencia_n_rel" ] ]. insolente_a1 := a_qual_intr_ser_le & [ STEM < "insolente" >, SYNSEM.LKEYS.KEYREL.PRED "_insolente_a_rel" ]. insolentemente_x1 := av_i_spr_le & [ STEM < "insolentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insolentemente_x_rel" ]. insolidaridad_n1 := n_intr_mass-or-count_le & [ STEM < "insolidaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insolidaridad_n_rel" ] ]. insoluble_a1 := a_rel_prd_le & [ STEM < "insoluble" >, SYNSEM.LKEYS.KEYREL.PRED "_insoluble_a_rel" ]. insoluto_a1 := a_rel_nonprd_intr_le & [ STEM < "insoluto" >, SYNSEM.LKEYS.KEYREL.PRED "_insoluto_a_rel" ]. insolvencia_n1 := n_intr_uncount_le & [ STEM < "insolvencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insolvencia_n_rel" ] ]. insolvente_a1 := a_qual_intr_scopal_le & [ STEM < "insolvente" >, SYNSEM.LKEYS.KEYREL.PRED "_insolvente_a_rel" ]. insomne_a1 := a_qual_intr_ser_le & [ STEM < "insomne" >, SYNSEM.LKEYS.KEYREL.PRED "_insomne_a_rel" ]. insondable_a1 := a_rel_prd_le & [ STEM < "insondable" >, SYNSEM.LKEYS.KEYREL.PRED "_insondable_a_rel" ]. insonoramente_x1 := av_i_spr_le & [ STEM < "insonoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_insonoramente_x_rel" ]. insonoridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "insonoridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insonoridad_n_rel" ] ]. insonorización_n1 := n_trans_le & [ STEM < "insonorización" >, SYNSEM.LKEYS.KEYREL.PRED "_insonorización_n_rel" ]. insonorizador_a1 := a_rel_nonprd_intr_le & [ STEM < "insonorizador" >, SYNSEM.LKEYS.KEYREL.PRED "_insonorizador_a_rel" ]. insonorizar_v := v_trans_np*_le & [ STEM < "insonorizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_insonorizar_v_rel" ] ]. insonoro_a1 := a_rel_prd_le & [ STEM < "insonoro" >, SYNSEM.LKEYS.KEYREL.PRED "_insonoro_a_rel" ]. insoportable_a1 := a_qual_intr_scopal_le & [ STEM < "insoportable" >, SYNSEM.LKEYS.KEYREL.PRED "_insoportable_a_rel" ]. insoportablemente_x1 := av_i_spr_le & [ STEM < "insoportablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insoportablemente_x_rel" ]. insoslayable_a1 := a_rel_prd_le & [ STEM < "insoslayable" >, SYNSEM.LKEYS.KEYREL.PRED "_insoslayable_a_rel" ]. insospechadamente_x1 := av_i_spr_le & [ STEM < "insospechadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_insospechadamente_x_rel" ]. insospechado_a1 := a_rel_prd_le & [ STEM < "insospechado" >, SYNSEM.LKEYS.KEYREL.PRED "_insospechado_a_rel" ]. insostenible_a1 := a_rel_prd_le & [ STEM < "insostenible" >, SYNSEM.LKEYS.KEYREL.PRED "_insostenible_a_rel" ]. inspeccionar_v := v_trans_np_le & [ STEM < "inspeccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_inspeccionar_v_rel" ]. inspección_n1 := n_intr_count_le & [ STEM < "inspección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inspección_n_rel" ] ]. inspección_n2 := n_trans_le & [ STEM < "inspección" >, SYNSEM.LKEYS.KEYREL.PRED "_inspección_n_rel" ]. inspector_a1 := a_rel_nonprd_intr_le & [ STEM < "inspector" >, SYNSEM.LKEYS.KEYREL.PRED "_inspector_a_rel" ]. inspector_n1 := n_subj-nom_le & [ STEM < "inspector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inspector_n_rel" ] ]. inspiración_n1 := n_trans_le & [ STEM < "inspiración" >, SYNSEM.LKEYS.KEYREL.PRED "_inspiración_n_rel" ]. inspirador_a1 := a_rel_nonprd_intr_le & [ STEM < "inspirador" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirador_a_rel" ]. inspirador_n1 := n_intr_count_le & [ STEM < "inspirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inspirador_n_rel" ] ]. inspirar_v1 := v_ditrans_le & [ STEM < "inspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirar_v_rel" ]. inspirar_v2 := v_intr_le & [ STEM < "inspirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_inspirar_v_rel" ] ]. inspirar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "inspirar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inspirar_v_rel" ] ] ]. inspirar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "inspirar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_inspirar_v_rel" ] ] ]. inspirar_v5 := v_subj_cp_prop_ditrans*_le & [ STEM < "inspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirar_v_rel" ]. inspirar_v6 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "inspirar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_inspirar_v_rel" ] ] ]. inspirar_v7 := v_trans_np_le & [ STEM < "inspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirar_v_rel" ]. inspirativamente_x1 := av_i_spr_le & [ STEM < "inspirativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirativamente_x_rel" ]. inspirativo_a1 := a_rel_nonprd_intr_le & [ STEM < "inspirativo" >, SYNSEM.LKEYS.KEYREL.PRED "_inspirativo_a_rel" ]. instalable_a1 := a_rel_prd_le & [ STEM < "instalable" >, SYNSEM.LKEYS.KEYREL.PRED "_instalable_a_rel" ]. instalación_n1 := n_trans_le & [ STEM < "instalación" >, SYNSEM.LKEYS.KEYREL.PRED "_instalación_n_rel" ]. instalación_n2 := n_intr_count_le & [ STEM < "instalación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_instalación_n_rel" ] ]. instalador_n1 := n_subj-nom_le & [ STEM < "instalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_instalador_n_rel" ] ]. instalar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "instalar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_instalar_v_rel" ] ] ]. instalar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "instalar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_instalar_v_rel" ] ] ]. instalar_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "instalar" >, SYNSEM.LKEYS.KEYREL.PRED "_instalar_v_rel" ]. instancia_n1 := n_intr_count_le & [ STEM < "instancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_instancia_n_rel" ] ]. instantaneidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "instantaneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_instantaneidad_n_rel" ] ]. instante_n1 := n_intr_count_le & [ STEM < "instante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_instante_n_rel" ] ]. instantánea_n1 := n_intr_count_le & [ STEM < "instantánea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_instantánea_n_rel" ] ]. instantáneamente_x1 := av_i_le & [ STEM < "instantáneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_instantáneamente_x_rel" ]. instantáneo_a1 := a_rel_prd_le & [ STEM < "instantáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_instantáneo_a_rel" ]. instar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "instar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_instar_v_rel" ] ] ]. instar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "instar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_instar_v_rel" ] ] ]. instar_v3 := v_trans_np_mrkd_np_le & [ STEM < "instar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_instar_v_rel" ] ] ]. instauración_n1 := n_trans_le & [ STEM < "instauración" >, SYNSEM.LKEYS.KEYREL.PRED "_instauración_n_rel" ]. instaurar_v := v_trans_np_le & [ STEM < "instaurar" >, SYNSEM.LKEYS.KEYREL.PRED "_instaurar_v_rel" ]. instigación_n1 := n_trans_le & [ STEM < "instigación" >, SYNSEM.LKEYS.KEYREL.PRED "_instigación_n_rel" ]. instigador_n1 := n_subj-nom_le & [ STEM < "instigador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_instigador_n_rel" ] ]. instilación_n1 := n_trans_le & [ STEM < "instilación" >, SYNSEM.LKEYS.KEYREL.PRED "_instilación_n_rel" ]. instilar_v := v_ditrans*_le & [ STEM < "instilar" >, SYNSEM.LKEYS.KEYREL.PRED "_instilar_v_rel" ]. instintivamente_x1 := av_i_spr_le & [ STEM < "instintivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_instintivamente_x_rel" ]. instintivo_a1 := a_qual_intr_scopal_le & [ STEM < "instintivo" >, SYNSEM.LKEYS.KEYREL.PRED "_instintivo_a_rel" ]. institucional_a1 := a_rel_nonprd_intr_le & [ STEM < "institucional" >, SYNSEM.LKEYS.KEYREL.PRED "_institucional_a_rel" ]. institucionalismo_n1 := n_intr_uncount_le & [ STEM < "institucionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_institucionalismo_n_rel" ] ]. institucionalización_n1 := n_trans_le & [ STEM < "institucionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_institucionalización_n_rel" ]. institucionalizar_v := v_trans_np_le & [ STEM < "institucionalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_institucionalizar_v_rel" ]. institucionalmente_x1 := av_i_spr_le & [ STEM < "institucionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_institucionalmente_x_rel" ]. institución_n1 := n_intr_count_le & [ STEM < "institución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_institución_n_rel" ] ]. instituir_v1 := v_trans_np_le & [ STEM < "instituir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro_sem, PRED "_instituir_v_rel" ] ]. instituto_n1 := n_intr_count_le & [ STEM < "instituto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_instituto_n_rel" ] ]. instruccional_a1 := a_rel_nonprd_intr_le & [ STEM < "instruccional" >, SYNSEM.LKEYS.KEYREL.PRED "_instruccional_a_rel" ]. instrucción_n1 := n_intr_mass_le & [ STEM < "instrucción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_instrucción_n_rel" ] ]. instructivamente_x1 := av_i_spr_le & [ STEM < "instructivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_instructivamente_x_rel" ]. instructivo_a1 := a_qual_intr_scopal_le & [ STEM < "instructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_instructivo_a_rel" ]. instructor_a1 := a_rel_nonprd_intr_le & [ STEM < "instructor" >, SYNSEM.LKEYS.KEYREL.PRED "_instructor_a_rel" ]. instructor_n1 := n_subj-nom_le & [ STEM < "instructor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_instructor_n_rel" ] ]. instructorio_a1 := a_rel_nonprd_intr_le & [ STEM < "instructorio" >, SYNSEM.LKEYS.KEYREL.PRED "_instructorio_a_rel" ]. instruir_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "instruir" >, SYNSEM.LKEYS.KEYREL.PRED "_instruir_v_rel" ]. instruir_v3 := v_trans_np_le & [ STEM < "instruir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_instruir_v_rel" ] ]. instrumentación_n1 := n_trans_le & [ STEM < "instrumentación" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumentación_n_rel" ]. instrumental_a1 := a_rel_nonprd_intr_le & [ STEM < "instrumental" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumental_a_rel" ]. instrumentalismo_n1 := n_intr_uncount_le & [ STEM < "instrumentalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_instrumentalismo_n_rel" ] ]. instrumentalista_n1 := n_intr_count_le & [ STEM < "instrumentalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_instrumentalista_n_rel" ] ]. instrumentalización_n1 := n_trans_le & [ STEM < "instrumentalización" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumentalización_n_rel" ]. instrumentalizar_v := v_trans_np_le & [ STEM < "instrumentalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumentalizar_v_rel" ]. instrumentalmente_x1 := av_i_spr_le & [ STEM < "instrumentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumentalmente_x_rel" ]. instrumentar_v := v_trans_np_le & [ STEM < "instrumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_instrumentar_v_rel" ]. instrumentista_n1 := n_intr_count_le & [ STEM < "instrumentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_instrumentista_n_rel" ] ]. instrumento_n1 := n_intr_count_le & [ STEM < "instrumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_instrumento_n_rel" ] ]. insubordinación_n1 := n_intr_mass_le & [ STEM < "insubordinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insubordinación_n_rel" ] ]. insubsanable_a1 := a_rel_prd_le & [ STEM < "insubsanable" >, SYNSEM.LKEYS.KEYREL.PRED "_insubsanable_a_rel" ]. insubstancial_a1 := a_rel_prd_le & [ STEM < "insubstancial" >, SYNSEM.LKEYS.KEYREL.PRED "_insubstancial_a_rel" ]. insubstancialmente_x1 := av_i_spr_le & [ STEM < "insubstancialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_insubstancialmente_x_rel" ]. insubstituible_a1 := a_rel_prd_le & [ STEM < "insubstituible" >, SYNSEM.LKEYS.KEYREL.PRED "_insubstituible_a_rel" ]. insuficiencia_n1 := n_intr_uncount_le & [ STEM < "insuficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insuficiencia_n_rel" ] ]. insuficientemente_x1 := av_i_spr_le & [ STEM < "insuficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_insuficientemente_x_rel" ]. insuflación_n1 := n_trans_le & [ STEM < "insuflación" >, SYNSEM.LKEYS.KEYREL.PRED "_insuflación_n_rel" ]. insufrible_a1 := a_qual_intr_scopal_le & [ STEM < "insufrible" >, SYNSEM.LKEYS.KEYREL.PRED "_insufrible_a_rel" ]. insular_a1 := a_rel_nonprd_intr_le & [ STEM < "insular" >, SYNSEM.LKEYS.KEYREL.PRED "_insular_a_rel" ]. insularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "insularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insularidad_n_rel" ] ]. insulina_n1 := n_intr_mass_le & [ STEM < "insulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_insulina_n_rel" ] ]. insulinización_n1 := n_trans_le & [ STEM < "insulinización" >, SYNSEM.LKEYS.KEYREL.PRED "_insulinización_n_rel" ]. insulinorresistencia_n1 := n_intr_uncount_le & [ STEM < "insulinorresistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insulinorresistencia_n_rel" ] ]. insulso_a1 := a_qual_intr_ser_le & [ STEM < "insulso" >, SYNSEM.LKEYS.KEYREL.PRED "_insulso_a_rel" ]. insultante_a1 := a_qual_intr_scopal_le & [ STEM < "insultante" >, SYNSEM.LKEYS.KEYREL.PRED "_insultante_a_rel" ]. insulto_n1 := n_intr_count_le & [ STEM < "insulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_insulto_n_rel" ] ]. insumergible_a1 := a_rel_prd_le & [ STEM < "insumergible" >, SYNSEM.LKEYS.KEYREL.PRED "_insumergible_a_rel" ]. insumisión_n1 := n_intr_uncount_le & [ STEM < "insumisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insumisión_n_rel" ] ]. insumiso_a1 := a_qual_intr_ser_le & [ STEM < "insumiso" >, SYNSEM.LKEYS.KEYREL.PRED "_insumiso_a_rel" ]. insuperable_a1 := a_rel_prd_le & [ STEM < "insuperable" >, SYNSEM.LKEYS.KEYREL.PRED "_insuperable_a_rel" ]. insurgente_a1 := a_rel_nonprd_intr_le & [ STEM < "insurgente" >, SYNSEM.LKEYS.KEYREL.PRED "_insurgente_a_rel" ]. insurreccional_a1 := a_rel_nonprd_intr_le & [ STEM < "insurreccional" >, SYNSEM.LKEYS.KEYREL.PRED "_insurreccional_a_rel" ]. insurreccionar_v := v_pron_unacc_perf_le & [ STEM < "insurreccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_insurreccionar_v_rel" ]. insurrección_n1 := n_intr_count_le & [ STEM < "insurrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insurrección_n_rel" ] ]. insurrecto_a1 := a_qual_intr_ser_le & [ STEM < "insurrecto" >, SYNSEM.LKEYS.KEYREL.PRED "_insurrecto_a_rel" ]. insurrecto_n1 := n_intr_count_le & [ STEM < "insurrecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_insurrecto_n_rel" ] ]. insusceptibilidad_n1 := n_intr_uncount_le & [ STEM < "insusceptibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insusceptibilidad_n_rel" ] ]. insustancial_a1 := a_rel_prd_le & [ STEM < "insustancial" >, SYNSEM.LKEYS.KEYREL.PRED "_insustancial_a_rel" ]. insustancialmente_x1 := av_i_spr_le & [ STEM < "insustancialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_insustancialmente_x_rel" ]. insustituible_a1 := a_rel_prd_le & [ STEM < "insustituible" >, SYNSEM.LKEYS.KEYREL.PRED "_insustituible_a_rel" ]. insípidamente_x1 := av_i_spr_le & [ STEM < "insípidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_insípidamente_x_rel" ]. insípido_a1 := a_qual_intr_scopal_le & [ STEM < "insípido" >, SYNSEM.LKEYS.KEYREL.PRED "_insípido_a_rel" ]. insólitamente_x1 := av_i_spr_le & [ STEM < "insólitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_insólitamente_x_rel" ]. insólito_a1 := a_qual_intr_scopal_le & [ STEM < "insólito" >, SYNSEM.LKEYS.KEYREL.PRED "_insólito_a_rel" ]. insuficiente_a1 := a_qual_intr_scopal_le & [ STEM < "insuficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_insuficiente_a_rel" ]. intachable_a1 := a_rel_prd_le & [ STEM < "intachable" >, SYNSEM.LKEYS.KEYREL.PRED "_intachable_a_rel" ]. intachablemente_x1 := av_i_spr_le & [ STEM < "intachablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_intachablemente_x_rel" ]. intacto_a1 := a_qual_intr_estar_le & [ STEM < "intacto" >, SYNSEM.LKEYS.KEYREL.PRED "_intacto_a_rel" ]. intangible_a1 := a_qual_intr_scopal_le & [ STEM < "intangible" >, SYNSEM.LKEYS.KEYREL.PRED "_intangible_a_rel" ]. integrable_a1 := a_rel_prd_le & [ STEM < "integrable" >, SYNSEM.LKEYS.KEYREL.PRED "_integrable_a_rel" ]. integración_n1 := n_trans_le & [ STEM < "integración" >, SYNSEM.LKEYS.KEYREL.PRED "_integración_n_rel" ]. integrador_a1 := a_rel_nonprd_intr_le & [ STEM < "integrador" >, SYNSEM.LKEYS.KEYREL.PRED "_integrador_a_rel" ]. integrador_n1 := n_intr_count_le & [ STEM < "integrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_integrador_n_rel" ] ]. integral_n1 := n_intr_count_le & [ STEM < "integral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_integral_n_rel" ] ]. integralmente_x1 := av_i_spr_le & [ STEM < "integralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_integralmente_x_rel" ]. integrante_a1 := a_qual_trans*_ser_le & [ STEM < "integrante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_integrante_a_rel" ] ]. integrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "integrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_integrativo_a_rel" ]. integridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "integridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_integridad_n_rel" ] ]. integrina_n1 := n_intr_mass-or-count_le & [ STEM < "integrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_integrina_n_rel" ] ]. integrismo_n1 := n_ppcomp_uncount_le & [ STEM < "integrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_integrismo_n_rel" ] ]. integrista_a1 := a_qual_intr_scopal_le & [ STEM < "integrista" >, SYNSEM.LKEYS.KEYREL.PRED "_integrista_a_rel" ]. integrista_n1 := n_intr_count_le & [ STEM < "integrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_integrista_n_rel" ] ]. intelectivamente_x1 := av_i_spr_le & [ STEM < "intelectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intelectivamente_x_rel" ]. intelectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "intelectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intelectivo_a_rel" ]. intelectual_a1 := a_qual_intr_ser_le & [ STEM < "intelectual" >, SYNSEM.LKEYS.KEYREL.PRED "_intelectual_a_rel" ]. intelectual_n1 := n_intr_count_le & [ STEM < "intelectual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intelectual_n_rel" ] ]. intelectualismo_n1 := n_intr_uncount_le & [ STEM < "intelectualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intelectualismo_n_rel" ] ]. intelectualización_n1 := n_trans_le & [ STEM < "intelectualización" >, SYNSEM.LKEYS.KEYREL.PRED "_intelectualización_n_rel" ]. intelectualmente_x1 := av_i_spr_le & [ STEM < "intelectualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intelectualmente_x_rel" ]. inteligencia_n1 := n_intr_mass_le & [ STEM < "inteligencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inteligencia_n_rel" ] ]. inteligente_a1 := a_qual_intr_ser_le & [ STEM < "inteligente" >, SYNSEM.LKEYS.KEYREL.PRED "_inteligente_a_rel" ]. inteligentemente_x1 := av_s_spr_le & [ STEM < "inteligentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inteligentemente_x_rel" ]. inteligibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inteligibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inteligibilidad_n_rel" ] ]. inteligible_a1 := a_qual_intr_scopal_le & [ STEM < "inteligible" >, SYNSEM.LKEYS.KEYREL.PRED "_inteligible_a_rel" ]. intemperie_n1 := n_intr_count_le & [ STEM < "intemperie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_intemperie_n_rel" ] ]. intempestivo_a1 := a_qual_intr_ser_le & [ STEM < "intempestivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intempestivo_a_rel" ]. intencionadamente_x1 := av_i_spr_le & [ STEM < "intencionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intencionadamente_x_rel" ]. intencionado_a1 := a_qual_intr_scopal_le & [ STEM < "intencionado" >, SYNSEM.LKEYS.KEYREL.PRED "_intencionado_a_rel" ]. intencional_a1 := a_qual_intr_scopal_le & [ STEM < "intencional" >, SYNSEM.LKEYS.KEYREL.PRED "_intencional_a_rel" ]. intencionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "intencionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intencionalidad_n_rel" ] ]. intencionalmente_x1 := av_s_spr_le & [ STEM < "intencionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intencionalmente_x_rel" ]. intencionalmente_x2 := av_i_psthd_spr_le & [ STEM < "intencionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intencionalmente_x_rel" ]. intención_n1 := n_intr_mass-or-count_le & [ STEM < "intención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intención_n_rel" ] ]. intendencia_n1 := n_intr_uncount_pl_le & [ STEM < "intendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intendencia_n_rel" ] ]. intendente_n1 := n_intr_count_le & [ STEM < "intendente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intendente_n_rel" ] ]. intensamente_x1 := av_i_spr_le & [ STEM < "intensamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intensamente_x_rel" ]. intensidad_n1 := n_intr_mass_le & [ STEM < "intensidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_intensidad_n_rel" ] ]. intensificación_n1 := n_trans_le & [ STEM < "intensificación" >, SYNSEM.LKEYS.KEYREL.PRED "_intensificación_n_rel" ]. intensificador_a1 := a_rel_nonprd_intr_le & [ STEM < "intensificador" >, SYNSEM.LKEYS.KEYREL.PRED "_intensificador_a_rel" ]. intensificador_n1 := n_intr_count_le & [ STEM < "intensificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intensificador_n_rel" ] ]. intensificar_v := v_trans_np_caus_le & [ STEM < "intensificar" >, SYNSEM.LKEYS.KEYREL.PRED "_intensificar_v_rel" ]. intensivamente_x1 := av_i_spr_le & [ STEM < "intensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intensivamente_x_rel" ]. intensivo_a1 := a_qual_intr_scopal_le & [ STEM < "intensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intensivo_a_rel" ]. intenso_a1 := a_qual_intr_scopal_le & [ STEM < "intenso" >, SYNSEM.LKEYS.KEYREL.PRED "_intenso_a_rel" ]. intentar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "intentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_intentar_v_rel" ] ]. intentar_v2 := v_trans_np_le & [ STEM < "intentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_intentar_v_rel" ] ]. intento_n1 := n_intr_count_le & [ STEM < "intento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intento_n_rel" ] ]. inter_nos_x1 := av_i_le & [ STEM < "inter_nos" >, SYNSEM.LKEYS.KEYREL.PRED "_inter_nos_x_rel" ]. inter_vivos_x1 := av_i_le & [ STEM < "inter_vivos" >, SYNSEM.LKEYS.KEYREL.PRED "_inter_vivos_x_rel" ]. interaccionismo_n1 := n_intr_uncount_le & [ STEM < "interaccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interaccionismo_n_rel" ] ]. interacción_n1 := n_intr_count_le & [ STEM < "interacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interacción_n_rel" ] ]. interactivamente_x1 := av_i_spr_le & [ STEM < "interactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interactivamente_x_rel" ]. interactividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "interactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interactividad_n_rel" ] ]. interactivo_a1 := a_qual_intr_scopal_le & [ STEM < "interactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_interactivo_a_rel" ]. interactuar_v := v_intr_mrkd_np_le & [ STEM < "interactuar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_interactuar_v_rel" ] ]. interalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "interalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_interalveolar_a_rel" ]. interaritenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "interaritenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_interaritenoideo_a_rel" ]. interarticular_a1 := a_rel_nonprd_intr_le & [ STEM < "interarticular" >, SYNSEM.LKEYS.KEYREL.PRED "_interarticular_a_rel" ]. interatrial_a1 := a_rel_nonprd_intr_le & [ STEM < "interatrial" >, SYNSEM.LKEYS.KEYREL.PRED "_interatrial_a_rel" ]. interauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "interauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_interauricular_a_rel" ]. interbancario_a1 := a_rel_nonprd_intr_le & [ STEM < "interbancario" >, SYNSEM.LKEYS.KEYREL.PRED "_interbancario_a_rel" ]. interbibliotecario_a1 := a_rel_nonprd_intr_le & [ STEM < "interbibliotecario" >, SYNSEM.LKEYS.KEYREL.PRED "_interbibliotecario_a_rel" ]. interbloqueo_n1 := n_intr_count_le & [ STEM < "interbloqueo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interbloqueo_n_rel" ] ]. intercalación_n1 := n_trans_le & [ STEM < "intercalación" >, SYNSEM.LKEYS.KEYREL.PRED "_intercalación_n_rel" ]. intercalar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "intercalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_intercalar_v_rel" ] ]. intercalar_v2 := v_trans_np_lcomp_loc*_le & [ STEM < "intercalar" >, SYNSEM.LKEYS.KEYREL.PRED "_intercalar_v_rel" ]. intercambiabilidad_n1 := n_intr_uncount_le & [ STEM < "intercambiabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intercambiabilidad_n_rel" ] ]. intercambiable_a1 := a_rel_nonprd_trans_le & [ STEM < "intercambiable" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_intercambiable_a_rel" ] ]. intercambiablemente_x1 := av_i_spr_le & [ STEM < "intercambiablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_intercambiablemente_x_rel" ]. intercambiador_n1 := n_intr_count_le & [ STEM < "intercambiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intercambiador_n_rel" ] ]. intercambiar_v := v_ditrans*_le & [ STEM < "intercambiar" >, SYNSEM.LKEYS.KEYREL.PRED "_intercambiar_v_rel" ]. intercanal_n1 := n_intr_count_le & [ STEM < "intercanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intercanal_n_rel" ] ]. intercanino_a1 := a_rel_nonprd_intr_le & [ STEM < "intercanino" >, SYNSEM.LKEYS.KEYREL.PRED "_intercanino_a_rel" ]. intercantonal_a1 := a_rel_nonprd_intr_le & [ STEM < "intercantonal" >, SYNSEM.LKEYS.KEYREL.PRED "_intercantonal_a_rel" ]. intercapital_a1 := a_rel_nonprd_intr_le & [ STEM < "intercapital" >, SYNSEM.LKEYS.KEYREL.PRED "_intercapital_a_rel" ]. intercarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "intercarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_intercarpiano_a_rel" ]. intercartilaginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intercartilaginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intercartilaginoso_a_rel" ]. intercavernoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intercavernoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intercavernoso_a_rel" ]. intercelular_a1 := a_rel_nonprd_intr_le & [ STEM < "intercelular" >, SYNSEM.LKEYS.KEYREL.PRED "_intercelular_a_rel" ]. intercepción_n1 := n_trans_le & [ STEM < "intercepción" >, SYNSEM.LKEYS.KEYREL.PRED "_intercepción_n_rel" ]. interceptación_n1 := n_trans_le & [ STEM < "interceptación" >, SYNSEM.LKEYS.KEYREL.PRED "_interceptación_n_rel" ]. interceptador_a1 := a_rel_nonprd_intr_le & [ STEM < "interceptador" >, SYNSEM.LKEYS.KEYREL.PRED "_interceptador_a_rel" ]. interceptador_n1 := n_subj-nom_le & [ STEM < "interceptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interceptador_n_rel" ] ]. interceptar_v := v_trans_np_le & [ STEM < "interceptar" >, SYNSEM.LKEYS.KEYREL.PRED "_interceptar_v_rel" ]. interceptivo_a1 := a_qual_intr_scopal_le & [ STEM < "interceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_interceptivo_a_rel" ]. interceptor_a1 := a_rel_nonprd_intr_le & [ STEM < "interceptor" >, SYNSEM.LKEYS.KEYREL.PRED "_interceptor_a_rel" ]. interceptor_n1 := n_intr_count_le & [ STEM < "interceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interceptor_n_rel" ] ]. interceptor_n2 := n_subj-nom_le & [ STEM < "interceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interceptor_n_rel" ] ]. intercesión_n1 := n_trans_le & [ STEM < "intercesión" >, SYNSEM.LKEYS.KEYREL.PRED "_intercesión_n_rel" ]. intercesor_n1 := n_subj-nom_le & [ STEM < "intercesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intercesor_n_rel" ] ]. intercity_n1 := n_intr_count_le & [ STEM < "intercity" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intercity_n_rel" ] ]. interclasismo_n1 := n_intr_uncount_le & [ STEM < "interclasismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interclasismo_n_rel" ] ]. interclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "interclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_interclavicular_a_rel" ]. intercolumnar_a1 := a_rel_nonprd_intr_le & [ STEM < "intercolumnar" >, SYNSEM.LKEYS.KEYREL.PRED "_intercolumnar_a_rel" ]. intercolumnio_n1 := n_intr_count_le & [ STEM < "intercolumnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intercolumnio_n_rel" ] ]. intercolunio_n1 := n_intr_count_le & [ STEM < "intercolunio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intercolunio_n_rel" ] ]. intercombinación_n1 := n_intr_count_le & [ STEM < "intercombinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intercombinación_n_rel" ] ]. intercompañía_n1 := n_intr_count_le & [ STEM < "intercompañía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_intercompañía_n_rel" ] ]. intercomunicación_n1 := n_trans_le & [ STEM < "intercomunicación" >, SYNSEM.LKEYS.KEYREL.PRED "_intercomunicación_n_rel" ]. intercomunicador_n1 := n_intr_count_le & [ STEM < "intercomunicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_intercomunicador_n_rel" ] ]. intercondilar_a1 := a_rel_nonprd_intr_le & [ STEM < "intercondilar" >, SYNSEM.LKEYS.KEYREL.PRED "_intercondilar_a_rel" ]. intercondral_a1 := a_rel_nonprd_intr_le & [ STEM < "intercondral" >, SYNSEM.LKEYS.KEYREL.PRED "_intercondral_a_rel" ]. intercondíleo_a1 := a_rel_nonprd_intr_le & [ STEM < "intercondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_intercondíleo_a_rel" ]. interconectabilidad_n1 := n_intr_uncount_le & [ STEM < "interconectabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interconectabilidad_n_rel" ] ]. interconectador_a1 := a_rel_nonprd_intr_le & [ STEM < "interconectador" >, SYNSEM.LKEYS.KEYREL.PRED "_interconectador_a_rel" ]. interconectadoramente_x1 := av_i_spr_le & [ STEM < "interconectadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_interconectadoramente_x_rel" ]. interconectividad_n1 := n_intr_uncount_le & [ STEM < "interconectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interconectividad_n_rel" ] ]. interconexión_n1 := n_trans_le & [ STEM < "interconexión" >, SYNSEM.LKEYS.KEYREL.PRED "_interconexión_n_rel" ]. interconnectar_v := v_trans_np_mrkd_np*_le & [ STEM < "interconnectar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_interconnectar_v_rel" ] ]. intercontinental_a1 := a_rel_nonprd_intr_le & [ STEM < "intercontinental" >, SYNSEM.LKEYS.KEYREL.PRED "_intercontinental_a_rel" ]. intercontinentalmente_x1 := av_i_spr_le & [ STEM < "intercontinentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intercontinentalmente_x_rel" ]. intercorporativo_a1 := a_rel_nonprd_intr_le & [ STEM < "intercorporativo" >, SYNSEM.LKEYS.KEYREL.PRED "_intercorporativo_a_rel" ]. intercorrelación_n1 := n_trans_le & [ STEM < "intercorrelación" >, SYNSEM.LKEYS.KEYREL.PRED "_intercorrelación_n_rel" ]. intercostal_a1 := a_rel_nonprd_intr_le & [ STEM < "intercostal" >, SYNSEM.LKEYS.KEYREL.PRED "_intercostal_a_rel" ]. intercostobraquial_a1 := a_rel_nonprd_intr_le & [ STEM < "intercostobraquial" >, SYNSEM.LKEYS.KEYREL.PRED "_intercostobraquial_a_rel" ]. intercromosómico_a1 := a_rel_nonprd_intr_le & [ STEM < "intercromosómico" >, SYNSEM.LKEYS.KEYREL.PRED "_intercromosómico_a_rel" ]. intercrural_a1 := a_rel_nonprd_intr_le & [ STEM < "intercrural" >, SYNSEM.LKEYS.KEYREL.PRED "_intercrural_a_rel" ]. intercuantila_n1 := n_intr_count_le & [ STEM < "intercuantila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_intercuantila_n_rel" ] ]. intercuartílico_a1 := a_rel_nonprd_intr_le & [ STEM < "intercuartílico" >, SYNSEM.LKEYS.KEYREL.PRED "_intercuartílico_a_rel" ]. intercuneal_a1 := a_rel_nonprd_intr_le & [ STEM < "intercuneal" >, SYNSEM.LKEYS.KEYREL.PRED "_intercuneal_a_rel" ]. intercurrente_a1 := a_rel_nonprd_intr_le & [ STEM < "intercurrente" >, SYNSEM.LKEYS.KEYREL.PRED "_intercurrente_a_rel" ]. interdendrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "interdendrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_interdendrítico_a_rel" ]. interdental_a1 := a_rel_nonprd_intr_le & [ STEM < "interdental" >, SYNSEM.LKEYS.KEYREL.PRED "_interdental_a_rel" ]. interdentario_a1 := a_rel_nonprd_intr_le & [ STEM < "interdentario" >, SYNSEM.LKEYS.KEYREL.PRED "_interdentario_a_rel" ]. interdepartamental_a1 := a_rel_nonprd_intr_le & [ STEM < "interdepartamental" >, SYNSEM.LKEYS.KEYREL.PRED "_interdepartamental_a_rel" ]. interdependencia_n1 := n_intr_uncount_le & [ STEM < "interdependencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interdependencia_n_rel" ] ]. interdependiente_a1 := a_rel_nonprd_intr_le & [ STEM < "interdependiente" >, SYNSEM.LKEYS.KEYREL.PRED "_interdependiente_a_rel" ]. interdicción_n1 := n_trans_le & [ STEM < "interdicción" >, SYNSEM.LKEYS.KEYREL.PRED "_interdicción_n_rel" ]. interdigitante_a1 := a_rel_nonprd_intr_le & [ STEM < "interdigitante" >, SYNSEM.LKEYS.KEYREL.PRED "_interdigitante_a_rel" ]. interdisciplinar_a1 := a_qual_intr_scopal_le & [ STEM < "interdisciplinar" >, SYNSEM.LKEYS.KEYREL.PRED "_interdisciplinar_a_rel" ]. interdisciplinariamente_x1 := av_i_spr_le & [ STEM < "interdisciplinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interdisciplinariamente_x_rel" ]. interdisciplinario_a1 := a_qual_intr_scopal_le & [ STEM < "interdisciplinario" >, SYNSEM.LKEYS.KEYREL.PRED "_interdisciplinario_a_rel" ]. interempresarial_a1 := a_rel_nonprd_intr_le & [ STEM < "interempresarial" >, SYNSEM.LKEYS.KEYREL.PRED "_interempresarial_a_rel" ]. interempresarialmente_x1 := av_i_spr_le & [ STEM < "interempresarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_interempresarialmente_x_rel" ]. interesadamente_x1 := av_i_spr_le & [ STEM < "interesadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interesadamente_x_rel" ]. interesante_a1 := a_qual_intr_scopal_le & [ STEM < "interesante" >, SYNSEM.LKEYS.KEYREL.PRED "_interesante_a_rel" ]. interesantemente_x1 := av_i_spr_le & [ STEM < "interesantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_interesantemente_x_rel" ]. interesar_v1 := v_intr_io*_le & [ STEM < "interesar" >, SYNSEM.LKEYS.KEYREL.PRED "_interesar_v_rel" ]. interesar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "interesar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_interesar_v_rel" ] ] ]. interesar_v3 := v_pron_intr_mrkd_cp_semi_ques_le & [ STEM < "interesar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL.PRED "_interesar_v_rel" ] ]. interesar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "interesar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_interesar_v_rel" ] ] ]. interesar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "interesar" >, SYNSEM.LKEYS.KEYREL.PRED "_interesar_v_rel" ]. interespecífico_a1 := a_rel_prd_le & [ STEM < "interespecífico" >, SYNSEM.LKEYS.KEYREL.PRED "_interespecífico_a_rel" ]. interespinal_a1 := a_rel_nonprd_intr_le & [ STEM < "interespinal" >, SYNSEM.LKEYS.KEYREL.PRED "_interespinal_a_rel" ]. interespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "interespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_interespinoso_a_rel" ]. interestatal_a1 := a_rel_nonprd_intr_le & [ STEM < "interestatal" >, SYNSEM.LKEYS.KEYREL.PRED "_interestatal_a_rel" ]. interestelar_a1 := a_rel_nonprd_intr_le & [ STEM < "interestelar" >, SYNSEM.LKEYS.KEYREL.PRED "_interestelar_a_rel" ]. interestratificación_n1 := n_intr_uncount_le & [ STEM < "interestratificación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interestratificación_n_rel" ] ]. interfacial_a1 := a_rel_nonprd_intr_le & [ STEM < "interfacial" >, SYNSEM.LKEYS.KEYREL.PRED "_interfacial_a_rel" ]. interfacialmente_x1 := av_i_spr_le & [ STEM < "interfacialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_interfacialmente_x_rel" ]. interfalángico_a1 := a_rel_nonprd_intr_le & [ STEM < "interfalángico" >, SYNSEM.LKEYS.KEYREL.PRED "_interfalángico_a_rel" ]. interfascial_a1 := a_rel_nonprd_intr_le & [ STEM < "interfascial" >, SYNSEM.LKEYS.KEYREL.PRED "_interfascial_a_rel" ]. interfascicular_a1 := a_rel_nonprd_intr_le & [ STEM < "interfascicular" >, SYNSEM.LKEYS.KEYREL.PRED "_interfascicular_a_rel" ]. interfaz_n1 := n_intr_count_le & [ STEM < "interfaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interfaz_n_rel" ] ]. interfederal_a1 := a_rel_nonprd_intr_le & [ STEM < "interfederal" >, SYNSEM.LKEYS.KEYREL.PRED "_interfederal_a_rel" ]. interfederalmente_x1 := av_i_spr_le & [ STEM < "interfederalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_interfederalmente_x_rel" ]. interferencia_n1 := n_trans_le & [ STEM < "interferencia" >, SYNSEM.LKEYS.KEYREL.PRED "_interferencia_n_rel" ]. interferencial_a1 := a_rel_nonprd_intr_le & [ STEM < "interferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_interferencial_a_rel" ]. interferente_a1 := a_qual_intr_scopal_le & [ STEM < "interferente" >, SYNSEM.LKEYS.KEYREL.PRED "_interferente_a_rel" ]. interferir_v := v_intr_mrkd_np_le & [ STEM < "interferir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_interferir_v_rel" ] ]. interferir_v1 := v_intr_mrkd_np*_le & [ STEM < "interferir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_interferir_v_rel" ] ]. interferir_v2 := v_intr_mrkd_np_le & [ STEM < "interferir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_interferir_v_rel" ] ]. interferometría_n1 := n_intr_uncount_pl_le & [ STEM < "interferometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interferometría_n_rel" ] ]. interferométricamente_x1 := av_i_spr_le & [ STEM < "interferométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interferométricamente_x_rel" ]. interferométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "interferométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_interferométrico_a_rel" ]. interferómetro_n1 := n_intr_count_le & [ STEM < "interferómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interferómetro_n_rel" ] ]. interferón_n1 := n_intr_count_le & [ STEM < "interferón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interferón_n_rel" ] ]. interfono_n1 := n_intr_count_le & [ STEM < "interfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interfono_n_rel" ] ]. interfonía_n1 := n_intr_uncount_le & [ STEM < "interfonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interfonía_n_rel" ] ]. interfoveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "interfoveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_interfoveolar_a_rel" ]. interfranja_n1 := n_intr_count_le & [ STEM < "interfranja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interfranja_n_rel" ] ]. interfuncionamiento_n1 := n_result_intr_le & [ STEM < "interfuncionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_interfuncionamiento_n_rel" ]. interfunicular_a1 := a_rel_nonprd_intr_le & [ STEM < "interfunicular" >, SYNSEM.LKEYS.KEYREL.PRED "_interfunicular_a_rel" ]. interfásicamente_x1 := av_i_spr_le & [ STEM < "interfásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interfásicamente_x_rel" ]. interfásico_a1 := a_rel_nonprd_intr_le & [ STEM < "interfásico" >, SYNSEM.LKEYS.KEYREL.PRED "_interfásico_a_rel" ]. interganglionar_a1 := a_rel_nonprd_intr_le & [ STEM < "interganglionar" >, SYNSEM.LKEYS.KEYREL.PRED "_interganglionar_a_rel" ]. intergrado_n1 := n_intr_count_le & [ STEM < "intergrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intergrado_n_rel" ] ]. intergranular_a1 := a_rel_nonprd_intr_le & [ STEM < "intergranular" >, SYNSEM.LKEYS.KEYREL.PRED "_intergranular_a_rel" ]. intergubernamental_a1 := a_rel_nonprd_intr_le & [ STEM < "intergubernamental" >, SYNSEM.LKEYS.KEYREL.PRED "_intergubernamental_a_rel" ]. intergénico_a1 := a_rel_nonprd_intr_le & [ STEM < "intergénico" >, SYNSEM.LKEYS.KEYREL.PRED "_intergénico_a_rel" ]. interhemisférico_a1 := a_rel_nonprd_intr_le & [ STEM < "interhemisférico" >, SYNSEM.LKEYS.KEYREL.PRED "_interhemisférico_a_rel" ]. interinamente_x1 := av_i_spr_le & [ STEM < "interinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interinamente_x_rel" ]. interinato_n1 := n_intr_count_le & [ STEM < "interinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_interinato_n_rel" ] ]. interincisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "interincisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_interincisivo_a_rel" ]. interindustrial_a1 := a_rel_nonprd_intr_le & [ STEM < "interindustrial" >, SYNSEM.LKEYS.KEYREL.PRED "_interindustrial_a_rel" ]. interinidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "interinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interinidad_n_rel" ] ]. interino_a1 := a_rel_nonprd_intr_le & [ STEM < "interino" >, SYNSEM.LKEYS.KEYREL.PRED "_interino_a_rel" ]. interino_n1 := n_intr_count_le & [ STEM < "interino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interino_n_rel" ] ]. interior_a1 := a_rel_nonprd_intr_le & [ STEM < "interior" >, SYNSEM.LKEYS.KEYREL.PRED "_interior_a_rel" ]. interior_n1 := n_intr_count_le & [ STEM < "interior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_interior_n_rel" ] ]. interioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "interioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interioridad_n_rel" ] ]. interiorización_n1 := n_trans_le & [ STEM < "interiorización" >, SYNSEM.LKEYS.KEYREL.PRED "_interiorización_n_rel" ]. interiorizar_v1 := v_trans_cp_prop_fin_le & [ STEM < "interiorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_interiorizar_v_rel" ] ]. interiorizar_v2 := v_trans_np_le & [ STEM < "interiorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_interiorizar_v_rel" ] ]. interiormente_x1 := av_i_spr_le & [ STEM < "interiormente" >, SYNSEM.LKEYS.KEYREL.PRED "_interiormente_x_rel" ]. interjección_n1 := n_intr_count_le & [ STEM < "interjección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interjección_n_rel" ] ]. interleucina_n1 := n_intr_count_le & [ STEM < "interleucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_interleucina_n_rel" ] ]. interleuquina_n1 := n_intr_count_le & [ STEM < "interleuquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interleuquina_n_rel" ] ]. interlineación_n1 := n_trans_le & [ STEM < "interlineación" >, SYNSEM.LKEYS.KEYREL.PRED "_interlineación_n_rel" ]. interlineal_a1 := a_rel_prd_le & [ STEM < "interlineal" >, SYNSEM.LKEYS.KEYREL.PRED "_interlineal_a_rel" ]. interlinealmente_x1 := av_i_spr_le & [ STEM < "interlinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_interlinealmente_x_rel" ]. interlobular_a1 := a_rel_nonprd_intr_le & [ STEM < "interlobular" >, SYNSEM.LKEYS.KEYREL.PRED "_interlobular_a_rel" ]. interlocución_n1 := n_intr_count_le & [ STEM < "interlocución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interlocución_n_rel" ] ]. interlocutor_n1 := n_intr_count_le & [ STEM < "interlocutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interlocutor_n_rel" ] ]. interlocutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "interlocutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_interlocutorio_a_rel" ]. interlínea_n1 := n_intr_count_le & [ STEM < "interlínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interlínea_n_rel" ] ]. intermareal_a1 := a_rel_nonprd_intr_le & [ STEM < "intermareal" >, SYNSEM.LKEYS.KEYREL.PRED "_intermareal_a_rel" ]. intermaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "intermaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_intermaxilar_a_rel" ]. intermediación_n1 := n_trans_le & [ STEM < "intermediación" >, SYNSEM.LKEYS.KEYREL.PRED "_intermediación_n_rel" ]. intermediario_a1 := a_rel_nonprd_intr_le & [ STEM < "intermediario" >, SYNSEM.LKEYS.KEYREL.PRED "_intermediario_a_rel" ]. intermediario_n1 := n_intr_count_le & [ STEM < "intermediario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intermediario_n_rel" ] ]. intermedio_a1 := a_rel_nonprd_intr_le & [ STEM < "intermedio" >, SYNSEM.LKEYS.KEYREL.PRED "_intermedio_a_rel" ]. intermembranoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intermembranoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intermembranoso_a_rel" ]. intermesentérico_a1 := a_rel_nonprd_intr_le & [ STEM < "intermesentérico" >, SYNSEM.LKEYS.KEYREL.PRED "_intermesentérico_a_rel" ]. intermetacarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "intermetacarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_intermetacarpiano_a_rel" ]. intermetatarsiano_a1 := a_rel_nonprd_intr_le & [ STEM < "intermetatarsiano" >, SYNSEM.LKEYS.KEYREL.PRED "_intermetatarsiano_a_rel" ]. intermetálico_a1 := a_rel_nonprd_intr_le & [ STEM < "intermetálico" >, SYNSEM.LKEYS.KEYREL.PRED "_intermetálico_a_rel" ]. interminable_a1 := a_rel_prd_le & [ STEM < "interminable" >, SYNSEM.LKEYS.KEYREL.PRED "_interminable_a_rel" ]. intermisión_n1 := n_intr_count_le & [ STEM < "intermisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intermisión_n_rel" ] ]. intermitente_a1 := a_rel_nonprd_intr_le & [ STEM < "intermitente" >, SYNSEM.LKEYS.KEYREL.PRED "_intermitente_a_rel" ]. intermitente_n1 := n_intr_count_le & [ STEM < "intermitente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intermitente_n_rel" ] ]. intermitentemente_x1 := av_i_spr_le & [ STEM < "intermitentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_intermitentemente_x_rel" ]. intermodulación_n1 := n_intr_uncount_le & [ STEM < "intermodulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intermodulación_n_rel" ] ]. intermolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "intermolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_intermolecular_a_rel" ]. intermuscular_a1 := a_rel_nonprd_intr_le & [ STEM < "intermuscular" >, SYNSEM.LKEYS.KEYREL.PRED "_intermuscular_a_rel" ]. internacional_a1 := a_rel_nonprd_intr_le & [ STEM < "internacional" >, SYNSEM.LKEYS.KEYREL.PRED "_internacional_a_rel" ]. internacionalidad_n1 := n_intr_count_le & [ STEM < "internacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_internacionalidad_n_rel" ] ]. internacionalismo_n1 := n_intr_uncount_le & [ STEM < "internacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_internacionalismo_n_rel" ] ]. internacionalista_a1 := a_qual_intr_ser_le & [ STEM < "internacionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_internacionalista_a_rel" ]. internacionalización_n1 := n_trans_le & [ STEM < "internacionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_internacionalización_n_rel" ]. internacionalizar_v := v_trans_np_le & [ STEM < "internacionalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_internacionalizar_v_rel" ]. internacionalmente_x1 := av_i_spr_le & [ STEM < "internacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_internacionalmente_x_rel" ]. internación_n1 := n_trans_le & [ STEM < "internación" >, SYNSEM.LKEYS.KEYREL.PRED "_internación_n_rel" ]. internado_n1 := n_intr_count_le & [ STEM < "internado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_internado_n_rel" ] ]. internalismo_n1 := n_intr_uncount_le & [ STEM < "internalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_internalismo_n_rel" ] ]. internalización_n1 := n_trans_le & [ STEM < "internalización" >, SYNSEM.LKEYS.KEYREL.PRED "_internalización_n_rel" ]. internamente_x1 := av_i_spr_le & [ STEM < "internamente" >, SYNSEM.LKEYS.KEYREL.PRED "_internamente_x_rel" ]. internamiento_n1 := n_trans_le & [ STEM < "internamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_internamiento_n_rel" ]. internar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "internar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_internar_v_rel" ] ] ]. internar_v2 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "internar" >, SYNSEM.LKEYS.KEYREL.PRED "_internar_v_rel" ]. internasal_a1 := a_rel_nonprd_intr_le & [ STEM < "internasal" >, SYNSEM.LKEYS.KEYREL.PRED "_internasal_a_rel" ]. internauta_n1 := n_intr_count_le & [ STEM < "internauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_internauta_n_rel" ] ]. internet_n1 := n_intr_count_le & [ STEM < "internet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_internet_n_rel" ] ]. interno_a1 := a_qual_intr_ser_postn_le & [ STEM < "interno" >, SYNSEM.LKEYS.KEYREL.PRED "_interno_a_rel" ]. interno_n1 := n_intr_count_le & [ STEM < "interno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interno_n_rel" ] ]. internuncio_n1 := n_intr_count_le & [ STEM < "internuncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_internuncio_n_rel" ] ]. interoclusal_a1 := a_rel_nonprd_intr_le & [ STEM < "interoclusal" >, SYNSEM.LKEYS.KEYREL.PRED "_interoclusal_a_rel" ]. interocular_a1 := a_rel_nonprd_intr_le & [ STEM < "interocular" >, SYNSEM.LKEYS.KEYREL.PRED "_interocular_a_rel" ]. interoperabilidad_n1 := n_intr_uncount_le & [ STEM < "interoperabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interoperabilidad_n_rel" ] ]. interorgánico_a1 := a_rel_nonprd_intr_le & [ STEM < "interorgánico" >, SYNSEM.LKEYS.KEYREL.PRED "_interorgánico_a_rel" ]. interparadigmático_a1 := a_rel_nonprd_intr_le & [ STEM < "interparadigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_interparadigmático_a_rel" ]. interparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "interparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_interparietal_a_rel" ]. interpeduncular_a1 := a_rel_nonprd_intr_le & [ STEM < "interpeduncular" >, SYNSEM.LKEYS.KEYREL.PRED "_interpeduncular_a_rel" ]. interpelación_n1 := n_trans_le & [ STEM < "interpelación" >, SYNSEM.LKEYS.KEYREL.PRED "_interpelación_n_rel" ]. interpelador_n1 := n_subj-nom_le & [ STEM < "interpelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interpelador_n_rel" ] ]. interpelar_v := v_trans_np_le & [ STEM < "interpelar" >, SYNSEM.LKEYS.KEYREL.PRED "_interpelar_v_rel" ]. interpenetración_n1 := n_trans_le & [ STEM < "interpenetración" >, SYNSEM.LKEYS.KEYREL.PRED "_interpenetración_n_rel" ]. interpersonal_a1 := a_rel_nonprd_intr_le & [ STEM < "interpersonal" >, SYNSEM.LKEYS.KEYREL.PRED "_interpersonal_a_rel" ]. interplanetario_a1 := a_rel_nonprd_intr_le & [ STEM < "interplanetario" >, SYNSEM.LKEYS.KEYREL.PRED "_interplanetario_a_rel" ]. interpolación_n1 := n_trans_le & [ STEM < "interpolación" >, SYNSEM.LKEYS.KEYREL.PRED "_interpolación_n_rel" ]. interpolador_n1 := n_intr_count_le & [ STEM < "interpolador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_interpolador_n_rel" ] ]. interpolar_a1 := a_rel_nonprd_intr_le & [ STEM < "interpolar" >, SYNSEM.LKEYS.KEYREL.PRED "_interpolar_a_rel" ]. interpolar_v := v_trans_np_le & [ STEM < "interpolar" >, SYNSEM.LKEYS.KEYREL.PRED "_interpolar_v_rel" ]. interpolarmente_x1 := av_i_spr_le & [ STEM < "interpolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_interpolarmente_x_rel" ]. interponer_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "interponer" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_interponer_v_rel" ] ]. interponer_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "interponer" >, SYNSEM.LKEYS [ --OCOMPKEY _entre_p_sel_rel, KEYREL.PRED "_interponer_v_rel" ] ]. interponer_v3 := v_trans_np_mrkd_np_le & [ STEM < "interponer" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_interponer_v_rel" ] ]. interposición_n1 := n_trans_le & [ STEM < "interposición" >, SYNSEM.LKEYS.KEYREL.PRED "_interposición_n_rel" ]. interpretabilidad_n1 := n_intr_uncount_le & [ STEM < "interpretabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interpretabilidad_n_rel" ] ]. interpretable_a1 := a_rel_prd_le & [ STEM < "interpretable" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretable_a_rel" ]. interpretablemente_x1 := av_i_spr_le & [ STEM < "interpretablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretablemente_x_rel" ]. interpretación_n1 := n_trans_le & [ STEM < "interpretación" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretación_n_rel" ]. interpretador_a1 := a_rel_nonprd_intr_le & [ STEM < "interpretador" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretador_a_rel" ]. interpretar_v1 := v_trans_cp_prop_fin_le & [ STEM < "interpretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_interpretar_v_rel" ] ]. interpretar_v2 := v_trans_np_le & [ STEM < "interpretar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_interpretar_v_rel" ] ]. interpretativamente_x1 := av_i_spr_le & [ STEM < "interpretativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretativamente_x_rel" ]. interpretativo_a1 := a_rel_nonprd_intr_le & [ STEM < "interpretativo" >, SYNSEM.LKEYS.KEYREL.PRED "_interpretativo_a_rel" ]. interprofesional_a1 := a_rel_nonprd_intr_le & [ STEM < "interprofesional" >, SYNSEM.LKEYS.KEYREL.PRED "_interprofesional_a_rel" ]. interprovincial_a1 := a_rel_nonprd_intr_le & [ STEM < "interprovincial" >, SYNSEM.LKEYS.KEYREL.PRED "_interprovincial_a_rel" ]. interproximal_a1 := a_rel_nonprd_intr_le & [ STEM < "interproximal" >, SYNSEM.LKEYS.KEYREL.PRED "_interproximal_a_rel" ]. interpupilar_a1 := a_rel_nonprd_intr_le & [ STEM < "interpupilar" >, SYNSEM.LKEYS.KEYREL.PRED "_interpupilar_a_rel" ]. interpúbico_a1 := a_rel_nonprd_intr_le & [ STEM < "interpúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_interpúbico_a_rel" ]. interradicular_a1 := a_rel_nonprd_intr_le & [ STEM < "interradicular" >, SYNSEM.LKEYS.KEYREL.PRED "_interradicular_a_rel" ]. interregional_a1 := a_rel_nonprd_intr_le & [ STEM < "interregional" >, SYNSEM.LKEYS.KEYREL.PRED "_interregional_a_rel" ]. interregno_n1 := n_intr_count_le & [ STEM < "interregno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_interregno_n_rel" ] ]. interrelación_n1 := n_trans_le & [ STEM < "interrelación" >, SYNSEM.LKEYS.KEYREL.PRED "_interrelación_n_rel" ]. interrogación_n1 := n_intr_count_le & [ STEM < "interrogación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interrogación_n_rel" ] ]. interrogador_n1 := n_subj-nom_le & [ STEM < "interrogador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interrogador_n_rel" ] ]. interrogar_v := v_trans_np_le & [ STEM < "interrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_interrogar_v_rel" ]. interrogativamente_x1 := av_i_spr_le & [ STEM < "interrogativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interrogativamente_x_rel" ]. interrogativo_a1 := a_rel_nonprd_intr_le & [ STEM < "interrogativo" >, SYNSEM.LKEYS.KEYREL.PRED "_interrogativo_a_rel" ]. interrumpibilidad_n1 := n_intr_uncount_le & [ STEM < "interrumpibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interrumpibilidad_n_rel" ] ]. interrumpible_a1 := a_rel_prd_le & [ STEM < "interrumpible" >, SYNSEM.LKEYS.KEYREL.PRED "_interrumpible_a_rel" ]. interrumpidamente_x1 := av_i_spr_le & [ STEM < "interrumpidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_interrumpidamente_x_rel" ]. interrumpir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "interrumpir" >, SYNSEM.LKEYS.KEYREL.PRED "_interrumpir_v_rel" ]. interrumpir_v2 := v_trans_np_le & [ STEM < "interrumpir" >, SYNSEM.LKEYS.KEYREL.PRED "_interrumpir_v_rel" ]. interrupción_n1 := n_trans_le & [ STEM < "interrupción" >, SYNSEM.LKEYS.KEYREL.PRED "_interrupción_n_rel" ]. interruptor_n1 := n_intr_count_le & [ STEM < "interruptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_interruptor_n_rel" ] ]. intersecante_a1 := a_rel_nonprd_intr_le & [ STEM < "intersecante" >, SYNSEM.LKEYS.KEYREL.PRED "_intersecante_a_rel" ]. intersección_n1 := n_intr_count_le & [ STEM < "intersección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_intersección_n_rel" ] ]. intersectar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "intersectar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_intersectar_v_rel" ] ]. intersectar_v2 := v_trans_np_le & [ STEM < "intersectar" >, SYNSEM.LKEYS.KEYREL.PRED "_intersectar_v_rel" ]. intersexualidad_n1 := n_intr_uncount_le & [ STEM < "intersexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intersexualidad_n_rel" ] ]. intersigmoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "intersigmoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_intersigmoideo_a_rel" ]. intersticial_a1 := a_rel_nonprd_intr_le & [ STEM < "intersticial" >, SYNSEM.LKEYS.KEYREL.PRED "_intersticial_a_rel" ]. intersticialmente_x1 := av_i_spr_le & [ STEM < "intersticialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intersticialmente_x_rel" ]. intersubjetividad_n1 := n_intr_mass_le & [ STEM < "intersubjetividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intersubjetividad_n_rel" ] ]. intersubjetivo_a1 := a_rel_prd_le & [ STEM < "intersubjetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intersubjetivo_a_rel" ]. intertalámico_a1 := a_rel_nonprd_intr_le & [ STEM < "intertalámico" >, SYNSEM.LKEYS.KEYREL.PRED "_intertalámico_a_rel" ]. interterritorial_a1 := a_rel_nonprd_intr_le & [ STEM < "interterritorial" >, SYNSEM.LKEYS.KEYREL.PRED "_interterritorial_a_rel" ]. intertransverso_a1 := a_rel_nonprd_intr_le & [ STEM < "intertransverso" >, SYNSEM.LKEYS.KEYREL.PRED "_intertransverso_a_rel" ]. intertrocantéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "intertrocantéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_intertrocantéreo_a_rel" ]. intertropical_a1 := a_rel_nonprd_intr_le & [ STEM < "intertropical" >, SYNSEM.LKEYS.KEYREL.PRED "_intertropical_a_rel" ]. intertubercular_a1 := a_rel_nonprd_intr_le & [ STEM < "intertubercular" >, SYNSEM.LKEYS.KEYREL.PRED "_intertubercular_a_rel" ]. interurbano_a1 := a_rel_nonprd_intr_le & [ STEM < "interurbano" >, SYNSEM.LKEYS.KEYREL.PRED "_interurbano_a_rel" ]. interuretérico_a1 := a_rel_nonprd_intr_le & [ STEM < "interuretérico" >, SYNSEM.LKEYS.KEYREL.PRED "_interuretérico_a_rel" ]. intervaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "intervaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_intervaginal_a_rel" ]. intervalo_n1 := n_intr_count_le & [ STEM < "intervalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_intervalo_n_rel" ] ]. intervencionismo_n1 := n_intr_uncount_le & [ STEM < "intervencionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intervencionismo_n_rel" ] ]. intervencionista_a1 := a_rel_nonprd_intr_le & [ STEM < "intervencionista" >, SYNSEM.LKEYS.KEYREL.PRED "_intervencionista_a_rel" ]. intervención_n1 := n_trans_le & [ STEM < "intervención" >, SYNSEM.LKEYS.KEYREL.PRED "_intervención_n_rel" ]. intervenir_v1 := v_intr_mrkd_np_le & [ STEM < "intervenir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_intervenir_v_rel" ] ]. intervenir_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "intervenir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_intervenir_v_rel" ] ]. intervenir_v3 := v_trans_np_le & [ STEM < "intervenir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_hum, PRED "_intervenir_v_rel" ] ]. intervenoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intervenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intervenoso_a_rel" ]. interventor_n1 := n_subj-nom_le & [ STEM < "interventor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_interventor_n_rel" ] ]. interventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "interventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_interventricular_a_rel" ]. intervertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "intervertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_intervertebral_a_rel" ]. interviniente_a1 := a_rel_nonprd_intr_le & [ STEM < "interviniente" >, SYNSEM.LKEYS.KEYREL.PRED "_interviniente_a_rel" ]. interviú_n1 := n_intr_count_le & [ STEM < "interviú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_interviú_n_rel" ] ]. interválico_a1 := a_rel_nonprd_intr_le & [ STEM < "interválico" >, SYNSEM.LKEYS.KEYREL.PRED "_interválico_a_rel" ]. interóseo_a1 := a_rel_nonprd_intr_le & [ STEM < "interóseo" >, SYNSEM.LKEYS.KEYREL.PRED "_interóseo_a_rel" ]. intestinal_a1 := a_rel_nonprd_intr_le & [ STEM < "intestinal" >, SYNSEM.LKEYS.KEYREL.PRED "_intestinal_a_rel" ]. intestino_n1 := n_ppcomp_count_le & [ STEM < "intestino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_intestino_n_rel" ] ]. intifada_n1 := n_intr_uncount_le & [ STEM < "intifada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intifada_n_rel" ] ]. intimación_n1 := n_trans_le & [ STEM < "intimación" >, SYNSEM.LKEYS.KEYREL.PRED "_intimación_n_rel" ]. intimar_v := v_intr_mrkd_np_le & [ STEM < "intimar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_intimar_v_rel" ] ]. intimatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "intimatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_intimatorio_a_rel" ]. intimidación_n1 := n_trans_le & [ STEM < "intimidación" >, SYNSEM.LKEYS.KEYREL.PRED "_intimidación_n_rel" ]. intimidad_n1 := n_intr_mass-or-count_le & [ STEM < "intimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intimidad_n_rel" ] ]. intimidar_v1 := v_intr_io*_le & [ STEM < "intimidar" >, SYNSEM.LKEYS.KEYREL.PRED "_intimidar_v_rel" ]. intimidar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "intimidar" >, SYNSEM.LKEYS.KEYREL.PRED "_intimidar_v_rel" ]. intimidar_v3 := v_trans_np_le & [ STEM < "intimidar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_intimidar_v_rel" ] ]. intimidatorio_a1 := a_qual_intr_scopal_le & [ STEM < "intimidatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_intimidatorio_a_rel" ]. intimista_a1 := a_qual_intr_ser_postn_le & [ STEM < "intimista" >, SYNSEM.LKEYS.KEYREL.PRED "_intimista_a_rel" ]. intocable_a1 := a_rel_prd_le & [ STEM < "intocable" >, SYNSEM.LKEYS.KEYREL.PRED "_intocable_a_rel" ]. intolerable_a1 := a_qual_intr_scopal_le & [ STEM < "intolerable" >, SYNSEM.LKEYS.KEYREL.PRED "_intolerable_a_rel" ]. intolerancia_n1 := n_intr_uncount_le & [ STEM < "intolerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intolerancia_n_rel" ] ]. intolerante_a1 := a_qual_intr_ser_le & [ STEM < "intolerante" >, SYNSEM.LKEYS.KEYREL.PRED "_intolerante_a_rel" ]. intorsión_n1 := n_intr_count_le & [ STEM < "intorsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intorsión_n_rel" ] ]. intoxicación_n1 := n_trans_le & [ STEM < "intoxicación" >, SYNSEM.LKEYS.KEYREL.PRED "_intoxicación_n_rel" ]. intoxicador_n1 := n_subj-nom_le & [ STEM < "intoxicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intoxicador_n_rel" ] ]. intraalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "intraalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_intraalveolar_a_rel" ]. intraarticular_a1 := a_rel_nonprd_intr_le & [ STEM < "intraarticular" >, SYNSEM.LKEYS.KEYREL.PRED "_intraarticular_a_rel" ]. intraarticularmente_x1 := av_i_spr_le & [ STEM < "intraarticularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intraarticularmente_x_rel" ]. intraauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "intraauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_intraauricular_a_rel" ]. intracelular_a1 := a_rel_nonprd_intr_le & [ STEM < "intracelular" >, SYNSEM.LKEYS.KEYREL.PRED "_intracelular_a_rel" ]. intracoronal_a1 := a_rel_nonprd_intr_le & [ STEM < "intracoronal" >, SYNSEM.LKEYS.KEYREL.PRED "_intracoronal_a_rel" ]. intracoronario_a1 := a_rel_nonprd_intr_le & [ STEM < "intracoronario" >, SYNSEM.LKEYS.KEYREL.PRED "_intracoronario_a_rel" ]. intracristalinamente_x1 := av_i_spr_le & [ STEM < "intracristalinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intracristalinamente_x_rel" ]. intracristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "intracristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_intracristalino_a_rel" ]. intradermorreacción_n1 := n_intr_count_le & [ STEM < "intradermorreacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intradermorreacción_n_rel" ] ]. intraducible_a1 := a_rel_prd_le & [ STEM < "intraducible" >, SYNSEM.LKEYS.KEYREL.PRED "_intraducible_a_rel" ]. intradós_n1 := n_intr_count_le & [ STEM < "intradós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_intradós_n_rel" ] ]. intraempresarial_a1 := a_rel_nonprd_intr_le & [ STEM < "intraempresarial" >, SYNSEM.LKEYS.KEYREL.PRED "_intraempresarial_a_rel" ]. intraempresarialmente_x1 := av_i_spr_le & [ STEM < "intraempresarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_intraempresarialmente_x_rel" ]. intraepitelial_a1 := a_rel_nonprd_intr_le & [ STEM < "intraepitelial" >, SYNSEM.LKEYS.KEYREL.PRED "_intraepitelial_a_rel" ]. intraespecífico_a1 := a_rel_nonprd_intr_le & [ STEM < "intraespecífico" >, SYNSEM.LKEYS.KEYREL.PRED "_intraespecífico_a_rel" ]. intraestatal_a1 := a_rel_nonprd_intr_le & [ STEM < "intraestatal" >, SYNSEM.LKEYS.KEYREL.PRED "_intraestatal_a_rel" ]. intragénico_a1 := a_rel_nonprd_intr_le & [ STEM < "intragénico" >, SYNSEM.LKEYS.KEYREL.PRED "_intragénico_a_rel" ]. intraligamentoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intraligamentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intraligamentoso_a_rel" ]. intramembranoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intramembranoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intramembranoso_a_rel" ]. intramolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "intramolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_intramolecular_a_rel" ]. intramuscular_a1 := a_rel_nonprd_intr_le & [ STEM < "intramuscular" >, SYNSEM.LKEYS.KEYREL.PRED "_intramuscular_a_rel" ]. intranquilamente_x1 := av_i_spr_le & [ STEM < "intranquilamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intranquilamente_x_rel" ]. intranquilidad_n1 := n_intr_mass-or-count_le & [ STEM < "intranquilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intranquilidad_n_rel" ] ]. intranquilizar_v := v_trans_np_caus_le & [ STEM < "intranquilizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_intranquilizar_v_rel" ] ]. intranquilizar_v1 := v_intr_io*_le & [ STEM < "intranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_intranquilizar_v_rel" ]. intranquilizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "intranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_intranquilizar_v_rel" ]. intranquilo_a1 := a_qual_intr_ser_le & [ STEM < "intranquilo" >, SYNSEM.LKEYS.KEYREL.PRED "_intranquilo_a_rel" ]. intransferible_a1 := a_rel_prd_le & [ STEM < "intransferible" >, SYNSEM.LKEYS.KEYREL.PRED "_intransferible_a_rel" ]. intransferiblemente_x1 := av_i_spr_le & [ STEM < "intransferiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_intransferiblemente_x_rel" ]. intransigencia_n1 := n_intr_uncount_le & [ STEM < "intransigencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intransigencia_n_rel" ] ]. intransigente_a1 := a_rel_nonprd_intr_le & [ STEM < "intransigente" >, SYNSEM.LKEYS.KEYREL.PRED "_intransigente_a_rel" ]. intransitable_a1 := a_rel_prd_le & [ STEM < "intransitable" >, SYNSEM.LKEYS.KEYREL.PRED "_intransitable_a_rel" ]. intransitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "intransitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intransitivo_a_rel" ]. intraoccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "intraoccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_intraoccipital_a_rel" ]. intraocular_a1 := a_rel_nonprd_intr_le & [ STEM < "intraocular" >, SYNSEM.LKEYS.KEYREL.PRED "_intraocular_a_rel" ]. intraoral_a1 := a_rel_nonprd_intr_le & [ STEM < "intraoral" >, SYNSEM.LKEYS.KEYREL.PRED "_intraoral_a_rel" ]. intraparadigmático_a1 := a_rel_nonprd_intr_le & [ STEM < "intraparadigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_intraparadigmático_a_rel" ]. intraparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "intraparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_intraparietal_a_rel" ]. intraperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "intraperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_intraperióstico_a_rel" ]. intrapulpar_a1 := a_rel_nonprd_intr_le & [ STEM < "intrapulpar" >, SYNSEM.LKEYS.KEYREL.PRED "_intrapulpar_a_rel" ]. intrarregional_a1 := a_rel_nonprd_intr_le & [ STEM < "intrarregional" >, SYNSEM.LKEYS.KEYREL.PRED "_intrarregional_a_rel" ]. intrascendencia_n1 := n_intr_uncount_le & [ STEM < "intrascendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intrascendencia_n_rel" ] ]. intrascendente_a1 := a_rel_prd_le & [ STEM < "intrascendente" >, SYNSEM.LKEYS.KEYREL.PRED "_intrascendente_a_rel" ]. intraseptal_a1 := a_rel_nonprd_intr_le & [ STEM < "intraseptal" >, SYNSEM.LKEYS.KEYREL.PRED "_intraseptal_a_rel" ]. intratable_a1 := a_qual_intr_ser_le & [ STEM < "intratable" >, SYNSEM.LKEYS.KEYREL.PRED "_intratable_a_rel" ]. intravascular_a1 := a_rel_nonprd_intr_le & [ STEM < "intravascular" >, SYNSEM.LKEYS.KEYREL.PRED "_intravascular_a_rel" ]. intravenoso_a1 := a_rel_nonprd_intr_le & [ STEM < "intravenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_intravenoso_a_rel" ]. intrayugular_a1 := a_rel_nonprd_intr_le & [ STEM < "intrayugular" >, SYNSEM.LKEYS.KEYREL.PRED "_intrayugular_a_rel" ]. intrazonal_a1 := a_rel_nonprd_intr_le & [ STEM < "intrazonal" >, SYNSEM.LKEYS.KEYREL.PRED "_intrazonal_a_rel" ]. intraóseo_a1 := a_rel_nonprd_intr_le & [ STEM < "intraóseo" >, SYNSEM.LKEYS.KEYREL.PRED "_intraóseo_a_rel" ]. intriga_n1 := n_intr_uncount_le & [ STEM < "intriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intriga_n_rel" ] ]. intrigante_a1 := a_qual_intr_scopal_le & [ STEM < "intrigante" >, SYNSEM.LKEYS.KEYREL.PRED "_intrigante_a_rel" ]. intrigar_v1 := v_intr_io*_le & [ STEM < "intrigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_intrigar_v_rel" ] ]. intrigar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "intrigar" >, SYNSEM.LKEYS.KEYREL.PRED "_intrigar_v_rel" ]. intrigar_v3 := v_trans_np_le & [ STEM < "intrigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_intrigar_v_rel" ] ]. intrincar_v := v_trans_np_caus_le & [ STEM < "intrincar" >, SYNSEM.LKEYS.KEYREL.PRED "_intrincar_v_rel" ]. introducción_n1 := n_trans_le & [ STEM < "introducción" >, SYNSEM.LKEYS.KEYREL.PRED "_introducción_n_rel" ]. introducible_a1 := a_rel_nonprd_trans_le & [ STEM < "introducible" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_introducible_a_rel" ] ]. introducir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "introducir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_introducir_v_rel" ] ] ]. introducir_v2 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "introducir" >, SYNSEM.LKEYS.KEYREL.PRED "_introducir_v_rel" ]. introductor_a1 := a_rel_nonprd_intr_le & [ STEM < "introductor" >, SYNSEM.LKEYS.KEYREL.PRED "_introductor_a_rel" ]. introductorio_a1 := a_rel_nonprd_intr_le & [ STEM < "introductorio" >, SYNSEM.LKEYS.KEYREL.PRED "_introductorio_a_rel" ]. intromisivo_a1 := a_qual_intr_ser_le & [ STEM < "intromisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intromisivo_a_rel" ]. intromisión_n1 := n_trans_le & [ STEM < "intromisión" >, SYNSEM.LKEYS.KEYREL.PRED "_intromisión_n_rel" ]. introspección_n1 := n_intr_mass_le & [ STEM < "introspección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_introspección_n_rel" ] ]. introspectivo_a1 := a_qual_intr_scopal_le & [ STEM < "introspectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_introspectivo_a_rel" ]. introversión_n1 := n_intr_mass_le & [ STEM < "introversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_introversión_n_rel" ] ]. introvertido_a1 := a_qual_intr_ser_le & [ STEM < "introvertido" >, SYNSEM.LKEYS.KEYREL.PRED "_introvertido_a_rel" ]. intrusismo_n1 := n_ppcomp_uncount_le & [ STEM < "intrusismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intrusismo_n_rel" ] ]. intrusivo_a1 := a_qual_intr_scopal_le & [ STEM < "intrusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intrusivo_a_rel" ]. intrusión_n1 := n_result_intr_le & [ STEM < "intrusión" >, SYNSEM.LKEYS.KEYREL.PRED "_intrusión_n_rel" ]. intruso_a1 := a_rel_nonprd_intr_le & [ STEM < "intruso" >, SYNSEM.LKEYS.KEYREL.PRED "_intruso_a_rel" ]. intruso_n1 := n_intr_count_le & [ STEM < "intruso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intruso_n_rel" ] ]. intrépido_a1 := a_qual_intr_ser_le & [ STEM < "intrépido" >, SYNSEM.LKEYS.KEYREL.PRED "_intrépido_a_rel" ]. intrínsecamente_x1 := av_i_spr_le & [ STEM < "intrínsecamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intrínsecamente_x_rel" ]. intrínseco_a1 := a_qual_trans*_ser_le & [ STEM < "intrínseco" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_intrínseco_a_rel" ] ]. intuicionismo_n1 := n_intr_uncount_le & [ STEM < "intuicionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intuicionismo_n_rel" ] ]. intuición_n1 := n_intr_mass-or-count_le & [ STEM < "intuición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intuición_n_rel" ] ]. intuir_v1 := v_trans_cp_prop_fin_le & [ STEM < "intuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_intuir_v_rel" ] ]. intuir_v2 := v_trans_np_le & [ STEM < "intuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_intuir_v_rel" ] ]. intuitivamente_x1 := av_i_spr_le & [ STEM < "intuitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_intuitivamente_x_rel" ]. intuitivo_a1 := a_qual_intr_scopal_le & [ STEM < "intuitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_intuitivo_a_rel" ]. intumescencia_n1 := n_intr_uncount_le & [ STEM < "intumescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intumescencia_n_rel" ] ]. intumescente_a1 := a_rel_prd_le & [ STEM < "intumescente" >, SYNSEM.LKEYS.KEYREL.PRED "_intumescente_a_rel" ]. intérprete_n1 := n_intr_count_le & [ STEM < "intérprete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_intérprete_n_rel" ] ]. inulina_n1 := n_intr_count_le & [ STEM < "inulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inulina_n_rel" ] ]. inundable_a1 := a_qual_intr_scopal_le & [ STEM < "inundable" >, SYNSEM.LKEYS.KEYREL.PRED "_inundable_a_rel" ]. inundación_n1 := n_trans_le & [ STEM < "inundación" >, SYNSEM.LKEYS.KEYREL.PRED "_inundación_n_rel" ]. inundación_n2 := n_event-result_intr_le & [ STEM < "inundación" >, SYNSEM.LKEYS.KEYREL.PRED "_inundación_n_rel" ]. inundar_v := v_trans_np_caus_le & [ STEM < "inundar" >, SYNSEM.LKEYS.KEYREL.PRED "_inundar_v_rel" ]. inusitadamente_x1 := av_i_spr_le & [ STEM < "inusitadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inusitadamente_x_rel" ]. inusitado_a1 := a_qual_intr_scopal_le & [ STEM < "inusitado" >, SYNSEM.LKEYS.KEYREL.PRED "_inusitado_a_rel" ]. inusual_a1 := a_qual_intr_scopal_le & [ STEM < "inusual" >, SYNSEM.LKEYS.KEYREL.PRED "_inusual_a_rel" ]. inusualmente_x1 := av_i_spr_le & [ STEM < "inusualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inusualmente_x_rel" ]. inutilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inutilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inutilidad_n_rel" ] ]. inutilizable_a1 := a_qual_intr_estar_le & [ STEM < "inutilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_inutilizable_a_rel" ]. inutilización_n1 := n_trans_le & [ STEM < "inutilización" >, SYNSEM.LKEYS.KEYREL.PRED "_inutilización_n_rel" ]. inutilizar_v := v_trans_np_le & [ STEM < "inutilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_inutilizar_v_rel" ]. invadir_v1 := v_trans_np_le & [ STEM < "invadir" >, SYNSEM.LKEYS.KEYREL.PRED "_invadir_v_rel" ]. invaginación_n1 := n_intr_uncount_le & [ STEM < "invaginación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_invaginación_n_rel" ] ]. invalidación_n1 := n_trans_le & [ STEM < "invalidación" >, SYNSEM.LKEYS.KEYREL.PRED "_invalidación_n_rel" ]. invalidante_a1 := a_rel_prd_le & [ STEM < "invalidante" >, SYNSEM.LKEYS.KEYREL.PRED "_invalidante_a_rel" ]. invalidar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "invalidar" >, SYNSEM.LKEYS.KEYREL.PRED "_invalidar_v_rel" ]. invalidar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "invalidar" >, SYNSEM.LKEYS.KEYREL.PRED "_invalidar_v_rel" ]. invalidar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "invalidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_invalidar_v_rel" ] ]. invalidar_v4 := v_trans_np_le & [ STEM < "invalidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_invalidar_v_rel" ] ]. invalidez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "invalidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_invalidez_n_rel" ] ]. invariable_a1 := a_qual_intr_ser_le & [ STEM < "invariable" >, SYNSEM.LKEYS.KEYREL.PRED "_invariable_a_rel" ]. invariablemente_x1 := av_i_spr_le & [ STEM < "invariablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_invariablemente_x_rel" ]. invariación_n1 := n_intr_uncount_le & [ STEM < "invariación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_invariación_n_rel" ] ]. invariante_a1 := a_rel_prd_le & [ STEM < "invariante" >, SYNSEM.LKEYS.KEYREL.PRED "_invariante_a_rel" ]. invasión_n1 := n_trans_le & [ STEM < "invasión" >, SYNSEM.LKEYS.KEYREL.PRED "_invasión_n_rel" ]. invasor_a1 := a_qual_intr_scopal_le & [ STEM < "invasor" >, SYNSEM.LKEYS.KEYREL.PRED "_invasor_a_rel" ]. invasor_n1 := n_subj-nom_le & [ STEM < "invasor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_invasor_n_rel" ] ]. invencible_a1 := a_rel_prd_le & [ STEM < "invencible" >, SYNSEM.LKEYS.KEYREL.PRED "_invencible_a_rel" ]. invención_n1 := n_trans_le & [ STEM < "invención" >, SYNSEM.LKEYS.KEYREL.PRED "_invención_n_rel" ]. invendible_a1 := a_rel_prd_le & [ STEM < "invendible" >, SYNSEM.LKEYS.KEYREL.PRED "_invendible_a_rel" ]. inventar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "inventar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_inventar_v_rel" ] ]. inventar_v2 := v_ditrans*_le & [ STEM < "inventar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_inventar_v_rel" ] ]. inventar_v3 := v_pron_trans_np_le & [ STEM < "inventar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_sem, PRED "_inventar_v_rel" ] ]. inventariar_v := v_trans_np_le & [ STEM < "inventariar" >, SYNSEM.LKEYS.KEYREL.PRED "_inventariar_v_rel" ]. inventario_n1 := n_intr_count_le & [ STEM < "inventario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_inventario_n_rel" ] ]. inventivo_a1 := a_rel_nonprd_intr_le & [ STEM < "inventivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inventivo_a_rel" ]. invento_n1 := n_trans_le & [ STEM < "invento" >, SYNSEM.LKEYS.KEYREL.PRED "_invento_n_rel" ]. inventor_n1 := n_subj-nom_le & [ STEM < "inventor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inventor_n_rel" ] ]. invernadero_n1 := n_intr_count_le & [ STEM < "invenradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_invernadero_n_rel" ] ]. invernal_a1 := a_rel_nonprd_intr_le & [ STEM < "invernal" >, SYNSEM.LKEYS.KEYREL.PRED "_invernal_a_rel" ]. invernáculo_n1 := n_intr_count_le & [ STEM < "invernáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_invernáculo_n_rel" ] ]. inverosimilitud_n1 := n_intr_uncount_pl_le & [ STEM < "inverosimilitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inverosimilitud_n_rel" ] ]. inverosímil_a1 := a_qual_intr_scopal_le & [ STEM < "inverosímil" >, SYNSEM.LKEYS.KEYREL.PRED "_inverosímil_a_rel" ]. inversamente_x1 := av_i_spr_le & [ STEM < "inversamente" >, SYNSEM.LKEYS.KEYREL.PRED "_inversamente_x_rel" ]. inversionista_a1 := a_rel_nonprd_intr_le & [ STEM < "inversionista" >, SYNSEM.LKEYS.KEYREL.PRED "_inversionista_a_rel" ]. inversionista_n1 := n_intr_count_le & [ STEM < "inversionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inversionista_n_rel" ] ]. inversión_n1 := n_trans_le & [ STEM < "inversión" >, SYNSEM.LKEYS.KEYREL.PRED "_inversión_n_rel" ]. inverso_a1 := a_rel_nonprd_intr_le & [ STEM < "inverso" >, SYNSEM.LKEYS.KEYREL.PRED "_inverso_a_rel" ]. inversor_a1 := a_rel_nonprd_intr_le & [ STEM < "inversor" >, SYNSEM.LKEYS.KEYREL.PRED "_inversor_a_rel" ]. inversor_n1 := n_intr_count_le & [ STEM < "inversor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_pot, PRED "_inversor_n_rel" ] ]. invertasa_n1 := n_intr_count_le & [ STEM < "invertasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_invertasa_n_rel" ] ]. invertebrado_a1 := a_rel_nonprd_intr_le & [ STEM < "invertebrado" >, SYNSEM.LKEYS.KEYREL.PRED "_invertebrado_a_rel" ]. invertebrado_n1 := n_intr_count_le & [ STEM < "invertebrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_invertebrado_n_rel" ] ]. investidura_n1 := n_trans_le & [ STEM < "investidura" >, SYNSEM.LKEYS.KEYREL.PRED "_investidura_n_rel" ]. invertir_v1 := v_trans_np_mrkd_cp_prop_inf_sc_le & [ STEM < "invertir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_invertir_v_rel" ] ]. invertir_v2 := v_trans_np*_mrkd_np_le & [ STEM < "invertir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_invertir_v_rel" ] ]. invertir_v3 := v_trans_np_mrkd_np*_le & [ STEM < "invertir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_invertir_v_rel" ] ]. investigación_n1 := n_trans_le & [ STEM < "investigación" >, SYNSEM.LKEYS.KEYREL.PRED "_investigación_n_rel" ]. investigador_n1 := n_subj-nom_le & [ STEM < "investigador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_investigador_n_rel" ] ]. investigar_v1 := v_trans_cp_semi_ques_le & [ STEM < "investigar" >, SYNSEM.LKEYS.KEYREL.PRED "_investigar_v_rel" ]. investigar_v2 := v_trans_np*_le & [ STEM < "investigar" >, SYNSEM.LKEYS.KEYREL.PRED "_investigar_v_rel" ]. inviabilidad_n1 := n_intr_mass_le & [ STEM < "inviabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inviabilidad_n_rel" ] ]. inviable_a1 := a_qual_intr_scopal_le & [ STEM < "inviable" >, SYNSEM.LKEYS.KEYREL.PRED "_inviable_a_rel" ]. invictamente_x1 := av_i_spr_le & [ STEM < "invictamente" >, SYNSEM.LKEYS.KEYREL.PRED "_invictamente_x_rel" ]. invicto_a1 := a_rel_nonprd_intr_le & [ STEM < "invicto" >, SYNSEM.LKEYS.KEYREL.PRED "_invicto_a_rel" ]. invidente_n1 := n_intr_count_le & [ STEM < "invidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_invidente_n_rel" ] ]. invierno_n1 := n_intr_count_le & [ STEM < "invierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_invierno_n_rel" ] ]. inviolabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "inviolabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inviolabilidad_n_rel" ] ]. inviolable_a1 := a_rel_prd_le & [ STEM < "inviolable" >, SYNSEM.LKEYS.KEYREL.PRED "_inviolable_a_rel" ]. inviolablemente_x1 := av_i_spr_le & [ STEM < "inviolablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inviolablemente_x_rel" ]. inviolado_a1 := a_rel_nonprd_intr_le & [ STEM < "inviolado" >, SYNSEM.LKEYS.KEYREL.PRED "_inviolado_a_rel" ]. invisibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "invisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_invisibilidad_n_rel" ] ]. invisible_a1 := a_rel_prd_le & [ STEM < "invisible" >, SYNSEM.LKEYS.KEYREL.PRED "_invisible_a_rel" ]. invisiblemente_x1 := av_i_spr_le & [ STEM < "invisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_invisiblemente_x_rel" ]. invitación_n1 := n_intr_count_le & [ STEM < "invitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_invitación_n_rel" ] ]. invitado_n1 := n_intr_count_le & [ STEM < "invitado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_invitado_n_rel" ] ]. invitar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "invitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_invitar_v_rel" ] ] ]. invitar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "invitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_invitar_v_rel" ] ] ]. invitar_v3 := v_trans_np*_mrkd_np*_le & [ STEM < "invitar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_invitar_v_rel" ] ]. invocación_n1 := n_trans_le & [ STEM < "invocación" >, SYNSEM.LKEYS.KEYREL.PRED "_invocación_n_rel" ]. invocar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "invocar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_invocar_v_rel" ] ]. invocar_v2 := v_ditrans*_le & [ STEM < "invocar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_invocar_v_rel" ] ]. involución_n1 := n_result_intr_le & [ STEM < "involución" >, SYNSEM.LKEYS.KEYREL.PRED "_involución_n_rel" ]. involucrar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "involucrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_involucrar_v_rel" ] ]. involucrar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "involucrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_involucrar_v_rel" ] ]. involuntariamente_x1 := av_s_spr_le & [ STEM < "involuntariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_involuntariamente_x_rel" ]. involuntariamente_x2 := av_i_psthd_spr_le & [ STEM < "involuntariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_involuntariamente_x_rel" ]. involuntario_a1 := a_rel_prd_le & [ STEM < "involuntario" >, SYNSEM.LKEYS.KEYREL.PRED "_involuntario_a_rel" ]. involutivo_a1 := a_rel_prd_le & [ STEM < "involutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_involutivo_a_rel" ]. invulnerabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "invulnerabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_invulnerabilidad_n_rel" ] ]. invulnerable_a1 := a_rel_prd_le & [ STEM < "invulnerable" >, SYNSEM.LKEYS.KEYREL.PRED "_invulnerable_a_rel" ]. inválido_a1 := a_qual_intr_ser_le & [ STEM < "inválido" >, SYNSEM.LKEYS.KEYREL.PRED "_inválido_a_rel" ]. inválido_n1 := n_intr_count_le & [ STEM < "inválido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inválido_n_rel" ] ]. inyección_n1 := n_trans_le & [ STEM < "inyección" >, SYNSEM.LKEYS.KEYREL.PRED "_inyección_n_rel" ]. inyectable_a1 := a_rel_prd_le & [ STEM < "inyectable" >, SYNSEM.LKEYS.KEYREL.PRED "_inyectable_a_rel" ]. inyectar_v1 := v_ditrans_le & [ STEM < "inyectar" >, SYNSEM.LKEYS.KEYREL.PRED "_inyectar_v_rel" ]. inyectar_v2 := v_trans_np_lcomp_loc*_le & [ STEM < "inyectar" >, SYNSEM.LKEYS.KEYREL.PRED "_inyectar_v_rel" ]. inyectivo_a1 := a_rel_prd_le & [ STEM < "inyectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_inyectivo_a_rel" ]. inyector_n1 := n_intr_count_le & [ STEM < "inyector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_inyector_n_rel" ] ]. inánime_a1 := a_rel_prd_le & [ STEM < "inánime" >, SYNSEM.LKEYS.KEYREL.PRED "_inánime_a_rel" ]. inédito_a1 := a_qual_intr_scopal_le & [ STEM < "inédito" >, SYNSEM.LKEYS.KEYREL.PRED "_inédito_a_rel" ]. inútil_a1 := a_qual_intr_scopal_le & [ STEM < "inútil" >, SYNSEM.LKEYS.KEYREL.PRED "_inútil_a_rel" ]. inútil_n1 := n_intr_count_le & [ STEM < "inútil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_inútil_n_rel" ] ]. inútilmente_x1 := av_i_spr_le & [ STEM < "inútilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_inútilmente_x_rel" ]. ioduro_n1 := n_intr_count_le & [ STEM < "ioduro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ioduro_n_rel" ] ]. iolita_n1 := n_intr_count_le & [ STEM < "iolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_iolita_n_rel" ] ]. ionio_n1 := n_intr_count_le & [ STEM < "ionio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ionio_n_rel" ] ]. ionización_n1 := n_trans_le & [ STEM < "ionización" >, SYNSEM.LKEYS.KEYREL.PRED "_ionización_n_rel" ]. ionizante_a1 := a_rel_nonprd_intr_le & [ STEM < "ionizante" >, SYNSEM.LKEYS.KEYREL.PRED "_ionizante_a_rel" ]. ionizar_v := v_trans_np_caus_le & [ STEM < "ionizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ionizar_v_rel" ]. ionona_n1 := n_intr_count_le & [ STEM < "ionona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ionona_n_rel" ] ]. ionosfera_n1 := n_intr_count_le & [ STEM < "ionosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ionosfera_n_rel" ] ]. ionógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "ionógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_ionógeno_a_rel" ]. ionómero_n1 := n_intr_count_le & [ STEM < "ionómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ionómero_n_rel" ] ]. ipecacuana_n1 := n_intr_count_le & [ STEM < "ipecacuana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ipecacuana_n_rel" ] ]. ipso_facto_x1 := av_i_le & [ STEM < "ipso_facto" >, SYNSEM.LKEYS.KEYREL.PRED "_ipso_facto_x_rel" ]. ipso_jure_x1 := av_i_le & [ STEM < "ipso_jure" >, SYNSEM.LKEYS.KEYREL.PRED "_ipso_jure_x_rel" ]. ipsómetro_n1 := n_intr_count_le & [ STEM < "ipsómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ipsómetro_n_rel" ] ]. ir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ir_v_rel" ] ] ]. ir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ir_v_rel" ] ] ]. ir_v3 := v_pron_unacc_lcomp_dir*_le & [ STEM < "ir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_pot, PRED "_ir_v_rel" ] ]. ir_v4 := v_unacc_lcomp_dir*_le & [ STEM < "ir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_pot, PRED "_ir_v_rel" ] ]. ir_v5 := v_intr_mrkd_vp_ssr_le & [ STEM < "ir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ir_v_rel" ] ]. caer_v1 := v_pron_unacc_lcomp_dir*_le & [ STEM < "caer" >, SYNSEM.LKEYS.KEYREL [ PRED "_caer_v_rel" ] ]. caer_v2 := v_unacc_lcomp_dir*_le & [ STEM < "caer" >, SYNSEM.LKEYS.KEYREL [ PRED "_caer_v_rel" ] ]. caer_v3 := v_prd_ap_le & [ STEM < "caer" >, SYNSEM.LKEYS.KEYREL [ PRED "_caer_v_rel" ] ]. iracundo_a1 := a_qual_intr_ser_le & [ STEM < "iracundo" >, SYNSEM.LKEYS.KEYREL.PRED "_iracundo_a_rel" ]. iraní_a1 := a_rel_prd_le & [ STEM < "iraní" >, SYNSEM.LKEYS.KEYREL.PRED "_iraní_a_rel" ]. iraní_n1 := n_intr_count_le & [ STEM < "iraní" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_iraní_n_rel" ] ]. iraquí_a1 := a_rel_prd_le & [ STEM < "iraquí" >, SYNSEM.LKEYS.KEYREL.PRED "_iraquí_a_rel" ]. iraquí_n1 := n_intr_count_le & [ STEM < "iraquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_iraquí_n_rel" ] ]. irascibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "irascibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irascibilidad_n_rel" ] ]. irascible_a1 := a_qual_intr_ser_le & [ STEM < "irascible" >, SYNSEM.LKEYS.KEYREL.PRED "_irascible_a_rel" ]. iridectomía_n1 := n_intr_count_le & [ STEM < "iridectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridectomía_n_rel" ] ]. iridescencia_n1 := n_intr_uncount_le & [ STEM < "iridescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridescencia_n_rel" ] ]. iridio_n1 := n_intr_mass_le & [ STEM < "iridio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_iridio_n_rel" ] ]. iridiscencia_n1 := n_intr_uncount_le & [ STEM < "iridiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridiscencia_n_rel" ] ]. iridiscente_a1 := a_qual_intr_scopal_le & [ STEM < "iridiscente" >, SYNSEM.LKEYS.KEYREL.PRED "_iridiscente_a_rel" ]. iridociclectomía_n1 := n_intr_uncount_le & [ STEM < "iridociclectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridociclectomía_n_rel" ] ]. iridocorneal_a1 := a_rel_nonprd_intr_le & [ STEM < "iridocorneal" >, SYNSEM.LKEYS.KEYREL.PRED "_iridocorneal_a_rel" ]. iridocorneosclerectomía_n1 := n_intr_uncount_le & [ STEM < "iridocorneosclerectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocorneosclerectomía_n_rel" ] ]. iridoesclerocorneal_a1 := a_rel_nonprd_intr_le & [ STEM < "iridoesclerocorneal" >, SYNSEM.LKEYS.KEYREL.PRED "_iridoesclerocorneal_a_rel" ]. iridomalacia_n1 := n_intr_uncount_le & [ STEM < "iridomalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridomalacia_n_rel" ] ]. iridoplejía_n1 := n_intr_uncount_le & [ STEM < "iridoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoplejía_n_rel" ] ]. iridopupilar_a1 := a_rel_nonprd_intr_le & [ STEM < "iridopupilar" >, SYNSEM.LKEYS.KEYREL.PRED "_iridopupilar_a_rel" ]. iridotomía_n1 := n_intr_uncount_pl_le & [ STEM < "iridotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridotomía_n_rel" ] ]. iris_n1 := n_intr_count_le & [ STEM < "iris" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_iris_n_rel" ] ]. irisación_n1 := n_result_intr_le & [ STEM < "irisación" >, SYNSEM.LKEYS.KEYREL.PRED "_irisación_n_rel" ]. iritoectomía_n1 := n_intr_uncount_le & [ STEM < "iritoectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iritoectomía_n_rel" ] ]. irlandés_a1 := a_rel_prd_le & [ STEM < "irlandés" >, SYNSEM.LKEYS.KEYREL.PRED "_irlandés_a_rel" ]. irlandés_n1 := n_intr_count_le & [ STEM < "irlandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_irlandés_n_rel" ] ]. iroko_n1 := n_intr_count_le & [ STEM < "iroko" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_iroko_n_rel" ] ]. ironizar_v := v_intr_le & [ STEM < "ironizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ironizar_v_rel" ] ]. ironía_n1 := n_intr_mass-or-count_le & [ STEM < "ironía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ironía_n_rel" ] ]. irracional_a1 := a_qual_intr_ser_le & [ STEM < "irracional" >, SYNSEM.LKEYS.KEYREL.PRED "_irracional_a_rel" ]. irracionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "irracionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irracionalidad_n_rel" ] ]. irracionalismo_n1 := n_intr_uncount_le & [ STEM < "irracionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irracionalismo_n_rel" ] ]. irracionalista_a1 := a_rel_prd_le & [ STEM < "irracionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_irracionalista_a_rel" ]. irracionalmente_x1 := av_i_spr_le & [ STEM < "irracionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_irracionalmente_x_rel" ]. irradiación_n1 := n_trans_le & [ STEM < "irradiación" >, SYNSEM.LKEYS.KEYREL.PRED "_irradiación_n_rel" ]. irradiancia_n1 := n_intr_mass_le & [ STEM < "irradiancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irradiancia_n_rel" ] ]. irradiar_v := v_trans_np_le & [ STEM < "irradiar" >, SYNSEM.LKEYS.KEYREL.PRED "_irradiar_v_rel" ]. irrazonable_a1 := a_qual_intr_scopal_le & [ STEM < "irrazonable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrazonable_a_rel" ]. irreal_a1 := a_qual_intr_scopal_le & [ STEM < "irreal" >, SYNSEM.LKEYS.KEYREL.PRED "_irreal_a_rel" ]. irrealidad_n1 := n_intr_mass-or-count_le & [ STEM < "irrealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irrealidad_n_rel" ] ]. irrealizable_a1 := a_qual_intr_scopal_le & [ STEM < "irrealizable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrealizable_a_rel" ]. irrealmente_x1 := av_i_spr_le & [ STEM < "irrealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrealmente_x_rel" ]. irrebatibilidad_n1 := n_intr_uncount_le & [ STEM < "irrebatibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irrebatibilidad_n_rel" ] ]. irrebatible_a1 := a_qual_intr_scopal_le & [ STEM < "irrebatible" >, SYNSEM.LKEYS.KEYREL.PRED "_irrebatible_a_rel" ]. irreconciliable_a1 := a_qual_intr_scopal_le & [ STEM < "irreconciliable" >, SYNSEM.LKEYS.KEYREL.PRED "_irreconciliable_a_rel" ]. irreconocible_a1 := a_qual_intr_scopal_le & [ STEM < "irreconocible" >, SYNSEM.LKEYS.KEYREL.PRED "_irreconocible_a_rel" ]. irreconociblemente_x1 := av_i_spr_le & [ STEM < "irreconociblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreconociblemente_x_rel" ]. irrecuperable_a1 := a_rel_prd_le & [ STEM < "irrecuperable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrecuperable_a_rel" ]. irrecusable_a1 := a_rel_prd_le & [ STEM < "irrecusable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrecusable_a_rel" ]. irrecusablemente_x1 := av_i_spr_le & [ STEM < "irrecusablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrecusablemente_x_rel" ]. irredentismo_n1 := n_intr_uncount_le & [ STEM < "irredentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irredentismo_n_rel" ] ]. irredentista_a1 := a_rel_nonprd_intr_le & [ STEM < "irredentista" >, SYNSEM.LKEYS.KEYREL.PRED "_irredentista_a_rel" ]. irredentista_n1 := n_intr_count_le & [ STEM < "irredentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_irredentista_n_rel" ] ]. irredentistamente_x1 := av_i_spr_le & [ STEM < "irredentistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irredentistamente_x_rel" ]. irredento_a1 := a_qual_intr_estar_le & [ STEM < "irredento" >, SYNSEM.LKEYS.KEYREL.PRED "_irredento_a_rel" ]. irredimible_a1 := a_rel_prd_le & [ STEM < "irredimible" >, SYNSEM.LKEYS.KEYREL.PRED "_irredimible_a_rel" ]. irreducible_a1 := a_rel_prd_le & [ STEM < "irreducible" >, SYNSEM.LKEYS.KEYREL.PRED "_irreducible_a_rel" ]. irreductible_a1 := a_rel_prd_le & [ STEM < "irreductible" >, SYNSEM.LKEYS.KEYREL.PRED "_irreductible_a_rel" ]. irreflexivamente_x1 := av_s_spr_le & [ STEM < "irreflexivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreflexivamente_x_rel" ]. irreflexivamente_x2 := av_i_psthd_spr_le & [ STEM < "irreflexivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreflexivamente_x_rel" ]. irreflexivo_a1 := a_rel_prd_le & [ STEM < "irreflexivo" >, SYNSEM.LKEYS.KEYREL.PRED "_irreflexivo_a_rel" ]. irreflexión_n1 := n_intr_mass_le & [ STEM < "irreflexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irreflexión_n_rel" ] ]. irrefrenable_a1 := a_rel_prd_le & [ STEM < "irrefrenable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrefrenable_a_rel" ]. irrefutable_a1 := a_rel_prd_le & [ STEM < "irrefutable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrefutable_a_rel" ]. irrefutablemente_x1 := av_i_spr_le & [ STEM < "irrefutablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrefutablemente_x_rel" ]. irreglamentario_a1 := a_rel_prd_le & [ STEM < "irreglamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_irreglamentario_a_rel" ]. irregular_a1 := a_qual_intr_scopal_le & [ STEM < "irregular" >, SYNSEM.LKEYS.KEYREL.PRED "_irregular_a_rel" ]. irregularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "irregularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irregularidad_n_rel" ] ]. irregularmente_x1 := av_i_spr_le & [ STEM < "irregularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_irregularmente_x_rel" ]. irrelevante_a1 := a_qual_intr_scopal_le & [ STEM < "irrelevante" >, SYNSEM.LKEYS.KEYREL.PRED "_irrelevante_a_rel" ]. irrelevantemente_x1 := av_i_spr_le & [ STEM < "irrelevantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrelevantemente_x_rel" ]. irremediable_a1 := a_rel_prd_le & [ STEM < "irremediable" >, SYNSEM.LKEYS.KEYREL.PRED "_irremediable_a_rel" ]. irremediablemente_x1 := av_i_spr_le & [ STEM < "irremediablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irremediablemente_x_rel" ]. irremediablemente_x2 := av_s_spr_le & [ STEM < "irremediablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irremediablemente_x_rel" ]. irremisible_a1 := a_rel_prd_le & [ STEM < "irremisible" >, SYNSEM.LKEYS.KEYREL.PRED "_irremisible_a_rel" ]. irremisiblemente_x1 := av_i_spr_le & [ STEM < "irremisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irremisiblemente_x_rel" ]. irremisiblemente_x2 := av_s_spr_le & [ STEM < "irremisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irremisiblemente_x_rel" ]. irrenunciable_a1 := a_rel_prd_le & [ STEM < "irrenunciable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrenunciable_a_rel" ]. irreparabilidad_n1 := n_intr_uncount_le & [ STEM < "irreparabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irreparabilidad_n_rel" ] ]. irreparable_a1 := a_rel_prd_le & [ STEM < "irreparable" >, SYNSEM.LKEYS.KEYREL.PRED "_irreparable_a_rel" ]. irreparablemente_x1 := av_i_spr_le & [ STEM < "irreparablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreparablemente_x_rel" ]. irreparablemente_x2 := av_s_spr_le & [ STEM < "irreparablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreparablemente_x_rel" ]. irrepetiblemente_x1 := av_i_spr_le & [ STEM < "irrepetiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrepetiblemente_x_rel" ]. irreprimible_a1 := a_rel_prd_le & [ STEM < "irreprimible" >, SYNSEM.LKEYS.KEYREL.PRED "_irreprimible_a_rel" ]. irreprochable_a1 := a_rel_prd_le & [ STEM < "irreprochable" >, SYNSEM.LKEYS.KEYREL.PRED "_irreprochable_a_rel" ]. irrescatable_a1 := a_rel_prd_le & [ STEM < "irrescatable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrescatable_a_rel" ]. irresistible_a1 := a_qual_intr_scopal_le & [ STEM < "irresistible" >, SYNSEM.LKEYS.KEYREL.PRED "_irresistible_a_rel" ]. irresistiblemente_x1 := av_i_spr_le & [ STEM < "irresistiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irresistiblemente_x_rel" ]. irresoluble_a1 := a_rel_prd_le & [ STEM < "irresoluble" >, SYNSEM.LKEYS.KEYREL.PRED "_irresoluble_a_rel" ]. irresolución_n1 := n_intr_count_le & [ STEM < "irresolución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irresolución_n_rel" ] ]. irresoluto_a1 := a_rel_prd_le & [ STEM < "irresoluto" >, SYNSEM.LKEYS.KEYREL.PRED "_irresoluto_a_rel" ]. irrespectuosamente_x1 := av_i_spr_le & [ STEM < "irrespectuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrespectuosamente_x_rel" ]. irrespectuoso_a1 := a_qual_intr_ser_le & [ STEM < "irrespectuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_irrespectuoso_a_rel" ]. irrespetuosamente_x1 := av_i_spr_le & [ STEM < "irrespetuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrespetuosamente_x_rel" ]. irrespetuoso_a1 := a_qual_intr_ser_le & [ STEM < "irrespetuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_irrespetuoso_a_rel" ]. irrespirable_a1 := a_rel_prd_le & [ STEM < "irrespirable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrespirable_a_rel" ]. irresponsabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "irresponsabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irresponsabilidad_n_rel" ] ]. irresponsable_a1 := a_qual_intr_ser_le & [ STEM < "irresponsable" >, SYNSEM.LKEYS.KEYREL.PRED "_irresponsable_a_rel" ]. irresponsablemente_x1 := av_i_spr_le & [ STEM < "irresponsablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irresponsablemente_x_rel" ]. irretroactividad_n1 := n_intr_uncount_le & [ STEM < "irretroactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irretroactividad_n_rel" ] ]. irreverencia_n1 := n_intr_uncount_pl_le & [ STEM < "irreverencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irreverencia_n_rel" ] ]. irreverente_a1 := a_qual_intr_ser_le & [ STEM < "irreverente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreverente_a_rel" ]. irreverentemente_x1 := av_i_spr_le & [ STEM < "irreverentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreverentemente_x_rel" ]. irreversibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "irreversibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irreversibilidad_n_rel" ] ]. irreversible_a1 := a_rel_prd_le & [ STEM < "irreversible" >, SYNSEM.LKEYS.KEYREL.PRED "_irreversible_a_rel" ]. irreversiblemente_x1 := av_i_spr_le & [ STEM < "irreversiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irreversiblemente_x_rel" ]. irrevocabilidad_n1 := n_intr_uncount_le & [ STEM < "irrevocabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irrevocabilidad_n_rel" ] ]. irrevocable_a1 := a_rel_prd_le & [ STEM < "irrevocable" >, SYNSEM.LKEYS.KEYREL.PRED "_irrevocable_a_rel" ]. irrevocablemente_x1 := av_i_spr_le & [ STEM < "irrevocablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_irrevocablemente_x_rel" ]. irrigación_n1 := n_trans_le & [ STEM < "irrigación" >, SYNSEM.LKEYS.KEYREL.PRED "_irrigación_n_rel" ]. irrigador_n1 := n_intr_count_le & [ STEM < "irrigador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_irrigador_n_rel" ] ]. irrigar_v := v_trans_np_le & [ STEM < "irrigar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc_loc, PRED "_irrigar_v_rel" ] ]. irrisible_a1 := a_rel_prd_le & [ STEM < "irrisible" >, SYNSEM.LKEYS.KEYREL.PRED "_irrisible_a_rel" ]. irrisión_n1 := n_intr_count_le & [ STEM < "irrisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irrisión_n_rel" ] ]. irrisorio_a1 := a_qual_intr_scopal_le & [ STEM < "irrisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_irrisorio_a_rel" ]. irritabilidad_n1 := n_intr_mass-or-count_le & [ STEM < "irritabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irritabilidad_n_rel" ] ]. irritable_a1 := a_qual_intr_ser_le & [ STEM < "irritable" >, SYNSEM.LKEYS.KEYREL.PRED "_irritable_a_rel" ]. irritación_n1 := n_trans_le & [ STEM < "irritación" >, SYNSEM.LKEYS.KEYREL.PRED "_irritación_n_rel" ]. irritamiento_n1 := n_trans_le & [ STEM < "irritamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_irritamiento_n_rel" ]. irritante_a1 := a_qual_intr_scopal_le & [ STEM < "irritante" >, SYNSEM.LKEYS.KEYREL.PRED "_irritante_a_rel" ]. irritante_n1 := n_intr_count_le & [ STEM < "irritante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_irritante_n_rel" ] ]. irritar_v1 := v_intr_io*_le & [ STEM < "irritar" >, SYNSEM.LKEYS.KEYREL.PRED "_irritar_v_rel" ]. irritar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "irritar" >, SYNSEM.LKEYS.KEYREL.PRED "_irritar_v_rel" ]. irritar_v3 := v_trans_np_caus_le & [ STEM < "irritar" >, SYNSEM.LKEYS.KEYREL.PRED "_irritar_v_rel" ]. irritativo_a1 := a_rel_nonprd_intr_le & [ STEM < "irritativo" >, SYNSEM.LKEYS.KEYREL.PRED "_irritativo_a_rel" ]. irrogación_n1 := n_trans_le & [ STEM < "irrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_irrogación_n_rel" ]. irrogar_v := v_trans_np_le & [ STEM < "irrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_irrogar_v_rel" ]. irrompible_a1 := a_rel_prd_le & [ STEM < "irrompible" >, SYNSEM.LKEYS.KEYREL.PRED "_irrompible_a_rel" ]. irrotacional_a1 := a_rel_prd_le & [ STEM < "irrotacional" >, SYNSEM.LKEYS.KEYREL.PRED "_irrotacional_a_rel" ]. irrumpir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "irrumpir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_irrumpir_v_rel" ] ] ]. irrumpir_v2 := v_unacc_lcomp_loc*_le & [ STEM < "irrumpir" >, SYNSEM.LKEYS.KEYREL.PRED "_irrumpir_v_rel" ]. irrupción_n1 := n_event-result_intr_le & [ STEM < "irrupción" >, SYNSEM.LKEYS.KEYREL.PRED "_irrupción_n_rel" ]. irunés_n1 := n_intr_count_le & [ STEM < "irunés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_irunés_n_rel" ] ]. irídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "irídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_irídeo_a_rel" ]. irónicamente_x1 := av_s_spr_le & [ STEM < "irónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_irónicamente_x_rel" ]. irónico_a1 := a_qual_intr_ser_le & [ STEM < "irónico" >, SYNSEM.LKEYS.KEYREL.PRED "_irónico_a_rel" ]. isatina_n1 := n_intr_count_le & [ STEM < "isatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isatina_n_rel" ] ]. isba_n1 := n_intr_count_le & [ STEM < "isba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isba_n_rel" ] ]. isetionato_n1 := n_intr_count_le & [ STEM < "isetionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isetionato_n_rel" ] ]. isetiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isetiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isetiónico_a_rel" ]. isla_n1 := n_intr_count_le & [ STEM < "isla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_isla_n_rel" ] ]. islamismo_n1 := n_intr_uncount_le & [ STEM < "islamismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_islamismo_n_rel" ] ]. islamista_n1 := n_intr_count_le & [ STEM < "islamista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_islamista_n_rel" ] ]. islamización_n1 := n_trans_le & [ STEM < "islamización" >, SYNSEM.LKEYS.KEYREL.PRED "_islamización_n_rel" ]. islamizar_v := v_trans_np_le & [ STEM < "islamizar" >, SYNSEM.LKEYS.KEYREL.PRED "_islamizar_v_rel" ]. islandés_a1 := a_rel_prd_le & [ STEM < "islandés" >, SYNSEM.LKEYS.KEYREL.PRED "_islandés_a_rel" ]. islandés_n1 := n_intr_count_le & [ STEM < "islandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_islandés_n_rel" ] ]. isleta_n1 := n_intr_count_le & [ STEM < "isleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_isleta_n_rel" ] ]. isleño_n1 := n_intr_count_le & [ STEM < "isleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_isleño_n_rel" ] ]. islote_n1 := n_intr_count_le & [ STEM < "islote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_islote_n_rel" ] ]. islámico_a1 := a_rel_prd_le & [ STEM < "islámico" >, SYNSEM.LKEYS.KEYREL.PRED "_islámico_a_rel" ]. islándico_a1 := a_rel_prd_le & [ STEM < "islándico" >, SYNSEM.LKEYS.KEYREL.PRED "_islándico_a_rel" ]. isoaglutinina_n1 := n_intr_mass-or-count_le & [ STEM < "isoaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_isoaglutinina_n_rel" ] ]. isoalotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoalotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoalotípico_a_rel" ]. isoaloxacina_n1 := n_intr_count_le & [ STEM < "isoaloxacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoaloxacina_n_rel" ] ]. isoamileno_n1 := n_intr_count_le & [ STEM < "isoamileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoamileno_n_rel" ] ]. isoanticuerpo_n1 := n_intr_count_le & [ STEM < "isoanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isoanticuerpo_n_rel" ] ]. isoantígeno_n1 := n_intr_count_le & [ STEM < "isoantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isoantígeno_n_rel" ] ]. isobutano_n1 := n_intr_count_le & [ STEM < "isobutano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutano_n_rel" ] ]. isobuteno_n1 := n_intr_mass_le & [ STEM < "isobuteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobuteno_n_rel" ] ]. isobutilamina_n1 := n_intr_count_le & [ STEM < "isobutilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutilamina_n_rel" ] ]. isobutileno_n1 := n_intr_mass_le & [ STEM < "isobutileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutileno_n_rel" ] ]. isobutilundecilenamida_n1 := n_intr_count_le & [ STEM < "isobutilundecilenamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutilundecilenamida_n_rel" ] ]. isobutirato_n1 := n_intr_count_le & [ STEM < "isobutirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutirato_n_rel" ] ]. isobutironitrilo_n1 := n_intr_count_le & [ STEM < "isobutironitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isobutironitrilo_n_rel" ] ]. isobutírico_a1 := a_rel_nonprd_intr_le & [ STEM < "isobutírico" >, SYNSEM.LKEYS.KEYREL.PRED "_isobutírico_a_rel" ]. isobáricamente_x1 := av_i_spr_le & [ STEM < "isobáricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isobáricamente_x_rel" ]. isobárico_a1 := a_rel_nonprd_intr_le & [ STEM < "isobárico" >, SYNSEM.LKEYS.KEYREL.PRED "_isobárico_a_rel" ]. isobático_a1 := a_rel_nonprd_intr_le & [ STEM < "isobático" >, SYNSEM.LKEYS.KEYREL.PRED "_isobático_a_rel" ]. isocianúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "isocianúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_isocianúrico_a_rel" ]. isoclinal_a1 := a_rel_nonprd_intr_le & [ STEM < "isoclinal" >, SYNSEM.LKEYS.KEYREL.PRED "_isoclinal_a_rel" ]. isoclinamente_x1 := av_i_spr_le & [ STEM < "isoclinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isoclinamente_x_rel" ]. isoclino_a1 := a_rel_nonprd_intr_le & [ STEM < "isoclino" >, SYNSEM.LKEYS.KEYREL.PRED "_isoclino_a_rel" ]. isoclínicamente_x1 := av_i_spr_le & [ STEM < "isoclínicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isoclínicamente_x_rel" ]. isoclínico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoclínico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoclínico_a_rel" ]. isocromosoma_n1 := n_intr_count_le & [ STEM < "isocromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isocromosoma_n_rel" ] ]. isocromáticamente_x1 := av_i_spr_le & [ STEM < "isocromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isocromáticamente_x_rel" ]. isocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "isocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_isocromático_a_rel" ]. isocronamente_x1 := av_i_spr_le & [ STEM < "isocronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isocronamente_x_rel" ]. isocronismo_n1 := n_intr_uncount_le & [ STEM < "isocronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isocronismo_n_rel" ] ]. isocrono_a1 := a_rel_nonprd_intr_le & [ STEM < "isocrono" >, SYNSEM.LKEYS.KEYREL.PRED "_isocrono_a_rel" ]. isocrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isocrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isocrónico_a_rel" ]. isocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "isocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_isocíclico_a_rel" ]. isocórico_a1 := a_rel_nonprd_intr_le & [ STEM < "isocórico" >, SYNSEM.LKEYS.KEYREL.PRED "_isocórico_a_rel" ]. isodecaldehído_n1 := n_intr_mass_le & [ STEM < "isodecaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isodecaldehído_n_rel" ] ]. isodecanoico_a1 := a_rel_nonprd_intr_le & [ STEM < "isodecanoico" >, SYNSEM.LKEYS.KEYREL.PRED "_isodecanoico_a_rel" ]. isodecanol_n1 := n_intr_count_le & [ STEM < "isodecanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isodecanol_n_rel" ] ]. isodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "isodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_isodonto_a_rel" ]. isodureno_n1 := n_intr_count_le & [ STEM < "isodureno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isodureno_n_rel" ] ]. isoelectrónicamente_x1 := av_i_spr_le & [ STEM < "isoelectrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isoelectrónicamente_x_rel" ]. isoelectrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoelectrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoelectrónico_a_rel" ]. isoeléctricamente_x1 := av_i_spr_le & [ STEM < "isoeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isoeléctricamente_x_rel" ]. isoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoeléctrico_a_rel" ]. isoeugenol_n1 := n_intr_count_le & [ STEM < "isoeugenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoeugenol_n_rel" ] ]. isoforona_n1 := n_intr_count_le & [ STEM < "isoforona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoforona_n_rel" ] ]. isoftalato_n1 := n_intr_count_le & [ STEM < "isoftalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoftalato_n_rel" ] ]. isoftálico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoftálico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoftálico_a_rel" ]. isogeneico_a1 := a_rel_nonprd_intr_le & [ STEM < "isogeneico" >, SYNSEM.LKEYS.KEYREL.PRED "_isogeneico_a_rel" ]. isogonal_a1 := a_rel_nonprd_intr_le & [ STEM < "isogonal" >, SYNSEM.LKEYS.KEYREL.PRED "_isogonal_a_rel" ]. isograma_n1 := n_intr_count_le & [ STEM < "isograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isograma_n_rel" ] ]. isogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "isogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_isogénico_a_rel" ]. isogónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isogónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isogónico_a_rel" ]. isohemaglutinina_n1 := n_intr_count_le & [ STEM < "isohemaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isohemaglutinina_n_rel" ] ]. isohemolisina_n1 := n_intr_count_le & [ STEM < "isohemolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isohemolisina_n_rel" ] ]. isoheptano_n1 := n_intr_count_le & [ STEM < "isoheptano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoheptano_n_rel" ] ]. isohexano_n1 := n_intr_count_le & [ STEM < "isohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isohexano_n_rel" ] ]. isohúmico_a1 := a_rel_nonprd_intr_le & [ STEM < "isohúmico" >, SYNSEM.LKEYS.KEYREL.PRED "_isohúmico_a_rel" ]. isoinmunización_n1 := n_intr_uncount_le & [ STEM < "isoinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoinmunización_n_rel" ] ]. isolecito_a1 := a_rel_nonprd_intr_le & [ STEM < "isolecito" >, SYNSEM.LKEYS.KEYREL.PRED "_isolecito_a_rel" ]. isoleucina_n1 := n_intr_count_le & [ STEM < "isoleucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoleucina_n_rel" ] ]. isomerización_n1 := n_trans_le & [ STEM < "isomerización" >, SYNSEM.LKEYS.KEYREL.PRED "_isomerización_n_rel" ]. isomería_n1 := n_intr_uncount_pl_le & [ STEM < "isomería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isomería_n_rel" ] ]. isometría_n1 := n_intr_count_le & [ STEM < "isometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isometría_n_rel" ] ]. isomorfismo_n1 := n_ppcomp_uncount_le & [ STEM < "isomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isomorfismo_n_rel" ] ]. isomorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "isomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_isomorfo_a_rel" ]. isométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "isométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_isométrico_a_rel" ]. isomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "isomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_isomórfico_a_rel" ]. isonicotínico_a1 := a_rel_nonprd_intr_le & [ STEM < "isonicotínico" >, SYNSEM.LKEYS.KEYREL.PRED "_isonicotínico_a_rel" ]. isooctano_n1 := n_intr_count_le & [ STEM < "isooctano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isooctano_n_rel" ] ]. isoocteno_n1 := n_intr_count_le & [ STEM < "isoocteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoocteno_n_rel" ] ]. isopatía_n1 := n_intr_uncount_pl_le & [ STEM < "isopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isopatía_n_rel" ] ]. isopentaldehído_n1 := n_intr_mass_le & [ STEM < "isopentaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopentaldehído_n_rel" ] ]. isopentano_n1 := n_intr_count_le & [ STEM < "isopentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopentano_n_rel" ] ]. isopentanoico_a1 := a_rel_nonprd_intr_le & [ STEM < "isopentanoico" >, SYNSEM.LKEYS.KEYREL.PRED "_isopentanoico_a_rel" ]. isoperimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoperimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoperimétrico_a_rel" ]. isopoliploide_a1 := a_rel_nonprd_intr_le & [ STEM < "isopoliploide" >, SYNSEM.LKEYS.KEYREL.PRED "_isopoliploide_a_rel" ]. isopreno_n1 := n_intr_count_le & [ STEM < "isopreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopreno_n_rel" ] ]. isopropanolamina_n1 := n_intr_count_le & [ STEM < "isopropanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropanolamina_n_rel" ] ]. isopropenilacetileno_n1 := n_intr_count_le & [ STEM < "isopropenilacetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropenilacetileno_n_rel" ] ]. isopropilamina_n1 := n_intr_count_le & [ STEM < "isopropilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilamina_n_rel" ] ]. isopropilaminodifenilamina_n1 := n_intr_count_le & [ STEM < "isopropilaminodifenilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilaminodifenilamina_n_rel" ] ]. isopropilaminoetanol_n1 := n_intr_count_le & [ STEM < "isopropilaminoetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilaminoetanol_n_rel" ] ]. isopropilato_n1 := n_intr_count_le & [ STEM < "isopropilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilato_n_rel" ] ]. isopropilbenceno_n1 := n_intr_count_le & [ STEM < "isopropilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilbenceno_n_rel" ] ]. isopropilfenol_n1 := n_intr_count_le & [ STEM < "isopropilfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopropilfenol_n_rel" ] ]. isopulegol_n1 := n_intr_count_le & [ STEM < "isopulegol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isopulegol_n_rel" ] ]. isoquinoleína_n1 := n_intr_count_le & [ STEM < "isoquinoleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isoquinoleína_n_rel" ] ]. isosafrol_n1 := n_intr_count_le & [ STEM < "isosafrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isosafrol_n_rel" ] ]. isosterismo_n1 := n_intr_uncount_le & [ STEM < "isosterismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isosterismo_n_rel" ] ]. isostático_a1 := a_rel_nonprd_intr_le & [ STEM < "isostático" >, SYNSEM.LKEYS.KEYREL.PRED "_isostático_a_rel" ]. isostérico_a1 := a_rel_nonprd_intr_le & [ STEM < "isostérico" >, SYNSEM.LKEYS.KEYREL.PRED "_isostérico_a_rel" ]. isosísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "isosísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_isosísmico_a_rel" ]. isosónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isosónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isosónico_a_rel" ]. isotermo_a1 := a_rel_nonprd_intr_le & [ STEM < "isotermo" >, SYNSEM.LKEYS.KEYREL.PRED "_isotermo_a_rel" ]. isoterápico_a1 := a_rel_nonprd_intr_le & [ STEM < "isoterápico" >, SYNSEM.LKEYS.KEYREL.PRED "_isoterápico_a_rel" ]. isotiocianato_n1 := n_intr_count_le & [ STEM < "isotiocianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isotiocianato_n_rel" ] ]. isotipismo_n1 := n_intr_uncount_le & [ STEM < "isotipismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotipismo_n_rel" ] ]. isotopo_n1 := n_intr_count_le & [ STEM < "isotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isotopo_n_rel" ] ]. isotransplantación_n1 := n_intr_uncount_le & [ STEM < "isotransplantación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotransplantación_n_rel" ] ]. isotropía_n1 := n_intr_uncount_pl_le & [ STEM < "isotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotropía_n_rel" ] ]. isotáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "isotáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_isotáctico_a_rel" ]. isotérmicamente_x1 := av_i_spr_le & [ STEM < "isotérmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isotérmicamente_x_rel" ]. isotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "isotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_isotérmico_a_rel" ]. isotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "isotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_isotípico_a_rel" ]. isotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "isotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_isotónico_a_rel" ]. isotópicamente_x1 := av_i_spr_le & [ STEM < "isotópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isotópicamente_x_rel" ]. isotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "isotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_isotópico_a_rel" ]. isovalerato_n1 := n_intr_count_le & [ STEM < "isovalerato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_isovalerato_n_rel" ] ]. isovaleriánico_a1 := a_rel_nonprd_intr_le & [ STEM < "isovaleriánico" >, SYNSEM.LKEYS.KEYREL.PRED "_isovaleriánico_a_rel" ]. isquiocavernoso_a1 := a_rel_nonprd_intr_le & [ STEM < "isquiocavernoso" >, SYNSEM.LKEYS.KEYREL.PRED "_isquiocavernoso_a_rel" ]. isquiofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "isquiofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_isquiofemoral_a_rel" ]. isquion_n1 := n_ppcomp_count_le & [ STEM < "isquion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_isquion_n_rel" ] ]. isquiorrectal_a1 := a_rel_nonprd_intr_le & [ STEM < "isquiorrectal" >, SYNSEM.LKEYS.KEYREL.PRED "_isquiorrectal_a_rel" ]. isquiotibial_a1 := a_rel_nonprd_intr_le & [ STEM < "isquiotibial" >, SYNSEM.LKEYS.KEYREL.PRED "_isquiotibial_a_rel" ]. isquiático_a1 := a_rel_nonprd_intr_le & [ STEM < "isquiático" >, SYNSEM.LKEYS.KEYREL.PRED "_isquiático_a_rel" ]. isquémicamente_x1 := av_i_spr_le & [ STEM < "isquémicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isquémicamente_x_rel" ]. isquémico_a1 := a_rel_nonprd_intr_le & [ STEM < "isquémico" >, SYNSEM.LKEYS.KEYREL.PRED "_isquémico_a_rel" ]. israelita_a1 := a_rel_prd_le & [ STEM < "israelita" >, SYNSEM.LKEYS.KEYREL.PRED "_israelita_a_rel" ]. israelita_n1 := n_intr_count_le & [ STEM < "israelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_israelita_n_rel" ] ]. israelí_a1 := a_rel_prd_le & [ STEM < "israelí" >, SYNSEM.LKEYS.KEYREL.PRED "_israelí_a_rel" ]. israelí_n1 := n_intr_count_le & [ STEM < "israelí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_israelí_n_rel" ] ]. istmo_n1 := n_intr_count_le & [ STEM < "istmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_istmo_n_rel" ] ]. isócronamente_x1 := av_i_spr_le & [ STEM < "isócronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_isócronamente_x_rel" ]. isócrono_a1 := a_rel_nonprd_intr_le & [ STEM < "isócrono" >, SYNSEM.LKEYS.KEYREL.PRED "_isócrono_a_rel" ]. isófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "isófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_isófilo_a_rel" ]. isómeramente_x1 := av_i_spr_le & [ STEM < "isómeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_isómeramente_x_rel" ]. isómero_a1 := a_rel_nonprd_intr_le & [ STEM < "isómero" >, SYNSEM.LKEYS.KEYREL.PRED "_isómero_a_rel" ]. isómero_n1 := n_intr_count_le & [ STEM < "isómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isómero_n_rel" ] ]. isósceles_a1 := a_rel_nonprd_intr_le & [ STEM < "isósceles" >, SYNSEM.LKEYS.KEYREL.PRED "_isósceles_a_rel" ]. isótera_n1 := n_intr_count_le & [ STEM < "isótera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isótera_n_rel" ] ]. isótopo_n1 := n_intr_count_le & [ STEM < "isótopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_isótopo_n_rel" ] ]. itaconato_n1 := n_intr_count_le & [ STEM < "itaconato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_itaconato_n_rel" ] ]. itacónico_a1 := a_rel_nonprd_intr_le & [ STEM < "itacónico" >, SYNSEM.LKEYS.KEYREL.PRED "_itacónico_a_rel" ]. italiano_a1 := a_rel_prd_le & [ STEM < "italiano" >, SYNSEM.LKEYS.KEYREL.PRED "_italiano_a_rel" ]. italiano_n1 := n_intr_count_le & [ STEM < "italiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_italiano_n_rel" ] ]. italoamericano_a1 := a_rel_prd_le & [ STEM < "italoamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_italoamericano_a_rel" ]. italoamericano_n1 := n_intr_count_le & [ STEM < "italoamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_italoamericano_n_rel" ] ]. iteración_n1 := n_trans_le & [ STEM < "iteración" >, SYNSEM.LKEYS.KEYREL.PRED "_iteración_n_rel" ]. iterativmente_x1 := av_i_spr_le & [ STEM < "iterativmente" >, SYNSEM.LKEYS.KEYREL.PRED "_iterativmente_x_rel" ]. iterativo_a1 := a_rel_nonprd_intr_le & [ STEM < "iterativo" >, SYNSEM.LKEYS.KEYREL.PRED "_iterativo_a_rel" ]. iterbio_n1 := n_intr_mass_le & [ STEM < "iterbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_iterbio_n_rel" ] ]. itinerante_a1 := a_rel_nonprd_intr_le & [ STEM < "itinerante" >, SYNSEM.LKEYS.KEYREL.PRED "_itinerante_a_rel" ]. itrio_n1 := n_intr_mass_le & [ STEM < "itrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_itrio_n_rel" ] ]. izar_v := v_trans_np_le & [ STEM < "izar" >, SYNSEM.LKEYS.KEYREL.PRED "_izar_v_rel" ]. izquierdismo_n1 := n_intr_uncount_le & [ STEM < "izquierdismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_izquierdismo_n_rel" ] ]. izquierdista_a1 := a_qual_intr_scopal_le & [ STEM < "izquierdista" >, SYNSEM.LKEYS.KEYREL.PRED "_izquierdista_a_rel" ]. izquierdista_a2 := a_qual_intr_ser_le & [ STEM < "izquierdista" >, SYNSEM.LKEYS.KEYREL.PRED "_izquierdista_a_rel" ]. izquierdista_n1 := n_intr_count_le & [ STEM < "izquierdista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_izquierdista_n_rel" ] ]. izquierdo_a1 := a_rel_nonprd_intr_le & [ STEM < "izquierdo" >, SYNSEM.LKEYS.KEYREL.PRED "_izquierdo_a_rel" ]. iónicamente_x1 := av_i_spr_le & [ STEM < "iónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_iónicamente_x_rel" ]. iónico_a1 := a_rel_nonprd_intr_le & [ STEM < "iónico" >, SYNSEM.LKEYS.KEYREL.PRED "_iónico_a_rel" ]. jabalina_n1 := n_intr_count_le & [ STEM < "jabalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_jabalina_n_rel" ] ]. jabalí_n1 := n_intr_count_le & [ STEM < "jabalí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jabalí_n_rel" ] ]. jabato_n1 := n_intr_count_le & [ STEM < "jabato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jabato_n_rel" ] ]. jabonar_v := v_trans_np_le & [ STEM < "jabonar" >, SYNSEM.LKEYS.KEYREL.PRED "_jabonar_v_rel" ]. jaboncillo_n1 := n_intr_count_le & [ STEM < "jaboncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jaboncillo_n_rel" ] ]. jabonera_n1 := n_intr_count_le & [ STEM < "jabonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jabonera_n_rel" ] ]. jabonero_a1 := a_rel_nonprd_intr_le & [ STEM < "jabonero" >, SYNSEM.LKEYS.KEYREL.PRED "_jabonero_a_rel" ]. jabonero_n1 := n_intr_count_le & [ STEM < "jabonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jabonero_n_rel" ] ]. jabonoso_a1 := a_qual_intr_scopal_le & [ STEM < "jabonoso" >, SYNSEM.LKEYS.KEYREL.PRED "_jabonoso_a_rel" ]. jabón_n1 := n_intr_mass_le & [ STEM < "jabón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jabón_n_rel" ] ]. jaca_n1 := n_intr_count_le & [ STEM < "jaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jaca_n_rel" ] ]. jacinto_n1 := n_intr_count_le & [ STEM < "jacinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_jacinto_n_rel" ] ]. jack_n1 := n_intr_count_le & [ STEM < "jack" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jack_n_rel" ] ]. jacobiano_a1 := a_rel_nonprd_intr_le & [ STEM < "jacobiano" >, SYNSEM.LKEYS.KEYREL.PRED "_jacobiano_a_rel" ]. jacobinismo_n1 := n_intr_uncount_le & [ STEM < "jacobinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jacobinismo_n_rel" ] ]. jacobino_a1 := a_qual_intr_ser_le & [ STEM < "jacobino" >, SYNSEM.LKEYS.KEYREL.PRED "_jacobino_a_rel" ]. jacobita_a1 := a_rel_nonprd_intr_le & [ STEM < "jacobita" >, SYNSEM.LKEYS.KEYREL.PRED "_jacobita_a_rel" ]. jacquard_n1 := n_intr_count_le & [ STEM < "jacquard" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_jacquard_n_rel" ] ]. jactancia_n1 := n_intr_uncount_le & [ STEM < "jactancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jactancia_n_rel" ] ]. jactancioso_a1 := a_qual_intr_ser_le & [ STEM < "jactancioso" >, SYNSEM.LKEYS.KEYREL.PRED "_jactancioso_a_rel" ]. jactar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "jactar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_jactar_v_rel" ] ] ]. jactar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "jactar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_jactar_v_rel" ] ] ]. jade_n1 := n_intr_mass_le & [ STEM < "jade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_jade_n_rel" ] ]. jadeante_a1 := a_qual_intr_scopal_le & [ STEM < "jadeante" >, SYNSEM.LKEYS.KEYREL.PRED "_jadeante_a_rel" ]. jadear_v := v_intr_le & [ STEM < "jadear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_jadear_v_rel" ] ]. jadeita_n1 := n_intr_count_le & [ STEM < "jadeita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_jadeita_n_rel" ] ]. jaenés_n1 := n_intr_count_le & [ STEM < "jaenés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jaenés_n_rel" ] ]. jaguar_n1 := n_intr_count_le & [ STEM < "jaguar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jaguar_n_rel" ] ]. jalea_n1 := n_intr_mass_le & [ STEM < "jalea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jalea_n_rel" ] ]. jalear_v := v_trans_np_le & [ STEM < "jalear" >, SYNSEM.LKEYS.KEYREL.PRED "_jalear_v_rel" ]. jaleo_n1 := n_trans_le & [ STEM < "jaleo" >, SYNSEM.LKEYS.KEYREL.PRED "_jaleo_n_rel" ]. jalonamiento_n1 := n_trans_le & [ STEM < "jalonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_jalonamiento_n_rel" ]. jalonar_v := v_trans_np_le & [ STEM < "jalonar" >, SYNSEM.LKEYS.KEYREL.PRED "_jalonar_v_rel" ]. jalón_n1 := n_intr_count_le & [ STEM < "jalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jalón_n_rel" ] ]. jamaicano_a1 := a_rel_prd_le & [ STEM < "jamaicano" >, SYNSEM.LKEYS.KEYREL.PRED "_jamaicano_a_rel" ]. jamaicano_n1 := n_intr_count_le & [ STEM < "jamaicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jamaicano_n_rel" ] ]. jamba_n1 := n_intr_count_le & [ STEM < "jamba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jamba_n_rel" ] ]. jamelgo_n1 := n_intr_count_le & [ STEM < "jamelgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jamelgo_n_rel" ] ]. jamesonita_n1 := n_intr_count_le & [ STEM < "jamesonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_jamesonita_n_rel" ] ]. jamás_x1 := av_i_le & [ STEM < "jamás" >, SYNSEM.LKEYS.KEYREL.PRED "_jamás_x_rel" ]. jamón_n1 := n_intr_mass_le & [ STEM < "jamón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jamón_n_rel" ] ]. japonés_a1 := a_rel_prd_le & [ STEM < "japonés" >, SYNSEM.LKEYS.KEYREL.PRED "_japonés_a_rel" ]. japonés_n1 := n_intr_count_le & [ STEM < "japonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_japonés_n_rel" ] ]. jaquelado_a1 := a_rel_nonprd_intr_le & [ STEM < "jaquelado" >, SYNSEM.LKEYS.KEYREL.PRED "_jaquelado_a_rel" ]. jaquetón_n1 := n_intr_count_le & [ STEM < "jaquetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jaquetón_n_rel" ] ]. jaqués_a1 := a_rel_prd_le & [ STEM < "jaqués" >, SYNSEM.LKEYS.KEYREL.PRED "_jaqués_a_rel" ]. jaqués_n1 := n_intr_count_le & [ STEM < "jaqués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jaqués_n_rel" ] ]. jarabe_n1 := n_intr_mass_le & [ STEM < "jarabe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jarabe_n_rel" ] ]. jarcia_n1 := n_intr_count_le & [ STEM < "jarcia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jarcia_n_rel" ] ]. jardinera_n1 := n_intr_count_le & [ STEM < "jardinera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jardinera_n_rel" ] ]. jardinero_n1 := n_intr_count_le & [ STEM < "jardinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jardinero_n_rel" ] ]. jardinería_n1 := n_intr_uncount_pl_le & [ STEM < "jardinería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jardinería_n_rel" ] ]. jardín_n1 := n_intr_count_le & [ STEM < "jardín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_jardín_n_rel" ] ]. jarosita_n1 := n_intr_count_le & [ STEM < "jarosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_jarosita_n_rel" ] ]. jarra_n1 := n_pseudo-part_le & [ STEM < "jarra" >, SYNSEM.LKEYS.KEYREL.PRED "_jarra_n_rel" ]. jarrete_n2 := n_ppcomp_count_le & [ STEM < "jarrete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_jarrete_n_rel" ] ]. jarreteras_n1 := n_intr_count_le & [ STEM < "jarreteras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jarreteras_n_rel" ] ]. jarro_n1 := n_intr_count_le & [ STEM < "jarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jarro_n_rel" ] ]. jarrón_n1 := n_intr_count_le & [ STEM < "jarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jarrón_n_rel" ] ]. jaspe_n1 := n_intr_mass-or-count_le & [ STEM < "jaspe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_jaspe_n_rel" ] ]. jativés_a1 := a_rel_prd_le & [ STEM < "jativés" >, SYNSEM.LKEYS.KEYREL.PRED "_jativés_a_rel" ]. jativés_n1 := n_intr_count_le & [ STEM < "jativés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jativés_n_rel" ] ]. jaula_n1 := n_intr_count_le & [ STEM < "jaula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jaula_n_rel" ] ]. jauría_n1 := n_intr_coll_le & [ STEM < "jauría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jauría_n_rel" ] ]. javanés_n1 := n_intr_count_le & [ STEM < "javanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_javanés_n_rel" ] ]. jazmín_n1 := n_intr_mass_le & [ STEM < "jazmín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_jazmín_n_rel" ] ]. jazzístico_a1 := a_rel_nonprd_intr_le & [ STEM < "jazzístico" >, SYNSEM.LKEYS.KEYREL.PRED "_jazzístico_a_rel" ]. jeep_n1 := n_intr_count_le & [ STEM < "jeep" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jeep_n_rel" ] ]. jefatura_n1 := n_intr_count_le & [ STEM < "jefatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_jefatura_n_rel" ] ]. jefe_n1 := n_intr_count_le & [ STEM < "jefe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jefe_n_rel" ] ]. jemer_n1 := n_intr_count_le & [ STEM < "jemer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jemer_n_rel" ] ]. jengibre_n1 := n_intr_mass_le & [ STEM < "jengibre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_jengibre_n_rel" ] ]. jeque_n1 := n_intr_count_le & [ STEM < "jeque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jeque_n_rel" ] ]. jerarca_n1 := n_intr_count_le & [ STEM < "jerarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jerarca_n_rel" ] ]. jerarquizante_a1 := a_qual_intr_scopal_le & [ STEM < "jerarquizante" >, SYNSEM.LKEYS.KEYREL.PRED "_jerarquizante_a_rel" ]. jerarquizar_v := v_trans_np_caus_le & [ STEM < "jerarquizar" >, SYNSEM.LKEYS.KEYREL.PRED "_jerarquizar_v_rel" ]. jerarquía_n1 := n_intr_count_le & [ STEM < "jerarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jerarquía_n_rel" ] ]. jerbo_n1 := n_intr_count_le & [ STEM < "jerbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jerbo_n_rel" ] ]. jeremiada_n1 := n_intr_count_le & [ STEM < "jeremiada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jeremiada_n_rel" ] ]. jerez_n1 := n_intr_mass_le & [ STEM < "jerez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jerez_n_rel" ] ]. jerezano_n1 := n_intr_count_le & [ STEM < "jerezano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jerezano_n_rel" ] ]. jerga_n1 := n_intr_count_le & [ STEM < "jerga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_jerga_n_rel" ] ]. jergón_n1 := n_intr_count_le & [ STEM < "jergón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jergón_n_rel" ] ]. jeringa_n1 := n_intr_count_le & [ STEM < "jeringa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jeringa_n_rel" ] ]. jeringar_v1 := v_intr_io*_le & [ STEM < "jeringar" >, SYNSEM.LKEYS.KEYREL.PRED "_jeringar_v_rel" ]. jeringar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "jeringar" >, SYNSEM.LKEYS.KEYREL.PRED "_jeringar_v_rel" ]. jeringuilla_n1 := n_intr_count_le & [ STEM < "jeringuilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jeringuilla_n_rel" ] ]. jeroglífico_n1 := n_intr_count_le & [ STEM < "jeroglífico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_jeroglífico_n_rel" ] ]. jersey_n1 := n_intr_count_le & [ STEM < "jersey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jersey_n_rel" ] ]. jerárquico_a1 := a_qual_intr_scopal_le & [ STEM < "jerárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_jerárquico_a_rel" ]. jesuita_n1 := n_intr_count_le & [ STEM < "jesuita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jesuita_n_rel" ] ]. jet_n1 := n_intr_count_le & [ STEM < "jet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_jet_n_rel" ] ]. jibia_n1 := n_intr_count_le & [ STEM < "jibia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jibia_n_rel" ] ]. jiddish_n1 := n_intr_count_le & [ STEM < "jiddish" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jiddish_n_rel" ] ]. jilguero_n1 := n_intr_count_le & [ STEM < "jilguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jilguero_n_rel" ] ]. jineta_n1 := n_intr_count_le & [ STEM < "jineta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jineta_n_rel" ] ]. jinete_n1 := n_intr_count_le & [ STEM < "jinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jinete_n_rel" ] ]. jingoísta_a1 := a_rel_nonprd_intr_le & [ STEM < "jingoísta" >, SYNSEM.LKEYS.KEYREL.PRED "_jingoísta_a_rel" ]. jingoístamente_x1 := av_i_spr_le & [ STEM < "jingoístamente" >, SYNSEM.LKEYS.KEYREL.PRED "_jingoístamente_x_rel" ]. jirafa_n1 := n_intr_count_le & [ STEM < "jirafa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_jirafa_n_rel" ] ]. jirón_n1 := n_pseudo-part_le & [ STEM < "jirón" >, SYNSEM.LKEYS.KEYREL.PRED "_jirón_n_rel" ]. jockey_n1 := n_intr_count_le & [ STEM < "jockey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jockey_n_rel" ] ]. jocosmente_x1 := av_i_spr_le & [ STEM < "jocosmente" >, SYNSEM.LKEYS.KEYREL.PRED "_jocosmente_x_rel" ]. jocoso_a1 := a_qual_intr_scopal_le & [ STEM < "jocoso" >, SYNSEM.LKEYS.KEYREL.PRED "_jocoso_a_rel" ]. joder_v1 := v_intr_io*_le & [ STEM < "joder" >, SYNSEM.LKEYS.KEYREL.PRED "_joder_v_rel" ]. joder_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "joder" >, SYNSEM.LKEYS.KEYREL.PRED "_joder_v_rel" ]. jofaina_n1 := n_intr_count_le & [ STEM < "jofaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jofaina_n_rel" ] ]. jordano_a1 := a_rel_prd_le & [ STEM < "jordano" >, SYNSEM.LKEYS.KEYREL.PRED "_jordano_a_rel" ]. jordano_n1 := n_intr_count_le & [ STEM < "jordano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jordano_n_rel" ] ]. jorfe_n1 := n_intr_count_le & [ STEM < "jorfe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jorfe_n_rel" ] ]. jornada_n1 := n_intr_count_le & [ STEM < "jornada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_jornada_n_rel" ] ]. jornal_n := n_intr_count_le & [ STEM < "jornal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_jornal_n_rel" ] ]. jornalero_n1 := n_intr_count_le & [ STEM < "jornalero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jornalero_n_rel" ] ]. joroba_n1 := n_intr_mass_le & [ STEM < "joroba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_joroba_n_rel" ] ]. jorobado_n1 := n_intr_count_le & [ STEM < "jorobado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jorobado_n_rel" ] ]. jorobar_v1 := v_intr_io*_le & [ STEM < "jorobar" >, SYNSEM.LKEYS.KEYREL.PRED "_jorobar_v_rel" ]. jorobar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "jorobar" >, SYNSEM.LKEYS.KEYREL.PRED "_jorobar_v_rel" ]. jota_n1 := n_intr_count_le & [ STEM < "jota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jota_n_rel" ] ]. joule_n := n_intr_count_le & [ STEM < "joule" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_joule_n_rel" ] ]. joven_a1 := a_qual_intr_scopal_le & [ STEM < "joven" >, SYNSEM.LKEYS.KEYREL.PRED "_joven_a_rel" ]. joven_n1 := n_intr_count_le & [ STEM < "joven" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_joven_n_rel" ] ]. jovencito_n1 := n_intr_count_le & [ STEM < "jovencito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jovencito_n_rel" ] ]. jovial_a1 := a_qual_intr_scopal_le & [ STEM < "jovial" >, SYNSEM.LKEYS.KEYREL.PRED "_jovial_a_rel" ]. jovialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "jovialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jovialidad_n_rel" ] ]. jovialmente_x1 := av_i_spr_le & [ STEM < "jovialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_jovialmente_x_rel" ]. joya_n1 := n_intr_count_le & [ STEM < "joya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_joya_n_rel" ] ]. joyero_n1 := n_intr_count_le & [ STEM < "joyero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_joyero_n_rel" ] ]. joyería_n1 := n_intr_count_le & [ STEM < "joyería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_joyería_n_rel" ] ]. joystick_n1 := n_intr_count_le & [ STEM < "joystick" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_joystick_n_rel" ] ]. juanete_n1 := n_intr_count_le & [ STEM < "juanete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_juanete_n_rel" ] ]. jubilación_n1 := n_trans_le & [ STEM < "jubilación" >, SYNSEM.LKEYS.KEYREL.PRED "_jubilación_n_rel" ]. jubilado_n1 := n_intr_count_le & [ STEM < "jubilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jubilado_n_rel" ] ]. jubilar_v := v_trans_np_caus_le & [ STEM < "jubilar" >, SYNSEM.LKEYS.KEYREL.PRED "_jubilar_v_rel" ]. jubileo_n1 := n_intr_count_le & [ STEM < "jubileo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jubileo_n_rel" ] ]. jubilosamente_x1 := av_i_spr_le & [ STEM < "jubilosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_jubilosamente_x_rel" ]. jubiloso_a1 := a_qual_intr_ser_le & [ STEM < "jubiloso" >, SYNSEM.LKEYS.KEYREL.PRED "_jubiloso_a_rel" ]. jubón_n1 := n_intr_count_le & [ STEM < "jubón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jubón_n_rel" ] ]. judaico_a1 := a_rel_nonprd_intr_le & [ STEM < "judaico" >, SYNSEM.LKEYS.KEYREL.PRED "_judaico_a_rel" ]. judaismo_n1 := n_intr_uncount_le & [ STEM < "judaismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_judaismo_n_rel" ] ]. judería_n1 := n_intr_count_le & [ STEM < "judería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_judería_n_rel" ] ]. judicatura_n1 := n_intr_count_le & [ STEM < "judicatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_judicatura_n_rel" ] ]. judicial_a1 := a_rel_nonprd_intr_le & [ STEM < "judicial" >, SYNSEM.LKEYS.KEYREL.PRED "_judicial_a_rel" ]. judicialidad_n1 := n_intr_uncount_le & [ STEM < "judicialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_judicialidad_n_rel" ] ]. judicialmente_x1 := av_i_spr_le & [ STEM < "judicialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_judicialmente_x_rel" ]. judogi_n1 := n_intr_count_le & [ STEM < "judogi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_judogi_n_rel" ] ]. judoka_n1 := n_intr_count_le & [ STEM < "judoka" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_judoka_n_rel" ] ]. judía_n1 := n_intr_count_le & [ STEM < "judía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_judía_n_rel" ] ]. judío_a1 := a_qual_intr_ser_le & [ STEM < "judío" >, SYNSEM.LKEYS.KEYREL.PRED "_judío_a_rel" ]. judío_n1 := n_intr_count_le & [ STEM < "judío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_judío_n_rel" ] ]. juego_n1 := n_intr_count_le & [ STEM < "juego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_juego_n_rel" ] ]. juerga_n1 := n_intr_count_le & [ STEM < "juerga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_juerga_n_rel" ] ]. juerguista_n1 := n_intr_count_le & [ STEM < "juerguista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_juerguista_n_rel" ] ]. juez_n1 := n_intr_count_le & [ STEM < "juez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_juez_n_rel" ] ]. jugada_n1 := n_intr_count_le & [ STEM < "jugada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jugada_n_rel" ] ]. jugador_n1 := n_intr_count_le & [ STEM < "jugador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jugador_n_rel" ] ]. jugar_v1 := v_intr_le & [ STEM < "jugar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_jugar_v_rel" ] ]. jugar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "jugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_jugar_v_rel" ] ]. jugar_v3 := v_intr_mrkd_np_le & [ STEM < "jugar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_jugar_v_rel" ] ]. juglar_n1 := n_intr_count_le & [ STEM < "juglar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_juglar_n_rel" ] ]. jugo_n1 := n_intr_count_le & [ STEM < "jugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jugo_n_rel" ] ]. jugoso_a1 := a_qual_intr_scopal_le & [ STEM < "jugoso" >, SYNSEM.LKEYS.KEYREL.PRED "_jugoso_a_rel" ]. juguete_n1 := n_intr_count_le & [ STEM < "juguete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_juguete_n_rel" ] ]. juguetear_v := v_intr_le & [ STEM < "juguetear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_juguetear_v_rel" ] ]. juguetón_a1 := a_qual_intr_ser_le & [ STEM < "juguetón" >, SYNSEM.LKEYS.KEYREL.PRED "_juguetón_a_rel" ]. juiciosamente_x1 := av_i_spr_le & [ STEM < "juiciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_juiciosamente_x_rel" ]. juicioso_a1 := a_qual_intr_ser_le & [ STEM < "juicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_juicioso_a_rel" ]. julio_n1 := n_pseudo-part_le & [ STEM < "julio" >, SYNSEM.LKEYS.KEYREL.PRED "_julio_n_rel" ]. julio_n2 := n_intr_count_le & [ STEM < "julio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp_unit, PRED "_julio_n_rel" ] ]. juncia_n1 := n_intr_count_le & [ STEM < "juncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_juncia_n_rel" ] ]. junco_n1 := n_intr_count_le & [ STEM < "junco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_junco_n_rel" ] ]. jungla_n1 := n_intr_count_le & [ STEM < "jungla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_jungla_n_rel" ] ]. junio_n1 := n_intr_count_le & [ STEM < "junio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_junio_n_rel" ] ]. junior_n1 := n_intr_count_le & [ STEM < "junior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_junior_n_rel" ] ]. junta_n1 := n_intr_count_le & [ STEM < "junta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_junta_n_rel" ] ]. juntamente_x1 := av_i_spr_le & [ STEM < "juntamente" >, SYNSEM.LKEYS.KEYREL.PRED "_juntamente_x_rel" ]. juntar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "juntar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_juntar_v_rel" ] ] ]. juntar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "juntar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_juntar_v_rel" ] ] ]. juntar_v3 := v_trans_np_mrkd_np_sym_le & [ STEM < "juntar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_juntar_v_rel" ] ]. juntera_n1 := n_intr_count_le & [ STEM < "juntera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_juntera_n_rel" ] ]. juntos_a1 := a_qual_intr_estar_le & [ STEM < "juntos" >, SYNSEM.LKEYS.KEYREL.PRED "_juntos_a_rel" ]. junto_a_a1 := a_qual_intr_estar_le & [ STEM < "junto_a" >, SYNSEM.LKEYS.KEYREL.PRED "_junto_a_a_rel" ]. junto_a_p_vmod := p_vmod_le & [ STEM < "junto_a" >, SYNSEM.LKEYS.KEYREL.PRED _junto_a_p_rel ]. junto_con_p_vmod := p_vmod_le & [ STEM < "junto_con" >, SYNSEM.LKEYS.KEYREL.PRED _junto_con_p_rel ]. juntura_n1 := n_intr_count_le & [ STEM < "juntura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_juntura_n_rel" ] ]. junípero_n1 := n_intr_count_le & [ STEM < "junípero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_junípero_n_rel" ] ]. jura_n1 := n_trans_le & [ STEM < "jura" >, SYNSEM.LKEYS.KEYREL.PRED "_jura_n_rel" ]. jurado_n1 := n_intr_coll_le & [ STEM < "jurado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_jurado_n_rel" ] ]. juramento_n1 := n_intr_count_le & [ STEM < "juramento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_juramento_n_rel" ] ]. jurar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "jurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_jurar_v_rel" ] ]. jurar_v2 := v_ditrans*_le & [ STEM < "jurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_jurar_v_rel" ] ]. juratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "juratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_juratorio_a_rel" ]. juratorio_n1 := n_intr_count_le & [ STEM < "juratorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_juratorio_n_rel" ] ]. jurel_n1 := n_intr_count_le & [ STEM < "jurel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_jurel_n_rel" ] ]. juridicopenal_a1 := a_rel_nonprd_intr_le & [ STEM < "juridicopenal" >, SYNSEM.LKEYS.KEYREL.PRED "_juridicopenal_a_rel" ]. juridicopenalmente_x1 := av_i_spr_le & [ STEM < "juridicopenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_juridicopenalmente_x_rel" ]. jurisconsulto_n1 := n_intr_count_le & [ STEM < "jurisconsulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jurisconsulto_n_rel" ] ]. jurisdiccional_a1 := a_rel_nonprd_intr_le & [ STEM < "jurisdiccional" >, SYNSEM.LKEYS.KEYREL.PRED "_jurisdiccional_a_rel" ]. jurisdicción_n1 := n_intr_count_le & [ STEM < "jurisdicción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_jurisdicción_n_rel" ] ]. jurisperito_n1 := n_intr_count_le & [ STEM < "jurisperito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jurisperito_n_rel" ] ]. jurisprudencia_n1 := n_intr_uncount_le & [ STEM < "jurisprudencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jurisprudencia_n_rel" ] ]. jurisprudencial_a1 := a_rel_nonprd_intr_le & [ STEM < "jurisprudencial" >, SYNSEM.LKEYS.KEYREL.PRED "_jurisprudencial_a_rel" ]. jurisprudencialmente_x1 := av_i_spr_le & [ STEM < "jurisprudencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_jurisprudencialmente_x_rel" ]. jurista_n1 := n_intr_count_le & [ STEM < "jurista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_jurista_n_rel" ] ]. juro_a_bríos_x1 := av_i_le & [ STEM < "juro_a_bríos" >, SYNSEM.LKEYS.KEYREL.PRED "_juro_a_bríos_x_rel" ]. jurásico_a1 := a_rel_nonprd_intr_le & [ STEM < "jurásico" >, SYNSEM.LKEYS.KEYREL.PRED "_jurásico_a_rel" ]. jurídicamente_x1 := av_i_spr_le & [ STEM < "jurídicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_jurídicamente_x_rel" ]. jurídico-político_a1 := a_rel_nonprd_intr_le & [ STEM < "jurídico-político" >, SYNSEM.LKEYS.KEYREL.PRED "_jurídico-político_a_rel" ]. jurídico_a1 := a_rel_nonprd_intr_le & [ STEM < "jurídico" >, SYNSEM.LKEYS.KEYREL.PRED "_jurídico_a_rel" ]. justamente_x1 := av_i_foc_le & [ STEM < "justamente" >, SYNSEM.LKEYS.KEYREL.PRED "_justamente_x_rel" ]. justamente_x2 := av_s_cp_prop_le & [ STEM < "justamente" >, SYNSEM.LKEYS.KEYREL.PRED "_justamente_x_rel" ]. justamente_x3 := av_i_np-foc_le & [ STEM < "justamente" >, SYNSEM.LKEYS.KEYREL.PRED "_justamente_x_rel" ]. justicia_n1 := n_intr_mass_le & [ STEM < "justicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_justicia_n_rel" ] ]. justiciable_a1 := a_rel_prd_le & [ STEM < "justiciable" >, SYNSEM.LKEYS.KEYREL.PRED "_justiciable_a_rel" ]. justicialista_n1 := n_intr_count_le & [ STEM < "justicialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_justicialista_n_rel" ] ]. justiciero_n1 := n_intr_count_le & [ STEM < "justiciero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_justiciero_n_rel" ] ]. justificable_a1 := a_qual_intr_scopal_le & [ STEM < "justificable" >, SYNSEM.LKEYS.KEYREL.PRED "_justificable_a_rel" ]. justificacionismo_n1 := n_intr_uncount_le & [ STEM < "justificacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_justificacionismo_n_rel" ] ]. justificación_n1 := n_trans_le & [ STEM < "justificación" >, SYNSEM.LKEYS.KEYREL.PRED "_justificación_n_rel" ]. justificadamente_x1 := av_i_spr_le & [ STEM < "justificadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_justificadamente_x_rel" ]. justificador_n1 := n_intr_count_le & [ STEM < "justificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_justificador_n_rel" ] ]. justificante_n1 := n_intr_count_le & [ STEM < "justificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_justificante_n_rel" ] ]. justificar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "justificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_justificar_v_rel" ] ]. justificar_v2 := v_ditrans*_le & [ STEM < "justificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_justificar_v_rel" ] ]. justificar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "justificar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_justificar_v_rel" ] ] ]. justificar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "justificar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_justificar_v_rel" ] ] ]. justificar_v5 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "justificar" >, SYNSEM.LKEYS.KEYREL.PRED "_justificar_v_rel" ]. justificar_v6 := v_subj_cp_prop_trans_np_le & [ STEM < "justificar" >, SYNSEM.LKEYS.KEYREL.PRED "_justificar_v_rel" ]. justificativo_a1 := a_qual_intr_scopal_le & [ STEM < "justificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_justificativo_a_rel" ]. justificatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "justificatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_justificatorio_a_rel" ]. justipreciar_v := v_trans_np_le & [ STEM < "justipreciar" >, SYNSEM.LKEYS.KEYREL.PRED "_justipreciar_v_rel" ]. justo_a1 := a_qual_intr_ser_le & [ STEM < "justo" >, SYNSEM.LKEYS.KEYREL.PRED "_justo_a_rel" ]. justo_x1 := av_i_foc_prehd_le & [ STEM < "justo" >, SYNSEM.LKEYS.KEYREL.PRED "_justo_x_rel" ]. justo_x2 := av_s_cp_prop_le & [ STEM < "justo" >, SYNSEM.LKEYS.KEYREL.PRED "_justo_x_rel" ]. justo_x3 := av_i_np-foc_le & [ STEM < "justo" >, SYNSEM.LKEYS.KEYREL.PRED "_justo_x_rel" ]. juvenil_a1 := a_qual_intr_scopal_le & [ STEM < "juvenil" >, SYNSEM.LKEYS.KEYREL.PRED "_juvenil_a_rel" ]. juventud_n1 := n_intr_mass_le & [ STEM < "juventud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_juventud_n_rel" ] ]. juzgado_n1 := n_intr_count_le & [ STEM < "juzgado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_juzgado_n_rel" ] ]. juzgador_n1 := n_subj-nom_le & [ STEM < "juzgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_juzgador_n_rel" ] ]. jácena_n1 := n_intr_count_le & [ STEM < "jácena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jácena_n_rel" ] ]. jónico_a1 := a_rel_prd_le & [ STEM < "jónico" >, SYNSEM.LKEYS.KEYREL.PRED "_jónico_a_rel" ]. jóquer_n1 := n_intr_count_le & [ STEM < "jóquer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_jóquer_n_rel" ] ]. kafkiano_a1 := a_qual_intr_ser_postn_le & [ STEM < "kafkiano" >, SYNSEM.LKEYS.KEYREL.PRED "_kafkiano_a_rel" ]. kainita_n1 := n_intr_count_le & [ STEM < "kainita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kainita_n_rel" ] ]. kaiot_n1 := n_intr_count_le & [ STEM < "kaiot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kaiot_n_rel" ] ]. kapoc_n1 := n_intr_mass-or-count_le & [ STEM < "kapoc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_kapoc_n_rel" ] ]. karateca_n1 := n_intr_count_le & [ STEM < "karateca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_karateca_n_rel" ] ]. karateka_n1 := n_intr_count_le & [ STEM < "karateka" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_karateka_n_rel" ] ]. karstología_n1 := n_intr_uncount_le & [ STEM < "karstología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_karstología_n_rel" ] ]. kayac_n1 := n_intr_count_le & [ STEM < "kayac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kayac_n_rel" ] ]. kayak-polo_n1 := n_intr_count_le & [ STEM < "kayak-polo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kayak-polo_n_rel" ] ]. kayak_n1 := n_intr_count_le & [ STEM < "kayak" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kayak_n_rel" ] ]. kayakista_n1 := n_intr_count_le & [ STEM < "kayakista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_kayakista_n_rel" ] ]. kbit_n := n_intr_count_le & [ STEM < "kbit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kbit_n_rel" ] ]. kbyte_n := n_intr_count_le & [ STEM < "kbyte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kbyte_n_rel" ] ]. kelvin_n := n_intr_count_le & [ STEM < "kelvin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kelvin_n_rel" ] ]. kenaf_n1 := n_intr_count_le & [ STEM < "kenaf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_kenaf_n_rel" ] ]. keniano_a1 := a_rel_prd_le & [ STEM < "keniano" >, SYNSEM.LKEYS.KEYREL.PRED "_keniano_a_rel" ]. keniano_n1 := n_intr_count_le & [ STEM < "keniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_keniano_n_rel" ] ]. kentismo_n1 := n_intr_uncount_le & [ STEM < "kentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kentismo_n_rel" ] ]. kernita_n1 := n_intr_count_le & [ STEM < "kernita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kernita_n_rel" ] ]. keroseno_n1 := n_intr_mass_le & [ STEM < "keroseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_keroseno_n_rel" ] ]. ketch_n1 := n_intr_count_le & [ STEM < "ketch" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ketch_n_rel" ] ]. ketchup_n1 := n_intr_count_le & [ STEM < "ketchup" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ketchup_n_rel" ] ]. keynesianamente_x1 := av_i_spr_le & [ STEM < "keynesianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_keynesianamente_x_rel" ]. keynesiano_a1 := a_rel_nonprd_intr_le & [ STEM < "keynesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_keynesiano_a_rel" ]. khmer_n1 := n_intr_count_le & [ STEM < "khmer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_khmer_n_rel" ] ]. kibbutz_n1 := n_intr_count_le & [ STEM < "kibbutz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_kibbutz_n_rel" ] ]. kibutz_n1 := n_intr_count_le & [ STEM < "kibutz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_kibutz_n_rel" ] ]. kieselgur_n1 := n_intr_count_le & [ STEM < "kieselgur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kieselgur_n_rel" ] ]. kieserita_n1 := n_intr_count_le & [ STEM < "kieserita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kieserita_n_rel" ] ]. kilo_n_n1 := n_pseudo-part_le & [ STEM < "kilo_n" >, SYNSEM.LKEYS.KEYREL.PRED "_kilo_n_n_rel" ]. kiloamperio_n := n_intr_count_le & [ STEM < "kiloamperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kiloamperio_n_rel" ] ]. kilobase_n := n_intr_count_le & [ STEM < "kilobase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilobase_n_rel" ] ]. kilobaudio_n := n_intr_count_le & [ STEM < "kilobaudio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilobaudio_n_rel" ] ]. kilobit_n := n_intr_count_le & [ STEM < "kilobit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilobit_n_rel" ] ]. kilobits_por_segundo_n := n_intr_count_le & [ STEM < "kilobits_por_segundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilobits_por_segundo_n_rel" ] ]. kilobyte_n := n_intr_count_le & [ STEM < "kilobyte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilobyte_n_rel" ] ]. kilocaloría_n := n_intr_count_le & [ STEM < "kilocaloría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilocaloría_n_rel" ] ]. kilogramo_n1 := n_pseudo-part_le & [ STEM < "kilogramo" >, SYNSEM.LKEYS.KEYREL.PRED "_kilogramo_n_rel" ]. kilohercio_n := n_intr_count_le & [ STEM < "kilohercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilohercio_n_rel" ] ]. kilohertzio_n := n_intr_count_le & [ STEM < "kilohertzio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilohertzio_n_rel" ] ]. kilojulio_n := n_intr_count_le & [ STEM < "kilojulio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilojulio_n_rel" ] ]. kilolitro_n1 := n_pseudo-part_le & [ STEM < "kilolitro" >, SYNSEM.LKEYS.KEYREL.PRED "_kilolitro_n_rel" ]. kilometraje_n1 := n_trans_le & [ STEM < "kilometraje" >, SYNSEM.LKEYS.KEYREL.PRED "_kilometraje_n_rel" ]. kilométricamente_x1 := av_i_spr_le & [ STEM < "kilométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_kilométricamente_x_rel" ]. kilométrico_a1 := a_rel_prd_le & [ STEM < "kilométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_kilométrico_a_rel" ]. kilonewton_n := n_intr_count_le & [ STEM < "kilonewton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilonewton_n_rel" ] ]. kiloocteto_n := n_intr_count_le & [ STEM < "kiloocteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kiloocteto_n_rel" ] ]. kiloohmio_n := n_intr_count_le & [ STEM < "kiloohmio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kiloohmio_n_rel" ] ]. kilopascal_n := n_intr_count_le & [ STEM < "kilopascal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilopascal_n_rel" ] ]. kilopondio_n := n_intr_count_le & [ STEM < "kilopondio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilopondio_n_rel" ] ]. kilovatio_n := n_intr_count_le & [ STEM < "kilovatio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilovatio_n_rel" ] ]. kilovoltio_n := n_intr_count_le & [ STEM < "kilovoltio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilovoltio_n_rel" ] ]. kilómetro_cuadrado_n1 := n_pseudo-part_le & [ STEM < "kilómetro_cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_kilómetro_cuadrado_n_rel" ]. kilómetro_cúbico_n1 := n_pseudo-part_le & [ STEM < "kilómetro_cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_kilómetro_cúbico_n_rel" ]. kilómetro_n1 := n_pseudo-part_le & [ STEM < "kilómetro" >, SYNSEM.LKEYS.KEYREL.PRED "_kilómetro_n_rel" ]. kilómetro_por_hora_n := n_intr_count_le & [ STEM < "kilómetro_por_hora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_kilómetro_por_hora_n_rel" ] ]. kimberlita_n1 := n_intr_count_le & [ STEM < "kimberlita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kimberlita_n_rel" ] ]. kimono_n1 := n_intr_count_le & [ STEM < "kimono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kimono_n_rel" ] ]. kiosco_n1 := n_intr_count_le & [ STEM < "kiosco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_kiosco_n_rel" ] ]. kirsch_n1 := n_intr_mass_le & [ STEM < "kirsch" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kirsch_n_rel" ] ]. kit_n1 := n_intr_count_le & [ STEM < "kit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kit_n_rel" ] ]. kiwi_n1 := n_intr_count_le & [ STEM < "kiwi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_kiwi_n_rel" ] ]. km_n1 := n_pseudo-part_le & [ STEM < "km" >, SYNSEM.LKEYS.KEYREL.PRED "_km_n_rel" ]. kohl_n1 := n_intr_mass_le & [ STEM < "kohl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kohl_n_rel" ] ]. koljos_n1 := n_intr_count_le & [ STEM < "koljos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_koljos_n_rel" ] ]. koljoz_n1 := n_intr_count_le & [ STEM < "koljoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_koljoz_n_rel" ] ]. kornerupina_n1 := n_intr_count_le & [ STEM < "kornerupina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kornerupina_n_rel" ] ]. kulak_n1 := n_intr_count_le & [ STEM < "kulak" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_kulak_n_rel" ] ]. kunzita_n1 := n_intr_count_le & [ STEM < "kunzita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kunzita_n_rel" ] ]. kurdo_a1 := a_rel_prd_le & [ STEM < "kurdo" >, SYNSEM.LKEYS.KEYREL.PRED "_kurdo_a_rel" ]. kurdo_n1 := n_intr_count_le & [ STEM < "kurdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_kurdo_n_rel" ] ]. kuwaití_a1 := a_rel_prd_le & [ STEM < "kuwaití" >, SYNSEM.LKEYS.KEYREL.PRED "_kuwaití_a_rel" ]. kuwaití_n1 := n_intr_count_le & [ STEM < "kuwaití" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_kuwaití_n_rel" ] ]. kyanita_n1 := n_intr_count_le & [ STEM < "kyanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_kyanita_n_rel" ] ]. kéfir_n1 := n_intr_mass_le & [ STEM < "kéfir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kéfir_n_rel" ] ]. kílix_n1 := n_intr_count_le & [ STEM < "kílix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_kílix_n_rel" ] ]. laberintectomía_n1 := n_intr_count_le & [ STEM < "laberintectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laberintectomía_n_rel" ] ]. laberinto_n1 := n_intr_count_le & [ STEM < "laberinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_laberinto_n_rel" ] ]. laberintoplejía_n1 := n_intr_uncount_pl_le & [ STEM < "laberintoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laberintoplejía_n_rel" ] ]. laberínticamente_x1 := av_i_spr_le & [ STEM < "laberínticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_laberínticamente_x_rel" ]. laberíntico_a1 := a_qual_intr_scopal_le & [ STEM < "laberíntico" >, SYNSEM.LKEYS.KEYREL.PRED "_laberíntico_a_rel" ]. labetalol_n1 := n_intr_count_le & [ STEM < "labetalol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_labetalol_n_rel" ] ]. labiada_n1 := n_intr_count_le & [ STEM < "labiada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_labiada_n_rel" ] ]. labial_a1 := a_rel_nonprd_intr_le & [ STEM < "labial" >, SYNSEM.LKEYS.KEYREL.PRED "_labial_a_rel" ]. labialización_n1 := n_trans_le & [ STEM < "labialización" >, SYNSEM.LKEYS.KEYREL.PRED "_labialización_n_rel" ]. labializar_v := v_trans_np_le & [ STEM < "labializar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_labializar_v_rel" ] ]. labilidad_n1 := n_intr_uncount_le & [ STEM < "labilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_labilidad_n_rel" ] ]. labio_n1 := n_ppcomp_count_le & [ STEM < "labio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_labio_n_rel" ] ]. labiodental_a1 := a_rel_nonprd_intr_le & [ STEM < "labiodental" >, SYNSEM.LKEYS.KEYREL.PRED "_labiodental_a_rel" ]. labiolectura_n1 := n_intr_uncount_le & [ STEM < "labiolectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_labiolectura_n_rel" ] ]. labiolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "labiolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_labiolingual_a_rel" ]. labiovelar_a1 := a_rel_nonprd_intr_le & [ STEM < "labiovelar" >, SYNSEM.LKEYS.KEYREL.PRED "_labiovelar_a_rel" ]. labiovelarización_n1 := n_trans_le & [ STEM < "labiovelarización" >, SYNSEM.LKEYS.KEYREL.PRED "_labiovelarización_n_rel" ]. labor_n1 := n_intr_mass-or-count_le & [ STEM < "labor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_labor_n_rel" ] ]. laborable_a1 := a_rel_prd_le & [ STEM < "laborable" >, SYNSEM.LKEYS.KEYREL.PRED "_laborable_a_rel" ]. laboral_a1 := a_rel_nonprd_intr_le & [ STEM < "laboral" >, SYNSEM.LKEYS.KEYREL.PRED "_laboral_a_rel" ]. laboralista_a1 := a_rel_nonprd_intr_le & [ STEM < "laboralista" >, SYNSEM.LKEYS.KEYREL.PRED "_laboralista_a_rel" ]. laboralmente_x1 := av_i_spr_le & [ STEM < "laboralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_laboralmente_x_rel" ]. laboratorio_n1 := n_intr_count_le & [ STEM < "laboratorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_laboratorio_n_rel" ] ]. laboriosamente_x1 := av_i_spr_le & [ STEM < "laboriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_laboriosamente_x_rel" ]. laboriosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "laboriosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laboriosidad_n_rel" ] ]. laborioso_a1 := a_qual_intr_ser_le & [ STEM < "laborioso" >, SYNSEM.LKEYS.KEYREL.PRED "_laborioso_a_rel" ]. laborismo_n1 := n_intr_uncount_le & [ STEM < "laborismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laborismo_n_rel" ] ]. laborista_a1 := a_rel_nonprd_intr_le & [ STEM < "laborista" >, SYNSEM.LKEYS.KEYREL.PRED "_laborista_a_rel" ]. labrador_n1 := n_subj-nom_le & [ STEM < "labrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_labrador_n_rel" ] ]. labradorescencia_n1 := n_intr_uncount_le & [ STEM < "labradorescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_labradorescencia_n_rel" ] ]. labradorita_n1 := n_intr_count_le & [ STEM < "labradorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_labradorita_n_rel" ] ]. labrantío_a1 := a_rel_nonprd_intr_le & [ STEM < "labrantío" >, SYNSEM.LKEYS.KEYREL.PRED "_labrantío_a_rel" ]. labranza_n1 := n_trans_le & [ STEM < "labranza" >, SYNSEM.LKEYS.KEYREL.PRED "_labranza_n_rel" ]. labrar_v := v_trans_np*_le & [ STEM < "labrar" >, SYNSEM.LKEYS.KEYREL.PRED "_labrar_v_rel" ]. labriego_n1 := n_intr_count_le & [ STEM < "labriego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_labriego_n_rel" ] ]. labro_n1 := n_intr_count_le & [ STEM < "labro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_labro_n_rel" ] ]. labrocito_n1 := n_intr_count_le & [ STEM < "labrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_labrocito_n_rel" ] ]. laburno_n1 := n_intr_count_le & [ STEM < "laburno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_laburno_n_rel" ] ]. laca_n1 := n_intr_count_le & [ STEM < "laca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laca_n_rel" ] ]. lacayo_n1 := n_intr_count_le & [ STEM < "lacayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lacayo_n_rel" ] ]. laceración_n1 := n_trans_le & [ STEM < "laceración" >, SYNSEM.LKEYS.KEYREL.PRED "_laceración_n_rel" ]. lacerar_v := v_trans_np_le & [ STEM < "lacerar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_hum, PRED "_lacerar_v_rel" ] ]. lacería_n1 := n_intr_coll_le & [ STEM < "lacería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lacería_n_rel" ] ]. lacio_a1 := a_qual_intr_ser_le & [ STEM < "lacio" >, SYNSEM.LKEYS.KEYREL.PRED "_lacio_a_rel" ]. laconismo_n1 := n_intr_uncount_le & [ STEM < "laconismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laconismo_n_rel" ] ]. lacrar_v := v_trans_np_le & [ STEM < "lacrar" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrar_v_rel" ]. lacre_n1 := n_intr_mass_le & [ STEM < "lacre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lacre_n_rel" ] ]. lacrimal_a1 := a_rel_nonprd_intr_le & [ STEM < "lacrimal" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimal_a_rel" ]. lacrimal_n1 := n_intr_count_le & [ STEM < "lacrimal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lacrimal_n_rel" ] ]. lacrimomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "lacrimomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimomaxilar_a_rel" ]. lacrimonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "lacrimonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimonasal_a_rel" ]. lacrimosamente_x1 := av_i_spr_le & [ STEM < "lacrimosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimosamente_x_rel" ]. lacrimoso_a1 := a_qual_intr_scopal_le & [ STEM < "lacrimoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimoso_a_rel" ]. lacrimotomía_n1 := n_intr_uncount_le & [ STEM < "lacrimotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lacrimotomía_n_rel" ] ]. lacrimógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "lacrimógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_lacrimógeno_a_rel" ]. lactación_n1 := n_trans_le & [ STEM < "lactación" >, SYNSEM.LKEYS.KEYREL.PRED "_lactación_n_rel" ]. lactalbúmina_n1 := n_intr_mass-or-count_le & [ STEM < "lactalbúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lactalbúmina_n_rel" ] ]. lactama_n1 := n_intr_count_le & [ STEM < "lactama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lactama_n_rel" ] ]. lactancia_n1 := n_trans_le & [ STEM < "lactancia" >, SYNSEM.LKEYS.KEYREL.PRED "_lactancia_n_rel" ]. lactante_n1 := n_intr_count_le & [ STEM < "lactante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lactante_n_rel" ] ]. lactar_v := v_trans_np_le & [ STEM < "lactar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT ani_hum, PRED "_lactar_v_rel" ] ]. lactasa_n1 := n_intr_count_le & [ STEM < "lactasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lactasa_n_rel" ] ]. lactato_n1 := n_intr_count_le & [ STEM < "lactato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lactato_n_rel" ] ]. lactobacilo_n1 := n_intr_count_le & [ STEM < "lactobacilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lactobacilo_n_rel" ] ]. lactobutirómetro_n1 := n_intr_count_le & [ STEM < "lactobutirómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lactobutirómetro_n_rel" ] ]. lactoducto_n1 := n_intr_count_le & [ STEM < "lactoducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lactoducto_n_rel" ] ]. lactofenina_n1 := n_intr_count_le & [ STEM < "lactofenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lactofenina_n_rel" ] ]. lactoferrina_n1 := n_intr_count_le & [ STEM < "lactoferrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lactoferrina_n_rel" ] ]. lactoflavina_n1 := n_intr_count_le & [ STEM < "lactoflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lactoflavina_n_rel" ] ]. lactonitrilo_n1 := n_intr_count_le & [ STEM < "lactonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lactonitrilo_n_rel" ] ]. lactífero_a1 := a_rel_nonprd_intr_le & [ STEM < "lactífero" >, SYNSEM.LKEYS.KEYREL.PRED "_lactífero_a_rel" ]. lacunar_a1 := a_rel_nonprd_intr_le & [ STEM < "lacunar" >, SYNSEM.LKEYS.KEYREL.PRED "_lacunar_a_rel" ]. lacustre_a1 := a_rel_nonprd_intr_le & [ STEM < "lacustre" >, SYNSEM.LKEYS.KEYREL.PRED "_lacustre_a_rel" ]. lacónicamente_x1 := av_i_spr_le & [ STEM < "lacónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lacónicamente_x_rel" ]. lacónico_a1 := a_qual_intr_scopal_le & [ STEM < "lacónico" >, SYNSEM.LKEYS.KEYREL.PRED "_lacónico_a_rel" ]. ladear_v := v_trans_np_caus_le & [ STEM < "ladear" >, SYNSEM.LKEYS.KEYREL.PRED "_ladear_v_rel" ]. ladera_n1 := n_intr_count_le & [ STEM < "ladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ladera_n_rel" ] ]. ladillo_n1 := n_intr_count_le & [ STEM < "ladillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ladillo_n_rel" ] ]. lado_n1 := n_intr_count_le & [ STEM < "lado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_lado_n_rel" ] ]. ladrar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "ladrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ladrar_v_rel" ] ]. ladrar_v2 := v_intr_le & [ STEM < "ladrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_ladrar_v_rel" ] ]. ladrido_n1 := n_result_intr_le & [ STEM < "ladrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ladrido_n_rel" ] ]. ladrillero_n1 := n_intr_count_le & [ STEM < "ladrillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ladrillero_n_rel" ] ]. ladrillo_n1 := n_intr_mass-or-count_le & [ STEM < "ladrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ladrillo_n_rel" ] ]. ladronera_n1 := n_intr_count_le & [ STEM < "ladronera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ladronera_n_rel" ] ]. ladrón_n1 := n_intr_count_le & [ STEM < "ladrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_ladrón_n_rel" ] ]. lagar_n1 := n_intr_count_le & [ STEM < "lagar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lagar_n_rel" ] ]. lagartija_n1 := n_intr_count_le & [ STEM < "lagartija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lagartija_n_rel" ] ]. lago_n1 := n_intr_count_le & [ STEM < "lago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lago_n_rel" ] ]. lagoftalmía_n1 := n_intr_uncount_le & [ STEM < "lagoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lagoftalmía_n_rel" ] ]. lagoftálmico_a1 := a_rel_nonprd_intr_le & [ STEM < "lagoftálmico" >, SYNSEM.LKEYS.KEYREL.PRED "_lagoftálmico_a_rel" ]. lagrimal_a1 := a_rel_nonprd_intr_le & [ STEM < "lagrimal" >, SYNSEM.LKEYS.KEYREL.PRED "_lagrimal_a_rel" ]. lagrimita_n1 := n_intr_count_le & [ STEM < "lagrimita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lagrimita_n_rel" ] ]. lagrimoso_a1 := a_rel_nonprd_intr_le & [ STEM < "lagrimoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lagrimoso_a_rel" ]. laguna_n1 := n_intr_count_le & [ STEM < "laguna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laguna_n_rel" ] ]. laicado_n1 := n_intr_count_le & [ STEM < "laicado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_laicado_n_rel" ] ]. laicismo_n1 := n_ppcomp_uncount_le & [ STEM < "laicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laicismo_n_rel" ] ]. laico_a1 := a_rel_nonprd_intr_le & [ STEM < "laico" >, SYNSEM.LKEYS.KEYREL.PRED "_laico_a_rel" ]. lama_n1 := n_intr_count_le & [ STEM < "lama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lama_n_rel" ] ]. lambdoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "lambdoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_lambdoideo_a_rel" ]. lambel_n1 := n_intr_count_le & [ STEM < "lambel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lambel_n_rel" ] ]. lambeta_n1 := n_intr_count_le & [ STEM < "lambeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lambeta_n_rel" ] ]. lambrequín_n1 := n_intr_count_le & [ STEM < "lambrequín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lambrequín_n_rel" ] ]. lamentable_a1 := a_qual_intr_scopal_le & [ STEM < "lamentable" >, SYNSEM.LKEYS.KEYREL.PRED "_lamentable_a_rel" ]. lamentablemente_x1 := av_s_spr_le & [ STEM < "lamentablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_lamentablemente_x_rel" ]. lamentación_n1 := n_intr_count_le & [ STEM < "lamentación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lamentación_n_rel" ] ]. lamentar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "lamentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_lamentar_v_rel" ] ] ]. lamentar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "lamentar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_lamentar_v_rel" ] ] ]. lamentar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "lamentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lamentar_v_rel" ] ]. lamentar_v4 := v_trans_np_le & [ STEM < "lamentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lamentar_v_rel" ] ]. lamento_n1 := n_intr_count_le & [ STEM < "lamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lamento_n_rel" ] ]. lamer_v := v_trans_np_le & [ STEM < "lamer" >, SYNSEM.LKEYS.KEYREL.PRED "_lamer_v_rel" ]. laminación_n1 := n_trans_le & [ STEM < "laminación" >, SYNSEM.LKEYS.KEYREL.PRED "_laminación_n_rel" ]. laminado_n1 := n_trans_le & [ STEM < "laminado" >, SYNSEM.LKEYS.KEYREL.PRED "_laminado_n_rel" ]. laminador_a1 := a_rel_nonprd_intr_le & [ STEM < "laminador" >, SYNSEM.LKEYS.KEYREL.PRED "_laminador_a_rel" ]. laminador_n1 := n_intr_count_le & [ STEM < "laminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laminador_n_rel" ] ]. laminar_a1 := a_rel_nonprd_intr_le & [ STEM < "laminar" >, SYNSEM.LKEYS.KEYREL.PRED "_laminar_a_rel" ]. laminar_v := v_trans_np_le & [ STEM < "laminar" >, SYNSEM.LKEYS.KEYREL.PRED "_laminar_v_rel" ]. laminarmente_x1 := av_i_spr_le & [ STEM < "laminarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_laminarmente_x_rel" ]. laminilla_n1 := n_intr_count_le & [ STEM < "laminilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laminilla_n_rel" ] ]. laminina_n1 := n_intr_count_le & [ STEM < "laminina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laminina_n_rel" ] ]. laminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "laminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_laminoso_a_rel" ]. lampista_n1 := n_intr_count_le & [ STEM < "lampista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lampista_n_rel" ] ]. lampiño_a1 := a_qual_intr_ser_le & [ STEM < "lampiño" >, SYNSEM.LKEYS.KEYREL.PRED "_lampiño_a_rel" ]. lamprea_n1 := n_intr_count_le & [ STEM < "lamprea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lamprea_n_rel" ] ]. lamé_n1 := n_intr_mass_le & [ STEM < "lamé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lamé_n_rel" ] ]. lan_n1 := n_intr_count_le & [ STEM < "lan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_lan_n_rel" ] ]. lana_n1 := n_intr_mass-or-count_le & [ STEM < "lana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lana_n_rel" ] ]. lanar_a1 := a_rel_nonprd_intr_le & [ STEM < "lanar" >, SYNSEM.LKEYS.KEYREL.PRED "_lanar_a_rel" ]. lanceolado_a1 := a_rel_nonprd_intr_le & [ STEM < "lanceolado" >, SYNSEM.LKEYS.KEYREL.PRED "_lanceolado_a_rel" ]. lancero_n1 := n_intr_count_le & [ STEM < "lancero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lancero_n_rel" ] ]. lanceta_n1 := n_intr_count_le & [ STEM < "lanceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanceta_n_rel" ] ]. lancha_n1 := n_intr_count_le & [ STEM < "lancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lancha_n_rel" ] ]. lanchada_n1 := n_intr_uncount_le & [ STEM < "lanchada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lanchada_n_rel" ] ]. lanchaje_n1 := n_intr_uncount_le & [ STEM < "lanchaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lanchaje_n_rel" ] ]. landa_n1 := n_intr_count_le & [ STEM < "landa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_landa_n_rel" ] ]. landó_n1 := n_intr_count_le & [ STEM < "landó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_landó_n_rel" ] ]. langbeinita_n1 := n_intr_count_le & [ STEM < "langbeinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_langbeinita_n_rel" ] ]. langosta_n1 := n_intr_count_le & [ STEM < "langosta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_langosta_n_rel" ] ]. langostino_n1 := n_intr_count_le & [ STEM < "langostino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_langostino_n_rel" ] ]. languidecer_v := v_unacc_le & [ STEM < "languidecer" >, SYNSEM.LKEYS.KEYREL.PRED "_languidecer_v_rel" ]. languidez_n1 := n_ppcomp_uncount_le & [ STEM < "languidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_languidez_n_rel" ] ]. lanolina_n1 := n_intr_mass_le & [ STEM < "lanolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lanolina_n_rel" ] ]. lanoso_a1 := a_qual_intr_scopal_le & [ STEM < "lanoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lanoso_a_rel" ]. lansquenete_n1 := n_intr_count_le & [ STEM < "lansquenete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lansquenete_n_rel" ] ]. lantano_n1 := n_intr_mass_le & [ STEM < "lantano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lantano_n_rel" ] ]. lantionina_n1 := n_intr_count_le & [ STEM < "lantionina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lantionina_n_rel" ] ]. lantánido_n1 := n_intr_mass_le & [ STEM < "lantánido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lantánido_n_rel" ] ]. lanudo_a1 := a_qual_intr_scopal_le & [ STEM < "lanudo" >, SYNSEM.LKEYS.KEYREL.PRED "_lanudo_a_rel" ]. lanugo_n1 := n_intr_count_le & [ STEM < "lanugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanugo_n_rel" ] ]. lanza_n1 := n_intr_count_le & [ STEM < "lanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanza_n_rel" ] ]. lanzabombas_n1 := n_intr_count_le & [ STEM < "lanzabombas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzabombas_n_rel" ] ]. lanzacabos_n1 := n_intr_count_le & [ STEM < "lanzacabos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzacabos_n_rel" ] ]. lanzacargas_n1 := n_intr_count_le & [ STEM < "lanzacargas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzacargas_n_rel" ] ]. lanzacemento_n1 := n_intr_count_le & [ STEM < "lanzacemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzacemento_n_rel" ] ]. lanzacohetes_n1 := n_intr_count_le & [ STEM < "lanzacohetes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzacohetes_n_rel" ] ]. lanzadera_n1 := n_intr_count_le & [ STEM < "lanzadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_lanzadera_n_rel" ] ]. lanzador_a1 := a_rel_nonprd_intr_le & [ STEM < "lanzador" >, SYNSEM.LKEYS.KEYREL.PRED "_lanzador_a_rel" ]. lanzador_n1 := n_intr_count_le & [ STEM < "lanzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzador_n_rel" ] ]. lanzador_n2 := n_subj-nom_le & [ STEM < "lanzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lanzador_n_rel" ] ]. lanzagases_n1 := n_intr_count_le & [ STEM < "lanzagases" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzagases_n_rel" ] ]. lanzagranadas_n1 := n_intr_count_le & [ STEM < "lanzagranadas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_lanzagranadas_n_rel" ] ]. lanzahielo_n1 := n_intr_count_le & [ STEM < "lanzahielo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzahielo_n_rel" ] ]. lanzallamas_n1 := n_intr_count_le & [ STEM < "lanzallamas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzallamas_n_rel" ] ]. lanzamiento_n1 := n_trans_le & [ STEM < "lanzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_lanzamiento_n_rel" ]. lanzaminas_n1 := n_intr_count_le & [ STEM < "lanzaminas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzaminas_n_rel" ] ]. lanzamisiles_n1 := n_intr_count_le & [ STEM < "lanzamisiles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzamisiles_n_rel" ] ]. lanzapacas_n1 := n_intr_count_le & [ STEM < "lanzapacas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lanzapacas_n_rel" ] ]. lanzar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "lanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lanzar_v_rel" ] ]. lanzar_v2 := v_ditrans_le & [ STEM < "lanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lanzar_v_rel" ] ]. lanzar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "lanzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_lanzar_v_rel" ] ] ]. lanzar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "lanzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_lanzar_v_rel" ] ] ]. laosiano_a1 := a_rel_prd_le & [ STEM < "laosiano" >, SYNSEM.LKEYS.KEYREL.PRED "_laosiano_a_rel" ]. laosiano_n1 := n_intr_count_le & [ STEM < "laosiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_laosiano_n_rel" ] ]. lapa_n1 := n_intr_count_le & [ STEM < "lapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lapa_n_rel" ] ]. lapeadora_n1 := n_intr_count_le & [ STEM < "lapeadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lapeadora_n_rel" ] ]. lapicero_n1 := n_intr_count_le & [ STEM < "lapicero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lapicero_n_rel" ] ]. lapidación_n1 := n_trans_le & [ STEM < "lapidación" >, SYNSEM.LKEYS.KEYREL.PRED "_lapidación_n_rel" ]. lapidar_v := v_trans_np_le & [ STEM < "lapidar" >, SYNSEM.LKEYS.KEYREL.PRED "_lapidar_v_rel" ]. lapidariamente_x1 := av_i_spr_le & [ STEM < "lapidariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lapidariamente_x_rel" ]. lapidario_a1 := a_qual_intr_scopal_le & [ STEM < "lapidario" >, SYNSEM.LKEYS.KEYREL.PRED "_lapidario_a_rel" ]. lapislázuli_n1 := n_intr_count_le & [ STEM < "lapislázuli" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lapislázuli_n_rel" ] ]. laplaciano_a1 := a_rel_nonprd_intr_le & [ STEM < "laplaciano" >, SYNSEM.LKEYS.KEYREL.PRED "_laplaciano_a_rel" ]. lapón_a1 := a_rel_prd_le & [ STEM < "lapón" >, SYNSEM.LKEYS.KEYREL.PRED "_lapón_a_rel" ]. lapón_n1 := n_intr_count_le & [ STEM < "lapón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lapón_n_rel" ] ]. largamente_x1 := av_i_spr_le & [ STEM < "largamente" >, SYNSEM.LKEYS.KEYREL.PRED "_largamente_x_rel" ]. largar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "largar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_largar_v_rel" ] ]. largar_v2 := v_ditrans*_le & [ STEM < "largar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_largar_v_rel" ] ]. largar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "largar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_largar_v_rel" ] ] ]. largar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "largar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_largar_v_rel" ] ] ]. largo_a1 := a_adv_event_le & [ STEM < "largo" >, SYNSEM.LKEYS.KEYREL.PRED "_largo_a_rel" ]. largo_a2 := a_qual_intr_scopal_le & [ STEM < "largo" >, SYNSEM.LKEYS.KEYREL.PRED "_largo_a_rel" ]. largometraje_n1 := n_intr_count_le & [ STEM < "largometraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_largometraje_n_rel" ] ]. larguero_n1 := n_intr_count_le & [ STEM < "larguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_larguero_n_rel" ] ]. larguirucho_a1 := a_rel_prd_le & [ STEM < "larguirucho" >, SYNSEM.LKEYS.KEYREL.PRED "_larguirucho_a_rel" ]. largura_n1 := n_ppcomp_count_le & [ STEM < "largura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_largura_n_rel" ] ]. laringe_n1 := n_ppcomp_count_le & [ STEM < "laringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_laringe_n_rel" ] ]. laringectomía_n1 := n_intr_count_le & [ STEM < "laringectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringectomía_n_rel" ] ]. laringismo_n1 := n_intr_uncount_le & [ STEM < "laringismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringismo_n_rel" ] ]. laringocele_n1 := n_intr_count_le & [ STEM < "laringocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringocele_n_rel" ] ]. laringoespasmo_n1 := n_intr_count_le & [ STEM < "laringoespasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoespasmo_n_rel" ] ]. laringoestroboscopio_n1 := n_intr_count_le & [ STEM < "laringoestroboscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringoestroboscopio_n_rel" ] ]. laringofaringe_n1 := n_ppcomp_count_le & [ STEM < "laringofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_laringofaringe_n_rel" ] ]. laringofaringectomía_n1 := n_intr_count_le & [ STEM < "laringofaringectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringofaringectomía_n_rel" ] ]. laringofisura_n1 := n_intr_count_le & [ STEM < "laringofisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringofisura_n_rel" ] ]. laringografía_n1 := n_intr_count_le & [ STEM < "laringografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringografía_n_rel" ] ]. laringología_n1 := n_intr_uncount_le & [ STEM < "laringología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringología_n_rel" ] ]. laringomalacia_n1 := n_intr_uncount_le & [ STEM < "laringomalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringomalacia_n_rel" ] ]. laringopatía_n1 := n_intr_uncount_pl_le & [ STEM < "laringopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringopatía_n_rel" ] ]. laringopiocele_n1 := n_intr_count_le & [ STEM < "laringopiocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringopiocele_n_rel" ] ]. laringoplejía_n1 := n_intr_uncount_le & [ STEM < "laringoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoplejía_n_rel" ] ]. laringorragia_n1 := n_intr_count_le & [ STEM < "laringorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringorragia_n_rel" ] ]. laringoscopio_n1 := n_intr_count_le & [ STEM < "laringoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringoscopio_n_rel" ] ]. laringostomía_n1 := n_intr_count_le & [ STEM < "laringostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringostomía_n_rel" ] ]. laringotomía_n1 := n_intr_uncount_pl_le & [ STEM < "laringotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringotomía_n_rel" ] ]. laringófono_n1 := n_intr_count_le & [ STEM < "laringófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laringófono_n_rel" ] ]. laringólogo_n1 := n_intr_count_le & [ STEM < "laringólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_laringólogo_n_rel" ] ]. larva_n1 := n_intr_count_le & [ STEM < "larva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_larva_n_rel" ] ]. larvar_v := v_intr_le & [ STEM < "larvar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_larvar_v_rel" ] ]. larvario_a1 := a_rel_nonprd_intr_le & [ STEM < "larvario" >, SYNSEM.LKEYS.KEYREL.PRED "_larvario_a_rel" ]. larvicida_n1 := n_intr_mass-or-count_le & [ STEM < "larvicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_larvicida_n_rel" ] ]. larvikita_n1 := n_intr_count_le & [ STEM < "larvikita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_larvikita_n_rel" ] ]. laríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "laríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_laríngeo_a_rel" ]. lasaña_n1 := n_intr_count_le & [ STEM < "lasaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lasaña_n_rel" ] ]. lasca_n1 := n_intr_count_le & [ STEM < "lasca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lasca_n_rel" ] ]. lascivamente_x1 := av_i_spr_le & [ STEM < "lascivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lascivamente_x_rel" ]. lascivo_a1 := a_qual_intr_scopal_le & [ STEM < "lascivo" >, SYNSEM.LKEYS.KEYREL.PRED "_lascivo_a_rel" ]. laso_a1 := a_qual_intr_scopal_le & [ STEM < "laso" >, SYNSEM.LKEYS.KEYREL.PRED "_laso_a_rel" ]. lastimar_v1 := v_intr_io*_le & [ STEM < "lastimar" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimar_v_rel" ]. lastimar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "lastimar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_lastimar_v_rel" ] ] ]. lastimar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "lastimar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_lastimar_v_rel" ] ] ]. lastimar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "lastimar" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimar_v_rel" ]. lastimar_v5 := v_trans_np_le & [ STEM < "lastimar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_hum, PRED "_lastimar_v_rel" ] ]. lastimeramente_x1 := av_i_spr_le & [ STEM < "lastimeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimeramente_x_rel" ]. lastimero_a1 := a_qual_intr_scopal_le & [ STEM < "lastimero" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimero_a_rel" ]. lastimosamente_x1 := av_i_spr_le & [ STEM < "lastimosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimosamente_x_rel" ]. lastimoso_a1 := a_qual_intr_scopal_le & [ STEM < "lastimoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lastimoso_a_rel" ]. lastrar_v := v_trans_np_le & [ STEM < "lastrar" >, SYNSEM.LKEYS.KEYREL.PRED "_lastrar_v_rel" ]. lastre_n1 := n_intr_count_le & [ STEM < "lastre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_lastre_n_rel" ] ]. lata_n1 := n_intr_count_le & [ STEM < "lata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lata_n_rel" ] ]. latamente_x1 := av_i_spr_le & [ STEM < "latamente" >, SYNSEM.LKEYS.KEYREL.PRED "_latamente_x_rel" ]. latencia_n1 := n_intr_uncount_le & [ STEM < "latencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latencia_n_rel" ] ]. latente_a1 := a_qual_intr_estar_le & [ STEM < "latente" >, SYNSEM.LKEYS.KEYREL.PRED "_latente_a_rel" ]. latentemente_x1 := av_i_spr_le & [ STEM < "latentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_latentemente_x_rel" ]. lateral_a1 := a_rel_prd_le & [ STEM < "lateral" >, SYNSEM.LKEYS.KEYREL.PRED "_lateral_a_rel" ]. lateral_n1 := n_intr_count_le & [ STEM < "lateral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lateral_n_rel" ] ]. lateralidad_n1 := n_intr_count_le & [ STEM < "lateralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lateralidad_n_rel" ] ]. lateralización_n1 := n_trans_le & [ STEM < "lateralización" >, SYNSEM.LKEYS.KEYREL.PRED "_lateralización_n_rel" ]. lateralmente_x1 := av_i_spr_le & [ STEM < "lateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_lateralmente_x_rel" ]. laterita_n1 := n_intr_count_le & [ STEM < "laterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laterita_n_rel" ] ]. laterofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "laterofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_laterofaríngeo_a_rel" ]. laterognacia_n1 := n_intr_uncount_le & [ STEM < "laterognacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laterognacia_n_rel" ] ]. laterítico_a1 := a_rel_nonprd_intr_le & [ STEM < "laterítico" >, SYNSEM.LKEYS.KEYREL.PRED "_laterítico_a_rel" ]. latido_n1 := n_result_intr_le & [ STEM < "latido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latido_n_rel" ] ]. latifundismo_n1 := n_intr_uncount_le & [ STEM < "latifundismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latifundismo_n_rel" ] ]. latifundista_n1 := n_intr_count_le & [ STEM < "latifundista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_latifundista_n_rel" ] ]. latigazo_n1 := n_intr_count_le & [ STEM < "latigazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latigazo_n_rel" ] ]. latiguillo_n1 := n_intr_count_le & [ STEM < "latiguillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_latiguillo_n_rel" ] ]. latinidad_n1 := n_intr_mass-or-count_le & [ STEM < "latinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latinidad_n_rel" ] ]. latinismo_n1 := n_intr_count_le & [ STEM < "latinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latinismo_n_rel" ] ]. latinización_n1 := n_trans_le & [ STEM < "latinización" >, SYNSEM.LKEYS.KEYREL.PRED "_latinización_n_rel" ]. latinizar_v := v_trans_np_le & [ STEM < "latinizar" >, SYNSEM.LKEYS.KEYREL.PRED "_latinizar_v_rel" ]. latino_a1 := a_rel_prd_le & [ STEM < "latino" >, SYNSEM.LKEYS.KEYREL.PRED "_latino_a_rel" ]. latinoamericano_a1 := a_rel_prd_le & [ STEM < "latinoamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_latinoamericano_a_rel" ]. latinoamericano_n1 := n_intr_count_le & [ STEM < "latinoamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_latinoamericano_n_rel" ] ]. latitud_n1 := n_intr_mass_le & [ STEM < "latitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_latitud_n_rel" ] ]. latitudinal_a1 := a_rel_nonprd_intr_le & [ STEM < "latitudinal" >, SYNSEM.LKEYS.KEYREL.PRED "_latitudinal_a_rel" ]. latitudinalmente_x1 := av_i_spr_le & [ STEM < "latitudinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_latitudinalmente_x_rel" ]. lato_a1 := a_rel_nonprd_intr_le & [ STEM < "lato" >, SYNSEM.LKEYS.KEYREL.PRED "_lato_a_rel" ]. latvio_n1 := n_intr_count_le & [ STEM < "latvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_latvio_n_rel" ] ]. latón_n1 := n_intr_mass_le & [ STEM < "latón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_latón_n_rel" ] ]. laudable_a1 := a_qual_intr_scopal_le & [ STEM < "laudable" >, SYNSEM.LKEYS.KEYREL.PRED "_laudable_a_rel" ]. laudablemente_x1 := av_i_spr_le & [ STEM < "laudablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_laudablemente_x_rel" ]. laudanina_n1 := n_intr_count_le & [ STEM < "laudanina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laudanina_n_rel" ] ]. laudanosina_n1 := n_intr_count_le & [ STEM < "laudanosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laudanosina_n_rel" ] ]. laudatorio_a1 := a_qual_intr_scopal_le & [ STEM < "laudatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_laudatorio_a_rel" ]. lauegrama_n1 := n_intr_count_le & [ STEM < "lauegrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lauegrama_n_rel" ] ]. laurato_n1 := n_intr_count_le & [ STEM < "laurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laurato_n_rel" ] ]. laurel_n1 := n_intr_mass_le & [ STEM < "laurel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_laurel_n_rel" ] ]. laurencio_n1 := n_intr_mass_le & [ STEM < "laurencio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laurencio_n_rel" ] ]. lauroleato_n1 := n_intr_count_le & [ STEM < "lauroleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lauroleato_n_rel" ] ]. lava_n1 := n_intr_mass_le & [ STEM < "lava" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lava_n_rel" ] ]. lavabilidad_n1 := n_intr_uncount_le & [ STEM < "lavabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lavabilidad_n_rel" ] ]. lavable_a1 := a_rel_prd_le & [ STEM < "lavable" >, SYNSEM.LKEYS.KEYREL.PRED "_lavable_a_rel" ]. lavabo_n1 := n_intr_count_le & [ STEM < "lavabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lavabo_n_rel" ] ]. lavacabezas_n1 := n_intr_count_le & [ STEM < "lavacabezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lavacabezas_n_rel" ] ]. lavacoches_n1 := n_intr_count_le & [ STEM < "lavacoches" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lavacoches_n_rel" ] ]. lavadero_n1 := n_intr_count_le & [ STEM < "lavadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lavadero_n_rel" ] ]. lavado_n1 := n_trans_le & [ STEM < "lavado" >, SYNSEM.LKEYS.KEYREL.PRED "_lavado_n_rel" ]. lavador_a1 := a_rel_nonprd_intr_le & [ STEM < "lavador" >, SYNSEM.LKEYS.KEYREL.PRED "_lavador_a_rel" ]. lavadora_n1 := n_intr_count_le & [ STEM < "lavadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_lavadora_n_rel" ] ]. lavaluneta_n1 := n_intr_count_le & [ STEM < "lavaluneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_lavaluneta_n_rel" ] ]. lavamanos_n1 := n_intr_count_le & [ STEM < "lavamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lavamanos_n_rel" ] ]. lavanda_n1 := n_intr_mass_le & [ STEM < "lavanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_lavanda_n_rel" ] ]. lavandera_n1 := n_intr_count_le & [ STEM < "lavandera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lavandera_n_rel" ] ]. lavandería_n1 := n_intr_count_le & [ STEM < "lavandería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lavandería_n_rel" ] ]. lavaparabrisas_n1 := n_intr_count_le & [ STEM < "lavaparabrisas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lavaparabrisas_n_rel" ] ]. lavaplatos_n1 := n_intr_count_le & [ STEM < "lavaplatos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lavaplatos_n_rel" ] ]. lavar_v := v_trans_np_le & [ STEM < "lavar" >, SYNSEM.LKEYS.KEYREL.PRED "_lavar_v_rel" ]. lavativa_n1 := n_intr_mass_le & [ STEM < "lavativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lavativa_n_rel" ] ]. lavavajillas_n1 := n_intr_mass-or-count_le & [ STEM < "lavavajillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lavavajillas_n_rel" ] ]. lawrencio_n1 := n_intr_mass_le & [ STEM < "lawrencio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lawrencio_n_rel" ] ]. laxante_a1 := a_rel_nonprd_intr_le & [ STEM < "laxante" >, SYNSEM.LKEYS.KEYREL.PRED "_laxante_a_rel" ]. laxante_n1 := n_intr_mass_le & [ STEM < "laxante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_laxante_n_rel" ] ]. laxar_v := v_trans_np*_le & [ STEM < "laxar" >, SYNSEM.LKEYS.KEYREL.PRED "_laxar_v_rel" ]. laxitud_n1 := n_ppcomp_mass_le & [ STEM < "laxitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laxitud_n_rel" ] ]. laxo_a1 := a_qual_intr_scopal_le & [ STEM < "laxo" >, SYNSEM.LKEYS.KEYREL.PRED "_laxo_a_rel" ]. laya_n1 := n_intr_count_le & [ STEM < "laya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_laya_n_rel" ] ]. lazareto_n1 := n_intr_count_le & [ STEM < "lazareto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lazareto_n_rel" ] ]. lazarillo_n1 := n_intr_count_le & [ STEM < "lazarillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lazarillo_n_rel" ] ]. lazo_n1 := n_intr_count_le & [ STEM < "lazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lazo_n_rel" ] ]. lazulita_n1 := n_intr_count_le & [ STEM < "lazulita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lazulita_n_rel" ] ]. lazurita_n1 := n_intr_count_le & [ STEM < "lazurita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lazurita_n_rel" ] ]. laña_n1 := n_intr_count_le & [ STEM < "laña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laña_n_rel" ] ]. lañar_v := v_trans_np_le & [ STEM < "lañar" >, SYNSEM.LKEYS.KEYREL.PRED "_lañar_v_rel" ]. laúd_n1 := n_intr_count_le & [ STEM < "laúd" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_laúd_n_rel" ] ]. le_p := af_dat_le & [ STEM < "le" > ]. leadhillita_n1 := n_intr_count_le & [ STEM < "leadhillita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_leadhillita_n_rel" ] ]. leal_a1 := a_qual_intr_ser_le & [ STEM < "leal" >, SYNSEM.LKEYS.KEYREL.PRED "_leal_a_rel" ]. lealista_n1 := n_intr_count_le & [ STEM < "lealista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lealista_n_rel" ] ]. lealtad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "lealtad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lealtad_n_rel" ] ]. lebeche_n1 := n_intr_count_le & [ STEM < "lebeche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lebeche_n_rel" ] ]. lebrel_n1 := n_intr_count_le & [ STEM < "lebrel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lebrel_n_rel" ] ]. lección_n1 := n_intr_count_le & [ STEM < "lección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lección_n_rel" ] ]. lechada_n1 := n_intr_count_le & [ STEM < "lechada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lechada_n_rel" ] ]. lechal_a1 := a_rel_nonprd_intr_le & [ STEM < "lechal" >, SYNSEM.LKEYS.KEYREL.PRED "_lechal_a_rel" ]. lechal_n1 := n_intr_count_le & [ STEM < "lechal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lechal_n_rel" ] ]. lechatelierita_n1 := n_intr_count_le & [ STEM < "lechatelierita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lechatelierita_n_rel" ] ]. leche_n1 := n_intr_mass_le & [ STEM < "leche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leche_n_rel" ] ]. lechecilla_n1 := n_intr_count_le & [ STEM < "lechecilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lechecilla_n_rel" ] ]. lechera_n1 := n_intr_count_le & [ STEM < "lechera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lechera_n_rel" ] ]. lechero_a1 := a_rel_nonprd_intr_le & [ STEM < "lechero" >, SYNSEM.LKEYS.KEYREL.PRED "_lechero_a_rel" ]. lechero_n1 := n_intr_count_le & [ STEM < "lechero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lechero_n_rel" ] ]. lechería_n1 := n_intr_count_le & [ STEM < "lechería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lechería_n_rel" ] ]. lecho_n1 := n_intr_count_le & [ STEM < "lecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lecho_n_rel" ] ]. lechosidad_n1 := n_intr_uncount_le & [ STEM < "lechosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lechosidad_n_rel" ] ]. lechoso_a1 := a_qual_intr_scopal_le & [ STEM < "lechoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lechoso_a_rel" ]. lechuga_n1 := n_intr_mass_le & [ STEM < "lechuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lechuga_n_rel" ] ]. lechuza_n1 := n_intr_count_le & [ STEM < "lechuza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lechuza_n_rel" ] ]. lechón_n1 := n_intr_count_le & [ STEM < "lechón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lechón_n_rel" ] ]. lecitina_n1 := n_intr_count_le & [ STEM < "lecitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lecitina_n_rel" ] ]. lectina_n1 := n_intr_count_le & [ STEM < "lectina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lectina_n_rel" ] ]. lectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "lectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_lectivo_a_rel" ]. lector_n1 := n_subj-nom_le & [ STEM < "lector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lector_n_rel" ] ]. lectorado_n1 := n_intr_uncount_le & [ STEM < "lectorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lectorado_n_rel" ] ]. lectura_n1 := n_trans_le & [ STEM < "lectura" >, SYNSEM.LKEYS.KEYREL.PRED "_lectura_n_rel" ]. ledeburita_n1 := n_intr_mass-or-count_le & [ STEM < "ledeburita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ledeburita_n_rel" ] ]. legación_n1 := n_intr_count_le & [ STEM < "legación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legación_n_rel" ] ]. legado_n1 := n_intr_count_le & [ STEM < "legado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legado_n_rel" ] ]. legal_a1 := a_rel_prd_le & [ STEM < "legal" >, SYNSEM.LKEYS.KEYREL.PRED "_legal_a_rel" ]. legalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "legalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legalidad_n_rel" ] ]. legalista_a1 := a_rel_nonprd_intr_le & [ STEM < "legalista" >, SYNSEM.LKEYS.KEYREL.PRED "_legalista_a_rel" ]. legalización_n1 := n_trans_le & [ STEM < "legalización" >, SYNSEM.LKEYS.KEYREL.PRED "_legalización_n_rel" ]. legalizar_v := v_trans_np_le & [ STEM < "legalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_legalizar_v_rel" ]. legalmente_x1 := av_i_spr_le & [ STEM < "legalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_legalmente_x_rel" ]. legar_v := v_ditrans*_le & [ STEM < "legar" >, SYNSEM.LKEYS.KEYREL.PRED "_legar_v_rel" ]. legatario_n1 := n_intr_count_le & [ STEM < "legatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legatario_n_rel" ] ]. legaña_n1 := n_ppcomp_count_le & [ STEM < "legaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_legaña_n_rel" ] ]. legendario_a1 := a_qual_intr_scopal_le & [ STEM < "legendario" >, SYNSEM.LKEYS.KEYREL.PRED "_legendario_a_rel" ]. legibilidad_n1 := n_intr_uncount_le & [ STEM < "legibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legibilidad_n_rel" ] ]. legible_a1 := a_qual_intr_scopal_le & [ STEM < "legible" >, SYNSEM.LKEYS.KEYREL.PRED "_legible_a_rel" ]. legiblemente_x1 := av_i_le & [ STEM < "legiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_legiblemente_x_rel" ]. legionario_n1 := n_intr_count_le & [ STEM < "legionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legionario_n_rel" ] ]. legislación_n1 := n_intr_count_le & [ STEM < "legislación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legislación_n_rel" ] ]. legislador_n1 := n_subj-nom_le & [ STEM < "legislador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legislador_n_rel" ] ]. legislar_v := v_trans_np*_le & [ STEM < "legislar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_legislar_v_rel" ] ]. legislativamente_x1 := av_i_spr_le & [ STEM < "legislativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_legislativamente_x_rel" ]. legislativo_a1 := a_rel_nonprd_intr_le & [ STEM < "legislativo" >, SYNSEM.LKEYS.KEYREL.PRED "_legislativo_a_rel" ]. legislatura_n1 := n_intr_count_le & [ STEM < "legislatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legislatura_n_rel" ] ]. legispérito_n1 := n_intr_count_le & [ STEM < "legispérito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legispérito_n_rel" ] ]. legitimacidad_n1 := n_intr_uncount_le & [ STEM < "legitimacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legitimacidad_n_rel" ] ]. legitimación_n1 := n_trans_le & [ STEM < "legitimación" >, SYNSEM.LKEYS.KEYREL.PRED "_legitimación_n_rel" ]. legitimador_a1 := a_rel_nonprd_intr_le & [ STEM < "legitimador" >, SYNSEM.LKEYS.KEYREL.PRED "_legitimador_a_rel" ]. legitimar_v1 := v_trans_cp_prop_fin_le & [ STEM < "legitimar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_legitimar_v_rel" ] ]. legitimar_v2 := v_trans_np_le & [ STEM < "legitimar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_legitimar_v_rel" ] ]. legitimario_n1 := n_intr_count_le & [ STEM < "legitimario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legitimario_n_rel" ] ]. legitimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "legitimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legitimidad_n_rel" ] ]. legitimista_a1 := a_rel_nonprd_intr_le & [ STEM < "legitimista" >, SYNSEM.LKEYS.KEYREL.PRED "_legitimista_a_rel" ]. legitimista_n1 := n_intr_count_le & [ STEM < "legitimista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_legitimista_n_rel" ] ]. legión_n1 := n_intr_coll_le & [ STEM < "legión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_legión_n_rel" ] ]. lego_n1 := n_intr_count_le & [ STEM < "lego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lego_n_rel" ] ]. legua_n1 := n_pseudo-part_le & [ STEM < "legua" >, SYNSEM.LKEYS.KEYREL.PRED "_legua_n_rel" ]. legumbre_n1 := n_intr_count_le & [ STEM < "legumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_legumbre_n_rel" ] ]. leguminosa_n1 := n_intr_count_le & [ STEM < "leguminosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_leguminosa_n_rel" ] ]. legítimamente_x1 := av_i_spr_le & [ STEM < "legítimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_legítimamente_x_rel" ]. legítimo_a1 := a_rel_prd_le & [ STEM < "legítimo" >, SYNSEM.LKEYS.KEYREL.PRED "_legítimo_a_rel" ]. lejano_a1 := a_qual_intr_scopal_le & [ STEM < "lejano" >, SYNSEM.LKEYS.KEYREL.PRED "_lejano_a_rel" ]. lejanía_n1 := n_intr_uncount_pl_le & [ STEM < "lejanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lejanía_n_rel" ] ]. lejos_de_p_vmod := p_vmod_le & [ STEM < "lejos_de" >, SYNSEM.LKEYS.KEYREL.PRED _lejos_de_p_rel ]. lejos_x1 := av_i_spr_le & [ STEM < "lejos" >, SYNSEM.LKEYS.KEYREL.PRED "_lejos_x_rel" ]. lejía_n1 := n_intr_mass_le & [ STEM < "lejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lejía_n_rel" ] ]. lema_n1 := n_intr_count_le & [ STEM < "lema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_lema_n_rel" ] ]. lematización_n1 := n_trans_le & [ STEM < "lematización" >, SYNSEM.LKEYS.KEYREL.PRED "_lematización_n_rel" ]. lemming_n1 := n_intr_count_le & [ STEM < "lemming" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lemming_n_rel" ] ]. lemnisco_n1 := n_ppcomp_count_le & [ STEM < "lemnisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_lemnisco_n_rel" ] ]. lemúrido_n1 := n_intr_count_le & [ STEM < "lemúrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lemúrido_n_rel" ] ]. lenar_n1 := n_intr_count_le & [ STEM < "lenar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lenar_n_rel" ] ]. lencería_n1 := n_intr_uncount_pl_le & [ STEM < "lencería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lencería_n_rel" ] ]. lengua_n1 := n_ppcomp_count_le & [ STEM < "lengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_lengua_n_rel" ] ]. lengua_n2 := n_intr_count_le & [ STEM < "lengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lengua_n_rel" ] ]. lenguadina_n1 := n_intr_count_le & [ STEM < "lenguadina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lenguadina_n_rel" ] ]. lenguado_n1 := n_intr_count_le & [ STEM < "lenguado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lenguado_n_rel" ] ]. lenguaje_n1 := n_intr_count_le & [ STEM < "lenguaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lenguaje_n_rel" ] ]. lengüeta_n1 := n_intr_count_le & [ STEM < "lengüeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lengüeta_n_rel" ] ]. lengüetilla_n1 := n_intr_count_le & [ STEM < "lengüetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lengüetilla_n_rel" ] ]. lenidad_n1 := n_intr_uncount_le & [ STEM < "lenidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lenidad_n_rel" ] ]. leninismo_n1 := n_intr_uncount_le & [ STEM < "leninismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leninismo_n_rel" ] ]. leninista_n1 := n_intr_count_le & [ STEM < "leninista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_leninista_n_rel" ] ]. lenitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "lenitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_lenitivo_a_rel" ]. lentamente_x1 := av_i_spr_le & [ STEM < "lentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lentamente_x_rel" ]. lente_n1 := n_intr_count_le & [ STEM < "lente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lente_n_rel" ] ]. lenteja_n1 := n_intr_count_le & [ STEM < "lenteja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lenteja_n_rel" ] ]. lentejuela_n1 := n_intr_count_le & [ STEM < "lentejuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lentejuela_n_rel" ] ]. lenticular_a1 := a_rel_nonprd_intr_le & [ STEM < "lenticular" >, SYNSEM.LKEYS.KEYREL.PRED "_lenticular_a_rel" ]. lentilla_n1 := n_intr_count_le & [ STEM < "lentilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lentilla_n_rel" ] ]. lentitud_n1 := n_ppcomp_mass_le & [ STEM < "lentitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lentitud_n_rel" ] ]. lento_a1 := a_qual_intr_scopal_le & [ STEM < "lento" >, SYNSEM.LKEYS.KEYREL.PRED "_lento_a_rel" ]. lentícula_n1 := n_intr_count_le & [ STEM < "lentícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lentícula_n_rel" ] ]. leonado_a1 := a_qual_intr_ser_le & [ STEM < "leonado" >, SYNSEM.LKEYS.KEYREL.PRED "_leonado_a_rel" ]. leoncillo_n1 := n_intr_count_le & [ STEM < "leoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_leoncillo_n_rel" ] ]. leonino_a1 := a_rel_prd_le & [ STEM < "leonino" >, SYNSEM.LKEYS.KEYREL.PRED "_leonino_a_rel" ]. leonita_n1 := n_intr_count_le & [ STEM < "leonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_leonita_n_rel" ] ]. leonés_a1 := a_rel_prd_le & [ STEM < "leonés" >, SYNSEM.LKEYS.KEYREL.PRED "_leonés_a_rel" ]. leonés_n1 := n_intr_count_le & [ STEM < "leonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_leonés_n_rel" ] ]. leopardo_n1 := n_intr_count_le & [ STEM < "leopardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_leopardo_n_rel" ] ]. leotardo_n1 := n_intr_count_le & [ STEM < "leotardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leotardo_n_rel" ] ]. lepidina_n1 := n_intr_count_le & [ STEM < "lepidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lepidina_n_rel" ] ]. lepidocrocita_n1 := n_intr_count_le & [ STEM < "lepidocrocita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lepidocrocita_n_rel" ] ]. lepidolita_n1 := n_intr_count_le & [ STEM < "lepidolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lepidolita_n_rel" ] ]. lepidóptero_n1 := n_intr_count_le & [ STEM < "lepidóptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lepidóptero_n_rel" ] ]. leporino_a1 := a_rel_nonprd_intr_le & [ STEM < "leporino" >, SYNSEM.LKEYS.KEYREL.PRED "_leporino_a_rel" ]. leprosario_n1 := n_intr_count_le & [ STEM < "leprosario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_leprosario_n_rel" ] ]. leprosería_n1 := n_intr_count_le & [ STEM < "leprosería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_leprosería_n_rel" ] ]. leproso_a1 := a_qual_intr_ser_le & [ STEM < "leproso" >, SYNSEM.LKEYS.KEYREL.PRED "_leproso_a_rel" ]. leproso_n1 := n_intr_count_le & [ STEM < "leproso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_leproso_n_rel" ] ]. leptocito_n1 := n_intr_count_le & [ STEM < "leptocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leptocito_n_rel" ] ]. leptocúrtico_a1 := a_rel_nonprd_intr_le & [ STEM < "leptocúrtico" >, SYNSEM.LKEYS.KEYREL.PRED "_leptocúrtico_a_rel" ]. leptodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "leptodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_leptodonto_a_rel" ]. leptoestafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "leptoestafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_leptoestafilino_a_rel" ]. leptomeninge_n1 := n_ppcomp_count_le & [ STEM < "leptomeninge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_leptomeninge_n_rel" ] ]. leptonema_n1 := n_intr_count_le & [ STEM < "leptonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leptonema_n_rel" ] ]. leptoprosópico_a1 := a_rel_nonprd_intr_le & [ STEM < "leptoprosópico" >, SYNSEM.LKEYS.KEYREL.PRED "_leptoprosópico_a_rel" ]. leptorrino_a1 := a_rel_nonprd_intr_le & [ STEM < "leptorrino" >, SYNSEM.LKEYS.KEYREL.PRED "_leptorrino_a_rel" ]. leptómetro_n1 := n_intr_count_le & [ STEM < "leptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leptómetro_n_rel" ] ]. lerdamente_x1 := av_i_spr_le & [ STEM < "lerdamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lerdamente_x_rel" ]. lerdo_a1 := a_qual_intr_scopal_le & [ STEM < "lerdo" >, SYNSEM.LKEYS.KEYREL.PRED "_lerdo_a_rel" ]. leridano_a1 := a_rel_prd_le & [ STEM < "leridano" >, SYNSEM.LKEYS.KEYREL.PRED "_leridano_a_rel" ]. leridano_n1 := n_intr_count_le & [ STEM < "leridano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_leridano_n_rel" ] ]. lesbiana_n1 := n_intr_count_le & [ STEM < "lesbiana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lesbiana_n_rel" ] ]. lesbianismo_n1 := n_intr_uncount_le & [ STEM < "lesbianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lesbianismo_n_rel" ] ]. lesionar_v1 := v_intr_io*_le & [ STEM < "lesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_lesionar_v_rel" ]. lesionar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "lesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_lesionar_v_rel" ]. lesionar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "lesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_lesionar_v_rel" ]. lesionar_v4 := v_trans_np_caus_le & [ STEM < "lesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_lesionar_v_rel" ]. lesividad_n1 := n_intr_uncount_le & [ STEM < "lesividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lesividad_n_rel" ] ]. lesivo_a1 := a_rel_nonprd_intr_le & [ STEM < "lesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_lesivo_a_rel" ]. lesión_n1 := n_intr_count_le & [ STEM < "lesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lesión_n_rel" ] ]. leso_a1 := a_adv_int_le & [ STEM < "leso" >, SYNSEM.LKEYS.KEYREL.PRED "_leso_a_rel" ]. lestodelfo_n1 := n_intr_count_le & [ STEM < "lestodelfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lestodelfo_n_rel" ] ]. letal_a1 := a_qual_intr_scopal_le & [ STEM < "letal" >, SYNSEM.LKEYS.KEYREL.PRED "_letal_a_rel" ]. letanía_n1 := n_intr_count_le & [ STEM < "letanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_letanía_n_rel" ] ]. letra_n1 := n_intr_count_le & [ STEM < "letra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_letra_n_rel" ] ]. letrado_a1 := a_rel_nonprd_intr_le & [ STEM < "letrado" >, SYNSEM.LKEYS.KEYREL.PRED "_letrado_a_rel" ]. letrado_n1 := n_intr_count_le & [ STEM < "letrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_letrado_n_rel" ] ]. letrero_n1 := n_intr_count_le & [ STEM < "letrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_letrero_n_rel" ] ]. letrina_n1 := n_intr_count_le & [ STEM < "letrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_letrina_n_rel" ] ]. letrista_n1 := n_intr_count_le & [ STEM < "letrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_letrista_n_rel" ] ]. letárgico_a1 := a_rel_nonprd_intr_le & [ STEM < "letárgico" >, SYNSEM.LKEYS.KEYREL.PRED "_letárgico_a_rel" ]. letón_a1 := a_rel_prd_le & [ STEM < "letón" >, SYNSEM.LKEYS.KEYREL.PRED "_letón_a_rel" ]. letón_n1 := n_intr_count_le & [ STEM < "letón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_letón_n_rel" ] ]. leucina_n1 := n_intr_count_le & [ STEM < "leucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_leucina_n_rel" ] ]. leucita_n1 := n_intr_count_le & [ STEM < "leucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_leucita_n_rel" ] ]. leucoaglutinina_n1 := n_intr_count_le & [ STEM < "leucoaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucoaglutinina_n_rel" ] ]. leucoblasto_n1 := n_intr_count_le & [ STEM < "leucoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucoblasto_n_rel" ] ]. leucocitario_a1 := a_rel_nonprd_intr_le & [ STEM < "leucocitario" >, SYNSEM.LKEYS.KEYREL.PRED "_leucocitario_a_rel" ]. leucocito_n1 := n_intr_count_le & [ STEM < "leucocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucocito_n_rel" ] ]. leucocitoide_a1 := a_rel_nonprd_intr_le & [ STEM < "leucocitoide" >, SYNSEM.LKEYS.KEYREL.PRED "_leucocitoide_a_rel" ]. leucocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "leucocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_leucocítico_a_rel" ]. leucoeritroblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "leucoeritroblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_leucoeritroblástico_a_rel" ]. leucoma_n1 := n_intr_count_le & [ STEM < "leucoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucoma_n_rel" ] ]. leucoplasto_n1 := n_intr_count_le & [ STEM < "leucoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucoplasto_n_rel" ] ]. leucosialina_n1 := n_intr_count_le & [ STEM < "leucosialina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leucosialina_n_rel" ] ]. leucémico_a1 := a_qual_intr_ser_le & [ STEM < "leucémico" >, SYNSEM.LKEYS.KEYREL.PRED "_leucémico_a_rel" ]. leudar_v := v_trans_np_caus_le & [ STEM < "leudar" >, SYNSEM.LKEYS.KEYREL.PRED "_leudar_v_rel" ]. leva_n1 := n_event-result_intr_le & [ STEM < "leva" >, SYNSEM.LKEYS.KEYREL.PRED "_leva_n_rel" ]. levadizo_a1 := a_rel_nonprd_intr_le & [ STEM < "levadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_levadizo_a_rel" ]. levadura_n1 := n_intr_mass_le & [ STEM < "levadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_levadura_n_rel" ] ]. levantador_n1 := n_intr_count_le & [ STEM < "levantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_levantador_n_rel" ] ]. levantador_n2 := n_subj-nom_le & [ STEM < "levantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_levantador_n_rel" ] ]. levantamiento_n1 := n_trans_le & [ STEM < "levantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_levantamiento_n_rel" ]. levantar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "levantar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_levantar_v_rel" ] ] ]. levantar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "levantar" >, SYNSEM.LKEYS.KEYREL.PRED "_levantar_v_rel" ]. levante_n1 := n_intr_count_le & [ STEM < "levante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_levante_n_rel" ] ]. levantino_a1 := a_rel_prd_le & [ STEM < "levantino" >, SYNSEM.LKEYS.KEYREL.PRED "_levantino_a_rel" ]. levantino_n1 := n_intr_count_le & [ STEM < "levantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_levantino_n_rel" ] ]. leve_a1 := a_qual_intr_scopal_le & [ STEM < "leve" >, SYNSEM.LKEYS.KEYREL.PRED "_leve_a_rel" ]. levedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "levedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_levedad_n_rel" ] ]. levigación_n1 := n_trans_le & [ STEM < "levigación" >, SYNSEM.LKEYS.KEYREL.PRED "_levigación_n_rel" ]. levirato_n1 := n_intr_uncount_le & [ STEM < "levirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_levirato_n_rel" ] ]. levita_n1 := n_intr_count_le & [ STEM < "levita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_levita_n_rel" ] ]. levitación_n1 := n_result_intr_le & [ STEM < "levitación" >, SYNSEM.LKEYS.KEYREL.PRED "_levitación_n_rel" ]. levorrotatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "levorrotatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_levorrotatorio_a_rel" ]. levulinato_n1 := n_intr_count_le & [ STEM < "levulinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_levulinato_n_rel" ] ]. levulosa_n1 := n_intr_count_le & [ STEM < "levulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_levulosa_n_rel" ] ]. levúlico_a1 := a_rel_nonprd_intr_le & [ STEM < "levúlico" >, SYNSEM.LKEYS.KEYREL.PRED "_levúlico_a_rel" ]. lewisita_n1 := n_intr_count_le & [ STEM < "lewisita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lewisita_n_rel" ] ]. lexemático_a1 := a_rel_nonprd_intr_le & [ STEM < "lexemático" >, SYNSEM.LKEYS.KEYREL.PRED "_lexemático_a_rel" ]. lexical_a1 := a_rel_nonprd_intr_le & [ STEM < "lexical" >, SYNSEM.LKEYS.KEYREL.PRED "_lexical_a_rel" ]. lexicalización_n1 := n_trans_le & [ STEM < "lexicalización" >, SYNSEM.LKEYS.KEYREL.PRED "_lexicalización_n_rel" ]. lexicalizar_v := v_trans_np_caus_le & [ STEM < "lexicalizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_lexicalizar_v_rel" ] ]. lexicografía_n1 := n_intr_uncount_le & [ STEM < "lexicografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lexicografía_n_rel" ] ]. lexicográficamente_x1 := av_i_spr_le & [ STEM < "lexicográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lexicográficamente_x_rel" ]. lexicográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "lexicográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_lexicográfico_a_rel" ]. lexicología_n1 := n_intr_uncount_le & [ STEM < "lexicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lexicología_n_rel" ] ]. lexicológicamente_x1 := av_i_spr_le & [ STEM < "lexicológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lexicológicamente_x_rel" ]. lexicológico_a1 := a_rel_nonprd_intr_le & [ STEM < "lexicológico" >, SYNSEM.LKEYS.KEYREL.PRED "_lexicológico_a_rel" ]. lexicometría_n1 := n_intr_uncount_le & [ STEM < "lexicometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lexicometría_n_rel" ] ]. lexicógrafo_n1 := n_intr_count_le & [ STEM < "lexicógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lexicógrafo_n_rel" ] ]. lexicólogo_n1 := n_intr_count_le & [ STEM < "lexicólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lexicólogo_n_rel" ] ]. ley_n1 := n_intr_count_le & [ STEM < "ley" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ley_n_rel" ] ]. leyenda_n1 := n_intr_count_le & [ STEM < "leyenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_leyenda_n_rel" ] ]. lezna_n1 := n_intr_count_le & [ STEM < "lezna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lezna_n_rel" ] ]. leíble_a1 := a_rel_prd_le & [ STEM < "leíble" >, SYNSEM.LKEYS.KEYREL.PRED "_leíble_a_rel" ]. leña_n1 := n_intr_mass_le & [ STEM < "leña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leña_n_rel" ] ]. leñador_n1 := n_subj-nom_le & [ STEM < "leñador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_leñador_n_rel" ] ]. leñificar_v := v_trans_np_le & [ STEM < "leñificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_plant, PRED "_leñificar_v_rel" ] ]. leño_n1 := n_intr_count_le & [ STEM < "leño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_leño_n_rel" ] ]. leñoso_a1 := a_qual_intr_scopal_le & [ STEM < "leñoso" >, SYNSEM.LKEYS.KEYREL.PRED "_leñoso_a_rel" ]. león_n1 := n_intr_count_le & [ STEM < "león" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_león_n_rel" ] ]. liana_n1 := n_intr_count_le & [ STEM < "liana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_liana_n_rel" ] ]. liar_v1 := v_intr_io*_le & [ STEM < "liar" >, SYNSEM.LKEYS.KEYREL.PRED "_liar_v_rel" ]. liar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "liar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_liar_v_rel" ] ]. liar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "liar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_liar_v_rel" ] ]. liar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "liar" >, SYNSEM.LKEYS.KEYREL.PRED "_liar_v_rel" ]. liar_v5 := v_trans_np_caus_le & [ STEM < "liar" >, SYNSEM.LKEYS.KEYREL.PRED "_liar_v_rel" ]. libanés_a1 := a_rel_prd_le & [ STEM < "libanés" >, SYNSEM.LKEYS.KEYREL.PRED "_libanés_a_rel" ]. libanés_n1 := n_intr_count_le & [ STEM < "libanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libanés_n_rel" ] ]. libar_v := v_trans_np_le & [ STEM < "libar" >, SYNSEM.LKEYS.KEYREL.PRED "_libar_v_rel" ]. libelista_n1 := n_intr_count_le & [ STEM < "libelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libelista_n_rel" ] ]. liberación_n1 := n_trans_le & [ STEM < "liberación" >, SYNSEM.LKEYS.KEYREL.PRED "_liberación_n_rel" ]. liberador_a1 := a_rel_nonprd_intr_le & [ STEM < "liberador" >, SYNSEM.LKEYS.KEYREL.PRED "_liberador_a_rel" ]. liberal_a1 := a_qual_intr_scopal_le & [ STEM < "liberal" >, SYNSEM.LKEYS.KEYREL.PRED "_liberal_a_rel" ]. liberal_n1 := n_intr_count_le & [ STEM < "liberal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_liberal_n_rel" ] ]. liberalidad_n1 := n_intr_mass_le & [ STEM < "liberalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liberalidad_n_rel" ] ]. liberalismo_n1 := n_intr_uncount_le & [ STEM < "liberalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liberalismo_n_rel" ] ]. liberalización_n1 := n_trans_le & [ STEM < "liberalización" >, SYNSEM.LKEYS.KEYREL.PRED "_liberalización_n_rel" ]. liberalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "liberalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_liberalizador_a_rel" ]. liberalizar_v := v_trans_np_le & [ STEM < "liberalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_liberalizar_v_rel" ]. liberalmente_x1 := av_i_spr_le & [ STEM < "liberalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_liberalmente_x_rel" ]. liberatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "liberatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_liberatorio_a_rel" ]. liberiano_a1 := a_rel_prd_le & [ STEM < "liberiano" >, SYNSEM.LKEYS.KEYREL.PRED "_liberiano_a_rel" ]. liberiano_n1 := n_intr_count_le & [ STEM < "liberiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_liberiano_n_rel" ] ]. libertad_n1 := n_intr_mass-or-count_le & [ STEM < "libertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libertad_n_rel" ] ]. libertador_n1 := n_subj-nom_le & [ STEM < "libertador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libertador_n_rel" ] ]. libertar_v := v_trans_np_le & [ STEM < "libertar" >, SYNSEM.LKEYS.KEYREL.PRED "_libertar_v_rel" ]. libertario_a1 := a_rel_nonprd_intr_le & [ STEM < "libertario" >, SYNSEM.LKEYS.KEYREL.PRED "_libertario_a_rel" ]. libertario_n1 := n_intr_count_le & [ STEM < "libertario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libertario_n_rel" ] ]. libertarismo_n1 := n_intr_uncount_le & [ STEM < "libertarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libertarismo_n_rel" ] ]. libertinaje_n1 := n_intr_mass-or-count_le & [ STEM < "libertinaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libertinaje_n_rel" ] ]. libertino_a1 := a_qual_intr_ser_le & [ STEM < "libertino" >, SYNSEM.LKEYS.KEYREL.PRED "_libertino_a_rel" ]. libertino_n1 := n_intr_count_le & [ STEM < "libertino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libertino_n_rel" ] ]. libidinosamente_x1 := av_i_spr_le & [ STEM < "libidinosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_libidinosamente_x_rel" ]. libidinosidad_n1 := n_intr_uncount_le & [ STEM < "libidinosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libidinosidad_n_rel" ] ]. libidinoso_a1 := a_qual_intr_scopal_le & [ STEM < "libidinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_libidinoso_a_rel" ]. libido_n1 := n_intr_uncount_pl_le & [ STEM < "libido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libido_n_rel" ] ]. libio_a1 := a_rel_prd_le & [ STEM < "libio" >, SYNSEM.LKEYS.KEYREL.PRED "_libio_a_rel" ]. libio_n1 := n_intr_count_le & [ STEM < "libio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libio_n_rel" ] ]. libra_n1 := n_pseudo-part_le & [ STEM < "libra" >, SYNSEM.LKEYS.KEYREL.PRED "_libra_n_rel" ]. librado_n1 := n_intr_count_le & [ STEM < "librado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librado_n_rel" ] ]. librador_n1 := n_subj-nom_le & [ STEM < "librador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librador_n_rel" ] ]. libramiento_n1 := n_trans_le & [ STEM < "libramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_libramiento_n_rel" ]. librante_n1 := n_intr_count_le & [ STEM < "librante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librante_n_rel" ] ]. libranza_n1 := n_trans_le & [ STEM < "libranza" >, SYNSEM.LKEYS.KEYREL.PRED "_libranza_n_rel" ]. librar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "librar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_librar_v_rel" ] ]. librar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "librar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_librar_v_rel" ] ]. libre_a1 := a_qual_trans*_estar_le & [ STEM < "libre" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_libre_a_rel" ] ]. libre_a2 := a_sr_le & [ STEM < "libre" >, SYNSEM.LKEYS.KEYREL.PRED "_libre_a_rel" ]. librecambismo_n1 := n_intr_uncount_le & [ STEM < "librecambismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_librecambismo_n_rel" ] ]. librecambista_n1 := n_intr_count_le & [ STEM < "librecambista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librecambista_n_rel" ] ]. libremente_x1 := av_i_spr_le & [ STEM < "libremente" >, SYNSEM.LKEYS.KEYREL.PRED "_libremente_x_rel" ]. librepensador_n1 := n_intr_count_le & [ STEM < "librepensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librepensador_n_rel" ] ]. librero_n1 := n_intr_count_le & [ STEM < "librero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_librero_n_rel" ] ]. librería_n1 := n_intr_count_le & [ STEM < "librería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_librería_n_rel" ] ]. libreta_n1 := n_intr_count_le & [ STEM < "libreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_libreta_n_rel" ] ]. libretista_n1 := n_intr_count_le & [ STEM < "libretista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_libretista_n_rel" ] ]. libreto_n1 := n_intr_count_le & [ STEM < "libreto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_libreto_n_rel" ] ]. libro_n1 := n_intr_count_le & [ STEM < "libro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_libro_n_rel" ] ]. libélula_n1 := n_intr_count_le & [ STEM < "libélula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_libélula_n_rel" ] ]. licaón_n1 := n_intr_count_le & [ STEM < "licaón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_licaón_n_rel" ] ]. licencia_n1 := n_intr_count_le & [ STEM < "licencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_licencia_n_rel" ] ]. licenciado_n1 := n_intr_count_le & [ STEM < "licenciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_licenciado_n_rel" ] ]. licenciamiento_n1 := n_trans_le & [ STEM < "licenciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_licenciamiento_n_rel" ]. licenciatura_n1 := n_intr_count_le & [ STEM < "licenciatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_licenciatura_n_rel" ] ]. licenciosamente_x1 := av_i_spr_le & [ STEM < "licenciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_licenciosamente_x_rel" ]. licenciosidad_n1 := n_intr_uncount_le & [ STEM < "licenciosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_licenciosidad_n_rel" ] ]. licencioso_a1 := a_rel_nonprd_intr_le & [ STEM < "licencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_licencioso_a_rel" ]. liceo_n1 := n_intr_mass_le & [ STEM < "liceo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liceo_n_rel" ] ]. lichi_n1 := n_intr_count_le & [ STEM < "lichi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_lichi_n_rel" ] ]. licitación_n1 := n_trans_le & [ STEM < "licitación" >, SYNSEM.LKEYS.KEYREL.PRED "_licitación_n_rel" ]. licitador_n1 := n_subj-nom_le & [ STEM < "licitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_licitador_n_rel" ] ]. licitar_v := v_trans_np_le & [ STEM < "licitar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_pro, PRED "_licitar_v_rel" ] ]. licitud_n1 := n_ppcomp_uncount_le & [ STEM < "licitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_licitud_n_rel" ] ]. licopodio_n1 := n_intr_count_le & [ STEM < "licopodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_licopodio_n_rel" ] ]. licor_n1 := n_intr_mass_le & [ STEM < "licor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_licor_n_rel" ] ]. licorera_n1 := n_intr_count_le & [ STEM < "licorera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_licorera_n_rel" ] ]. licorería_n1 := n_intr_count_le & [ STEM < "licorería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_licorería_n_rel" ] ]. licra_n1 := n_intr_count_le & [ STEM < "licra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_licra_n_rel" ] ]. lictido_n1 := n_intr_count_le & [ STEM < "lictido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lictido_n_rel" ] ]. licuación_n1 := n_trans_le & [ STEM < "licuación" >, SYNSEM.LKEYS.KEYREL.PRED "_licuación_n_rel" ]. licuadora_n1 := n_intr_count_le & [ STEM < "licuadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_licuadora_n_rel" ] ]. licuar_v := v_trans_np_caus_le & [ STEM < "licuar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat_plant, PRED "_licuar_v_rel" ] ]. licuefacción_n1 := n_trans_le & [ STEM < "licuefacción" >, SYNSEM.LKEYS.KEYREL.PRED "_licuefacción_n_rel" ]. licuefacer_v := v_trans_np_caus_le & [ STEM < "licuefacer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mat_plant, PRED "_licuefacer_v_rel" ] ]. liddicoatita_n1 := n_intr_count_le & [ STEM < "liddicoatita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_liddicoatita_n_rel" ] ]. liderar_v := v_trans_np*_le & [ STEM < "liderar" >, SYNSEM.LKEYS.KEYREL.PRED "_liderar_v_rel" ]. liderato_n1 := n_intr_count_le & [ STEM < "liderato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liderato_n_rel" ] ]. liderazgo_n1 := n_intr_mass-or-count_le & [ STEM < "liderazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liderazgo_n_rel" ] ]. lido_n1 := n_intr_count_le & [ STEM < "lido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lido_n_rel" ] ]. liebre_n1 := n_intr_count_le & [ STEM < "liebre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_liebre_n_rel" ] ]. liendre_n1 := n_intr_count_le & [ STEM < "liendre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liendre_n_rel" ] ]. lienzo_n1 := n_intr_count_le & [ STEM < "lienzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lienzo_n_rel" ] ]. liftar_v := v_trans_np*_le & [ STEM < "liftar" >, SYNSEM.LKEYS.KEYREL.PRED "_liftar_v_rel" ]. liga_n1 := n_intr_count_le & [ STEM < "liga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_soc, PRED "_liga_n_rel" ] ]. ligadura_n1 := n_intr_count_le & [ STEM < "ligadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ligadura_n_rel" ] ]. ligamento_n1 := n_ppcomp_count_le & [ STEM < "ligamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ligamento_n_rel" ] ]. ligamiento_n1 := n_trans_le & [ STEM < "ligamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ligamiento_n_rel" ]. ligar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "ligar" >, SYNSEM.LKEYS.KEYREL.PRED "_ligar_v_rel" ]. ligar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "ligar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_ligar_v_rel" ] ] ]. ligar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "ligar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_ligar_v_rel" ] ]. ligeramente_x1 := av_i_spr_le & [ STEM < "ligeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_ligeramente_x_rel" ]. ligereza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ligereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ligereza_n_rel" ] ]. ligero_a1 := a_or_le & [ STEM < "ligero" >, SYNSEM.LKEYS.KEYREL.PRED "_ligero_a_rel" ]. ligero_a2 := a_qual_intr_scopal_le & [ STEM < "ligero" >, SYNSEM.LKEYS.KEYREL.PRED "_ligero_a_rel" ]. light_a1 := a_qual_intr_scopal_le & [ STEM < "light" >, SYNSEM.LKEYS.KEYREL.PRED "_light_a_rel" ]. lignificación_n1 := n_trans_le & [ STEM < "lignificación" >, SYNSEM.LKEYS.KEYREL.PRED "_lignificación_n_rel" ]. lignina_n1 := n_intr_count_le & [ STEM < "lignina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lignina_n_rel" ] ]. lignito_n1 := n_intr_mass_le & [ STEM < "lignito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lignito_n_rel" ] ]. lignocelulosa_n1 := n_intr_count_le & [ STEM < "lignocelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lignocelulosa_n_rel" ] ]. lignocerato_n1 := n_intr_count_le & [ STEM < "lignocerato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lignocerato_n_rel" ] ]. lignocerínico_a1 := a_rel_nonprd_intr_le & [ STEM < "lignocerínico" >, SYNSEM.LKEYS.KEYREL.PRED "_lignocerínico_a_rel" ]. lignosulfato_n1 := n_intr_count_le & [ STEM < "lignosulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lignosulfato_n_rel" ] ]. ligroína_n1 := n_intr_mass-or-count_le & [ STEM < "ligroína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ligroína_n_rel" ] ]. liguero_a1 := a_rel_nonprd_intr_le & [ STEM < "liguero" >, SYNSEM.LKEYS.KEYREL.PRED "_liguero_a_rel" ]. liguero_n1 := n_intr_count_le & [ STEM < "liguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liguero_n_rel" ] ]. lijadora_n1 := n_intr_count_le & [ STEM < "lijadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lijadora_n_rel" ] ]. lijar_v := v_trans_np*_le & [ STEM < "lijar" >, SYNSEM.LKEYS.KEYREL.PRED "_lijar_v_rel" ]. lila_a1 := a_qual_intr_ser_le & [ STEM < "lila" >, SYNSEM.LKEYS.KEYREL.PRED "_lila_a_rel" ]. lila_n1 := n_intr_count_le & [ STEM < "lila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_lila_n_rel" ] ]. liliputiense_n1 := n_intr_count_le & [ STEM < "liliputiense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_liliputiense_n_rel" ] ]. lima_n1 := n_intr_count_le & [ STEM < "lima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lima_n_rel" ] ]. limadora_n1 := n_intr_count_le & [ STEM < "limadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limadora_n_rel" ] ]. limadura_n1 := n_trans_le & [ STEM < "limadura" >, SYNSEM.LKEYS.KEYREL.PRED "_limadura_n_rel" ]. limadura_n2 := n_intr_count_le & [ STEM < "limadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_limadura_n_rel" ] ]. limanda_n1 := n_intr_count_le & [ STEM < "limanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limanda_n_rel" ] ]. limar_v := v_trans_np_le & [ STEM < "limar" >, SYNSEM.LKEYS.KEYREL.PRED "_limar_v_rel" ]. limatón_n1 := n_intr_count_le & [ STEM < "limatón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limatón_n_rel" ] ]. limbo_n1 := n_intr_count_le & [ STEM < "limbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limbo_n_rel" ] ]. limen_n1 := n_intr_count_le & [ STEM < "limen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_limen_n_rel" ] ]. limeño_n1 := n_intr_count_le & [ STEM < "limeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_limeño_n_rel" ] ]. limfoblasto_n1 := n_intr_count_le & [ STEM < "limfoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limfoblasto_n_rel" ] ]. limfocito_n1 := n_intr_count_le & [ STEM < "limfocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_limfocito_n_rel" ] ]. liminar_a1 := a_rel_nonprd_intr_le & [ STEM < "liminar" >, SYNSEM.LKEYS.KEYREL.PRED "_liminar_a_rel" ]. limitación_n1 := n_trans_le & [ STEM < "limitación" >, SYNSEM.LKEYS.KEYREL.PRED "_limitación_n_rel" ]. limitadamente_x1 := av_i_spr_le & [ STEM < "limitadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_limitadamente_x_rel" ]. limitador_a1 := a_rel_nonprd_intr_le & [ STEM < "limitador" >, SYNSEM.LKEYS.KEYREL.PRED "_limitador_a_rel" ]. limitador_n1 := n_subj-nom_le & [ STEM < "limitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_limitador_n_rel" ] ]. limitante_a1 := a_rel_nonprd_intr_le & [ STEM < "limitante" >, SYNSEM.LKEYS.KEYREL.PRED "_limitante_a_rel" ]. limitar_v1 := v_intr_mrkd_np*_le & [ STEM < "limitar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT loc_soc, ARG2.SORT loc_soc, PRED "_limitar_v_rel" ] ] ]. limitar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "limitar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_limitar_v_rel" ] ]. limitar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "limitar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_limitar_v_rel" ] ]. limitar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "limitar" >, SYNSEM.LKEYS.KEYREL.PRED "_limitar_v_rel" ]. limitar_v5 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "limitar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_limitar_v_rel" ] ]. limitativo_a1 := a_rel_prd_le & [ STEM < "limitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_limitativo_a_rel" ]. limnología_n1 := n_intr_uncount_le & [ STEM < "limnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_limnología_n_rel" ] ]. limnológico_a1 := a_rel_nonprd_intr_le & [ STEM < "limnológico" >, SYNSEM.LKEYS.KEYREL.PRED "_limnológico_a_rel" ]. limnígrafo_n1 := n_intr_count_le & [ STEM < "limnígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limnígrafo_n_rel" ] ]. limnímetro_n1 := n_intr_count_le & [ STEM < "limnímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limnímetro_n_rel" ] ]. limo_n1 := n_intr_mass_le & [ STEM < "limo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limo_n_rel" ] ]. limonada_n1 := n_intr_mass_le & [ STEM < "limonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limonada_n_rel" ] ]. limoneno_n1 := n_intr_mass-or-count_le & [ STEM < "limoneno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_limoneno_n_rel" ] ]. limonero_n1 := n_intr_count_le & [ STEM < "limonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_limonero_n_rel" ] ]. limonio_n1 := n_intr_count_le & [ STEM < "limonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_limonio_n_rel" ] ]. limonita_n1 := n_intr_count_le & [ STEM < "limonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_limonita_n_rel" ] ]. limoso_a1 := a_qual_intr_scopal_le & [ STEM < "limoso" >, SYNSEM.LKEYS.KEYREL.PRED "_limoso_a_rel" ]. limpiable_a1 := a_rel_prd_le & [ STEM < "limpiable" >, SYNSEM.LKEYS.KEYREL.PRED "_limpiable_a_rel" ]. limpiabotas_n1 := n_intr_count_le & [ STEM < "limpiabotas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_limpiabotas_n_rel" ] ]. limpiacristales_n1 := n_intr_count_le & [ STEM < "limpiacristales" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_limpiacristales_n_rel" ] ]. limpiador_a1 := a_rel_nonprd_intr_le & [ STEM < "limpiador" >, SYNSEM.LKEYS.KEYREL.PRED "_limpiador_a_rel" ]. limpiador_n1 := n_intr_count_le & [ STEM < "limpiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limpiador_n_rel" ] ]. limpiafaros_n1 := n_intr_count_le & [ STEM < "limpiafaros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limpiafaros_n_rel" ] ]. limpialuneta_n1 := n_intr_count_le & [ STEM < "limpialuneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limpialuneta_n_rel" ] ]. limpialíneas_n1 := n_intr_count_le & [ STEM < "limpialíneas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_limpialíneas_n_rel" ] ]. limpiamente_x1 := av_i_spr_le & [ STEM < "limpiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_limpiamente_x_rel" ]. limpiametales_n1 := n_intr_mass_le & [ STEM < "limpiametales" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_limpiametales_n_rel" ] ]. limpiaparabrisas_n1 := n_intr_count_le & [ STEM < "limpiaparabrisas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limpiaparabrisas_n_rel" ] ]. limpiar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "limpiar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_limpiar_v_rel" ] ]. limpiar_v2 := v_trans_np*_le & [ STEM < "limpiar" >, SYNSEM.LKEYS.KEYREL.PRED "_limpiar_v_rel" ]. limpiar_v3 := v_trans_np_mrkd_np_le & [ STEM < "limpiar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_limpiar_v_rel" ] ]. limpidez_n1 := n_ppcomp_uncount_le & [ STEM < "limpidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_limpidez_n_rel" ] ]. limpieza_n1 := n_trans_le & [ STEM < "limpieza" >, SYNSEM.LKEYS.KEYREL.PRED "_limpieza_n_rel" ]. limpio_a1 := a_qual_intr_ser_le & [ STEM < "limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_limpio_a_rel" ]. limpio_a2 := a_qual_trans*_estar_le & [ STEM < "limpio" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_limpio_a_rel" ] ]. limusina_n1 := n_intr_count_le & [ STEM < "limusina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limusina_n_rel" ] ]. limón_n1 := n_intr_mass_le & [ STEM < "limón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_limón_n_rel" ] ]. linaje_n1 := n_intr_count_le & [ STEM < "linaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linaje_n_rel" ] ]. linalol_n1 := n_intr_count_le & [ STEM < "linalol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linalol_n_rel" ] ]. lince_n1 := n_intr_count_le & [ STEM < "lince" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lince_n_rel" ] ]. linchamiento_n1 := n_trans_le & [ STEM < "linchamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_linchamiento_n_rel" ]. linchar_v := v_trans_np_le & [ STEM < "linchar" >, SYNSEM.LKEYS.KEYREL.PRED "_linchar_v_rel" ]. lindante_a1 := a_qual_trans*_estar_le & [ STEM < "lindante" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_lindante_a_rel" ] ]. lindar_v := v_intr_mrkd_np_le & [ STEM < "lindar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_lindar_v_rel" ] ]. lindero_n1 := n_intr_count_le & [ STEM < "lindero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lindero_n_rel" ] ]. lineación_n1 := n_intr_count_le & [ STEM < "lineación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lineación_n_rel" ] ]. lineal_a1 := a_rel_prd_le & [ STEM < "lineal" >, SYNSEM.LKEYS.KEYREL.PRED "_lineal_a_rel" ]. linealidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "linealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linealidad_n_rel" ] ]. linealmente_x1 := av_i_spr_le & [ STEM < "linealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_linealmente_x_rel" ]. lineamiento_n1 := n_intr_count_le & [ STEM < "lineamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lineamiento_n_rel" ] ]. linearidad_n1 := n_intr_count_le & [ STEM < "linearidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linearidad_n_rel" ] ]. lineíta_n1 := n_intr_count_le & [ STEM < "lineíta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lineíta_n_rel" ] ]. linfa_n1 := n_intr_mass_le & [ STEM < "linfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linfa_n_rel" ] ]. linfadenopatía_n1 := n_intr_uncount_pl_le & [ STEM < "linfadenopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfadenopatía_n_rel" ] ]. linfoblasto_n1 := n_intr_count_le & [ STEM < "linfoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linfoblasto_n_rel" ] ]. linfoblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "linfoblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_linfoblástico_a_rel" ]. linfocina_n1 := n_intr_count_le & [ STEM < "linfocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linfocina_n_rel" ] ]. linfocitario_a1 := a_rel_nonprd_intr_le & [ STEM < "linfocitario" >, SYNSEM.LKEYS.KEYREL.PRED "_linfocitario_a_rel" ]. linfocito_n1 := n_intr_count_le & [ STEM < "linfocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linfocito_n_rel" ] ]. linfocitotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "linfocitotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_linfocitotrópico_a_rel" ]. linfocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "linfocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_linfocítico_a_rel" ]. linfoide_a1 := a_rel_nonprd_intr_le & [ STEM < "linfoide" >, SYNSEM.LKEYS.KEYREL.PRED "_linfoide_a_rel" ]. linfoma_n1 := n_intr_count_le & [ STEM < "linfoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linfoma_n_rel" ] ]. linfomatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "linfomatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_linfomatoso_a_rel" ]. linfoquina_n1 := n_intr_count_le & [ STEM < "linfoquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linfoquina_n_rel" ] ]. linfosarcoma_n1 := n_intr_count_le & [ STEM < "linfosarcoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linfosarcoma_n_rel" ] ]. linfotoxina_n1 := n_intr_count_le & [ STEM < "linfotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linfotoxina_n_rel" ] ]. linfático_a1 := a_rel_nonprd_intr_le & [ STEM < "linfático" >, SYNSEM.LKEYS.KEYREL.PRED "_linfático_a_rel" ]. lingote_n1 := n_pseudo-part_le & [ STEM < "lingote" >, SYNSEM.LKEYS.KEYREL.PRED "_lingote_n_rel" ]. lingotera_n1 := n_intr_count_le & [ STEM < "lingotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lingotera_n_rel" ] ]. lingual_a1 := a_rel_nonprd_intr_le & [ STEM < "lingual" >, SYNSEM.LKEYS.KEYREL.PRED "_lingual_a_rel" ]. linguoclusal_a1 := a_rel_nonprd_intr_le & [ STEM < "linguoclusal" >, SYNSEM.LKEYS.KEYREL.PRED "_linguoclusal_a_rel" ]. linguoclusión_n1 := n_intr_uncount_le & [ STEM < "linguoclusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linguoclusión_n_rel" ] ]. linguodental_a1 := a_rel_nonprd_intr_le & [ STEM < "linguodental" >, SYNSEM.LKEYS.KEYREL.PRED "_linguodental_a_rel" ]. linguofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "linguofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_linguofacial_a_rel" ]. linguogingival_a1 := a_rel_nonprd_intr_le & [ STEM < "linguogingival" >, SYNSEM.LKEYS.KEYREL.PRED "_linguogingival_a_rel" ]. linguoversión_n1 := n_intr_uncount_le & [ STEM < "linguoversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linguoversión_n_rel" ] ]. lingã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "lingüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_lingüístico_a_rel" ]. lingüista_n1 := n_intr_count_le & [ STEM < "lingüista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lingüista_n_rel" ] ]. lingüísticamente_x1 := av_i_spr_le & [ STEM < "lingüísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lingüísticamente_x_rel" ]. linier_n1 := n_intr_count_le & [ STEM < "linier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_linier_n_rel" ] ]. linimento_n1 := n_intr_count_le & [ STEM < "linimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linimento_n_rel" ] ]. lino_n1 := n_intr_mass_le & [ STEM < "lino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lino_n_rel" ] ]. linoleato_n1 := n_intr_count_le & [ STEM < "linoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linoleato_n_rel" ] ]. linoleico_a1 := a_rel_nonprd_intr_le & [ STEM < "linoleico" >, SYNSEM.LKEYS.KEYREL.PRED "_linoleico_a_rel" ]. linoleína_n1 := n_intr_count_le & [ STEM < "linoleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linoleína_n_rel" ] ]. linolénico_a1 := a_rel_nonprd_intr_le & [ STEM < "linolénico" >, SYNSEM.LKEYS.KEYREL.PRED "_linolénico_a_rel" ]. linotipista_n1 := n_intr_count_le & [ STEM < "linotipista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_linotipista_n_rel" ] ]. linoxina_n1 := n_intr_count_le & [ STEM < "linoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linoxina_n_rel" ] ]. linterna_n1 := n_intr_count_le & [ STEM < "linterna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linterna_n_rel" ] ]. linternilla_n1 := n_intr_count_le & [ STEM < "linternilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_linternilla_n_rel" ] ]. linóleo_n1 := n_intr_mass_le & [ STEM < "linóleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_linóleo_n_rel" ] ]. linóleum_n1 := n_intr_count_le & [ STEM < "linóleum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_linóleum_n_rel" ] ]. liofilización_n1 := n_trans_le & [ STEM < "liofilización" >, SYNSEM.LKEYS.KEYREL.PRED "_liofilización_n_rel" ]. liofilizador_n1 := n_intr_count_le & [ STEM < "liofilizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liofilizador_n_rel" ] ]. liofilizar_v := v_trans_np_le & [ STEM < "liofilizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat_plant, PRED "_liofilizar_v_rel" ] ]. lionesa_n1 := n_intr_count_le & [ STEM < "lionesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lionesa_n_rel" ] ]. lionés_a1 := a_rel_prd_le & [ STEM < "lionés" >, SYNSEM.LKEYS.KEYREL.PRED "_lionés_a_rel" ]. lionés_n1 := n_intr_count_le & [ STEM < "lionés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lionés_n_rel" ] ]. liparoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "liparoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_liparoideo_a_rel" ]. lipasa_n1 := n_intr_mass-or-count_le & [ STEM < "lipasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lipasa_n_rel" ] ]. lipidoplasto_n1 := n_intr_count_le & [ STEM < "lipidoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lipidoplasto_n_rel" ] ]. lipocito_n1 := n_intr_count_le & [ STEM < "lipocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lipocito_n_rel" ] ]. lipocromo_n1 := n_intr_mass-or-count_le & [ STEM < "lipocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lipocromo_n_rel" ] ]. lipofílico_a1 := a_rel_nonprd_intr_le & [ STEM < "lipofílico" >, SYNSEM.LKEYS.KEYREL.PRED "_lipofílico_a_rel" ]. lipopolisacárido_n1 := n_intr_count_le & [ STEM < "lipopolisacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lipopolisacárido_n_rel" ] ]. lipoproteína_n1 := n_intr_count_le & [ STEM < "lipoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lipoproteína_n_rel" ] ]. liposoma_n1 := n_intr_count_le & [ STEM < "liposoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liposoma_n_rel" ] ]. lipotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "lipotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_lipotrópico_a_rel" ]. lipoxidasa_n1 := n_intr_count_le & [ STEM < "lipoxidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lipoxidasa_n_rel" ] ]. lipoxigenasa_n1 := n_intr_count_le & [ STEM < "lipoxigenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lipoxigenasa_n_rel" ] ]. lipídico_a1 := a_rel_nonprd_intr_le & [ STEM < "lipídico" >, SYNSEM.LKEYS.KEYREL.PRED "_lipídico_a_rel" ]. liquenina_n1 := n_intr_mass-or-count_le & [ STEM < "liquenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_liquenina_n_rel" ] ]. liquidable_a1 := a_rel_prd_le & [ STEM < "liquidable" >, SYNSEM.LKEYS.KEYREL.PRED "_liquidable_a_rel" ]. liquidación_n1 := n_intr_count_le & [ STEM < "liquidación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liquidación_n_rel" ] ]. liquidador_n1 := n_subj-nom_le & [ STEM < "liquidador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_liquidador_n_rel" ] ]. liquidar_v := v_trans_np_le & [ STEM < "liquidar" >, SYNSEM.LKEYS.KEYREL.PRED "_liquidar_v_rel" ]. liquidatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "liquidatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_liquidatorio_a_rel" ]. liquidez_n1 := n_ppcomp_uncount_le & [ STEM < "liquidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liquidez_n_rel" ] ]. lira_n1 := n_intr_count_le & [ STEM < "lira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lira_n_rel" ] ]. lirio_n1 := n_intr_count_le & [ STEM < "lirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_lirio_n_rel" ] ]. lirismo_n1 := n_intr_uncount_le & [ STEM < "lirismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lirismo_n_rel" ] ]. lirón_n1 := n_intr_count_le & [ STEM < "lirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lirón_n_rel" ] ]. lisa_n1 := n_intr_count_le & [ STEM < "lisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lisa_n_rel" ] ]. lisa_y_llanamente_x1 := av_s_spr_le & [ STEM < "lisa_y_llanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lisa_y_llanamente_x_rel" ]. lisboeta_a1 := a_rel_prd_le & [ STEM < "lisboeta" >, SYNSEM.LKEYS.KEYREL.PRED "_lisboeta_a_rel" ]. lisboeta_n1 := n_intr_count_le & [ STEM < "lisboeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lisboeta_n_rel" ] ]. lisbonense_a1 := a_rel_prd_le & [ STEM < "lisbonense" >, SYNSEM.LKEYS.KEYREL.PRED "_lisbonense_a_rel" ]. lisbonense_n1 := n_intr_count_le & [ STEM < "lisbonense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lisbonense_n_rel" ] ]. lisiado_n1 := n_intr_count_le & [ STEM < "lisiado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lisiado_n_rel" ] ]. lisiar_v := v_trans_np_le & [ STEM < "lisiar" >, SYNSEM.LKEYS.KEYREL.PRED "_lisiar_v_rel" ]. lisina_n1 := n_intr_count_le & [ STEM < "lisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lisina_n_rel" ] ]. liso_a1 := a_qual_intr_scopal_le & [ STEM < "liso" >, SYNSEM.LKEYS.KEYREL.PRED "_liso_a_rel" ]. lisogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "lisogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_lisogénico_a_rel" ]. lisol_n1 := n_intr_mass-or-count_le & [ STEM < "lisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lisol_n_rel" ] ]. lisonjear_v1 := v_intr_io*_le & [ STEM < "lisonjear" >, SYNSEM.LKEYS.KEYREL.PRED "_lisonjear_v_rel" ]. lisonjear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "lisonjear" >, SYNSEM.LKEYS.KEYREL.PRED "_lisonjear_v_rel" ]. lisosoma_n1 := n_intr_count_le & [ STEM < "lisosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lisosoma_n_rel" ] ]. lisosómico_a1 := a_rel_nonprd_intr_le & [ STEM < "lisosómico" >, SYNSEM.LKEYS.KEYREL.PRED "_lisosómico_a_rel" ]. lisozima_n1 := n_intr_count_le & [ STEM < "lisozima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lisozima_n_rel" ] ]. lista_n1 := n_trans_le & [ STEM < "lista" >, SYNSEM.LKEYS.KEYREL.PRED "_lista_n_rel" ]. listado_n1 := n_intr_count_le & [ STEM < "listado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_listado_n_rel" ] ]. listar_v := v_trans_np_le & [ STEM < "listar" >, SYNSEM.LKEYS.KEYREL.PRED "_listar_v_rel" ]. listel_n1 := n_intr_count_le & [ STEM < "listel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_listel_n_rel" ] ]. listo_a1 := a_qual_intr_ser_le & [ STEM < "listo" >, SYNSEM.LKEYS.KEYREL.PRED "_listo_a_rel" ]. listo_a2 := a_qual_trans*_estar_le & [ STEM < "listo" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_listo_a_rel" ] ]. listo_a3 := a_sctrl_estar_le & [ STEM < "listo" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_listo_a_rel" ] ]. listín_n1 := n_intr_count_le & [ STEM < "listín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_listín_n_rel" ] ]. listón_n1 := n_intr_count_le & [ STEM < "listón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_listón_n_rel" ] ]. lisura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "lisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lisura_n_rel" ] ]. litargirio_n1 := n_intr_count_le & [ STEM < "litargirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_litargirio_n_rel" ] ]. litera_n1 := n_intr_count_le & [ STEM < "litera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_litera_n_rel" ] ]. literal_a1 := a_qual_intr_ser_postn_le & [ STEM < "literal" >, SYNSEM.LKEYS.KEYREL.PRED "_literal_a_rel" ]. literalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "literalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_literalidad_n_rel" ] ]. literalmente_x1 := av_s_spr_le & [ STEM < "literalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_literalmente_x_rel" ]. literariamente_x1 := av_i_spr_le & [ STEM < "literariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_literariamente_x_rel" ]. literario_a1 := a_rel_nonprd_intr_le & [ STEM < "literario" >, SYNSEM.LKEYS.KEYREL.PRED "_literario_a_rel" ]. literato_n1 := n_intr_count_le & [ STEM < "literato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_literato_n_rel" ] ]. literatura_n1 := n_intr_count_le & [ STEM < "literatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_literatura_n_rel" ] ]. liticonsorcial_a1 := a_rel_nonprd_intr_le & [ STEM < "liticonsorcial" >, SYNSEM.LKEYS.KEYREL.PRED "_liticonsorcial_a_rel" ]. liticonsorcialmente_x1 := av_i_spr_le & [ STEM < "liticonsorcialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_liticonsorcialmente_x_rel" ]. litigación_n1 := n_trans_le & [ STEM < "litigación" >, SYNSEM.LKEYS.KEYREL.PRED "_litigación_n_rel" ]. litigador_n1 := n_subj-nom_le & [ STEM < "litigador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_litigador_n_rel" ] ]. litigante_a1 := a_rel_nonprd_intr_le & [ STEM < "litigante" >, SYNSEM.LKEYS.KEYREL.PRED "_litigante_a_rel" ]. litigante_n1 := n_intr_count_le & [ STEM < "litigante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_litigante_n_rel" ] ]. litigar_v := v_intr_le & [ STEM < "litigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_litigar_v_rel" ] ]. litigioso_a1 := a_rel_nonprd_intr_le & [ STEM < "litigioso" >, SYNSEM.LKEYS.KEYREL.PRED "_litigioso_a_rel" ]. litio_n1 := n_intr_mass_le & [ STEM < "litio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_litio_n_rel" ] ]. litisconsorcial_a1 := a_rel_nonprd_intr_le & [ STEM < "litisconsorcial" >, SYNSEM.LKEYS.KEYREL.PRED "_litisconsorcial_a_rel" ]. litisconsorcio_n1 := n_intr_count_le & [ STEM < "litisconsorcio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_litisconsorcio_n_rel" ] ]. litiscontestación_n1 := n_intr_uncount_le & [ STEM < "litiscontestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litiscontestación_n_rel" ] ]. litispendencia_n1 := n_intr_uncount_le & [ STEM < "litispendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litispendencia_n_rel" ] ]. litocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "litocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_litocólico_a_rel" ]. litofotografiar_v := v_trans_np_le & [ STEM < "litofotografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_litofotografiar_v_rel" ]. litograbador_n1 := n_intr_count_le & [ STEM < "litograbador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_litograbador_n_rel" ] ]. litografiar_v := v_trans_np_le & [ STEM < "litografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_litografiar_v_rel" ]. litografía_n1 := n_intr_mass_le & [ STEM < "litografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_litografía_n_rel" ] ]. litográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "litográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_litográfico_a_rel" ]. litología_n1 := n_intr_uncount_le & [ STEM < "litología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litología_n_rel" ] ]. litológico_a1 := a_rel_nonprd_intr_le & [ STEM < "litológico" >, SYNSEM.LKEYS.KEYREL.PRED "_litológico_a_rel" ]. litopón_n1 := n_intr_count_le & [ STEM < "litopón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_litopón_n_rel" ] ]. litoral_a1 := a_rel_nonprd_intr_le & [ STEM < "litoral" >, SYNSEM.LKEYS.KEYREL.PRED "_litoral_a_rel" ]. litoral_n1 := n_intr_count_le & [ STEM < "litoral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_litoral_n_rel" ] ]. litosecuencia_n1 := n_intr_uncount_pl_le & [ STEM < "litosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litosecuencia_n_rel" ] ]. litosfera_n1 := n_intr_uncount_pl_le & [ STEM < "litosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litosfera_n_rel" ] ]. litosférico_a1 := a_rel_nonprd_intr_le & [ STEM < "litosférico" >, SYNSEM.LKEYS.KEYREL.PRED "_litosférico_a_rel" ]. litosol_n1 := n_intr_count_le & [ STEM < "litosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_litosol_n_rel" ] ]. litosuelo_n1 := n_intr_count_le & [ STEM < "litosuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_litosuelo_n_rel" ] ]. litro_n1 := n_pseudo-part_le & [ STEM < "litro" >, SYNSEM.LKEYS.KEYREL.PRED "_litro_n_rel" ]. lituano_a1 := a_rel_prd_le & [ STEM < "lituano" >, SYNSEM.LKEYS.KEYREL.PRED "_lituano_a_rel" ]. lituano_n1 := n_intr_count_le & [ STEM < "lituano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lituano_n_rel" ] ]. liturgista_n1 := n_intr_count_le & [ STEM < "liturgista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_liturgista_n_rel" ] ]. litógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "litógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_litógeno_a_rel" ]. litúrgico_a1 := a_rel_nonprd_intr_le & [ STEM < "litúrgico" >, SYNSEM.LKEYS.KEYREL.PRED "_litúrgico_a_rel" ]. livianamente_x1 := av_i_spr_le & [ STEM < "livianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_livianamente_x_rel" ]. liviano_a1 := a_qual_intr_scopal_le & [ STEM < "liviano" >, SYNSEM.LKEYS.KEYREL.PRED "_liviano_a_rel" ]. lixiviación_n1 := n_trans_le & [ STEM < "lixiviación" >, SYNSEM.LKEYS.KEYREL.PRED "_lixiviación_n_rel" ]. lixiviar_v := v_trans_np_le & [ STEM < "lixiviar" >, SYNSEM.LKEYS.KEYREL.PRED "_lixiviar_v_rel" ]. liza_n1 := n_intr_count_le & [ STEM < "liza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_liza_n_rel" ] ]. llaga_n1 := n_intr_count_le & [ STEM < "llaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llaga_n_rel" ] ]. llagar_v := v_trans_np_caus_le & [ STEM < "llagar" >, SYNSEM.LKEYS.KEYREL.PRED "_llagar_v_rel" ]. llaguero_n1 := n_intr_count_le & [ STEM < "llaguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llaguero_n_rel" ] ]. llama_n1 := n_intr_count_le & [ STEM < "llama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_llama_n_rel" ] ]. llamable_a1 := a_rel_prd_le & [ STEM < "llamable" >, SYNSEM.LKEYS.KEYREL.PRED "_llamable_a_rel" ]. llamada_n1 := n_trans_le & [ STEM < "llamada" >, SYNSEM.LKEYS.KEYREL.PRED "_llamada_n_rel" ]. llamamiento_n1 := n_trans_le & [ STEM < "llamamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_llamamiento_n_rel" ]. llamarada_n1 := n_intr_count_le & [ STEM < "llamarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_llamarada_n_rel" ] ]. llamativamente_x1 := av_i_spr_le & [ STEM < "llamativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_llamativamente_x_rel" ]. llamativo_a1 := a_qual_intr_scopal_le & [ STEM < "llamativo" >, SYNSEM.LKEYS.KEYREL.PRED "_llamativo_a_rel" ]. llana_n1 := n_intr_count_le & [ STEM < "llana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llana_n_rel" ] ]. llanamente_x1 := av_i_spr_le & [ STEM < "llanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_llanamente_x_rel" ]. llanero_n1 := n_intr_count_le & [ STEM < "llanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_llanero_n_rel" ] ]. llano_a1 := a_qual_intr_scopal_le & [ STEM < "llano" >, SYNSEM.LKEYS.KEYREL.PRED "_llano_a_rel" ]. llano_n1 := n_intr_count_le & [ STEM < "llano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_llano_n_rel" ] ]. llanta_n1 := n_intr_count_le & [ STEM < "llanta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llanta_n_rel" ] ]. llantén_n1 := n_intr_count_le & [ STEM < "llantén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_llantén_n_rel" ] ]. llanura_n1 := n_intr_count_le & [ STEM < "llanura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_llanura_n_rel" ] ]. llave_n1 := n_intr_count_le & [ STEM < "llave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llave_n_rel" ] ]. llavero_n1 := n_intr_count_le & [ STEM < "llavero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llavero_n_rel" ] ]. llavín_n1 := n_intr_count_le & [ STEM < "llavín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_llavín_n_rel" ] ]. llegada_n2 := n_event-result_intr_le & [ STEM < "llegada" >, SYNSEM.LKEYS.KEYREL.PRED "_llegada_n_rel" ]. llegar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "llegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_llegar_v_rel" ] ] ]. llegar_v2 := v_pron_intr_le & [ STEM < "llegar" >, SYNSEM.LKEYS.KEYREL.PRED "_llegar_v_rel" ]. llegar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "llegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_llegar_v_rel" ] ] ]. llegar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "llegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_llegar_v_rel" ] ] ]. llegar_v5 := v_unacc_lcomp_dir*_perf_le & [ STEM < "llegar" >, SYNSEM.LKEYS.KEYREL.PRED "_llegar_v_rel" ]. llegar_v6 := v_intr_mrkd_vp_ssr_le & [ STEM < "llegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_llegar_v_rel" ] ]. llenado_n1 := n_trans_le & [ STEM < "llenado" >, SYNSEM.LKEYS.KEYREL.PRED "_llenado_n_rel" ]. llenadora_n1 := n_intr_count_le & [ STEM < "llenadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_llenadora_n_rel" ] ]. llenar_v1 := v_intr_io*_le & [ STEM < "llenar" >, SYNSEM.LKEYS.KEYREL.PRED "_llenar_v_rel" ]. llenar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "llenar" >, SYNSEM.LKEYS.KEYREL.PRED "_llenar_v_rel" ]. llenar_v3 := v_trans_np_caus_le & [ STEM < "llenar" >, SYNSEM.LKEYS.KEYREL.PRED "_llenar_v_rel" ]. lleno_a1 := a_qual_trans*_estar_le & [ STEM < "lleno" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_lleno_a_rel" ] ]. llevadero_a1 := a_qual_intr_scopal_le & [ STEM < "llevadero" >, SYNSEM.LKEYS.KEYREL.PRED "_llevadero_a_rel" ]. llevar_a_cabo_v1 := v_trans_np_le & [ STEM < "llevar_a_cabo" >, SYNSEM.LKEYS.KEYREL.PRED "_llevar_a_cabo_v_rel" ]. llevar_v1 := v_ditrans*_le & [ STEM < "llevar" >, SYNSEM.LKEYS.KEYREL.PRED "_llevar_v_rel" ]. llevar_v2 := v_pron_intr_mrkd_np_sym_le & [ STEM < "llevar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_llevar_v_rel" ] ]. llevar_v4 := v_trans_np*_lcomp_dir_le & [ STEM < "llevar" >, SYNSEM.LKEYS.KEYREL.PRED "_llevar_v_rel" ]. llevar_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "llevar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_llevar_v_rel" ] ] ]. llorar_v1 := v_trans_np*_le & [ STEM < "llorar" >, SYNSEM.LKEYS.KEYREL.PRED "_llorar_v_rel" ]. lloriqueo_n1 := n_result_intr_le & [ STEM < "lloriqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_lloriqueo_n_rel" ]. lloroso_a1 := a_qual_intr_estar_le & [ STEM < "lloroso" >, SYNSEM.LKEYS.KEYREL.PRED "_lloroso_a_rel" ]. llorón_a1 := a_qual_intr_ser_le & [ STEM < "llorón" >, SYNSEM.LKEYS.KEYREL.PRED "_llorón_a_rel" ]. llorón_n1 := n_intr_count_le & [ STEM < "llorón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_llorón_n_rel" ] ]. llover_v := v_impers_strict_intr_le & [ STEM < "llover" >, SYNSEM.LKEYS.KEYREL.PRED "_llover_v_rel" ]. lloviznar_v := v_impers_strict_intr_le & [ STEM < "lloviznar" >, SYNSEM.LKEYS.KEYREL.PRED "_lloviznar_v_rel" ]. lluvia_n1 := n_intr_mass_le & [ STEM < "lluvia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_lluvia_n_rel" ] ]. lluvioso_a1 := a_qual_intr_estar_le & [ STEM < "lluvioso" >, SYNSEM.LKEYS.KEYREL.PRED "_lluvioso_a_rel" ]. lo_de_menos_x1 := av_i_le & [ STEM < "lo_de_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_lo_de_menos_x_rel" ]. lo_malo_es_que_sc := sc_prop_fin_le & [ STEM < "lo_malo_es_que" >, SYNSEM.LKEYS.KEYREL.PRED "_lo_malo_es_que_x_subord_rel" ]. lo_p := af_acc_le & [ STEM < "lo" > ]. lo_uno_por_lo_otro_x1 := av_i_le & [ STEM < "lo_uno_por_lo_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_lo_uno_por_lo_otro_x_rel" ]. loable_a1 := a_qual_intr_scopal_le & [ STEM < "loable" >, SYNSEM.LKEYS.KEYREL.PRED "_loable_a_rel" ]. lobelina_n1 := n_intr_count_le & [ STEM < "lobelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lobelina_n_rel" ] ]. lobezno_n1 := n_intr_count_le & [ STEM < "lobezno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lobezno_n_rel" ] ]. lobo_n1 := n_intr_count_le & [ STEM < "lobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lobo_n_rel" ] ]. lobulado_a1 := a_qual_intr_ser_le & [ STEM < "lobulado" >, SYNSEM.LKEYS.KEYREL.PRED "_lobulado_a_rel" ]. lobular_a1 := a_rel_nonprd_intr_le & [ STEM < "lobular" >, SYNSEM.LKEYS.KEYREL.PRED "_lobular_a_rel" ]. locación_n1 := n_intr_mass-or-count_le & [ STEM < "locación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locación_n_rel" ] ]. local_a1 := a_rel_nonprd_intr_le & [ STEM < "local" >, SYNSEM.LKEYS.KEYREL.PRED "_local_a_rel" ]. local_n1 := n_intr_count_le & [ STEM < "local" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_local_n_rel" ] ]. localidad_n1 := n_intr_count_le & [ STEM < "localidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_localidad_n_rel" ] ]. localismo_n1 := n_ppcomp_mass-or-count_le & [ STEM < "localismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_localismo_n_rel" ] ]. localista_n1 := n_intr_count_le & [ STEM < "localista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_localista_n_rel" ] ]. localizable_a1 := a_qual_intr_scopal_le & [ STEM < "localizable" >, SYNSEM.LKEYS.KEYREL.PRED "_localizable_a_rel" ]. localización_n1 := n_trans_le & [ STEM < "localización" >, SYNSEM.LKEYS.KEYREL.PRED "_localización_n_rel" ]. localizador_a1 := a_rel_nonprd_intr_le & [ STEM < "localizador" >, SYNSEM.LKEYS.KEYREL.PRED "_localizador_a_rel" ]. localizador_n1 := n_intr_count_le & [ STEM < "localizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_localizador_n_rel" ] ]. localizar_v := v_trans_np_le & [ STEM < "localizar" >, SYNSEM.LKEYS.KEYREL.PRED "_localizar_v_rel" ]. localmente_x1 := av_i_spr_le & [ STEM < "localmente" >, SYNSEM.LKEYS.KEYREL.PRED "_localmente_x_rel" ]. locamente_x1 := av_i_spr_le & [ STEM < "locamente" >, SYNSEM.LKEYS.KEYREL.PRED "_locamente_x_rel" ]. locativo_a1 := a_rel_nonprd_intr_le & [ STEM < "locativo" >, SYNSEM.LKEYS.KEYREL.PRED "_locativo_a_rel" ]. loción_n1 := n_intr_mass_le & [ STEM < "loción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_loción_n_rel" ] ]. loco_a1 := a_qual_trans_estar_le & [ STEM < "loco" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_loco_a_rel" ] ]. loco_a2 := a_qual_cp_prop_fin_estar_le & [ STEM < "loco" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_loco_a_rel" ] ]. loco_a3 := a_qual_cp_ques_estar_le & [ STEM < "loco" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_loco_a_rel" ] ]. loco_a4 := a_sctrl_estar_le & [ STEM < "loco" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_loco_a_rel" ] ]. loco_citato_x1 := av_i_le & [ STEM < "loco_citato" >, SYNSEM.LKEYS.KEYREL.PRED "_loco_citato_x_rel" ]. loco_n1 := n_intr_count_le & [ STEM < "loco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_loco_n_rel" ] ]. locomoción_n1 := n_intr_uncount_le & [ STEM < "locomoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locomoción_n_rel" ] ]. locomotivo_a1 := a_rel_nonprd_intr_le & [ STEM < "locomotivo" >, SYNSEM.LKEYS.KEYREL.PRED "_locomotivo_a_rel" ]. locomotor_a1 := a_rel_nonprd_intr_le & [ STEM < "locomotor" >, SYNSEM.LKEYS.KEYREL.PRED "_locomotor_a_rel" ]. locomotora_n1 := n_intr_count_le & [ STEM < "locomotora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_locomotora_n_rel" ] ]. locomóvil_a1 := a_rel_nonprd_intr_le & [ STEM < "locomóvil" >, SYNSEM.LKEYS.KEYREL.PRED "_locomóvil_a_rel" ]. locomóvilmente_x1 := av_i_spr_le & [ STEM < "locomóvilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_locomóvilmente_x_rel" ]. locotractor_n1 := n_intr_count_le & [ STEM < "locotractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_locotractor_n_rel" ] ]. locuacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "locuacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locuacidad_n_rel" ] ]. locuaz_a1 := a_qual_intr_ser_le & [ STEM < "locuaz" >, SYNSEM.LKEYS.KEYREL.PRED "_locuaz_a_rel" ]. locución_n1 := n_intr_count_le & [ STEM < "locución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locución_n_rel" ] ]. locura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "locura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locura_n_rel" ] ]. locutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "locutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_locutivo_a_rel" ]. locutor_n1 := n_subj-nom_le & [ STEM < "locutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_locutor_n_rel" ] ]. locutorio_n1 := n_intr_count_le & [ STEM < "locutorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_locutorio_n_rel" ] ]. lodazal_n1 := n_intr_count_le & [ STEM < "lodazal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lodazal_n_rel" ] ]. lodo_n1 := n_intr_mass_le & [ STEM < "lodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lodo_n_rel" ] ]. lodoso_a1 := a_qual_intr_scopal_le & [ STEM < "lodoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lodoso_a_rel" ]. loe_n1 := n_intr_count_le & [ STEM < "loe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_loe_n_rel" ] ]. loess_n1 := n_intr_count_le & [ STEM < "loess" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_loess_n_rel" ] ]. logarítmicamente_x1 := av_i_spr_le & [ STEM < "logarítmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_logarítmicamente_x_rel" ]. logarítmico_a1 := a_rel_nonprd_intr_le & [ STEM < "logarítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_logarítmico_a_rel" ]. logical_n1 := n_intr_count_le & [ STEM < "logical" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_logical_n_rel" ] ]. logicismo_n1 := n_intr_uncount_le & [ STEM < "logicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logicismo_n_rel" ] ]. logicista_a1 := a_rel_nonprd_intr_le & [ STEM < "logicista" >, SYNSEM.LKEYS.KEYREL.PRED "_logicista_a_rel" ]. logicosistemático_a1 := a_rel_nonprd_intr_le & [ STEM < "logicosistemático" >, SYNSEM.LKEYS.KEYREL.PRED "_logicosistemático_a_rel" ]. lograr_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "lograr" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lograr_v_rel" ] ]. lograr_v2 := v_trans_np_le & [ STEM < "lograr" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_lograr_v_rel" ] ]. logrero_n1 := n_intr_count_le & [ STEM < "logrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_logrero_n_rel" ] ]. logroñés_n1 := n_intr_count_le & [ STEM < "logroñés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_logroñés_n_rel" ] ]. logísticamente_x1 := av_i_spr_le & [ STEM < "logísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_logísticamente_x_rel" ]. logístico_a1 := a_rel_nonprd_intr_le & [ STEM < "logístico" >, SYNSEM.LKEYS.KEYREL.PRED "_logístico_a_rel" ]. loma_n1 := n_intr_count_le & [ STEM < "loma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_loma_n_rel" ] ]. lombardo_a1 := a_rel_prd_le & [ STEM < "lombardo" >, SYNSEM.LKEYS.KEYREL.PRED "_lombardo_a_rel" ]. lombardo_n1 := n_intr_count_le & [ STEM < "lombardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lombardo_n_rel" ] ]. lombriz_n1 := n_intr_count_le & [ STEM < "lombriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lombriz_n_rel" ] ]. lomo_n1 := n_intr_count_le & [ STEM < "lomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lomo_n_rel" ] ]. lomo_n2 := n_ppcomp_count_le & [ STEM < "lomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_lomo_n_rel" ] ]. lona_n1 := n_intr_count_le & [ STEM < "lona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lona_n_rel" ] ]. loncha_n1 := n_pseudo-part_le & [ STEM < "loncha" >, SYNSEM.LKEYS.KEYREL.PRED "_loncha_n_rel" ]. londinense_a1 := a_rel_prd_le & [ STEM < "londinense" >, SYNSEM.LKEYS.KEYREL.PRED "_londinense_a_rel" ]. londinense_n1 := n_intr_count_le & [ STEM < "londinense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_londinense_n_rel" ] ]. longaniza_n1 := n_intr_count_le & [ STEM < "longaniza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_longaniza_n_rel" ] ]. longevidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "longevidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_longevidad_n_rel" ] ]. longevo_a1 := a_qual_intr_ser_le & [ STEM < "longevo" >, SYNSEM.LKEYS.KEYREL.PRED "_longevo_a_rel" ]. longitud_n1 := n_intr_mass_le & [ STEM < "longitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_longitud_n_rel" ] ]. longitudinal_a1 := a_rel_nonprd_intr_le & [ STEM < "longitudinal" >, SYNSEM.LKEYS.KEYREL.PRED "_longitudinal_a_rel" ]. longitudinalmente_x1 := av_i_spr_le & [ STEM < "longitudinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_longitudinalmente_x_rel" ]. lonja_n1 := n_intr_count_le & [ STEM < "lonja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_lonja_n_rel" ] ]. lonograma_n1 := n_intr_count_le & [ STEM < "lonograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lonograma_n_rel" ] ]. loquear_v := v_intr_le & [ STEM < "loquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_loquear_v_rel" ] ]. lorcha_n1 := n_intr_count_le & [ STEM < "lorcha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lorcha_n_rel" ] ]. loro_n1 := n_intr_count_le & [ STEM < "loro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_loro_n_rel" ] ]. lorquiano_a1 := a_rel_nonprd_intr_le & [ STEM < "lorquiano" >, SYNSEM.LKEYS.KEYREL.PRED "_lorquiano_a_rel" ]. losa_n1 := n_intr_count_le & [ STEM < "losa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_losa_n_rel" ] ]. losanjado_a1 := a_qual_intr_scopal_le & [ STEM < "losanjado" >, SYNSEM.LKEYS.KEYREL.PRED "_losanjado_a_rel" ]. loseta_n1 := n_intr_count_le & [ STEM < "loseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_loseta_n_rel" ] ]. lota_n1 := n_intr_count_le & [ STEM < "lota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lota_n_rel" ] ]. lote_n1 := n_intr_count_le & [ STEM < "lote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lote_n_rel" ] ]. lotería_n1 := n_intr_count_le & [ STEM < "lotería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lotería_n_rel" ] ]. lotificación_n1 := n_trans_le & [ STEM < "lotificación" >, SYNSEM.LKEYS.KEYREL.PRED "_lotificación_n_rel" ]. loto_n1 := n_intr_count_le & [ STEM < "loto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_loto_n_rel" ] ]. lotus_n1 := n_intr_count_le & [ STEM < "lotus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_lotus_n_rel" ] ]. loxodrómicamente_x1 := av_i_spr_le & [ STEM < "loxodrómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_loxodrómicamente_x_rel" ]. loxodrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "loxodrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_loxodrómico_a_rel" ]. loza_n1 := n_intr_mass-or-count_le & [ STEM < "loza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_loza_n_rel" ] ]. lubina_n1 := n_intr_count_le & [ STEM < "lubina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lubina_n_rel" ] ]. lubricación_n1 := n_trans_le & [ STEM < "lubricación" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricación_n_rel" ]. lubricador_a1 := a_rel_nonprd_intr_le & [ STEM < "lubricador" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricador_a_rel" ]. lubricante_a1 := a_qual_intr_scopal_le & [ STEM < "lubricante" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricante_a_rel" ]. lubricante_n1 := n_intr_mass-or-count_le & [ STEM < "lubricante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lubricante_n_rel" ] ]. lubricar_v := v_trans_np*_le & [ STEM < "lubricar" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricar_v_rel" ]. lubricativamente_x1 := av_i_spr_le & [ STEM < "lubricativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricativamente_x_rel" ]. lubricativo_a1 := a_rel_nonprd_intr_le & [ STEM < "lubricativo" >, SYNSEM.LKEYS.KEYREL.PRED "_lubricativo_a_rel" ]. lubricidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "lubricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lubricidad_n_rel" ] ]. lubrificable_a1 := a_rel_prd_le & [ STEM < "lubrificable" >, SYNSEM.LKEYS.KEYREL.PRED "_lubrificable_a_rel" ]. lubrificación_n1 := n_trans_le & [ STEM < "lubrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_lubrificación_n_rel" ]. lubrificante_n1 := n_intr_mass-or-count_le & [ STEM < "lubrificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lubrificante_n_rel" ] ]. lubrificar_v := v_trans_np*_le & [ STEM < "lubrificar" >, SYNSEM.LKEYS.KEYREL.PRED "_lubrificar_v_rel" ]. lucense_n1 := n_intr_count_le & [ STEM < "lucense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lucense_n_rel" ] ]. lucernario_n1 := n_intr_count_le & [ STEM < "lucernario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_lucernario_n_rel" ] ]. lucero_n1 := n_intr_count_le & [ STEM < "lucero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lucero_n_rel" ] ]. lucha_n1 := n_result_intr_ppcomp_le & [ STEM < "lucha" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_lucha_n_rel" ] ]. luchador_a1 := a_qual_intr_ser_le & [ STEM < "luchador" >, SYNSEM.LKEYS.KEYREL.PRED "_luchador_a_rel" ]. luchador_n1 := n_subj-nom_le & [ STEM < "luchador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_luchador_n_rel" ] ]. luchar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "luchar" >, SYNSEM.LKEYS [ --COMPKEY para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_luchar_v_rel" ] ] ]. luchar_v2 := v_intr_mrkd_np*_le & [ STEM < "luchar" >, SYNSEM.LKEYS [ --COMPKEY para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_luchar_v_rel" ] ] ]. luchar_v3 := v_intr_mrkd_np_sym_le & [ STEM < "luchar" >, SYNSEM.LKEYS [ --COMPKEY con_or_contra_p_sel_rel, KEYREL.PRED "_luchar_v_rel" ] ]. lucidez_n1 := n_ppcomp_uncount_le & [ STEM < "lucidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lucidez_n_rel" ] ]. lucidoscopio_n1 := n_intr_count_le & [ STEM < "lucidoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lucidoscopio_n_rel" ] ]. luciente_a1 := a_qual_intr_scopal_le & [ STEM < "luciente" >, SYNSEM.LKEYS.KEYREL.PRED "_luciente_a_rel" ]. luciferino_a1 := a_rel_nonprd_intr_le & [ STEM < "luciferino" >, SYNSEM.LKEYS.KEYREL.PRED "_luciferino_a_rel" ]. lucimiento_n1 := n_trans_le & [ STEM < "lucimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_lucimiento_n_rel" ]. lucio_n1 := n_intr_count_le & [ STEM < "lucio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lucio_n_rel" ] ]. luciérnaga_n1 := n_intr_count_le & [ STEM < "luciérnaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_luciérnaga_n_rel" ] ]. lución_n1 := n_intr_count_le & [ STEM < "lución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lución_n_rel" ] ]. lucrar_v := v_pron_intr_le & [ STEM < "lucrar" >, SYNSEM.LKEYS.KEYREL.PRED "_lucrar_v_rel" ]. lucrativamente_x1 := av_i_spr_le & [ STEM < "lucrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lucrativamente_x_rel" ]. lucrativo_a1 := a_qual_intr_ser_postn_le & [ STEM < "lucrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_lucrativo_a_rel" ]. luctuosamente_x1 := av_i_spr_le & [ STEM < "luctuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_luctuosamente_x_rel" ]. luctuoso_a1 := a_qual_intr_scopal_le & [ STEM < "luctuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_luctuoso_a_rel" ]. lucubrar_v := v_pron_intr_mrkd_np*_le & [ STEM < "lucubrar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_lucubrar_v_rel" ] ]. ludopatía_n1 := n_intr_uncount_pl_le & [ STEM < "ludopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ludopatía_n_rel" ] ]. ludoteca_n1 := n_intr_count_le & [ STEM < "ludoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ludoteca_n_rel" ] ]. luego_de_p_vmod := p_vmod_le & [ STEM < "luego_de" >, SYNSEM.LKEYS.KEYREL.PRED _luego_de_p_rel ]. luego_que_sc := sc_prop_fin_le & [ STEM < "luego_que" >, SYNSEM.LKEYS.KEYREL.PRED "_luego_que_x_subord_rel" ]. luego_sc := sc_prop_fin_le & [ STEM < "luego" >, SYNSEM.LKEYS.KEYREL.PRED "_luego_x_subord_rel" ]. luego_x1 := av_i_spr_le & [ STEM < "luego" >, SYNSEM.LKEYS.KEYREL.PRED "_luego_x_rel" ]. luengo_a1 := a_qual_intr_scopal_le & [ STEM < "luengo" >, SYNSEM.LKEYS.KEYREL.PRED "_luengo_a_rel" ]. lugar_n1 := n_intr_count_le & [ STEM < "lugar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_lugar_n_rel" ] ]. lugareño_n1 := n_intr_count_le & [ STEM < "lugareño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lugareño_n_rel" ] ]. lugarteniente_n1 := n_intr_count_le & [ STEM < "lugarteniente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lugarteniente_n_rel" ] ]. lugre_n1 := n_intr_count_le & [ STEM < "lugre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lugre_n_rel" ] ]. lujosamente_x1 := av_i_spr_le & [ STEM < "lujosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lujosamente_x_rel" ]. lujoso_a1 := a_qual_intr_scopal_le & [ STEM < "lujoso" >, SYNSEM.LKEYS.KEYREL.PRED "_lujoso_a_rel" ]. lujuriosamente_x1 := av_i_spr_le & [ STEM < "lujuriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lujuriosamente_x_rel" ]. lujurioso_a1 := a_qual_intr_ser_le & [ STEM < "lujurioso" >, SYNSEM.LKEYS.KEYREL.PRED "_lujurioso_a_rel" ]. lulú_n1 := n_intr_count_le & [ STEM < "lulú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lulú_n_rel" ] ]. lumbar_a1 := a_rel_nonprd_intr_le & [ STEM < "lumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_lumbar_a_rel" ]. lumbocostal_a1 := a_rel_nonprd_intr_le & [ STEM < "lumbocostal" >, SYNSEM.LKEYS.KEYREL.PRED "_lumbocostal_a_rel" ]. lumbodorsal_a1 := a_rel_nonprd_intr_le & [ STEM < "lumbodorsal" >, SYNSEM.LKEYS.KEYREL.PRED "_lumbodorsal_a_rel" ]. lumbosacro_a1 := a_rel_nonprd_intr_le & [ STEM < "lumbosacro" >, SYNSEM.LKEYS.KEYREL.PRED "_lumbosacro_a_rel" ]. lumbrera_n1 := n_intr_count_le & [ STEM < "lumbrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lumbrera_n_rel" ] ]. lumen_n := n_intr_count_le & [ STEM < "lumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_lumen_n_rel" ] ]. luminal_a1 := a_rel_nonprd_intr_le & [ STEM < "luminal" >, SYNSEM.LKEYS.KEYREL.PRED "_luminal_a_rel" ]. luminancia_n1 := n_intr_uncount_le & [ STEM < "luminancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luminancia_n_rel" ] ]. luminiscencia_n1 := n_intr_uncount_le & [ STEM < "luminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luminiscencia_n_rel" ] ]. luminiscente_a1 := a_rel_nonprd_intr_le & [ STEM < "luminiscente" >, SYNSEM.LKEYS.KEYREL.PRED "_luminiscente_a_rel" ]. luminiscentemente_x1 := av_i_spr_le & [ STEM < "luminiscentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_luminiscentemente_x_rel" ]. luminosamente_x1 := av_i_spr_le & [ STEM < "luminosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_luminosamente_x_rel" ]. luminosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "luminosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luminosidad_n_rel" ] ]. luminoso_a1 := a_qual_intr_scopal_le & [ STEM < "luminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_luminoso_a_rel" ]. luminotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "luminotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_luminotécnico_a_rel" ]. luminíferamente_x1 := av_i_spr_le & [ STEM < "luminíferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_luminíferamente_x_rel" ]. luminífero_a1 := a_rel_nonprd_intr_le & [ STEM < "luminífero" >, SYNSEM.LKEYS.KEYREL.PRED "_luminífero_a_rel" ]. luminóforo_n1 := n_intr_mass_le & [ STEM < "luminóforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_luminóforo_n_rel" ] ]. lumpen_n1 := n_intr_count_le & [ STEM < "lumpen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_lumpen_n_rel" ] ]. lumínico_a1 := a_rel_nonprd_intr_le & [ STEM < "lumínico" >, SYNSEM.LKEYS.KEYREL.PRED "_lumínico_a_rel" ]. luna_n1 := n_intr_count_le & [ STEM < "luna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_luna_n_rel" ] ]. lunar_a1 := a_rel_nonprd_intr_le & [ STEM < "lunar" >, SYNSEM.LKEYS.KEYREL.PRED "_lunar_a_rel" ]. lunar_n1 := n_intr_count_le & [ STEM < "lunar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lunar_n_rel" ] ]. luneta_n1 := n_intr_count_le & [ STEM < "luneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_luneta_n_rel" ] ]. luneto_n1 := n_intr_count_le & [ STEM < "luneto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_luneto_n_rel" ] ]. lunático_a1 := a_qual_intr_ser_le & [ STEM < "lunático" >, SYNSEM.LKEYS.KEYREL.PRED "_lunático_a_rel" ]. lupa_n1 := n_intr_count_le & [ STEM < "lupa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lupa_n_rel" ] ]. lupanina_n1 := n_intr_count_le & [ STEM < "lupanina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lupanina_n_rel" ] ]. lupia_n1 := n_intr_count_le & [ STEM < "lupia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lupia_n_rel" ] ]. lupia_n2 := n_ppcomp_count_le & [ STEM < "lupia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_lupia_n_rel" ] ]. lupino_n1 := n_intr_count_le & [ STEM < "lupino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lupino_n_rel" ] ]. lupulina_n1 := n_intr_count_le & [ STEM < "lupulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lupulina_n_rel" ] ]. lusitano_a1 := a_rel_prd_le & [ STEM < "lusitano" >, SYNSEM.LKEYS.KEYREL.PRED "_lusitano_a_rel" ]. lusitano_n1 := n_intr_count_le & [ STEM < "lusitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lusitano_n_rel" ] ]. luso_a1 := a_rel_prd_le & [ STEM < "luso" >, SYNSEM.LKEYS.KEYREL.PRED "_luso_a_rel" ]. luso_n1 := n_intr_count_le & [ STEM < "luso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_luso_n_rel" ] ]. lustrado_n1 := n_trans_le & [ STEM < "lustrado" >, SYNSEM.LKEYS.KEYREL.PRED "_lustrado_n_rel" ]. lustro_n1 := n_pseudo-part_temp_le & [ STEM < "lustro" >, SYNSEM.LKEYS.KEYREL.PRED "_lustro_n_rel" ]. lustro_n2 := n_intr_temp_le & [ STEM < "lustro" > ]. lustrosamente_x1 := av_i_spr_le & [ STEM < "lustrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lustrosamente_x_rel" ]. lustroso_a1 := a_qual_intr_scopal_le & [ STEM < "lustroso" >, SYNSEM.LKEYS.KEYREL.PRED "_lustroso_a_rel" ]. lutecio_n1 := n_intr_mass_le & [ STEM < "lutecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lutecio_n_rel" ] ]. luterano_a1 := a_rel_nonprd_intr_le & [ STEM < "luterano" >, SYNSEM.LKEYS.KEYREL.PRED "_luterano_a_rel" ]. luterano_n1 := n_intr_count_le & [ STEM < "luterano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_luterano_n_rel" ] ]. luteína_n1 := n_intr_mass-or-count_le & [ STEM < "luteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_luteína_n_rel" ] ]. luthier_n1 := n_intr_count_le & [ STEM < "luthier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_luthier_n_rel" ] ]. lutidina_n1 := n_intr_count_le & [ STEM < "lutidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_lutidina_n_rel" ] ]. luvisol_n1 := n_intr_count_le & [ STEM < "luvisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_luvisol_n_rel" ] ]. lux_n := n_intr_count_le & [ STEM < "lux" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_lux_n_rel" ] ]. luxación_n1 := n_trans_le & [ STEM < "luxación" >, SYNSEM.LKEYS.KEYREL.PRED "_luxación_n_rel" ]. luxemburgués_a1 := a_rel_prd_le & [ STEM < "luxemburgués" >, SYNSEM.LKEYS.KEYREL.PRED "_luxemburgués_a_rel" ]. luxemburgués_n1 := n_intr_count_le & [ STEM < "luxemburgués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_luxemburgués_n_rel" ] ]. luxómetro_n1 := n_intr_count_le & [ STEM < "luxómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_luxómetro_n_rel" ] ]. luz_n1 := n_intr_count_le & [ STEM < "luz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_luz_n_rel" ] ]. lábil_a1 := a_qual_intr_scopal_le & [ STEM < "lábil" >, SYNSEM.LKEYS.KEYREL.PRED "_lábil_a_rel" ]. lábilmente_x1 := av_i_spr_le & [ STEM < "lábilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_lábilmente_x_rel" ]. lácteo_a1 := a_rel_nonprd_intr_le & [ STEM < "lácteo" >, SYNSEM.LKEYS.KEYREL.PRED "_lácteo_a_rel" ]. láctico_a1 := a_rel_nonprd_intr_le & [ STEM < "láctico" >, SYNSEM.LKEYS.KEYREL.PRED "_láctico_a_rel" ]. lágrima_n1 := n_intr_count_le & [ STEM < "lágrima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lágrima_n_rel" ] ]. lámina_n1 := n_intr_count_le & [ STEM < "lámina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lámina_n_rel" ] ]. lámpara_n1 := n_intr_count_le & [ STEM < "lámpara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lámpara_n_rel" ] ]. lánguidamente_x1 := av_i_spr_le & [ STEM < "lánguidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lánguidamente_x_rel" ]. lánguido_a1 := a_qual_intr_scopal_le & [ STEM < "lánguido" >, SYNSEM.LKEYS.KEYREL.PRED "_lánguido_a_rel" ]. lápida_n1 := n_intr_count_le & [ STEM < "lápida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lápida_n_rel" ] ]. lápiz_n1 := n_intr_count_le & [ STEM < "lápiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_lápiz_n_rel" ] ]. látex_n1 := n_intr_mass_le & [ STEM < "látex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_látex_n_rel" ] ]. látigo_n1 := n_intr_count_le & [ STEM < "látigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_látigo_n_rel" ] ]. láudano_n1 := n_intr_count_le & [ STEM < "láudano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_láudano_n_rel" ] ]. láurico_a1 := a_rel_nonprd_intr_le & [ STEM < "láurico" >, SYNSEM.LKEYS.KEYREL.PRED "_láurico_a_rel" ]. lémur_n1 := n_intr_count_le & [ STEM < "lémur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_lémur_n_rel" ] ]. léptico_a1 := a_rel_nonprd_intr_le & [ STEM < "léptico" >, SYNSEM.LKEYS.KEYREL.PRED "_léptico_a_rel" ]. lésbico_a1 := a_rel_nonprd_intr_le & [ STEM < "lésbico" >, SYNSEM.LKEYS.KEYREL.PRED "_lésbico_a_rel" ]. léxicamente_x1 := av_i_spr_le & [ STEM < "léxicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_léxicamente_x_rel" ]. léxico_a1 := a_rel_nonprd_intr_le & [ STEM < "léxico" >, SYNSEM.LKEYS.KEYREL.PRED "_léxico_a_rel" ]. líber_n1 := n_intr_count_le & [ STEM < "líber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_líber_n_rel" ] ]. líbero_n1 := n_intr_count_le & [ STEM < "líbero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_líbero_n_rel" ] ]. líbido_n1 := n_intr_uncount_pl_le & [ STEM < "líbido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_líbido_n_rel" ] ]. lícitamente_x1 := av_i_spr_le & [ STEM < "lícitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lícitamente_x_rel" ]. lícito_a1 := a_rel_prd_le & [ STEM < "lícito" >, SYNSEM.LKEYS.KEYREL.PRED "_lícito_a_rel" ]. líder_n1 := n_intr_count_le & [ STEM < "líder" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_líder_n_rel" ] ]. lígula_n1 := n_intr_count_le & [ STEM < "lígula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_lígula_n_rel" ] ]. límnico_a1 := a_rel_nonprd_intr_le & [ STEM < "límnico" >, SYNSEM.LKEYS.KEYREL.PRED "_límnico_a_rel" ]. límpido_a1 := a_qual_intr_scopal_le & [ STEM < "límpido" >, SYNSEM.LKEYS.KEYREL.PRED "_límpido_a_rel" ]. línea_n1 := n_intr_count_le & [ STEM < "línea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_línea_n_rel" ] ]. línter_n1 := n_intr_count_le & [ STEM < "línter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_línter_n_rel" ] ]. lío_n1 := n_trans_le & [ STEM < "lío" >, SYNSEM.LKEYS.KEYREL.PRED "_lío_n_rel" ]. lípido_n1 := n_intr_mass-or-count_le & [ STEM < "lípido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_lípido_n_rel" ] ]. líquido_a1 := a_qual_intr_scopal_le & [ STEM < "líquido" >, SYNSEM.LKEYS.KEYREL.PRED "_líquido_a_rel" ]. líquido_n1 := n_intr_mass_le & [ STEM < "líquido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_líquido_n_rel" ] ]. líricamente_x1 := av_i_spr_le & [ STEM < "líricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_líricamente_x_rel" ]. lírico_a1 := a_rel_nonprd_intr_le & [ STEM < "lírico" >, SYNSEM.LKEYS.KEYREL.PRED "_lírico_a_rel" ]. lítico_a1 := a_rel_nonprd_intr_le & [ STEM < "lítico" >, SYNSEM.LKEYS.KEYREL.PRED "_lítico_a_rel" ]. lívidamente_x1 := av_i_spr_le & [ STEM < "lívidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lívidamente_x_rel" ]. lívido_a1 := a_qual_intr_estar_le & [ STEM < "lívido" >, SYNSEM.LKEYS.KEYREL.PRED "_lívido_a_rel" ]. lóbregamente_x1 := av_i_spr_le & [ STEM < "lóbregamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lóbregamente_x_rel" ]. lóbrego_a1 := a_qual_intr_scopal_le & [ STEM < "lóbrego" >, SYNSEM.LKEYS.KEYREL.PRED "_lóbrego_a_rel" ]. lóbulo_n1 := n_ppcomp_count_le & [ STEM < "lóbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_lóbulo_n_rel" ] ]. lógicamente_x1 := av_i_spr_le & [ STEM < "lógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lógicamente_x_rel" ]. lógico-jurídicamente_x1 := av_i_spr_le & [ STEM < "lógico-jurídicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lógico-jurídicamente_x_rel" ]. lógico-jurídico_a1 := a_rel_nonprd_intr_le & [ STEM < "lógico-jurídico" >, SYNSEM.LKEYS.KEYREL.PRED "_lógico-jurídico_a_rel" ]. lógico_a1 := a_qual_intr_scopal_le & [ STEM < "lógico" >, SYNSEM.LKEYS.KEYREL.PRED "_lógico_a_rel" ]. lógico_n1 := n_intr_count_le & [ STEM < "lógico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_lógico_n_rel" ] ]. lúbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "lúbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_lúbrico_a_rel" ]. lúcidamente_x1 := av_i_spr_le & [ STEM < "lúcidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lúcidamente_x_rel" ]. lúcido_a1 := a_qual_intr_estar_le & [ STEM < "lúcido" >, SYNSEM.LKEYS.KEYREL.PRED "_lúcido_a_rel" ]. lúdico_a1 := a_rel_nonprd_intr_le & [ STEM < "lúdico" >, SYNSEM.LKEYS.KEYREL.PRED "_lúdico_a_rel" ]. lúgubre_a1 := a_qual_intr_scopal_le & [ STEM < "lúgubre" >, SYNSEM.LKEYS.KEYREL.PRED "_lúgubre_a_rel" ]. lúgubremente_x1 := av_i_spr_le & [ STEM < "lúgubremente" >, SYNSEM.LKEYS.KEYREL.PRED "_lúgubremente_x_rel" ]. lúpulo_n1 := n_intr_mass_le & [ STEM < "lúpulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_lúpulo_n_rel" ] ]. lúteamente_x1 := av_i_spr_le & [ STEM < "lúteamente" >, SYNSEM.LKEYS.KEYREL.PRED "_lúteamente_x_rel" ]. lúteo_a1 := a_rel_nonprd_intr_le & [ STEM < "lúteo" >, SYNSEM.LKEYS.KEYREL.PRED "_lúteo_a_rel" ]. macabro_a1 := a_qual_intr_scopal_le & [ STEM < "macabro" >, SYNSEM.LKEYS.KEYREL.PRED "_macabro_a_rel" ]. macaco_n1 := n_intr_count_le & [ STEM < "macaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_macaco_n_rel" ] ]. macadamizar_v := v_trans_np_le & [ STEM < "macadamizar" >, SYNSEM.LKEYS.KEYREL.PRED "_macadamizar_v_rel" ]. macadán_n1 := n_intr_count_le & [ STEM < "macadán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macadán_n_rel" ] ]. macarraque_n1 := n_intr_count_le & [ STEM < "macarraque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_macarraque_n_rel" ] ]. macarrón_n1 := n_intr_count_le & [ STEM < "macarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macarrón_n_rel" ] ]. macarrónicamente_x1 := av_i_spr_le & [ STEM < "macarrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macarrónicamente_x_rel" ]. macarrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "macarrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_macarrónico_a_rel" ]. macaón_n1 := n_intr_count_le & [ STEM < "macaón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_macaón_n_rel" ] ]. macedonia_n1 := n_intr_mass_le & [ STEM < "macedonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macedonia_n_rel" ] ]. macedonio_a1 := a_rel_prd_le & [ STEM < "macedonio" >, SYNSEM.LKEYS.KEYREL.PRED "_macedonio_a_rel" ]. macedonio_n1 := n_intr_count_le & [ STEM < "macedonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_macedonio_n_rel" ] ]. maceración_n1 := n_trans_le & [ STEM < "maceración" >, SYNSEM.LKEYS.KEYREL.PRED "_maceración_n_rel" ]. macerador_n1 := n_intr_count_le & [ STEM < "macerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macerador_n_rel" ] ]. macerar_v1 := v_trans_np_caus_int_le & [ STEM < "macerar" >, SYNSEM.LKEYS.KEYREL.PRED "_macerar_v_rel" ]. macero_n1 := n_intr_count_le & [ STEM < "macero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_macero_n_rel" ] ]. maceta_n1 := n_intr_count_le & [ STEM < "maceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maceta_n_rel" ] ]. macetero_n1 := n_intr_count_le & [ STEM < "macetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macetero_n_rel" ] ]. machaca_n1 := n_intr_count_le & [ STEM < "machaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_machaca_n_rel" ] ]. machacador_n1 := n_intr_count_le & [ STEM < "machacador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_machacador_n_rel" ] ]. machacar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "machacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_machacar_v_rel" ] ]. machacar_v2 := v_ditrans*_le & [ STEM < "machacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_machacar_v_rel" ] ]. machacar_v3 := v_trans_np_le & [ STEM < "machacar" >, SYNSEM.LKEYS.KEYREL.PRED "_machacar_v_rel" ]. machacón_a1 := a_qual_intr_scopal_le & [ STEM < "machacón" >, SYNSEM.LKEYS.KEYREL.PRED "_machacón_a_rel" ]. machaqueo_n1 := n_trans_le & [ STEM < "machaqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_machaqueo_n_rel" ]. machetazo_n1 := n_intr_count_le & [ STEM < "machetazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_machetazo_n_rel" ] ]. machete_n1 := n_intr_count_le & [ STEM < "machete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_machete_n_rel" ] ]. machismo_n1 := n_intr_uncount_le & [ STEM < "machismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_machismo_n_rel" ] ]. machista_a1 := a_qual_intr_ser_le & [ STEM < "machista" >, SYNSEM.LKEYS.KEYREL.PRED "_machista_a_rel" ]. machista_n1 := n_intr_count_le & [ STEM < "machista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_machista_n_rel" ] ]. macho_a1 := a_rel_nonprd_intr_le & [ STEM < "macho" >, SYNSEM.LKEYS.KEYREL.PRED "_macho_a_rel" ]. macho_n1 := n_intr_count_le & [ STEM < "macho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc_hum, PRED "_macho_n_rel" ] ]. machón_n1 := n_intr_count_le & [ STEM < "machón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_machón_n_rel" ] ]. macilento_a1 := a_qual_intr_ser_le & [ STEM < "macilento" >, SYNSEM.LKEYS.KEYREL.PRED "_macilento_a_rel" ]. macizo_a1 := a_qual_intr_scopal_le & [ STEM < "macizo" >, SYNSEM.LKEYS.KEYREL.PRED "_macizo_a_rel" ]. macizo_n1 := n_intr_count_le & [ STEM < "macizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macizo_n_rel" ] ]. macla_n1 := n_intr_count_le & [ STEM < "macla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macla_n_rel" ] ]. macramé_n1 := n_intr_count_le & [ STEM < "macramé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_macramé_n_rel" ] ]. macroanalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "macroanalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_macroanalítico_a_rel" ]. macroangiopático_a1 := a_rel_nonprd_intr_le & [ STEM < "macroangiopático" >, SYNSEM.LKEYS.KEYREL.PRED "_macroangiopático_a_rel" ]. macrobiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "macrobiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_macrobiótico_a_rel" ]. macrocefalia_n1 := n_ppcomp_count_le & [ STEM < "macrocefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_macrocefalia_n_rel" ] ]. macrocito_n1 := n_intr_count_le & [ STEM < "macrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macrocito_n_rel" ] ]. macrocomportamiento_n1 := n_intr_count_le & [ STEM < "macrocomportamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocomportamiento_n_rel" ] ]. macroconexión_n1 := n_intr_count_le & [ STEM < "macroconexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroconexión_n_rel" ] ]. macrocristalinamente_x1 := av_i_spr_le & [ STEM < "macrocristalinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macrocristalinamente_x_rel" ]. macrocristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "macrocristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_macrocristalino_a_rel" ]. macrocíclicamente_x1 := av_i_spr_le & [ STEM < "macrocíclicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macrocíclicamente_x_rel" ]. macrocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "macrocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_macrocíclico_a_rel" ]. macrocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "macrocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_macrocítico_a_rel" ]. macrodoncia_n1 := n_intr_uncount_le & [ STEM < "macrodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrodoncia_n_rel" ] ]. macrodontismo_n1 := n_intr_uncount_le & [ STEM < "macrodontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrodontismo_n_rel" ] ]. macrodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "macrodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_macrodonto_a_rel" ]. macroeconomía_n1 := n_intr_count_le & [ STEM < "macroeconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroeconomía_n_rel" ] ]. macroeconómicamente_x1 := av_i_spr_le & [ STEM < "macroeconómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macroeconómicamente_x_rel" ]. macroeconómico_a1 := a_rel_nonprd_intr_le & [ STEM < "macroeconómico" >, SYNSEM.LKEYS.KEYREL.PRED "_macroeconómico_a_rel" ]. macroensamblador_a1 := a_rel_nonprd_intr_le & [ STEM < "macroensamblador" >, SYNSEM.LKEYS.KEYREL.PRED "_macroensamblador_a_rel" ]. macroensamblador_n1 := n_intr_count_le & [ STEM < "macroensamblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macroensamblador_n_rel" ] ]. macroestructura_n1 := n_intr_count_le & [ STEM < "macroestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroestructura_n_rel" ] ]. macrofotografía_n1 := n_intr_mass_le & [ STEM < "macrofotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macrofotografía_n_rel" ] ]. macrogenerador_n1 := n_intr_count_le & [ STEM < "macrogenerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_macrogenerador_n_rel" ] ]. macroglósico_a1 := a_rel_nonprd_intr_le & [ STEM < "macroglósico" >, SYNSEM.LKEYS.KEYREL.PRED "_macroglósico_a_rel" ]. macrognacia_n1 := n_intr_uncount_le & [ STEM < "macrognacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrognacia_n_rel" ] ]. macrognático_a1 := a_rel_nonprd_intr_le & [ STEM < "macrognático" >, SYNSEM.LKEYS.KEYREL.PRED "_macrognático_a_rel" ]. macrografía_n1 := n_intr_count_le & [ STEM < "macrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macrografía_n_rel" ] ]. macrográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "macrográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_macrográfico_a_rel" ]. macroinstrucción_n1 := n_intr_count_le & [ STEM < "macroinstrucción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroinstrucción_n_rel" ] ]. macromagnitud_n1 := n_intr_count_le & [ STEM < "macromagnitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macromagnitud_n_rel" ] ]. macrometeorología_n1 := n_intr_uncount_le & [ STEM < "macrometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrometeorología_n_rel" ] ]. macromolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "macromolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_macromolecular_a_rel" ]. macromolécula_n1 := n_intr_count_le & [ STEM < "macromolécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macromolécula_n_rel" ] ]. macromundo_n1 := n_intr_count_le & [ STEM < "macromundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macromundo_n_rel" ] ]. macronuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "macronuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_macronuclear_a_rel" ]. macronúcleo_n1 := n_intr_mass_le & [ STEM < "macronúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macronúcleo_n_rel" ] ]. macroprocesador_n1 := n_intr_count_le & [ STEM < "macroprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_macroprocesador_n_rel" ] ]. macroprogramación_n1 := n_intr_uncount_le & [ STEM < "macroprogramación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroprogramación_n_rel" ] ]. macroprosopia_n1 := n_intr_count_le & [ STEM < "macroprosopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macroprosopia_n_rel" ] ]. macroscopía_n1 := n_intr_count_le & [ STEM < "macroscopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroscopía_n_rel" ] ]. macroscópicamente_x1 := av_i_spr_le & [ STEM < "macroscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macroscópicamente_x_rel" ]. macroscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "macroscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_macroscópico_a_rel" ]. macrosociología_n1 := n_intr_uncount_le & [ STEM < "macrosociología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrosociología_n_rel" ] ]. macrospora_n1 := n_intr_count_le & [ STEM < "macrospora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macrospora_n_rel" ] ]. macrosísmicamente_x1 := av_i_spr_le & [ STEM < "macrosísmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_macrosísmicamente_x_rel" ]. macrosísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "macrosísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_macrosísmico_a_rel" ]. macrófago_n1 := n_intr_count_le & [ STEM < "macrófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_macrófago_n_rel" ] ]. maculadura_n1 := n_intr_count_le & [ STEM < "maculadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maculadura_n_rel" ] ]. macular_a1 := a_rel_nonprd_intr_le & [ STEM < "macular" >, SYNSEM.LKEYS.KEYREL.PRED "_macular_a_rel" ]. maculatura_n1 := n_intr_count_le & [ STEM < "maculatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maculatura_n_rel" ] ]. madagascarí_a1 := a_rel_prd_le & [ STEM < "madagascarí" >, SYNSEM.LKEYS.KEYREL.PRED "_madagascarí_a_rel" ]. madagascarí_n1 := n_intr_count_le & [ STEM < "madagascarí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madagascarí_n_rel" ] ]. madeirense_a1 := a_rel_prd_le & [ STEM < "madeirense" >, SYNSEM.LKEYS.KEYREL.PRED "_madeirense_a_rel" ]. madeja_n1 := n_intr_count_le & [ STEM < "madeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_madeja_n_rel" ] ]. madera_n1 := n_intr_count_le & [ STEM < "madera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_madera_n_rel" ] ]. maderable_a1 := a_rel_nonprd_intr_le & [ STEM < "maderable" >, SYNSEM.LKEYS.KEYREL.PRED "_maderable_a_rel" ]. maderamen_n1 := n_intr_coll_le & [ STEM < "maderamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maderamen_n_rel" ] ]. maderar_v := v_trans_np_le & [ STEM < "maderar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_maderar_v_rel" ] ]. maderense_a1 := a_rel_nonprd_intr_le & [ STEM < "maderense" >, SYNSEM.LKEYS.KEYREL.PRED "_maderense_a_rel" ]. maderense_n1 := n_intr_count_le & [ STEM < "maderense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maderense_n_rel" ] ]. maderero_n1 := n_intr_count_le & [ STEM < "maderero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maderero_n_rel" ] ]. madero_n1 := n_intr_count_le & [ STEM < "madero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_madero_n_rel" ] ]. madrastra_n1 := n_ppcomp_count_le & [ STEM < "madrastra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madrastra_n_rel" ] ]. madre_n1 := n_ppcomp_count_le & [ STEM < "madre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madre_n_rel" ] ]. madreperla_n1 := n_intr_count_le & [ STEM < "madreperla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_madreperla_n_rel" ] ]. madreselva_n1 := n_intr_count_le & [ STEM < "madreselva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_madreselva_n_rel" ] ]. madridismo_n1 := n_intr_uncount_le & [ STEM < "madridismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_madridismo_n_rel" ] ]. madridista_a1 := a_qual_intr_ser_le & [ STEM < "madridista" >, SYNSEM.LKEYS.KEYREL.PRED "_madridista_a_rel" ]. madridista_n1 := n_intr_count_le & [ STEM < "madridista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madridista_n_rel" ] ]. madrigal_n1 := n_intr_count_le & [ STEM < "madrigal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_madrigal_n_rel" ] ]. madriguera_n1 := n_intr_count_le & [ STEM < "madriguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_madriguera_n_rel" ] ]. madrileño_a1 := a_rel_prd_le & [ STEM < "madrileño" >, SYNSEM.LKEYS.KEYREL.PRED "_madrileño_a_rel" ]. madrileño_n1 := n_intr_count_le & [ STEM < "madrileño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madrileño_n_rel" ] ]. madrina_n1 := n_ppcomp_count_le & [ STEM < "madrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madrina_n_rel" ] ]. madroño_n1 := n_intr_count_le & [ STEM < "madroño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_madroño_n_rel" ] ]. madrugada_n1 := n_intr_count_le & [ STEM < "madrugada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_madrugada_n_rel" ] ]. madrugador_n1 := n_intr_count_le & [ STEM < "madrugador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_madrugador_n_rel" ] ]. madrugar_v := v_intr_le & [ STEM < "madrugar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_madrugar_v_rel" ] ]. madrépora_n1 := n_intr_count_le & [ STEM < "madrépora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_madrépora_n_rel" ] ]. maduración_n1 := n_trans_le & [ STEM < "maduración" >, SYNSEM.LKEYS.KEYREL.PRED "_maduración_n_rel" ]. madurar_v := v_trans_np*_le & [ STEM < "madurar" >, SYNSEM.LKEYS.KEYREL.PRED "_madurar_v_rel" ]. madurez_n1 := n_ppcomp_uncount_le & [ STEM < "madurez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_madurez_n_rel" ] ]. maduro_a1 := a_qual_intr_scopal_le & [ STEM < "maduro" >, SYNSEM.LKEYS.KEYREL.PRED "_maduro_a_rel" ]. maelstrom_n1 := n_intr_count_le & [ STEM < "maelstrom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_maelstrom_n_rel" ] ]. maestral_n1 := n_intr_count_le & [ STEM < "maestral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maestral_n_rel" ] ]. maestre_n1 := n_intr_count_le & [ STEM < "maestre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maestre_n_rel" ] ]. maestro_a1 := a_rel_nonprd_intr_le & [ STEM < "maestro" >, SYNSEM.LKEYS.KEYREL.PRED "_maestro_a_rel" ]. maestro_n1 := n_intr_count_le & [ STEM < "maestro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maestro_n_rel" ] ]. maestría_n1 := n_intr_count_le & [ STEM < "maestría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maestría_n_rel" ] ]. mafia_n1 := n_intr_coll_le & [ STEM < "mafia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_mafia_n_rel" ] ]. magdalena_n1 := n_intr_count_le & [ STEM < "magdalena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magdalena_n_rel" ] ]. magenta_a1 := a_qual_intr_ser_le & [ STEM < "magenta" >, SYNSEM.LKEYS.KEYREL.PRED "_magenta_a_rel" ]. magiar_a1 := a_rel_prd_le & [ STEM < "magiar" >, SYNSEM.LKEYS.KEYREL.PRED "_magiar_a_rel" ]. magiar_n1 := n_intr_count_le & [ STEM < "magiar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_magiar_n_rel" ] ]. magistrado_n1 := n_intr_count_le & [ STEM < "magistrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_magistrado_n_rel" ] ]. magistral_a1 := a_qual_intr_scopal_le & [ STEM < "magistral" >, SYNSEM.LKEYS.KEYREL.PRED "_magistral_a_rel" ]. magistralmente_x1 := av_i_spr_le & [ STEM < "magistralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_magistralmente_x_rel" ]. magistratura_n1 := n_intr_count_le & [ STEM < "magistratura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magistratura_n_rel" ] ]. magma_n1 := n_intr_count_le & [ STEM < "magma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magma_n_rel" ] ]. magmatismo_n1 := n_intr_uncount_le & [ STEM < "magmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magmatismo_n_rel" ] ]. magmático_a1 := a_adv_event_le & [ STEM < "magmático" >, SYNSEM.LKEYS.KEYREL.PRED "_magmático_a_rel" ]. magnalio_n1 := n_intr_mass-or-count_le & [ STEM < "magnalio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_magnalio_n_rel" ] ]. magnanimidad_n1 := n_intr_mass-or-count_le & [ STEM < "magnanimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnanimidad_n_rel" ] ]. magnate_n1 := n_intr_count_le & [ STEM < "magnate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_magnate_n_rel" ] ]. magnesia_n1 := n_intr_count_le & [ STEM < "magnesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_magnesia_n_rel" ] ]. magnesio_n1 := n_intr_mass_le & [ STEM < "magnesio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_magnesio_n_rel" ] ]. magnesita_n1 := n_intr_count_le & [ STEM < "magnesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_magnesita_n_rel" ] ]. magnetismo_n1 := n_intr_uncount_le & [ STEM < "magnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetismo_n_rel" ] ]. magnetita_n1 := n_intr_count_le & [ STEM < "magnetita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_magnetita_n_rel" ] ]. magnetizabilidad_n1 := n_intr_uncount_le & [ STEM < "magnetizabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetizabilidad_n_rel" ] ]. magnetizable_a1 := a_rel_prd_le & [ STEM < "magnetizable" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizable_a_rel" ]. magnetización_n1 := n_trans_le & [ STEM < "magnetización" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetización_n_rel" ]. magnetizador_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetizador" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizador_a_rel" ]. magnetizante_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetizante" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizante_a_rel" ]. magnetizar_v1 := v_intr_io*_le & [ STEM < "magnetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizar_v_rel" ]. magnetizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "magnetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizar_v_rel" ]. magnetizar_v3 := v_trans_np_caus_int_le & [ STEM < "magnetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetizar_v_rel" ]. magneto_n1 := n_intr_count_le & [ STEM < "magneto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magneto_n_rel" ] ]. magnetodinámicamente_x1 := av_i_spr_le & [ STEM < "magnetodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetodinámicamente_x_rel" ]. magnetodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetodinámico_a_rel" ]. magnetoeléctricamente_x1 := av_i_spr_le & [ STEM < "magnetoeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoeléctricamente_x_rel" ]. magnetoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoeléctrico_a_rel" ]. magnetoestrictivamente_x1 := av_i_spr_le & [ STEM < "magnetoestrictivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoestrictivamente_x_rel" ]. magnetoestrictivo_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetoestrictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoestrictivo_a_rel" ]. magnetofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetofónico_a_rel" ]. magnetográficamente_x1 := av_i_spr_le & [ STEM < "magnetográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetográficamente_x_rel" ]. magnetográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetográfico_a_rel" ]. magnetohidrodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetohidrodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetohidrodinámico_a_rel" ]. magnetoinductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetoinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoinductivo_a_rel" ]. magnetomotor_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetomotor" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetomotor_a_rel" ]. magnetorresistencia_n1 := n_intr_uncount_le & [ STEM < "magnetorresistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetorresistencia_n_rel" ] ]. magnetoscopio_n1 := n_intr_count_le & [ STEM < "magnetoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magnetoscopio_n_rel" ] ]. magnetosfera_n1 := n_intr_count_le & [ STEM < "magnetosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magnetosfera_n_rel" ] ]. magnetostrictivamente_x1 := av_i_spr_le & [ STEM < "magnetostrictivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetostrictivamente_x_rel" ]. magnetostrictivo_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetostrictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetostrictivo_a_rel" ]. magnetoópticamente_x1 := av_i_spr_le & [ STEM < "magnetoópticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoópticamente_x_rel" ]. magnetoóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "magnetoóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnetoóptico_a_rel" ]. magnetrón_n1 := n_intr_count_le & [ STEM < "magnetrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magnetrón_n_rel" ] ]. magnetófono_n1 := n_intr_count_le & [ STEM < "magnetófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magnetófono_n_rel" ] ]. magnetómetro_n1 := n_intr_count_le & [ STEM < "magnetómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_magnetómetro_n_rel" ] ]. magnificar_v := v_trans_np_le & [ STEM < "magnificar" >, SYNSEM.LKEYS.KEYREL.PRED "_magnificar_v_rel" ]. magnificencia_n1 := n_intr_uncount_le & [ STEM < "magnificencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnificencia_n_rel" ] ]. magnificiencia_n1 := n_intr_uncount_le & [ STEM < "magnificiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnificiencia_n_rel" ] ]. magnitud_n1 := n_intr_mass-or-count_le & [ STEM < "magnitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_magnitud_n_rel" ] ]. magno_a1 := a_adv_event_le & [ STEM < "magno" >, SYNSEM.LKEYS.KEYREL.PRED "_magno_a_rel" ]. magnolia_n1 := n_intr_count_le & [ STEM < "magnolia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_magnolia_n_rel" ] ]. magnánimamente_x1 := av_i_spr_le & [ STEM < "magnánimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnánimamente_x_rel" ]. magnánimo_a1 := a_qual_intr_ser_le & [ STEM < "magnánimo" >, SYNSEM.LKEYS.KEYREL.PRED "_magnánimo_a_rel" ]. magnéticamente_x1 := av_i_spr_le & [ STEM < "magnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magnéticamente_x_rel" ]. magnético_a1 := a_rel_nonprd_intr_le & [ STEM < "magnético" >, SYNSEM.LKEYS.KEYREL.PRED "_magnético_a_rel" ]. magníficamente_x1 := av_i_spr_le & [ STEM < "magníficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_magníficamente_x_rel" ]. magnífico_a1 := a_qual_intr_scopal_le & [ STEM < "magnífico" >, SYNSEM.LKEYS.KEYREL.PRED "_magnífico_a_rel" ]. mago_n1 := n_intr_count_le & [ STEM < "mago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mago_n_rel" ] ]. magrebí_a1 := a_rel_prd_le & [ STEM < "magrebí" >, SYNSEM.LKEYS.KEYREL.PRED "_magrebí_a_rel" ]. magrebí_n1 := n_intr_count_le & [ STEM < "magrebí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_magrebí_n_rel" ] ]. magrez_n1 := n_ppcomp_uncount_le & [ STEM < "magrez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magrez_n_rel" ] ]. magro_a1 := a_qual_intr_scopal_le & [ STEM < "magro" >, SYNSEM.LKEYS.KEYREL.PRED "_magro_a_rel" ]. maguer_que_sc := sc_prop_fin_le & [ STEM < "maguer_que" >, SYNSEM.LKEYS.KEYREL.PRED "_maguer_que_x_subord_rel" ]. magulladura_n1 := n_trans_le & [ STEM < "magulladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magulladura_n_rel" ] ]. magullar_v := v_trans_np_le & [ STEM < "magullar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc_hum_plant, PRED "_magullar_v_rel" ] ]. maharajá_n1 := n_intr_count_le & [ STEM < "maharajá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maharajá_n_rel" ] ]. mahometano_a1 := a_rel_prd_le & [ STEM < "mahometano" >, SYNSEM.LKEYS.KEYREL.PRED "_mahometano_a_rel" ]. mahometano_n1 := n_intr_count_le & [ STEM < "mahometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mahometano_n_rel" ] ]. mahometismo_n1 := n_intr_uncount_le & [ STEM < "mahometismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mahometismo_n_rel" ] ]. mahonesa_n1 := n_intr_mass-or-count_le & [ STEM < "mahonesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_mahonesa_n_rel" ] ]. mahonés_n1 := n_intr_count_le & [ STEM < "mahonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mahonés_n_rel" ] ]. maillot_n1 := n_intr_count_le & [ STEM < "maillot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maillot_n_rel" ] ]. maizal_n1 := n_intr_count_le & [ STEM < "maizal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maizal_n_rel" ] ]. majadero_n1 := n_intr_count_le & [ STEM < "majadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_majadero_n_rel" ] ]. majadería_n1 := n_intr_count_le & [ STEM < "majadería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_majadería_n_rel" ] ]. majarro_n1 := n_intr_count_le & [ STEM < "majarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_majarro_n_rel" ] ]. majestad_n1 := n_intr_uncount_le & [ STEM < "majestad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_majestad_n_rel" ] ]. majestad_n2 := n_intr_count_le & [ STEM < "majestad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_majestad_n_rel" ] ]. majestuosamente_x1 := av_i_spr_le & [ STEM < "majestuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_majestuosamente_x_rel" ]. majestuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "majestuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_majestuosidad_n_rel" ] ]. majestuoso_a1 := a_qual_intr_scopal_le & [ STEM < "majestuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_majestuoso_a_rel" ]. majo_a1 := a_qual_intr_scopal_le & [ STEM < "majo" >, SYNSEM.LKEYS.KEYREL.PRED "_majo_a_rel" ]. majorette_n1 := n_intr_count_le & [ STEM < "majorette" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_majorette_n_rel" ] ]. mal_a_mal_x1 := av_i_le & [ STEM < "mal_a_mal" >, SYNSEM.LKEYS.KEYREL.PRED "_mal_a_mal_x_rel" ]. mal_n1 := n_intr_mass-or-count_le & [ STEM < "mal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mal_n_rel" ] ]. mal_x1 := av_i_spr_le & [ STEM < "mal" >, SYNSEM.LKEYS.KEYREL.PRED "_mal_x_rel" ]. malabarismo_n1 := n_intr_uncount_pl_le & [ STEM < "malabarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malabarismo_n_rel" ] ]. malabarista_n1 := n_intr_count_le & [ STEM < "malabarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malabarista_n_rel" ] ]. malacología_n1 := n_intr_uncount_le & [ STEM < "malacología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malacología_n_rel" ] ]. malaconsejado_a1 := a_qual_intr_estar_le & [ STEM < "malaconsejado" >, SYNSEM.LKEYS.KEYREL.PRED "_malaconsejado_a_rel" ]. malagradecido_a1 := a_qual_intr_ser_le & [ STEM < "malagradecido" >, SYNSEM.LKEYS.KEYREL.PRED "_malagradecido_a_rel" ]. malagueño_a1 := a_rel_prd_le & [ STEM < "malagueño" >, SYNSEM.LKEYS.KEYREL.PRED "_malagueño_a_rel" ]. malagueño_n1 := n_intr_count_le & [ STEM < "malagueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malagueño_n_rel" ] ]. malaquita_n1 := n_intr_count_le & [ STEM < "malaquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_malaquita_n_rel" ] ]. malar_a1 := a_rel_nonprd_intr_le & [ STEM < "malar" >, SYNSEM.LKEYS.KEYREL.PRED "_malar_a_rel" ]. malar_n1 := n_intr_count_le & [ STEM < "malar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_malar_n_rel" ] ]. malaria_n1 := n_intr_uncount_le & [ STEM < "malaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malaria_n_rel" ] ]. malasio_a1 := a_rel_prd_le & [ STEM < "malasio" >, SYNSEM.LKEYS.KEYREL.PRED "_malasio_a_rel" ]. malatión_n1 := n_intr_mass-or-count_le & [ STEM < "malatión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_malatión_n_rel" ] ]. malaventura_n1 := n_intr_count_le & [ STEM < "malaventura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malaventura_n_rel" ] ]. malaventurado_a1 := a_qual_intr_ser_le & [ STEM < "malaventurado" >, SYNSEM.LKEYS.KEYREL.PRED "_malaventurado_a_rel" ]. malawiano_a1 := a_rel_prd_le & [ STEM < "malawiano" >, SYNSEM.LKEYS.KEYREL.PRED "_malawiano_a_rel" ]. malaxadora_n1 := n_intr_count_le & [ STEM < "malaxadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_malaxadora_n_rel" ] ]. malayo_a1 := a_rel_prd_le & [ STEM < "malayo" >, SYNSEM.LKEYS.KEYREL.PRED "_malayo_a_rel" ]. malayo_n1 := n_intr_count_le & [ STEM < "malayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malayo_n_rel" ] ]. malcriar_v := v_trans_np_le & [ STEM < "malcriar" >, SYNSEM.LKEYS.KEYREL.PRED "_malcriar_v_rel" ]. maldad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "maldad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maldad_n_rel" ] ]. maldecir_v1 := v_intr_mrkd_np*_le & [ STEM < "maldecir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_maldecir_v_rel" ] ]. maldecir_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "maldecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maldecir_v_rel" ] ]. maldecir_v3 := v_trans_np_le & [ STEM < "maldecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maldecir_v_rel" ] ]. maldición_n1 := n_intr_count_le & [ STEM < "maldición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maldición_n_rel" ] ]. maldito_a1 := a_qual_intr_scopal_le & [ STEM < "maldito" >, SYNSEM.LKEYS.KEYREL.PRED "_maldito_a_rel" ]. maleabilidad_n1 := n_ppcomp_mass_le & [ STEM < "maleabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maleabilidad_n_rel" ] ]. maleable_a1 := a_qual_intr_scopal_le & [ STEM < "maleable" >, SYNSEM.LKEYS.KEYREL.PRED "_maleable_a_rel" ]. maleante_n1 := n_intr_count_le & [ STEM < "maleante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maleante_n_rel" ] ]. maleato_n1 := n_intr_count_le & [ STEM < "maleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_maleato_n_rel" ] ]. malecón_n1 := n_intr_count_le & [ STEM < "malecón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_malecón_n_rel" ] ]. maledicencia_n1 := n_intr_uncount_le & [ STEM < "maledicencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maledicencia_n_rel" ] ]. maleico_a1 := a_rel_nonprd_intr_le & [ STEM < "maleico" >, SYNSEM.LKEYS.KEYREL.PRED "_maleico_a_rel" ]. malentendido_n1 := n_intr_count_le & [ STEM < "malentendido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malentendido_n_rel" ] ]. maleolar_a1 := a_rel_nonprd_intr_le & [ STEM < "maleolar" >, SYNSEM.LKEYS.KEYREL.PRED "_maleolar_a_rel" ]. maleolo_n1 := n_ppcomp_count_le & [ STEM < "maleolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_maleolo_n_rel" ] ]. malerupción_n1 := n_intr_uncount_le & [ STEM < "malerupción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malerupción_n_rel" ] ]. malestar_n1 := n_intr_count_le & [ STEM < "malestar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malestar_n_rel" ] ]. maleta_n1 := n_intr_count_le & [ STEM < "maleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maleta_n_rel" ] ]. maletero_n1 := n_intr_count_le & [ STEM < "maletero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_maletero_n_rel" ] ]. maletín_n1 := n_intr_count_le & [ STEM < "maletín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maletín_n_rel" ] ]. malevolencia_n1 := n_intr_uncount_le & [ STEM < "malevolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malevolencia_n_rel" ] ]. maleza_n1 := n_intr_coll_le & [ STEM < "maleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_maleza_n_rel" ] ]. malformación_n1 := n_intr_count_le & [ STEM < "malformación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malformación_n_rel" ] ]. malgache_a1 := a_rel_prd_le & [ STEM < "malgache" >, SYNSEM.LKEYS.KEYREL.PRED "_malgache_a_rel" ]. malgache_n1 := n_intr_count_le & [ STEM < "malgache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malgache_n_rel" ] ]. malgastar_v := v_trans_np_le & [ STEM < "malgastar" >, SYNSEM.LKEYS.KEYREL.PRED "_malgastar_v_rel" ]. malhablado_a1 := a_qual_intr_ser_le & [ STEM < "malhablado" >, SYNSEM.LKEYS.KEYREL.PRED "_malhablado_a_rel" ]. malhechor_n1 := n_intr_count_le & [ STEM < "malhechor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malhechor_n_rel" ] ]. malherir_v := v_trans_np_le & [ STEM < "malherir" >, SYNSEM.LKEYS.KEYREL.PRED "_malherir_v_rel" ]. malhumorar_v1 := v_intr_io*_le & [ STEM < "malhumorar" >, SYNSEM.LKEYS.KEYREL.PRED "_malhumorar_v_rel" ]. malhumorar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "malhumorar" >, SYNSEM.LKEYS.KEYREL.PRED "_malhumorar_v_rel" ]. malicia_n1 := n_intr_mass_le & [ STEM < "malicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malicia_n_rel" ] ]. malicioso_a1 := a_qual_intr_scopal_le & [ STEM < "malicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_malicioso_a_rel" ]. malignamente_x1 := av_i_spr_le & [ STEM < "malignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_malignamente_x_rel" ]. malignidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "malignidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malignidad_n_rel" ] ]. maligno_a1 := a_qual_intr_scopal_le & [ STEM < "maligno" >, SYNSEM.LKEYS.KEYREL.PRED "_maligno_a_rel" ]. malintencionado_a1 := a_qual_intr_ser_le & [ STEM < "malintencionado" >, SYNSEM.LKEYS.KEYREL.PRED "_malintencionado_a_rel" ]. malinterpretar_v := v_trans_np_le & [ STEM < "malinterpretar" >, SYNSEM.LKEYS.KEYREL.PRED "_malinterpretar_v_rel" ]. malla_n1 := n_intr_count_le & [ STEM < "malla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_malla_n_rel" ] ]. mallero_n1 := n_intr_count_le & [ STEM < "mallero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mallero_n_rel" ] ]. malleta_n1 := n_intr_count_le & [ STEM < "malleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_malleta_n_rel" ] ]. mallorquinista_a1 := a_rel_nonprd_intr_le & [ STEM < "mallorquinista" >, SYNSEM.LKEYS.KEYREL.PRED "_mallorquinista_a_rel" ]. mallorquinista_n1 := n_intr_count_le & [ STEM < "mallorquinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mallorquinista_n_rel" ] ]. mallorquín_a1 := a_rel_prd_le & [ STEM < "mallorquín" >, SYNSEM.LKEYS.KEYREL.PRED "_mallorquín_a_rel" ]. mallorquín_n1 := n_intr_count_le & [ STEM < "mallorquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mallorquín_n_rel" ] ]. mallot_n1 := n_intr_count_le & [ STEM < "mallot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mallot_n_rel" ] ]. malnutrición_n1 := n_intr_uncount_le & [ STEM < "malnutrición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malnutrición_n_rel" ] ]. malnutrido_a1 := a_qual_intr_estar_le & [ STEM < "malnutrido" >, SYNSEM.LKEYS.KEYREL.PRED "_malnutrido_a_rel" ]. malo_a1 := a_adv_int_le & [ STEM < "malo" >, SYNSEM.LKEYS.KEYREL.PRED "_malo_a_rel" ]. malo_a2 := a_qual_intr_scopal_le & [ STEM < "malo" >, SYNSEM.LKEYS.KEYREL.PRED "_malo_a_rel" ]. malo_a3 := a_qual_intr_ser_le & [ STEM < "malo" >, SYNSEM.LKEYS.KEYREL.PRED "_malo_a_rel" ]. malo_n1 := n_intr_count_le & [ STEM < "malo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malo_n_rel" ] ]. maloclusión_n1 := n_intr_count_le & [ STEM < "maloclusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maloclusión_n_rel" ] ]. maloliente_a1 := a_qual_intr_scopal_le & [ STEM < "maloliente" >, SYNSEM.LKEYS.KEYREL.PRED "_maloliente_a_rel" ]. malonato_n1 := n_intr_count_le & [ STEM < "malonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_malonato_n_rel" ] ]. malpensado_a1 := a_qual_intr_ser_le & [ STEM < "malpensado" >, SYNSEM.LKEYS.KEYREL.PRED "_malpensado_a_rel" ]. malposición_n1 := n_intr_count_le & [ STEM < "malposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malposición_n_rel" ] ]. malquerencia_n1 := n_intr_uncount_le & [ STEM < "malquerencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malquerencia_n_rel" ] ]. malsano_a1 := a_rel_nonprd_intr_le & [ STEM < "malsano" >, SYNSEM.LKEYS.KEYREL.PRED "_malsano_a_rel" ]. malsonante_a1 := a_qual_intr_scopal_le & [ STEM < "malsonante" >, SYNSEM.LKEYS.KEYREL.PRED "_malsonante_a_rel" ]. malta_n1 := n_intr_coll_le & [ STEM < "malta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_malta_n_rel" ] ]. maltasa_n1 := n_intr_count_le & [ STEM < "maltasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_maltasa_n_rel" ] ]. maltear_v := v_trans_np_le & [ STEM < "maltear" >, SYNSEM.LKEYS.KEYREL.PRED "_maltear_v_rel" ]. maltería_n1 := n_intr_count_le & [ STEM < "maltería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maltería_n_rel" ] ]. maltosa_n1 := n_intr_count_le & [ STEM < "maltosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_maltosa_n_rel" ] ]. maltratador_a1 := a_qual_intr_ser_le & [ STEM < "maltratador" >, SYNSEM.LKEYS.KEYREL.PRED "_maltratador_a_rel" ]. maltrato_n1 := n_intr_count_le & [ STEM < "maltrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maltrato_n_rel" ] ]. maltrecho_a1 := a_qual_intr_estar_le & [ STEM < "maltrecho" >, SYNSEM.LKEYS.KEYREL.PRED "_maltrecho_a_rel" ]. maltusianismo_n1 := n_intr_uncount_le & [ STEM < "maltusianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maltusianismo_n_rel" ] ]. maltés_a1 := a_rel_prd_le & [ STEM < "maltés" >, SYNSEM.LKEYS.KEYREL.PRED "_maltés_a_rel" ]. maltés_n1 := n_intr_count_le & [ STEM < "maltés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maltés_n_rel" ] ]. malva_n1 := n_intr_count_le & [ STEM < "malva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_malva_n_rel" ] ]. malvadamente_x1 := av_i_spr_le & [ STEM < "malvadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_malvadamente_x_rel" ]. malvado_a1 := a_qual_intr_ser_le & [ STEM < "malvado" >, SYNSEM.LKEYS.KEYREL.PRED "_malvado_a_rel" ]. malvado_n1 := n_intr_count_le & [ STEM < "malvado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malvado_n_rel" ] ]. malvavisco_n1 := n_intr_count_le & [ STEM < "malvavisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_malvavisco_n_rel" ] ]. malvender_v := v_trans_np_le & [ STEM < "malvender" >, SYNSEM.LKEYS.KEYREL.PRED "_malvender_v_rel" ]. malversación_n1 := n_trans_le & [ STEM < "malversación" >, SYNSEM.LKEYS.KEYREL.PRED "_malversación_n_rel" ]. malversador_n1 := n_subj-nom_le & [ STEM < "malversador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_malversador_n_rel" ] ]. malversar_v := v_trans_np_le & [ STEM < "malversar" >, SYNSEM.LKEYS.KEYREL.PRED "_malversar_v_rel" ]. malvivir_v := v_intr_le & [ STEM < "malvivir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_malvivir_v_rel" ] ]. maléfico_a1 := a_qual_intr_scopal_le & [ STEM < "maléfico" >, SYNSEM.LKEYS.KEYREL.PRED "_maléfico_a_rel" ]. maléolo_n1 := n_ppcomp_count_le & [ STEM < "maléolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_maléolo_n_rel" ] ]. malévolo_a1 := a_rel_nonprd_intr_le & [ STEM < "malévolo" >, SYNSEM.LKEYS.KEYREL.PRED "_malévolo_a_rel" ]. malónico_a1 := a_rel_nonprd_intr_le & [ STEM < "malónico" >, SYNSEM.LKEYS.KEYREL.PRED "_malónico_a_rel" ]. mama_n1 := n_ppcomp_count_le & [ STEM < "mama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mama_n_rel" ] ]. mamar_v := v_trans_np*_le & [ STEM < "mamar" >, SYNSEM.LKEYS.KEYREL.PRED "_mamar_v_rel" ]. mamario_a1 := a_rel_nonprd_intr_le & [ STEM < "mamario" >, SYNSEM.LKEYS.KEYREL.PRED "_mamario_a_rel" ]. mameluco_n1 := n_intr_count_le & [ STEM < "mameluco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mameluco_n_rel" ] ]. mamelón_n1 := n_intr_count_le & [ STEM < "mamelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mamelón_n_rel" ] ]. mamilar_a1 := a_rel_nonprd_intr_le & [ STEM < "mamilar" >, SYNSEM.LKEYS.KEYREL.PRED "_mamilar_a_rel" ]. mamilotalámico_a1 := a_rel_nonprd_intr_le & [ STEM < "mamilotalámico" >, SYNSEM.LKEYS.KEYREL.PRED "_mamilotalámico_a_rel" ]. mamilotegmental_a1 := a_rel_nonprd_intr_le & [ STEM < "mamilotegmental" >, SYNSEM.LKEYS.KEYREL.PRED "_mamilotegmental_a_rel" ]. mamografía_n1 := n_intr_count_le & [ STEM < "mamografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mamografía_n_rel" ] ]. mampara_n1 := n_intr_count_le & [ STEM < "mampara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mampara_n_rel" ] ]. mamparo_n1 := n_intr_count_le & [ STEM < "mamparo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mamparo_n_rel" ] ]. mampostear_v := v_trans_np_le & [ STEM < "mampostear" >, SYNSEM.LKEYS.KEYREL.PRED "_mampostear_v_rel" ]. mampostería_n1 := n_intr_uncount_pl_le & [ STEM < "mampostería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mampostería_n_rel" ] ]. mampuesto_n1 := n_intr_uncount_le & [ STEM < "mampuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mampuesto_n_rel" ] ]. mamut_n1 := n_intr_count_le & [ STEM < "mamut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mamut_n_rel" ] ]. mamá_n1 := n_intr_count_le & [ STEM < "mamá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mamá_n_rel" ] ]. mamífero_a1 := a_rel_nonprd_intr_le & [ STEM < "mamífero" >, SYNSEM.LKEYS.KEYREL.PRED "_mamífero_a_rel" ]. mamífero_n1 := n_intr_count_le & [ STEM < "mamífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mamífero_n_rel" ] ]. manada_n1 := n_intr_coll_le & [ STEM < "manada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_manada_n_rel" ] ]. manager_n1 := n_intr_count_le & [ STEM < "manager" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manager_n_rel" ] ]. manantial_n1 := n_intr_count_le & [ STEM < "manantial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_manantial_n_rel" ] ]. manatí_n1 := n_intr_count_le & [ STEM < "manatí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_manatí_n_rel" ] ]. manazas_n1 := n_intr_count_le & [ STEM < "manazas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manazas_n_rel" ] ]. mancebo_n1 := n_intr_count_le & [ STEM < "mancebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mancebo_n_rel" ] ]. mancera_n1 := n_intr_count_le & [ STEM < "mancera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mancera_n_rel" ] ]. mancha_n1 := n_intr_count_le & [ STEM < "mancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_mancha_n_rel" ] ]. manchego_a1 := a_rel_prd_le & [ STEM < "manchego" >, SYNSEM.LKEYS.KEYREL.PRED "_manchego_a_rel" ]. manchego_n1 := n_intr_count_le & [ STEM < "manchego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manchego_n_rel" ] ]. mancheta_n1 := n_intr_count_le & [ STEM < "mancheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_mancheta_n_rel" ] ]. manchú_n1 := n_intr_count_le & [ STEM < "manchú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_manchú_n_rel" ] ]. manco_a1 := a_rel_nonprd_intr_le & [ STEM < "manco" >, SYNSEM.LKEYS.KEYREL.PRED "_manco_a_rel" ]. manco_n1 := n_intr_count_le & [ STEM < "manco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manco_n_rel" ] ]. mancomunar_v := v_trans_np_caus_le & [ STEM < "mancomunar" >, SYNSEM.LKEYS.KEYREL.PRED "_mancomunar_v_rel" ]. mancomunidad_n1 := n_intr_count_le & [ STEM < "mancomunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_mancomunidad_n_rel" ] ]. mancuerna_n1 := n_intr_coll_le & [ STEM < "mancuerna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mancuerna_n_rel" ] ]. mandamiento_n1 := n_intr_count_le & [ STEM < "mandamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mandamiento_n_rel" ] ]. mandamus_n1 := n_intr_count_le & [ STEM < "mandamus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_mandamus_n_rel" ] ]. mandante_n1 := n_intr_count_le & [ STEM < "mandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mandante_n_rel" ] ]. mandar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "mandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mandar_v_rel" ] ]. mandar_v2 := v_ditrans*_le & [ STEM < "mandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mandar_v_rel" ] ]. mandar_v3 := v_trans_np_lcomp_dir_le & [ STEM < "mandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mandar_v_rel" ] ]. mandar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "mandar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_mandar_v_rel" ] ] ]. mandarina_n1 := n_intr_count_le & [ STEM < "mandarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mandarina_n_rel" ] ]. mandarinero_n1 := n_intr_count_le & [ STEM < "mandarinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mandarinero_n_rel" ] ]. mandarín_n1 := n_intr_count_le & [ STEM < "mandarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mandarín_n_rel" ] ]. mandatario_n1 := n_intr_count_le & [ STEM < "mandatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mandatario_n_rel" ] ]. mandato_n1 := n_result_intr_le & [ STEM < "mandato" >, SYNSEM.LKEYS.KEYREL.PRED "_mandato_n_rel" ]. mandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "mandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_mandibular_a_rel" ]. mandibulofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "mandibulofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_mandibulofacial_a_rel" ]. mandil_n1 := n_intr_count_le & [ STEM < "mandil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mandil_n_rel" ] ]. mandioca_n1 := n_intr_count_le & [ STEM < "mandioca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mandioca_n_rel" ] ]. mandolina_n1 := n_intr_count_le & [ STEM < "mandolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mandolina_n_rel" ] ]. mandril_n1 := n_intr_count_le & [ STEM < "mandril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_mandril_n_rel" ] ]. mandrilado_n1 := n_trans_le & [ STEM < "mandrilado" >, SYNSEM.LKEYS.KEYREL.PRED "_mandrilado_n_rel" ]. mandriladora_n1 := n_intr_count_le & [ STEM < "mandriladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mandriladora_n_rel" ] ]. mandrinadora_n1 := n_intr_count_le & [ STEM < "mandrinadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mandrinadora_n_rel" ] ]. mandrágora_n1 := n_intr_count_le & [ STEM < "mandrágora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mandrágora_n_rel" ] ]. mandíbula_n1 := n_ppcomp_count_le & [ STEM < "mandíbula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mandíbula_n_rel" ] ]. mandón_a1 := a_qual_intr_ser_le & [ STEM < "mandón" >, SYNSEM.LKEYS.KEYREL.PRED "_mandón_a_rel" ]. manecilla_n1 := n_intr_count_le & [ STEM < "manecilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manecilla_n_rel" ] ]. manejabilidad_n1 := n_trans_le & [ STEM < "manejabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_manejabilidad_n_rel" ]. manejable_a1 := a_qual_intr_scopal_le & [ STEM < "manejable" >, SYNSEM.LKEYS.KEYREL.PRED "_manejable_a_rel" ]. manejar_v := v_trans_np_le & [ STEM < "manejar" >, SYNSEM.LKEYS.KEYREL.PRED "_manejar_v_rel" ]. manera_n1 := n_cp_prop_count_le & [ STEM < "manera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manera_n_rel" ] ]. manera_n2 := n_intr_count_le & [ STEM < "manera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manera_n_rel" ] ]. maneta_n1 := n_intr_count_le & [ STEM < "maneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maneta_n_rel" ] ]. manga_n1 := n_intr_count_le & [ STEM < "manga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manga_n_rel" ] ]. manganato_n1 := n_intr_count_le & [ STEM < "manganato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_manganato_n_rel" ] ]. manganeso_n1 := n_intr_mass_le & [ STEM < "manganeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_manganeso_n_rel" ] ]. manganina_n1 := n_intr_count_le & [ STEM < "manganina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_manganina_n_rel" ] ]. manganita_n1 := n_intr_count_le & [ STEM < "manganita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_manganita_n_rel" ] ]. manganoso_a1 := a_rel_nonprd_intr_le & [ STEM < "manganoso" >, SYNSEM.LKEYS.KEYREL.PRED "_manganoso_a_rel" ]. manganífero_a1 := a_rel_nonprd_intr_le & [ STEM < "manganífero" >, SYNSEM.LKEYS.KEYREL.PRED "_manganífero_a_rel" ]. manglar_n1 := n_intr_mass_le & [ STEM < "manglar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_manglar_n_rel" ] ]. mangle_n1 := n_intr_count_le & [ STEM < "mangle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mangle_n_rel" ] ]. mango_n1 := n_intr_count_le & [ STEM < "mango" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mango_n_rel" ] ]. mangosta_n1 := n_intr_count_le & [ STEM < "mangosta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mangosta_n_rel" ] ]. manguera_n1 := n_intr_count_le & [ STEM < "manguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manguera_n_rel" ] ]. manguerote_n1 := n_intr_count_le & [ STEM < "manguerote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manguerote_n_rel" ] ]. manguito_n1 := n_intr_count_le & [ STEM < "manguito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manguito_n_rel" ] ]. mangánico_a1 := a_rel_nonprd_intr_le & [ STEM < "mangánico" >, SYNSEM.LKEYS.KEYREL.PRED "_mangánico_a_rel" ]. maniatar_v := v_trans_np_le & [ STEM < "maniatar" >, SYNSEM.LKEYS.KEYREL.PRED "_maniatar_v_rel" ]. manicomio_n1 := n_intr_count_le & [ STEM < "manicomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_manicomio_n_rel" ] ]. manicura_n1 := n_intr_count_le & [ STEM < "manicura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_manicura_n_rel" ] ]. manicurista_n1 := n_intr_count_le & [ STEM < "manicurista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manicurista_n_rel" ] ]. manierismo_n1 := n_intr_uncount_le & [ STEM < "manierismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manierismo_n_rel" ] ]. manifestación_n1 := n_trans_le & [ STEM < "manifestación" >, SYNSEM.LKEYS.KEYREL.PRED "_manifestación_n_rel" ]. manifestamente_x1 := av_s_spr_le & [ STEM < "manifestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_manifestamente_x_rel" ]. manifestante_n1 := n_intr_count_le & [ STEM < "manifestante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manifestante_n_rel" ] ]. manifesto_a1 := a_qual_intr_scopal_le & [ STEM < "manifesto" >, SYNSEM.LKEYS.KEYREL.PRED "_manifesto_a_rel" ]. manifiestamente_x1 := av_i_spr_le & [ STEM < "manifiestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_manifiestamente_x_rel" ]. manifiesto_a1 := a_qual_intr_scopal_le & [ STEM < "manifiesto" >, SYNSEM.LKEYS.KEYREL.PRED "_manifiesto_a_rel" ]. manifiesto_n1 := n_intr_count_le & [ STEM < "manifiesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_manifiesto_n_rel" ] ]. manigueta_n1 := n_intr_count_le & [ STEM < "manigueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manigueta_n_rel" ] ]. manija_n1 := n_intr_count_le & [ STEM < "manija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manija_n_rel" ] ]. manilla_n1 := n_intr_count_le & [ STEM < "manilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manilla_n_rel" ] ]. manillar_n1 := n_intr_count_le & [ STEM < "manillar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manillar_n_rel" ] ]. maniobrabilidad_n1 := n_intr_uncount_le & [ STEM < "maniobrabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maniobrabilidad_n_rel" ] ]. maniobrable_a1 := a_qual_intr_scopal_le & [ STEM < "maniobrable" >, SYNSEM.LKEYS.KEYREL.PRED "_maniobrable_a_rel" ]. maniobrablemente_x1 := av_i_spr_le & [ STEM < "maniobrablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_maniobrablemente_x_rel" ]. maniobrar_v := v_trans_np*_le & [ STEM < "maniobrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_maniobrar_v_rel" ] ]. manipulable_a1 := a_qual_intr_scopal_le & [ STEM < "manipulable" >, SYNSEM.LKEYS.KEYREL.PRED "_manipulable_a_rel" ]. manipulación_n1 := n_trans_le & [ STEM < "manipulación" >, SYNSEM.LKEYS.KEYREL.PRED "_manipulación_n_rel" ]. manipulador_a1 := a_qual_intr_ser_le & [ STEM < "manipulador" >, SYNSEM.LKEYS.KEYREL.PRED "_manipulador_a_rel" ]. manipulador_n1 := n_subj-nom_le & [ STEM < "manipulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manipulador_n_rel" ] ]. manipular_v := v_trans_np_le & [ STEM < "manipular" >, SYNSEM.LKEYS.KEYREL.PRED "_manipular_v_rel" ]. maniquí_n1 := n_intr_count_le & [ STEM < "maniquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maniquí_n_rel" ] ]. manitol_n1 := n_intr_count_le & [ STEM < "manitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_manitol_n_rel" ] ]. manivela_n1 := n_intr_count_le & [ STEM < "manivela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manivela_n_rel" ] ]. maniático_a1 := a_qual_intr_ser_le & [ STEM < "maniático" >, SYNSEM.LKEYS.KEYREL.PRED "_maniático_a_rel" ]. manjar_n1 := n_intr_count_le & [ STEM < "manjar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manjar_n_rel" ] ]. mano_n1 := n_ppcomp_count_le & [ STEM < "mano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mano_n_rel" ] ]. manojo_n1 := n_pseudo-part_le & [ STEM < "manojo" >, SYNSEM.LKEYS.KEYREL.PRED "_manojo_n_rel" ]. manoletina_n1 := n_intr_count_le & [ STEM < "manoletina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manoletina_n_rel" ] ]. manométricamente_x1 := av_i_spr_le & [ STEM < "manométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_manométricamente_x_rel" ]. manométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "manométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_manométrico_a_rel" ]. manopla_n1 := n_intr_count_le & [ STEM < "manopla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manopla_n_rel" ] ]. manorreductor_n1 := n_intr_count_le & [ STEM < "manorreductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manorreductor_n_rel" ] ]. manosa_n1 := n_intr_count_le & [ STEM < "manosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_manosa_n_rel" ] ]. manosear_v := v_trans_np_le & [ STEM < "manosear" >, SYNSEM.LKEYS.KEYREL.PRED "_manosear_v_rel" ]. manoseo_n1 := n_trans_le & [ STEM < "manoseo" >, SYNSEM.LKEYS.KEYREL.PRED "_manoseo_n_rel" ]. manostato_n1 := n_intr_count_le & [ STEM < "manostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manostato_n_rel" ] ]. manotazo_n1 := n_intr_count_le & [ STEM < "manotazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manotazo_n_rel" ] ]. manovacuómetro_n1 := n_intr_count_le & [ STEM < "manovacuómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manovacuómetro_n_rel" ] ]. manresano_a1 := a_rel_prd_le & [ STEM < "manresano" >, SYNSEM.LKEYS.KEYREL.PRED "_manresano_a_rel" ]. manresano_n1 := n_intr_count_le & [ STEM < "manresano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_manresano_n_rel" ] ]. mansamente_x1 := av_i_spr_le & [ STEM < "mansamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mansamente_x_rel" ]. mansión_n1 := n_intr_count_le & [ STEM < "mansión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mansión_n_rel" ] ]. manso_a1 := a_qual_intr_scopal_le & [ STEM < "manso" >, SYNSEM.LKEYS.KEYREL.PRED "_manso_a_rel" ]. manta_n1 := n_intr_count_le & [ STEM < "manta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manta_n_rel" ] ]. manteca_n1 := n_intr_mass_le & [ STEM < "manteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manteca_n_rel" ] ]. mantecada_n1 := n_intr_mass_le & [ STEM < "mantecada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantecada_n_rel" ] ]. mantecoso_a1 := a_qual_intr_scopal_le & [ STEM < "mantecoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mantecoso_a_rel" ]. mantel_n1 := n_intr_count_le & [ STEM < "mantel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantel_n_rel" ] ]. mantelería_n1 := n_intr_count_le & [ STEM < "mantelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantelería_n_rel" ] ]. mantelete_n1 := n_intr_count_le & [ STEM < "mantelete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantelete_n_rel" ] ]. mantenedor_n1 := n_intr_count_le & [ STEM < "mantenedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantenedor_n_rel" ] ]. mantenibilidad_n1 := n_intr_uncount_le & [ STEM < "mantenibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mantenibilidad_n_rel" ] ]. mantenimiento_n1 := n_trans_le & [ STEM < "mantenimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_mantenimiento_n_rel" ]. mantequera_n1 := n_intr_count_le & [ STEM < "mantequera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_mantequera_n_rel" ] ]. mantequería_n1 := n_intr_count_le & [ STEM < "mantequería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mantequería_n_rel" ] ]. mantequilla_n1 := n_intr_mass_le & [ STEM < "mantequilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantequilla_n_rel" ] ]. mantilla_n1 := n_intr_count_le & [ STEM < "mantilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantilla_n_rel" ] ]. mantillo_n1 := n_intr_count_le & [ STEM < "mantillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantillo_n_rel" ] ]. mantisa_n1 := n_intr_count_le & [ STEM < "mantisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantisa_n_rel" ] ]. manto_n1 := n_intr_count_le & [ STEM < "manto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manto_n_rel" ] ]. manto_n2 := n_ppcomp_count_le & [ STEM < "manto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_manto_n_rel" ] ]. mantón_n1 := n_intr_count_le & [ STEM < "mantón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mantón_n_rel" ] ]. manu_militari_x1 := av_i_le & [ STEM < "manu_militari" >, SYNSEM.LKEYS.KEYREL.PRED "_manu_militari_x_rel" ]. manual-automáticamente_x1 := av_i_spr_le & [ STEM < "manual-automáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_manual-automáticamente_x_rel" ]. manual-automático_a1 := a_rel_nonprd_intr_le & [ STEM < "manual-automático" >, SYNSEM.LKEYS.KEYREL.PRED "_manual-automático_a_rel" ]. manual_a1 := a_rel_nonprd_intr_le & [ STEM < "manual" >, SYNSEM.LKEYS.KEYREL.PRED "_manual_a_rel" ]. manual_n1 := n_intr_count_le & [ STEM < "manual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manual_n_rel" ] ]. manualidad_n1 := n_intr_count_le & [ STEM < "manualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manualidad_n_rel" ] ]. manualmente_x1 := av_i_spr_le & [ STEM < "manualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_manualmente_x_rel" ]. manuar_n1 := n_intr_count_le & [ STEM < "manuar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manuar_n_rel" ] ]. manubrio_n1 := n_intr_count_le & [ STEM < "manubrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manubrio_n_rel" ] ]. manubrioesternal_a1 := a_rel_nonprd_intr_le & [ STEM < "manubrioesternal" >, SYNSEM.LKEYS.KEYREL.PRED "_manubrioesternal_a_rel" ]. manufactura_n1 := n_intr_count_le & [ STEM < "manufactura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manufactura_n_rel" ] ]. manufacturación_n1 := n_trans_le & [ STEM < "manufacturación" >, SYNSEM.LKEYS.KEYREL.PRED "_manufacturación_n_rel" ]. manufacturar_v := v_trans_np_le & [ STEM < "manufacturar" >, SYNSEM.LKEYS.KEYREL.PRED "_manufacturar_v_rel" ]. manufacturero_a1 := a_rel_nonprd_intr_le & [ STEM < "manufacturero" >, SYNSEM.LKEYS.KEYREL.PRED "_manufacturero_a_rel" ]. manumisión_n1 := n_trans_le & [ STEM < "manumisión" >, SYNSEM.LKEYS.KEYREL.PRED "_manumisión_n_rel" ]. manuscrito_n1 := n_intr_count_le & [ STEM < "manuscrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_manuscrito_n_rel" ] ]. manutención_n1 := n_trans_le & [ STEM < "manutención" >, SYNSEM.LKEYS.KEYREL.PRED "_manutención_n_rel" ]. manzana_n1 := n_intr_count_le & [ STEM < "manzana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manzana_n_rel" ] ]. manzanilla_n1 := n_intr_count_le & [ STEM < "manzanilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_manzanilla_n_rel" ] ]. manzano_n1 := n_intr_count_le & [ STEM < "manzano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_manzano_n_rel" ] ]. maná_n1 := n_intr_mass_le & [ STEM < "maná" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maná_n_rel" ] ]. manía_n1 := n_intr_mass_le & [ STEM < "manía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_manía_n_rel" ] ]. maníaco_a1 := a_qual_intr_ser_le & [ STEM < "maníaco" >, SYNSEM.LKEYS.KEYREL.PRED "_maníaco_a_rel" ]. maníaco_n1 := n_intr_count_le & [ STEM < "maníaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maníaco_n_rel" ] ]. manípulo_n1 := n_intr_count_le & [ STEM < "manípulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manípulo_n_rel" ] ]. manómetro_n1 := n_intr_count_le & [ STEM < "manómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_manómetro_n_rel" ] ]. manóstato_n1 := n_intr_count_le & [ STEM < "manóstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_manóstato_n_rel" ] ]. maorí_a1 := a_rel_prd_le & [ STEM < "maorí" >, SYNSEM.LKEYS.KEYREL.PRED "_maorí_a_rel" ]. maorí_n1 := n_intr_count_le & [ STEM < "maorí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maorí_n_rel" ] ]. mapa_n1 := n_intr_count_le & [ STEM < "mapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_mapa_n_rel" ] ]. mapache_n1 := n_intr_count_le & [ STEM < "mapache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mapache_n_rel" ] ]. mapamundi_n1 := n_intr_count_le & [ STEM < "mapamundi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mapamundi_n_rel" ] ]. mapeo_n1 := n_trans_le & [ STEM < "mapeo" >, SYNSEM.LKEYS.KEYREL.PRED "_mapeo_n_rel" ]. mapuche_a1 := a_rel_prd_le & [ STEM < "mapuche" >, SYNSEM.LKEYS.KEYREL.PRED "_mapuche_a_rel" ]. mapuche_n1 := n_intr_count_le & [ STEM < "mapuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_mapuche_n_rel" ] ]. maqueta_n1 := n_intr_count_le & [ STEM < "maqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maqueta_n_rel" ] ]. maquetación_n1 := n_trans_le & [ STEM < "maquetación" >, SYNSEM.LKEYS.KEYREL.PRED "_maquetación_n_rel" ]. maquetista_n1 := n_intr_count_le & [ STEM < "maquetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maquetista_n_rel" ] ]. maqui_n1 := n_intr_count_le & [ STEM < "maqui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_maqui_n_rel" ] ]. maquia_n1 := n_intr_count_le & [ STEM < "maquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_maquia_n_rel" ] ]. maquiavelismo_n1 := n_intr_uncount_le & [ STEM < "maquiavelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maquiavelismo_n_rel" ] ]. maquiavélico_a1 := a_rel_nonprd_intr_le & [ STEM < "maquiavélico" >, SYNSEM.LKEYS.KEYREL.PRED "_maquiavélico_a_rel" ]. maquillador_n1 := n_subj-nom_le & [ STEM < "maquillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maquillador_n_rel" ] ]. maquillaje_n1 := n_trans_le & [ STEM < "maquillaje" >, SYNSEM.LKEYS.KEYREL.PRED "_maquillaje_n_rel" ]. maquinación_n1 := n_trans_le & [ STEM < "maquinación" >, SYNSEM.LKEYS.KEYREL.PRED "_maquinación_n_rel" ]. maquinador_n1 := n_subj-nom_le & [ STEM < "maquinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maquinador_n_rel" ] ]. maquinal_a1 := a_rel_nonprd_intr_le & [ STEM < "maquinal" >, SYNSEM.LKEYS.KEYREL.PRED "_maquinal_a_rel" ]. maquinalmente_x1 := av_i_spr_le & [ STEM < "maquinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_maquinalmente_x_rel" ]. maquinar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "maquinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maquinar_v_rel" ] ]. maquinar_v2 := v_trans_np_le & [ STEM < "maquinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maquinar_v_rel" ] ]. maquinaria_n1 := n_intr_coll_le & [ STEM < "maquinaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maquinaria_n_rel" ] ]. maquinilla_n1 := n_intr_count_le & [ STEM < "maquinilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maquinilla_n_rel" ] ]. maquinista_n1 := n_intr_count_le & [ STEM < "maquinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maquinista_n_rel" ] ]. mar_n1 := n_intr_count_le & [ STEM < "mar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mar_n_rel" ] ]. marabú_n1 := n_intr_count_le & [ STEM < "marabú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marabú_n_rel" ] ]. maraca_n1 := n_intr_count_le & [ STEM < "maraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maraca_n_rel" ] ]. maratoniano_a1 := a_rel_nonprd_intr_le & [ STEM < "maratoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_maratoniano_a_rel" ]. maratoniano_n1 := n_intr_count_le & [ STEM < "maratoniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maratoniano_n_rel" ] ]. maratón_n1 := n_intr_count_le & [ STEM < "maratón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maratón_n_rel" ] ]. maravedí_n1 := n_intr_count_le & [ STEM < "maravedí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maravedí_n_rel" ] ]. maravillar_v1 := v_intr_io*_le & [ STEM < "maravillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_maravillar_v_rel" ] ]. maravillar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "maravillar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_maravillar_v_rel" ] ] ]. maravillar_v3 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "maravillar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_maravillar_v_rel" ] ] ]. maravillar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "maravillar" >, SYNSEM.LKEYS.KEYREL.PRED "_maravillar_v_rel" ]. maravillar_v5 := v_trans_np_le & [ STEM < "maravillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maravillar_v_rel" ] ]. maravillosamente_x1 := av_i_spr_le & [ STEM < "maravillosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_maravillosamente_x_rel" ]. maravilloso_a1 := a_qual_intr_scopal_le & [ STEM < "maravilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_maravilloso_a_rel" ]. marca_n1 := n_intr_count_le & [ STEM < "marca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_marca_n_rel" ] ]. marcable_a1 := a_rel_nonprd_intr_le & [ STEM < "marcable" >, SYNSEM.LKEYS.KEYREL.PRED "_marcable_a_rel" ]. marcación_n1 := n_trans_le & [ STEM < "marcación" >, SYNSEM.LKEYS.KEYREL.PRED "_marcación_n_rel" ]. marcadamente_x1 := av_i_spr_le & [ STEM < "marcadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_marcadamente_x_rel" ]. marcador_n1 := n_intr_count_le & [ STEM < "marcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marcador_n_rel" ] ]. marcaje_n1 := n_trans_le & [ STEM < "marcaje" >, SYNSEM.LKEYS.KEYREL.PRED "_marcaje_n_rel" ]. marcapasos_n1 := n_intr_count_le & [ STEM < "marcapasos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marcapasos_n_rel" ] ]. marcar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "marcar" >, SYNSEM.LKEYS.KEYREL.PRED "_marcar_v_rel" ]. marcar_v2 := v_trans_np_le & [ STEM < "marcar" >, SYNSEM.LKEYS.KEYREL.PRED "_marcar_v_rel" ]. marcasita_n1 := n_intr_count_le & [ STEM < "marcasita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_marcasita_n_rel" ] ]. marcha_n1 := n_event-result_intr_le & [ STEM < "marcha" >, SYNSEM.LKEYS.KEYREL.PRED "_marcha_n_rel" ]. marchamo_n1 := n_intr_count_le & [ STEM < "marchamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marchamo_n_rel" ] ]. marchante_n1 := n_intr_count_le & [ STEM < "marchante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marchante_n_rel" ] ]. marchar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "marchar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_marchar_v_rel" ] ] ]. marchar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "marchar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_marchar_v_rel" ] ] ]. marchar_v3 := v_pron_unacc_lcomp_dir*_le & [ STEM < "marchar" >, SYNSEM.LKEYS.KEYREL.PRED "_marchar_v_rel" ]. marchar_v4 := v_unacc_lcomp_dir*_le & [ STEM < "marchar" >, SYNSEM.LKEYS.KEYREL.PRED "_marchar_v_rel" ]. marchitar_v := v_trans_np_caus_le & [ STEM < "marchitar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_plant, PRED "_marchitar_v_rel" ] ]. marchitez_n1 := n_ppcomp_uncount_le & [ STEM < "marchitez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marchitez_n_rel" ] ]. marcial_a1 := a_rel_nonprd_intr_le & [ STEM < "marcial" >, SYNSEM.LKEYS.KEYREL.PRED "_marcial_a_rel" ]. marcialmente_x1 := av_i_spr_le & [ STEM < "marcialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_marcialmente_x_rel" ]. marciano_a1 := a_rel_nonprd_intr_le & [ STEM < "marciano" >, SYNSEM.LKEYS.KEYREL.PRED "_marciano_a_rel" ]. marco_alemán_n1 := n_intr_count_le & [ STEM < "marco_alemán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marco_alemán_n_rel" ] ]. marco_n1 := n_intr_count_le & [ STEM < "marco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marco_n_rel" ] ]. marea_n1 := n_intr_count_le & [ STEM < "marea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_marea_n_rel" ] ]. mareal_a1 := a_rel_nonprd_intr_le & [ STEM < "mareal" >, SYNSEM.LKEYS.KEYREL.PRED "_mareal_a_rel" ]. mareante_a1 := a_rel_prd_le & [ STEM < "mareante" >, SYNSEM.LKEYS.KEYREL.PRED "_mareante_a_rel" ]. marear_v := v_trans_np_le & [ STEM < "marear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_marear_v_rel" ] ]. marear_v1 := v_intr_io*_le & [ STEM < "marear" >, SYNSEM.LKEYS.KEYREL.PRED "_marear_v_rel" ]. marear_v2 := v_pron_intr_le & [ STEM < "marear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_marear_v_rel" ] ]. marear_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "marear" >, SYNSEM.LKEYS.KEYREL.PRED "_marear_v_rel" ]. marear_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "marear" >, SYNSEM.LKEYS.KEYREL.PRED "_marear_v_rel" ]. marejada_n1 := n_intr_count_le & [ STEM < "marejada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marejada_n_rel" ] ]. marenquera_n1 := n_intr_count_le & [ STEM < "marenquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marenquera_n_rel" ] ]. mareo_n1 := n_trans_le & [ STEM < "mareo" >, SYNSEM.LKEYS.KEYREL.PRED "_mareo_n_rel" ]. mareograma_n1 := n_intr_count_le & [ STEM < "mareograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mareograma_n_rel" ] ]. mareológico_a1 := a_rel_nonprd_intr_le & [ STEM < "mareológico" >, SYNSEM.LKEYS.KEYREL.PRED "_mareológico_a_rel" ]. mareógrafo_n1 := n_intr_count_le & [ STEM < "mareógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mareógrafo_n_rel" ] ]. mareómetro_n1 := n_intr_count_le & [ STEM < "mareómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mareómetro_n_rel" ] ]. marfil_n1 := n_intr_count_le & [ STEM < "marfil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_marfil_n_rel" ] ]. marga_n1 := n_intr_count_le & [ STEM < "marga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_marga_n_rel" ] ]. margal_n1 := n_intr_count_le & [ STEM < "margal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_margal_n_rel" ] ]. margarina_n1 := n_intr_mass_le & [ STEM < "margarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_margarina_n_rel" ] ]. margarita_n1 := n_intr_count_le & [ STEM < "margarita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_margarita_n_rel" ] ]. margen_n1 := n_intr_count_le & [ STEM < "margen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_margen_n_rel" ] ]. marginación_n1 := n_trans_le & [ STEM < "marginación" >, SYNSEM.LKEYS.KEYREL.PRED "_marginación_n_rel" ]. marginador_n1 := n_intr_count_le & [ STEM < "marginador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_marginador_n_rel" ] ]. marginal_a1 := a_qual_intr_scopal_le & [ STEM < "marginal" >, SYNSEM.LKEYS.KEYREL.PRED "_marginal_a_rel" ]. marginalidad_n1 := n_intr_mass-or-count_le & [ STEM < "marginalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marginalidad_n_rel" ] ]. marginalismo_n1 := n_intr_uncount_le & [ STEM < "marginalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marginalismo_n_rel" ] ]. marginalmente_x1 := av_i_spr_le & [ STEM < "marginalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_marginalmente_x_rel" ]. margoso_a1 := a_rel_nonprd_intr_le & [ STEM < "margoso" >, SYNSEM.LKEYS.KEYREL.PRED "_margoso_a_rel" ]. margrave_n1 := n_intr_count_le & [ STEM < "margrave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_margrave_n_rel" ] ]. mariachi_n1 := n_intr_count_le & [ STEM < "mariachi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mariachi_n_rel" ] ]. marica_n1 := n_intr_count_le & [ STEM < "marica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marica_n_rel" ] ]. maricón_n1 := n_intr_count_le & [ STEM < "maricón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maricón_n_rel" ] ]. maridaje_n1 := n_result_intr_le & [ STEM < "maridaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maridaje_n_rel" ] ]. marido_n1 := n_intr_count_le & [ STEM < "marido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marido_n_rel" ] ]. marihuana_n1 := n_intr_mass_le & [ STEM < "marihuana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marihuana_n_rel" ] ]. marijuana_n1 := n_intr_count_le & [ STEM < "marijuana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_marijuana_n_rel" ] ]. marina_n1 := n_intr_mass_le & [ STEM < "marina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_marina_n_rel" ] ]. marinada_n1 := n_intr_count_le & [ STEM < "marinada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marinada_n_rel" ] ]. marinero_a1 := a_rel_nonprd_intr_le & [ STEM < "marinero" >, SYNSEM.LKEYS.KEYREL.PRED "_marinero_a_rel" ]. marinero_n1 := n_intr_count_le & [ STEM < "marinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marinero_n_rel" ] ]. marinería_n1 := n_intr_uncount_le & [ STEM < "marinería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marinería_n_rel" ] ]. marino_a1 := a_rel_nonprd_intr_le & [ STEM < "marino" >, SYNSEM.LKEYS.KEYREL.PRED "_marino_a_rel" ]. marino_n1 := n_intr_count_le & [ STEM < "marino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marino_n_rel" ] ]. marioneta_n1 := n_intr_count_le & [ STEM < "marioneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marioneta_n_rel" ] ]. mariposa_n1 := n_intr_count_le & [ STEM < "mariposa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mariposa_n_rel" ] ]. mariquita_n1 := n_intr_count_le & [ STEM < "mariquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mariquita_n_rel" ] ]. marisabidilla_n1 := n_intr_count_le & [ STEM < "marisabidilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marisabidilla_n_rel" ] ]. mariscada_n1 := n_intr_count_le & [ STEM < "mariscada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mariscada_n_rel" ] ]. mariscal_n1 := n_intr_count_le & [ STEM < "mariscal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mariscal_n_rel" ] ]. mariscalía_n1 := n_intr_uncount_pl_le & [ STEM < "mariscalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mariscalía_n_rel" ] ]. marisco_n1 := n_intr_count_le & [ STEM < "marisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marisco_n_rel" ] ]. marisma_n1 := n_intr_count_le & [ STEM < "marisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_marisma_n_rel" ] ]. marisquería_n1 := n_intr_count_le & [ STEM < "marisquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_marisquería_n_rel" ] ]. marital_a1 := a_rel_nonprd_intr_le & [ STEM < "marital" >, SYNSEM.LKEYS.KEYREL.PRED "_marital_a_rel" ]. maritalmente_x1 := av_i_spr_le & [ STEM < "maritalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_maritalmente_x_rel" ]. marjal_n1 := n_intr_count_le & [ STEM < "marjal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_marjal_n_rel" ] ]. marmita_n1 := n_intr_count_le & [ STEM < "marmita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marmita_n_rel" ] ]. marmitón_n1 := n_intr_count_le & [ STEM < "marmitón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marmitón_n_rel" ] ]. marmolista_n1 := n_intr_count_le & [ STEM < "marmolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marmolista_n_rel" ] ]. marmorización_n1 := n_trans_le & [ STEM < "marmorización" >, SYNSEM.LKEYS.KEYREL.PRED "_marmorización_n_rel" ]. marmosa_n1 := n_intr_count_le & [ STEM < "marmosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marmosa_n_rel" ] ]. marmota_n1 := n_intr_count_le & [ STEM < "marmota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marmota_n_rel" ] ]. marmóleo_a1 := a_qual_intr_scopal_le & [ STEM < "marmóleo" >, SYNSEM.LKEYS.KEYREL.PRED "_marmóleo_a_rel" ]. maroma_n1 := n_intr_count_le & [ STEM < "maroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maroma_n_rel" ] ]. marquesina_n1 := n_intr_count_le & [ STEM < "marquesina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marquesina_n_rel" ] ]. marquetería_n1 := n_intr_uncount_pl_le & [ STEM < "marquetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marquetería_n_rel" ] ]. marqués_n1 := n_intr_count_le & [ STEM < "marqués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marqués_n_rel" ] ]. marrajo_n1 := n_intr_count_le & [ STEM < "marrajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marrajo_n_rel" ] ]. marrana_n1 := n_intr_count_le & [ STEM < "marrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marrana_n_rel" ] ]. marrano_n1 := n_intr_count_le & [ STEM < "marrano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_marrano_n_rel" ] ]. marrasquino_n1 := n_intr_count_le & [ STEM < "marrasquino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_marrasquino_n_rel" ] ]. marrón_n1 := n_intr_count_le & [ STEM < "marrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marrón_n_rel" ] ]. marronáceo_a1 := a_qual_intr_ser_le & [ STEM < "marronáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_marronáceo_a_rel" ]. marroquí_a1 := a_rel_prd_le & [ STEM < "marroquí" >, SYNSEM.LKEYS.KEYREL.PRED "_marroquí_a_rel" ]. marroquí_n1 := n_intr_count_le & [ STEM < "marroquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marroquí_n_rel" ] ]. marrón_a1 := a_qual_intr_ser_le & [ STEM < "marrón" >, SYNSEM.LKEYS.KEYREL.PRED "_marrón_a_rel" ]. marsellés_a1 := a_rel_prd_le & [ STEM < "marsellés" >, SYNSEM.LKEYS.KEYREL.PRED "_marsellés_a_rel" ]. marsellés_n1 := n_intr_count_le & [ STEM < "marsellés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marsellés_n_rel" ] ]. marsopa_n1 := n_intr_count_le & [ STEM < "marsopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marsopa_n_rel" ] ]. marsupial_a1 := a_rel_nonprd_intr_le & [ STEM < "marsupial" >, SYNSEM.LKEYS.KEYREL.PRED "_marsupial_a_rel" ]. marsupial_n1 := n_intr_count_le & [ STEM < "marsupial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marsupial_n_rel" ] ]. marsupio_n1 := n_intr_count_le & [ STEM < "marsupio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_marsupio_n_rel" ] ]. marta_n1 := n_intr_count_le & [ STEM < "marta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_marta_n_rel" ] ]. martensita_n1 := n_intr_mass_le & [ STEM < "martensita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_martensita_n_rel" ] ]. martillar_v := v_trans_np*_le & [ STEM < "martillar" >, SYNSEM.LKEYS.KEYREL.PRED "_martillar_v_rel" ]. martillear_v := v_trans_np*_le & [ STEM < "martillear" >, SYNSEM.LKEYS.KEYREL.PRED "_martillear_v_rel" ]. martilleo_n1 := n_trans_le & [ STEM < "martilleo" >, SYNSEM.LKEYS.KEYREL.PRED "_martilleo_n_rel" ]. martillete_n1 := n_intr_count_le & [ STEM < "martillete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_martillete_n_rel" ] ]. martillo_n1 := n_intr_count_le & [ STEM < "martillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_martillo_n_rel" ] ]. martinete_n1 := n_intr_count_le & [ STEM < "martinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_martinete_n_rel" ] ]. martingala_n1 := n_intr_count_le & [ STEM < "martingala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_martingala_n_rel" ] ]. martirizar_v1 := v_intr_io*_le & [ STEM < "martirizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_martirizar_v_rel" ] ]. martirizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "martirizar" >, SYNSEM.LKEYS.KEYREL.PRED "_martirizar_v_rel" ]. martirizar_v3 := v_trans_np_le & [ STEM < "martirizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_martirizar_v_rel" ] ]. marxismo_n1 := n_intr_uncount_le & [ STEM < "marxismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marxismo_n_rel" ] ]. marxista_a1 := a_rel_nonprd_intr_le & [ STEM < "marxista" >, SYNSEM.LKEYS.KEYREL.PRED "_marxista_a_rel" ]. marxista_n1 := n_intr_count_le & [ STEM < "marxista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_marxista_n_rel" ] ]. marzo_n1 := n_intr_count_le & [ STEM < "marzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_marzo_n_rel" ] ]. marítimo_a1 := a_rel_nonprd_intr_le & [ STEM < "marítimo" >, SYNSEM.LKEYS.KEYREL.PRED "_marítimo_a_rel" ]. mas_cc := cc_advers_mas_le & [ STEM < "mas" > ]. masa_n1 := n_intr_count_le & [ STEM < "masa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_masa_n_rel" ] ]. masacrar_v := v_trans_np_le & [ STEM < "masacrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_loc_soc, PRED "_masacrar_v_rel" ] ]. masaje_n1 := n_intr_count_le & [ STEM < "masaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masaje_n_rel" ] ]. masajista_n1 := n_intr_count_le & [ STEM < "masajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_masajista_n_rel" ] ]. mascar_v := v_trans_np_le & [ STEM < "mascar" >, SYNSEM.LKEYS.KEYREL.PRED "_mascar_v_rel" ]. mascarada_n1 := n_intr_count_le & [ STEM < "mascarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mascarada_n_rel" ] ]. mascarilla_n1 := n_intr_count_le & [ STEM < "mascarilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mascarilla_n_rel" ] ]. mascarón_n1 := n_intr_count_le & [ STEM < "mascarón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mascarón_n_rel" ] ]. mascota_n1 := n_intr_count_le & [ STEM < "mascota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_mascota_n_rel" ] ]. mascotín_n1 := n_intr_count_le & [ STEM < "mascotín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mascotín_n_rel" ] ]. masculinamente_x1 := av_i_spr_le & [ STEM < "masculinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_masculinamente_x_rel" ]. masculinidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "masculinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masculinidad_n_rel" ] ]. masculino_a1 := a_qual_intr_scopal_le & [ STEM < "masculino" >, SYNSEM.LKEYS.KEYREL.PRED "_masculino_a_rel" ]. mascullar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "mascullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mascullar_v_rel" ] ]. mascullar_v2 := v_ditrans*_le & [ STEM < "mascullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_mascullar_v_rel" ] ]. masetero_a1 := a_rel_nonprd_intr_le & [ STEM < "masetero" >, SYNSEM.LKEYS.KEYREL.PRED "_masetero_a_rel" ]. masetero_n1 := n_intr_count_le & [ STEM < "masetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_masetero_n_rel" ] ]. masicote_n1 := n_intr_count_le & [ STEM < "masicote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_masicote_n_rel" ] ]. masificación_n1 := n_trans_le & [ STEM < "masificación" >, SYNSEM.LKEYS.KEYREL.PRED "_masificación_n_rel" ]. masificar_v := v_trans_np_caus_le & [ STEM < "masificar" >, SYNSEM.LKEYS.KEYREL.PRED "_masificar_v_rel" ]. masilla_n1 := n_intr_mass_le & [ STEM < "masilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_masilla_n_rel" ] ]. masivamente_x1 := av_i_spr_le & [ STEM < "masivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_masivamente_x_rel" ]. maslo_n1 := n_intr_count_le & [ STEM < "maslo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_maslo_n_rel" ] ]. maslo_n2 := n_ppcomp_count_le & [ STEM < "maslo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_maslo_n_rel" ] ]. masonería_n1 := n_intr_coll_le & [ STEM < "masonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masonería_n_rel" ] ]. masoquismo_n1 := n_intr_uncount_le & [ STEM < "masoquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masoquismo_n_rel" ] ]. masoquista_a1 := a_qual_intr_ser_le & [ STEM < "masoquista" >, SYNSEM.LKEYS.KEYREL.PRED "_masoquista_a_rel" ]. masoquista_n1 := n_intr_count_le & [ STEM < "masoquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_masoquista_n_rel" ] ]. mastelero_n1 := n_intr_count_le & [ STEM < "mastelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mastelero_n_rel" ] ]. masticación_n1 := n_trans_le & [ STEM < "masticación" >, SYNSEM.LKEYS.KEYREL.PRED "_masticación_n_rel" ]. masticador_a1 := a_rel_nonprd_intr_le & [ STEM < "masticador" >, SYNSEM.LKEYS.KEYREL.PRED "_masticador_a_rel" ]. masticador_n1 := n_intr_count_le & [ STEM < "masticador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_masticador_n_rel" ] ]. masticar_v := v_trans_np*_le & [ STEM < "masticar" >, SYNSEM.LKEYS.KEYREL.PRED "_masticar_v_rel" ]. masticatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "masticatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_masticatorio_a_rel" ]. mastique_n1 := n_intr_mass_le & [ STEM < "mastique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mastique_n_rel" ] ]. mastocito_n1 := n_intr_count_le & [ STEM < "mastocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mastocito_n_rel" ] ]. mastodonte_n1 := n_intr_count_le & [ STEM < "mastodonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mastodonte_n_rel" ] ]. mastodóntico_a1 := a_qual_intr_scopal_le & [ STEM < "mastodóntico" >, SYNSEM.LKEYS.KEYREL.PRED "_mastodóntico_a_rel" ]. mastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "mastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_mastoideo_a_rel" ]. mastooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "mastooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_mastooccipital_a_rel" ]. mastoparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "mastoparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_mastoparietal_a_rel" ]. mastuerzo_n1 := n_intr_count_le & [ STEM < "mastuerzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_mastuerzo_n_rel" ] ]. masturbación_n1 := n_intr_uncount_le & [ STEM < "masturbación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masturbación_n_rel" ] ]. masturbar_v := v_trans_np_caus_le & [ STEM < "masturbar" >, SYNSEM.LKEYS.KEYREL.PRED "_masturbar_v_rel" ]. mastín_n1 := n_intr_count_le & [ STEM < "mastín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mastín_n_rel" ] ]. masvavisco_n1 := n_intr_count_le & [ STEM < "masvavisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_masvavisco_n_rel" ] ]. masía_n1 := n_intr_count_le & [ STEM < "masía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_masía_n_rel" ] ]. masón_n1 := n_intr_count_le & [ STEM < "masón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_masón_n_rel" ] ]. masónico_a1 := a_rel_nonprd_intr_le & [ STEM < "masónico" >, SYNSEM.LKEYS.KEYREL.PRED "_masónico_a_rel" ]. mata_n1 := n_intr_count_le & [ STEM < "mata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mata_n_rel" ] ]. matacán_n1 := n_intr_count_le & [ STEM < "matacán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_matacán_n_rel" ] ]. matadero_n1 := n_intr_count_le & [ STEM < "matadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_matadero_n_rel" ] ]. matador_a1 := a_qual_intr_scopal_le & [ STEM < "matador" >, SYNSEM.LKEYS.KEYREL.PRED "_matador_a_rel" ]. matafuegos_n1 := n_intr_count_le & [ STEM < "matafuegos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_matafuegos_n_rel" ] ]. matainsectos_n1 := n_intr_count_le & [ STEM < "matainsectos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_matainsectos_n_rel" ] ]. matalahuga_n1 := n_intr_count_le & [ STEM < "matalahuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_matalahuga_n_rel" ] ]. matalahuva_n1 := n_intr_count_le & [ STEM < "matalahuva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_matalahuva_n_rel" ] ]. matalahúva_n1 := n_intr_count_le & [ STEM < "matalahúva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_matalahúva_n_rel" ] ]. matamoscas_n1 := n_intr_count_le & [ STEM < "matamoscas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_matamoscas_n_rel" ] ]. matanza_n1 := n_trans_le & [ STEM < "matanza" >, SYNSEM.LKEYS.KEYREL.PRED "_matanza_n_rel" ]. mataparda_n1 := n_intr_count_le & [ STEM < "mataparda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mataparda_n_rel" ] ]. matar_v1 := v_pron_intr_le & [ STEM < "matar" >, SYNSEM.LKEYS.KEYREL.PRED "_matar_v_rel" ]. matar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "matar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_matar_v_rel" ] ]. matar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "matar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_matar_v_rel" ] ]. matar_v4 := v_trans_np_le & [ STEM < "matar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum_plant_soc, PRED "_matar_v_rel" ] ]. matarife_n1 := n_intr_count_le & [ STEM < "matarife" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matarife_n_rel" ] ]. mataronense_a1 := a_rel_nonprd_intr_le & [ STEM < "mataronense" >, SYNSEM.LKEYS.KEYREL.PRED "_mataronense_a_rel" ]. mataronense_n1 := n_intr_count_le & [ STEM < "mataronense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mataronense_n_rel" ] ]. mataronés_n1 := n_intr_count_le & [ STEM < "mataronés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mataronés_n_rel" ] ]. matarratas_n1 := n_intr_count_le & [ STEM < "matarratas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_matarratas_n_rel" ] ]. matasanos_n1 := n_intr_count_le & [ STEM < "matasanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matasanos_n_rel" ] ]. matasellos_n1 := n_intr_count_le & [ STEM < "matasellos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_matasellos_n_rel" ] ]. mate_a1 := a_rel_nonprd_intr_le & [ STEM < "mate" >, SYNSEM.LKEYS.KEYREL.PRED "_mate_a_rel" ]. mate_n1 := n_intr_count_le & [ STEM < "mate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mate_n_rel" ] ]. mateador_n1 := n_intr_count_le & [ STEM < "mateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mateador_n_rel" ] ]. matematización_n1 := n_trans_le & [ STEM < "matematización" >, SYNSEM.LKEYS.KEYREL.PRED "_matematización_n_rel" ]. matemáticamente_x1 := av_i_spr_le & [ STEM < "matemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_matemáticamente_x_rel" ]. matemático_a1 := a_rel_nonprd_intr_le & [ STEM < "matemático" >, SYNSEM.LKEYS.KEYREL.PRED "_matemático_a_rel" ]. matemático_n1 := n_intr_count_le & [ STEM < "matemático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matemático_n_rel" ] ]. material_a1 := a_rel_nonprd_intr_le & [ STEM < "material" >, SYNSEM.LKEYS.KEYREL.PRED "_material_a_rel" ]. material_n1 := n_intr_count_le & [ STEM < "material" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_material_n_rel" ] ]. materialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "materialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_materialidad_n_rel" ] ]. materialismo_n1 := n_ppcomp_uncount_le & [ STEM < "materialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_materialismo_n_rel" ] ]. materialista_a1 := a_qual_intr_ser_le & [ STEM < "materialista" >, SYNSEM.LKEYS.KEYREL.PRED "_materialista_a_rel" ]. materialista_n1 := n_intr_count_le & [ STEM < "materialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_materialista_n_rel" ] ]. materialización_n1 := n_event-result_intr_le & [ STEM < "materialización" >, SYNSEM.LKEYS.KEYREL.PRED "_materialización_n_rel" ]. materializar_v := v_trans_np_caus_le & [ STEM < "materializar" >, SYNSEM.LKEYS.KEYREL.PRED "_materializar_v_rel" ]. materialmente_x1 := av_i_spr_le & [ STEM < "materialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_materialmente_x_rel" ]. maternal_a1 := a_qual_intr_ser_le & [ STEM < "maternal" >, SYNSEM.LKEYS.KEYREL.PRED "_maternal_a_rel" ]. maternalmente_x1 := av_i_spr_le & [ STEM < "maternalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_maternalmente_x_rel" ]. maternidad_n1 := n_intr_mass_le & [ STEM < "maternidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_maternidad_n_rel" ] ]. materno_a1 := a_rel_nonprd_intr_le & [ STEM < "materno" >, SYNSEM.LKEYS.KEYREL.PRED "_materno_a_rel" ]. matinal_a1 := a_rel_nonprd_intr_le & [ STEM < "matinal" >, SYNSEM.LKEYS.KEYREL.PRED "_matinal_a_rel" ]. matiné_n1 := n_intr_count_le & [ STEM < "matiné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matiné_n_rel" ] ]. matizable_a1 := a_rel_prd_le & [ STEM < "matizable" >, SYNSEM.LKEYS.KEYREL.PRED "_matizable_a_rel" ]. matización_n1 := n_trans_le & [ STEM < "matización" >, SYNSEM.LKEYS.KEYREL.PRED "_matización_n_rel" ]. matorral_n1 := n_intr_count_le & [ STEM < "matorral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_matorral_n_rel" ] ]. matraquear_v := v_trans_np_le & [ STEM < "matraquear" >, SYNSEM.LKEYS.KEYREL.PRED "_matraquear_v_rel" ]. matriarca_n1 := n_intr_count_le & [ STEM < "matriarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matriarca_n_rel" ] ]. matriarcado_n1 := n_intr_count_le & [ STEM < "matriarcado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matriarcado_n_rel" ] ]. matriarcal_a1 := a_rel_nonprd_intr_le & [ STEM < "matriarcal" >, SYNSEM.LKEYS.KEYREL.PRED "_matriarcal_a_rel" ]. matricero_n1 := n_intr_count_le & [ STEM < "matricero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matricero_n_rel" ] ]. matricial_a1 := a_rel_nonprd_intr_le & [ STEM < "matricial" >, SYNSEM.LKEYS.KEYREL.PRED "_matricial_a_rel" ]. matricida_n1 := n_intr_count_le & [ STEM < "matricida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matricida_n_rel" ] ]. matriclán_n1 := n_intr_count_le & [ STEM < "matriclán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_matriclán_n_rel" ] ]. matriculación_n1 := n_trans_le & [ STEM < "matriculación" >, SYNSEM.LKEYS.KEYREL.PRED "_matriculación_n_rel" ]. matrifocal_a1 := a_rel_nonprd_intr_le & [ STEM < "matrifocal" >, SYNSEM.LKEYS.KEYREL.PRED "_matrifocal_a_rel" ]. matrilateral_a1 := a_rel_nonprd_intr_le & [ STEM < "matrilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_matrilateral_a_rel" ]. matrilinaje_n1 := n_intr_count_le & [ STEM < "matrilinaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matrilinaje_n_rel" ] ]. matrilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "matrilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_matrilineal_a_rel" ]. matrilinealidad_n1 := n_intr_uncount_le & [ STEM < "matrilinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matrilinealidad_n_rel" ] ]. matrilinealmente_x1 := av_i_spr_le & [ STEM < "matrilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_matrilinealmente_x_rel" ]. matrilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "matrilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_matrilocal_a_rel" ]. matrilocalidad_n1 := n_intr_uncount_le & [ STEM < "matrilocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matrilocalidad_n_rel" ] ]. matrimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "matrimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_matrimonial_a_rel" ]. matrimonialista_a1 := a_rel_nonprd_intr_le & [ STEM < "matrimonialista" >, SYNSEM.LKEYS.KEYREL.PRED "_matrimonialista_a_rel" ]. matrimonialmente_x1 := av_i_spr_le & [ STEM < "matrimonialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_matrimonialmente_x_rel" ]. matrimonio_n1 := n_intr_count_le & [ STEM < "matrimonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_matrimonio_n_rel" ] ]. matriz_a1 := a_rel_nonprd_intr_le & [ STEM < "matriz" >, SYNSEM.LKEYS.KEYREL.PRED "_matriz_a_rel" ]. matriz_n1 := n_intr_count_le & [ STEM < "matriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_matriz_n_rel" ] ]. matrizado_n1 := n_trans_le & [ STEM < "matrizado" >, SYNSEM.LKEYS.KEYREL.PRED "_matrizado_n_rel" ]. matrizar_v := v_trans_np_le & [ STEM < "matrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_matrizar_v_rel" ]. matrona_n1 := n_intr_count_le & [ STEM < "matrona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matrona_n_rel" ] ]. matrícula_n1 := n_intr_count_le & [ STEM < "matrícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_matrícula_n_rel" ] ]. matutino_n1 := n_intr_count_le & [ STEM < "matutino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_matutino_n_rel" ] ]. matón_n1 := n_intr_count_le & [ STEM < "matón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_matón_n_rel" ] ]. maullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "maullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maullar_v_rel" ] ]. maullar_v2 := v_ditrans*_le & [ STEM < "maullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_maullar_v_rel" ] ]. maullar_v3 := v_intr_le & [ STEM < "maullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_maullar_v_rel" ] ]. maullido_n1 := n_result_intr_le & [ STEM < "maullido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maullido_n_rel" ] ]. mauritano_a1 := a_rel_prd_le & [ STEM < "mauritano" >, SYNSEM.LKEYS.KEYREL.PRED "_mauritano_a_rel" ]. mauritano_n1 := n_intr_count_le & [ STEM < "mauritano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mauritano_n_rel" ] ]. mausoleo_n1 := n_intr_count_le & [ STEM < "mausoleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mausoleo_n_rel" ] ]. maxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilar_a_rel" ]. maxilar_n1 := n_ppcomp_count_le & [ STEM < "maxilar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_maxilar_n_rel" ] ]. maxilectomía_n1 := n_intr_count_le & [ STEM < "maxilectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maxilectomía_n_rel" ] ]. maxilodental_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilodental" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilodental_a_rel" ]. maxilofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilofacial_a_rel" ]. maxilolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilolabial_a_rel" ]. maxilomandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilomandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilomandibular_a_rel" ]. maxilonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilonasal_a_rel" ]. maxilopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "maxilopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_maxilopalatino_a_rel" ]. maximalista_n1 := n_intr_count_le & [ STEM < "maximalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maximalista_n_rel" ] ]. maximización_n1 := n_trans_le & [ STEM < "maximización" >, SYNSEM.LKEYS.KEYREL.PRED "_maximización_n_rel" ]. maximizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "maximizar" >, SYNSEM.LKEYS.KEYREL.PRED "_maximizar_v_rel" ]. maximizar_v2 := v_trans_np_le & [ STEM < "maximizar" >, SYNSEM.LKEYS.KEYREL.PRED "_maximizar_v_rel" ]. maya_a1 := a_rel_prd_le & [ STEM < "maya" >, SYNSEM.LKEYS.KEYREL.PRED "_maya_a_rel" ]. maya_n1 := n_intr_count_le & [ STEM < "maya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maya_n_rel" ] ]. mayal_n1 := n_intr_count_le & [ STEM < "mayal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mayal_n_rel" ] ]. mayo_n1 := n_intr_count_le & [ STEM < "mayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_mayo_n_rel" ] ]. mayonesa_n1 := n_intr_count_le & [ STEM < "mayonesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mayonesa_n_rel" ] ]. mayor_a1 := a_compar_le & [ STEM < "mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_mayor_a_rel" ]. mayor_a2 := a_super_le & [ STEM < "mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_mayor_a_rel" ]. mayor_n1 := n_intr_count_le & [ STEM < "mayor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mayor_n_rel" ] ]. mayoral_n1 := n_intr_count_le & [ STEM < "mayoral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mayoral_n_rel" ] ]. mayorcito_a1 := a_qual_intr_estar_le & [ STEM < "mayorcito" >, SYNSEM.LKEYS.KEYREL.PRED "_mayorcito_a_rel" ]. mayordomo_n1 := n_intr_count_le & [ STEM < "mayordomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mayordomo_n_rel" ] ]. mayoridad_n1 := n_ppcomp_uncount_le & [ STEM < "mayoridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mayoridad_n_rel" ] ]. mayorista_a1 := a_rel_nonprd_intr_le & [ STEM < "mayorista" >, SYNSEM.LKEYS.KEYREL.PRED "_mayorista_a_rel" ]. mayorista_n1 := n_intr_count_le & [ STEM < "mayorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mayorista_n_rel" ] ]. mayoritario_a1 := a_qual_intr_ser_le & [ STEM < "mayoritario" >, SYNSEM.LKEYS.KEYREL.PRED "_mayoritario_a_rel" ]. mayormente_x1 := av_i_foc_le & [ STEM < "mayormente" >, SYNSEM.LKEYS.KEYREL.PRED "_mayormente_x_rel" ]. mayormente_x2 := av_s_cp_prop_le & [ STEM < "mayormente" >, SYNSEM.LKEYS.KEYREL.PRED "_mayormente_x_rel" ]. mayormente_x3 := av_i_np-foc_le & [ STEM < "mayormente" >, SYNSEM.LKEYS.KEYREL.PRED "_mayormente_x_rel" ]. mayoría_n1 := n_part_le & [ STEM < "mayoría" >, SYNSEM.LKEYS.KEYREL.PRED "_mayoría_n_rel" ]. mayúscula_n1 := n_intr_count_le & [ STEM < "mayúscula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mayúscula_n_rel" ] ]. mayúsculo_a1 := a_qual_intr_scopal_le & [ STEM < "mayúsculo" >, SYNSEM.LKEYS.KEYREL.PRED "_mayúsculo_a_rel" ]. maza_n1 := n_intr_count_le & [ STEM < "maza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_maza_n_rel" ] ]. mazapán_n1 := n_intr_count_le & [ STEM < "mazapán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mazapán_n_rel" ] ]. mazarota_n1 := n_intr_count_le & [ STEM < "mazarota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mazarota_n_rel" ] ]. mazazo_n1 := n_intr_count_le & [ STEM < "mazazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mazazo_n_rel" ] ]. mazmorra_n1 := n_intr_count_le & [ STEM < "mazmorra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mazmorra_n_rel" ] ]. mazo_n1 := n_intr_count_le & [ STEM < "mazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mazo_n_rel" ] ]. mazorca_n1 := n_pseudo-part_le & [ STEM < "mazorca" >, SYNSEM.LKEYS.KEYREL.PRED "_mazorca_n_rel" ]. mazurca_n1 := n_intr_count_le & [ STEM < "mazurca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_mazurca_n_rel" ] ]. mazut_n1 := n_intr_count_le & [ STEM < "mazut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mazut_n_rel" ] ]. maíz_n1 := n_intr_count_le & [ STEM < "maíz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_maíz_n_rel" ] ]. mañana_n1 := av_deic_tmp_le & [ STEM < "mañana" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_mañana_x_rel" ]. mañana_n2 := n_intr_temp_le & [ STEM < "mañana" > ]. maño_a1 := a_rel_prd_le & [ STEM < "maño" >, SYNSEM.LKEYS.KEYREL.PRED "_maño_a_rel" ]. maño_n1 := n_intr_count_le & [ STEM < "maño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_maño_n_rel" ] ]. mañosamente_x1 := av_i_spr_le & [ STEM < "mañosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mañosamente_x_rel" ]. mañoso_a1 := a_qual_intr_ser_le & [ STEM < "mañoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mañoso_a_rel" ]. mbit_n := n_intr_count_le & [ STEM < "Mbit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_Mbit_n_rel" ] ]. mbyte_n := n_intr_count_le & [ STEM < "Mbyte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_Mbyte_n_rel" ] ]. me_p := af_acc_or_rflx_or_dat_le & [ STEM < "me" > ]. meandro_n1 := n_intr_count_le & [ STEM < "meandro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_meandro_n_rel" ] ]. mear_v := v_trans_np*_le & [ STEM < "mear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_mear_v_rel" ] ]. meato_n1 := n_intr_count_le & [ STEM < "meato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meato_n_rel" ] ]. meca_n1 := n_intr_count_le & [ STEM < "meca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_meca_n_rel" ] ]. mecanismo_n1 := n_intr_count_le & [ STEM < "mecanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_mecanismo_n_rel" ] ]. mecanizable_a1 := a_rel_prd_le & [ STEM < "mecanizable" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanizable_a_rel" ]. mecanización_n1 := n_trans_le & [ STEM < "mecanización" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanización_n_rel" ]. mecanizado_n1 := n_intr_count_le & [ STEM < "mecanizado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mecanizado_n_rel" ] ]. mecanizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "mecanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanizar_v_rel" ]. mecanizar_v2 := v_trans_np_le & [ STEM < "mecanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanizar_v_rel" ]. mecano_n1 := n_intr_count_le & [ STEM < "mecano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mecano_n_rel" ] ]. mecanodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "mecanodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanodinámico_a_rel" ]. mecanografiar_v := v_trans_np_le & [ STEM < "mecanografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanografiar_v_rel" ]. mecanografía_n1 := n_trans_le & [ STEM < "mecanografía" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanografía_n_rel" ]. mecanográficamente_x1 := av_i_spr_le & [ STEM < "mecanográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanográficamente_x_rel" ]. mecanográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "mecanográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanográfico_a_rel" ]. mecanorregulable_a1 := a_rel_nonprd_intr_le & [ STEM < "mecanorregulable" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanorregulable_a_rel" ]. mecanístico_a1 := a_rel_nonprd_intr_le & [ STEM < "mecanístico" >, SYNSEM.LKEYS.KEYREL.PRED "_mecanístico_a_rel" ]. mecanógrafo_n1 := n_intr_count_le & [ STEM < "mecanógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mecanógrafo_n_rel" ] ]. mecedora_n1 := n_intr_count_le & [ STEM < "mecedora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mecedora_n_rel" ] ]. mecenas_n1 := n_intr_count_le & [ STEM < "mecenas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mecenas_n_rel" ] ]. mecer_v := v_trans_np_caus_le & [ STEM < "mecer" >, SYNSEM.LKEYS.KEYREL.PRED "_mecer_v_rel" ]. mecha_n1 := n_intr_count_le & [ STEM < "mecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mecha_n_rel" ] ]. mechera_n1 := n_intr_count_le & [ STEM < "mechera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mechera_n_rel" ] ]. mechero_n1 := n_intr_count_le & [ STEM < "mechero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mechero_n_rel" ] ]. mechinal_n1 := n_intr_count_le & [ STEM < "mechinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mechinal_n_rel" ] ]. mechón_n1 := n_intr_count_le & [ STEM < "mechón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mechón_n_rel" ] ]. mecánicamente_x1 := av_i_spr_le & [ STEM < "mecánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mecánicamente_x_rel" ]. mecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "mecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_mecánico_a_rel" ]. mecánico_n1 := n_intr_count_le & [ STEM < "mecánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mecánico_n_rel" ] ]. medalla_n1 := n_intr_count_le & [ STEM < "medalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_medalla_n_rel" ] ]. medallero_n1 := n_intr_count_le & [ STEM < "medallero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medallero_n_rel" ] ]. medallista_n1 := n_intr_count_le & [ STEM < "medallista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medallista_n_rel" ] ]. media_n1 := n_intr_count_le & [ STEM < "media" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_media_n_rel" ] ]. mediacaña_n1 := n_intr_count_le & [ STEM < "mediacaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mediacaña_n_rel" ] ]. mediación_n1 := n_result_intr_le & [ STEM < "mediación" >, SYNSEM.LKEYS.KEYREL.PRED "_mediación_n_rel" ]. mediador_a1 := a_rel_nonprd_intr_le & [ STEM < "mediador" >, SYNSEM.LKEYS.KEYREL.PRED "_mediador_a_rel" ]. mediador_n1 := n_subj-nom_le & [ STEM < "mediador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mediador_n_rel" ] ]. medial_a1 := a_rel_nonprd_intr_le & [ STEM < "medial" >, SYNSEM.LKEYS.KEYREL.PRED "_medial_a_rel" ]. medianamente_x1 := av_deg_le & [ STEM < "medianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_medianamente_x_rel" ]. medianero_a1 := a_rel_nonprd_intr_le & [ STEM < "medianero" >, SYNSEM.LKEYS.KEYREL.PRED "_medianero_a_rel" ]. medianero_n1 := n_intr_count_le & [ STEM < "medianero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medianero_n_rel" ] ]. medianería_n1 := n_intr_count_le & [ STEM < "medianería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_medianería_n_rel" ] ]. mediano_a1 := a_adv_event_le & [ STEM < "mediano" >, SYNSEM.LKEYS.KEYREL.PRED "_mediano_a_rel" ]. medianoche_n1 := n_intr_mass_le & [ STEM < "medianoche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_medianoche_n_rel" ] ]. mediante_p_vmod := p_vmod_le & [ STEM < "mediante" >, SYNSEM.LKEYS.KEYREL.PRED _mediante_p_rel ]. mediapunta_n1 := n_intr_count_le & [ STEM < "mediapunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mediapunta_n_rel" ] ]. mediar_v := v_intr_le & [ STEM < "mediar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mediar_v_rel" ] ]. mediastino_n2 := n_ppcomp_count_le & [ STEM < "mediastino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mediastino_n_rel" ] ]. mediastínico_a1 := a_rel_nonprd_intr_le & [ STEM < "mediastínico" >, SYNSEM.LKEYS.KEYREL.PRED "_mediastínico_a_rel" ]. mediateca_n1 := n_intr_count_le & [ STEM < "mediateca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mediateca_n_rel" ] ]. mediatizar_v := v_trans_np_le & [ STEM < "mediatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mediatizar_v_rel" ]. mediato_a1 := a_qual_intr_scopal_le & [ STEM < "mediato" >, SYNSEM.LKEYS.KEYREL.PRED "_mediato_a_rel" ]. medibilidad_n1 := n_intr_uncount_le & [ STEM < "medibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medibilidad_n_rel" ] ]. medible_a1 := a_rel_prd_le & [ STEM < "medible" >, SYNSEM.LKEYS.KEYREL.PRED "_medible_a_rel" ]. medicación_n1 := n_trans_le & [ STEM < "medicación" >, SYNSEM.LKEYS.KEYREL.PRED "_medicación_n_rel" ]. medicalización_n1 := n_trans_le & [ STEM < "medicalización" >, SYNSEM.LKEYS.KEYREL.PRED "_medicalización_n_rel" ]. medicamentazo_n1 := n_intr_count_le & [ STEM < "medicamentazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medicamentazo_n_rel" ] ]. medicamento_n1 := n_intr_count_le & [ STEM < "medicamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_medicamento_n_rel" ] ]. medicamentoso_a1 := a_rel_nonprd_intr_le & [ STEM < "medicamentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_medicamentoso_a_rel" ]. medicina_n1 := n_intr_count_le & [ STEM < "medicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_medicina_n_rel" ] ]. medicinal_a1 := a_rel_nonprd_intr_le & [ STEM < "medicinal" >, SYNSEM.LKEYS.KEYREL.PRED "_medicinal_a_rel" ]. medicinalmente_x1 := av_i_spr_le & [ STEM < "medicinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_medicinalmente_x_rel" ]. medición_n1 := n_trans_le & [ STEM < "medición" >, SYNSEM.LKEYS.KEYREL.PRED "_medición_n_rel" ]. medicoforense_a1 := a_rel_nonprd_intr_le & [ STEM < "medicoforense" >, SYNSEM.LKEYS.KEYREL.PRED "_medicoforense_a_rel" ]. medicoforense_n1 := n_intr_count_le & [ STEM < "medicoforense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medicoforense_n_rel" ] ]. medida_n2 := n_ppcomp_count_le & [ STEM < "medida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medida_n_rel" ] ]. medidor_a1 := a_rel_nonprd_intr_le & [ STEM < "medidor" >, SYNSEM.LKEYS.KEYREL.PRED "_medidor_a_rel" ]. medidor_n1 := n_intr_count_le & [ STEM < "medidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_medidor_n_rel" ] ]. medieval_a1 := a_rel_nonprd_intr_le & [ STEM < "medieval" >, SYNSEM.LKEYS.KEYREL.PRED "_medieval_a_rel" ]. medievalismo_n1 := n_ppcomp_uncount_le & [ STEM < "medievalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medievalismo_n_rel" ] ]. medievalista_n1 := n_intr_count_le & [ STEM < "medievalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medievalista_n_rel" ] ]. medievo_n1 := n_intr_count_le & [ STEM < "medievo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_medievo_n_rel" ] ]. medio_a1 := nu_part-adj_medio_le & [ STEM < "medio" >, SYNSEM.LKEYS.KEYREL.PRED "_medio_a_rel" ]. medio_x1 := av_qnt-deg_le & [ STEM < "medio" >, SYNSEM.LKEYS.KEYREL.PRED "_medio_x_deg_rel" ]. medioambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "medioambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_medioambiental_a_rel" ]. medioambientalista_n1 := n_intr_count_le & [ STEM < "medioambientalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medioambientalista_n_rel" ] ]. medioambientalmente_x1 := av_i_spr_le & [ STEM < "medioambientalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_medioambientalmente_x_rel" ]. mediocampista_n1 := n_intr_count_le & [ STEM < "mediocampista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mediocampista_n_rel" ] ]. mediocampo_n1 := n_intr_count_le & [ STEM < "mediocampo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mediocampo_n_rel" ] ]. mediocarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "mediocarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_mediocarpiano_a_rel" ]. medioclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "medioclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_medioclavicular_a_rel" ]. mediocre_a1 := a_qual_intr_scopal_le & [ STEM < "mediocre" >, SYNSEM.LKEYS.KEYREL.PRED "_mediocre_a_rel" ]. mediocremente_x1 := av_i_spr_le & [ STEM < "mediocremente" >, SYNSEM.LKEYS.KEYREL.PRED "_mediocremente_x_rel" ]. mediocridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "mediocridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mediocridad_n_rel" ] ]. mediodía_n1 := n_intr_count_le & [ STEM < "mediodía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_mediodía_n_rel" ] ]. mediofondista_n1 := n_intr_count_le & [ STEM < "mediofondista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mediofondista_n_rel" ] ]. mediotarsiano_a1 := a_rel_nonprd_intr_le & [ STEM < "mediotarsiano" >, SYNSEM.LKEYS.KEYREL.PRED "_mediotarsiano_a_rel" ]. meditabundo_a1 := a_qual_intr_estar_le & [ STEM < "meditabundo" >, SYNSEM.LKEYS.KEYREL.PRED "_meditabundo_a_rel" ]. meditación_n1 := n_trans_le & [ STEM < "meditación" >, SYNSEM.LKEYS.KEYREL.PRED "_meditación_n_rel" ]. meditadamente_x1 := av_i_spr_le & [ STEM < "meditadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_meditadamente_x_rel" ]. meditar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "meditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_meditar_v_rel" ] ]. meditar_v2 := v_trans_np*_le & [ STEM < "meditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_meditar_v_rel" ] ]. mediterráneo_a1 := a_rel_prd_le & [ STEM < "mediterráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_mediterráneo_a_rel" ]. mediáticamente_x1 := av_i_spr_le & [ STEM < "mediáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mediáticamente_x_rel" ]. mediático_a1 := a_rel_nonprd_intr_le & [ STEM < "mediático" >, SYNSEM.LKEYS.KEYREL.PRED "_mediático_a_rel" ]. medo_n1 := n_intr_count_le & [ STEM < "medo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_medo_n_rel" ] ]. medrar_v := v_unacc_perf_le & [ STEM < "medrar" >, SYNSEM.LKEYS.KEYREL.PRED "_medrar_v_rel" ]. medroso_a1 := a_qual_intr_ser_le & [ STEM < "medroso" >, SYNSEM.LKEYS.KEYREL.PRED "_medroso_a_rel" ]. medulado_a1 := a_rel_nonprd_intr_le & [ STEM < "medulado" >, SYNSEM.LKEYS.KEYREL.PRED "_medulado_a_rel" ]. medular_a1 := a_rel_nonprd_intr_le & [ STEM < "medular" >, SYNSEM.LKEYS.KEYREL.PRED "_medular_a_rel" ]. medusa_n1 := n_intr_count_le & [ STEM < "medusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_medusa_n_rel" ] ]. mefistofélicamente_x1 := av_i_spr_le & [ STEM < "mefistofélicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mefistofélicamente_x_rel" ]. mefistofélico_a1 := a_rel_nonprd_intr_le & [ STEM < "mefistofélico" >, SYNSEM.LKEYS.KEYREL.PRED "_mefistofélico_a_rel" ]. mega_n := n_intr_count_le & [ STEM < "mega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_mega_n_rel" ] ]. megabit_n := n_intr_count_le & [ STEM < "megabit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megabit_n_rel" ] ]. megabit_por_segundo_n := n_intr_count_le & [ STEM < "megabit_por_segundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megabit_por_segundo_n_rel" ] ]. megabyte_n := n_intr_count_le & [ STEM < "megabyte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megabyte_n_rel" ] ]. megacarioblasto_n1 := n_intr_count_le & [ STEM < "megacarioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megacarioblasto_n_rel" ] ]. megacariocito_n1 := n_intr_count_le & [ STEM < "megacariocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megacariocito_n_rel" ] ]. megacefalia_n1 := n_intr_count_le & [ STEM < "megacefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megacefalia_n_rel" ] ]. megadontismo_n1 := n_intr_uncount_le & [ STEM < "megadontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megadontismo_n_rel" ] ]. megafonía_n1 := n_intr_uncount_pl_le & [ STEM < "megafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megafonía_n_rel" ] ]. megahercio_n := n_intr_count_le & [ STEM < "megahercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megahercio_n_rel" ] ]. megahertzio_n := n_intr_count_le & [ STEM < "megahertzio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megahertzio_n_rel" ] ]. megajulio_n := n_intr_count_le & [ STEM < "megajulio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megajulio_n_rel" ] ]. megalito_n1 := n_intr_count_le & [ STEM < "megalito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megalito_n_rel" ] ]. megaloblasto_n1 := n_intr_count_le & [ STEM < "megaloblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megaloblasto_n_rel" ] ]. megaloblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "megaloblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_megaloblástico_a_rel" ]. megalocariocito_n1 := n_intr_count_le & [ STEM < "megalocariocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megalocariocito_n_rel" ] ]. megalocito_n1 := n_intr_count_le & [ STEM < "megalocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megalocito_n_rel" ] ]. megalocórnea_n1 := n_ppcomp_count_le & [ STEM < "megalocórnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_megalocórnea_n_rel" ] ]. megalodoncia_n1 := n_intr_uncount_le & [ STEM < "megalodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megalodoncia_n_rel" ] ]. megalomanía_n1 := n_intr_uncount_pl_le & [ STEM < "megalomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megalomanía_n_rel" ] ]. megalomaníaco_a1 := a_qual_intr_ser_le & [ STEM < "megalomaníaco" >, SYNSEM.LKEYS.KEYREL.PRED "_megalomaníaco_a_rel" ]. megalomaníaco_n1 := n_intr_count_le & [ STEM < "megalomaníaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_megalomaníaco_n_rel" ] ]. megalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "megalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_megalítico_a_rel" ]. megalópolis_n1 := n_intr_count_le & [ STEM < "megalópolis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_megalópolis_n_rel" ] ]. meganewton_n := n_intr_count_le & [ STEM < "meganewton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_meganewton_n_rel" ] ]. megaocteto_n := n_intr_count_le & [ STEM < "megaocteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megaocteto_n_rel" ] ]. megapascal_n := n_intr_count_le & [ STEM < "megapascal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megapascal_n_rel" ] ]. megarón_n1 := n_intr_count_le & [ STEM < "megarón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megarón_n_rel" ] ]. megasporocito_n1 := n_intr_count_le & [ STEM < "megasporocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megasporocito_n_rel" ] ]. megatérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "megatérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_megatérmico_a_rel" ]. megatón_n := n_intr_count_le & [ STEM < "megatón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megatón_n_rel" ] ]. megavatio_n := n_intr_count_le & [ STEM < "megavatio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megavatio_n_rel" ] ]. megawatio_n1 := n_intr_count_le & [ STEM < "megawatio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_megawatio_n_rel" ] ]. meggiorista_n1 := n_intr_count_le & [ STEM < "meggiorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_meggiorista_n_rel" ] ]. megáfono_n1 := n_intr_count_le & [ STEM < "megáfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_megáfono_n_rel" ] ]. meiocito_n1 := n_intr_count_le & [ STEM < "meiocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meiocito_n_rel" ] ]. meiosoma_n1 := n_intr_count_le & [ STEM < "meiosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meiosoma_n_rel" ] ]. meiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "meiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_meiótico_a_rel" ]. mejicano_a1 := a_rel_prd_le & [ STEM < "mejicano" >, SYNSEM.LKEYS.KEYREL.PRED "_mejicano_a_rel" ]. mejicano_n1 := n_intr_count_le & [ STEM < "mejicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mejicano_n_rel" ] ]. mejilla_n1 := n_ppcomp_count_le & [ STEM < "mejilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mejilla_n_rel" ] ]. mejillón_n1 := n_intr_count_le & [ STEM < "mejillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mejillón_n_rel" ] ]. mejor_a1 := a_compar_le & [ STEM < "mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_mejor_a_rel" ]. mejor_a2 := a_super_le & [ STEM < "mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_mejor_a_rel" ]. mejor_x1 := av_s_spr_le & [ STEM < "mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_mejor_x_rel" ]. mejorable_a1 := a_rel_prd_le & [ STEM < "mejorable" >, SYNSEM.LKEYS.KEYREL.PRED "_mejorable_a_rel" ]. mejorador_a1 := a_rel_nonprd_intr_le & [ STEM < "mejorador" >, SYNSEM.LKEYS.KEYREL.PRED "_mejorador_a_rel" ]. mejoramiento_n1 := n_trans_le & [ STEM < "mejoramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_mejoramiento_n_rel" ]. mejorana_n1 := n_intr_count_le & [ STEM < "mejorana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mejorana_n_rel" ] ]. mejorar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "mejorar" >, SYNSEM.LKEYS.KEYREL.PRED "_mejorar_v_rel" ]. mejorar_v2 := v_trans_np_caus_int_le & [ STEM < "mejorar" >, SYNSEM.LKEYS.KEYREL.PRED "_mejorar_v_rel" ]. mejoría_n1 := n_intr_mass_le & [ STEM < "mejoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mejoría_n_rel" ] ]. melado_a1 := a_qual_intr_ser_le & [ STEM < "melado" >, SYNSEM.LKEYS.KEYREL.PRED "_melado_a_rel" ]. melamina_n1 := n_intr_mass-or-count_le & [ STEM < "melamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_melamina_n_rel" ] ]. melancolía_n1 := n_intr_mass_le & [ STEM < "melancolía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melancolía_n_rel" ] ]. melancólicamente_x1 := av_i_spr_le & [ STEM < "melancólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_melancólicamente_x_rel" ]. melancólico_a1 := a_qual_intr_scopal_le & [ STEM < "melancólico" >, SYNSEM.LKEYS.KEYREL.PRED "_melancólico_a_rel" ]. melanina_n1 := n_intr_count_le & [ STEM < "melanina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_melanina_n_rel" ] ]. melanita_n1 := n_intr_count_le & [ STEM < "melanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_melanita_n_rel" ] ]. melanocito_n1 := n_intr_count_le & [ STEM < "melanocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melanocito_n_rel" ] ]. melanoma_n1 := n_ppcomp_count_le & [ STEM < "melanoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_melanoma_n_rel" ] ]. melaza_n1 := n_intr_count_le & [ STEM < "melaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melaza_n_rel" ] ]. meldómetro_n1 := n_intr_count_le & [ STEM < "meldómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meldómetro_n_rel" ] ]. melena_n1 := n_intr_count_le & [ STEM < "melena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melena_n_rel" ] ]. melifluo_a1 := a_qual_intr_ser_le & [ STEM < "melifluo" >, SYNSEM.LKEYS.KEYREL.PRED "_melifluo_a_rel" ]. melillense_n1 := n_intr_count_le & [ STEM < "melillense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_melillense_n_rel" ] ]. meliloto_n1 := n_intr_count_le & [ STEM < "meliloto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_meliloto_n_rel" ] ]. melindre_n1 := n_intr_count_le & [ STEM < "melindre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melindre_n_rel" ] ]. melindro_n1 := n_intr_count_le & [ STEM < "melindro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melindro_n_rel" ] ]. melindroso_a1 := a_qual_intr_scopal_le & [ STEM < "melindroso" >, SYNSEM.LKEYS.KEYREL.PRED "_melindroso_a_rel" ]. meliorativo_a1 := a_rel_nonprd_intr_le & [ STEM < "meliorativo" >, SYNSEM.LKEYS.KEYREL.PRED "_meliorativo_a_rel" ]. melisa_n1 := n_intr_mass_le & [ STEM < "melisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_melisa_n_rel" ] ]. melitosa_n1 := n_intr_count_le & [ STEM < "melitosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_melitosa_n_rel" ] ]. mella_n1 := n_intr_count_le & [ STEM < "mella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mella_n_rel" ] ]. mellitus_a1 := a_rel_nonprd_intr_le & [ STEM < "mellitus" >, SYNSEM.LKEYS.KEYREL.PRED "_mellitus_a_rel" ]. mellizo_a1 := a_rel_nonprd_intr_le & [ STEM < "mellizo" >, SYNSEM.LKEYS.KEYREL.PRED "_mellizo_a_rel" ]. mellizo_n1 := n_intr_count_le & [ STEM < "mellizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mellizo_n_rel" ] ]. melocotonero_n1 := n_intr_count_le & [ STEM < "melocotonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_melocotonero_n_rel" ] ]. melocotón_n1 := n_intr_count_le & [ STEM < "melocotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melocotón_n_rel" ] ]. melodiosamente_x1 := av_i_spr_le & [ STEM < "melodiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_melodiosamente_x_rel" ]. melodioso_a1 := a_qual_intr_scopal_le & [ STEM < "melodioso" >, SYNSEM.LKEYS.KEYREL.PRED "_melodioso_a_rel" ]. melodista_n1 := n_intr_count_le & [ STEM < "melodista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_melodista_n_rel" ] ]. melodramáticamente_x1 := av_i_spr_le & [ STEM < "melodramáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_melodramáticamente_x_rel" ]. melodramático_a1 := a_qual_intr_scopal_le & [ STEM < "melodramático" >, SYNSEM.LKEYS.KEYREL.PRED "_melodramático_a_rel" ]. melodía_n1 := n_intr_count_le & [ STEM < "melodía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melodía_n_rel" ] ]. melomanía_n1 := n_intr_uncount_pl_le & [ STEM < "melomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melomanía_n_rel" ] ]. meloso_a1 := a_qual_intr_scopal_le & [ STEM < "meloso" >, SYNSEM.LKEYS.KEYREL.PRED "_meloso_a_rel" ]. melusina_n1 := n_intr_mass_le & [ STEM < "melusina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_melusina_n_rel" ] ]. melva_n1 := n_intr_count_le & [ STEM < "melva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_melva_n_rel" ] ]. melódicamente_x1 := av_i_spr_le & [ STEM < "melódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_melódicamente_x_rel" ]. melódico_a1 := a_qual_intr_scopal_le & [ STEM < "melódico" >, SYNSEM.LKEYS.KEYREL.PRED "_melódico_a_rel" ]. melón_n1 := n_intr_count_le & [ STEM < "melón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_melón_n_rel" ] ]. membrana_n1 := n_intr_count_le & [ STEM < "membrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_membrana_n_rel" ] ]. membranoproliferativo_a1 := a_rel_nonprd_intr_le & [ STEM < "membranoproliferativo" >, SYNSEM.LKEYS.KEYREL.PRED "_membranoproliferativo_a_rel" ]. membranoso_a1 := a_qual_intr_scopal_le & [ STEM < "membranoso" >, SYNSEM.LKEYS.KEYREL.PRED "_membranoso_a_rel" ]. membrillo_n1 := n_intr_count_le & [ STEM < "membrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_membrillo_n_rel" ] ]. memez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "memez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_memez_n_rel" ] ]. memo_n1 := n_intr_count_le & [ STEM < "memo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_memo_n_rel" ] ]. memorabilidad_n1 := n_intr_uncount_le & [ STEM < "memorabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_memorabilidad_n_rel" ] ]. memorable_a1 := a_qual_intr_scopal_le & [ STEM < "memorable" >, SYNSEM.LKEYS.KEYREL.PRED "_memorable_a_rel" ]. memorablemente_x1 := av_i_spr_le & [ STEM < "memorablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_memorablemente_x_rel" ]. memorando_n1 := n_intr_count_le & [ STEM < "memorando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_memorando_n_rel" ] ]. memoria_n1 := n_intr_count_le & [ STEM < "memoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_memoria_n_rel" ] ]. memorial_n1 := n_intr_count_le & [ STEM < "memorial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_memorial_n_rel" ] ]. memorización_n1 := n_trans_le & [ STEM < "memorización" >, SYNSEM.LKEYS.KEYREL.PRED "_memorización_n_rel" ]. memorizar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "memorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_memorizar_v_rel" ] ]. memorizar_v2 := v_trans_np_le & [ STEM < "memorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_memorizar_v_rel" ] ]. memorándum_n1 := n_intr_count_le & [ STEM < "memorándum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_memorándum_n_rel" ] ]. mena_n1 := n_intr_mass-or-count_le & [ STEM < "mena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_mena_n_rel" ] ]. menaje_n1 := n_intr_coll_le & [ STEM < "menaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menaje_n_rel" ] ]. menchevique_n1 := n_intr_count_le & [ STEM < "menchevique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_menchevique_n_rel" ] ]. mencionar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "mencionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mencionar_v_rel" ] ]. mencionar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "mencionar" >, SYNSEM.LKEYS.KEYREL.PRED "_mencionar_v_rel" ]. mencionar_v3 := v_ditrans*_le & [ STEM < "mencionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mencionar_v_rel" ] ]. mención_n1 := n_intr_count_le & [ STEM < "mención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mención_n_rel" ] ]. mendaz_a1 := a_rel_nonprd_intr_le & [ STEM < "mendaz" >, SYNSEM.LKEYS.KEYREL.PRED "_mendaz_a_rel" ]. mendelevio_n1 := n_intr_mass_le & [ STEM < "mendelevio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mendelevio_n_rel" ] ]. mendicante_a1 := a_rel_nonprd_intr_le & [ STEM < "mendicante" >, SYNSEM.LKEYS.KEYREL.PRED "_mendicante_a_rel" ]. mendicantemente_x1 := av_i_spr_le & [ STEM < "mendicantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_mendicantemente_x_rel" ]. mendicidad_n1 := n_event-result_intr_le & [ STEM < "mendicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mendicidad_n_rel" ] ]. mendigar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "mendigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mendigar_v_rel" ] ]. mendigar_v2 := v_trans_np*_io*_le & [ STEM < "mendigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mendigar_v_rel" ] ]. mendigo_n1 := n_intr_count_le & [ STEM < "mendigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mendigo_n_rel" ] ]. menear_v := v_trans_np_caus_le & [ STEM < "menear" >, SYNSEM.LKEYS.KEYREL.PRED "_menear_v_rel" ]. meneo_n1 := n_trans_le & [ STEM < "meneo" >, SYNSEM.LKEYS.KEYREL.PRED "_meneo_n_rel" ]. menestral_n1 := n_intr_count_le & [ STEM < "menestral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_menestral_n_rel" ] ]. menestralía_n1 := n_intr_count_le & [ STEM < "menestralía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_menestralía_n_rel" ] ]. menguante_a1 := a_rel_nonprd_intr_le & [ STEM < "menguante" >, SYNSEM.LKEYS.KEYREL.PRED "_menguante_a_rel" ]. menguar_v := v_intr_le & [ STEM < "menguar" >, SYNSEM.LKEYS.KEYREL.PRED "_menguar_v_rel" ]. menhir_n1 := n_intr_count_le & [ STEM < "menhir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_menhir_n_rel" ] ]. meninge_n1 := n_ppcomp_count_le & [ STEM < "meninge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_meninge_n_rel" ] ]. menisco_n1 := n_intr_count_le & [ STEM < "menisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_menisco_n_rel" ] ]. menisco_n2 := n_ppcomp_count_le & [ STEM < "menisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_menisco_n_rel" ] ]. meniscofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "meniscofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_meniscofemoral_a_rel" ]. menopausia_n1 := n_intr_uncount_le & [ STEM < "menopausia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menopausia_n_rel" ] ]. menor_a1 := a_compar_le & [ STEM < " menor" >, SYNSEM.LKEYS.KEYREL.PRED "_ menor_a_rel" ]. menor_a2 := a_super_le & [ STEM < " menor" >, SYNSEM.LKEYS.KEYREL.PRED "_ menor_a_rel" ]. menor_n1 := n_intr_count_le & [ STEM < "menor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_menor_n_rel" ] ]. menorquín_a1 := a_rel_prd_le & [ STEM < "menorquín" >, SYNSEM.LKEYS.KEYREL.PRED "_menorquín_a_rel" ]. menorquín_n1 := n_intr_count_le & [ STEM < "menorquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_menorquín_n_rel" ] ]. menos_x2 := av_cmp-deg_le & [ STEM < "menos" >, SYNSEM.LKEYS.KEYREL.PRED "_menos_x_deg_rel" ]. menos_x3 := d_cmp_menos_le & [ STEM < "menos" > ]. menos_x4 := d_cmp_numb_menos_le & [ STEM < "menos" > ]. menoscabar_v := v_trans_np_le & [ STEM < "menoscabar" >, SYNSEM.LKEYS.KEYREL.PRED "_menoscabar_v_rel" ]. menospreciablamente_x1 := av_i_spr_le & [ STEM < "menospreciablamente" >, SYNSEM.LKEYS.KEYREL.PRED "_menospreciablamente_x_rel" ]. menospreciable_a1 := a_qual_intr_scopal_le & [ STEM < "menospreciable" >, SYNSEM.LKEYS.KEYREL.PRED "_menospreciable_a_rel" ]. menospreciar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "menospreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_menospreciar_v_rel" ] ]. menospreciar_v2 := v_trans_np_le & [ STEM < "menospreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_menospreciar_v_rel" ] ]. menospreciativo_a1 := a_qual_intr_ser_le & [ STEM < "menospreciativo" >, SYNSEM.LKEYS.KEYREL.PRED "_menospreciativo_a_rel" ]. mensaje_n1 := n_intr_count_le & [ STEM < "mensaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_mensaje_n_rel" ] ]. mensajero_a1 := a_rel_nonprd_intr_le & [ STEM < "mensajero" >, SYNSEM.LKEYS.KEYREL.PRED "_mensajero_a_rel" ]. mensajero_n1 := n_intr_count_le & [ STEM < "mensajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mensajero_n_rel" ] ]. mensajería_n1 := n_intr_count_le & [ STEM < "mensajería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_mensajería_n_rel" ] ]. menstruación_n1 := n_result_intr_le & [ STEM < "menstruación" >, SYNSEM.LKEYS.KEYREL.PRED "_menstruación_n_rel" ]. menstrual_a1 := a_rel_nonprd_intr_le & [ STEM < "menstrual" >, SYNSEM.LKEYS.KEYREL.PRED "_menstrual_a_rel" ]. menstruar_v := v_intr_le & [ STEM < "menstruar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_menstruar_v_rel" ] ]. mensual_a1 := a_rel_prd_le & [ STEM < "mensual" >, SYNSEM.LKEYS.KEYREL.PRED "_mensual_a_rel" ]. mensualidad_n1 := n_intr_count_le & [ STEM < "mensualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mensualidad_n_rel" ] ]. mensualmente_x1 := av_s_prhd_le & [ STEM < "mensualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mensualmente_x_rel" ]. mensualmente_x2 := av_i_psthd_le & [ STEM < "mensualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mensualmente_x_rel" ]. mensular_a1 := a_rel_nonprd_intr_le & [ STEM < "mensular" >, SYNSEM.LKEYS.KEYREL.PRED "_mensular_a_rel" ]. mensura_n1 := n_intr_count_le & [ STEM < "mensura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mensura_n_rel" ] ]. mensurable_a1 := a_rel_nonprd_intr_le & [ STEM < "mensurable" >, SYNSEM.LKEYS.KEYREL.PRED "_mensurable_a_rel" ]. mensáfono_n1 := n_intr_count_le & [ STEM < "mensáfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mensáfono_n_rel" ] ]. menta_n1 := n_intr_mass_le & [ STEM < "menta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_menta_n_rel" ] ]. mental_a1 := a_rel_nonprd_intr_le & [ STEM < "mental" >, SYNSEM.LKEYS.KEYREL.PRED "_mental_a_rel" ]. mentalidad_n1 := n_intr_uncount_le & [ STEM < "mentalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mentalidad_n_rel" ] ]. mentalidad_n2 := n_intr_count_le & [ STEM < "mentalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mentalidad_n_rel" ] ]. mentalizar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "mentalizar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_mentalizar_v_rel" ] ]. mentalizar_v2 := v_trans_np_le & [ STEM < "mentalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mentalizar_v_rel" ]. mentalmente_x1 := av_i_spr_le & [ STEM < "mentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mentalmente_x_rel" ]. mentanodiamina_n1 := n_intr_count_le & [ STEM < "mentanodiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mentanodiamina_n_rel" ] ]. mentar_v := v_trans_np_le & [ STEM < "mentar" >, SYNSEM.LKEYS.KEYREL.PRED "_mentar_v_rel" ]. mentecato_a1 := a_qual_intr_ser_le & [ STEM < "mentecato" >, SYNSEM.LKEYS.KEYREL.PRED "_mentecato_a_rel" ]. mentir_v := v_intr_io*_le & [ STEM < "mentir" >, SYNSEM.LKEYS.KEYREL.PRED "_mentir_v_rel" ]. mentirosamente_x1 := av_i_spr_le & [ STEM < "mentirosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mentirosamente_x_rel" ]. mentiroso_a1 := a_qual_intr_ser_le & [ STEM < "mentiroso" >, SYNSEM.LKEYS.KEYREL.PRED "_mentiroso_a_rel" ]. mentiroso_n1 := n_intr_count_le & [ STEM < "mentiroso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mentiroso_n_rel" ] ]. mentol_n1 := n_intr_mass_le & [ STEM < "mentol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mentol_n_rel" ] ]. mentolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "mentolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_mentolabial_a_rel" ]. mentolado_a1 := a_rel_nonprd_intr_le & [ STEM < "mentolado" >, SYNSEM.LKEYS.KEYREL.PRED "_mentolado_a_rel" ]. mentona_n1 := n_intr_mass-or-count_le & [ STEM < "mentona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_mentona_n_rel" ] ]. mentonera_n2 := n_ppcomp_count_le & [ STEM < "mentonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mentonera_n_rel" ] ]. mentoniano_a1 := a_rel_nonprd_intr_le & [ STEM < "mentoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_mentoniano_a_rel" ]. mentor_n1 := n_subj-nom_le & [ STEM < "mentor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mentor_n_rel" ] ]. mentón_n1 := n_ppcomp_count_le & [ STEM < "mentón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mentón_n_rel" ] ]. menudear_v := v_trans_np_caus_int_le & [ STEM < "menudear" >, SYNSEM.LKEYS.KEYREL.PRED "_menudear_v_rel" ]. menudencia_n1 := n_intr_uncount_le & [ STEM < "menudencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menudencia_n_rel" ] ]. menudillo_n1 := n_ppcomp_count_le & [ STEM < "menudillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_menudillo_n_rel" ] ]. menudo_a1 := a_qual_intr_scopal_le & [ STEM < "menudo" >, SYNSEM.LKEYS.KEYREL.PRED "_menudo_a_rel" ]. meníngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "meníngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_meníngeo_a_rel" ]. menú_n1 := n_intr_count_le & [ STEM < "menú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_menú_n_rel" ] ]. mequetrefe_n1 := n_intr_count_le & [ STEM < "mequetrefe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mequetrefe_n_rel" ] ]. meramente_x1 := av_i_foc_le & [ STEM < "meramente" >, SYNSEM.LKEYS.KEYREL.PRED "_meramente_x_rel" ]. meramente_x2 := av_s_cp_prop_le & [ STEM < "meramente" >, SYNSEM.LKEYS.KEYREL.PRED "_meramente_x_rel" ]. meramente_x3 := av_i_np-foc_le & [ STEM < "meramente" >, SYNSEM.LKEYS.KEYREL.PRED "_meramente_x_rel" ]. meranti_n1 := n_intr_count_le & [ STEM < "meranti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_meranti_n_rel" ] ]. mercadeo_n1 := n_result_intr_le & [ STEM < "mercadeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mercadeo_n_rel" ] ]. mercader_n1 := n_intr_count_le & [ STEM < "mercader" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mercader_n_rel" ] ]. mercadería_n1 := n_intr_count_le & [ STEM < "mercadería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mercadería_n_rel" ] ]. mercadillo_n1 := n_intr_count_le & [ STEM < "mercadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mercadillo_n_rel" ] ]. mercado_n1 := n_intr_count_le & [ STEM < "mercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_mercado_n_rel" ] ]. mercadología_n1 := n_intr_uncount_pl_le & [ STEM < "mercadología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mercadología_n_rel" ] ]. mercadotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "mercadotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_mercadotécnico_a_rel" ]. mercancía_n1 := n_intr_count_le & [ STEM < "mercancía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mercancía_n_rel" ] ]. mercante_a1 := a_rel_nonprd_intr_le & [ STEM < "mercante" >, SYNSEM.LKEYS.KEYREL.PRED "_mercante_a_rel" ]. mercantil_a1 := a_rel_nonprd_intr_le & [ STEM < "mercantil" >, SYNSEM.LKEYS.KEYREL.PRED "_mercantil_a_rel" ]. mercantilismo_n1 := n_intr_uncount_le & [ STEM < "mercantilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mercantilismo_n_rel" ] ]. mercantilista_a1 := a_rel_nonprd_intr_le & [ STEM < "mercantilista" >, SYNSEM.LKEYS.KEYREL.PRED "_mercantilista_a_rel" ]. mercantilista_n1 := n_intr_count_le & [ STEM < "mercantilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mercantilista_n_rel" ] ]. mercantilizar_v := v_trans_np_le & [ STEM < "mercantilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mercantilizar_v_rel" ]. mercaptoetanol_n1 := n_intr_count_le & [ STEM < "mercaptoetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mercaptoetanol_n_rel" ] ]. mercaptotiazolina_n1 := n_intr_count_le & [ STEM < "mercaptotiazolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mercaptotiazolina_n_rel" ] ]. merced_a_que_sc := sc_prop_fin_le & [ STEM < "merced_a_que" >, SYNSEM.LKEYS.KEYREL.PRED "_merced_a_que_x_subord_rel" ]. mercedario_a1 := a_rel_prd_le & [ STEM < "mercedario" >, SYNSEM.LKEYS.KEYREL.PRED "_mercedario_a_rel" ]. mercedario_n1 := n_intr_count_le & [ STEM < "mercedario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mercedario_n_rel" ] ]. mercenario_a1 := a_rel_nonprd_intr_le & [ STEM < "mercenario" >, SYNSEM.LKEYS.KEYREL.PRED "_mercenario_a_rel" ]. mercenario_n1 := n_intr_count_le & [ STEM < "mercenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mercenario_n_rel" ] ]. mercerizar_v := v_trans_np_le & [ STEM < "mercerizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mercerizar_v_rel" ]. mercero_n1 := n_intr_count_le & [ STEM < "mercero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mercero_n_rel" ] ]. mercería_n1 := n_intr_count_le & [ STEM < "mercería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_mercería_n_rel" ] ]. merchandise_n1 := n_intr_count_le & [ STEM < "merchandise" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_merchandise_n_rel" ] ]. mercurial_a1 := a_rel_nonprd_intr_le & [ STEM < "mercurial" >, SYNSEM.LKEYS.KEYREL.PRED "_mercurial_a_rel" ]. mercurio_n1 := n_intr_mass_le & [ STEM < "mercurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mercurio_n_rel" ] ]. mercurioso_a1 := a_rel_nonprd_intr_le & [ STEM < "mercurioso" >, SYNSEM.LKEYS.KEYREL.PRED "_mercurioso_a_rel" ]. mercúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "mercúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_mercúrico_a_rel" ]. merecedor_a1 := a_qual_trans_ser_le & [ STEM < "merecedor" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_merecedor_a_rel" ] ]. merecer_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_merecer_v_rel" ] ]. merecer_v2 := v_ditrans_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_merecer_v_rel" ] ]. merecer_v3 := v_pron_trans_np_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL.PRED "_merecer_v_rel" ]. merecer_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL.PRED "_merecer_v_rel" ]. merecer_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL.PRED "_merecer_v_rel" ]. merecer_v6 := v_trans_cp_prop_fin_sub_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_merecer_v_rel" ] ]. merecer_v7 := v_trans_np_le & [ STEM < "merecer" >, SYNSEM.LKEYS.KEYREL.PRED "_merecer_v_rel" ]. merecidamente_x1 := av_i_spr_le & [ STEM < "merecidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_merecidamente_x_rel" ]. merecimiento_n1 := n_trans_le & [ STEM < "merecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_merecimiento_n_rel" ]. merendero_n1 := n_intr_count_le & [ STEM < "merendero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_merendero_n_rel" ] ]. merengue_n1 := n_intr_count_le & [ STEM < "merengue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_merengue_n_rel" ] ]. mergo_n1 := n_intr_count_le & [ STEM < "mergo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mergo_n_rel" ] ]. merideño_n1 := n_intr_count_le & [ STEM < "merideño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_merideño_n_rel" ] ]. meridiano_a1 := a_rel_nonprd_intr_le & [ STEM < "meridiano" >, SYNSEM.LKEYS.KEYREL.PRED "_meridiano_a_rel" ]. meridional_a1 := a_rel_nonprd_intr_le & [ STEM < "meridional" >, SYNSEM.LKEYS.KEYREL.PRED "_meridional_a_rel" ]. merillo_n1 := n_intr_count_le & [ STEM < "merillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_merillo_n_rel" ] ]. merino_a1 := a_rel_nonprd_intr_le & [ STEM < "merino" >, SYNSEM.LKEYS.KEYREL.PRED "_merino_a_rel" ]. meristemo_n1 := n_intr_count_le & [ STEM < "meristemo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meristemo_n_rel" ] ]. meristemático_a1 := a_rel_nonprd_intr_le & [ STEM < "meristemático" >, SYNSEM.LKEYS.KEYREL.PRED "_meristemático_a_rel" ]. meritorio_a1 := a_qual_intr_scopal_le & [ STEM < "meritorio" >, SYNSEM.LKEYS.KEYREL.PRED "_meritorio_a_rel" ]. merleta_n1 := n_intr_count_le & [ STEM < "merleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_merleta_n_rel" ] ]. merlo_n1 := n_intr_count_le & [ STEM < "merlo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_merlo_n_rel" ] ]. merluza_n1 := n_intr_count_le & [ STEM < "merluza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_merluza_n_rel" ] ]. merlín_n1 := n_intr_count_le & [ STEM < "merlín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_merlín_n_rel" ] ]. mermar_v := v_trans_np*_caus_le & [ STEM < "mermar" >, SYNSEM.LKEYS.KEYREL.PRED "_mermar_v_rel" ]. mermelada_n1 := n_intr_mass_le & [ STEM < "mermelada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mermelada_n_rel" ] ]. mero_a1 := a_adv_int_le & [ STEM < "mero" >, SYNSEM.LKEYS.KEYREL.PRED "_mero_a_rel" ]. mero_n1 := n_intr_count_le & [ STEM < "mero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mero_n_rel" ] ]. meroblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "meroblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_meroblástico_a_rel" ]. merodeador_n1 := n_subj-nom_le & [ STEM < "merodeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_merodeador_n_rel" ] ]. merodear_v := v_unacc_lcomp_loc*_le & [ STEM < "merodear" >, SYNSEM.LKEYS.KEYREL.PRED "_merodear_v_rel" ]. meromorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "meromorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_meromorfo_a_rel" ]. merotomía_n1 := n_intr_uncount_le & [ STEM < "merotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_merotomía_n_rel" ] ]. merovingio_a1 := a_rel_nonprd_intr_le & [ STEM < "merovingio" >, SYNSEM.LKEYS.KEYREL.PRED "_merovingio_a_rel" ]. meroédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "meroédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_meroédrico_a_rel" ]. mes_n1 := n_pseudo-part_temp_le & [ STEM < "mes" >, SYNSEM.LKEYS.KEYREL.PRED "_mes_n_rel" ]. mes_n2 := n_intr_temp_le & [ STEM < "mes" > ]. mesa_n1 := n_intr_count_le & [ STEM < "mesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mesa_n_rel" ] ]. mesana_n1 := n_intr_count_le & [ STEM < "mesana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mesana_n_rel" ] ]. mescalina_n1 := n_intr_count_le & [ STEM < "mescalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mescalina_n_rel" ] ]. mescolanza_n1 := n_intr_mass_le & [ STEM < "mescolanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mescolanza_n_rel" ] ]. mesencéfalo_n1 := n_ppcomp_count_le & [ STEM < "mesencéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesencéfalo_n_rel" ] ]. mesenquimal_a1 := a_rel_nonprd_intr_le & [ STEM < "mesenquimal" >, SYNSEM.LKEYS.KEYREL.PRED "_mesenquimal_a_rel" ]. mesenquimatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "mesenquimatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mesenquimatoso_a_rel" ]. mesenquimático_a1 := a_rel_nonprd_intr_le & [ STEM < "mesenquimático" >, SYNSEM.LKEYS.KEYREL.PRED "_mesenquimático_a_rel" ]. mesenterio_n1 := n_intr_count_le & [ STEM < "mesenterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mesenterio_n_rel" ] ]. mesentérico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesentérico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesentérico_a_rel" ]. meseta_n1 := n_intr_count_le & [ STEM < "meseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_meseta_n_rel" ] ]. mesianismo_n1 := n_intr_uncount_le & [ STEM < "mesianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesianismo_n_rel" ] ]. mesinés_n1 := n_intr_count_le & [ STEM < "mesinés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mesinés_n_rel" ] ]. mesiobucal_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiobucal" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiobucal_a_rel" ]. mesioclusodental_a1 := a_rel_nonprd_intr_le & [ STEM < "mesioclusodental" >, SYNSEM.LKEYS.KEYREL.PRED "_mesioclusodental_a_rel" ]. mesiodistal_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiodistal" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiodistal_a_rel" ]. mesiogingival_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiogingival" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiogingival_a_rel" ]. mesiolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiolabial_a_rel" ]. mesiolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiolingual_a_rel" ]. mesiooclusodistal_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiooclusodistal" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiooclusodistal_a_rel" ]. mesitileno_n1 := n_intr_mass-or-count_le & [ STEM < "mesitileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_mesitileno_n_rel" ] ]. mesiánico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesiánico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesiánico_a_rel" ]. mesmerismo_n1 := n_intr_uncount_le & [ STEM < "mesmerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesmerismo_n_rel" ] ]. mesoapéndice_n1 := n_ppcomp_count_le & [ STEM < "mesoapéndice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesoapéndice_n_rel" ] ]. mesocarpo_n1 := n_ppcomp_count_le & [ STEM < "mesocarpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesocarpo_n_rel" ] ]. mesocolon_n1 := n_ppcomp_count_le & [ STEM < "mesocolon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesocolon_n_rel" ] ]. mesocracia_n1 := n_intr_uncount_pl_le & [ STEM < "mesocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesocracia_n_rel" ] ]. mesocéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "mesocéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_mesocéfalo_a_rel" ]. mesocólico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesocólico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesocólico_a_rel" ]. mesocúrtico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesocúrtico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesocúrtico_a_rel" ]. mesodermo_n1 := n_intr_count_le & [ STEM < "mesodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mesodermo_n_rel" ] ]. mesodontismo_n1 := n_intr_uncount_le & [ STEM < "mesodontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesodontismo_n_rel" ] ]. mesodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "mesodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_mesodonto_a_rel" ]. mesodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesodérmico_a_rel" ]. mesoestafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "mesoestafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_mesoestafilino_a_rel" ]. mesoesternón_n1 := n_ppcomp_count_le & [ STEM < "mesoesternón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesoesternón_n_rel" ] ]. mesomería_n1 := n_intr_uncount_le & [ STEM < "mesomería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesomería_n_rel" ] ]. mesometeorología_n1 := n_intr_uncount_le & [ STEM < "mesometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesometeorología_n_rel" ] ]. mesonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "mesonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_mesonasal_a_rel" ]. mesonéfrico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesonéfrico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesonéfrico_a_rel" ]. mesoovario_n1 := n_intr_count_le & [ STEM < "mesoovario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mesoovario_n_rel" ] ]. mesopausa_n1 := n_intr_count_le & [ STEM < "mesopausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_mesopausa_n_rel" ] ]. mesopotámico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesopotámico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesopotámico_a_rel" ]. mesoprosópico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesoprosópico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesoprosópico_a_rel" ]. mesorrecto_n1 := n_ppcomp_count_le & [ STEM < "mesorrecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesorrecto_n_rel" ] ]. mesorrino_a1 := a_rel_nonprd_intr_le & [ STEM < "mesorrino" >, SYNSEM.LKEYS.KEYREL.PRED "_mesorrino_a_rel" ]. mesorrínico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesorrínico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesorrínico_a_rel" ]. mesosalpinx_n1 := n_ppcomp_count_le & [ STEM < "mesosalpinx" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesosalpinx_n_rel" ] ]. mesosfera_n1 := n_intr_uncount_pl_le & [ STEM < "mesosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesosfera_n_rel" ] ]. mesotendón_n1 := n_ppcomp_count_le & [ STEM < "mesotendón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mesotendón_n_rel" ] ]. mesotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesotérmico_a_rel" ]. mesouránico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesouránico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesouránico_a_rel" ]. mesozoico_a1 := a_rel_nonprd_intr_le & [ STEM < "mesozoico" >, SYNSEM.LKEYS.KEYREL.PRED "_mesozoico_a_rel" ]. mestizaje_n1 := n_trans_le & [ STEM < "mestizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_mestizaje_n_rel" ]. mestizaje_n2 := n_intr_uncount_le & [ STEM < "mestizaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mestizaje_n_rel" ] ]. mestizo_a1 := a_rel_nonprd_intr_le & [ STEM < "mestizo" >, SYNSEM.LKEYS.KEYREL.PRED "_mestizo_a_rel" ]. mestizo_n1 := n_intr_count_le & [ STEM < "mestizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mestizo_n_rel" ] ]. mesura_n1 := n_intr_mass_le & [ STEM < "mesura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesura_n_rel" ] ]. mesurable_a1 := a_rel_prd_le & [ STEM < "mesurable" >, SYNSEM.LKEYS.KEYREL.PRED "_mesurable_a_rel" ]. mesuradamente_x1 := av_i_spr_le & [ STEM < "mesuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mesuradamente_x_rel" ]. mesurar_v := v_trans_np_caus_le & [ STEM < "mesurar" >, SYNSEM.LKEYS.KEYREL.PRED "_mesurar_v_rel" ]. mesías_n1 := n_intr_count_le & [ STEM < "mesías" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mesías_n_rel" ] ]. mesócrono_a1 := a_rel_nonprd_intr_le & [ STEM < "mesócrono" >, SYNSEM.LKEYS.KEYREL.PRED "_mesócrono_a_rel" ]. mesófito_n1 := n_intr_count_le & [ STEM < "mesófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mesófito_n_rel" ] ]. mesón_n1 := n_intr_count_le & [ STEM < "mesón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mesón_n_rel" ] ]. meta_n1 := n_intr_count_le & [ STEM < "meta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_meta_n_rel" ] ]. metabisulfito_n1 := n_intr_count_le & [ STEM < "metabisulfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metabisulfito_n_rel" ] ]. metabolismo_n1 := n_intr_uncount_le & [ STEM < "metabolismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metabolismo_n_rel" ] ]. metabolita_n1 := n_intr_mass_le & [ STEM < "metabolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metabolita_n_rel" ] ]. metabolito_n1 := n_intr_count_le & [ STEM < "metabolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metabolito_n_rel" ] ]. metaborato_n1 := n_intr_count_le & [ STEM < "metaborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metaborato_n_rel" ] ]. metabólicamente_x1 := av_i_spr_le & [ STEM < "metabólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metabólicamente_x_rel" ]. metabólico_a1 := a_rel_nonprd_intr_le & [ STEM < "metabólico" >, SYNSEM.LKEYS.KEYREL.PRED "_metabólico_a_rel" ]. metacarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "metacarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_metacarpiano_a_rel" ]. metacarpo_n1 := n_ppcomp_count_le & [ STEM < "metacarpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_metacarpo_n_rel" ] ]. metacarpofalángico_a1 := a_rel_nonprd_intr_le & [ STEM < "metacarpofalángico" >, SYNSEM.LKEYS.KEYREL.PRED "_metacarpofalángico_a_rel" ]. metacartografía_n1 := n_intr_uncount_le & [ STEM < "metacartografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metacartografía_n_rel" ] ]. metaciencia_n1 := n_intr_uncount_le & [ STEM < "metaciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metaciencia_n_rel" ] ]. metacresol_n1 := n_intr_count_le & [ STEM < "metacresol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metacresol_n_rel" ] ]. metacrilato_n1 := n_intr_count_le & [ STEM < "metacrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metacrilato_n_rel" ] ]. metacrilatocrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "metacrilatocrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_metacrilatocrómico_a_rel" ]. metacroleína_n1 := n_intr_count_le & [ STEM < "metacroleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metacroleína_n_rel" ] ]. metacromático_a1 := a_rel_nonprd_intr_le & [ STEM < "metacromático" >, SYNSEM.LKEYS.KEYREL.PRED "_metacromático_a_rel" ]. metacronal_a1 := a_rel_nonprd_intr_le & [ STEM < "metacronal" >, SYNSEM.LKEYS.KEYREL.PRED "_metacronal_a_rel" ]. metacrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "metacrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_metacrílico_a_rel" ]. metacrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "metacrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_metacrónico_a_rel" ]. metacéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "metacéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_metacéntrico_a_rel" ]. metaestable_a1 := a_rel_nonprd_intr_le & [ STEM < "metaestable" >, SYNSEM.LKEYS.KEYREL.PRED "_metaestable_a_rel" ]. metafilosofía_n1 := n_intr_uncount_pl_le & [ STEM < "metafilosofía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metafilosofía_n_rel" ] ]. metafonía_n1 := n_intr_uncount_pl_le & [ STEM < "metafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metafonía_n_rel" ] ]. metafosfato_n1 := n_intr_count_le & [ STEM < "metafosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metafosfato_n_rel" ] ]. metafásico_a1 := a_rel_nonprd_intr_le & [ STEM < "metafásico" >, SYNSEM.LKEYS.KEYREL.PRED "_metafásico_a_rel" ]. metafísicamente_x1 := av_i_spr_le & [ STEM < "metafísicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metafísicamente_x_rel" ]. metafísico_a1 := a_rel_nonprd_intr_le & [ STEM < "metafísico" >, SYNSEM.LKEYS.KEYREL.PRED "_metafísico_a_rel" ]. metafóricamente_x1 := av_i_spr_le & [ STEM < "metafóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metafóricamente_x_rel" ]. metafórico_a1 := a_qual_intr_scopal_le & [ STEM < "metafórico" >, SYNSEM.LKEYS.KEYREL.PRED "_metafórico_a_rel" ]. metahemoglobina_n1 := n_intr_mass-or-count_le & [ STEM < "metahemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_metahemoglobina_n_rel" ] ]. metaherpético_a1 := a_rel_nonprd_intr_le & [ STEM < "metaherpético" >, SYNSEM.LKEYS.KEYREL.PRED "_metaherpético_a_rel" ]. metal_n1 := n_intr_count_le & [ STEM < "metal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metal_n_rel" ] ]. metaldehído_n1 := n_intr_mass_le & [ STEM < "metaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metaldehído_n_rel" ] ]. metalenguaje_n1 := n_intr_count_le & [ STEM < "metalenguaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalenguaje_n_rel" ] ]. metalingã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "metalingüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_metalingüístico_a_rel" ]. metalista_n1 := n_intr_count_le & [ STEM < "metalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_metalista_n_rel" ] ]. metalistería_n1 := n_intr_uncount_le & [ STEM < "metalistería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalistería_n_rel" ] ]. metalización_n1 := n_event-result_intr_le & [ STEM < "metalización" >, SYNSEM.LKEYS.KEYREL.PRED "_metalización_n_rel" ]. metalizar_v := v_trans_np_le & [ STEM < "metalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_metalizar_v_rel" ]. metalocromía_n1 := n_intr_uncount_le & [ STEM < "metalocromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalocromía_n_rel" ] ]. metalografía_n1 := n_intr_count_le & [ STEM < "metalografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metalografía_n_rel" ] ]. metalográficamente_x1 := av_i_spr_le & [ STEM < "metalográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metalográficamente_x_rel" ]. metalográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "metalográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_metalográfico_a_rel" ]. metaloideo_a1 := a_rel_nonprd_intr_le & [ STEM < "metaloideo" >, SYNSEM.LKEYS.KEYREL.PRED "_metaloideo_a_rel" ]. metalurgia_n1 := n_intr_uncount_le & [ STEM < "metalurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalurgia_n_rel" ] ]. metalíferamente_x1 := av_i_spr_le & [ STEM < "metalíferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metalíferamente_x_rel" ]. metalífero_a1 := a_rel_nonprd_intr_le & [ STEM < "metalífero" >, SYNSEM.LKEYS.KEYREL.PRED "_metalífero_a_rel" ]. metalúrgico_a1 := a_rel_nonprd_intr_le & [ STEM < "metalúrgico" >, SYNSEM.LKEYS.KEYREL.PRED "_metalúrgico_a_rel" ]. metalúrgico_n1 := n_intr_count_le & [ STEM < "metalúrgico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_metalúrgico_n_rel" ] ]. metamagnetismo_n1 := n_intr_uncount_le & [ STEM < "metamagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metamagnetismo_n_rel" ] ]. metamerismo_n1 := n_intr_uncount_le & [ STEM < "metamerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metamerismo_n_rel" ] ]. metametal_n1 := n_intr_count_le & [ STEM < "metametal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metametal_n_rel" ] ]. metamielocito_n1 := n_intr_count_le & [ STEM < "metamielocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metamielocito_n_rel" ] ]. metamorfismo_n1 := n_intr_uncount_le & [ STEM < "metamorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metamorfismo_n_rel" ] ]. metamorfosis_n1 := n_trans_le & [ STEM < "metamorfosis" >, SYNSEM.LKEYS.KEYREL.PRED "_metamorfosis_n_rel" ]. metamórficamente_x1 := av_i_spr_le & [ STEM < "metamórficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metamórficamente_x_rel" ]. metamórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "metamórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_metamórfico_a_rel" ]. metanero_a1 := a_rel_nonprd_intr_le & [ STEM < "metanero" >, SYNSEM.LKEYS.KEYREL.PRED "_metanero_a_rel" ]. metanero_n1 := n_intr_count_le & [ STEM < "metanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metanero_n_rel" ] ]. metanilato_n1 := n_intr_count_le & [ STEM < "metanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metanilato_n_rel" ] ]. metanización_n1 := n_trans_le & [ STEM < "metanización" >, SYNSEM.LKEYS.KEYREL.PRED "_metanización_n_rel" ]. metano_n1 := n_intr_mass_le & [ STEM < "metano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metano_n_rel" ] ]. metanodiamina_n1 := n_intr_count_le & [ STEM < "metanodiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metanodiamina_n_rel" ] ]. metanol_n1 := n_intr_mass_le & [ STEM < "metanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metanol_n_rel" ] ]. metanílico_a1 := a_rel_nonprd_intr_le & [ STEM < "metanílico" >, SYNSEM.LKEYS.KEYREL.PRED "_metanílico_a_rel" ]. metasilicato_n1 := n_intr_count_le & [ STEM < "metasilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metasilicato_n_rel" ] ]. metasomatismo_n1 := n_intr_uncount_le & [ STEM < "metasomatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metasomatismo_n_rel" ] ]. metastásico_a1 := a_rel_nonprd_intr_le & [ STEM < "metastásico" >, SYNSEM.LKEYS.KEYREL.PRED "_metastásico_a_rel" ]. metatarsiano_a1 := a_rel_nonprd_intr_le & [ STEM < "metatarsiano" >, SYNSEM.LKEYS.KEYREL.PRED "_metatarsiano_a_rel" ]. metatarsiano_n1 := n_ppcomp_count_le & [ STEM < "metatarsiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_metatarsiano_n_rel" ] ]. metatarso_n1 := n_ppcomp_count_le & [ STEM < "metatarso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_metatarso_n_rel" ] ]. metatarsofalángico_a1 := a_rel_nonprd_intr_le & [ STEM < "metatarsofalángico" >, SYNSEM.LKEYS.KEYREL.PRED "_metatarsofalángico_a_rel" ]. metateoría_n1 := n_intr_count_le & [ STEM < "metateoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metateoría_n_rel" ] ]. metatonía_n1 := n_intr_uncount_le & [ STEM < "metatonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metatonía_n_rel" ] ]. metatálamo_n1 := n_ppcomp_count_le & [ STEM < "metatálamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_metatálamo_n_rel" ] ]. metavanadato_n1 := n_intr_count_le & [ STEM < "metavanadato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metavanadato_n_rel" ] ]. metazoario_n1 := n_intr_count_le & [ STEM < "metazoario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_metazoario_n_rel" ] ]. metedura_n1 := n_trans_le & [ STEM < "metedura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metedura_n_rel" ] ]. meteorito_n1 := n_intr_count_le & [ STEM < "meteorito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_meteorito_n_rel" ] ]. meteorización_n1 := n_event-result_intr_le & [ STEM < "meteorización" >, SYNSEM.LKEYS.KEYREL.PRED "_meteorización_n_rel" ]. meteoro_n1 := n_intr_count_le & [ STEM < "meteoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_meteoro_n_rel" ] ]. meteorología_n1 := n_intr_uncount_pl_le & [ STEM < "meteorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meteorología_n_rel" ] ]. meteorológicamente_x1 := av_i_spr_le & [ STEM < "meteorológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_meteorológicamente_x_rel" ]. meteorológico_a1 := a_rel_nonprd_intr_le & [ STEM < "meteorológico" >, SYNSEM.LKEYS.KEYREL.PRED "_meteorológico_a_rel" ]. meteorítico_a1 := a_rel_nonprd_intr_le & [ STEM < "meteorítico" >, SYNSEM.LKEYS.KEYREL.PRED "_meteorítico_a_rel" ]. meteorólogo_n1 := n_intr_count_le & [ STEM < "meteorólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_meteorólogo_n_rel" ] ]. meter_v1 := v_pron_intr_mrkd_np_le & [ STEM < "meter" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_meter_v_rel" ] ] ]. meter_v2 := v_pron_intr_mrkd_np_le & [ STEM < "meter" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_meter_v_rel" ] ]. meter_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "meter" >, SYNSEM.LKEYS.KEYREL.PRED "_meter_v_rel" ]. meter_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "meter" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_meter_v_rel" ] ] ]. meter_v5 := v_trans_np_mrkd_np_le & [ STEM < "meter" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_meter_v_rel" ] ]. meteóricamente_x1 := av_i_spr_le & [ STEM < "meteóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_meteóricamente_x_rel" ]. meteórico_a1 := a_rel_nonprd_intr_le & [ STEM < "meteórico" >, SYNSEM.LKEYS.KEYREL.PRED "_meteórico_a_rel" ]. meticulosamente_x1 := av_i_spr_le & [ STEM < "meticulosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_meticulosamente_x_rel" ]. meticulosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "meticulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meticulosidad_n_rel" ] ]. meticuloso_a1 := a_qual_intr_ser_le & [ STEM < "meticuloso" >, SYNSEM.LKEYS.KEYREL.PRED "_meticuloso_a_rel" ]. metil_n1 := n_intr_mass_le & [ STEM < "metil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metil_n_rel" ] ]. metilacetanilida_n1 := n_intr_count_le & [ STEM < "metilacetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilacetanilida_n_rel" ] ]. metilacetileno_n1 := n_intr_count_le & [ STEM < "metilacetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilacetileno_n_rel" ] ]. metilacetofenona_n1 := n_intr_count_le & [ STEM < "metilacetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilacetofenona_n_rel" ] ]. metilacetona_n1 := n_intr_count_le & [ STEM < "metilacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilacetona_n_rel" ] ]. metilación_n1 := n_intr_uncount_le & [ STEM < "metilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metilación_n_rel" ] ]. metilal_n1 := n_intr_count_le & [ STEM < "metilal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilal_n_rel" ] ]. metilamina_n1 := n_intr_count_le & [ STEM < "metilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilamina_n_rel" ] ]. metilaminofenol_n1 := n_intr_count_le & [ STEM < "metilaminofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilaminofenol_n_rel" ] ]. metilanilina_n1 := n_intr_count_le & [ STEM < "metilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilanilina_n_rel" ] ]. metilantraceno_n1 := n_intr_count_le & [ STEM < "metilantraceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilantraceno_n_rel" ] ]. metilantraquinona_n1 := n_intr_count_le & [ STEM < "metilantraquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilantraquinona_n_rel" ] ]. metilato_n1 := n_intr_count_le & [ STEM < "metilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilato_n_rel" ] ]. metilbencilamina_n1 := n_intr_count_le & [ STEM < "metilbencilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbencilamina_n_rel" ] ]. metilbencildietanolamina_n1 := n_intr_count_le & [ STEM < "metilbencildietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbencildietanolamina_n_rel" ] ]. metilbencildimetilamina_n1 := n_intr_count_le & [ STEM < "metilbencildimetilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbencildimetilamina_n_rel" ] ]. metilbutanol_n1 := n_intr_count_le & [ STEM < "metilbutanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbutanol_n_rel" ] ]. metilbuteno_n1 := n_intr_count_le & [ STEM < "metilbuteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbuteno_n_rel" ] ]. metilbutenol_n1 := n_intr_count_le & [ STEM < "metilbutenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbutenol_n_rel" ] ]. metilbutilcetona_n1 := n_intr_count_le & [ STEM < "metilbutilcetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbutilcetona_n_rel" ] ]. metilbutinol_n1 := n_intr_count_le & [ STEM < "metilbutinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilbutinol_n_rel" ] ]. metilcelulosa_n1 := n_intr_mass_le & [ STEM < "metilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilcelulosa_n_rel" ] ]. metilciclohexano_n1 := n_intr_count_le & [ STEM < "metilciclohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilciclohexano_n_rel" ] ]. metilciclohexanol_n1 := n_intr_count_le & [ STEM < "metilciclohexanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilciclohexanol_n_rel" ] ]. metilciclohexanona_n1 := n_intr_count_le & [ STEM < "metilciclohexanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilciclohexanona_n_rel" ] ]. metilciclohexilamina_n1 := n_intr_count_le & [ STEM < "metilciclohexilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilciclohexilamina_n_rel" ] ]. metilciclopentano_n1 := n_intr_count_le & [ STEM < "metilciclopentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilciclopentano_n_rel" ] ]. metilclotiazida_n1 := n_intr_count_le & [ STEM < "metilclotiazida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilclotiazida_n_rel" ] ]. metilcumarina_n1 := n_intr_count_le & [ STEM < "metilcumarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilcumarina_n_rel" ] ]. metildietanolamina_n1 := n_intr_count_le & [ STEM < "metildietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metildietanolamina_n_rel" ] ]. metildioxolano_n1 := n_intr_count_le & [ STEM < "metildioxolano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metildioxolano_n_rel" ] ]. metilenbisacrilamida_n1 := n_intr_count_le & [ STEM < "metilenbisacrilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilenbisacrilamida_n_rel" ] ]. metilendianilina_n1 := n_intr_count_le & [ STEM < "metilendianilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilendianilina_n_rel" ] ]. metileno_n1 := n_intr_mass_le & [ STEM < "metileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metileno_n_rel" ] ]. metilestireno_n1 := n_intr_count_le & [ STEM < "metilestireno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilestireno_n_rel" ] ]. metiletilpiridina_n1 := n_intr_count_le & [ STEM < "metiletilpiridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metiletilpiridina_n_rel" ] ]. metilfloroglucina_n1 := n_intr_count_le & [ STEM < "metilfloroglucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilfloroglucina_n_rel" ] ]. metilformanilida_n1 := n_intr_count_le & [ STEM < "metilformanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilformanilida_n_rel" ] ]. metilfosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "metilfosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_metilfosfórico_a_rel" ]. metilfurano_n1 := n_intr_count_le & [ STEM < "metilfurano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metilfurano_n_rel" ] ]. metilheptano_n1 := n_intr_count_le & [ STEM < "metilheptano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilheptano_n_rel" ] ]. metilheptenona_n1 := n_intr_count_le & [ STEM < "metilheptenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilheptenona_n_rel" ] ]. metilhexano_n1 := n_intr_count_le & [ STEM < "metilhexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilhexano_n_rel" ] ]. metilhexanoamina_n1 := n_intr_count_le & [ STEM < "metilhexanoamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilhexanoamina_n_rel" ] ]. metilhidracina_n1 := n_intr_count_le & [ STEM < "metilhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilhidracina_n_rel" ] ]. metilhidroxibutanona_n1 := n_intr_count_le & [ STEM < "metilhidroxibutanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilhidroxibutanona_n_rel" ] ]. metilionona_n1 := n_intr_count_le & [ STEM < "metilionona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilionona_n_rel" ] ]. metilisoeugenol_n1 := n_intr_count_le & [ STEM < "metilisoeugenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilisoeugenol_n_rel" ] ]. metilnaftaleno_n1 := n_intr_count_le & [ STEM < "metilnaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilnaftaleno_n_rel" ] ]. metilnonilacetaldehído_n1 := n_intr_mass_le & [ STEM < "metilnonilacetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilnonilacetaldehído_n_rel" ] ]. metilo_n1 := n_intr_count_le & [ STEM < "metilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilo_n_rel" ] ]. metilortoanisidina_n1 := n_intr_count_le & [ STEM < "metilortoanisidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilortoanisidina_n_rel" ] ]. metilparationa_n1 := n_intr_count_le & [ STEM < "metilparationa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilparationa_n_rel" ] ]. metilpentadieno_n1 := n_intr_count_le & [ STEM < "metilpentadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpentadieno_n_rel" ] ]. metilpentaldehído_n1 := n_intr_mass_le & [ STEM < "metilpentaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpentaldehído_n_rel" ] ]. metilpentano_n1 := n_intr_count_le & [ STEM < "metilpentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpentano_n_rel" ] ]. metilpentanodiol_n1 := n_intr_count_le & [ STEM < "metilpentanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpentanodiol_n_rel" ] ]. metilpenteno_n1 := n_intr_count_le & [ STEM < "metilpenteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpenteno_n_rel" ] ]. metilpentinol_n1 := n_intr_count_le & [ STEM < "metilpentinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpentinol_n_rel" ] ]. metilpiperacina_n1 := n_intr_count_le & [ STEM < "metilpiperacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpiperacina_n_rel" ] ]. metilpirrol_n1 := n_intr_count_le & [ STEM < "metilpirrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpirrol_n_rel" ] ]. metilpirrolidona_n1 := n_intr_count_le & [ STEM < "metilpirrolidona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilpirrolidona_n_rel" ] ]. metilsulfato_n1 := n_intr_count_le & [ STEM < "metilsulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilsulfato_n_rel" ] ]. metiltaurina_n1 := n_intr_count_le & [ STEM < "metiltaurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metiltaurina_n_rel" ] ]. metiltetrahidrofurano_n1 := n_intr_count_le & [ STEM < "metiltetrahidrofurano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metiltetrahidrofurano_n_rel" ] ]. metiltriclorosilano_n1 := n_intr_count_le & [ STEM < "metiltriclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metiltriclorosilano_n_rel" ] ]. metilvinildiclorosilano_n1 := n_intr_count_le & [ STEM < "metilvinildiclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metilvinildiclorosilano_n_rel" ] ]. metionina_n1 := n_intr_count_le & [ STEM < "metionina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metionina_n_rel" ] ]. metodista_a1 := a_rel_nonprd_intr_le & [ STEM < "metodista" >, SYNSEM.LKEYS.KEYREL.PRED "_metodista_a_rel" ]. metodizar_v := v_trans_np_le & [ STEM < "metodizar" >, SYNSEM.LKEYS.KEYREL.PRED "_metodizar_v_rel" ]. metodología_n1 := n_intr_count_le & [ STEM < "metodología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metodología_n_rel" ] ]. metodológicamente_x1 := av_i_spr_le & [ STEM < "metodológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metodológicamente_x_rel" ]. metodológico_a1 := a_rel_nonprd_intr_le & [ STEM < "metodológico" >, SYNSEM.LKEYS.KEYREL.PRED "_metodológico_a_rel" ]. metonímico_a1 := a_rel_nonprd_intr_le & [ STEM < "metonímico" >, SYNSEM.LKEYS.KEYREL.PRED "_metonímico_a_rel" ]. metoprolol_n1 := n_intr_count_le & [ STEM < "metoprolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoprolol_n_rel" ] ]. metotrexato_n1 := n_intr_count_le & [ STEM < "metotrexato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metotrexato_n_rel" ] ]. metoxiacetofenona_n1 := n_intr_count_le & [ STEM < "metoxiacetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoxiacetofenona_n_rel" ] ]. metoxiacético_a1 := a_rel_nonprd_intr_le & [ STEM < "metoxiacético" >, SYNSEM.LKEYS.KEYREL.PRED "_metoxiacético_a_rel" ]. metoxibutanol_n1 := n_intr_count_le & [ STEM < "metoxibutanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoxibutanol_n_rel" ] ]. metoxicloro_n1 := n_intr_count_le & [ STEM < "metoxicloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoxicloro_n_rel" ] ]. metoximetilpentanol_n1 := n_intr_count_le & [ STEM < "metoximetilpentanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoximetilpentanol_n_rel" ] ]. metoximetilpentanona_n1 := n_intr_count_le & [ STEM < "metoximetilpentanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoximetilpentanona_n_rel" ] ]. metoxipropilamina_n1 := n_intr_count_le & [ STEM < "metoxipropilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_metoxipropilamina_n_rel" ] ]. metraje_n1 := n_intr_count_le & [ STEM < "metraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metraje_n_rel" ] ]. metraje_n2 := n_intr_uncount_le & [ STEM < "metraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metraje_n_rel" ] ]. metralla_n1 := n_intr_mass_le & [ STEM < "metralla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metralla_n_rel" ] ]. metralleta_n1 := n_intr_count_le & [ STEM < "metralleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metralleta_n_rel" ] ]. metriocráneo_a1 := a_rel_nonprd_intr_le & [ STEM < "metriocráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_metriocráneo_a_rel" ]. metriométope_a1 := a_rel_nonprd_intr_le & [ STEM < "metriométope" >, SYNSEM.LKEYS.KEYREL.PRED "_metriométope_a_rel" ]. metrizable_a1 := a_rel_nonprd_intr_le & [ STEM < "metrizable" >, SYNSEM.LKEYS.KEYREL.PRED "_metrizable_a_rel" ]. metro_cuadrado_n1 := n_pseudo-part_le & [ STEM < "metro_cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_metro_cuadrado_n_rel" ]. metro_cúbico_n1 := n_pseudo-part_le & [ STEM < "metro_cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_metro_cúbico_n_rel" ]. metro_n1 := n_pseudo-part_le & [ STEM < "metro" >, SYNSEM.LKEYS.KEYREL.PRED "_metro_n_rel" ]. metro_n2 := n_intr_count_le & [ STEM < "metro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metro_n_rel" ] ]. metrología_n1 := n_intr_uncount_pl_le & [ STEM < "metrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metrología_n_rel" ] ]. metropolitano_a1 := a_rel_nonprd_intr_le & [ STEM < "metropolitano" >, SYNSEM.LKEYS.KEYREL.PRED "_metropolitano_a_rel" ]. metropolitano_n1 := n_intr_count_le & [ STEM < "metropolitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_metropolitano_n_rel" ] ]. metrónomo_n1 := n_intr_count_le & [ STEM < "metrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_metrónomo_n_rel" ] ]. metrópoli_n1 := n_intr_count_le & [ STEM < "metrópoli" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_metrópoli_n_rel" ] ]. metrópolis_n1 := n_intr_count_le & [ STEM < "metrópolis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_metrópolis_n_rel" ] ]. metálico_a1 := a_rel_prd_le & [ STEM < "metálico" >, SYNSEM.LKEYS.KEYREL.PRED "_metálico_a_rel" ]. metámeramente_x1 := av_i_spr_le & [ STEM < "metámeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_metámeramente_x_rel" ]. metámero_a1 := a_rel_nonprd_intr_le & [ STEM < "metámero" >, SYNSEM.LKEYS.KEYREL.PRED "_metámero_a_rel" ]. metánico_a1 := a_rel_nonprd_intr_le & [ STEM < "metánico" >, SYNSEM.LKEYS.KEYREL.PRED "_metánico_a_rel" ]. metástasis_n1 := n_intr_count_le & [ STEM < "metástasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metástasis_n_rel" ] ]. metílico_a1 := a_rel_nonprd_intr_le & [ STEM < "metílico" >, SYNSEM.LKEYS.KEYREL.PRED "_metílico_a_rel" ]. metódicamente_x1 := av_i_spr_le & [ STEM < "metódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_metódicamente_x_rel" ]. metódico_a1 := a_qual_intr_scopal_le & [ STEM < "metódico" >, SYNSEM.LKEYS.KEYREL.PRED "_metódico_a_rel" ]. metópico_a1 := a_rel_nonprd_intr_le & [ STEM < "metópico" >, SYNSEM.LKEYS.KEYREL.PRED "_metópico_a_rel" ]. mexicano_a1 := a_rel_prd_le & [ STEM < "mexicano" >, SYNSEM.LKEYS.KEYREL.PRED "_mexicano_a_rel" ]. mexicano_n1 := n_intr_count_le & [ STEM < "mexicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mexicano_n_rel" ] ]. mezcla_n1 := n_trans_le & [ STEM < "mezcla" >, SYNSEM.LKEYS.KEYREL.PRED "_mezcla_n_rel" ]. mezclable_a1 := a_rel_prd_le & [ STEM < "mezclable" >, SYNSEM.LKEYS.KEYREL.PRED "_mezclable_a_rel" ]. mezclador_a1 := a_rel_nonprd_intr_le & [ STEM < "mezclador" >, SYNSEM.LKEYS.KEYREL.PRED "_mezclador_a_rel" ]. mezclador_n1 := n_intr_count_le & [ STEM < "mezclador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mezclador_n_rel" ] ]. mezcladora_n1 := n_intr_count_le & [ STEM < "mezcladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mezcladora_n_rel" ] ]. mezclar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "mezclar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_mezclar_v_rel" ] ]. mezclar_v2 := v_trans_np_mrkd_np*_sym_le & [ STEM < "mezclar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_mezclar_v_rel" ] ]. mezcolanza_n1 := n_intr_mass_le & [ STEM < "mezcolanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mezcolanza_n_rel" ] ]. mezquinamente_x1 := av_i_spr_le & [ STEM < "mezquinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mezquinamente_x_rel" ]. mezquindad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "mezquindad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mezquindad_n_rel" ] ]. mezquino_a1 := a_qual_intr_ser_le & [ STEM < "mezquino" >, SYNSEM.LKEYS.KEYREL.PRED "_mezquino_a_rel" ]. mezquita_n1 := n_intr_count_le & [ STEM < "mezquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mezquita_n_rel" ] ]. meñique_a1 := a_rel_nonprd_intr_le & [ STEM < "meñique" >, SYNSEM.LKEYS.KEYREL.PRED "_meñique_a_rel" ]. mi_d := d_poss_mi_le & [ STEM < "mi" > ]. mica_n1 := n_intr_mass_le & [ STEM < "mica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mica_n_rel" ] ]. micado_n1 := n_intr_count_le & [ STEM < "micado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_micado_n_rel" ] ]. micela_n1 := n_intr_count_le & [ STEM < "micela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micela_n_rel" ] ]. micelar_a1 := a_rel_nonprd_intr_le & [ STEM < "micelar" >, SYNSEM.LKEYS.KEYREL.PRED "_micelar_a_rel" ]. micelio_n1 := n_intr_count_le & [ STEM < "micelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_micelio_n_rel" ] ]. micicultura_n1 := n_intr_uncount_le & [ STEM < "micicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micicultura_n_rel" ] ]. micología_n1 := n_intr_uncount_pl_le & [ STEM < "micología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micología_n_rel" ] ]. micoplasma_n1 := n_intr_count_le & [ STEM < "micoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micoplasma_n_rel" ] ]. micra_n := n_intr_count_le & [ STEM < "micra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_micra_n_rel" ] ]. micro_n1 := n_intr_count_le & [ STEM < "micro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micro_n_rel" ] ]. microadoquín_n1 := n_intr_count_le & [ STEM < "microadoquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microadoquín_n_rel" ] ]. microaglomerado_n1 := n_intr_count_le & [ STEM < "microaglomerado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microaglomerado_n_rel" ] ]. microalear_v := v_trans_np_le & [ STEM < "microalear" >, SYNSEM.LKEYS.KEYREL.PRED "_microalear_v_rel" ]. microamperio_n := n_intr_count_le & [ STEM < "microamperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_microamperio_n_rel" ] ]. microanalíticamente_x1 := av_i_spr_le & [ STEM < "microanalíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_microanalíticamente_x_rel" ]. microanalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "microanalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_microanalítico_a_rel" ]. microaspersor_n1 := n_intr_count_le & [ STEM < "microaspersor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microaspersor_n_rel" ] ]. microbalanza_n1 := n_intr_count_le & [ STEM < "microbalanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microbalanza_n_rel" ] ]. microbalón_n1 := n_intr_count_le & [ STEM < "microbalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microbalón_n_rel" ] ]. microbiano_a1 := a_rel_nonprd_intr_le & [ STEM < "microbiano" >, SYNSEM.LKEYS.KEYREL.PRED "_microbiano_a_rel" ]. microbio_n1 := n_intr_count_le & [ STEM < "microbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_microbio_n_rel" ] ]. microbiología_n1 := n_intr_uncount_le & [ STEM < "microbiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microbiología_n_rel" ] ]. microbiológicamente_x1 := av_i_spr_le & [ STEM < "microbiológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_microbiológicamente_x_rel" ]. microbiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "microbiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_microbiológico_a_rel" ]. microbiólogo_n1 := n_intr_count_le & [ STEM < "microbiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_microbiólogo_n_rel" ] ]. microburil_n1 := n_intr_count_le & [ STEM < "microburil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microburil_n_rel" ] ]. microbús_n1 := n_intr_count_le & [ STEM < "microbús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microbús_n_rel" ] ]. microcalculador_n1 := n_intr_count_le & [ STEM < "microcalculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcalculador_n_rel" ] ]. microcalorímetro_n1 := n_intr_count_le & [ STEM < "microcalorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcalorímetro_n_rel" ] ]. microcanal_n1 := n_intr_count_le & [ STEM < "microcanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcanal_n_rel" ] ]. microcasete_n1 := n_intr_count_le & [ STEM < "microcasete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcasete_n_rel" ] ]. microcefalia_n1 := n_ppcomp_count_le & [ STEM < "microcefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_microcefalia_n_rel" ] ]. microcelular_a1 := a_rel_nonprd_intr_le & [ STEM < "microcelular" >, SYNSEM.LKEYS.KEYREL.PRED "_microcelular_a_rel" ]. microchip_n1 := n_intr_count_le & [ STEM < "microchip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microchip_n_rel" ] ]. microcito_n1 := n_intr_count_le & [ STEM < "microcito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcito_n_rel" ] ]. microclimatología_n1 := n_intr_uncount_le & [ STEM < "microclimatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microclimatología_n_rel" ] ]. microcolumna_n1 := n_intr_count_le & [ STEM < "microcolumna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcolumna_n_rel" ] ]. microcomputador_n1 := n_intr_count_le & [ STEM < "microcomputador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_microcomputador_n_rel" ] ]. microconexión_n1 := n_intr_count_le & [ STEM < "microconexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_microconexión_n_rel" ] ]. microcontrol_n1 := n_intr_count_le & [ STEM < "microcontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcontrol_n_rel" ] ]. microcontrolador_n1 := n_intr_count_le & [ STEM < "microcontrolador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_microcontrolador_n_rel" ] ]. microcopia_n1 := n_intr_count_le & [ STEM < "microcopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcopia_n_rel" ] ]. microcopiar_v := v_trans_np_le & [ STEM < "microcopiar" >, SYNSEM.LKEYS.KEYREL.PRED "_microcopiar_v_rel" ]. microcrania_n1 := n_ppcomp_count_le & [ STEM < "microcrania" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_microcrania_n_rel" ] ]. microcristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "microcristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_microcristalino_a_rel" ]. microcromosoma_n1 := n_intr_count_le & [ STEM < "microcromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcromosoma_n_rel" ] ]. microcuerpo_n1 := n_intr_count_le & [ STEM < "microcuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcuerpo_n_rel" ] ]. microcéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "microcéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_microcéfalo_a_rel" ]. microcélula_n1 := n_intr_count_le & [ STEM < "microcélula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcélula_n_rel" ] ]. microcítico_a1 := a_rel_nonprd_intr_le & [ STEM < "microcítico" >, SYNSEM.LKEYS.KEYREL.PRED "_microcítico_a_rel" ]. microcódigo_n1 := n_intr_count_le & [ STEM < "microcódigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microcódigo_n_rel" ] ]. microcórnea_n1 := n_ppcomp_count_le & [ STEM < "microcórnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_microcórnea_n_rel" ] ]. microcósmico_a1 := a_rel_nonprd_intr_le & [ STEM < "microcósmico" >, SYNSEM.LKEYS.KEYREL.PRED "_microcósmico_a_rel" ]. microdifusor_n1 := n_intr_count_le & [ STEM < "microdifusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microdifusor_n_rel" ] ]. microdisco_n1 := n_intr_count_le & [ STEM < "microdisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microdisco_n_rel" ] ]. microdisquete_n1 := n_intr_count_le & [ STEM < "microdisquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microdisquete_n_rel" ] ]. microdoncia_n1 := n_intr_uncount_le & [ STEM < "microdoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microdoncia_n_rel" ] ]. microdontismo_n1 := n_intr_uncount_le & [ STEM < "microdontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microdontismo_n_rel" ] ]. microdonto_a1 := a_rel_nonprd_intr_le & [ STEM < "microdonto" >, SYNSEM.LKEYS.KEYREL.PRED "_microdonto_a_rel" ]. microduridad_n1 := n_intr_uncount_le & [ STEM < "microduridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microduridad_n_rel" ] ]. microdurómetro_n1 := n_intr_count_le & [ STEM < "microdurómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microdurómetro_n_rel" ] ]. microeconomía_n1 := n_intr_count_le & [ STEM < "microeconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microeconomía_n_rel" ] ]. microeconómicamente_x1 := av_i_spr_le & [ STEM < "microeconómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_microeconómicamente_x_rel" ]. microeconómico_a1 := a_rel_nonprd_intr_le & [ STEM < "microeconómico" >, SYNSEM.LKEYS.KEYREL.PRED "_microeconómico_a_rel" ]. microedición_n1 := n_intr_count_le & [ STEM < "microedición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microedición_n_rel" ] ]. microeditor_n1 := n_intr_count_le & [ STEM < "microeditor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microeditor_n_rel" ] ]. microelectrónicamente_x1 := av_i_spr_le & [ STEM < "microelectrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_microelectrónicamente_x_rel" ]. microelectrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "microelectrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_microelectrónico_a_rel" ]. microelemento_n1 := n_intr_count_le & [ STEM < "microelemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microelemento_n_rel" ] ]. microemulsión_n1 := n_intr_count_le & [ STEM < "microemulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microemulsión_n_rel" ] ]. microencapsulación_n1 := n_trans_le & [ STEM < "microencapsulación" >, SYNSEM.LKEYS.KEYREL.PRED "_microencapsulación_n_rel" ]. microensamblador_n1 := n_intr_count_le & [ STEM < "microensamblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microensamblador_n_rel" ] ]. microenseñanza_n1 := n_intr_uncount_pl_le & [ STEM < "microenseñanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microenseñanza_n_rel" ] ]. microesqueje_n1 := n_intr_count_le & [ STEM < "microesqueje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_microesqueje_n_rel" ] ]. microestación_n1 := n_intr_count_le & [ STEM < "microestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microestación_n_rel" ] ]. microestado_n1 := n_intr_count_le & [ STEM < "microestado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_microestado_n_rel" ] ]. microestrabismo_n1 := n_intr_uncount_le & [ STEM < "microestrabismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microestrabismo_n_rel" ] ]. microestructura_n1 := n_intr_count_le & [ STEM < "microestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microestructura_n_rel" ] ]. microfaquia_n1 := n_ppcomp_count_le & [ STEM < "microfaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_microfaquia_n_rel" ] ]. microfaradio_n := n_intr_count_le & [ STEM < "microfaradio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_microfaradio_n_rel" ] ]. microfibrilla_n1 := n_intr_count_le & [ STEM < "microfibrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfibrilla_n_rel" ] ]. microficha_n1 := n_intr_count_le & [ STEM < "microficha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microficha_n_rel" ] ]. microfilamento_n1 := n_intr_count_le & [ STEM < "microfilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfilamento_n_rel" ] ]. microfilm_n1 := n_intr_count_le & [ STEM < "microfilm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfilm_n_rel" ] ]. microfilmación_n1 := n_intr_count_le & [ STEM < "microfilmación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfilmación_n_rel" ] ]. microfilmadora_n1 := n_intr_count_le & [ STEM < "microfilmadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfilmadora_n_rel" ] ]. microfilmar_v := v_trans_np_le & [ STEM < "microfilmar" >, SYNSEM.LKEYS.KEYREL.PRED "_microfilmar_v_rel" ]. microfiltración_n1 := n_trans_le & [ STEM < "microfiltración" >, SYNSEM.LKEYS.KEYREL.PRED "_microfiltración_n_rel" ]. microfisura_n1 := n_intr_count_le & [ STEM < "microfisura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfisura_n_rel" ] ]. microfotografía_n1 := n_intr_count_le & [ STEM < "microfotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_microfotografía_n_rel" ] ]. microftalmía_n1 := n_intr_uncount_pl_le & [ STEM < "microftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microftalmía_n_rel" ] ]. microfusión_n1 := n_intr_count_le & [ STEM < "microfusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microfusión_n_rel" ] ]. microfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "microfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_microfónico_a_rel" ]. microfósil_n1 := n_intr_count_le & [ STEM < "microfósil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microfósil_n_rel" ] ]. microgliacito_n1 := n_intr_count_le & [ STEM < "microgliacito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microgliacito_n_rel" ] ]. microglial_a1 := a_rel_nonprd_intr_le & [ STEM < "microglial" >, SYNSEM.LKEYS.KEYREL.PRED "_microglial_a_rel" ]. microglobulina_n1 := n_intr_count_le & [ STEM < "microglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microglobulina_n_rel" ] ]. microglósico_a1 := a_rel_nonprd_intr_le & [ STEM < "microglósico" >, SYNSEM.LKEYS.KEYREL.PRED "_microglósico_a_rel" ]. micrognatia_n1 := n_intr_count_le & [ STEM < "micrognatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micrognatia_n_rel" ] ]. micrografía_n1 := n_intr_count_le & [ STEM < "micrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micrografía_n_rel" ] ]. micrográficamente_x1 := av_i_spr_le & [ STEM < "micrográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_micrográficamente_x_rel" ]. micrográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "micrográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_micrográfico_a_rel" ]. microheterocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "microheterocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_microheterocromático_a_rel" ]. microimagen_n1 := n_intr_count_le & [ STEM < "microimagen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_microimagen_n_rel" ] ]. microimpreso_n1 := n_intr_count_le & [ STEM < "microimpreso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_microimpreso_n_rel" ] ]. microimpresora_n1 := n_intr_count_le & [ STEM < "microimpresora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microimpresora_n_rel" ] ]. microinstrucción_n1 := n_intr_count_le & [ STEM < "microinstrucción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microinstrucción_n_rel" ] ]. microinyección_n1 := n_intr_count_le & [ STEM < "microinyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microinyección_n_rel" ] ]. microlenguaje_n1 := n_intr_count_le & [ STEM < "microlenguaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microlenguaje_n_rel" ] ]. microlente_n1 := n_intr_count_le & [ STEM < "microlente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microlente_n_rel" ] ]. microlita_n1 := n_intr_count_le & [ STEM < "microlita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_microlita_n_rel" ] ]. microlito_n1 := n_intr_count_le & [ STEM < "microlito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microlito_n_rel" ] ]. microlitografía_n1 := n_intr_count_le & [ STEM < "microlitografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microlitografía_n_rel" ] ]. microlínea_n1 := n_intr_count_le & [ STEM < "microlínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microlínea_n_rel" ] ]. microlítico_a1 := a_rel_nonprd_intr_le & [ STEM < "microlítico" >, SYNSEM.LKEYS.KEYREL.PRED "_microlítico_a_rel" ]. micromandíbula_n1 := n_intr_count_le & [ STEM < "micromandíbula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micromandíbula_n_rel" ] ]. micromanómetro_n1 := n_intr_count_le & [ STEM < "micromanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micromanómetro_n_rel" ] ]. micromemoria_n1 := n_intr_count_le & [ STEM < "micromemoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micromemoria_n_rel" ] ]. micrometeorología_n1 := n_intr_uncount_le & [ STEM < "micrometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micrometeorología_n_rel" ] ]. microminiatura_n1 := n_intr_count_le & [ STEM < "microminiatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microminiatura_n_rel" ] ]. microminiaturización_n1 := n_intr_uncount_le & [ STEM < "microminiaturización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microminiaturización_n_rel" ] ]. micromorfología_n1 := n_intr_uncount_le & [ STEM < "micromorfología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromorfología_n_rel" ] ]. micromorfólogo_n1 := n_intr_count_le & [ STEM < "micromorfólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_micromorfólogo_n_rel" ] ]. micromotor_n1 := n_intr_count_le & [ STEM < "micromotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micromotor_n_rel" ] ]. micromuestreo_n1 := n_intr_count_le & [ STEM < "muestreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muestreo_n_rel" ] ]. micromundo_n1 := n_intr_count_le & [ STEM < "micromundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micromundo_n_rel" ] ]. micrométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "micrométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_micrométrico_a_rel" ]. micronización_n1 := n_trans_le & [ STEM < "micronización" >, SYNSEM.LKEYS.KEYREL.PRED "_micronización_n_rel" ]. micronutriente_n1 := n_intr_count_le & [ STEM < "micronutriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micronutriente_n_rel" ] ]. micronúcleo_n1 := n_intr_mass_le & [ STEM < "micronúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micronúcleo_n_rel" ] ]. microonda_n1 := n_intr_count_le & [ STEM < "microonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microonda_n_rel" ] ]. microondas_n1 := n_intr_count_le & [ STEM < "microondas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microondas_n_rel" ] ]. microoperación_n1 := n_intr_count_le & [ STEM < "microoperación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microoperación_n_rel" ] ]. microordenador_n1 := n_intr_count_le & [ STEM < "microordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_microordenador_n_rel" ] ]. microorganismo_n1 := n_intr_count_le & [ STEM < "microorganismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_microorganismo_n_rel" ] ]. micropaleontología_n1 := n_intr_uncount_le & [ STEM < "micropaleontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micropaleontología_n_rel" ] ]. micropartícula_n1 := n_intr_count_le & [ STEM < "micropartícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micropartícula_n_rel" ] ]. microparásito_n1 := n_intr_count_le & [ STEM < "microparásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_microparásito_n_rel" ] ]. microperforación_n1 := n_intr_count_le & [ STEM < "microperforación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microperforación_n_rel" ] ]. microplaqueta_n1 := n_intr_count_le & [ STEM < "microplaqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microplaqueta_n_rel" ] ]. microporosidad_n1 := n_intr_uncount_le & [ STEM < "microporosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microporosidad_n_rel" ] ]. microporoso_a1 := a_rel_nonprd_intr_le & [ STEM < "microporoso" >, SYNSEM.LKEYS.KEYREL.PRED "_microporoso_a_rel" ]. microposicionamiento_n1 := n_intr_count_le & [ STEM < "microposicionamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microposicionamiento_n_rel" ] ]. microprocesador_n1 := n_intr_count_le & [ STEM < "microprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_microprocesador_n_rel" ] ]. microprograma_n1 := n_intr_count_le & [ STEM < "microprograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_microprograma_n_rel" ] ]. microprogramable_a1 := a_rel_nonprd_intr_le & [ STEM < "microprogramable" >, SYNSEM.LKEYS.KEYREL.PRED "_microprogramable_a_rel" ]. microprogramación_n1 := n_trans_le & [ STEM < "microprogramación" >, SYNSEM.LKEYS.KEYREL.PRED "_microprogramación_n_rel" ]. microprogramador_n1 := n_intr_count_le & [ STEM < "microprogramador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_microprogramador_n_rel" ] ]. microprogramar_v := v_trans_np*_le & [ STEM < "microprogramar" >, SYNSEM.LKEYS.KEYREL.PRED "_microprogramar_v_rel" ]. micropúa_n1 := n_intr_count_le & [ STEM < "micropúa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micropúa_n_rel" ] ]. microrreproducción_n1 := n_intr_count_le & [ STEM < "microrreproducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microrreproducción_n_rel" ] ]. microrruptor_n1 := n_intr_count_le & [ STEM < "microrruptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microrruptor_n_rel" ] ]. microscopio_n1 := n_intr_count_le & [ STEM < "microscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_microscopio_n_rel" ] ]. microscópicamente_x1 := av_i_spr_le & [ STEM < "microscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_microscópicamente_x_rel" ]. microscópico_a1 := a_rel_prd_le & [ STEM < "microscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_microscópico_a_rel" ]. microsegundo_n := n_intr_count_le & [ STEM < "microsegundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_microsegundo_n_rel" ] ]. microsismo_n1 := n_intr_uncount_le & [ STEM < "microsismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microsismo_n_rel" ] ]. microsociología_n1 := n_intr_uncount_le & [ STEM < "microsociología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microsociología_n_rel" ] ]. microsonda_n1 := n_intr_count_le & [ STEM < "microsonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microsonda_n_rel" ] ]. microsurco_n1 := n_intr_count_le & [ STEM < "microsurco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microsurco_n_rel" ] ]. microsísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "microsísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_microsísmico_a_rel" ]. microsómico_a1 := a_rel_nonprd_intr_le & [ STEM < "microsómico" >, SYNSEM.LKEYS.KEYREL.PRED "_microsómico_a_rel" ]. microteléfono_n1 := n_intr_count_le & [ STEM < "microteléfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microteléfono_n_rel" ] ]. microterminal_n1 := n_intr_count_le & [ STEM < "microterminal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microterminal_n_rel" ] ]. microtextura_n1 := n_intr_count_le & [ STEM < "microtextura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microtextura_n_rel" ] ]. microtomía_n1 := n_intr_uncount_pl_le & [ STEM < "microtomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microtomía_n_rel" ] ]. microtrabecular_a1 := a_rel_nonprd_intr_le & [ STEM < "microtrabecular" >, SYNSEM.LKEYS.KEYREL.PRED "_microtrabecular_a_rel" ]. microtractor_n1 := n_intr_count_le & [ STEM < "microtractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microtractor_n_rel" ] ]. microtratamiento_n1 := n_intr_count_le & [ STEM < "microtratamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microtratamiento_n_rel" ] ]. microtérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "microtérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_microtérmico_a_rel" ]. microtúbulo_n1 := n_intr_count_le & [ STEM < "microtúbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microtúbulo_n_rel" ] ]. microunión_n1 := n_trans_le & [ STEM < "microunión" >, SYNSEM.LKEYS.KEYREL.PRED "_microunión_n_rel" ]. microvatio_n := n_intr_count_le & [ STEM < "microvatio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_microvatio_n_rel" ] ]. microviga_n1 := n_intr_count_le & [ STEM < "microviga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microviga_n_rel" ] ]. microvillus_n1 := n_ppcomp_count_le & [ STEM < "microvillus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_microvillus_n_rel" ] ]. microvoltio_n := n_intr_count_le & [ STEM < "microvoltio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_microvoltio_n_rel" ] ]. microválvula_n1 := n_intr_count_le & [ STEM < "microválvula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_microválvula_n_rel" ] ]. micrófono_n1 := n_intr_count_le & [ STEM < "micrófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micrófono_n_rel" ] ]. micrómetro_n := n_intr_count_le & [ STEM < "micrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_micrómetro_n_rel" ] ]. micrón_n1 := n_intr_count_le & [ STEM < "micrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micrón_n_rel" ] ]. micrótomo_n1 := n_intr_count_le & [ STEM < "micrótomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_micrótomo_n_rel" ] ]. micuré_n1 := n_intr_count_le & [ STEM < "micuré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_micuré_n_rel" ] ]. micótico_a1 := a_rel_nonprd_intr_le & [ STEM < "micótico" >, SYNSEM.LKEYS.KEYREL.PRED "_micótico_a_rel" ]. midriático_a1 := a_rel_nonprd_intr_le & [ STEM < "midriático" >, SYNSEM.LKEYS.KEYREL.PRED "_midriático_a_rel" ]. miedosamente_x1 := av_i_spr_le & [ STEM < "miedosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_miedosamente_x_rel" ]. miedoso_a1 := a_qual_intr_ser_le & [ STEM < "miedoso" >, SYNSEM.LKEYS.KEYREL.PRED "_miedoso_a_rel" ]. miel_n1 := n_intr_mass_le & [ STEM < "miel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miel_n_rel" ] ]. mielada_n1 := n_intr_count_le & [ STEM < "mielada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mielada_n_rel" ] ]. mieloblasto_n1 := n_intr_count_le & [ STEM < "mieloblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mieloblasto_n_rel" ] ]. mieloblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "mieloblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_mieloblástico_a_rel" ]. mielocito_n1 := n_intr_count_le & [ STEM < "mielocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mielocito_n_rel" ] ]. mieloide_a1 := a_rel_nonprd_intr_le & [ STEM < "mieloide" >, SYNSEM.LKEYS.KEYREL.PRED "_mieloide_a_rel" ]. mieloma_n1 := n_intr_count_le & [ STEM < "mieloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mieloma_n_rel" ] ]. mieloperoxidasa_n1 := n_intr_count_le & [ STEM < "mieloperoxidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mieloperoxidasa_n_rel" ] ]. mielínico_a1 := a_rel_nonprd_intr_le & [ STEM < "mielínico" >, SYNSEM.LKEYS.KEYREL.PRED "_mielínico_a_rel" ]. miembro_n1 := n_intr_count_le & [ STEM < "miembro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_miembro_n_rel" ] ]. miembro_n2 := n_ppcomp_count_le & [ STEM < "miembro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_miembro_n_rel" ] ]. mientras_que_sc := sc_prop_fin_le & [ STEM < "mientras_que" >, SYNSEM.LKEYS.KEYREL.PRED "_mientras_que_x_subord_rel" ]. mientras_sc := sc_prop_fin_le & [ STEM < "mientras" >, SYNSEM.LKEYS.KEYREL.PRED "_mientras_x_subord_rel" ]. mientras_x1 := av_i_le & [ STEM < "mientras" >, SYNSEM.LKEYS.KEYREL.PRED "_mientras_x_rel" ]. mientérico_a1 := a_rel_nonprd_intr_le & [ STEM < "mientérico" >, SYNSEM.LKEYS.KEYREL.PRED "_mientérico_a_rel" ]. mierda_n1 := n_intr_mass_le & [ STEM < "mierda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mierda_n_rel" ] ]. miga_n1 := n_intr_count_le & [ STEM < "miga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miga_n_rel" ] ]. migaja_n1 := n_pseudo-part_le & [ STEM < "migaja" >, SYNSEM.LKEYS.KEYREL.PRED "_migaja_n_rel" ]. migajoso_a1 := a_qual_intr_scopal_le & [ STEM < "migajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_migajoso_a_rel" ]. migración_n1 := n_event-result_intr_le & [ STEM < "migración" >, SYNSEM.LKEYS.KEYREL.PRED "_migración_n_rel" ]. migrante_a1 := a_rel_nonprd_intr_le & [ STEM < "migrante" >, SYNSEM.LKEYS.KEYREL.PRED "_migrante_a_rel" ]. migrantemente_x1 := av_i_spr_le & [ STEM < "migrantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_migrantemente_x_rel" ]. migrar_v := v_unacc_lcomp_dir*_le & [ STEM < "migrar" >, SYNSEM.LKEYS.KEYREL.PRED "_migrar_v_rel" ]. migratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "migratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_migratorio_a_rel" ]. mijo_n1 := n_intr_mass_le & [ STEM < "mijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mijo_n_rel" ] ]. milagrosamente_x1 := av_i_spr_le & [ STEM < "milagrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_milagrosamente_x_rel" ]. milagroso_a1 := a_rel_prd_le & [ STEM < "milagroso" >, SYNSEM.LKEYS.KEYREL.PRED "_milagroso_a_rel" ]. milano_n1 := n_intr_count_le & [ STEM < "milano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_milano_n_rel" ] ]. milanés_a1 := a_rel_prd_le & [ STEM < "milanés" >, SYNSEM.LKEYS.KEYREL.PRED "_milanés_a_rel" ]. milanés_n1 := n_intr_count_le & [ STEM < "milanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_milanés_n_rel" ] ]. milenario_a1 := a_rel_prd_le & [ STEM < "milenario" >, SYNSEM.LKEYS.KEYREL.PRED "_milenario_a_rel" ]. milenario_n1 := n_intr_count_le & [ STEM < "milenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_milenario_n_rel" ] ]. milenarismo_n1 := n_intr_uncount_le & [ STEM < "milenarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_milenarismo_n_rel" ] ]. milenio_n1 := n_pseudo-part_temp_le & [ STEM < "milenio" >, SYNSEM.LKEYS.KEYREL.PRED "_milenio_n_rel" ]. milenio_n2 := n_intr_temp_le & [ STEM < "milenio" > ]. milenrama_n1 := n_intr_count_le & [ STEM < "milenrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_milenrama_n_rel" ] ]. miliamperio_n := n_intr_count_le & [ STEM < "miliamperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_miliamperio_n_rel" ] ]. miliar_n1 := n_intr_count_le & [ STEM < "miliar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miliar_n_rel" ] ]. miliario_n1 := n_intr_count_le & [ STEM < "miliario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miliario_n_rel" ] ]. milibar_n := n_intr_count_le & [ STEM < "milibar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_milibar_n_rel" ] ]. milicia_n1 := n_intr_coll_le & [ STEM < "milicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_milicia_n_rel" ] ]. miliciano_n1 := n_intr_count_le & [ STEM < "miliciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_miliciano_n_rel" ] ]. miligramo_n1 := n_pseudo-part_le & [ STEM < "miligramo" >, SYNSEM.LKEYS.KEYREL.PRED "_miligramo_n_rel" ]. mililitro_n1 := n_pseudo-part_le & [ STEM < "mililitro" >, SYNSEM.LKEYS.KEYREL.PRED "_mililitro_n_rel" ]. milipulgada_n := n_intr_count_le & [ STEM < "milipulgada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_milipulgada_n_rel" ] ]. milisegundo_n := n_intr_count_le & [ STEM < "milisegundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_milisegundo_n_rel" ] ]. militancia_n1 := n_intr_uncount_le & [ STEM < "militancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_militancia_n_rel" ] ]. militante_a1 := a_qual_intr_ser_le & [ STEM < "militante" >, SYNSEM.LKEYS.KEYREL.PRED "_militante_a_rel" ]. militante_n1 := n_intr_count_le & [ STEM < "militante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_militante_n_rel" ] ]. militar-industrial_a1 := a_rel_nonprd_intr_le & [ STEM < "militar-industrial" >, SYNSEM.LKEYS.KEYREL.PRED "_militar-industrial_a_rel" ]. militar_a1 := a_rel_nonprd_intr_le & [ STEM < "militar" >, SYNSEM.LKEYS.KEYREL.PRED "_militar_a_rel" ]. militar_n1 := n_intr_count_le & [ STEM < "militar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_militar_n_rel" ] ]. militar_v := v_intr_mrkd_np*_le & [ STEM < "militar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_militar_v_rel" ] ]. militarismo_n1 := n_intr_uncount_le & [ STEM < "militarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_militarismo_n_rel" ] ]. militarista_a1 := a_rel_nonprd_intr_le & [ STEM < "militarista" >, SYNSEM.LKEYS.KEYREL.PRED "_militarista_a_rel" ]. militarización_n1 := n_trans_le & [ STEM < "militarización" >, SYNSEM.LKEYS.KEYREL.PRED "_militarización_n_rel" ]. militarmente_x1 := av_i_spr_le & [ STEM < "militarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_militarmente_x_rel" ]. militarmentemutuamente_x1 := av_i_le & [ STEM < "mutuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mutuamente_x_rel" ]. milivoltio_n := n_intr_count_le & [ STEM < "milivoltio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_milivoltio_n_rel" ] ]. milla_n1 := n_pseudo-part_le & [ STEM < "milla" >, SYNSEM.LKEYS.KEYREL.PRED "_milla_n_rel" ]. millón_n1 := n_pseudo-part_le & [ STEM < "millón" >, SYNSEM.LKEYS.KEYREL.PRED "_millón_n_rel" ]. millardo_n := n_intr_count_le & [ STEM < "millardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_millardo_n_rel" ] ]. millonada_n := n_pseudo-part_le & [ STEM < "millonada" >, SYNSEM.LKEYS.KEYREL.PRED "_millonada_n_rel" ]. millonario_n1 := n_intr_count_le & [ STEM < "millonario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_millonario_n_rel" ] ]. milohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "milohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_milohioideo_a_rel" ]. milésima_n := n_intr_count_le & [ STEM < "milésima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_milésima_n_rel" ] ]. milígramo_n1 := n_pseudo-part_le & [ STEM < "milígramo" >, SYNSEM.LKEYS.KEYREL.PRED "_milígramo_n_rel" ]. milímetro_cuadrado_n1 := n_pseudo-part_le & [ STEM < "milímetro_cuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_milímetro_cuadrado_n_rel" ]. milímetro_cúbico_n1 := n_pseudo-part_le & [ STEM < "milímetro_cúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_milímetro_cúbico_n_rel" ]. milímetro_n1 := n_pseudo-part_le & [ STEM < "milímetro" >, SYNSEM.LKEYS.KEYREL.PRED "_milímetro_n_rel" ]. mimar_v := v_trans_np_le & [ STEM < "mimar" >, SYNSEM.LKEYS.KEYREL.PRED "_mimar_v_rel" ]. mimbre_n1 := n_intr_count_le & [ STEM < "mimbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_mimbre_n_rel" ] ]. mimbrera_n1 := n_intr_count_le & [ STEM < "mimbrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mimbrera_n_rel" ] ]. mimetismo_n1 := n_intr_uncount_le & [ STEM < "mimetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mimetismo_n_rel" ] ]. mimetita_n1 := n_intr_count_le & [ STEM < "mimetita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mimetita_n_rel" ] ]. mimetizar_v := v_trans_np_caus_le & [ STEM < "mimetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_mimetizar_v_rel" ]. mimo_n1 := n_intr_count_le & [ STEM < "mimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_mimo_n_rel" ] ]. mimodrama_n1 := n_intr_count_le & [ STEM < "mimodrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_mimodrama_n_rel" ] ]. mimosa_n1 := n_intr_count_le & [ STEM < "mimosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mimosa_n_rel" ] ]. mimoso_a1 := a_qual_intr_scopal_le & [ STEM < "mimoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mimoso_a_rel" ]. miméticamente_x1 := av_i_spr_le & [ STEM < "miméticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_miméticamente_x_rel" ]. mimético_a1 := a_rel_nonprd_intr_le & [ STEM < "mimético" >, SYNSEM.LKEYS.KEYREL.PRED "_mimético_a_rel" ]. mina_n1 := n_intr_count_le & [ STEM < "mina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mina_n_rel" ] ]. minador_a1 := a_rel_nonprd_intr_le & [ STEM < "minador" >, SYNSEM.LKEYS.KEYREL.PRED "_minador_a_rel" ]. minar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "minar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_minar_v_rel" ] ]. minar_v2 := v_trans_np_le & [ STEM < "minar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_minar_v_rel" ] ]. minarete_n1 := n_intr_count_le & [ STEM < "minarete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_minarete_n_rel" ] ]. mineral_a1 := a_rel_nonprd_intr_le & [ STEM < "mineral" >, SYNSEM.LKEYS.KEYREL.PRED "_mineral_a_rel" ]. mineral_n1 := n_intr_count_le & [ STEM < "mineral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mineral_n_rel" ] ]. mineralero_a1 := a_rel_nonprd_intr_le & [ STEM < "mineralero" >, SYNSEM.LKEYS.KEYREL.PRED "_mineralero_a_rel" ]. mineralización_n1 := n_trans_le & [ STEM < "mineralización" >, SYNSEM.LKEYS.KEYREL.PRED "_mineralización_n_rel" ]. mineralizador_n1 := n_intr_count_le & [ STEM < "mineralizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mineralizador_n_rel" ] ]. mineralizar_v := v_trans_np_caus_le & [ STEM < "mineralizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_mineralizar_v_rel" ] ]. mineralogista_n1 := n_intr_count_le & [ STEM < "mineralogista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mineralogista_n_rel" ] ]. mineralogía_n1 := n_intr_uncount_le & [ STEM < "mineralogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mineralogía_n_rel" ] ]. mineraloide_a1 := a_rel_nonprd_intr_le & [ STEM < "mineraloide" >, SYNSEM.LKEYS.KEYREL.PRED "_mineraloide_a_rel" ]. mineralógicamente_x1 := av_i_spr_le & [ STEM < "mineralógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mineralógicamente_x_rel" ]. mineralógico_a1 := a_rel_nonprd_intr_le & [ STEM < "mineralógico" >, SYNSEM.LKEYS.KEYREL.PRED "_mineralógico_a_rel" ]. minero_a1 := a_rel_nonprd_intr_le & [ STEM < "minero" >, SYNSEM.LKEYS.KEYREL.PRED "_minero_a_rel" ]. minero_n1 := n_intr_count_le & [ STEM < "minero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_minero_n_rel" ] ]. minerva_n1 := n_intr_count_le & [ STEM < "minerva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minerva_n_rel" ] ]. minería_n1 := n_intr_uncount_pl_le & [ STEM < "minería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minería_n_rel" ] ]. miniatura_n1 := n_intr_count_le & [ STEM < "miniatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miniatura_n_rel" ] ]. miniaturista_n1 := n_intr_count_le & [ STEM < "miniaturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_miniaturista_n_rel" ] ]. miniaturización_n1 := n_trans_le & [ STEM < "miniaturización" >, SYNSEM.LKEYS.KEYREL.PRED "_miniaturización_n_rel" ]. minibar_n1 := n_intr_count_le & [ STEM < "minibar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minibar_n_rel" ] ]. minicartucho_n1 := n_intr_count_le & [ STEM < "minicartucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minicartucho_n_rel" ] ]. minicasete_n1 := n_intr_count_le & [ STEM < "minicasete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minicasete_n_rel" ] ]. minicomputador_n1 := n_intr_count_le & [ STEM < "minicomputador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minicomputador_n_rel" ] ]. minidisco_n1 := n_intr_count_le & [ STEM < "minidisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_minidisco_n_rel" ] ]. minidisquete_n1 := n_intr_count_le & [ STEM < "minidisquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minidisquete_n_rel" ] ]. minidistribuidor_n1 := n_intr_count_le & [ STEM < "minidistribuidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minidistribuidor_n_rel" ] ]. minifalda_n1 := n_intr_count_le & [ STEM < "minifalda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minifalda_n_rel" ] ]. minifundio_n1 := n_intr_count_le & [ STEM < "minifundio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_minifundio_n_rel" ] ]. minifundista_n1 := n_intr_count_le & [ STEM < "minifundista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_minifundista_n_rel" ] ]. minimalismo_n1 := n_intr_uncount_le & [ STEM < "minimalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minimalismo_n_rel" ] ]. minimalizar_v := v_trans_np_le & [ STEM < "minimalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_minimalizar_v_rel" ]. minimiosina_n1 := n_intr_mass-or-count_le & [ STEM < "minimiosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_minimiosina_n_rel" ] ]. minimizable_a1 := a_rel_prd_le & [ STEM < "minimizable" >, SYNSEM.LKEYS.KEYREL.PRED "_minimizable_a_rel" ]. minimización_n1 := n_trans_le & [ STEM < "minimización" >, SYNSEM.LKEYS.KEYREL.PRED "_minimización_n_rel" ]. minimizar_v1 := v_trans_cp_prop_fin_le & [ STEM < "minimizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_minimizar_v_rel" ] ]. minimizar_v2 := v_trans_np_le & [ STEM < "minimizar" >, SYNSEM.LKEYS.KEYREL.PRED "_minimizar_v_rel" ]. minio_n1 := n_intr_count_le & [ STEM < "minio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_minio_n_rel" ] ]. miniordenador_n1 := n_intr_count_le & [ STEM < "miniordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miniordenador_n_rel" ] ]. ministerial_a1 := a_rel_nonprd_intr_le & [ STEM < "ministerial" >, SYNSEM.LKEYS.KEYREL.PRED "_ministerial_a_rel" ]. ministerio_n1 := n_intr_count_le & [ STEM < "ministerio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_ministerio_n_rel" ] ]. ministro_n1 := n_intr_count_le & [ STEM < "ministro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ministro_n_rel" ] ]. minitractor_n1 := n_intr_count_le & [ STEM < "minitractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minitractor_n_rel" ] ]. miniversión_n1 := n_intr_count_le & [ STEM < "miniversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_miniversión_n_rel" ] ]. minoración_n1 := n_trans_le & [ STEM < "minoración" >, SYNSEM.LKEYS.KEYREL.PRED "_minoración_n_rel" ]. minorar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "minorar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_minorar_v_rel" ] ]. minorar_v2 := v_trans_np_le & [ STEM < "minorar" >, SYNSEM.LKEYS.KEYREL.PRED "_minorar_v_rel" ]. minorista_a1 := a_rel_nonprd_intr_le & [ STEM < "minorista" >, SYNSEM.LKEYS.KEYREL.PRED "_minorista_a_rel" ]. minorista_n1 := n_intr_count_le & [ STEM < "minorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_minorista_n_rel" ] ]. minoritariamente_x1 := av_i_spr_le & [ STEM < "minoritariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_minoritariamente_x_rel" ]. minoritario_a1 := a_qual_intr_scopal_le & [ STEM < "minoritario" >, SYNSEM.LKEYS.KEYREL.PRED "_minoritario_a_rel" ]. minoría_n1 := n_part_le & [ STEM < "minoría" >, SYNSEM.LKEYS.KEYREL.PRED "_minoría_n_rel" ]. minotauro_n1 := n_intr_count_le & [ STEM < "minotauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_minotauro_n_rel" ] ]. minucia_n1 := n_intr_count_le & [ STEM < "minucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minucia_n_rel" ] ]. minuciosamente_x1 := av_i_spr_le & [ STEM < "minuciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_minuciosamente_x_rel" ]. minuciosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "minuciosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minuciosidad_n_rel" ] ]. minucioso_a1 := a_qual_intr_scopal_le & [ STEM < "minucioso" >, SYNSEM.LKEYS.KEYREL.PRED "_minucioso_a_rel" ]. minusvalorar_v := v_trans_np_le & [ STEM < "minusvalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_minusvalorar_v_rel" ]. minusvalía_n1 := n_intr_uncount_pl_le & [ STEM < "minusvalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minusvalía_n_rel" ] ]. minusválido_a1 := a_qual_intr_ser_le & [ STEM < "minusválido" >, SYNSEM.LKEYS.KEYREL.PRED "_minusválido_a_rel" ]. minusválido_n1 := n_intr_count_le & [ STEM < "minusválido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_minusválido_n_rel" ] ]. minutaje_n1 := n_intr_uncount_le & [ STEM < "minutaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minutaje_n_rel" ] ]. minutero_n1 := n_intr_count_le & [ STEM < "minutero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_minutero_n_rel" ] ]. minuto_n1 := n_pseudo-part_temp_le & [ STEM < "minuto" >, SYNSEM.LKEYS.KEYREL.PRED "_minuto_n_rel" ]. minuto_n2 := n_intr_temp_le & [ STEM < "minuto" > ]. minúsculo_a1 := a_rel_prd_le & [ STEM < "minúsculo" >, SYNSEM.LKEYS.KEYREL.PRED "_minúsculo_a_rel" ]. mioblasto_n1 := n_intr_count_le & [ STEM < "mioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mioblasto_n_rel" ] ]. miocardio_n1 := n_ppcomp_count_le & [ STEM < "miocardio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_miocardio_n_rel" ] ]. miocardiopatía_n1 := n_intr_uncount_pl_le & [ STEM < "miocardiopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miocardiopatía_n_rel" ] ]. mioceno_n1 := n_intr_count_le & [ STEM < "mioceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_mioceno_n_rel" ] ]. miofibrilla_n1 := n_intr_count_le & [ STEM < "miofibrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miofibrilla_n_rel" ] ]. miofilamento_n1 := n_intr_count_le & [ STEM < "miofilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miofilamento_n_rel" ] ]. mioglobina_n1 := n_intr_count_le & [ STEM < "mioglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mioglobina_n_rel" ] ]. mioma_n1 := n_intr_count_le & [ STEM < "mioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mioma_n_rel" ] ]. miomesina_n1 := n_intr_count_le & [ STEM < "miomesina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miomesina_n_rel" ] ]. mionema_n1 := n_intr_count_le & [ STEM < "mionema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mionema_n_rel" ] ]. miope_a1 := a_qual_intr_ser_le & [ STEM < "miope" >, SYNSEM.LKEYS.KEYREL.PRED "_miope_a_rel" ]. miope_n1 := n_intr_count_le & [ STEM < "miope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_miope_n_rel" ] ]. miopía_n1 := n_intr_uncount_pl_le & [ STEM < "miopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miopía_n_rel" ] ]. miosina_n1 := n_intr_count_le & [ STEM < "miosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_miosina_n_rel" ] ]. mirabilita_n1 := n_intr_count_le & [ STEM < "mirabilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mirabilita_n_rel" ] ]. miracielo_n1 := n_intr_count_le & [ STEM < "miracielo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_miracielo_n_rel" ] ]. mirada_n1 := n_trans_le & [ STEM < "mirada" >, SYNSEM.LKEYS.KEYREL.PRED "_mirada_n_rel" ]. mirador_n1 := n_intr_count_le & [ STEM < "mirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mirador_n_rel" ] ]. mirafondos_n1 := n_intr_count_le & [ STEM < "mirafondos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mirafondos_n_rel" ] ]. miraguano_n1 := n_intr_count_le & [ STEM < "miraguano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_miraguano_n_rel" ] ]. miraje_n1 := n_intr_count_le & [ STEM < "miraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miraje_n_rel" ] ]. miramiento_n1 := n_trans_le & [ STEM < "miramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_miramiento_n_rel" ]. mirar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "mirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_mirar_v_rel" ] ]. mirar_v2 := v_intr_mrkd_np_le & [ STEM < "mirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_mirar_v_rel" ] ]. mirar_v3 := v_trans_cp_prop_fin_le & [ STEM < "mirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mirar_v_rel" ] ]. mirar_v4 := v_trans_np*_le & [ STEM < "mirar" >, SYNSEM.LKEYS.KEYREL.PRED "_mirar_v_rel" ]. mirar_v5 := v_unacc_lcomp_dir_le & [ STEM < "mirar" >, SYNSEM.LKEYS.KEYREL.PRED "_mirar_v_rel" ]. mirasol_n1 := n_intr_count_le & [ STEM < "mirasol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mirasol_n_rel" ] ]. miriamétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "miriamétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_miriamétrico_a_rel" ]. mirilla_n1 := n_intr_count_le & [ STEM < "mirilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mirilla_n_rel" ] ]. miringotomía_n1 := n_intr_uncount_pl_le & [ STEM < "miringotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miringotomía_n_rel" ] ]. miristato_n1 := n_intr_count_le & [ STEM < "miristato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_miristato_n_rel" ] ]. miristoleato_n1 := n_intr_count_le & [ STEM < "miristoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_miristoleato_n_rel" ] ]. mirlo_n1 := n_intr_count_le & [ STEM < "mirlo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mirlo_n_rel" ] ]. mirra_n1 := n_intr_mass_le & [ STEM < "mirra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mirra_n_rel" ] ]. mirtiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "mirtiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_mirtiforme_a_rel" ]. mirtilo_n1 := n_intr_count_le & [ STEM < "mirtilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mirtilo_n_rel" ] ]. mirto_n1 := n_intr_count_le & [ STEM < "mirto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mirto_n_rel" ] ]. miríada_n1 := n_intr_count_le & [ STEM < "miríada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miríada_n_rel" ] ]. mirístico_a1 := a_rel_nonprd_intr_le & [ STEM < "mirístico" >, SYNSEM.LKEYS.KEYREL.PRED "_mirístico_a_rel" ]. mirón_n1 := n_intr_count_le & [ STEM < "mirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mirón_n_rel" ] ]. misal_n1 := n_intr_count_le & [ STEM < "misal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_misal_n_rel" ] ]. misantropía_n1 := n_intr_uncount_pl_le & [ STEM < "misantropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misantropía_n_rel" ] ]. misantrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "misantrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_misantrópico_a_rel" ]. misceláneo_a1 := a_rel_nonprd_intr_le & [ STEM < "misceláneo" >, SYNSEM.LKEYS.KEYREL.PRED "_misceláneo_a_rel" ]. miscible_a1 := a_rel_prd_le & [ STEM < "miscible" >, SYNSEM.LKEYS.KEYREL.PRED "_miscible_a_rel" ]. miserable_a1 := a_qual_intr_ser_le & [ STEM < "miserable" >, SYNSEM.LKEYS.KEYREL.PRED "_miserable_a_rel" ]. miserable_n1 := n_intr_count_le & [ STEM < "miserable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_miserable_n_rel" ] ]. miserablemente_x1 := av_i_spr_le & [ STEM < "miserablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_miserablemente_x_rel" ]. misericordiosamente_x1 := av_i_spr_le & [ STEM < "misericordiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_misericordiosamente_x_rel" ]. misericordioso_a1 := a_qual_intr_ser_le & [ STEM < "misericordioso" >, SYNSEM.LKEYS.KEYREL.PRED "_misericordioso_a_rel" ]. misil_n1 := n_intr_count_le & [ STEM < "misil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_misil_n_rel" ] ]. misionar_v := v_unacc_lcomp_loc*_le & [ STEM < "misionar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_soc, PRED "_misionar_v_rel" ] ]. misionero_a1 := a_rel_nonprd_intr_le & [ STEM < "misionero" >, SYNSEM.LKEYS.KEYREL.PRED "_misionero_a_rel" ]. misionero_n1 := n_intr_count_le & [ STEM < "misionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_misionero_n_rel" ] ]. misión_n1 := n_intr_count_le & [ STEM < "misión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_misión_n_rel" ] ]. mismo_a1 := a_adv_int_le & [ STEM < "mismo" >, SYNSEM.LKEYS.KEYREL.PRED "_mismo_a_rel" ]. mismo_x1 := av_i_foc_psthd_le & [ STEM < "mismo" >, SYNSEM.LKEYS.KEYREL.PRED "_mismo_x_rel" ]. mismo_x3 := av_i_np-foc_psthd_le & [ STEM < "mismo" >, SYNSEM.LKEYS.KEYREL.PRED "_mismo_x_rel" ]. misología_n1 := n_intr_uncount_le & [ STEM < "misología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misología_n_rel" ] ]. mistela_n1 := n_intr_mass_le & [ STEM < "mistela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mistela_n_rel" ] ]. mister_n1 := n_intr_count_le & [ STEM < "mister" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mister_n_rel" ] ]. misteriosamente_x1 := av_i_spr_le & [ STEM < "misteriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_misteriosamente_x_rel" ]. misterioso_a1 := a_qual_intr_scopal_le & [ STEM < "misterioso" >, SYNSEM.LKEYS.KEYREL.PRED "_misterioso_a_rel" ]. misticismo_n1 := n_ppcomp_uncount_le & [ STEM < "misticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misticismo_n_rel" ] ]. mistificar_v1 := v_trans_np_le & [ STEM < "mistificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem_soc, PRED "_mistificar_v_rel" ] ]. mistral_n1 := n_intr_uncount_le & [ STEM < "mistral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mistral_n_rel" ] ]. misántropo_n1 := n_intr_count_le & [ STEM < "misántropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_misántropo_n_rel" ] ]. misógamo_n1 := n_intr_count_le & [ STEM < "misógamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_misógamo_n_rel" ] ]. misógino_a1 := a_qual_intr_ser_le & [ STEM < "misógino" >, SYNSEM.LKEYS.KEYREL.PRED "_misógino_a_rel" ]. misógino_n1 := n_intr_count_le & [ STEM < "misógino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_misógino_n_rel" ] ]. mitad_n1 := n_intr_count_le & [ STEM < "mitad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitad_n_rel" ] ]. mitificación_n1 := n_trans_le & [ STEM < "mitificación" >, SYNSEM.LKEYS.KEYREL.PRED "_mitificación_n_rel" ]. mitigación_n1 := n_trans_le & [ STEM < "mitigación" >, SYNSEM.LKEYS.KEYREL.PRED "_mitigación_n_rel" ]. mitigador_a1 := a_rel_nonprd_intr_le & [ STEM < "mitigador" >, SYNSEM.LKEYS.KEYREL.PRED "_mitigador_a_rel" ]. mitigar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "mitigar" >, SYNSEM.LKEYS.KEYREL.PRED "_mitigar_v_rel" ]. mitigar_v2 := v_trans_np_le & [ STEM < "mitigar" >, SYNSEM.LKEYS.KEYREL.PRED "_mitigar_v_rel" ]. mitilicultura_n1 := n_intr_count_le & [ STEM < "mitilicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitilicultura_n_rel" ] ]. mitjapunta_n1 := n_intr_count_le & [ STEM < "mitjapunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mitjapunta_n_rel" ] ]. mitocondria_n1 := n_intr_count_le & [ STEM < "mitocondria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mitocondria_n_rel" ] ]. mitocondrial_a1 := a_rel_nonprd_intr_le & [ STEM < "mitocondrial" >, SYNSEM.LKEYS.KEYREL.PRED "_mitocondrial_a_rel" ]. mitología_n1 := n_intr_count_le & [ STEM < "mitología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitología_n_rel" ] ]. mitológico_a1 := a_rel_nonprd_intr_le & [ STEM < "mitológico" >, SYNSEM.LKEYS.KEYREL.PRED "_mitológico_a_rel" ]. mitorribosoma_n1 := n_intr_count_le & [ STEM < "mitorribosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mitorribosoma_n_rel" ] ]. mitosoma_n1 := n_intr_count_le & [ STEM < "mitosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mitosoma_n_rel" ] ]. mitra_n1 := n_intr_count_le & [ STEM < "mitra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mitra_n_rel" ] ]. mitral_a1 := a_rel_nonprd_intr_le & [ STEM < "mitral" >, SYNSEM.LKEYS.KEYREL.PRED "_mitral_a_rel" ]. mitterandismo_n1 := n_intr_uncount_le & [ STEM < "mitterandismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitterandismo_n_rel" ] ]. mitógeno_n1 := n_intr_count_le & [ STEM < "mitógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mitógeno_n_rel" ] ]. mitólogo_n1 := n_intr_count_le & [ STEM < "mitólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mitólogo_n_rel" ] ]. mitón_n1 := n_intr_count_le & [ STEM < "mitón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mitón_n_rel" ] ]. mitótico_a1 := a_rel_nonprd_intr_le & [ STEM < "mitótico" >, SYNSEM.LKEYS.KEYREL.PRED "_mitótico_a_rel" ]. mixino_n1 := n_intr_count_le & [ STEM < "mixino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mixino_n_rel" ] ]. mixocromosoma_n1 := n_intr_count_le & [ STEM < "mixocromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mixocromosoma_n_rel" ] ]. mixto_a1 := a_rel_nonprd_intr_le & [ STEM < "mixto" >, SYNSEM.LKEYS.KEYREL.PRED "_mixto_a_rel" ]. mixtura_n1 := n_intr_count_le & [ STEM < "mixtura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mixtura_n_rel" ] ]. miópico_a1 := a_rel_nonprd_intr_le & [ STEM < "miópico" >, SYNSEM.LKEYS.KEYREL.PRED "_miópico_a_rel" ]. miótico_a1 := a_rel_nonprd_intr_le & [ STEM < "miótico" >, SYNSEM.LKEYS.KEYREL.PRED "_miótico_a_rel" ]. mnemotécnicamente_x1 := av_i_spr_le & [ STEM < "mnemotécnicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mnemotécnicamente_x_rel" ]. mnemotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "mnemotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_mnemotécnico_a_rel" ]. mnemónico_a1 := a_rel_nonprd_intr_le & [ STEM < "mnemónico" >, SYNSEM.LKEYS.KEYREL.PRED "_mnemónico_a_rel" ]. moabita_n1 := n_intr_count_le & [ STEM < "moabita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moabita_n_rel" ] ]. moaré_n1 := n_intr_count_le & [ STEM < "moaré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_moaré_n_rel" ] ]. mobiliario_a1 := a_rel_nonprd_intr_le & [ STEM < "mobiliario" >, SYNSEM.LKEYS.KEYREL.PRED "_mobiliario_a_rel" ]. mobiliario_n1 := n_intr_count_le & [ STEM < "mobiliario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mobiliario_n_rel" ] ]. moca_n1 := n_intr_count_le & [ STEM < "moca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moca_n_rel" ] ]. mocasín_n1 := n_intr_count_le & [ STEM < "mocasín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mocasín_n_rel" ] ]. mochila_n1 := n_intr_count_le & [ STEM < "mochila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mochila_n_rel" ] ]. mochilero_n1 := n_intr_count_le & [ STEM < "mochilero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mochilero_n_rel" ] ]. mochuelo_n1 := n_intr_count_le & [ STEM < "mochuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mochuelo_n_rel" ] ]. moción_n1 := n_intr_count_le & [ STEM < "moción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_moción_n_rel" ] ]. moco_n1 := n_intr_count_le & [ STEM < "moco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moco_n_rel" ] ]. mocoso_n1 := n_intr_count_le & [ STEM < "mocoso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mocoso_n_rel" ] ]. modacrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "modacrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_modacrílico_a_rel" ]. modal_a1 := a_rel_nonprd_intr_le & [ STEM < "modal" >, SYNSEM.LKEYS.KEYREL.PRED "_modal_a_rel" ]. modalidad_n1 := n_intr_count_le & [ STEM < "modalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modalidad_n_rel" ] ]. modalización_n1 := n_trans_le & [ STEM < "modalización" >, SYNSEM.LKEYS.KEYREL.PRED "_modalización_n_rel" ]. modalizador_n1 := n_intr_count_le & [ STEM < "modalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_modalizador_n_rel" ] ]. modelación_n1 := n_trans_le & [ STEM < "modelación" >, SYNSEM.LKEYS.KEYREL.PRED "_modelación_n_rel" ]. modelado_n1 := n_trans_le & [ STEM < "modelado" >, SYNSEM.LKEYS.KEYREL.PRED "_modelado_n_rel" ]. modelador_a1 := a_rel_nonprd_intr_le & [ STEM < "modelador" >, SYNSEM.LKEYS.KEYREL.PRED "_modelador_a_rel" ]. modelador_n1 := n_subj-nom_le & [ STEM < "modelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_modelador_n_rel" ] ]. modelar_v := v_trans_np_le & [ STEM < "modelar" >, SYNSEM.LKEYS.KEYREL.PRED "_modelar_v_rel" ]. modelista_n1 := n_intr_count_le & [ STEM < "modelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_modelista_n_rel" ] ]. modelización_n1 := n_trans_le & [ STEM < "modelización" >, SYNSEM.LKEYS.KEYREL.PRED "_modelización_n_rel" ]. modelizar_v := v_trans_np_le & [ STEM < "modelizar" >, SYNSEM.LKEYS.KEYREL.PRED "_modelizar_v_rel" ]. modelo_n1 := n_intr_count_le & [ STEM < "modelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_modelo_n_rel" ] ]. modem_n1 := n_intr_count_le & [ STEM < "modem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_modem_n_rel" ] ]. moderación_n1 := n_trans_le & [ STEM < "moderación" >, SYNSEM.LKEYS.KEYREL.PRED "_moderación_n_rel" ]. moderado_n1 := n_intr_count_le & [ STEM < "moderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moderado_n_rel" ] ]. moderador_n1 := n_subj-nom_le & [ STEM < "moderador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moderador_n_rel" ] ]. moderantismo_n1 := n_intr_uncount_le & [ STEM < "moderantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moderantismo_n_rel" ] ]. moderar_v := v_trans_np_caus_le & [ STEM < "moderar" >, SYNSEM.LKEYS.KEYREL.PRED "_moderar_v_rel" ]. modernamente_x1 := av_i_spr_le & [ STEM < "modernamente" >, SYNSEM.LKEYS.KEYREL.PRED "_modernamente_x_rel" ]. modernidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "modernidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modernidad_n_rel" ] ]. modernismo_n1 := n_intr_uncount_le & [ STEM < "modernismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modernismo_n_rel" ] ]. modernista_a1 := a_qual_intr_ser_postn_le & [ STEM < "modernista" >, SYNSEM.LKEYS.KEYREL.PRED "_modernista_a_rel" ]. modernización_n1 := n_trans_le & [ STEM < "modernización" >, SYNSEM.LKEYS.KEYREL.PRED "_modernización_n_rel" ]. modernizador_a1 := a_rel_nonprd_intr_le & [ STEM < "modernizador" >, SYNSEM.LKEYS.KEYREL.PRED "_modernizador_a_rel" ]. modernizar_v := v_trans_np_le & [ STEM < "modernizar" >, SYNSEM.LKEYS.KEYREL.PRED "_modernizar_v_rel" ]. moderno_a1 := a_adv_event_le & [ STEM < "moderno" >, SYNSEM.LKEYS.KEYREL.PRED "_moderno_a_rel" ]. moderno_a2 := a_qual_intr_scopal_le & [ STEM < "moderno" >, SYNSEM.LKEYS.KEYREL.PRED "_moderno_a_rel" ]. modestamente_x1 := av_i_spr_le & [ STEM < "modestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_modestamente_x_rel" ]. modesto_a1 := a_qual_intr_ser_le & [ STEM < "modesto" >, SYNSEM.LKEYS.KEYREL.PRED "_modesto_a_rel" ]. modificable_a1 := a_rel_prd_le & [ STEM < "modificable" >, SYNSEM.LKEYS.KEYREL.PRED "_modificable_a_rel" ]. modificación_n1 := n_trans_le & [ STEM < "modificación" >, SYNSEM.LKEYS.KEYREL.PRED "_modificación_n_rel" ]. modificar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "modificar" >, SYNSEM.LKEYS.KEYREL.PRED "_modificar_v_rel" ]. modificar_v2 := v_trans_np_le & [ STEM < "modificar" >, SYNSEM.LKEYS.KEYREL.PRED "_modificar_v_rel" ]. modificativo_a1 := a_rel_nonprd_intr_le & [ STEM < "modificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_modificativo_a_rel" ]. modiolo_n1 := n_ppcomp_count_le & [ STEM < "modiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_modiolo_n_rel" ] ]. modismo_n1 := n_intr_count_le & [ STEM < "modismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modismo_n_rel" ] ]. modista_n1 := n_intr_count_le & [ STEM < "modista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_modista_n_rel" ] ]. modisto_n1 := n_intr_count_le & [ STEM < "modisto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_modisto_n_rel" ] ]. modo_n1 := n_cp_prop_count_le & [ STEM < "modo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modo_n_rel" ] ]. modo_n2 := n_intr_count_le & [ STEM < "modo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modo_n_rel" ] ]. modulable_a1 := a_rel_nonprd_intr_le & [ STEM < "modulable" >, SYNSEM.LKEYS.KEYREL.PRED "_modulable_a_rel" ]. modulación_n1 := n_result_intr_le & [ STEM < "modulación" >, SYNSEM.LKEYS.KEYREL.PRED "_modulación_n_rel" ]. modulador_a1 := a_rel_nonprd_intr_le & [ STEM < "modulador" >, SYNSEM.LKEYS.KEYREL.PRED "_modulador_a_rel" ]. modulador_n1 := n_intr_count_le & [ STEM < "modulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_modulador_n_rel" ] ]. modulante_a1 := a_rel_nonprd_intr_le & [ STEM < "modulante" >, SYNSEM.LKEYS.KEYREL.PRED "_modulante_a_rel" ]. modular_a1 := a_rel_nonprd_intr_le & [ STEM < "modular" >, SYNSEM.LKEYS.KEYREL.PRED "_modular_a_rel" ]. modular_v := v_trans_np_le & [ STEM < "modular" >, SYNSEM.LKEYS.KEYREL.PRED "_modular_v_rel" ]. modularidad_n1 := n_intr_uncount_le & [ STEM < "modularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modularidad_n_rel" ] ]. modularización_n1 := n_trans_le & [ STEM < "modularización" >, SYNSEM.LKEYS.KEYREL.PRED "_modularización_n_rel" ]. modularmente_x1 := av_i_spr_le & [ STEM < "modularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_modularmente_x_rel" ]. modulómetro_n1 := n_intr_count_le & [ STEM < "modulómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_modulómetro_n_rel" ] ]. modélico_a1 := a_rel_nonprd_intr_le & [ STEM < "modélico" >, SYNSEM.LKEYS.KEYREL.PRED "_modélico_a_rel" ]. mofador_n1 := n_subj-nom_le & [ STEM < "mofador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mofador_n_rel" ] ]. mofar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "mofar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_mofar_v_rel" ] ] ]. mofar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "mofar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_mofar_v_rel" ] ] ]. mofeta_n1 := n_intr_count_le & [ STEM < "mofeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mofeta_n_rel" ] ]. moflete_n1 := n_ppcomp_count_le & [ STEM < "moflete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_moflete_n_rel" ] ]. moguex_n1 := n_intr_count_le & [ STEM < "moguex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moguex_n_rel" ] ]. mohair_n1 := n_intr_count_le & [ STEM < "mohair" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mohair_n_rel" ] ]. mohametano_n1 := n_intr_count_le & [ STEM < "mohametano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mohametano_n_rel" ] ]. moher_n1 := n_intr_count_le & [ STEM < "moher" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_moher_n_rel" ] ]. mohicano_n1 := n_intr_count_le & [ STEM < "mohicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mohicano_n_rel" ] ]. moho_n1 := n_intr_mass_le & [ STEM < "moho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moho_n_rel" ] ]. mohoso_a1 := a_qual_intr_scopal_le & [ STEM < "mohoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mohoso_a_rel" ]. moisés_n1 := n_intr_count_le & [ STEM < "moisés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moisés_n_rel" ] ]. mojable_a1 := a_rel_prd_le & [ STEM < "mojable" >, SYNSEM.LKEYS.KEYREL.PRED "_mojable_a_rel" ]. mojadura_n1 := n_trans_le & [ STEM < "mojadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mojadura_n_rel" ] ]. mojar_v := v_trans_np_caus_le & [ STEM < "mojar" >, SYNSEM.LKEYS.KEYREL.PRED "_mojar_v_rel" ]. mojardón_n1 := n_intr_count_le & [ STEM < "mojardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_mojardón_n_rel" ] ]. mojarra_n1 := n_intr_count_le & [ STEM < "mojarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mojarra_n_rel" ] ]. mojasellos_n1 := n_intr_count_le & [ STEM < "mojasellos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mojasellos_n_rel" ] ]. mojigatería_n1 := n_intr_uncount_pl_le & [ STEM < "mojigatería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mojigatería_n_rel" ] ]. mojigato_a1 := a_qual_intr_ser_le & [ STEM < "mojigato" >, SYNSEM.LKEYS.KEYREL.PRED "_mojigato_a_rel" ]. mojonar_v := v_trans_np_le & [ STEM < "mojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_mojonar_v_rel" ]. mojón_n1 := n_intr_count_le & [ STEM < "mojón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mojón_n_rel" ] ]. mol_n := n_intr_count_le & [ STEM < "mol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_mol_n_rel" ] ]. mola_n1 := n_ppcomp_count_le & [ STEM < "mola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_mola_n_rel" ] ]. molal_a1 := a_rel_nonprd_intr_le & [ STEM < "molal" >, SYNSEM.LKEYS.KEYREL.PRED "_molal_a_rel" ]. molar_a1 := a_rel_nonprd_intr_le & [ STEM < "molar" >, SYNSEM.LKEYS.KEYREL.PRED "_molar_a_rel" ]. molar_n1 := n_ppcomp_count_le & [ STEM < "molar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_molar_n_rel" ] ]. molar_v1 := v_intr_io*_le & [ STEM < "molar" >, SYNSEM.LKEYS.KEYREL.PRED "_molar_v_rel" ]. molar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "molar" >, SYNSEM.LKEYS.KEYREL.PRED "_molar_v_rel" ]. molariforme_a1 := a_rel_nonprd_intr_le & [ STEM < "molariforme" >, SYNSEM.LKEYS.KEYREL.PRED "_molariforme_a_rel" ]. molasa_n1 := n_intr_count_le & [ STEM < "molasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_molasa_n_rel" ] ]. moldada_n1 := n_trans_le & [ STEM < "moldada" >, SYNSEM.LKEYS.KEYREL.PRED "_moldada_n_rel" ]. moldavita_n1 := n_intr_count_le & [ STEM < "moldavita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_moldavita_n_rel" ] ]. moldavo_a1 := a_rel_prd_le & [ STEM < "moldavo" >, SYNSEM.LKEYS.KEYREL.PRED "_moldavo_a_rel" ]. moldavo_n1 := n_intr_count_le & [ STEM < "moldavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moldavo_n_rel" ] ]. molde_n1 := n_intr_count_le & [ STEM < "molde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_molde_n_rel" ] ]. moldeabilidad_n1 := n_intr_mass_le & [ STEM < "moldeabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moldeabilidad_n_rel" ] ]. moldeable_a1 := a_rel_prd_le & [ STEM < "moldeable" >, SYNSEM.LKEYS.KEYREL.PRED "_moldeable_a_rel" ]. moldeador_a1 := a_rel_nonprd_intr_le & [ STEM < "moldeador" >, SYNSEM.LKEYS.KEYREL.PRED "_moldeador_a_rel" ]. moldeador_n1 := n_intr_count_le & [ STEM < "moldeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moldeador_n_rel" ] ]. moldeadora_n1 := n_intr_count_le & [ STEM < "moldeadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moldeadora_n_rel" ] ]. moldear_v := v_trans_np_le & [ STEM < "moldear" >, SYNSEM.LKEYS.KEYREL.PRED "_moldear_v_rel" ]. moldeo_n1 := n_trans_le & [ STEM < "moldeo" >, SYNSEM.LKEYS.KEYREL.PRED "_moldeo_n_rel" ]. moldura_n1 := n_intr_count_le & [ STEM < "moldura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moldura_n_rel" ] ]. molduradora_n1 := n_intr_count_le & [ STEM < "molduradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_molduradora_n_rel" ] ]. molecular_a1 := a_rel_nonprd_intr_le & [ STEM < "molecular" >, SYNSEM.LKEYS.KEYREL.PRED "_molecular_a_rel" ]. molecularidad_n1 := n_intr_uncount_le & [ STEM < "molecularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_molecularidad_n_rel" ] ]. molecularmente_x1 := av_i_spr_le & [ STEM < "molecularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_molecularmente_x_rel" ]. moler_v := v_trans_np_le & [ STEM < "moler" >, SYNSEM.LKEYS.KEYREL.PRED "_moler_v_rel" ]. molesquín_n1 := n_intr_count_le & [ STEM < "molesquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_molesquín_n_rel" ] ]. molestamente_x1 := av_i_spr_le & [ STEM < "molestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_molestamente_x_rel" ]. molestar_v1 := v_intr_io*_le & [ STEM < "molestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_molestar_v_rel" ] ]. molestar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "molestar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_molestar_v_rel" ] ] ]. molestar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "molestar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_molestar_v_rel" ] ]. molestar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "molestar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_molestar_v_rel" ] ] ]. molestar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "molestar" >, SYNSEM.LKEYS.KEYREL.PRED "_molestar_v_rel" ]. molestar_v6 := v_trans_np_le & [ STEM < "molestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_molestar_v_rel" ] ]. molesto_a1 := a_qual_intr_scopal_le & [ STEM < "molesto" >, SYNSEM.LKEYS.KEYREL.PRED "_molesto_a_rel" ]. moleta_n1 := n_intr_count_le & [ STEM < "moleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moleta_n_rel" ] ]. moleteado_a1 := a_rel_nonprd_intr_le & [ STEM < "moleteado" >, SYNSEM.LKEYS.KEYREL.PRED "_moleteado_a_rel" ]. molibdato_n1 := n_intr_count_le & [ STEM < "molibdato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_molibdato_n_rel" ] ]. molibdenita_n1 := n_intr_count_le & [ STEM < "molibdenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_molibdenita_n_rel" ] ]. molibdeno_n1 := n_intr_mass_le & [ STEM < "molibdeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_molibdeno_n_rel" ] ]. molibdita_n1 := n_intr_count_le & [ STEM < "molibdita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_molibdita_n_rel" ] ]. molienda_n1 := n_trans_le & [ STEM < "molienda" >, SYNSEM.LKEYS.KEYREL.PRED "_molienda_n_rel" ]. molinero_n1 := n_intr_count_le & [ STEM < "molinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_molinero_n_rel" ] ]. molinete_n1 := n_intr_count_le & [ STEM < "molinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_molinete_n_rel" ] ]. molinillo_n1 := n_intr_count_le & [ STEM < "molinillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_molinillo_n_rel" ] ]. molino_n1 := n_intr_count_le & [ STEM < "molino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_molino_n_rel" ] ]. molleja_n1 := n_ppcomp_count_le & [ STEM < "molleja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_molleja_n_rel" ] ]. mollejón_n1 := n_intr_count_le & [ STEM < "mollejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mollejón_n_rel" ] ]. mollisol_n1 := n_intr_count_le & [ STEM < "mollisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_mollisol_n_rel" ] ]. mollisuelo_n1 := n_intr_count_le & [ STEM < "mollisuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mollisuelo_n_rel" ] ]. molturación_n1 := n_trans_le & [ STEM < "molturación" >, SYNSEM.LKEYS.KEYREL.PRED "_molturación_n_rel" ]. molusco_n1 := n_intr_count_le & [ STEM < "molusco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_molusco_n_rel" ] ]. molécula_n1 := n_intr_count_le & [ STEM < "molécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_molécula_n_rel" ] ]. molíbdicamente_x1 := av_i_spr_le & [ STEM < "molíbdicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_molíbdicamente_x_rel" ]. momento_n1 := n_intr_count_le & [ STEM < "momento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_momento_n_rel" ] ]. momentáneamente_x1 := av_i_spr_le & [ STEM < "momentáneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_momentáneamente_x_rel" ]. momentáneo_a1 := a_rel_prd_le & [ STEM < "momentáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_momentáneo_a_rel" ]. momia_n1 := n_intr_count_le & [ STEM < "momia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_momia_n_rel" ] ]. momificación_n1 := n_trans_le & [ STEM < "momificación" >, SYNSEM.LKEYS.KEYREL.PRED "_momificación_n_rel" ]. momificar_v := v_trans_np_le & [ STEM < "momificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_mat_pro, ARG2.SORT ani_cnc_hum_plant, PRED "_momificar_v_rel" ] ]. monacal_a1 := a_rel_prd_le & [ STEM < "monacal" >, SYNSEM.LKEYS.KEYREL.PRED "_monacal_a_rel" ]. monacato_n1 := n_intr_uncount_le & [ STEM < "monacato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monacato_n_rel" ] ]. monacita_n1 := n_intr_count_le & [ STEM < "monacita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monacita_n_rel" ] ]. monadismo_n1 := n_intr_uncount_le & [ STEM < "monadismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monadismo_n_rel" ] ]. monadología_n1 := n_intr_uncount_pl_le & [ STEM < "monadología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monadología_n_rel" ] ]. monaguillo_n1 := n_intr_count_le & [ STEM < "monaguillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monaguillo_n_rel" ] ]. monarca_n1 := n_intr_count_le & [ STEM < "monarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monarca_n_rel" ] ]. monarquismo_n1 := n_intr_uncount_le & [ STEM < "monarquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monarquismo_n_rel" ] ]. monarquía_n1 := n_intr_count_le & [ STEM < "monarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monarquía_n_rel" ] ]. monasterio_n1 := n_intr_count_le & [ STEM < "monasterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_monasterio_n_rel" ] ]. mondadientes_n1 := n_intr_count_le & [ STEM < "mondadientes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mondadientes_n_rel" ] ]. mondar_v := v_trans_np_le & [ STEM < "mondar" >, SYNSEM.LKEYS.KEYREL.PRED "_mondar_v_rel" ]. moneda_n1 := n_intr_count_le & [ STEM < "moneda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_moneda_n_rel" ] ]. monedero_n1 := n_intr_count_le & [ STEM < "monedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monedero_n_rel" ] ]. monegasco_a1 := a_rel_prd_le & [ STEM < "monegasco" >, SYNSEM.LKEYS.KEYREL.PRED "_monegasco_a_rel" ]. monegasco_n1 := n_intr_count_le & [ STEM < "monegasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monegasco_n_rel" ] ]. monel_n1 := n_intr_mass-or-count_le & [ STEM < "monel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_monel_n_rel" ] ]. monetariamente_x1 := av_i_spr_le & [ STEM < "monetariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monetariamente_x_rel" ]. monetariedad_n1 := n_intr_uncount_le & [ STEM < "monetariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monetariedad_n_rel" ] ]. monetario_a1 := a_rel_nonprd_intr_le & [ STEM < "monetario" >, SYNSEM.LKEYS.KEYREL.PRED "_monetario_a_rel" ]. monetarismo_n1 := n_intr_uncount_le & [ STEM < "monetarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monetarismo_n_rel" ] ]. monetarista_a1 := a_rel_nonprd_intr_le & [ STEM < "monetarista" >, SYNSEM.LKEYS.KEYREL.PRED "_monetarista_a_rel" ]. monetización_n1 := n_trans_le & [ STEM < "monetización" >, SYNSEM.LKEYS.KEYREL.PRED "_monetización_n_rel" ]. mongol_a1 := a_rel_prd_le & [ STEM < "mongol" >, SYNSEM.LKEYS.KEYREL.PRED "_mongol_a_rel" ]. mongol_n1 := n_intr_count_le & [ STEM < "mongol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mongol_n_rel" ] ]. mongolismo_n1 := n_intr_uncount_le & [ STEM < "mongolismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mongolismo_n_rel" ] ]. mongólico_a1 := a_rel_prd_le & [ STEM < "mongólico" >, SYNSEM.LKEYS.KEYREL.PRED "_mongólico_a_rel" ]. monigote_n1 := n_intr_count_le & [ STEM < "monigote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monigote_n_rel" ] ]. monismo_n1 := n_intr_uncount_le & [ STEM < "monismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monismo_n_rel" ] ]. monista_n1 := n_intr_count_le & [ STEM < "monista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monista_n_rel" ] ]. monitor_n1 := n_intr_count_le & [ STEM < "monitor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_monitor_n_rel" ] ]. monitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "monitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_monitorio_a_rel" ]. monitorización_n1 := n_trans_le & [ STEM < "monitorización" >, SYNSEM.LKEYS.KEYREL.PRED "_monitorización_n_rel" ]. monitorizar_v := v_trans_np_le & [ STEM < "monitorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_monitorizar_v_rel" ]. monje_n1 := n_intr_count_le & [ STEM < "monje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monje_n_rel" ] ]. mono_a1 := a_qual_intr_ser_postn_le & [ STEM < "mono" >, SYNSEM.LKEYS.KEYREL.PRED "_mono_a_rel" ]. mono_n1 := n_intr_count_le & [ STEM < "mono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mono_n_rel" ] ]. monoacetato_n1 := n_intr_count_le & [ STEM < "monoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monoacetato_n_rel" ] ]. monoatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "monoatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_monoatómico_a_rel" ]. monoaural_a1 := a_rel_nonprd_intr_le & [ STEM < "monoaural" >, SYNSEM.LKEYS.KEYREL.PRED "_monoaural_a_rel" ]. monoauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "monoauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_monoauricular_a_rel" ]. monoauricularmente_x1 := av_i_spr_le & [ STEM < "monoauricularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monoauricularmente_x_rel" ]. monobenzoato_n1 := n_intr_count_le & [ STEM < "monobenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monobenzoato_n_rel" ] ]. monoblasto_n1 := n_intr_count_le & [ STEM < "monoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoblasto_n_rel" ] ]. monobloc_n1 := n_intr_count_le & [ STEM < "monobloc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monobloc_n_rel" ] ]. monobromuro_n1 := n_intr_count_le & [ STEM < "monobromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monobromuro_n_rel" ] ]. monobásico_a1 := a_rel_nonprd_intr_le & [ STEM < "monobásico" >, SYNSEM.LKEYS.KEYREL.PRED "_monobásico_a_rel" ]. monocarburo_n1 := n_intr_count_le & [ STEM < "monocarburo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monocarburo_n_rel" ] ]. monocarril_n1 := n_intr_count_le & [ STEM < "monocarril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocarril_n_rel" ] ]. monocasco_n1 := n_intr_count_le & [ STEM < "monocasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocasco_n_rel" ] ]. monocelular_a1 := a_rel_nonprd_intr_le & [ STEM < "monocelular" >, SYNSEM.LKEYS.KEYREL.PRED "_monocelular_a_rel" ]. monocilíndrico_a1 := a_rel_nonprd_intr_le & [ STEM < "monocilíndrico" >, SYNSEM.LKEYS.KEYREL.PRED "_monocilíndrico_a_rel" ]. monocina_n1 := n_intr_count_le & [ STEM < "monocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocina_n_rel" ] ]. monocito_n1 := n_intr_count_le & [ STEM < "monocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocito_n_rel" ] ]. monoclinal_a1 := a_rel_nonprd_intr_le & [ STEM < "monoclinal" >, SYNSEM.LKEYS.KEYREL.PRED "_monoclinal_a_rel" ]. monoclonal_a1 := a_rel_nonprd_intr_le & [ STEM < "monoclonal" >, SYNSEM.LKEYS.KEYREL.PRED "_monoclonal_a_rel" ]. monocloracético_a1 := a_rel_nonprd_intr_le & [ STEM < "monocloracético" >, SYNSEM.LKEYS.KEYREL.PRED "_monocloracético_a_rel" ]. monocloruro_n1 := n_intr_count_le & [ STEM < "monocloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monocloruro_n_rel" ] ]. monoclínico_a1 := a_rel_nonprd_intr_le & [ STEM < "monoclínico" >, SYNSEM.LKEYS.KEYREL.PRED "_monoclínico_a_rel" ]. monocolor_a1 := a_rel_prd_le & [ STEM < "monocolor" >, SYNSEM.LKEYS.KEYREL.PRED "_monocolor_a_rel" ]. monocordio_n1 := n_intr_count_le & [ STEM < "monocordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocordio_n_rel" ] ]. monocracia_n1 := n_intr_uncount_pl_le & [ STEM < "monocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocracia_n_rel" ] ]. monocristal_n1 := n_intr_count_le & [ STEM < "monocristal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monocristal_n_rel" ] ]. monocristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "monocristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_monocristalino_a_rel" ]. monocromador_n1 := n_intr_count_le & [ STEM < "monocromador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocromador_n_rel" ] ]. monocromatismo_n1 := n_intr_uncount_le & [ STEM < "monocromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocromatismo_n_rel" ] ]. monocromo_a1 := a_rel_nonprd_intr_le & [ STEM < "monocromo" >, SYNSEM.LKEYS.KEYREL.PRED "_monocromo_a_rel" ]. monocromáticamente_x1 := av_i_spr_le & [ STEM < "monocromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monocromáticamente_x_rel" ]. monocromático_a1 := a_rel_prd_le & [ STEM < "monocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_monocromático_a_rel" ]. monocular_a1 := a_rel_nonprd_intr_le & [ STEM < "monocular" >, SYNSEM.LKEYS.KEYREL.PRED "_monocular_a_rel" ]. monocuspidado_a1 := a_rel_nonprd_intr_le & [ STEM < "monocuspidado" >, SYNSEM.LKEYS.KEYREL.PRED "_monocuspidado_a_rel" ]. monocélula_n1 := n_intr_count_le & [ STEM < "monocélula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monocélula_n_rel" ] ]. monocíclicamente_x1 := av_i_spr_le & [ STEM < "monocíclicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monocíclicamente_x_rel" ]. monocíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "monocíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_monocíclico_a_rel" ]. monocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "monocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_monocítico_a_rel" ]. monodelto_a1 := a_rel_nonprd_intr_le & [ STEM < "monodelto" >, SYNSEM.LKEYS.KEYREL.PRED "_monodelto_a_rel" ]. monodimensional_a1 := a_rel_prd_le & [ STEM < "monodimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_monodimensional_a_rel" ]. monodireccional_a1 := a_rel_prd_le & [ STEM < "monodireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_monodireccional_a_rel" ]. monodireccionalmente_x1 := av_i_spr_le & [ STEM < "monodireccionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monodireccionalmente_x_rel" ]. monodisco_n1 := n_intr_count_le & [ STEM < "monodisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monodisco_n_rel" ] ]. monoecia_n1 := n_intr_uncount_le & [ STEM < "monoecia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monoecia_n_rel" ] ]. monoespecífico_a1 := a_rel_prd_le & [ STEM < "monoespecífico" >, SYNSEM.LKEYS.KEYREL.PRED "_monoespecífico_a_rel" ]. monoesquí_n1 := n_intr_count_le & [ STEM < "monoesquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoesquí_n_rel" ] ]. monoestable_a1 := a_rel_prd_le & [ STEM < "monoestable" >, SYNSEM.LKEYS.KEYREL.PRED "_monoestable_a_rel" ]. monofilamento_n1 := n_intr_count_le & [ STEM < "monofilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monofilamento_n_rel" ] ]. monofilar_a1 := a_rel_prd_le & [ STEM < "monofilar" >, SYNSEM.LKEYS.KEYREL.PRED "_monofilar_a_rel" ]. monofilarmente_x1 := av_i_spr_le & [ STEM < "monofilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monofilarmente_x_rel" ]. monofosfato_n1 := n_intr_mass_le & [ STEM < "monofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monofosfato_n_rel" ] ]. monofásico_a1 := a_rel_prd_le & [ STEM < "monofásico" >, SYNSEM.LKEYS.KEYREL.PRED "_monofásico_a_rel" ]. monofónico_a1 := a_rel_prd_le & [ STEM < "monofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_monofónico_a_rel" ]. monogenismo_n1 := n_intr_uncount_le & [ STEM < "monogenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monogenismo_n_rel" ] ]. monografía_n1 := n_intr_count_le & [ STEM < "monografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_monografía_n_rel" ] ]. monograma_n1 := n_intr_count_le & [ STEM < "monograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monograma_n_rel" ] ]. monográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "monográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_monográfico_a_rel" ]. monográfico_n1 := n_intr_count_le & [ STEM < "monográfico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_monográfico_n_rel" ] ]. monogámico_a1 := a_rel_nonprd_intr_le & [ STEM < "monogámico" >, SYNSEM.LKEYS.KEYREL.PRED "_monogámico_a_rel" ]. monohídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "monohídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_monohídrico_a_rel" ]. monoinductor_n1 := n_intr_count_le & [ STEM < "monoinductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_monoinductor_n_rel" ] ]. monokini_n1 := n_intr_count_le & [ STEM < "monokini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monokini_n_rel" ] ]. monolaurato_n1 := n_intr_count_le & [ STEM < "monolaurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monolaurato_n_rel" ] ]. monoleato_n1 := n_intr_count_le & [ STEM < "monoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monoleato_n_rel" ] ]. monolingã¼e_a1 := a_rel_prd_le & [ STEM < "monolingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_monolingüe_a_rel" ]. monolingüismo_n1 := n_intr_uncount_le & [ STEM < "monolingüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monolingüismo_n_rel" ] ]. monolitismo_n1 := n_intr_uncount_le & [ STEM < "monolitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monolitismo_n_rel" ] ]. monolito_n1 := n_intr_count_le & [ STEM < "monolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monolito_n_rel" ] ]. monolámina_n1 := n_intr_count_le & [ STEM < "monolámina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monolámina_n_rel" ] ]. monolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "monolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_monolítico_a_rel" ]. monomanía_n1 := n_intr_uncount_pl_le & [ STEM < "monomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monomanía_n_rel" ] ]. monomaníaco_a1 := a_qual_intr_ser_le & [ STEM < "monomaníaco" >, SYNSEM.LKEYS.KEYREL.PRED "_monomaníaco_a_rel" ]. monomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "monomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_monomaxilar_a_rel" ]. monomería_n1 := n_intr_uncount_le & [ STEM < "monomería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monomería_n_rel" ] ]. monometalismo_n1 := n_intr_uncount_le & [ STEM < "monometalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monometalismo_n_rel" ] ]. monomodal_a1 := a_rel_nonprd_intr_le & [ STEM < "monomodal" >, SYNSEM.LKEYS.KEYREL.PRED "_monomodal_a_rel" ]. monomolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "monomolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_monomolecular_a_rel" ]. monomolecularmente_x1 := av_i_spr_le & [ STEM < "monomolecularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monomolecularmente_x_rel" ]. monomorfismo_n1 := n_intr_uncount_le & [ STEM < "monomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monomorfismo_n_rel" ] ]. monomorfo_a1 := a_rel_prd_le & [ STEM < "monomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_monomorfo_a_rel" ]. mononitrorresorcinato_n1 := n_intr_count_le & [ STEM < "mononitrorresorcinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mononitrorresorcinato_n_rel" ] ]. mononucleado_a1 := a_rel_nonprd_intr_le & [ STEM < "mononucleado" >, SYNSEM.LKEYS.KEYREL.PRED "_mononucleado_a_rel" ]. mononuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "mononuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_mononuclear_a_rel" ]. monoocasional_a1 := a_rel_nonprd_intr_le & [ STEM < "monoocasional" >, SYNSEM.LKEYS.KEYREL.PRED "_monoocasional_a_rel" ]. monoparental_a1 := a_rel_nonprd_intr_le & [ STEM < "monoparental" >, SYNSEM.LKEYS.KEYREL.PRED "_monoparental_a_rel" ]. monopatín_n1 := n_intr_count_le & [ STEM < "monopatín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monopatín_n_rel" ] ]. monoplanar_a1 := a_rel_nonprd_intr_le & [ STEM < "monoplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_monoplanar_a_rel" ]. monoplano_n1 := n_intr_count_le & [ STEM < "monoplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoplano_n_rel" ] ]. monoplaza_n1 := n_intr_count_le & [ STEM < "monoplaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoplaza_n_rel" ] ]. monoploide_a1 := a_rel_nonprd_intr_le & [ STEM < "monoploide" >, SYNSEM.LKEYS.KEYREL.PRED "_monoploide_a_rel" ]. monoploidía_n1 := n_intr_uncount_pl_le & [ STEM < "monoploidía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monoploidía_n_rel" ] ]. monopolar_a1 := a_rel_nonprd_intr_le & [ STEM < "monopolar" >, SYNSEM.LKEYS.KEYREL.PRED "_monopolar_a_rel" ]. monopolarmente_x1 := av_i_spr_le & [ STEM < "monopolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monopolarmente_x_rel" ]. monopolista_n1 := n_intr_count_le & [ STEM < "monopolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monopolista_n_rel" ] ]. monopolización_n1 := n_trans_le & [ STEM < "monopolización" >, SYNSEM.LKEYS.KEYREL.PRED "_monopolización_n_rel" ]. monopolizador_n1 := n_intr_count_le & [ STEM < "monopolizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_monopolizador_n_rel" ] ]. monopolizar_v := v_trans_np_le & [ STEM < "monopolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_monopolizar_v_rel" ]. monopolo_n1 := n_intr_count_le & [ STEM < "monopolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monopolo_n_rel" ] ]. monopolístico_a1 := a_rel_nonprd_intr_le & [ STEM < "monopolístico" >, SYNSEM.LKEYS.KEYREL.PRED "_monopolístico_a_rel" ]. monoprocesador_n1 := n_intr_count_le & [ STEM < "monoprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoprocesador_n_rel" ] ]. monoprogramación_n1 := n_trans_le & [ STEM < "monoprogramación" >, SYNSEM.LKEYS.KEYREL.PRED "_monoprogramación_n_rel" ]. monoptongación_n1 := n_trans_le & [ STEM < "monoptongación" >, SYNSEM.LKEYS.KEYREL.PRED "_monoptongación_n_rel" ]. monopuerta_n1 := n_intr_count_le & [ STEM < "monopuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monopuerta_n_rel" ] ]. monopuesto_n1 := n_intr_count_le & [ STEM < "monopuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_monopuesto_n_rel" ] ]. monoquina_n1 := n_intr_count_le & [ STEM < "monoquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoquina_n_rel" ] ]. monoraíl_n1 := n_intr_count_le & [ STEM < "monoraíl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoraíl_n_rel" ] ]. monorradicular_a1 := a_rel_nonprd_intr_le & [ STEM < "monorradicular" >, SYNSEM.LKEYS.KEYREL.PRED "_monorradicular_a_rel" ]. monosacarosa_n1 := n_intr_count_le & [ STEM < "monosacarosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monosacarosa_n_rel" ] ]. monosacárido_n1 := n_intr_count_le & [ STEM < "monosacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monosacárido_n_rel" ] ]. monoscopio_n1 := n_intr_count_le & [ STEM < "monoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monoscopio_n_rel" ] ]. monosialsol_n1 := n_intr_count_le & [ STEM < "monosialsol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monosialsol_n_rel" ] ]. monosilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "monosilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_monosilábico_a_rel" ]. monosoma_n1 := n_intr_count_le & [ STEM < "monosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monosoma_n_rel" ] ]. monostearato_n1 := n_intr_count_le & [ STEM < "monostearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monostearato_n_rel" ] ]. monosulfuro_n1 := n_intr_count_le & [ STEM < "monosulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monosulfuro_n_rel" ] ]. monosémico_a1 := a_rel_nonprd_intr_le & [ STEM < "monosémico" >, SYNSEM.LKEYS.KEYREL.PRED "_monosémico_a_rel" ]. monotarjeta_n1 := n_intr_count_le & [ STEM < "monotarjeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monotarjeta_n_rel" ] ]. monoteísta_a1 := a_rel_prd_le & [ STEM < "monoteísta" >, SYNSEM.LKEYS.KEYREL.PRED "_monoteísta_a_rel" ]. monoteísta_n1 := n_intr_count_le & [ STEM < "monoteísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monoteísta_n_rel" ] ]. monotonicidad_n1 := n_intr_uncount_le & [ STEM < "monotonicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotonicidad_n_rel" ] ]. monotonocidad_n1 := n_intr_uncount_le & [ STEM < "monotonocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotonocidad_n_rel" ] ]. monotonía_n1 := n_intr_uncount_pl_le & [ STEM < "monotonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotonía_n_rel" ] ]. monotratamiento_n1 := n_trans_le & [ STEM < "monotratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_monotratamiento_n_rel" ]. monotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "monotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_monotrópico_a_rel" ]. monotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "monotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_monotónico_a_rel" ]. monousuario_n1 := n_intr_count_le & [ STEM < "monousuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monousuario_n_rel" ] ]. monovalente_a1 := a_rel_nonprd_intr_le & [ STEM < "monovalente" >, SYNSEM.LKEYS.KEYREL.PRED "_monovalente_a_rel" ]. monovalvular_a1 := a_rel_nonprd_intr_le & [ STEM < "monovalvular" >, SYNSEM.LKEYS.KEYREL.PRED "_monovalvular_a_rel" ]. monovalvularmente_x1 := av_i_spr_le & [ STEM < "monovalvularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monovalvularmente_x_rel" ]. monozigótico_a1 := a_rel_nonprd_intr_le & [ STEM < "monozigótico" >, SYNSEM.LKEYS.KEYREL.PRED "_monozigótico_a_rel" ]. monseñor_n1 := n_intr_count_le & [ STEM < "monseñor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_monseñor_n_rel" ] ]. monstruo_n1 := n_intr_count_le & [ STEM < "monstruo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_monstruo_n_rel" ] ]. monstruosamente_x1 := av_i_spr_le & [ STEM < "monstruosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monstruosamente_x_rel" ]. monstruosidad_n1 := n_intr_count_le & [ STEM < "monstruosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monstruosidad_n_rel" ] ]. monstruoso_a1 := a_qual_intr_scopal_le & [ STEM < "monstruoso" >, SYNSEM.LKEYS.KEYREL.PRED "_monstruoso_a_rel" ]. montacargas_n1 := n_intr_count_le & [ STEM < "montacargas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_montacargas_n_rel" ] ]. montador_n1 := n_subj-nom_le & [ STEM < "montador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_montador_n_rel" ] ]. montadora_n1 := n_intr_count_le & [ STEM < "montadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_montadora_n_rel" ] ]. montaje_n1 := n_trans_le & [ STEM < "montaje" >, SYNSEM.LKEYS.KEYREL.PRED "_montaje_n_rel" ]. montano_a1 := a_rel_nonprd_intr_le & [ STEM < "montano" >, SYNSEM.LKEYS.KEYREL.PRED "_montano_a_rel" ]. montapapeles_n1 := n_intr_count_le & [ STEM < "montapapeles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_montapapeles_n_rel" ] ]. montaña_n1 := n_intr_count_le & [ STEM < "montaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_montaña_n_rel" ] ]. montañero_n1 := n_intr_count_le & [ STEM < "montañero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_montañero_n_rel" ] ]. montañismo_n1 := n_intr_uncount_le & [ STEM < "montañismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_montañismo_n_rel" ] ]. montañoso_a1 := a_qual_intr_ser_postn_le & [ STEM < "montañoso" >, SYNSEM.LKEYS.KEYREL.PRED "_montañoso_a_rel" ]. monte_n1 := n_intr_count_le & [ STEM < "monte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_monte_n_rel" ] ]. montenegrino_n1 := n_intr_count_le & [ STEM < "montenegrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_montenegrino_n_rel" ] ]. montepío_n1 := n_intr_count_le & [ STEM < "montepío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_montepío_n_rel" ] ]. montera_n1 := n_intr_count_le & [ STEM < "montera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_montera_n_rel" ] ]. montevideano_n1 := n_intr_count_le & [ STEM < "montevideano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_montevideano_n_rel" ] ]. montmorillonita_n1 := n_intr_mass-or-count_le & [ STEM < "montmorillonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_montmorillonita_n_rel" ] ]. montura_n1 := n_intr_count_le & [ STEM < "montura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_montura_n_rel" ] ]. montés_a1 := a_rel_nonprd_intr_le & [ STEM < "montés" >, SYNSEM.LKEYS.KEYREL.PRED "_montés_a_rel" ]. montón_n1 := n_pseudo-part_le & [ STEM < "montón" >, SYNSEM.LKEYS.KEYREL.PRED "_montón_n_rel" ]. monumental_a1 := a_qual_intr_scopal_le & [ STEM < "monumental" >, SYNSEM.LKEYS.KEYREL.PRED "_monumental_a_rel" ]. monumentalmente_x1 := av_i_spr_le & [ STEM < "monumentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_monumentalmente_x_rel" ]. monumento_n1 := n_intr_count_le & [ STEM < "monumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monumento_n_rel" ] ]. monádico_a1 := a_rel_prd_le & [ STEM < "monádico" >, SYNSEM.LKEYS.KEYREL.PRED "_monádico_a_rel" ]. monárquicamente_x1 := av_i_spr_le & [ STEM < "monárquicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monárquicamente_x_rel" ]. monárquico_a1 := a_rel_nonprd_intr_le & [ STEM < "monárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_monárquico_a_rel" ]. monásticamente_x1 := av_i_spr_le & [ STEM < "monásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monásticamente_x_rel" ]. monástico_a1 := a_rel_nonprd_intr_le & [ STEM < "monástico" >, SYNSEM.LKEYS.KEYREL.PRED "_monástico_a_rel" ]. monóculo_n1 := n_intr_count_le & [ STEM < "monóculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_monóculo_n_rel" ] ]. monódico_a1 := a_qual_intr_scopal_le & [ STEM < "monódico" >, SYNSEM.LKEYS.KEYREL.PRED "_monódico_a_rel" ]. monógamo_a1 := a_qual_intr_ser_le & [ STEM < "monógamo" >, SYNSEM.LKEYS.KEYREL.PRED "_monógamo_a_rel" ]. monólogo_n1 := n_intr_count_le & [ STEM < "monólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monólogo_n_rel" ] ]. monómero_n1 := n_intr_count_le & [ STEM < "monómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monómero_n_rel" ] ]. monótonamente_x1 := av_i_spr_le & [ STEM < "monótonamente" >, SYNSEM.LKEYS.KEYREL.PRED "_monótonamente_x_rel" ]. monótono_a1 := a_qual_intr_scopal_le & [ STEM < "monótono" >, SYNSEM.LKEYS.KEYREL.PRED "_monótono_a_rel" ]. monóxido_n1 := n_intr_count_le & [ STEM < "monóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_monóxido_n_rel" ] ]. mopa_n1 := n_intr_count_le & [ STEM < "mopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mopa_n_rel" ] ]. moqueta_n1 := n_intr_count_le & [ STEM < "moqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moqueta_n_rel" ] ]. moquillo_n1 := n_intr_count_le & [ STEM < "moquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moquillo_n_rel" ] ]. mora_n1 := n_intr_count_le & [ STEM < "mora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_plant, PRED "_mora_n_rel" ] ]. morabetino_n1 := n_intr_count_le & [ STEM < "morabetino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morabetino_n_rel" ] ]. morada_n1 := n_intr_count_le & [ STEM < "morada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_morada_n_rel" ] ]. morado_a1 := a_qual_intr_ser_le & [ STEM < "morado" >, SYNSEM.LKEYS.KEYREL.PRED "_morado_a_rel" ]. morador_n1 := n_subj-nom_le & [ STEM < "morador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_morador_n_rel" ] ]. moral_a1 := a_rel_nonprd_intr_le & [ STEM < "moral" >, SYNSEM.LKEYS.KEYREL.PRED "_moral_a_rel" ]. moral_n1 := n_intr_count_le & [ STEM < "moral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moral_n_rel" ] ]. moraleja_n1 := n_intr_count_le & [ STEM < "moraleja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_moraleja_n_rel" ] ]. moralidad_n1 := n_intr_uncount_le & [ STEM < "moralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moralidad_n_rel" ] ]. moralidad_n2 := n_intr_count_le & [ STEM < "moralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moralidad_n_rel" ] ]. moralismo_n1 := n_intr_uncount_le & [ STEM < "moralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moralismo_n_rel" ] ]. moralista_a1 := a_qual_intr_ser_le & [ STEM < "moralista" >, SYNSEM.LKEYS.KEYREL.PRED "_moralista_a_rel" ]. moralista_n1 := n_intr_count_le & [ STEM < "moralista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moralista_n_rel" ] ]. moralizador_a1 := a_rel_nonprd_intr_le & [ STEM < "moralizador" >, SYNSEM.LKEYS.KEYREL.PRED "_moralizador_a_rel" ]. moralizador_n1 := n_subj-nom_le & [ STEM < "moralizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moralizador_n_rel" ] ]. moralizar_v := v_intr_le & [ STEM < "moralizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_moralizar_v_rel" ] ]. moralmente_x1 := av_i_spr_le & [ STEM < "moralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_moralmente_x_rel" ]. morar_v := v_unacc_lcomp_loc*_le & [ STEM < "morar" >, SYNSEM.LKEYS.KEYREL.PRED "_morar_v_rel" ]. moravo_a1 := a_rel_nonprd_intr_le & [ STEM < "moravo" >, SYNSEM.LKEYS.KEYREL.PRED "_moravo_a_rel" ]. moravo_n1 := n_intr_count_le & [ STEM < "moravo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moravo_n_rel" ] ]. morbidez_n1 := n_ppcomp_uncount_le & [ STEM < "morbidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morbidez_n_rel" ] ]. morbilidad_n1 := n_intr_uncount_le & [ STEM < "morbilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morbilidad_n_rel" ] ]. morbilidad_n2 := n_intr_count_le & [ STEM < "morbilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morbilidad_n_rel" ] ]. morbosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "morbosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morbosidad_n_rel" ] ]. morboso_a1 := a_qual_intr_scopal_le & [ STEM < "morboso" >, SYNSEM.LKEYS.KEYREL.PRED "_morboso_a_rel" ]. morcilla_n1 := n_intr_count_le & [ STEM < "morcilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morcilla_n_rel" ] ]. mordacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "mordacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mordacidad_n_rel" ] ]. mordaz_a1 := a_qual_intr_scopal_le & [ STEM < "mordaz" >, SYNSEM.LKEYS.KEYREL.PRED "_mordaz_a_rel" ]. mordaza_n1 := n_intr_count_le & [ STEM < "mordaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mordaza_n_rel" ] ]. mordazmente_x1 := av_i_spr_le & [ STEM < "mordazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mordazmente_x_rel" ]. mordedor_n1 := n_subj-nom_le & [ STEM < "mordedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mordedor_n_rel" ] ]. mordedura_n1 := n_intr_count_le & [ STEM < "mordedura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mordedura_n_rel" ] ]. mordiente_a1 := a_rel_nonprd_intr_le & [ STEM < "mordiente" >, SYNSEM.LKEYS.KEYREL.PRED "_mordiente_a_rel" ]. mordiente_n1 := n_intr_count_le & [ STEM < "mordiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mordiente_n_rel" ] ]. mordisco_n1 := n_intr_count_le & [ STEM < "mordisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mordisco_n_rel" ] ]. mordisquear_v := v_trans_np_le & [ STEM < "mordisquear" >, SYNSEM.LKEYS.KEYREL.PRED "_mordisquear_v_rel" ]. morena_n1 := n_intr_count_le & [ STEM < "morena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_morena_n_rel" ] ]. moreno_a1 := a_qual_intr_ser_le & [ STEM < "moreno" >, SYNSEM.LKEYS.KEYREL.PRED "_moreno_a_rel" ]. morera_n1 := n_intr_count_le & [ STEM < "morera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_morera_n_rel" ] ]. morfina_n1 := n_intr_mass_le & [ STEM < "morfina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morfina_n_rel" ] ]. morfinomanía_n1 := n_intr_uncount_le & [ STEM < "morfinomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfinomanía_n_rel" ] ]. morfismo_n1 := n_intr_uncount_le & [ STEM < "morfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfismo_n_rel" ] ]. morfoclimático_a1 := a_rel_nonprd_intr_le & [ STEM < "morfoclimático" >, SYNSEM.LKEYS.KEYREL.PRED "_morfoclimático_a_rel" ]. morfofonemático_a1 := a_rel_nonprd_intr_le & [ STEM < "morfofonemático" >, SYNSEM.LKEYS.KEYREL.PRED "_morfofonemático_a_rel" ]. morfofonología_n1 := n_intr_uncount_le & [ STEM < "morfofonología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfofonología_n_rel" ] ]. morfofonológico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfofonológico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfofonológico_a_rel" ]. morfogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "morfogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_morfogenético_a_rel" ]. morfográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfográfico_a_rel" ]. morfolina_n1 := n_intr_count_le & [ STEM < "morfolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_morfolina_n_rel" ] ]. morfología_n1 := n_intr_uncount_pl_le & [ STEM < "morfología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfología_n_rel" ] ]. morfológicamente_x1 := av_i_spr_le & [ STEM < "morfológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_morfológicamente_x_rel" ]. morfológico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfológico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfológico_a_rel" ]. morfometría_n1 := n_intr_uncount_pl_le & [ STEM < "morfometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfometría_n_rel" ] ]. morfométricamente_x1 := av_i_spr_le & [ STEM < "morfométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_morfométricamente_x_rel" ]. morfométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfométrico_a_rel" ]. morfonología_n1 := n_intr_uncount_le & [ STEM < "morfonología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfonología_n_rel" ] ]. morfonológico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfonológico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfonológico_a_rel" ]. morfoplasma_n1 := n_intr_count_le & [ STEM < "morfoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morfoplasma_n_rel" ] ]. morfosintácticamente_x1 := av_i_spr_le & [ STEM < "morfosintácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_morfosintácticamente_x_rel" ]. morfosintáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfosintáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfosintáctico_a_rel" ]. morfotectónico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfotectónico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfotectónico_a_rel" ]. morfémico_a1 := a_rel_nonprd_intr_le & [ STEM < "morfémico" >, SYNSEM.LKEYS.KEYREL.PRED "_morfémico_a_rel" ]. morfólogo_n1 := n_intr_count_le & [ STEM < "morfólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_morfólogo_n_rel" ] ]. morganita_n1 := n_intr_count_le & [ STEM < "morganita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_morganita_n_rel" ] ]. moribundo_a1 := a_qual_intr_estar_le & [ STEM < "moribundo" >, SYNSEM.LKEYS.KEYREL.PRED "_moribundo_a_rel" ]. morilla_n1 := n_intr_count_le & [ STEM < "morilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morilla_n_rel" ] ]. morillo_n1 := n_intr_count_le & [ STEM < "morillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morillo_n_rel" ] ]. morir_v1 := v_unacc_perf_le & [ STEM < "morir" >, SYNSEM.LKEYS.KEYREL.PRED "_morir_v_rel" ]. morir_v2 := v_pron_unacc_perf_le & [ STEM < "morir" >, SYNSEM.LKEYS.KEYREL.PRED "_morir_v_rel" ]. morisco_a1 := a_rel_prd_le & [ STEM < "morisco" >, SYNSEM.LKEYS.KEYREL.PRED "_morisco_a_rel" ]. mormón_a1 := a_rel_nonprd_intr_le & [ STEM < "mormón" >, SYNSEM.LKEYS.KEYREL.PRED "_mormón_a_rel" ]. mormón_n1 := n_intr_count_le & [ STEM < "mormón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mormón_n_rel" ] ]. mormónico_a1 := a_rel_nonprd_intr_le & [ STEM < "mormónico" >, SYNSEM.LKEYS.KEYREL.PRED "_mormónico_a_rel" ]. moro_a1 := a_rel_prd_le & [ STEM < "moro" >, SYNSEM.LKEYS.KEYREL.PRED "_moro_a_rel" ]. moro_n1 := n_intr_count_le & [ STEM < "moro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moro_n_rel" ] ]. morosamente_x1 := av_i_spr_le & [ STEM < "morosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_morosamente_x_rel" ]. morosidad_n1 := n_intr_mass-or-count_le & [ STEM < "morosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morosidad_n_rel" ] ]. moroso_a1 := a_qual_intr_ser_le & [ STEM < "moroso" >, SYNSEM.LKEYS.KEYREL.PRED "_moroso_a_rel" ]. morro_n1 := n_intr_count_le & [ STEM < "morro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_morro_n_rel" ] ]. morrénico_a1 := a_rel_nonprd_intr_le & [ STEM < "morrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_morrénico_a_rel" ]. morsa_n1 := n_intr_count_le & [ STEM < "morsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_morsa_n_rel" ] ]. mortadela_n1 := n_intr_count_le & [ STEM < "mortadela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mortadela_n_rel" ] ]. mortaja_n1 := n_intr_count_le & [ STEM < "mortaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mortaja_n_rel" ] ]. mortajadora_n1 := n_intr_count_le & [ STEM < "mortajadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mortajadora_n_rel" ] ]. mortal_a1 := a_rel_prd_le & [ STEM < "mortal" >, SYNSEM.LKEYS.KEYREL.PRED "_mortal_a_rel" ]. mortal_n1 := n_intr_count_le & [ STEM < "mortal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mortal_n_rel" ] ]. mortalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "mortalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mortalidad_n_rel" ] ]. mortalmente_x1 := av_i_spr_le & [ STEM < "mortalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mortalmente_x_rel" ]. mortandad_n1 := n_intr_mass-or-count_le & [ STEM < "mortandad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mortandad_n_rel" ] ]. mortecino_a1 := a_rel_nonprd_intr_le & [ STEM < "mortecino" >, SYNSEM.LKEYS.KEYREL.PRED "_mortecino_a_rel" ]. mortero_n1 := n_intr_count_le & [ STEM < "mortero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mortero_n_rel" ] ]. mortificación_n1 := n_trans_le & [ STEM < "mortificación" >, SYNSEM.LKEYS.KEYREL.PRED "_mortificación_n_rel" ]. mortificar_v1 := v_intr_io*_le & [ STEM < "mortificar" >, SYNSEM.LKEYS.KEYREL.PRED "_mortificar_v_rel" ]. mortificar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "mortificar" >, SYNSEM.LKEYS.KEYREL.PRED "_mortificar_v_rel" ]. mortificar_v3 := v_trans_np_le & [ STEM < "mortificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_mortificar_v_rel" ] ]. mortinato_a1 := a_rel_nonprd_intr_le & [ STEM < "mortinato" >, SYNSEM.LKEYS.KEYREL.PRED "_mortinato_a_rel" ]. mortis_causa_x1 := av_i_le & [ STEM < "mortis_causa" >, SYNSEM.LKEYS.KEYREL.PRED "_mortis_causa_x_rel" ]. mortuorio_a1 := a_rel_nonprd_intr_le & [ STEM < "mortuorio" >, SYNSEM.LKEYS.KEYREL.PRED "_mortuorio_a_rel" ]. mortífero_a1 := a_rel_prd_le & [ STEM < "mortífero" >, SYNSEM.LKEYS.KEYREL.PRED "_mortífero_a_rel" ]. moruno_a1 := a_rel_nonprd_intr_le & [ STEM < "moruno" >, SYNSEM.LKEYS.KEYREL.PRED "_moruno_a_rel" ]. mosaico_n1 := n_intr_count_le & [ STEM < "mosaico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mosaico_n_rel" ] ]. mosca_n1 := n_intr_count_le & [ STEM < "mosca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mosca_n_rel" ] ]. moscarda_n1 := n_intr_count_le & [ STEM < "moscarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_moscarda_n_rel" ] ]. moscardón_n1 := n_intr_count_le & [ STEM < "moscardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_moscardón_n_rel" ] ]. moscatel_n1 := n_intr_mass_le & [ STEM < "moscatel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_moscatel_n_rel" ] ]. moscovita_a1 := a_rel_nonprd_intr_le & [ STEM < "moscovita" >, SYNSEM.LKEYS.KEYREL.PRED "_moscovita_a_rel" ]. moscovita_n1 := n_intr_count_le & [ STEM < "moscovita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_moscovita_n_rel" ] ]. mosquear_v1 := v_intr_io*_le & [ STEM < "mosquear" >, SYNSEM.LKEYS.KEYREL.PRED "_mosquear_v_rel" ]. mosquear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "mosquear" >, SYNSEM.LKEYS.KEYREL.PRED "_mosquear_v_rel" ]. mosquete_n1 := n_intr_count_le & [ STEM < "mosquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mosquete_n_rel" ] ]. mosquetero_n1 := n_intr_count_le & [ STEM < "mosquetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mosquetero_n_rel" ] ]. mosquetón_n1 := n_intr_count_le & [ STEM < "mosquetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mosquetón_n_rel" ] ]. mosquitero_n1 := n_intr_count_le & [ STEM < "mosquitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mosquitero_n_rel" ] ]. mosquito_n1 := n_intr_count_le & [ STEM < "mosquito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mosquito_n_rel" ] ]. mostacera_n1 := n_intr_count_le & [ STEM < "mostacera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mostacera_n_rel" ] ]. mostachón_n1 := n_intr_count_le & [ STEM < "mostachón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mostachón_n_rel" ] ]. mostaza_n1 := n_intr_mass_le & [ STEM < "mostaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mostaza_n_rel" ] ]. mosto_n1 := n_intr_mass_le & [ STEM < "mosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mosto_n_rel" ] ]. mostrador_n1 := n_intr_count_le & [ STEM < "mostrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mostrador_n_rel" ] ]. mostrenco_a1 := a_rel_nonprd_intr_le & [ STEM < "mostrenco" >, SYNSEM.LKEYS.KEYREL.PRED "_mostrenco_a_rel" ]. mota_n1 := n_pseudo-part_le & [ STEM < "mota" >, SYNSEM.LKEYS.KEYREL.PRED "_mota_n_rel" ]. motear_v := v_trans_np_le & [ STEM < "motear" >, SYNSEM.LKEYS.KEYREL.PRED "_motear_v_rel" ]. motejar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "motejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_motejar_v_rel" ] ] ]. motejar_v2 := v_trans_np*_mrkd_np_le & [ STEM < "motejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_motejar_v_rel" ] ] ]. motel_n1 := n_intr_count_le & [ STEM < "motel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_motel_n_rel" ] ]. motilidad_n1 := n_intr_uncount_le & [ STEM < "motilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motilidad_n_rel" ] ]. motivacional_a1 := a_rel_nonprd_intr_le & [ STEM < "motivacional" >, SYNSEM.LKEYS.KEYREL.PRED "_motivacional_a_rel" ]. motivación_n1 := n_trans_le & [ STEM < "motivación" >, SYNSEM.LKEYS.KEYREL.PRED "_motivación_n_rel" ]. motivadamente_x1 := av_i_spr_le & [ STEM < "motivadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_motivadamente_x_rel" ]. motivador_a1 := a_qual_intr_scopal_le & [ STEM < "motivador" >, SYNSEM.LKEYS.KEYREL.PRED "_motivador_a_rel" ]. motivar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "motivar" >, SYNSEM.LKEYS.KEYREL.PRED "_motivar_v_rel" ]. motivar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "motivar" >, SYNSEM.LKEYS.KEYREL.PRED "_motivar_v_rel" ]. motivar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "motivar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_motivar_v_rel" ] ]. motivar_v4 := v_trans_np_le & [ STEM < "motivar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_motivar_v_rel" ] ]. moto-nieve_n1 := n_intr_mass_le & [ STEM < "moto-nieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moto-nieve_n_rel" ] ]. moto_n1 := n_intr_count_le & [ STEM < "moto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_moto_n_rel" ] ]. motoaspiradora_n1 := n_intr_count_le & [ STEM < "motoaspiradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motoaspiradora_n_rel" ] ]. motoazada_n1 := n_intr_count_le & [ STEM < "motoazada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motoazada_n_rel" ] ]. motobomba_n1 := n_intr_count_le & [ STEM < "motobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motobomba_n_rel" ] ]. motocarretilla_n1 := n_intr_count_le & [ STEM < "motocarretilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motocarretilla_n_rel" ] ]. motocicleta_n1 := n_intr_count_le & [ STEM < "motocicleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_motocicleta_n_rel" ] ]. motociclismo_n1 := n_intr_uncount_le & [ STEM < "motociclismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motociclismo_n_rel" ] ]. motociclista_n1 := n_intr_count_le & [ STEM < "motociclista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_motociclista_n_rel" ] ]. motocompresor_n1 := n_intr_count_le & [ STEM < "motocompresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motocompresor_n_rel" ] ]. motocultivador_n1 := n_intr_count_le & [ STEM < "motocultivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motocultivador_n_rel" ] ]. motocultor_n1 := n_intr_count_le & [ STEM < "motocultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motocultor_n_rel" ] ]. motonave_n1 := n_intr_count_le & [ STEM < "motonave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motonave_n_rel" ] ]. motoneurona_n2 := n_ppcomp_count_le & [ STEM < "motoneurona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_motoneurona_n_rel" ] ]. motonieve_n1 := n_intr_count_le & [ STEM < "motonieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motonieve_n_rel" ] ]. motoniveladora_n1 := n_intr_count_le & [ STEM < "motoniveladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motoniveladora_n_rel" ] ]. motonáutico_a1 := a_rel_nonprd_intr_le & [ STEM < "motonáutico" >, SYNSEM.LKEYS.KEYREL.PRED "_motonáutico_a_rel" ]. motor_a1 := a_rel_nonprd_intr_le & [ STEM < "motor" >, SYNSEM.LKEYS.KEYREL.PRED "_motor_a_rel" ]. motor_n1 := n_intr_count_le & [ STEM < "motor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motor_n_rel" ] ]. motora_n1 := n_intr_count_le & [ STEM < "motora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_motora_n_rel" ] ]. motorismo_n1 := n_intr_uncount_le & [ STEM < "motorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motorismo_n_rel" ] ]. motorista_n1 := n_intr_count_le & [ STEM < "motorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_motorista_n_rel" ] ]. motorización_n1 := n_trans_le & [ STEM < "motorización" >, SYNSEM.LKEYS.KEYREL.PRED "_motorización_n_rel" ]. motorrampa_n1 := n_intr_count_le & [ STEM < "motorrampa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motorrampa_n_rel" ] ]. motorreductor_n1 := n_intr_count_le & [ STEM < "motorreductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motorreductor_n_rel" ] ]. motosegadora_n1 := n_intr_count_le & [ STEM < "motosegadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motosegadora_n_rel" ] ]. motosierra_n1 := n_intr_count_le & [ STEM < "motosierra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motosierra_n_rel" ] ]. mototraílla_n1 := n_intr_count_le & [ STEM < "mototraílla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mototraílla_n_rel" ] ]. motu_proprio_x1 := av_i_le & [ STEM < "motu_proprio" >, SYNSEM.LKEYS.KEYREL.PRED "_motu_proprio_x_rel" ]. motón_n1 := n_intr_count_le & [ STEM < "motón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_motón_n_rel" ] ]. mousse_n1 := n_intr_count_le & [ STEM < "mousse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mousse_n_rel" ] ]. movedizo_a1 := a_qual_intr_scopal_le & [ STEM < "movedizo" >, SYNSEM.LKEYS.KEYREL.PRED "_movedizo_a_rel" ]. mover_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "mover" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_mover_v_rel" ] ] ]. mover_v2 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "mover" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_mover_v_rel" ] ] ]. mover_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "mover" >, SYNSEM.LKEYS.KEYREL.PRED "_mover_v_rel" ]. mover_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "mover" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_mover_v_rel" ] ] ]. movible_a1 := a_rel_prd_le & [ STEM < "movible" >, SYNSEM.LKEYS.KEYREL.PRED "_movible_a_rel" ]. moviente_a1 := a_rel_nonprd_intr_le & [ STEM < "moviente" >, SYNSEM.LKEYS.KEYREL.PRED "_moviente_a_rel" ]. movilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "movilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_movilidad_n_rel" ] ]. movilizable_a1 := a_rel_nonprd_intr_le & [ STEM < "movilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_movilizable_a_rel" ]. movilización_n1 := n_trans_le & [ STEM < "movilización" >, SYNSEM.LKEYS.KEYREL.PRED "_movilización_n_rel" ]. movilizar_v := v_trans_np_le & [ STEM < "movilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_movilizar_v_rel" ]. movimiento_n1 := n_trans_le & [ STEM < "movimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_movimiento_n_rel" ]. mozalbete_n1 := n_intr_count_le & [ STEM < "mozalbete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mozalbete_n_rel" ] ]. mozambiqueño_a1 := a_rel_prd_le & [ STEM < "mozambiqueño" >, SYNSEM.LKEYS.KEYREL.PRED "_mozambiqueño_a_rel" ]. mozambiqueño_n1 := n_intr_count_le & [ STEM < "mozambiqueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mozambiqueño_n_rel" ] ]. mozo_n1 := n_intr_count_le & [ STEM < "mozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mozo_n_rel" ] ]. mozzarella_n1 := n_intr_count_le & [ STEM < "mozzarella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mozzarella_n_rel" ] ]. mozárabe_a1 := a_rel_prd_le & [ STEM < "mozárabe" >, SYNSEM.LKEYS.KEYREL.PRED "_mozárabe_a_rel" ]. moño_n1 := n_intr_count_le & [ STEM < "moño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_moño_n_rel" ] ]. mtorolita_n1 := n_intr_count_le & [ STEM < "mtorolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mtorolita_n_rel" ] ]. muaré_n1 := n_intr_mass-or-count_le & [ STEM < "muaré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_muaré_n_rel" ] ]. muchacho_n1 := n_intr_count_le & [ STEM < "muchacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_muchacho_n_rel" ] ]. muchedumbre_n1 := n_intr_count_le & [ STEM < "muchedumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_muchedumbre_n_rel" ] ]. mucho_d := d_qnt-evl_much_le & [ STEM < "mucho" > ]. mucho_p := pr_part_mucho_le & [ STEM < "mucho" >, SYNSEM.LKEYS.ALTKEYREL.PRED _mucho_q_rel ]. mucho_x1 := av_qnt-deg_le & [ STEM < "mucho" >, SYNSEM.LKEYS.KEYREL.PRED "_mucho_x_deg_rel" ]. mucho_x2 := av_qnt-pron_much_le & [ STEM < "mucho" > ]. mucilaginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "mucilaginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mucilaginoso_a_rel" ]. mucilago_n1 := n_intr_count_le & [ STEM < "mucilago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucilago_n_rel" ] ]. mucina_n1 := n_intr_mass-or-count_le & [ STEM < "mucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_mucina_n_rel" ] ]. mucinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "mucinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mucinoso_a_rel" ]. mucocele_n1 := n_intr_count_le & [ STEM < "mucocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucocele_n_rel" ] ]. mucogingival_a1 := a_rel_nonprd_intr_le & [ STEM < "mucogingival" >, SYNSEM.LKEYS.KEYREL.PRED "_mucogingival_a_rel" ]. mucolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "mucolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_mucolabial_a_rel" ]. mucoondulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "mucoondulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_mucoondulatorio_a_rel" ]. mucopolisacárido_n1 := n_intr_count_le & [ STEM < "mucopolisacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucopolisacárido_n_rel" ] ]. mucoproteína_n1 := n_intr_count_le & [ STEM < "mucoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mucoproteína_n_rel" ] ]. mucosa_n1 := n_intr_count_le & [ STEM < "mucosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucosa_n_rel" ] ]. mucosidad_n1 := n_intr_count_le & [ STEM < "mucosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucosidad_n_rel" ] ]. mucoso_a1 := a_rel_nonprd_intr_le & [ STEM < "mucoso" >, SYNSEM.LKEYS.KEYREL.PRED "_mucoso_a_rel" ]. mucílago_n1 := n_intr_mass_le & [ STEM < "mucílago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mucílago_n_rel" ] ]. muda_n1 := n_intr_count_le & [ STEM < "muda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muda_n_rel" ] ]. mudanza_n1 := n_event-result_intr_le & [ STEM < "mudanza" >, SYNSEM.LKEYS.KEYREL.PRED "_mudanza_n_rel" ]. mudez_n1 := n_ppcomp_uncount_le & [ STEM < "mudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mudez_n_rel" ] ]. mudo_a1 := a_rel_nonprd_intr_le & [ STEM < "mudo" >, SYNSEM.LKEYS.KEYREL.PRED "_mudo_a_rel" ]. mueble_a1 := a_rel_nonprd_intr_le & [ STEM < "mueble" >, SYNSEM.LKEYS.KEYREL.PRED "_mueble_a_rel" ]. mueble_n1 := n_intr_count_le & [ STEM < "mueble" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mueble_n_rel" ] ]. mueblería_n1 := n_intr_count_le & [ STEM < "mueblería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mueblería_n_rel" ] ]. muela_n1 := n_ppcomp_count_le & [ STEM < "muela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_muela_n_rel" ] ]. muellaje_n1 := n_intr_uncount_le & [ STEM < "muellaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muellaje_n_rel" ] ]. muellaje_n2 := n_intr_count_le & [ STEM < "muellaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muellaje_n_rel" ] ]. muelle_n1 := n_intr_count_le & [ STEM < "muelle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_muelle_n_rel" ] ]. muerta_n1 := n_intr_count_le & [ STEM < "muerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_muerta_n_rel" ] ]. muerte_n1 := n_event-result_intr_le & [ STEM < "muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_muerte_n_rel" ]. muerto_a1 := a_qual_trans*_estar_le & [ STEM < "muerto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_muerto_a_rel" ] ]. muerto_n1 := n_intr_count_le & [ STEM < "muerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_muerto_n_rel" ] ]. muesca_n1 := n_intr_count_le & [ STEM < "muesca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_muesca_n_rel" ] ]. muestra_n1 := n_intr_count_le & [ STEM < "muestra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_muestra_n_rel" ] ]. muestral_a1 := a_rel_nonprd_intr_le & [ STEM < "muestral" >, SYNSEM.LKEYS.KEYREL.PRED "_muestral_a_rel" ]. muestrario_n1 := n_intr_count_le & [ STEM < "muestrario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muestrario_n_rel" ] ]. muestreador_n1 := n_intr_count_le & [ STEM < "muestreador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_muestreador_n_rel" ] ]. muestrear_v := v_trans_np_le & [ STEM < "muestrear" >, SYNSEM.LKEYS.KEYREL.PRED "_muestrear_v_rel" ]. muestreo_n1 := n_intr_count_le & [ STEM < "muestreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muestreo_n_rel" ] ]. mufla_n1 := n_intr_count_le & [ STEM < "mufla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mufla_n_rel" ] ]. mugido_n1 := n_result_intr_le & [ STEM < "mugido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mugido_n_rel" ] ]. mugidor_a1 := a_rel_nonprd_intr_le & [ STEM < "mugidor" >, SYNSEM.LKEYS.KEYREL.PRED "_mugidor_a_rel" ]. mugir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "mugir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_mugir_v_rel" ] ]. mugir_v2 := v_ditrans*_le & [ STEM < "mugir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_mugir_v_rel" ] ]. mugir_v3 := v_intr_le & [ STEM < "mugir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_cnc_hum_pot, PRED "_mugir_v_rel" ] ]. mugriento_a1 := a_qual_intr_estar_le & [ STEM < "mugriento" >, SYNSEM.LKEYS.KEYREL.PRED "_mugriento_a_rel" ]. muguete_n1 := n_intr_count_le & [ STEM < "muguete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_muguete_n_rel" ] ]. mujer_n1 := n_intr_count_le & [ STEM < "mujer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mujer_n_rel" ] ]. mujeriego_n1 := n_intr_count_le & [ STEM < "mujeriego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mujeriego_n_rel" ] ]. mula_n1 := n_intr_count_le & [ STEM < "mula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mula_n_rel" ] ]. mulato_n1 := n_intr_count_le & [ STEM < "mulato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mulato_n_rel" ] ]. muleta_n1 := n_intr_count_le & [ STEM < "muleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muleta_n_rel" ] ]. muletilla_n1 := n_intr_count_le & [ STEM < "muletilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muletilla_n_rel" ] ]. mullir_v := v_trans_np_le & [ STEM < "mullir" >, SYNSEM.LKEYS.KEYREL.PRED "_mullir_v_rel" ]. mullita_n1 := n_intr_count_le & [ STEM < "mullita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mullita_n_rel" ] ]. mulo_n1 := n_intr_count_le & [ STEM < "mulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mulo_n_rel" ] ]. multa_n1 := n_intr_count_le & [ STEM < "multa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multa_n_rel" ] ]. multar_v := v_trans_np_le & [ STEM < "multar" >, SYNSEM.LKEYS.KEYREL.PRED "_multar_v_rel" ]. multiangular_a1 := a_rel_nonprd_intr_le & [ STEM < "multiangular" >, SYNSEM.LKEYS.KEYREL.PRED "_multiangular_a_rel" ]. multicadera_n1 := n_intr_count_le & [ STEM < "multicadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multicadera_n_rel" ] ]. multicanal_a1 := a_rel_nonprd_intr_le & [ STEM < "multicanal" >, SYNSEM.LKEYS.KEYREL.PRED "_multicanal_a_rel" ]. multicanal_n1 := n_intr_count_le & [ STEM < "multicanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multicanal_n_rel" ] ]. multicasco_n1 := n_intr_count_le & [ STEM < "multicasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multicasco_n_rel" ] ]. multicelular_a1 := a_rel_nonprd_intr_le & [ STEM < "multicelular" >, SYNSEM.LKEYS.KEYREL.PRED "_multicelular_a_rel" ]. multicelularmente_x1 := av_i_spr_le & [ STEM < "multicelularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multicelularmente_x_rel" ]. multicentro_n1 := n_intr_count_le & [ STEM < "multicentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_multicentro_n_rel" ] ]. multicolinealidad_n1 := n_intr_uncount_le & [ STEM < "multicolinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multicolinealidad_n_rel" ] ]. multicolor_a1 := a_rel_nonprd_intr_le & [ STEM < "multicolor" >, SYNSEM.LKEYS.KEYREL.PRED "_multicolor_a_rel" ]. multicompuesto_a1 := a_rel_nonprd_intr_le & [ STEM < "multicompuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_multicompuesto_a_rel" ]. multicomputador_n1 := n_intr_count_le & [ STEM < "multicomputador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multicomputador_n_rel" ] ]. multicultural_a1 := a_rel_nonprd_intr_le & [ STEM < "multicultural" >, SYNSEM.LKEYS.KEYREL.PRED "_multicultural_a_rel" ]. multiculturalidad_n1 := n_intr_uncount_le & [ STEM < "multiculturalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiculturalidad_n_rel" ] ]. multiculturalismo_n1 := n_intr_uncount_le & [ STEM < "multiculturalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiculturalismo_n_rel" ] ]. multiculturalmente_x1 := av_i_spr_le & [ STEM < "multiculturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multiculturalmente_x_rel" ]. multicéntricamente_x1 := av_i_spr_le & [ STEM < "multicéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multicéntricamente_x_rel" ]. multicéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "multicéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_multicéntrico_a_rel" ]. multicúspide_a1 := a_rel_nonprd_intr_le & [ STEM < "multicúspide" >, SYNSEM.LKEYS.KEYREL.PRED "_multicúspide_a_rel" ]. multidireccional_a1 := a_rel_nonprd_intr_le & [ STEM < "multidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_multidireccional_a_rel" ]. multidireccionalmente_x1 := av_i_spr_le & [ STEM < "multidireccionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multidireccionalmente_x_rel" ]. multidisciplinar_a1 := a_rel_nonprd_intr_le & [ STEM < "multidisciplinar" >, SYNSEM.LKEYS.KEYREL.PRED "_multidisciplinar_a_rel" ]. multielectródicamente_x1 := av_i_spr_le & [ STEM < "multielectródicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multielectródicamente_x_rel" ]. multielectródico_a1 := a_rel_nonprd_intr_le & [ STEM < "multielectródico" >, SYNSEM.LKEYS.KEYREL.PRED "_multielectródico_a_rel" ]. multiespectral_a1 := a_rel_nonprd_intr_le & [ STEM < "multiespectral" >, SYNSEM.LKEYS.KEYREL.PRED "_multiespectral_a_rel" ]. multiespiral_a1 := a_rel_nonprd_intr_le & [ STEM < "multiespiral" >, SYNSEM.LKEYS.KEYREL.PRED "_multiespiral_a_rel" ]. multiespiralmente_x1 := av_i_spr_le & [ STEM < "multiespiralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multiespiralmente_x_rel" ]. multifilamento_n1 := n_intr_uncount_pl_le & [ STEM < "multifilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multifilamento_n_rel" ] ]. multifilar_a1 := a_rel_nonprd_intr_le & [ STEM < "multifilar" >, SYNSEM.LKEYS.KEYREL.PRED "_multifilar_a_rel" ]. multifilarmente_x1 := av_i_spr_le & [ STEM < "multifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multifilarmente_x_rel" ]. multiforme_a1 := a_rel_prd_le & [ STEM < "multiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_multiforme_a_rel" ]. multifrecuencia_n1 := n_intr_uncount_le & [ STEM < "multifrecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multifrecuencia_n_rel" ] ]. multifuncional_a1 := a_rel_prd_le & [ STEM < "multifuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_multifuncional_a_rel" ]. multifuncionalidad_n1 := n_intr_uncount_le & [ STEM < "multifuncionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multifuncionalidad_n_rel" ] ]. multifuncionalmente_x1 := av_i_spr_le & [ STEM < "multifuncionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multifuncionalmente_x_rel" ]. multifásicamente_x1 := av_i_spr_le & [ STEM < "multifásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multifásicamente_x_rel" ]. multifásico_a1 := a_rel_nonprd_intr_le & [ STEM < "multifásico" >, SYNSEM.LKEYS.KEYREL.PRED "_multifásico_a_rel" ]. multigradual_a1 := a_rel_prd_le & [ STEM < "multigradual" >, SYNSEM.LKEYS.KEYREL.PRED "_multigradual_a_rel" ]. multigradualmente_x1 := av_i_spr_le & [ STEM < "multigradualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multigradualmente_x_rel" ]. multilateral_a1 := a_rel_prd_le & [ STEM < "multilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_multilateral_a_rel" ]. multilateralismo_n1 := n_intr_uncount_le & [ STEM < "multilateralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multilateralismo_n_rel" ] ]. multilineal_a1 := a_rel_prd_le & [ STEM < "multilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_multilineal_a_rel" ]. multilinealmente_x1 := av_i_spr_le & [ STEM < "multilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multilinealmente_x_rel" ]. multilingã¼e_a1 := a_rel_prd_le & [ STEM < "multilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_multilingüe_a_rel" ]. multilingüismo_n1 := n_intr_uncount_le & [ STEM < "multilingüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multilingüismo_n_rel" ] ]. multilobulado_a1 := a_rel_nonprd_intr_le & [ STEM < "multilobulado" >, SYNSEM.LKEYS.KEYREL.PRED "_multilobulado_a_rel" ]. multilocular_a1 := a_rel_nonprd_intr_le & [ STEM < "multilocular" >, SYNSEM.LKEYS.KEYREL.PRED "_multilocular_a_rel" ]. multilátero_a1 := a_rel_prd_le & [ STEM < "multilátero" >, SYNSEM.LKEYS.KEYREL.PRED "_multilátero_a_rel" ]. multimedia_n1 := n_intr_count_le & [ STEM < "multimedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_multimedia_n_rel" ] ]. multimillonario_n1 := n_intr_count_le & [ STEM < "multimillonario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_multimillonario_n_rel" ] ]. multimodal_a1 := a_rel_nonprd_intr_le & [ STEM < "multimodal" >, SYNSEM.LKEYS.KEYREL.PRED "_multimodal_a_rel" ]. multimotor_a1 := a_rel_nonprd_intr_le & [ STEM < "multimotor" >, SYNSEM.LKEYS.KEYREL.PRED "_multimotor_a_rel" ]. multimotoramente_x1 := av_i_spr_le & [ STEM < "multimotoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_multimotoramente_x_rel" ]. multinacional_a1 := a_rel_nonprd_intr_le & [ STEM < "multinacional" >, SYNSEM.LKEYS.KEYREL.PRED "_multinacional_a_rel" ]. multinacional_n1 := n_intr_count_le & [ STEM < "multinacional" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_multinacional_n_rel" ] ]. multinacionalidad_n1 := n_intr_uncount_le & [ STEM < "multinacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multinacionalidad_n_rel" ] ]. multinacionalidad_n2 := n_intr_count_le & [ STEM < "multinacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multinacionalidad_n_rel" ] ]. multinomial_a1 := a_rel_nonprd_intr_le & [ STEM < "multinomial" >, SYNSEM.LKEYS.KEYREL.PRED "_multinomial_a_rel" ]. multiparte_a1 := a_rel_nonprd_intr_le & [ STEM < "multiparte" >, SYNSEM.LKEYS.KEYREL.PRED "_multiparte_a_rel" ]. multipaso_a1 := a_rel_nonprd_intr_le & [ STEM < "multipaso" >, SYNSEM.LKEYS.KEYREL.PRED "_multipaso_a_rel" ]. multipenniforme_a1 := a_rel_nonprd_intr_le & [ STEM < "multipenniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_multipenniforme_a_rel" ]. multiperforación_n1 := n_trans_le & [ STEM < "multiperforación" >, SYNSEM.LKEYS.KEYREL.PRED "_multiperforación_n_rel" ]. multiplanar_a1 := a_rel_nonprd_intr_le & [ STEM < "multiplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplanar_a_rel" ]. multiplex_a1 := a_rel_nonprd_intr_le & [ STEM < "multiplex" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplex_a_rel" ]. multiplexación_n1 := n_intr_uncount_le & [ STEM < "multiplexación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiplexación_n_rel" ] ]. multiplexar_v := v_trans_np_le & [ STEM < "multiplexar" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplexar_v_rel" ]. multiplexor_n1 := n_intr_count_le & [ STEM < "multiplexor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_multiplexor_n_rel" ] ]. multiplicación_n1 := n_trans_le & [ STEM < "multiplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplicación_n_rel" ]. multiplicador_a1 := a_rel_nonprd_intr_le & [ STEM < "multiplicador" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplicador_a_rel" ]. multiplicador_n1 := n_intr_count_le & [ STEM < "multiplicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_multiplicador_n_rel" ] ]. multiplicar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "multiplicar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_multiplicar_v_rel" ] ]. multiplicar_v2 := v_trans_np*_mrkd_np_le & [ STEM < "multiplicar" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_multiplicar_v_rel" ] ]. multiplicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "multiplicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_multiplicativo_a_rel" ]. multiplicidad_n1 := n_ppcomp_uncount_le & [ STEM < "multiplicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiplicidad_n_rel" ] ]. multipolar_a1 := a_rel_nonprd_intr_le & [ STEM < "multipolar" >, SYNSEM.LKEYS.KEYREL.PRED "_multipolar_a_rel" ]. multipolo_n1 := n_intr_count_le & [ STEM < "multipolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_multipolo_n_rel" ] ]. multipower_n1 := n_intr_count_le & [ STEM < "multipower" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multipower_n_rel" ] ]. multiprocesador_n1 := n_intr_count_le & [ STEM < "multiprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_multiprocesador_n_rel" ] ]. multiprocesamiento_n1 := n_trans_le & [ STEM < "multiprocesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_multiprocesamiento_n_rel" ]. multiprogramación_n1 := n_trans_le & [ STEM < "multiprogramación" >, SYNSEM.LKEYS.KEYREL.PRED "_multiprogramación_n_rel" ]. multipuerta_n1 := n_intr_count_le & [ STEM < "multipuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multipuerta_n_rel" ] ]. multipuesto_a1 := a_rel_nonprd_intr_le & [ STEM < "multipuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_multipuesto_a_rel" ]. multipuesto_n1 := n_intr_count_le & [ STEM < "multipuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_multipuesto_n_rel" ] ]. multirracial_a1 := a_rel_nonprd_intr_le & [ STEM < "multirracial" >, SYNSEM.LKEYS.KEYREL.PRED "_multirracial_a_rel" ]. multirradial_a1 := a_rel_nonprd_intr_le & [ STEM < "multirradial" >, SYNSEM.LKEYS.KEYREL.PRED "_multirradial_a_rel" ]. multirradialmente_x1 := av_i_spr_le & [ STEM < "multirradialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multirradialmente_x_rel" ]. multirradicular_a1 := a_rel_nonprd_intr_le & [ STEM < "multirradicular" >, SYNSEM.LKEYS.KEYREL.PRED "_multirradicular_a_rel" ]. multisimétricamente_x1 := av_i_spr_le & [ STEM < "multisimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multisimétricamente_x_rel" ]. multisimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "multisimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_multisimétrico_a_rel" ]. multitratamiento_n1 := n_intr_uncount_le & [ STEM < "multitratamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multitratamiento_n_rel" ] ]. multitubular_a1 := a_rel_nonprd_intr_le & [ STEM < "multitubular" >, SYNSEM.LKEYS.KEYREL.PRED "_multitubular_a_rel" ]. multitubularmente_x1 := av_i_spr_le & [ STEM < "multitubularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_multitubularmente_x_rel" ]. multitud_n1 := n_intr_count_le & [ STEM < "multitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_multitud_n_rel" ] ]. multitudinariamente_x1 := av_i_spr_le & [ STEM < "multitudinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multitudinariamente_x_rel" ]. multitudinario_a1 := a_qual_intr_ser_le & [ STEM < "multitudinario" >, SYNSEM.LKEYS.KEYREL.PRED "_multitudinario_a_rel" ]. multiunitariamente_x1 := av_i_spr_le & [ STEM < "multiunitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_multiunitariamente_x_rel" ]. multiunitario_a1 := a_qual_intr_scopal_le & [ STEM < "multiunitario" >, SYNSEM.LKEYS.KEYREL.PRED "_multiunitario_a_rel" ]. multiusuario_a1 := a_rel_nonprd_intr_le & [ STEM < "multiusuario" >, SYNSEM.LKEYS.KEYREL.PRED "_multiusuario_a_rel" ]. multiusuario_n1 := n_intr_count_le & [ STEM < "multiusuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_multiusuario_n_rel" ] ]. multivalente_a1 := a_rel_nonprd_intr_le & [ STEM < "multivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_multivalente_a_rel" ]. multivariable_a1 := a_rel_nonprd_intr_le & [ STEM < "multivariable" >, SYNSEM.LKEYS.KEYREL.PRED "_multivariable_a_rel" ]. multivariado_a1 := a_rel_nonprd_intr_le & [ STEM < "multivariado" >, SYNSEM.LKEYS.KEYREL.PRED "_multivariado_a_rel" ]. multivariante_a1 := a_rel_nonprd_intr_le & [ STEM < "multivariante" >, SYNSEM.LKEYS.KEYREL.PRED "_multivariante_a_rel" ]. multivesicular_a1 := a_rel_nonprd_intr_le & [ STEM < "multivesicular" >, SYNSEM.LKEYS.KEYREL.PRED "_multivesicular_a_rel" ]. multivibrador_n1 := n_intr_count_le & [ STEM < "multivibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_multivibrador_n_rel" ] ]. multivoltaje_a1 := a_rel_nonprd_intr_le & [ STEM < "multivoltaje" >, SYNSEM.LKEYS.KEYREL.PRED "_multivoltaje_a_rel" ]. multífido_a1 := a_rel_nonprd_intr_le & [ STEM < "multífido" >, SYNSEM.LKEYS.KEYREL.PRED "_multífido_a_rel" ]. multívoco_a1 := a_rel_nonprd_intr_le & [ STEM < "multívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_multívoco_a_rel" ]. mundanal_a1 := a_rel_nonprd_intr_le & [ STEM < "mundanal" >, SYNSEM.LKEYS.KEYREL.PRED "_mundanal_a_rel" ]. mundanamente_x1 := av_i_spr_le & [ STEM < "mundanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mundanamente_x_rel" ]. mundanería_n1 := n_intr_uncount_pl_le & [ STEM < "mundanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mundanería_n_rel" ] ]. mundano_a1 := a_qual_intr_scopal_le & [ STEM < "mundano" >, SYNSEM.LKEYS.KEYREL.PRED "_mundano_a_rel" ]. mundial_a1 := a_rel_prd_le & [ STEM < "mundial" >, SYNSEM.LKEYS.KEYREL.PRED "_mundial_a_rel" ]. mundial_n1 := n_intr_count_le & [ STEM < "mundial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mundial_n_rel" ] ]. mundialista_a1 := a_rel_nonprd_intr_le & [ STEM < "mundialista" >, SYNSEM.LKEYS.KEYREL.PRED "_mundialista_a_rel" ]. mundialización_n1 := n_trans_le & [ STEM < "mundialización" >, SYNSEM.LKEYS.KEYREL.PRED "_mundialización_n_rel" ]. mundialmente_x1 := av_i_le & [ STEM < "mundialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mundialmente_x_rel" ]. mundo_n1 := n_intr_count_le & [ STEM < "mundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_mundo_n_rel" ] ]. municipal_a1 := a_rel_nonprd_intr_le & [ STEM < "municipal" >, SYNSEM.LKEYS.KEYREL.PRED "_municipal_a_rel" ]. municipalidad_n1 := n_intr_count_le & [ STEM < "municipalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_municipalidad_n_rel" ] ]. municipalista_a1 := a_rel_nonprd_intr_le & [ STEM < "municipalista" >, SYNSEM.LKEYS.KEYREL.PRED "_municipalista_a_rel" ]. municipio_n1 := n_intr_count_le & [ STEM < "municipio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_municipio_n_rel" ] ]. munición_n1 := n_intr_count_le & [ STEM < "munición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_munición_n_rel" ] ]. munificente_a1 := a_rel_nonprd_intr_le & [ STEM < "munificente" >, SYNSEM.LKEYS.KEYREL.PRED "_munificente_a_rel" ]. muniqués_a1 := a_rel_prd_le & [ STEM < "muniqués" >, SYNSEM.LKEYS.KEYREL.PRED "_muniqués_a_rel" ]. muniqués_n1 := n_intr_count_le & [ STEM < "muniqués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_muniqués_n_rel" ] ]. mural_a1 := a_rel_nonprd_intr_le & [ STEM < "mural" >, SYNSEM.LKEYS.KEYREL.PRED "_mural_a_rel" ]. mural_n1 := n_intr_count_le & [ STEM < "mural" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mural_n_rel" ] ]. muralla_n1 := n_intr_count_le & [ STEM < "muralla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muralla_n_rel" ] ]. murciano_a1 := a_rel_prd_le & [ STEM < "murciano" >, SYNSEM.LKEYS.KEYREL.PRED "_murciano_a_rel" ]. murciano_n1 := n_intr_count_le & [ STEM < "murciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_murciano_n_rel" ] ]. murciélago_n1 := n_intr_count_le & [ STEM < "murciélago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_murciélago_n_rel" ] ]. muriáticamente_x1 := av_i_spr_le & [ STEM < "muriáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_muriáticamente_x_rel" ]. muriático_a1 := a_rel_nonprd_intr_le & [ STEM < "muriático" >, SYNSEM.LKEYS.KEYREL.PRED "_muriático_a_rel" ]. murmuración_n1 := n_trans_le & [ STEM < "murmuración" >, SYNSEM.LKEYS.KEYREL.PRED "_murmuración_n_rel" ]. murmurador_n1 := n_subj-nom_le & [ STEM < "murmurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_murmurador_n_rel" ] ]. murmurar_v1 := v_intr_mrkd_np_le & [ STEM < "murmurar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_murmurar_v_rel" ] ]. murmurar_v2 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "murmurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_murmurar_v_rel" ] ]. murmurar_v3 := v_ditrans_cp_ques_le & [ STEM < "murmurar" >, SYNSEM.LKEYS.KEYREL.PRED "_murmurar_v_rel" ]. murmurar_v4 := v_ditrans*_le & [ STEM < "murmurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_murmurar_v_rel" ] ]. muro_n1 := n_intr_count_le & [ STEM < "muro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muro_n_rel" ] ]. musa_n1 := n_intr_count_le & [ STEM < "musa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_musa_n_rel" ] ]. musaca_n1 := n_intr_count_le & [ STEM < "musaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_musaca_n_rel" ] ]. musaraña_n1 := n_intr_count_le & [ STEM < "musaraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_musaraña_n_rel" ] ]. muscinal_a1 := a_rel_nonprd_intr_le & [ STEM < "muscinal" >, SYNSEM.LKEYS.KEYREL.PRED "_muscinal_a_rel" ]. muscoso_a1 := a_rel_nonprd_intr_le & [ STEM < "muscoso" >, SYNSEM.LKEYS.KEYREL.PRED "_muscoso_a_rel" ]. musculación_n1 := n_result_intr_le & [ STEM < "musculación" >, SYNSEM.LKEYS.KEYREL.PRED "_musculación_n_rel" ]. muscular_a1 := a_rel_nonprd_intr_le & [ STEM < "muscular" >, SYNSEM.LKEYS.KEYREL.PRED "_muscular_a_rel" ]. musculatura_n1 := n_intr_coll_le & [ STEM < "musculatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_musculatura_n_rel" ] ]. musculocutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "musculocutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_musculocutáneo_a_rel" ]. musculofrénico_a1 := a_rel_nonprd_intr_le & [ STEM < "musculofrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_musculofrénico_a_rel" ]. musculoso_a1 := a_qual_intr_scopal_le & [ STEM < "musculoso" >, SYNSEM.LKEYS.KEYREL.PRED "_musculoso_a_rel" ]. musculotubárico_a1 := a_rel_nonprd_intr_le & [ STEM < "musculotubárico" >, SYNSEM.LKEYS.KEYREL.PRED "_musculotubárico_a_rel" ]. muselina_n1 := n_intr_count_le & [ STEM < "muselina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muselina_n_rel" ] ]. muselino_a1 := a_rel_nonprd_intr_le & [ STEM < "muselino" >, SYNSEM.LKEYS.KEYREL.PRED "_muselino_a_rel" ]. museo_n1 := n_intr_count_le & [ STEM < "museo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_museo_n_rel" ] ]. museología_n1 := n_intr_uncount_le & [ STEM < "museología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_museología_n_rel" ] ]. museológico_a1 := a_rel_nonprd_intr_le & [ STEM < "museológico" >, SYNSEM.LKEYS.KEYREL.PRED "_museológico_a_rel" ]. musgo_n1 := n_intr_mass_le & [ STEM < "musgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_musgo_n_rel" ] ]. musgoso_a1 := a_qual_intr_scopal_le & [ STEM < "musgoso" >, SYNSEM.LKEYS.KEYREL.PRED "_musgoso_a_rel" ]. musical_a1 := a_rel_prd_le & [ STEM < "musical" >, SYNSEM.LKEYS.KEYREL.PRED "_musical_a_rel" ]. musicalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "musicalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_musicalidad_n_rel" ] ]. musicalmente_x1 := av_s_le & [ STEM < "musicalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_musicalmente_x_rel" ]. musicar_v := v_trans_np_le & [ STEM < "musicar" >, SYNSEM.LKEYS.KEYREL.PRED "_musicar_v_rel" ]. musicología_n1 := n_intr_uncount_le & [ STEM < "musicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_musicología_n_rel" ] ]. musicólogo_n1 := n_intr_count_le & [ STEM < "musicólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_musicólogo_n_rel" ] ]. musitar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "musitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_musitar_v_rel" ] ]. musitar_v2 := v_ditrans*_le & [ STEM < "musitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_musitar_v_rel" ] ]. musitar_v3 := v_trans_np*_le & [ STEM < "musitar" >, SYNSEM.LKEYS.KEYREL.PRED "_musitar_v_rel" ]. muslera_n1 := n_intr_count_le & [ STEM < "muslera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muslera_n_rel" ] ]. muslo_n1 := n_intr_count_le & [ STEM < "muslo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muslo_n_rel" ] ]. musola_n1 := n_intr_count_le & [ STEM < "musola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_musola_n_rel" ] ]. mustio_a1 := a_qual_intr_estar_le & [ STEM < "mustio" >, SYNSEM.LKEYS.KEYREL.PRED "_mustio_a_rel" ]. mustélido_n1 := n_intr_count_le & [ STEM < "mustélido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mustélido_n_rel" ] ]. musulmán_a1 := a_rel_prd_le & [ STEM < "musulmán" >, SYNSEM.LKEYS.KEYREL.PRED "_musulmán_a_rel" ]. musulmán_n1 := n_intr_count_le & [ STEM < "musulmán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_musulmán_n_rel" ] ]. mutabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "mutabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutabilidad_n_rel" ] ]. mutacional_a1 := a_rel_nonprd_intr_le & [ STEM < "mutacional" >, SYNSEM.LKEYS.KEYREL.PRED "_mutacional_a_rel" ]. mutacionalmente_x1 := av_i_spr_le & [ STEM < "mutacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_mutacionalmente_x_rel" ]. mutación_n1 := n_event-result_intr_le & [ STEM < "mutación" >, SYNSEM.LKEYS.KEYREL.PRED "_mutación_n_rel" ]. mutador_n1 := n_intr_count_le & [ STEM < "mutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mutador_n_rel" ] ]. mutagénico_a1 := a_rel_nonprd_intr_le & [ STEM < "mutagénico" >, SYNSEM.LKEYS.KEYREL.PRED "_mutagénico_a_rel" ]. mutante_n1 := n_intr_count_le & [ STEM < "mutante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_plant, PRED "_mutante_n_rel" ] ]. mutatis_mutandis_x1 := av_i_le & [ STEM < "mutatis_mutandis" >, SYNSEM.LKEYS.KEYREL.PRED "_mutatis_mutandis_x_rel" ]. mutilación_n1 := n_trans_le & [ STEM < "mutilación" >, SYNSEM.LKEYS.KEYREL.PRED "_mutilación_n_rel" ]. mutilado_n1 := n_intr_count_le & [ STEM < "mutilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mutilado_n_rel" ] ]. mutilar_v := v_trans_np_le & [ STEM < "mutilar" >, SYNSEM.LKEYS.KEYREL.PRED "_mutilar_v_rel" ]. mutismo_n1 := n_intr_uncount_le & [ STEM < "mutismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutismo_n_rel" ] ]. muton_n1 := n_intr_mass-or-count_le & [ STEM < "muton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_muton_n_rel" ] ]. mutual_a1 := a_rel_nonprd_intr_le & [ STEM < "mutual" >, SYNSEM.LKEYS.KEYREL.PRED "_mutual_a_rel" ]. mutualidad_n1 := n_ppcomp_count_le & [ STEM < "mutualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutualidad_n_rel" ] ]. mutualidad_n2 := n_ppcomp_uncount_le & [ STEM < "mutualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutualidad_n_rel" ] ]. mutualismo_n1 := n_intr_uncount_le & [ STEM < "mutualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutualismo_n_rel" ] ]. mutualista_a1 := a_rel_nonprd_intr_le & [ STEM < "mutualista" >, SYNSEM.LKEYS.KEYREL.PRED "_mutualista_a_rel" ]. mutualista_n1 := n_intr_count_le & [ STEM < "mutualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mutualista_n_rel" ] ]. mutuario_a1 := a_rel_nonprd_intr_le & [ STEM < "mutuario" >, SYNSEM.LKEYS.KEYREL.PRED "_mutuario_a_rel" ]. mutuo_a1 := a_rel_prd_le & [ STEM < "mutuo" >, SYNSEM.LKEYS.KEYREL.PRED "_mutuo_a_rel" ]. mutágeno_n1 := n_intr_count_le & [ STEM < "mutágeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mutágeno_n_rel" ] ]. mutón_n1 := n_intr_mass_le & [ STEM < "mutón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_mutón_n_rel" ] ]. muy_de_mañana_x1 := av_i_le & [ STEM < "muy_de_mañana" >, SYNSEM.LKEYS.KEYREL.PRED "_muy_de_mañana_x_rel" ]. muy_x1 := av_qnt-deg_det_le & [ STEM < "muy" >, SYNSEM.LKEYS.KEYREL.PRED "_muy_x_deg_rel" ]. muérdago_n1 := n_intr_count_le & [ STEM < "muérdago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_muérdago_n_rel" ] ]. muñeca_n1 := n_intr_count_le & [ STEM < "muñeca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muñeca_n_rel" ] ]. muñeca_n2 := n_ppcomp_count_le & [ STEM < "muñeca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_muñeca_n_rel" ] ]. muñeco_n1 := n_intr_count_le & [ STEM < "muñeco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muñeco_n_rel" ] ]. muñequera_n1 := n_intr_count_le & [ STEM < "muñequera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muñequera_n_rel" ] ]. muñón_n1 := n_intr_count_le & [ STEM < "muñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_muñón_n_rel" ] ]. mágicamente_x1 := av_i_spr_le & [ STEM < "mágicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mágicamente_x_rel" ]. mágico_a1 := a_qual_intr_scopal_le & [ STEM < "mágico" >, SYNSEM.LKEYS.KEYREL.PRED "_mágico_a_rel" ]. málaga_n1 := n_intr_count_le & [ STEM < "málaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_málaga_n_rel" ] ]. málico_a1 := a_rel_nonprd_intr_le & [ STEM < "málico" >, SYNSEM.LKEYS.KEYREL.PRED "_málico_a_rel" ]. mánager_n1 := n_intr_count_le & [ STEM < "mánager" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mánager_n_rel" ] ]. máquina_n1 := n_intr_count_le & [ STEM < "máquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_máquina_n_rel" ] ]. mármol_n1 := n_intr_count_le & [ STEM < "mármol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mármol_n_rel" ] ]. mártir_n1 := n_intr_count_le & [ STEM < "mártir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_mártir_n_rel" ] ]. más_allá_de_p_vmod := p_vmod_le & [ STEM < "más_allá_de" >, SYNSEM.LKEYS.KEYREL.PRED _más_allá_de_p_rel ]. más_bien_x1 := av_s_spr_le & [ STEM < "más_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_más_bien_x_rel" ]. más_de_la_cuenta_x1 := av_i_le & [ STEM < "más_de_la_cuenta" >, SYNSEM.LKEYS.KEYREL.PRED "_más_de_la_cuenta_x_rel" ]. más_valiera_x1 := av_i_le & [ STEM < "más_valiera" >, SYNSEM.LKEYS.KEYREL.PRED "_más_valiera_x_rel" ]. más_x2 := av_cmp-deg_le & [ STEM < "más" >, SYNSEM.LKEYS.KEYREL.PRED "_más_x_deg_rel" ]. más_x3 := d_cmp_más_le & [ STEM < "más" > ]. más_x4 := d_cmp_numb_más_le & [ STEM < "más" > ]. máscara_n1 := n_intr_count_le & [ STEM < "máscara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_máscara_n_rel" ] ]. máser_n1 := n_intr_count_le & [ STEM < "máser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_máser_n_rel" ] ]. másico_a1 := a_rel_nonprd_intr_le & [ STEM < "másico" >, SYNSEM.LKEYS.KEYREL.PRED "_másico_a_rel" ]. mástil_n1 := n_intr_count_le & [ STEM < "mástil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mástil_n_rel" ] ]. máxime_x1 := av_i_foc_le & [ STEM < "máxime" >, SYNSEM.LKEYS.KEYREL.PRED "_máxime_x_rel" ]. máxime_x2 := av_s_cp_prop_le & [ STEM < "máxime" >, SYNSEM.LKEYS.KEYREL.PRED "_máxime_x_rel" ]. máxime_x3 := av_i_np-foc_le & [ STEM < "máxime" >, SYNSEM.LKEYS.KEYREL.PRED "_máxime_x_rel" ]. máximo_a1 := a_rel_nonprd_intr_le & [ STEM < "máximo" >, SYNSEM.LKEYS.KEYREL.PRED "_máximo_a_rel" ]. médicmente_x1 := av_i_spr_le & [ STEM < "médicmente" >, SYNSEM.LKEYS.KEYREL.PRED "_médicmente_x_rel" ]. médico_a1 := a_rel_nonprd_intr_le & [ STEM < "médico" >, SYNSEM.LKEYS.KEYREL.PRED "_médico_a_rel" ]. médico_n1 := n_intr_count_le & [ STEM < "médico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_médico_n_rel" ] ]. médium_n1 := n_intr_count_le & [ STEM < "médium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_médium_n_rel" ] ]. médula_n1 := n_intr_count_le & [ STEM < "médula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_médula_n_rel" ] ]. ménade_n1 := n_intr_count_le & [ STEM < "ménade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ménade_n_rel" ] ]. ménsula_n1 := n_intr_count_le & [ STEM < "ménsula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ménsula_n_rel" ] ]. método_n1 := n_intr_count_le & [ STEM < "método" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_método_n_rel" ] ]. métopa_n1 := n_intr_count_le & [ STEM < "métopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_métopa_n_rel" ] ]. métrico_a1 := a_rel_nonprd_intr_le & [ STEM < "métrico" >, SYNSEM.LKEYS.KEYREL.PRED "_métrico_a_rel" ]. mí_p := pr_pers_obl_le & [ STEM < "mí" > ]. mímico_a1 := a_rel_nonprd_intr_le & [ STEM < "mímico" >, SYNSEM.LKEYS.KEYREL.PRED "_mímico_a_rel" ]. mínimamente_x1 := av_deg_le & [ STEM < "mínimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_mínimamente_x_rel" ]. mío_a := a_poss_le & [ STEM < "mío" >, SYNSEM.LKEYS.KEYREL.PRED "_mío_a_rel" ]. míseramente_x1 := av_i_spr_le & [ STEM < "míseramente" >, SYNSEM.LKEYS.KEYREL.PRED "_míseramente_x_rel" ]. mísero_a1 := a_adv_event_le & [ STEM < "mísero" >, SYNSEM.LKEYS.KEYREL.PRED "_mísero_a_rel" ]. mísil_n1 := n_intr_count_le & [ STEM < "mísil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mísil_n_rel" ] ]. místico_a1 := a_qual_intr_scopal_le & [ STEM < "místico" >, SYNSEM.LKEYS.KEYREL.PRED "_místico_a_rel" ]. míticamente_x1 := av_i_spr_le & [ STEM < "míticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_míticamente_x_rel" ]. mítico_a1 := a_adv_event_le & [ STEM < "mítico" >, SYNSEM.LKEYS.KEYREL.PRED "_mítico_a_rel" ]. mízcalo_n1 := n_intr_count_le & [ STEM < "mízcalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_mízcalo_n_rel" ] ]. módem_n1 := n_intr_count_le & [ STEM < "módem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_módem_n_rel" ] ]. módicamente_x1 := av_i_spr_le & [ STEM < "módicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_módicamente_x_rel" ]. módico_a1 := a_qual_intr_scopal_le & [ STEM < "módico" >, SYNSEM.LKEYS.KEYREL.PRED "_módico_a_rel" ]. módulo_n1 := n_intr_count_le & [ STEM < "módulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_módulo_n_rel" ] ]. mónada_n1 := n_intr_count_le & [ STEM < "mónada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_mónada_n_rel" ] ]. mórbido_a1 := a_adv_event_le & [ STEM < "mórbido" >, SYNSEM.LKEYS.KEYREL.PRED "_mórbido_a_rel" ]. móvil_a1 := a_rel_nonprd_intr_le & [ STEM < "móvil" >, SYNSEM.LKEYS.KEYREL.PRED "_móvil_a_rel" ]. múgil_n1 := n_intr_count_le & [ STEM < "múgil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_múgil_n_rel" ] ]. múltiple_a1 := a_rel_prd_le & [ STEM < "múltiple" >, SYNSEM.LKEYS.KEYREL.PRED "_múltiple_a_rel" ]. múltiplo_a1 := a_rel_nonprd_intr_le & [ STEM < "múltiplo" >, SYNSEM.LKEYS.KEYREL.PRED "_múltiplo_a_rel" ]. músculo_n1 := n_intr_count_le & [ STEM < "músculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_músculo_n_rel" ] ]. música_n1 := n_intr_count_le & [ STEM < "música" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_música_n_rel" ] ]. músico_n1 := n_intr_count_le & [ STEM < "músico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_músico_n_rel" ] ]. mútula_n1 := n_intr_count_le & [ STEM < "mútula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mútula_n_rel" ] ]. mútulo_n1 := n_intr_count_le & [ STEM < "mútulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_mútulo_n_rel" ] ]. nabla_n1 := n_intr_count_le & [ STEM < "nabla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nabla_n_rel" ] ]. nabo_n1 := n_intr_mass_le & [ STEM < "nabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nabo_n_rel" ] ]. nacarado_a1 := a_qual_intr_ser_le & [ STEM < "nacarado" >, SYNSEM.LKEYS.KEYREL.PRED "_nacarado_a_rel" ]. nacedero_n1 := n_intr_count_le & [ STEM < "nacedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nacedero_n_rel" ] ]. nacer_v1 := v_unacc_le & [ STEM < "nacer" >, SYNSEM.LKEYS.KEYREL.PRED "_nacer_v_rel" ]. naciente_a1 := a_rel_nonprd_intr_le & [ STEM < "naciente" >, SYNSEM.LKEYS.KEYREL.PRED "_naciente_a_rel" ]. nacimiento_n1 := n_event-result_intr_le & [ STEM < "nacimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_nacimiento_n_rel" ]. nacional_a1 := a_rel_prd_le & [ STEM < "nacional" >, SYNSEM.LKEYS.KEYREL.PRED "_nacional_a_rel" ]. nacionalcatolicismo_n1 := n_intr_uncount_le & [ STEM < "nacionalcatolicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nacionalcatolicismo_n_rel" ] ]. nacionalcatólico_a1 := a_rel_nonprd_intr_le & [ STEM < "nacionalcatólico" >, SYNSEM.LKEYS.KEYREL.PRED "_nacionalcatólico_a_rel" ]. nacionalidad_n1 := n_intr_count_le & [ STEM < "nacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nacionalidad_n_rel" ] ]. nacionalismo_n1 := n_intr_uncount_le & [ STEM < "nacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nacionalismo_n_rel" ] ]. nacionalista_a1 := a_qual_intr_scopal_le & [ STEM < "nacionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_nacionalista_a_rel" ]. nacionalista_n1 := n_intr_count_le & [ STEM < "nacionalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nacionalista_n_rel" ] ]. nacionalización_n1 := n_trans_le & [ STEM < "nacionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_nacionalización_n_rel" ]. nacionalmente_x1 := av_i_spr_le & [ STEM < "nacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_nacionalmente_x_rel" ]. nacionalsindicalismo_n1 := n_intr_uncount_le & [ STEM < "nacionalsindicalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nacionalsindicalismo_n_rel" ] ]. nacionalsocialismo_n1 := n_intr_uncount_le & [ STEM < "nacionalsocialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nacionalsocialismo_n_rel" ] ]. nación_n1 := n_intr_count_le & [ STEM < "nación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_nación_n_rel" ] ]. nada_más_y_nada_menos_x1 := av_i_le & [ STEM < "nada_más_y_nada_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_nada_más_y_nada_menos_x_rel" ]. nada_n1 := n_intr_uncount_le & [ STEM < "nada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nada_n_rel" ] ]. nada_p := pr_pseudo-part_nada_le & [ STEM < "nada" > ]. nada_x1 := av_qnt-deg_le & [ STEM < "nada" >, SYNSEM.LKEYS.KEYREL.PRED "_nada_x_deg_rel" ]. nada_x2 := av_qnt-pron_nada_le & [ STEM < "nada" > ]. nadador_n1 := n_intr_count_le & [ STEM < "nadador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nadador_n_rel" ] ]. nadar_v := v_intr_le & [ STEM < "nadar" >, SYNSEM.LKEYS.KEYREL.PRED "_nadar_v_rel" ]. nadie_p := pr_indf_nadie_le & [ STEM < "nadie" > ]. nadolol_n1 := n_intr_count_le & [ STEM < "nadolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nadolol_n_rel" ] ]. nafta_n1 := n_intr_mass_le & [ STEM < "nafta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nafta_n_rel" ] ]. naftalendisulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "naftalendisulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_naftalendisulfónico_a_rel" ]. naftaleno_n1 := n_intr_count_le & [ STEM < "naftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftaleno_n_rel" ] ]. naftalenosulfonato_n1 := n_intr_count_le & [ STEM < "naftalenosulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftalenosulfonato_n_rel" ] ]. naftalensulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "naftalensulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_naftalensulfónico_a_rel" ]. naftenato_n1 := n_intr_count_le & [ STEM < "naftenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftenato_n_rel" ] ]. naftenos_n1 := n_intr_count_le & [ STEM < "naftenos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_naftenos_n_rel" ] ]. naftilamina_n1 := n_intr_count_le & [ STEM < "naftilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftilamina_n_rel" ] ]. naftilendiamina_n1 := n_intr_count_le & [ STEM < "naftilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftilendiamina_n_rel" ] ]. naftiltiourea_n1 := n_intr_count_le & [ STEM < "naftiltiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftiltiourea_n_rel" ] ]. naftionato_n1 := n_intr_count_le & [ STEM < "naftionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftionato_n_rel" ] ]. naftiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "naftiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_naftiónico_a_rel" ]. naftol_n1 := n_intr_count_le & [ STEM < "naftol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftol_n_rel" ] ]. naftoquinona_n1 := n_intr_count_le & [ STEM < "naftoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_naftoquinona_n_rel" ] ]. nafténico_a1 := a_rel_nonprd_intr_le & [ STEM < "nafténico" >, SYNSEM.LKEYS.KEYREL.PRED "_nafténico_a_rel" ]. naftílicamente_x1 := av_i_spr_le & [ STEM < "naftílicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_naftílicamente_x_rel" ]. naftílico_a1 := a_rel_nonprd_intr_le & [ STEM < "naftílico" >, SYNSEM.LKEYS.KEYREL.PRED "_naftílico_a_rel" ]. nahua_n1 := n_intr_count_le & [ STEM < "nahua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_nahua_n_rel" ] ]. nahuatl_n1 := n_intr_count_le & [ STEM < "nahuatl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_nahuatl_n_rel" ] ]. naide_p := pr_indf_nadie_le & [ STEM < "naide" > ]. naipe_n1 := n_intr_count_le & [ STEM < "naipe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_naipe_n_rel" ] ]. najar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "najar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_najar_v_rel" ] ] ]. najar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "najar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_najar_v_rel" ] ] ]. nalga_n1 := n_intr_mass_le & [ STEM < "nalga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nalga_n_rel" ] ]. namibio_a1 := a_rel_prd_le & [ STEM < "namibio" >, SYNSEM.LKEYS.KEYREL.PRED "_namibio_a_rel" ]. namibio_n1 := n_intr_count_le & [ STEM < "namibio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_namibio_n_rel" ] ]. nanoarquitectura_n1 := n_intr_count_le & [ STEM < "nanoarquitectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nanoarquitectura_n_rel" ] ]. nanoftalmía_n1 := n_intr_uncount_le & [ STEM < "nanoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nanoftalmía_n_rel" ] ]. nanoprograma_n1 := n_intr_count_le & [ STEM < "nanoprograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nanoprograma_n_rel" ] ]. nanoprogramación_n1 := n_intr_uncount_le & [ STEM < "nanoprogramación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nanoprogramación_n_rel" ] ]. nanosegundo_n := n_intr_count_le & [ STEM < "nanosegundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_nanosegundo_n_rel" ] ]. nansú_n1 := n_intr_count_le & [ STEM < "nansú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nansú_n_rel" ] ]. nanómetro_n := n_intr_count_le & [ STEM < "nanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_nanómetro_n_rel" ] ]. napa_n1 := n_intr_mass_le & [ STEM < "napa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_napa_n_rel" ] ]. napalm_n1 := n_intr_mass_le & [ STEM < "napalm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_napalm_n_rel" ] ]. napoleónico_a1 := a_rel_nonprd_intr_le & [ STEM < "napoleónico" >, SYNSEM.LKEYS.KEYREL.PRED "_napoleónico_a_rel" ]. napolitano_a1 := a_rel_prd_le & [ STEM < "napolitano" >, SYNSEM.LKEYS.KEYREL.PRED "_napolitano_a_rel" ]. napolitano_n1 := n_intr_count_le & [ STEM < "napolitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_napolitano_n_rel" ] ]. naranja_a1 := a_qual_intr_ser_le & [ STEM < "naranja" >, SYNSEM.LKEYS.KEYREL.PRED "_naranja_a_rel" ]. naranja_n1 := n_intr_mass_le & [ STEM < "naranja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_naranja_n_rel" ] ]. naranjada_n1 := n_intr_mass_le & [ STEM < "naranjada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_naranjada_n_rel" ] ]. naranjado_a1 := a_qual_intr_ser_le & [ STEM < "naranjado" >, SYNSEM.LKEYS.KEYREL.PRED "_naranjado_a_rel" ]. naranjal_n1 := n_intr_count_le & [ STEM < "naranjal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_naranjal_n_rel" ] ]. naranjilla_n1 := n_intr_count_le & [ STEM < "naranjilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_naranjilla_n_rel" ] ]. naranjo_n1 := n_intr_count_le & [ STEM < "naranjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_naranjo_n_rel" ] ]. narceína_n1 := n_intr_count_le & [ STEM < "narceína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_narceína_n_rel" ] ]. narcisismo_n1 := n_intr_uncount_le & [ STEM < "narcisismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_narcisismo_n_rel" ] ]. narcisista_a1 := a_qual_intr_ser_le & [ STEM < "narcisista" >, SYNSEM.LKEYS.KEYREL.PRED "_narcisista_a_rel" ]. narciso_n1 := n_intr_count_le & [ STEM < "narciso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_narciso_n_rel" ] ]. narcodinero_n1 := n_intr_count_le & [ STEM < "narcodinero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_narcodinero_n_rel" ] ]. narcotina_n1 := n_intr_count_le & [ STEM < "narcotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_narcotina_n_rel" ] ]. narcotismo_n1 := n_intr_uncount_le & [ STEM < "narcotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_narcotismo_n_rel" ] ]. narcotraficante_n1 := n_intr_count_le & [ STEM < "narcotraficante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_narcotraficante_n_rel" ] ]. narcotráfico_n1 := n_intr_uncount_le & [ STEM < "narcotráfico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_narcotráfico_n_rel" ] ]. narcótico_a1 := a_rel_nonprd_intr_le & [ STEM < "narcótico" >, SYNSEM.LKEYS.KEYREL.PRED "_narcótico_a_rel" ]. narcótico_n1 := n_intr_count_le & [ STEM < "narcótico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_narcótico_n_rel" ] ]. nardo_n1 := n_intr_count_le & [ STEM < "nardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nardo_n_rel" ] ]. narguile_n1 := n_intr_count_le & [ STEM < "narguile" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_narguile_n_rel" ] ]. narina_n1 := n_ppcomp_count_le & [ STEM < "narina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_narina_n_rel" ] ]. nariz_n1 := n_ppcomp_count_le & [ STEM < "nariz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nariz_n_rel" ] ]. narración_n1 := n_intr_mass_le & [ STEM < "narración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_narración_n_rel" ] ]. narrador_n1 := n_subj-nom_le & [ STEM < "narrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_narrador_n_rel" ] ]. narrar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "narrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_narrar_v_rel" ] ]. narrar_v2 := v_ditrans*_le & [ STEM < "narrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, ARG2.SORT abs_pro, PRED "_narrar_v_rel" ] ]. narrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "narrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_narrativo_a_rel" ]. narval_n1 := n_intr_count_le & [ STEM < "narval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_narval_n_rel" ] ]. nasa_n1 := n_intr_count_le & [ STEM < "nasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nasa_n_rel" ] ]. nasal_a1 := a_rel_nonprd_intr_le & [ STEM < "nasal" >, SYNSEM.LKEYS.KEYREL.PRED "_nasal_a_rel" ]. nasalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "nasalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nasalidad_n_rel" ] ]. nasalización_n1 := n_trans_le & [ STEM < "nasalización" >, SYNSEM.LKEYS.KEYREL.PRED "_nasalización_n_rel" ]. nasalizar_v := v_trans_np*_le & [ STEM < "nasalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_nasalizar_v_rel" ]. nasalmente_x1 := av_i_spr_le & [ STEM < "nasalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_nasalmente_x_rel" ]. nashi_n1 := n_intr_count_le & [ STEM < "nashi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nashi_n_rel" ] ]. nasión_n1 := n_intr_count_le & [ STEM < "nasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nasión_n_rel" ] ]. nasobasal_a1 := a_rel_nonprd_intr_le & [ STEM < "nasobasal" >, SYNSEM.LKEYS.KEYREL.PRED "_nasobasal_a_rel" ]. nasociliar_a1 := a_rel_nonprd_intr_le & [ STEM < "nasociliar" >, SYNSEM.LKEYS.KEYREL.PRED "_nasociliar_a_rel" ]. nasofaringe_n1 := n_ppcomp_count_le & [ STEM < "nasofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nasofaringe_n_rel" ] ]. nasofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "nasofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_nasofaríngeo_a_rel" ]. nasofrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "nasofrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_nasofrontal_a_rel" ]. nasolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "nasolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_nasolabial_a_rel" ]. nasolagrimal_a1 := a_rel_nonprd_intr_le & [ STEM < "nasolagrimal" >, SYNSEM.LKEYS.KEYREL.PRED "_nasolagrimal_a_rel" ]. nasomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "nasomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_nasomaxilar_a_rel" ]. nasopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "nasopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_nasopalatino_a_rel" ]. nasosinusal_a1 := a_rel_nonprd_intr_le & [ STEM < "nasosinusal" >, SYNSEM.LKEYS.KEYREL.PRED "_nasosinusal_a_rel" ]. nata_n1 := n_intr_mass_le & [ STEM < "nata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nata_n_rel" ] ]. natación_n1 := n_intr_mass_le & [ STEM < "natación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_natación_n_rel" ] ]. natal_a1 := a_rel_nonprd_intr_le & [ STEM < "natal" >, SYNSEM.LKEYS.KEYREL.PRED "_natal_a_rel" ]. natalidad_n1 := n_intr_uncount_le & [ STEM < "natalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_natalidad_n_rel" ] ]. natalidad_n2 := n_intr_count_le & [ STEM < "natalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_natalidad_n_rel" ] ]. natatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "natatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_natatorio_a_rel" ]. natividad_n1 := n_intr_uncount_le & [ STEM < "natividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_natividad_n_rel" ] ]. nativo_a1 := a_rel_prd_le & [ STEM < "nativo" >, SYNSEM.LKEYS.KEYREL.PRED "_nativo_a_rel" ]. nativo_n1 := n_intr_count_le & [ STEM < "nativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nativo_n_rel" ] ]. nato_a1 := a_qual_intr_ser_le & [ STEM < "nato" >, SYNSEM.LKEYS.KEYREL.PRED "_nato_a_rel" ]. natural_a1 := a_rel_prd_le & [ STEM < "natural" >, SYNSEM.LKEYS.KEYREL.PRED "_natural_a_rel" ]. naturaleza_n1 := n_intr_count_le & [ STEM < "naturaleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_naturaleza_n_rel" ] ]. naturalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "naturalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_naturalidad_n_rel" ] ]. naturalismo_n1 := n_ppcomp_uncount_le & [ STEM < "naturalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_naturalismo_n_rel" ] ]. naturalista_a1 := a_qual_intr_scopal_le & [ STEM < "naturalista" >, SYNSEM.LKEYS.KEYREL.PRED "_naturalista_a_rel" ]. naturalista_n1 := n_intr_count_le & [ STEM < "naturalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_naturalista_n_rel" ] ]. naturalización_n1 := n_trans_le & [ STEM < "naturalización" >, SYNSEM.LKEYS.KEYREL.PRED "_naturalización_n_rel" ]. naturismo_n1 := n_intr_uncount_le & [ STEM < "naturismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_naturismo_n_rel" ] ]. naturista_n1 := n_intr_count_le & [ STEM < "naturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_naturista_n_rel" ] ]. naturopatía_n1 := n_intr_uncount_pl_le & [ STEM < "naturopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_naturopatía_n_rel" ] ]. naufragar_v := v_unacc_perf_le & [ STEM < "naufragar" >, SYNSEM.LKEYS.KEYREL.PRED "_naufragar_v_rel" ]. naufragio_n1 := n_result_intr_le & [ STEM < "naufragio" >, SYNSEM.LKEYS.KEYREL.PRED "_naufragio_n_rel" ]. nauseabundo_a1 := a_qual_intr_scopal_le & [ STEM < "nauseabundo" >, SYNSEM.LKEYS.KEYREL.PRED "_nauseabundo_a_rel" ]. nautófono_n1 := n_intr_count_le & [ STEM < "nautófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nautófono_n_rel" ] ]. nava_n1 := n_intr_count_le & [ STEM < "nava" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_nava_n_rel" ] ]. navaja_n1 := n_intr_count_le & [ STEM < "navaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_navaja_n_rel" ] ]. navajazo_n1 := n_intr_count_le & [ STEM < "navajazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_navajazo_n_rel" ] ]. naval_a1 := a_rel_nonprd_intr_le & [ STEM < "naval" >, SYNSEM.LKEYS.KEYREL.PRED "_naval_a_rel" ]. navarro_a1 := a_rel_prd_le & [ STEM < "navarro" >, SYNSEM.LKEYS.KEYREL.PRED "_navarro_a_rel" ]. navarro_n1 := n_intr_count_le & [ STEM < "navarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_navarro_n_rel" ] ]. nave_n1 := n_intr_count_le & [ STEM < "nave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_nave_n_rel" ] ]. navegabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "navegabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_navegabilidad_n_rel" ] ]. navegable_a1 := a_rel_prd_le & [ STEM < "navegable" >, SYNSEM.LKEYS.KEYREL.PRED "_navegable_a_rel" ]. navegación_n1 := n_result_intr_le & [ STEM < "navegación" >, SYNSEM.LKEYS.KEYREL.PRED "_navegación_n_rel" ]. navegador_n1 := n_intr_count_le & [ STEM < "navegador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_pot, PRED "_navegador_n_rel" ] ]. navegante_n1 := n_intr_count_le & [ STEM < "navegante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_navegante_n_rel" ] ]. navegar_v := v_intr_le & [ STEM < "navegar" >, SYNSEM.LKEYS.KEYREL.PRED "_navegar_v_rel" ]. naveta_n1 := n_intr_count_le & [ STEM < "naveta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_naveta_n_rel" ] ]. navicular_a1 := a_rel_nonprd_intr_le & [ STEM < "navicular" >, SYNSEM.LKEYS.KEYREL.PRED "_navicular_a_rel" ]. navidad_n1 := n_intr_count_le & [ STEM < "navidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_navidad_n_rel" ] ]. navideño_a1 := a_rel_nonprd_intr_le & [ STEM < "navideño" >, SYNSEM.LKEYS.KEYREL.PRED "_navideño_a_rel" ]. naviero_a1 := a_rel_nonprd_intr_le & [ STEM < "naviero" >, SYNSEM.LKEYS.KEYREL.PRED "_naviero_a_rel" ]. naviero_n1 := n_intr_count_le & [ STEM < "naviero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_naviero_n_rel" ] ]. navícula_n1 := n_intr_count_le & [ STEM < "navícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_navícula_n_rel" ] ]. navío_n1 := n_intr_count_le & [ STEM < "navío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_navío_n_rel" ] ]. nazareno_a1 := a_rel_prd_le & [ STEM < "nazareno" >, SYNSEM.LKEYS.KEYREL.PRED "_nazareno_a_rel" ]. nazi_a1 := a_rel_prd_le & [ STEM < "nazi" >, SYNSEM.LKEYS.KEYREL.PRED "_nazi_a_rel" ]. nazi_n1 := n_intr_count_le & [ STEM < "nazi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nazi_n_rel" ] ]. nazificación_n1 := n_trans_le & [ STEM < "nazificación" >, SYNSEM.LKEYS.KEYREL.PRED "_nazificación_n_rel" ]. nazismo_n1 := n_intr_uncount_le & [ STEM < "nazismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nazismo_n_rel" ] ]. neblina_n1 := n_intr_mass_le & [ STEM < "neblina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neblina_n_rel" ] ]. nebral_a1 := a_rel_nonprd_intr_le & [ STEM < "nebral" >, SYNSEM.LKEYS.KEYREL.PRED "_nebral_a_rel" ]. nebulización_n1 := n_trans_le & [ STEM < "nebulización" >, SYNSEM.LKEYS.KEYREL.PRED "_nebulización_n_rel" ]. nebulosa_n1 := n_intr_mass_le & [ STEM < "nebulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_nebulosa_n_rel" ] ]. nebulosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "nebulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nebulosidad_n_rel" ] ]. nebuloso_a1 := a_qual_intr_scopal_le & [ STEM < "nebuloso" >, SYNSEM.LKEYS.KEYREL.PRED "_nebuloso_a_rel" ]. necedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "necedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necedad_n_rel" ] ]. necesariamente_x1 := av_s_spr_le & [ STEM < "necesariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_necesariamente_x_rel" ]. necesariedad_n1 := n_intr_count_le & [ STEM < "necesariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necesariedad_n_rel" ] ]. necesario_a1 := a_qual_intr_scopal_le & [ STEM < "necesario" >, SYNSEM.LKEYS.KEYREL.PRED "_necesario_a_rel" ]. neceser_n1 := n_intr_count_le & [ STEM < "neceser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neceser_n_rel" ] ]. necesidad_n1 := n_ppde_ppcomp_count_le & [ STEM < "necesidad" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_necesidad_n_rel" ] ] ]. necesidad_n2 := n_ppde_cp_prop_fin_mass_le & [ STEM < "necesidad" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG0.SORT abs, PRED "_necesidad_n_rel" ] ] ]. necesitado_n1 := n_intr_count_le & [ STEM < "necesitado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_necesitado_n_rel" ] ]. necesitar_v1 := v_intr_mrkd_np_le & [ STEM < "necesitar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_necesitar_v_rel" ] ]. necesitar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "necesitar" >, SYNSEM.LKEYS.KEYREL.PRED "_necesitar_v_rel" ]. necesitar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "necesitar" >, SYNSEM.LKEYS.KEYREL.PRED "_necesitar_v_rel" ]. necesitar_v4 := v_trans_cp_prop_fin_sub_le & [ STEM < "necesitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_necesitar_v_rel" ] ]. necesitar_v5 := v_trans_np_le & [ STEM < "necesitar" >, SYNSEM.LKEYS.KEYREL.PRED "_necesitar_v_rel" ]. neciamente_x1 := av_s_spr_le & [ STEM < "neciamente" >, SYNSEM.LKEYS.KEYREL.PRED "_neciamente_x_rel" ]. neciamente_x2 := av_i_psthd_spr_le & [ STEM < "neciamente" >, SYNSEM.LKEYS.KEYREL.PRED "_neciamente_x_rel" ]. necrobiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "necrobiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_necrobiótico_a_rel" ]. necrofilia_n1 := n_intr_uncount_le & [ STEM < "necrofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necrofilia_n_rel" ] ]. necroidentificación_n1 := n_trans_le & [ STEM < "necroidentificación" >, SYNSEM.LKEYS.KEYREL.PRED "_necroidentificación_n_rel" ]. necrología_n1 := n_intr_mass_le & [ STEM < "necrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_necrología_n_rel" ] ]. necrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "necrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_necrológico_a_rel" ]. necromancia_n1 := n_intr_uncount_pl_le & [ STEM < "necromancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necromancia_n_rel" ] ]. necropulpectomía_n1 := n_intr_uncount_pl_le & [ STEM < "necropulpectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necropulpectomía_n_rel" ] ]. necropulpotomía_n1 := n_intr_uncount_le & [ STEM < "necropulpotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necropulpotomía_n_rel" ] ]. necrófago_n1 := n_intr_count_le & [ STEM < "necrófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_necrófago_n_rel" ] ]. necrópolis_n1 := n_intr_count_le & [ STEM < "necrópolis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_necrópolis_n_rel" ] ]. necrótico_a1 := a_rel_nonprd_intr_le & [ STEM < "necrótico" >, SYNSEM.LKEYS.KEYREL.PRED "_necrótico_a_rel" ]. nectarina_n1 := n_intr_mass_le & [ STEM < "nectarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nectarina_n_rel" ] ]. neerlandés_a1 := a_rel_prd_le & [ STEM < "neerlandés" >, SYNSEM.LKEYS.KEYREL.PRED "_neerlandés_a_rel" ]. neerlandés_n1 := n_intr_count_le & [ STEM < "neerlandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neerlandés_n_rel" ] ]. nefastamente_x1 := av_i_spr_le & [ STEM < "nefastamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nefastamente_x_rel" ]. nefasto_a1 := a_qual_intr_scopal_le & [ STEM < "nefasto" >, SYNSEM.LKEYS.KEYREL.PRED "_nefasto_a_rel" ]. nefelita_n1 := n_intr_count_le & [ STEM < "nefelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nefelita_n_rel" ] ]. nefelometría_n1 := n_intr_uncount_pl_le & [ STEM < "nefelometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nefelometría_n_rel" ] ]. nefelómetro_n1 := n_intr_count_le & [ STEM < "nefelómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nefelómetro_n_rel" ] ]. nefrita_n1 := n_intr_count_le & [ STEM < "nefrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nefrita_n_rel" ] ]. nefrología_n1 := n_intr_uncount_le & [ STEM < "nefrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nefrología_n_rel" ] ]. nefropatía_n1 := n_intr_uncount_pl_le & [ STEM < "nefropatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nefropatía_n_rel" ] ]. nefrólogo_n1 := n_intr_count_le & [ STEM < "nefrólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nefrólogo_n_rel" ] ]. negación_n1 := n_trans_le & [ STEM < "negación" >, SYNSEM.LKEYS.KEYREL.PRED "_negación_n_rel" ]. negador_n1 := n_subj-nom_le & [ STEM < "negador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_negador_n_rel" ] ]. negar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "negar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_negar_v_rel" ] ]. negar_v2 := v_ditrans*_le & [ STEM < "negar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_negar_v_rel" ] ]. negar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "negar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_negar_v_rel" ] ]. negar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "negar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_negar_v_rel" ] ]. negativamente_x1 := av_i_spr_le & [ STEM < "negativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_negativamente_x_rel" ]. negatividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "negatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negatividad_n_rel" ] ]. negativo_a1 := a_qual_intr_scopal_le & [ STEM < "negativo" >, SYNSEM.LKEYS.KEYREL.PRED "_negativo_a_rel" ]. negativo_n1 := n_intr_count_le & [ STEM < "negativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_negativo_n_rel" ] ]. negator_n1 := n_intr_count_le & [ STEM < "negator" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_negator_n_rel" ] ]. negatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "negatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_negatorio_a_rel" ]. negatoscopio_n1 := n_intr_count_le & [ STEM < "negatoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_negatoscopio_n_rel" ] ]. negatrón_n1 := n_intr_count_le & [ STEM < "negatrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_negatrón_n_rel" ] ]. negligencia_n1 := n_intr_mass_le & [ STEM < "negligencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negligencia_n_rel" ] ]. negligente_a1 := a_qual_intr_ser_le & [ STEM < "negligente" >, SYNSEM.LKEYS.KEYREL.PRED "_negligente_a_rel" ]. negligentemente_x1 := av_i_spr_le & [ STEM < "negligentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_negligentemente_x_rel" ]. negligible_a1 := a_rel_prd_le & [ STEM < "negligible" >, SYNSEM.LKEYS.KEYREL.PRED "_negligible_a_rel" ]. negligir_v := v_trans_np_le & [ STEM < "negligir" >, SYNSEM.LKEYS.KEYREL.PRED "_negligir_v_rel" ]. negociable_a1 := a_rel_prd_le & [ STEM < "negociable" >, SYNSEM.LKEYS.KEYREL.PRED "_negociable_a_rel" ]. negociación_n1 := n_trans_le & [ STEM < "negociación" >, SYNSEM.LKEYS.KEYREL.PRED "_negociación_n_rel" ]. negociado_n1 := n_intr_count_le & [ STEM < "negociado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_negociado_n_rel" ] ]. negociador_a1 := a_rel_nonprd_intr_le & [ STEM < "negociador" >, SYNSEM.LKEYS.KEYREL.PRED "_negociador_a_rel" ]. negociador_n1 := n_subj-nom_le & [ STEM < "negociador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_negociador_n_rel" ] ]. negocial_a1 := a_rel_nonprd_intr_le & [ STEM < "negocial" >, SYNSEM.LKEYS.KEYREL.PRED "_negocial_a_rel" ]. negociante_n1 := n_intr_count_le & [ STEM < "negociante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_negociante_n_rel" ] ]. negociar_v1 := v_intr_mrkd_np_le & [ STEM < "negociar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_negociar_v_rel" ] ]. negociar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "negociar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_negociar_v_rel" ] ]. negociar_v3 := v_trans_np*_le & [ STEM < "negociar" >, SYNSEM.LKEYS.KEYREL.PRED "_negociar_v_rel" ]. negocio_n1 := n_intr_mass_le & [ STEM < "negocio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_negocio_n_rel" ] ]. negral_a1 := a_qual_intr_scopal_le & [ STEM < "negral" >, SYNSEM.LKEYS.KEYREL.PRED "_negral_a_rel" ]. negrero_n1 := n_intr_count_le & [ STEM < "negrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_negrero_n_rel" ] ]. negro_a1 := a_qual_intr_ser_le & [ STEM < "negro" >, SYNSEM.LKEYS.KEYREL.PRED "_negro_a_rel" ]. negroide_a1 := a_rel_nonprd_intr_le & [ STEM < "negroide" >, SYNSEM.LKEYS.KEYREL.PRED "_negroide_a_rel" ]. negrura_n1 := n_ppcomp_uncount_le & [ STEM < "negrura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negrura_n_rel" ] ]. negruzco_a1 := a_qual_intr_ser_le & [ STEM < "negruzco" >, SYNSEM.LKEYS.KEYREL.PRED "_negruzco_a_rel" ]. nematicida_n1 := n_intr_count_le & [ STEM < "nematicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nematicida_n_rel" ] ]. nematocida_n1 := n_intr_count_le & [ STEM < "nematocida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_nematocida_n_rel" ] ]. nematodo_n1 := n_intr_count_le & [ STEM < "nematodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_nematodo_n_rel" ] ]. nemotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "nemotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_nemotécnico_a_rel" ]. nene_n1 := n_intr_count_le & [ STEM < "nene" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nene_n_rel" ] ]. nenúfar_n1 := n_intr_count_le & [ STEM < "nenúfar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nenúfar_n_rel" ] ]. neoantígeno_n1 := n_intr_count_le & [ STEM < "neoantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neoantígeno_n_rel" ] ]. neoarsfenamina_n1 := n_intr_count_le & [ STEM < "neoarsfenamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neoarsfenamina_n_rel" ] ]. neocapitalismo_n1 := n_intr_uncount_le & [ STEM < "neocapitalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neocapitalismo_n_rel" ] ]. neocapitalista_a1 := a_rel_nonprd_intr_le & [ STEM < "neocapitalista" >, SYNSEM.LKEYS.KEYREL.PRED "_neocapitalista_a_rel" ]. neocelandés_a1 := a_rel_prd_le & [ STEM < "neocelandés" >, SYNSEM.LKEYS.KEYREL.PRED "_neocelandés_a_rel" ]. neocelandés_n1 := n_intr_count_le & [ STEM < "neocelandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neocelandés_n_rel" ] ]. neocerebelo_n1 := n_ppcomp_count_le & [ STEM < "neocerebelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_neocerebelo_n_rel" ] ]. neocincófeno_n1 := n_intr_count_le & [ STEM < "neocincófeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neocincófeno_n_rel" ] ]. neoclasicismo_n1 := n_intr_uncount_le & [ STEM < "neoclasicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoclasicismo_n_rel" ] ]. neoclásico_a1 := a_rel_prd_le & [ STEM < "neoclásico" >, SYNSEM.LKEYS.KEYREL.PRED "_neoclásico_a_rel" ]. neocolonialismo_n1 := n_intr_uncount_le & [ STEM < "neocolonialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neocolonialismo_n_rel" ] ]. neoconductismo_n1 := n_intr_uncount_le & [ STEM < "neoconductismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoconductismo_n_rel" ] ]. neocriticismo_n1 := n_intr_uncount_le & [ STEM < "neocriticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neocriticismo_n_rel" ] ]. neocórtex_n1 := n_ppcomp_count_le & [ STEM < "neocórtex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_neocórtex_n_rel" ] ]. neodarwinismo_n1 := n_intr_uncount_le & [ STEM < "neodarwinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neodarwinismo_n_rel" ] ]. neodimio_n1 := n_intr_mass_le & [ STEM < "neodimio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neodimio_n_rel" ] ]. neoevolucionismo_n1 := n_intr_uncount_le & [ STEM < "neoevolucionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoevolucionismo_n_rel" ] ]. neofascismo_n1 := n_intr_uncount_le & [ STEM < "neofascismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neofascismo_n_rel" ] ]. neofascista_a1 := a_rel_nonprd_intr_le & [ STEM < "neofascista" >, SYNSEM.LKEYS.KEYREL.PRED "_neofascista_a_rel" ]. neoformación_n1 := n_intr_count_le & [ STEM < "neoformación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoformación_n_rel" ] ]. neogramático_n1 := n_intr_count_le & [ STEM < "neogramático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neogramático_n_rel" ] ]. neohexano_n1 := n_intr_count_le & [ STEM < "neohexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neohexano_n_rel" ] ]. neohilomio_n1 := n_intr_count_le & [ STEM < "neohilomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_neohilomio_n_rel" ] ]. neokeynesianismo_n1 := n_intr_uncount_le & [ STEM < "neokeynesianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neokeynesianismo_n_rel" ] ]. neoliberal_a1 := a_rel_nonprd_intr_le & [ STEM < "neoliberal" >, SYNSEM.LKEYS.KEYREL.PRED "_neoliberal_a_rel" ]. neoliberal_n1 := n_intr_count_le & [ STEM < "neoliberal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoliberal_n_rel" ] ]. neoliberalismo_n1 := n_intr_uncount_le & [ STEM < "neoliberalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoliberalismo_n_rel" ] ]. neolingüista_n1 := n_intr_count_le & [ STEM < "neolingüista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neolingüista_n_rel" ] ]. neolocal_a1 := a_rel_nonprd_intr_le & [ STEM < "neolocal" >, SYNSEM.LKEYS.KEYREL.PRED "_neolocal_a_rel" ]. neolocalidad_n1 := n_intr_uncount_le & [ STEM < "neolocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neolocalidad_n_rel" ] ]. neologismo_n1 := n_intr_count_le & [ STEM < "neologismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neologismo_n_rel" ] ]. neología_n1 := n_intr_uncount_pl_le & [ STEM < "neología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neología_n_rel" ] ]. neolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "neolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_neolítico_a_rel" ]. neológico_a1 := a_rel_nonprd_intr_le & [ STEM < "neológico" >, SYNSEM.LKEYS.KEYREL.PRED "_neológico_a_rel" ]. neomalthusianismo_n1 := n_intr_uncount_le & [ STEM < "neomalthusianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neomalthusianismo_n_rel" ] ]. neomaltusianismo_n1 := n_intr_uncount_le & [ STEM < "neomaltusianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neomaltusianismo_n_rel" ] ]. neomicina_n1 := n_intr_count_le & [ STEM < "neomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neomicina_n_rel" ] ]. neonatal_a1 := a_rel_nonprd_intr_le & [ STEM < "neonatal" >, SYNSEM.LKEYS.KEYREL.PRED "_neonatal_a_rel" ]. neonazi_a1 := a_rel_nonprd_intr_le & [ STEM < "neonazi" >, SYNSEM.LKEYS.KEYREL.PRED "_neonazi_a_rel" ]. neonazi_n1 := n_intr_count_le & [ STEM < "neonazi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neonazi_n_rel" ] ]. neopalio_n1 := n_ppcomp_count_le & [ STEM < "neopalio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_neopalio_n_rel" ] ]. neoplasma_n1 := n_intr_count_le & [ STEM < "neoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neoplasma_n_rel" ] ]. neopositivismo_n1 := n_intr_uncount_le & [ STEM < "neopositivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neopositivismo_n_rel" ] ]. neopreno_n1 := n_intr_count_le & [ STEM < "neopreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neopreno_n_rel" ] ]. neoprofesional_n1 := n_intr_count_le & [ STEM < "neoprofesional" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neoprofesional_n_rel" ] ]. neorrealismo_n1 := n_intr_uncount_le & [ STEM < "neorrealismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neorrealismo_n_rel" ] ]. neorromanticismo_n1 := n_intr_uncount_le & [ STEM < "neorromanticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neorromanticismo_n_rel" ] ]. neostigmina_n1 := n_intr_count_le & [ STEM < "neostigmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neostigmina_n_rel" ] ]. neotetraco_n1 := n_intr_count_le & [ STEM < "neotetraco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_neotetraco_n_rel" ] ]. neotropical_a1 := a_rel_nonprd_intr_le & [ STEM < "neotropical" >, SYNSEM.LKEYS.KEYREL.PRED "_neotropical_a_rel" ]. neovascular_a1 := a_rel_nonprd_intr_le & [ STEM < "neovascular" >, SYNSEM.LKEYS.KEYREL.PRED "_neovascular_a_rel" ]. neoyorkino_a1 := a_rel_prd_le & [ STEM < "neoyorkino" >, SYNSEM.LKEYS.KEYREL.PRED "_neoyorkino_a_rel" ]. neoyorquino_a1 := a_rel_prd_le & [ STEM < "neoyorquino" >, SYNSEM.LKEYS.KEYREL.PRED "_neoyorquino_a_rel" ]. neoyorquino_n1 := n_intr_count_le & [ STEM < "neoyorquino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neoyorquino_n_rel" ] ]. neozelandés_a1 := a_rel_prd_le & [ STEM < "neozelandés" >, SYNSEM.LKEYS.KEYREL.PRED "_neozelandés_a_rel" ]. neozelandés_n1 := n_intr_count_le & [ STEM < "neozelandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neozelandés_n_rel" ] ]. nepalés_a1 := a_rel_prd_le & [ STEM < "nepalés" >, SYNSEM.LKEYS.KEYREL.PRED "_nepalés_a_rel" ]. nepalés_n1 := n_intr_count_le & [ STEM < "nepalés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nepalés_n_rel" ] ]. neperianamente_x1 := av_i_spr_le & [ STEM < "neperianamente" >, SYNSEM.LKEYS.KEYREL.PRED "_neperianamente_x_rel" ]. neperiano_a1 := a_rel_nonprd_intr_le & [ STEM < "neperiano" >, SYNSEM.LKEYS.KEYREL.PRED "_neperiano_a_rel" ]. nepotismo_n1 := n_intr_uncount_le & [ STEM < "nepotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nepotismo_n_rel" ] ]. neptunio_n1 := n_intr_mass_le & [ STEM < "neptunio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neptunio_n_rel" ] ]. neptunismo_n1 := n_intr_uncount_le & [ STEM < "neptunismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neptunismo_n_rel" ] ]. nepómetro_n1 := n_intr_count_le & [ STEM < "nepómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nepómetro_n_rel" ] ]. nervado_a1 := a_rel_nonprd_intr_le & [ STEM < "nervado" >, SYNSEM.LKEYS.KEYREL.PRED "_nervado_a_rel" ]. nervadura_n1 := n_intr_mass_le & [ STEM < "nervadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nervadura_n_rel" ] ]. nervio_n1 := n_intr_count_le & [ STEM < "nervio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_nervio_n_rel" ] ]. nerviosamente_x1 := av_i_spr_le & [ STEM < "nerviosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nerviosamente_x_rel" ]. nerviosismo_n1 := n_intr_uncount_le & [ STEM < "nerviosismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nerviosismo_n_rel" ] ]. nervioso_a1 := a_qual_intr_ser_le & [ STEM < "nervioso" >, SYNSEM.LKEYS.KEYREL.PRED "_nervioso_a_rel" ]. nerítico_a1 := a_rel_nonprd_intr_le & [ STEM < "nerítico" >, SYNSEM.LKEYS.KEYREL.PRED "_nerítico_a_rel" ]. nesosilicato_n1 := n_intr_count_le & [ STEM < "nesosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nesosilicato_n_rel" ] ]. netamente_x1 := av_i_spr_le & [ STEM < "netamente" >, SYNSEM.LKEYS.KEYREL.PRED "_netamente_x_rel" ]. neto_a1 := a_rel_nonprd_intr_le & [ STEM < "neto" >, SYNSEM.LKEYS.KEYREL.PRED "_neto_a_rel" ]. neumatización_n1 := n_intr_uncount_le & [ STEM < "neumatización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neumatización_n_rel" ] ]. neumogástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "neumogástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_neumogástrico_a_rel" ]. neumonía_n1 := n_intr_uncount_pl_le & [ STEM < "neumonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neumonía_n_rel" ] ]. neumático_a1 := a_rel_nonprd_intr_le & [ STEM < "neumático" >, SYNSEM.LKEYS.KEYREL.PRED "_neumático_a_rel" ]. neumático_n1 := n_intr_mass_le & [ STEM < "neumático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neumático_n_rel" ] ]. neural_a1 := a_rel_nonprd_intr_le & [ STEM < "neural" >, SYNSEM.LKEYS.KEYREL.PRED "_neural_a_rel" ]. neurasténico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurasténico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurasténico_a_rel" ]. neurectomía_n1 := n_intr_uncount_pl_le & [ STEM < "neurectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurectomía_n_rel" ] ]. neurina_n1 := n_intr_count_le & [ STEM < "neurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neurina_n_rel" ] ]. neurita_n1 := n_intr_count_le & [ STEM < "neurita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurita_n_rel" ] ]. neuroblasto_n1 := n_intr_count_le & [ STEM < "neuroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neuroblasto_n_rel" ] ]. neurociencia_n1 := n_intr_uncount_pl_le & [ STEM < "neurociencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurociencia_n_rel" ] ]. neurocito_n1 := n_intr_count_le & [ STEM < "neurocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurocito_n_rel" ] ]. neurocomputación_n1 := n_intr_uncount_le & [ STEM < "neurocomputación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurocomputación_n_rel" ] ]. neurocronáxico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurocronáxico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurocronáxico_a_rel" ]. neurocráneo_n1 := n_ppcomp_count_le & [ STEM < "neurocráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_neurocráneo_n_rel" ] ]. neurodegenerativo_a1 := a_rel_nonprd_intr_le & [ STEM < "neurodegenerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_neurodegenerativo_a_rel" ]. neuroeje_n1 := n_intr_count_le & [ STEM < "neuroeje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neuroeje_n_rel" ] ]. neuroepitelio_n1 := n_ppcomp_count_le & [ STEM < "neuroepitelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_neuroepitelio_n_rel" ] ]. neurofibrilla_n1 := n_intr_count_le & [ STEM < "neurofibrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurofibrilla_n_rel" ] ]. neurofilamento_n1 := n_intr_count_le & [ STEM < "neurofilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurofilamento_n_rel" ] ]. neurofísico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurofísico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurofísico_a_rel" ]. neuroglia_n1 := n_intr_count_le & [ STEM < "neuroglia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neuroglia_n_rel" ] ]. neuroglial_a1 := a_rel_nonprd_intr_le & [ STEM < "neuroglial" >, SYNSEM.LKEYS.KEYREL.PRED "_neuroglial_a_rel" ]. neurohumoral_a1 := a_rel_nonprd_intr_le & [ STEM < "neurohumoral" >, SYNSEM.LKEYS.KEYREL.PRED "_neurohumoral_a_rel" ]. neurología_n1 := n_intr_uncount_le & [ STEM < "neurología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurología_n_rel" ] ]. neurológico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurológico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurológico_a_rel" ]. neuromediador_n1 := n_intr_count_le & [ STEM < "neuromediador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neuromediador_n_rel" ] ]. neuromuscular_a1 := a_rel_nonprd_intr_le & [ STEM < "neuromuscular" >, SYNSEM.LKEYS.KEYREL.PRED "_neuromuscular_a_rel" ]. neurona_n1 := n_intr_count_le & [ STEM < "neurona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurona_n_rel" ] ]. neuronal_a1 := a_rel_nonprd_intr_le & [ STEM < "neuronal" >, SYNSEM.LKEYS.KEYREL.PRED "_neuronal_a_rel" ]. neuroparalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "neuroparalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_neuroparalítico_a_rel" ]. neuropatía_n1 := n_intr_uncount_pl_le & [ STEM < "neuropatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuropatía_n_rel" ] ]. neuropsicología_n1 := n_intr_uncount_le & [ STEM < "neuropsicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuropsicología_n_rel" ] ]. neuroqueratina_n1 := n_intr_count_le & [ STEM < "neuroqueratina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neuroqueratina_n_rel" ] ]. neuroquirúrgico_a1 := a_rel_nonprd_intr_le & [ STEM < "neuroquirúrgico" >, SYNSEM.LKEYS.KEYREL.PRED "_neuroquirúrgico_a_rel" ]. neurosensorial_a1 := a_rel_nonprd_intr_le & [ STEM < "neurosensorial" >, SYNSEM.LKEYS.KEYREL.PRED "_neurosensorial_a_rel" ]. neurotizar_v := v_trans_np_caus_le & [ STEM < "neurotizar" >, SYNSEM.LKEYS.KEYREL.PRED "_neurotizar_v_rel" ]. neurotransmisor_n1 := n_intr_count_le & [ STEM < "neurotransmisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neurotransmisor_n_rel" ] ]. neurovascular_a1 := a_rel_nonprd_intr_le & [ STEM < "neurovascular" >, SYNSEM.LKEYS.KEYREL.PRED "_neurovascular_a_rel" ]. neurulación_n1 := n_intr_uncount_le & [ STEM < "neurulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurulación_n_rel" ] ]. neurálgico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurálgico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurálgico_a_rel" ]. neurógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "neurógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_neurógeno_a_rel" ]. neurólogo_n1 := n_intr_count_le & [ STEM < "neurólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neurólogo_n_rel" ] ]. neuróptero_n1 := n_intr_count_le & [ STEM < "neuróptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_neuróptero_n_rel" ] ]. neuróticamente_x1 := av_i_spr_le & [ STEM < "neuróticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_neuróticamente_x_rel" ]. neurótico_a1 := a_rel_nonprd_intr_le & [ STEM < "neurótico" >, SYNSEM.LKEYS.KEYREL.PRED "_neurótico_a_rel" ]. neurótico_n1 := n_intr_count_le & [ STEM < "neurótico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neurótico_n_rel" ] ]. neutral_a1 := a_qual_intr_scopal_le & [ STEM < "neutral" >, SYNSEM.LKEYS.KEYREL.PRED "_neutral_a_rel" ]. neutralidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "neutralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neutralidad_n_rel" ] ]. neutralismo_n1 := n_intr_uncount_le & [ STEM < "neutralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neutralismo_n_rel" ] ]. neutralista_a1 := a_rel_nonprd_intr_le & [ STEM < "neutralista" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralista_a_rel" ]. neutralizable_a1 := a_rel_prd_le & [ STEM < "neutralizable" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralizable_a_rel" ]. neutralización_n1 := n_trans_le & [ STEM < "neutralización" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralización_n_rel" ]. neutralizador_n1 := n_subj-nom_le & [ STEM < "neutralizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neutralizador_n_rel" ] ]. neutralizar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "neutralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralizar_v_rel" ]. neutralizar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "neutralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralizar_v_rel" ]. neutralizar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "neutralizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_neutralizar_v_rel" ] ]. neutralizar_v4 := v_trans_np_le & [ STEM < "neutralizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_neutralizar_v_rel" ] ]. neutralmente_x1 := av_i_spr_le & [ STEM < "neutralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_neutralmente_x_rel" ]. neutrino_n1 := n_intr_count_le & [ STEM < "neutrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neutrino_n_rel" ] ]. neutro_a1 := a_rel_prd_le & [ STEM < "neutro" >, SYNSEM.LKEYS.KEYREL.PRED "_neutro_a_rel" ]. neutrófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "neutrófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_neutrófilo_a_rel" ]. neutrófilo_n1 := n_intr_count_le & [ STEM < "neutrófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neutrófilo_n_rel" ] ]. neutrón_n1 := n_intr_count_le & [ STEM < "neutrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neutrón_n_rel" ] ]. nevada_n1 := n_intr_count_le & [ STEM < "nevada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_nevada_n_rel" ] ]. nevar_v := v_intr_le & [ STEM < "nevar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT mat, PRED "_nevar_v_rel" ] ]. nevera_n1 := n_intr_count_le & [ STEM < "nevera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nevera_n_rel" ] ]. nevero_n1 := n_intr_count_le & [ STEM < "nevero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_nevero_n_rel" ] ]. neviza_n1 := n_intr_count_le & [ STEM < "neviza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_neviza_n_rel" ] ]. newton_n := n_intr_count_le & [ STEM < "newton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_newton_n_rel" ] ]. newtoniano_a1 := a_rel_nonprd_intr_le & [ STEM < "newtoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_newtoniano_a_rel" ]. neófito_n1 := n_intr_count_le & [ STEM < "neófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_neófito_n_rel" ] ]. neón_n1 := n_intr_mass_le & [ STEM < "neón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_neón_n_rel" ] ]. ni_a_la_de_tres_x1 := av_i_le & [ STEM < "ni_a_la_de_tres" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_a_la_de_tres_x_rel" ]. ni_a_tiros_x1 := av_i_le & [ STEM < "ni_a_tiros" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_a_tiros_x_rel" ]. ni_aún_x1 := av_i_le & [ STEM < "ni_aún" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_aún_x_rel" ]. ni_cc1 := cc_cop_ni_le & [ STEM < "ni" > ]. ni_cc2 := cc_cop_ni-ni_le & [ STEM < "ni" > ]. ni_corto_ni_perezoso_x1 := av_i_le & [ STEM < "ni_corto_ni_perezoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_corto_ni_perezoso_x_rel" ]. ni_fu_ni_fa_x1 := av_i_le & [ STEM < "ni_fu_ni_fa" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_fu_ni_fa_x_rel" ]. ni_hablar_de_el_peluquín_x1 := av_i_le & [ STEM < "ni_hablar_del_peluquín" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_hablar_del_peluquín_x_rel" ]. ni_mucho_menos_x1 := av_i_le & [ STEM < "ni_mucho_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_mucho_menos_x_rel" ]. ni_más_ni_menos_x1 := av_i_le & [ STEM < "ni_más_ni_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_más_ni_menos_x_rel" ]. ni_que_decir_tiene_x1 := av_i_le & [ STEM < "ni_que_decir_tiene" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_que_decir_tiene_x_rel" ]. ni_que_sc := sc_prop_fin_le & [ STEM < "ni_que" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_que_x_subord_rel" ]. ni_remotamente_x1 := av_i_le & [ STEM < "ni_remotamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_remotamente_x_rel" ]. ni_rey_ni_roque_x1 := av_i_le & [ STEM < "ni_rey_ni_roque" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_rey_ni_roque_x_rel" ]. ni_suena_ni_truena_x1 := av_i_le & [ STEM < "ni_suena_ni_truena" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_suena_ni_truena_x_rel" ]. ni_tan_sólo_x1 := av_i_le & [ STEM < "ni_tan_sólo" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_tan_sólo_x_rel" ]. ni_tanto_así_x1 := av_i_le & [ STEM < "ni_tanto_así" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_tanto_así_x_rel" ]. ni_tanto_ni_tan_calvo_x1 := av_i_le & [ STEM < "ni_tanto_ni_tan_calvo" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_tanto_ni_tan_calvo_x_rel" ]. ni_tanto_ni_tan_poco_x1 := av_i_le & [ STEM < "ni_tanto_ni_tan_poco" >, SYNSEM.LKEYS.KEYREL.PRED "_ni_tanto_ni_tan_poco_x_rel" ]. nicaragã¼ense_a1 := a_rel_prd_le & [ STEM < "nicaragüense" >, SYNSEM.LKEYS.KEYREL.PRED "_nicaragüense_a_rel" ]. nicaragüense_n1 := n_intr_count_le & [ STEM < "nicaragüense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nicaragüense_n_rel" ] ]. nicho_n1 := n_intr_count_le & [ STEM < "nicho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_nicho_n_rel" ] ]. nicolita_n1 := n_intr_count_le & [ STEM < "nicolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nicolita_n_rel" ] ]. nicotina_n1 := n_intr_mass_le & [ STEM < "nicotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nicotina_n_rel" ] ]. nicotinamida_n1 := n_intr_count_le & [ STEM < "nicotinamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nicotinamida_n_rel" ] ]. nicotínico_a1 := a_rel_nonprd_intr_le & [ STEM < "nicotínico" >, SYNSEM.LKEYS.KEYREL.PRED "_nicotínico_a_rel" ]. nictalopía_n1 := n_intr_uncount_le & [ STEM < "nictalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nictalopía_n_rel" ] ]. nictálope_a1 := a_rel_prd_le & [ STEM < "nictálope" >, SYNSEM.LKEYS.KEYREL.PRED "_nictálope_a_rel" ]. nidación_n1 := n_intr_count_le & [ STEM < "nidación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nidación_n_rel" ] ]. nidada_n1 := n_intr_count_le & [ STEM < "nidada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nidada_n_rel" ] ]. nidal_n1 := n_intr_count_le & [ STEM < "nidal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_nidal_n_rel" ] ]. nidificar_v := v_unacc_lcomp_loc*_le & [ STEM < "nidificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani, PRED "_nidificar_v_rel" ] ]. nido_n1 := n_intr_count_le & [ STEM < "nido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nido_n_rel" ] ]. niebla_n1 := n_intr_mass_le & [ STEM < "niebla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_niebla_n_rel" ] ]. nietecito_n1 := n_intr_count_le & [ STEM < "nietecito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nietecito_n_rel" ] ]. nieto_n1 := n_ppcomp_count_le & [ STEM < "nieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nieto_n_rel" ] ]. nieve_n1 := n_intr_mass_le & [ STEM < "nieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nieve_n_rel" ] ]. nigeriano_a1 := a_rel_prd_le & [ STEM < "nigeriano" >, SYNSEM.LKEYS.KEYREL.PRED "_nigeriano_a_rel" ]. nigeriano_n1 := n_intr_count_le & [ STEM < "nigeriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nigeriano_n_rel" ] ]. nigromancia_n1 := n_intr_uncount_pl_le & [ STEM < "nigromancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nigromancia_n_rel" ] ]. nigrosina_n1 := n_intr_count_le & [ STEM < "nigrosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nigrosina_n_rel" ] ]. nihilismo_n1 := n_intr_uncount_le & [ STEM < "nihilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nihilismo_n_rel" ] ]. nihilista_a1 := a_qual_intr_ser_le & [ STEM < "nihilista" >, SYNSEM.LKEYS.KEYREL.PRED "_nihilista_a_rel" ]. nimbo_n1 := n_intr_count_le & [ STEM < "nimbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nimbo_n_rel" ] ]. nimboestrato_n1 := n_intr_count_le & [ STEM < "nimboestrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nimboestrato_n_rel" ] ]. nimbostrato_n1 := n_intr_count_le & [ STEM < "nimbostrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nimbostrato_n_rel" ] ]. nimiamente_x1 := av_i_spr_le & [ STEM < "nimiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nimiamente_x_rel" ]. nimiedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "nimiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nimiedad_n_rel" ] ]. nimio_a1 := a_qual_intr_scopal_le & [ STEM < "nimio" >, SYNSEM.LKEYS.KEYREL.PRED "_nimio_a_rel" ]. ninfa_n1 := n_intr_count_le & [ STEM < "ninfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ninfa_n_rel" ] ]. ninfeo_n1 := n_intr_count_le & [ STEM < "ninfeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ninfeo_n_rel" ] ]. ninfomanía_n1 := n_intr_uncount_le & [ STEM < "ninfomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ninfomanía_n_rel" ] ]. ninfómana_n1 := n_intr_count_le & [ STEM < "ninfómana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ninfómana_n_rel" ] ]. ninfómano_a1 := a_qual_intr_ser_le & [ STEM < "ninfómano" >, SYNSEM.LKEYS.KEYREL.PRED "_ninfómano_a_rel" ]. ninguno_d := d_qnt-indf_ning_le & [ STEM < "ninguno" > ]. ninguno_p := pr_part_ning_le & [ STEM < "ninguno" > ]. niobato_n1 := n_intr_count_le & [ STEM < "niobato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_niobato_n_rel" ] ]. niobio_n1 := n_intr_mass_le & [ STEM < "niobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_niobio_n_rel" ] ]. nipón_a1 := a_rel_prd_le & [ STEM < "nipón" >, SYNSEM.LKEYS.KEYREL.PRED "_nipón_a_rel" ]. niquelado_n1 := n_trans_le & [ STEM < "niquelado" >, SYNSEM.LKEYS.KEYREL.PRED "_niquelado_n_rel" ]. niquelar_v := v_trans_np_le & [ STEM < "niquelar" >, SYNSEM.LKEYS.KEYREL.PRED "_niquelar_v_rel" ]. niquelina_n1 := n_intr_count_le & [ STEM < "niquelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_niquelina_n_rel" ] ]. niquelizar_v := v_trans_np_le & [ STEM < "niquelizar" >, SYNSEM.LKEYS.KEYREL.PRED "_niquelizar_v_rel" ]. niquelífero_a1 := a_rel_nonprd_intr_le & [ STEM < "niquelífero" >, SYNSEM.LKEYS.KEYREL.PRED "_niquelífero_a_rel" ]. niquetamida_n1 := n_intr_count_le & [ STEM < "niquetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_niquetamida_n_rel" ] ]. nistagmógrafo_n1 := n_intr_count_le & [ STEM < "nistagmógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nistagmógrafo_n_rel" ] ]. nistágmico_a1 := a_rel_nonprd_intr_le & [ STEM < "nistágmico" >, SYNSEM.LKEYS.KEYREL.PRED "_nistágmico_a_rel" ]. nitidez_n1 := n_ppcomp_uncount_le & [ STEM < "nitidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nitidez_n_rel" ] ]. nitosol_n1 := n_intr_count_le & [ STEM < "nitosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitosol_n_rel" ] ]. nitración_n1 := n_trans_le & [ STEM < "nitración" >, SYNSEM.LKEYS.KEYREL.PRED "_nitración_n_rel" ]. nitradora_n1 := n_intr_count_le & [ STEM < "nitradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nitradora_n_rel" ] ]. nitratar_v := v_trans_np_le & [ STEM < "nitratar" >, SYNSEM.LKEYS.KEYREL.PRED "_nitratar_v_rel" ]. nitrato_n1 := n_intr_count_le & [ STEM < "nitrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrato_n_rel" ] ]. nitrificación_n1 := n_trans_le & [ STEM < "nitrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrificación_n_rel" ]. nitrificante_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrificante" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrificante_a_rel" ]. nitrilo_n1 := n_intr_count_le & [ STEM < "nitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrilo_n_rel" ] ]. nitrito_n1 := n_intr_count_le & [ STEM < "nitrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrito_n_rel" ] ]. nitro_n1 := n_intr_mass_le & [ STEM < "nitro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitro_n_rel" ] ]. nitroacetanilida_n1 := n_intr_count_le & [ STEM < "nitroacetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroacetanilida_n_rel" ] ]. nitroalmidón_n1 := n_intr_mass-or-count_le & [ STEM < "nitroalmidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_nitroalmidón_n_rel" ] ]. nitroaminofenol_n1 := n_intr_count_le & [ STEM < "nitroaminofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroaminofenol_n_rel" ] ]. nitroanilina_n1 := n_intr_count_le & [ STEM < "nitroanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroanilina_n_rel" ] ]. nitroanisol_n1 := n_intr_count_le & [ STEM < "nitroanisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroanisol_n_rel" ] ]. nitrobenceno_n1 := n_intr_count_le & [ STEM < "nitrobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrobenceno_n_rel" ] ]. nitrobencenoazorresorcina_n1 := n_intr_count_le & [ STEM < "nitrobencenoazorresorcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrobencenoazorresorcina_n_rel" ] ]. nitrobenzaldehído_n1 := n_intr_mass_le & [ STEM < "nitrobenzaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrobenzaldehído_n_rel" ] ]. nitrobenzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrobenzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrobenzoico_a_rel" ]. nitrobifenilo_n1 := n_intr_count_le & [ STEM < "nitrobifenilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrobifenilo_n_rel" ] ]. nitrocelulosa_n1 := n_intr_count_le & [ STEM < "nitrocelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nitrocelulosa_n_rel" ] ]. nitrodifenilamina_n1 := n_intr_count_le & [ STEM < "nitrodifenilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrodifenilamina_n_rel" ] ]. nitroestireno_n1 := n_intr_count_le & [ STEM < "nitroestireno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroestireno_n_rel" ] ]. nitroetano_n1 := n_intr_count_le & [ STEM < "nitroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroetano_n_rel" ] ]. nitrofenetol_n1 := n_intr_count_le & [ STEM < "nitrofenetol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrofenetol_n_rel" ] ]. nitrofenida_n1 := n_intr_count_le & [ STEM < "nitrofenida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrofenida_n_rel" ] ]. nitrofenilacético_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrofenilacético" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrofenilacético_a_rel" ]. nitrofenol_n1 := n_intr_count_le & [ STEM < "nitrofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrofenol_n_rel" ] ]. nitroferricianuro_n1 := n_intr_count_le & [ STEM < "nitroferricianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroferricianuro_n_rel" ] ]. nitrofurantoína_n1 := n_intr_count_le & [ STEM < "nitrofurantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrofurantoína_n_rel" ] ]. nitrofurazona_n1 := n_intr_count_le & [ STEM < "nitrofurazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrofurazona_n_rel" ] ]. nitrogenasa_n1 := n_intr_count_le & [ STEM < "nitrogenasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrogenasa_n_rel" ] ]. nitroglicerina_n1 := n_intr_count_le & [ STEM < "nitroglicerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroglicerina_n_rel" ] ]. nitroguanidina_n1 := n_intr_count_le & [ STEM < "nitroguanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroguanidina_n_rel" ] ]. nitrogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrogénico_a_rel" ]. nitromersol_n1 := n_intr_count_le & [ STEM < "nitromersol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitromersol_n_rel" ] ]. nitrometano_n1 := n_intr_count_le & [ STEM < "nitrometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrometano_n_rel" ] ]. nitronaftaleno_n1 := n_intr_count_le & [ STEM < "nitronaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitronaftaleno_n_rel" ] ]. nitroparacresol_n1 := n_intr_count_le & [ STEM < "nitroparacresol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroparacresol_n_rel" ] ]. nitroparafina_n1 := n_intr_count_le & [ STEM < "nitroparafina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroparafina_n_rel" ] ]. nitropropano_n1 := n_intr_count_le & [ STEM < "nitropropano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitropropano_n_rel" ] ]. nitroprusiato_n1 := n_intr_count_le & [ STEM < "nitroprusiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroprusiato_n_rel" ] ]. nitrosalicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrosalicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrosalicílico_a_rel" ]. nitrosita_n1 := n_intr_count_le & [ STEM < "nitrosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosita_n_rel" ] ]. nitroso_a1 := a_rel_nonprd_intr_le & [ STEM < "nitroso" >, SYNSEM.LKEYS.KEYREL.PRED "_nitroso_a_rel" ]. nitrosodifenilamina_n1 := n_intr_count_le & [ STEM < "nitrosodifenilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosodifenilamina_n_rel" ] ]. nitrosodimetilanilina_n1 := n_intr_count_le & [ STEM < "nitrosodimetilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosodimetilanilina_n_rel" ] ]. nitrosofenol_n1 := n_intr_count_le & [ STEM < "nitrosofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosofenol_n_rel" ] ]. nitrosoguanidina_n1 := n_intr_count_le & [ STEM < "nitrosoguanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosoguanidina_n_rel" ] ]. nitrosonaftol_n1 := n_intr_count_le & [ STEM < "nitrosonaftol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosonaftol_n_rel" ] ]. nitrosulfatiazol_n1 := n_intr_count_le & [ STEM < "nitrosulfatiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrosulfatiazol_n_rel" ] ]. nitrotolueno_n1 := n_intr_count_le & [ STEM < "nitrotolueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrotolueno_n_rel" ] ]. nitrotoluidina_n1 := n_intr_count_le & [ STEM < "nitrotoluidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrotoluidina_n_rel" ] ]. nitrotrifluometilbenzonitrilo_n1 := n_intr_count_le & [ STEM < "nitrotrifluometilbenzonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrotrifluometilbenzonitrilo_n_rel" ] ]. nitrourea_n1 := n_intr_count_le & [ STEM < "nitrourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrourea_n_rel" ] ]. nitroxileno_n1 := n_intr_count_le & [ STEM < "nitroxileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitroxileno_n_rel" ] ]. nitruración_n1 := n_trans_le & [ STEM < "nitruración" >, SYNSEM.LKEYS.KEYREL.PRED "_nitruración_n_rel" ]. nitrurar_v := v_trans_np_le & [ STEM < "nitrurar" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrurar_v_rel" ]. nitruro_n1 := n_intr_mass_le & [ STEM < "nitruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitruro_n_rel" ] ]. nitrófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "nitrófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_nitrófilo_a_rel" ]. nitrógeno_n1 := n_intr_mass_le & [ STEM < "nitrógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nitrógeno_n_rel" ] ]. nitrómetro_n1 := n_intr_count_le & [ STEM < "nitrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nitrómetro_n_rel" ] ]. nitrón_n1 := n_intr_mass-or-count_le & [ STEM < "nitrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_nitrón_n_rel" ] ]. nitómetro_n1 := n_intr_count_le & [ STEM < "nitómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nitómetro_n_rel" ] ]. nival_a1 := a_rel_nonprd_intr_le & [ STEM < "nival" >, SYNSEM.LKEYS.KEYREL.PRED "_nival_a_rel" ]. nivel_n1 := n_intr_count_le & [ STEM < "nivel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mea, PRED "_nivel_n_rel" ] ]. nivelación_n1 := n_trans_le & [ STEM < "nivelación" >, SYNSEM.LKEYS.KEYREL.PRED "_nivelación_n_rel" ]. nivelador_a1 := a_rel_nonprd_intr_le & [ STEM < "nivelador" >, SYNSEM.LKEYS.KEYREL.PRED "_nivelador_a_rel" ]. nivelador_n1 := n_intr_count_le & [ STEM < "nivelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nivelador_n_rel" ] ]. niveladora_n1 := n_intr_count_le & [ STEM < "niveladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_niveladora_n_rel" ] ]. niveladoramente_x1 := av_i_spr_le & [ STEM < "niveladoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_niveladoramente_x_rel" ]. nivelar_v := v_trans_np_mrkd_np*_le & [ STEM < "nivelar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_nivelar_v_rel" ] ]. nivenita_n1 := n_intr_count_le & [ STEM < "nivenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nivenita_n_rel" ] ]. nivómetro_n1 := n_intr_count_le & [ STEM < "nivómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nivómetro_n_rel" ] ]. niñera_n1 := n_ppcomp_count_le & [ STEM < "niñera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_niñera_n_rel" ] ]. niñez_n1 := n_ppcomp_uncount_le & [ STEM < "niñez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_niñez_n_rel" ] ]. niño_n1 := n_intr_count_le & [ STEM < "niño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_niño_n_rel" ] ]. no-sólo_cc := cc_corr_no-sólo_le & [ STEM < "no_sólo" > ]. no_ha_lugar_x1 := av_i_le & [ STEM < "no_ha_lugar" >, SYNSEM.LKEYS.KEYREL.PRED "_no_ha_lugar_x_rel" ]. no_sea_que_sc := sc_prop_fin_le & [ STEM < "no_sea_que" >, SYNSEM.LKEYS.KEYREL.PRED "_no_sea_que_x_subord_rel" ]. no_x1 := av_s_neg_le & [ STEM < "no" >, SYNSEM.LKEYS.KEYREL.PRED "_no_x_rel" ]. nobelio_n1 := n_intr_mass_le & [ STEM < "nobelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nobelio_n_rel" ] ]. noble_a1 := a_qual_intr_scopal_le & [ STEM < "noble" >, SYNSEM.LKEYS.KEYREL.PRED "_noble_a_rel" ]. noble_n1 := n_intr_count_le & [ STEM < "noble" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_noble_n_rel" ] ]. noblemente_x1 := av_i_spr_le & [ STEM < "noblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_noblemente_x_rel" ]. nobleza_n1 := n_intr_mass_le & [ STEM < "nobleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_nobleza_n_rel" ] ]. noche_n1 := n_pseudo-part_temp_le & [ STEM < "noche" >, SYNSEM.LKEYS.KEYREL.PRED "_noche_n_rel" ]. noche_n2 := n_intr_temp_le & [ STEM < "noche" > ]. nochebuena_n1 := n_intr_count_le & [ STEM < "nochebuena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_nochebuena_n_rel" ] ]. nochevieja_n1 := n_intr_count_le & [ STEM < "nochevieja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_nochevieja_n_rel" ] ]. nocional_a1 := a_rel_nonprd_intr_le & [ STEM < "nocional" >, SYNSEM.LKEYS.KEYREL.PRED "_nocional_a_rel" ]. nocivamente_x1 := av_i_spr_le & [ STEM < "nocivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nocivamente_x_rel" ]. nocividad_n1 := n_intr_mass_le & [ STEM < "nocividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nocividad_n_rel" ] ]. nocivo_a1 := a_qual_intr_scopal_le & [ STEM < "nocivo" >, SYNSEM.LKEYS.KEYREL.PRED "_nocivo_a_rel" ]. noción_n1 := n_intr_mass-or-count_le & [ STEM < "noción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noción_n_rel" ] ]. noctambulismo_n1 := n_ppcomp_uncount_le & [ STEM < "noctambulismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noctambulismo_n_rel" ] ]. nocturnidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "nocturnidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nocturnidad_n_rel" ] ]. nocturno_a1 := a_rel_nonprd_intr_le & [ STEM < "nocturno" >, SYNSEM.LKEYS.KEYREL.PRED "_nocturno_a_rel" ]. noctámbulo_n1 := n_intr_count_le & [ STEM < "noctámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_noctámbulo_n_rel" ] ]. nodal_a1 := a_rel_nonprd_intr_le & [ STEM < "nodal" >, SYNSEM.LKEYS.KEYREL.PRED "_nodal_a_rel" ]. nodalmente_x1 := av_i_spr_le & [ STEM < "nodalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_nodalmente_x_rel" ]. nodo_n1 := n_intr_count_le & [ STEM < "nodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_nodo_n_rel" ] ]. nodriza_n1 := n_ppcomp_count_le & [ STEM < "nodriza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nodriza_n_rel" ] ]. nodular_a1 := a_rel_nonprd_intr_le & [ STEM < "nodular" >, SYNSEM.LKEYS.KEYREL.PRED "_nodular_a_rel" ]. nodularmente_x1 := av_i_spr_le & [ STEM < "nodularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_nodularmente_x_rel" ]. noemático_a1 := a_rel_nonprd_intr_le & [ STEM < "noemático" >, SYNSEM.LKEYS.KEYREL.PRED "_noemático_a_rel" ]. nogal_n1 := n_intr_count_le & [ STEM < "nogal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nogal_n_rel" ] ]. nomadismo_n1 := n_ppcomp_uncount_le & [ STEM < "nomadismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nomadismo_n_rel" ] ]. nombramiento_n1 := n_trans_le & [ STEM < "nombramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_nombramiento_n_rel" ]. nombre_de_pila_n1 := n_intr_count_le & [ STEM < "nombre_de_pila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nombre_de_pila_n_rel" ] ]. nombre_n1 := n_intr_count_le & [ STEM < "nombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nombre_n_rel" ] ]. nomenclatura_n1 := n_intr_count_le & [ STEM < "nomenclatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nomenclatura_n_rel" ] ]. nomenclátor_n1 := n_intr_count_le & [ STEM < "nomenclátor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_nomenclátor_n_rel" ] ]. nomeolvides_n1 := n_intr_count_le & [ STEM < "nomeolvides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nomeolvides_n_rel" ] ]. nometoques_n1 := n_intr_count_le & [ STEM < "nometoques" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_nometoques_n_rel" ] ]. nominación_n1 := n_trans_le & [ STEM < "nominación" >, SYNSEM.LKEYS.KEYREL.PRED "_nominación_n_rel" ]. nominador_n1 := n_subj-nom_le & [ STEM < "nominador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nominador_n_rel" ] ]. nominal_a1 := a_rel_nonprd_intr_le & [ STEM < "nominal" >, SYNSEM.LKEYS.KEYREL.PRED "_nominal_a_rel" ]. nominalismo_n1 := n_ppcomp_uncount_le & [ STEM < "nominalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nominalismo_n_rel" ] ]. nominalista_a1 := a_rel_nonprd_intr_le & [ STEM < "nominalista" >, SYNSEM.LKEYS.KEYREL.PRED "_nominalista_a_rel" ]. nominalización_n1 := n_trans_le & [ STEM < "nominalización" >, SYNSEM.LKEYS.KEYREL.PRED "_nominalización_n_rel" ]. nominalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "nominalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_nominalizador_a_rel" ]. nominalizar_v := v_trans_np*_le & [ STEM < "nominalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_nominalizar_v_rel" ]. nominalmente_x1 := av_i_spr_le & [ STEM < "nominalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_nominalmente_x_rel" ]. nominativamente_x1 := av_i_spr_le & [ STEM < "nominativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nominativamente_x_rel" ]. nominativo_a1 := a_rel_nonprd_intr_le & [ STEM < "nominativo" >, SYNSEM.LKEYS.KEYREL.PRED "_nominativo_a_rel" ]. nomografía_n1 := n_intr_uncount_pl_le & [ STEM < "nomografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nomografía_n_rel" ] ]. nomográficamente_x1 := av_i_spr_le & [ STEM < "nomográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nomográficamente_x_rel" ]. nomográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "nomográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_nomográfico_a_rel" ]. nomología_n1 := n_intr_uncount_pl_le & [ STEM < "nomología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nomología_n_rel" ] ]. nomotético_a1 := a_rel_nonprd_intr_le & [ STEM < "nomotético" >, SYNSEM.LKEYS.KEYREL.PRED "_nomotético_a_rel" ]. nomógrafo_n1 := n_intr_count_le & [ STEM < "nomógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nomógrafo_n_rel" ] ]. nomólogo_n1 := n_intr_count_le & [ STEM < "nomólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nomólogo_n_rel" ] ]. nonadecanoato_n1 := n_intr_count_le & [ STEM < "nonadecanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nonadecanoato_n_rel" ] ]. nonagenario_a1 := a_rel_prd_le & [ STEM < "nonagenario" >, SYNSEM.LKEYS.KEYREL.PRED "_nonagenario_a_rel" ]. nonaldecanoico_a1 := a_rel_nonprd_intr_le & [ STEM < "nonaldecanoico" >, SYNSEM.LKEYS.KEYREL.PRED "_nonaldecanoico_a_rel" ]. nonanoato_n1 := n_intr_count_le & [ STEM < "nonanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nonanoato_n_rel" ] ]. nonilamina_n1 := n_intr_count_le & [ STEM < "nonilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nonilamina_n_rel" ] ]. nonilbenceno_n1 := n_intr_count_le & [ STEM < "nonilbenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nonilbenceno_n_rel" ] ]. nontronita_n1 := n_intr_count_le & [ STEM < "nontronita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nontronita_n_rel" ] ]. nonágono_a1 := a_rel_nonprd_intr_le & [ STEM < "nonágono" >, SYNSEM.LKEYS.KEYREL.PRED "_nonágono_a_rel" ]. noología_n1 := n_intr_uncount_le & [ STEM < "noología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noología_n_rel" ] ]. noquear_v := v_trans_np_le & [ STEM < "noquear" >, SYNSEM.LKEYS.KEYREL.PRED "_noquear_v_rel" ]. noradrenalina_n1 := n_intr_count_le & [ STEM < "noradrenalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_noradrenalina_n_rel" ] ]. noray_n1 := n_intr_count_le & [ STEM < "noray" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_noray_n_rel" ] ]. norcoreano_a1 := a_rel_prd_le & [ STEM < "norcoreano" >, SYNSEM.LKEYS.KEYREL.PRED "_norcoreano_a_rel" ]. nordoccidental_a1 := a_rel_prd_le & [ STEM < "nordoccidental" >, SYNSEM.LKEYS.KEYREL.PRED "_nordoccidental_a_rel" ]. nordoriental_a1 := a_rel_prd_le & [ STEM < "nordoriental" >, SYNSEM.LKEYS.KEYREL.PRED "_nordoriental_a_rel" ]. noria_n1 := n_intr_count_le & [ STEM < "noria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_noria_n_rel" ] ]. noriega_n1 := n_intr_count_le & [ STEM < "noriega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_noriega_n_rel" ] ]. norirlandés_a1 := a_rel_prd_le & [ STEM < "norirlandés" >, SYNSEM.LKEYS.KEYREL.PRED "_norirlandés_a_rel" ]. norirlandés_n1 := n_intr_count_le & [ STEM < "norirlandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_norirlandés_n_rel" ] ]. norleucina_n1 := n_intr_count_le & [ STEM < "norleucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_norleucina_n_rel" ] ]. normal_a1 := a_qual_intr_scopal_le & [ STEM < "normal" >, SYNSEM.LKEYS.KEYREL.PRED "_normal_a_rel" ]. normalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "normalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_normalidad_n_rel" ] ]. normalización_n1 := n_trans_le & [ STEM < "normalización" >, SYNSEM.LKEYS.KEYREL.PRED "_normalización_n_rel" ]. normalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "normalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_normalizador_a_rel" ]. normalizadoramente_x1 := av_i_spr_le & [ STEM < "normalizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_normalizadoramente_x_rel" ]. normalizar_v := v_trans_np_caus_le & [ STEM < "normalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_normalizar_v_rel" ]. normalmente_x1 := av_s_prhd_spr_le & [ STEM < "normalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_normalmente_x_rel" ]. normalmente_x2 := av_i_psthd_spr_le & [ STEM < "normalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_normalmente_x_rel" ]. normando_a1 := a_rel_prd_le & [ STEM < "normando" >, SYNSEM.LKEYS.KEYREL.PRED "_normando_a_rel" ]. normando_n1 := n_intr_count_le & [ STEM < "normando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_normando_n_rel" ] ]. normativo_a1 := a_rel_prd_le & [ STEM < "normativo" >, SYNSEM.LKEYS.KEYREL.PRED "_normativo_a_rel" ]. normoblasto_n1 := n_intr_count_le & [ STEM < "normoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_normoblasto_n_rel" ] ]. normocito_n1 := n_intr_count_le & [ STEM < "normocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_normocito_n_rel" ] ]. normocromía_n1 := n_intr_uncount_le & [ STEM < "normocromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_normocromía_n_rel" ] ]. noroccidental_a1 := a_rel_prd_le & [ STEM < "noroccidental" >, SYNSEM.LKEYS.KEYREL.PRED "_noroccidental_a_rel" ]. nororiental_a1 := a_rel_prd_le & [ STEM < "nororiental" >, SYNSEM.LKEYS.KEYREL.PRED "_nororiental_a_rel" ]. norte_n1 := n_intr_uncount_le & [ STEM < "norte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_norte_n_rel" ] ]. norteafricano_a1 := a_rel_prd_le & [ STEM < "norteafricano" >, SYNSEM.LKEYS.KEYREL.PRED "_norteafricano_a_rel" ]. norteafricano_n1 := n_intr_count_le & [ STEM < "norteafricano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_norteafricano_n_rel" ] ]. norteamericano_a1 := a_rel_prd_le & [ STEM < "norteamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_norteamericano_a_rel" ]. norteamericano_n1 := n_intr_count_le & [ STEM < "norteamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_norteamericano_n_rel" ] ]. norteuropeo_a1 := a_rel_prd_le & [ STEM < "norteuropeo" >, SYNSEM.LKEYS.KEYREL.PRED "_norteuropeo_a_rel" ]. norteño_a1 := a_rel_prd_le & [ STEM < "norteño" >, SYNSEM.LKEYS.KEYREL.PRED "_norteño_a_rel" ]. noruego_a1 := a_rel_prd_le & [ STEM < "noruego" >, SYNSEM.LKEYS.KEYREL.PRED "_noruego_a_rel" ]. noruego_n1 := n_intr_count_le & [ STEM < "noruego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_noruego_n_rel" ] ]. nos_p := af_acc_or_rflx_or_dat_le & [ STEM < "nos" > ]. nosotros_p := pr_pers_nom-or-obl_le & [ STEM < "nosotros" > ]. nostramo_n1 := n_intr_count_le & [ STEM < "nostramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_nostramo_n_rel" ] ]. nostálgico_a1 := a_qual_intr_ser_le & [ STEM < "nostálgico" >, SYNSEM.LKEYS.KEYREL.PRED "_nostálgico_a_rel" ]. nota_n1 := n_intr_count_le & [ STEM < "nota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_nota_n_rel" ] ]. notabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "notabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_notabilidad_n_rel" ] ]. notable_a1 := a_qual_intr_scopal_le & [ STEM < "notable" >, SYNSEM.LKEYS.KEYREL.PRED "_notable_a_rel" ]. notación_n1 := n_trans_le & [ STEM < "notación" >, SYNSEM.LKEYS.KEYREL.PRED "_notación_n_rel" ]. notariado_a1 := a_qual_intr_estar_le & [ STEM < "notariado" >, SYNSEM.LKEYS.KEYREL.PRED "_notariado_a_rel" ]. notariado_n1 := n_intr_count_le & [ STEM < "notariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_notariado_n_rel" ] ]. notarial_a1 := a_rel_nonprd_intr_le & [ STEM < "notarial" >, SYNSEM.LKEYS.KEYREL.PRED "_notarial_a_rel" ]. notarialmente_x1 := av_i_spr_le & [ STEM < "notarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_notarialmente_x_rel" ]. notario_n1 := n_intr_count_le & [ STEM < "notario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_notario_n_rel" ] ]. notaría_n1 := n_intr_count_le & [ STEM < "notaría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_notaría_n_rel" ] ]. noticia_n1 := n_intr_count_le & [ STEM < "noticia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_noticia_n_rel" ] ]. noticiar_v := v_ditrans*_le & [ STEM < "noticiar" >, SYNSEM.LKEYS.KEYREL.PRED "_noticiar_v_rel" ]. noticiario_n1 := n_intr_count_le & [ STEM < "noticiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_noticiario_n_rel" ] ]. noticiosamente_x1 := av_i_spr_le & [ STEM < "noticiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_noticiosamente_x_rel" ]. noticioso_a1 := a_qual_intr_scopal_le & [ STEM < "noticioso" >, SYNSEM.LKEYS.KEYREL.PRED "_noticioso_a_rel" ]. notificación_n1 := n_trans_le & [ STEM < "notificación" >, SYNSEM.LKEYS.KEYREL.PRED "_notificación_n_rel" ]. notificar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "notificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_notificar_v_rel" ] ]. notificar_v2 := v_ditrans*_le & [ STEM < "notificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_notificar_v_rel" ] ]. notificativo_a1 := a_rel_nonprd_intr_le & [ STEM < "notificativo" >, SYNSEM.LKEYS.KEYREL.PRED "_notificativo_a_rel" ]. notocordio_n1 := n_intr_count_le & [ STEM < "notocordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_notocordio_n_rel" ] ]. notoriamente_x1 := av_i_spr_le & [ STEM < "notoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_notoriamente_x_rel" ]. notoriedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "notoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_notoriedad_n_rel" ] ]. notorio_a1 := a_qual_intr_scopal_le & [ STEM < "notorio" >, SYNSEM.LKEYS.KEYREL.PRED "_notorio_a_rel" ]. novación_n1 := n_trans_le & [ STEM < "novación" >, SYNSEM.LKEYS.KEYREL.PRED "_novación_n_rel" ]. novar_v := v_trans_np_le & [ STEM < "novar" >, SYNSEM.LKEYS.KEYREL.PRED "_novar_v_rel" ]. novato_a1 := a_qual_intr_ser_le & [ STEM < "novato" >, SYNSEM.LKEYS.KEYREL.PRED "_novato_a_rel" ]. novato_n1 := n_intr_count_le & [ STEM < "novato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_novato_n_rel" ] ]. novedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "novedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_novedad_n_rel" ] ]. novedoso_a1 := a_qual_intr_scopal_le & [ STEM < "novedoso" >, SYNSEM.LKEYS.KEYREL.PRED "_novedoso_a_rel" ]. novel_a1 := a_rel_nonprd_intr_le & [ STEM < "novel" >, SYNSEM.LKEYS.KEYREL.PRED "_novel_a_rel" ]. novela_n1 := n_intr_count_le & [ STEM < "novela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_novela_n_rel" ] ]. novelar_v := v_trans_np*_le & [ STEM < "novelar" >, SYNSEM.LKEYS.KEYREL.PRED "_novelar_v_rel" ]. novelesco_a1 := a_qual_intr_scopal_le & [ STEM < "novelesco" >, SYNSEM.LKEYS.KEYREL.PRED "_novelesco_a_rel" ]. novelista_n1 := n_intr_count_le & [ STEM < "novelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_novelista_n_rel" ] ]. novelístico_a1 := a_rel_prd_le & [ STEM < "novelístico" >, SYNSEM.LKEYS.KEYREL.PRED "_novelístico_a_rel" ]. novicio_n1 := n_intr_count_le & [ STEM < "novicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_novicio_n_rel" ] ]. noviemtre_n1 := n_intr_count_le & [ STEM < "noviemtre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_noviemtre_n_rel" ] ]. novillo_n1 := n_intr_count_le & [ STEM < "novillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_novillo_n_rel" ] ]. novio_n1 := n_ppcomp_count_le & [ STEM < "novio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_novio_n_rel" ] ]. novobiocina_n1 := n_intr_count_le & [ STEM < "novobiocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_novobiocina_n_rel" ] ]. noético_a1 := a_rel_nonprd_intr_le & [ STEM < "noético" >, SYNSEM.LKEYS.KEYREL.PRED "_noético_a_rel" ]. inteligentemente_x2 := av_i_psthd_spr_le & [ STEM < "inteligentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_inteligentemente_x_rel" ]. nu_distrb_det := nu_distrb-det_le & [ STEM < "zp" > ]. nu_part_pr := nu_part-prn_le & [ STEM < "zp" > ]. currencies := n_intr_count_le & [ STEM < "zm" > ]. measures := n_intr_count_le & [ STEM < "zu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_medida_n_rel" ] ]. nube_n1 := n_intr_count_le & [ STEM < "nube" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nube_n_rel" ] ]. nubecill_n1 := n_intr_count_le & [ STEM < "nubecill" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nubecill_n_rel" ] ]. nubosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "nubosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nubosidad_n_rel" ] ]. nuboso_a1 := a_qual_intr_estar_le & [ STEM < "nuboso" >, SYNSEM.LKEYS.KEYREL.PRED "_nuboso_a_rel" ]. nubuc_n1 := n_intr_mass_le & [ STEM < "nubuc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nubuc_n_rel" ] ]. nuca_n1 := n_ppcomp_count_le & [ STEM < "nuca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nuca_n_rel" ] ]. nucal_a1 := a_rel_nonprd_intr_le & [ STEM < "nucal" >, SYNSEM.LKEYS.KEYREL.PRED "_nucal_a_rel" ]. nuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "nuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_nuclear_a_rel" ]. nuclearización_n1 := n_intr_uncount_le & [ STEM < "nuclearización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nuclearización_n_rel" ] ]. nucleico_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleico" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleico_a_rel" ]. nucleido_n1 := n_intr_count_le & [ STEM < "nucleido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleido_n_rel" ] ]. nucleoalbúmina_n1 := n_intr_count_le & [ STEM < "nucleoalbúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleoalbúmina_n_rel" ] ]. nucleocitoplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleocitoplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleocitoplásmico_a_rel" ]. nucleoide_n1 := n_intr_count_le & [ STEM < "nucleoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nucleoide_n_rel" ] ]. nucleolar_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleolar" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleolar_a_rel" ]. nucleolo_n1 := n_ppcomp_count_le & [ STEM < "nucleolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nucleolo_n_rel" ] ]. nucleoplasma_n1 := n_intr_count_le & [ STEM < "nucleoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleoplasma_n_rel" ] ]. nucleoplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleoplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleoplasmático_a_rel" ]. nucleoproteína_n1 := n_intr_count_le & [ STEM < "nucleoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nucleoproteína_n_rel" ] ]. nucleoquimo_n1 := n_intr_mass-or-count_le & [ STEM < "nucleoquimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_nucleoquimo_n_rel" ] ]. nucleosoma_n1 := n_intr_count_le & [ STEM < "nucleosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleosoma_n_rel" ] ]. nucleína_n1 := n_intr_count_le & [ STEM < "nucleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleína_n_rel" ] ]. nucleócrata_n1 := n_intr_uncount_pl_le & [ STEM < "nucleócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nucleócrata_n_rel" ] ]. nucleófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleófilo_a_rel" ]. nucleón_n1 := n_intr_count_le & [ STEM < "nucleón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleón_n_rel" ] ]. nucleónicamente_x1 := av_i_spr_le & [ STEM < "nucleónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleónicamente_x_rel" ]. nucleónico_a1 := a_rel_nonprd_intr_le & [ STEM < "nucleónico" >, SYNSEM.LKEYS.KEYREL.PRED "_nucleónico_a_rel" ]. nucleósido_n1 := n_intr_count_le & [ STEM < "nucleósido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleósido_n_rel" ] ]. nucleótida_n1 := n_intr_count_le & [ STEM < "nucleótida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucleótida_n_rel" ] ]. nucleótido_n1 := n_intr_count_le & [ STEM < "nucleótido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nucleótido_n_rel" ] ]. nucléolo_n1 := n_intr_count_le & [ STEM < "nucléolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nucléolo_n_rel" ] ]. nucléolo_n2 := n_ppcomp_count_le & [ STEM < "nucléolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nucléolo_n_rel" ] ]. nudillo_n1 := n_ppcomp_count_le & [ STEM < "nudillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nudillo_n_rel" ] ]. nudismo_n1 := n_intr_uncount_le & [ STEM < "nudismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nudismo_n_rel" ] ]. nudista_n1 := n_intr_count_le & [ STEM < "nudista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nudista_n_rel" ] ]. nudo_n1 := n_intr_count_le & [ STEM < "nudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_nudo_n_rel" ] ]. nudosamente_x1 := av_i_spr_le & [ STEM < "nudosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nudosamente_x_rel" ]. nudosidad_n1 := n_intr_count_le & [ STEM < "nudosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nudosidad_n_rel" ] ]. nudoso_a1 := a_qual_intr_scopal_le & [ STEM < "nudoso" >, SYNSEM.LKEYS.KEYREL.PRED "_nudoso_a_rel" ]. nuececilla_n1 := n_intr_count_le & [ STEM < "nuececilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nuececilla_n_rel" ] ]. nuera_n1 := n_ppcomp_count_le & [ STEM < "nuera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nuera_n_rel" ] ]. nuestro_a := a_poss_le & [ STEM < "nuestro" >, SYNSEM.LKEYS.KEYREL.PRED "_nuestro_a_rel" ]. nuestro_d := d_poss_nuest_le & [ STEM < "nuestro" > ]. nuevo_a1 := a_qual_intr_scopal_le & [ STEM < "nuevo" >, SYNSEM.LKEYS.KEYREL.PRED "_nuevo_a_rel" ]. nuez_n1 := n_intr_mass_le & [ STEM < "nuez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nuez_n_rel" ] ]. nulidad_n1 := n_ppcomp_uncount_le & [ STEM < "nulidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nulidad_n_rel" ] ]. nulidad_n2 := n_ppcomp_count_le & [ STEM < "nulidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nulidad_n_rel" ] ]. nulisómico_a1 := a_rel_nonprd_intr_le & [ STEM < "nulisómico" >, SYNSEM.LKEYS.KEYREL.PRED "_nulisómico_a_rel" ]. nulo_a1 := a_rel_prd_le & [ STEM < "nulo" >, SYNSEM.LKEYS.KEYREL.PRED "_nulo_a_rel" ]. numantino_a1 := a_rel_prd_le & [ STEM < "numantino" >, SYNSEM.LKEYS.KEYREL.PRED "_numantino_a_rel" ]. numbat_n1 := n_intr_count_le & [ STEM < "numbat" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_numbat_n_rel" ] ]. numerabilidad_n1 := n_intr_uncount_le & [ STEM < "numerabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_numerabilidad_n_rel" ] ]. numerable_a1 := a_rel_prd_le & [ STEM < "numerable" >, SYNSEM.LKEYS.KEYREL.PRED "_numerable_a_rel" ]. numeración_n1 := n_trans_le & [ STEM < "numeración" >, SYNSEM.LKEYS.KEYREL.PRED "_numeración_n_rel" ]. numerador_n1 := n_intr_count_le & [ STEM < "numerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_numerador_n_rel" ] ]. numeral_a1 := a_rel_nonprd_intr_le & [ STEM < "numeral" >, SYNSEM.LKEYS.KEYREL.PRED "_numeral_a_rel" ]. numeral_n1 := n_intr_count_le & [ STEM < "numeral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_numeral_n_rel" ] ]. numeralmente_x1 := av_i_spr_le & [ STEM < "numeralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_numeralmente_x_rel" ]. numerario_n1 := n_intr_count_le & [ STEM < "numerario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_numerario_n_rel" ] ]. numerosamente_x1 := av_i_spr_le & [ STEM < "numerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_numerosamente_x_rel" ]. numismático_a1 := a_rel_nonprd_intr_le & [ STEM < "numismático" >, SYNSEM.LKEYS.KEYREL.PRED "_numismático_a_rel" ]. numéricamente_x1 := av_i_spr_le & [ STEM < "numéricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_numéricamente_x_rel" ]. numérico_a1 := a_rel_nonprd_intr_le & [ STEM < "numérico" >, SYNSEM.LKEYS.KEYREL.PRED "_numérico_a_rel" ]. nunca_x1 := av_i_le & [ STEM < "nunca" >, SYNSEM.LKEYS.KEYREL.PRED "_nunca_x_rel" ]. nunciatura_n1 := n_intr_count_le & [ STEM < "nunciatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nunciatura_n_rel" ] ]. nuncio_n1 := n_intr_count_le & [ STEM < "nuncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nuncio_n_rel" ] ]. nuncupativo_a1 := a_rel_nonprd_intr_le & [ STEM < "nuncupativo" >, SYNSEM.LKEYS.KEYREL.PRED "_nuncupativo_a_rel" ]. nupcial_a1 := a_rel_nonprd_intr_le & [ STEM < "nupcial" >, SYNSEM.LKEYS.KEYREL.PRED "_nupcial_a_rel" ]. nupcialidad_n1 := n_intr_uncount_le & [ STEM < "nupcialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nupcialidad_n_rel" ] ]. nutria_n1 := n_intr_count_le & [ STEM < "nutria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_nutria_n_rel" ] ]. nutricio_a1 := a_rel_nonprd_intr_le & [ STEM < "nutricio" >, SYNSEM.LKEYS.KEYREL.PRED "_nutricio_a_rel" ]. nutricional_a1 := a_rel_nonprd_intr_le & [ STEM < "nutricional" >, SYNSEM.LKEYS.KEYREL.PRED "_nutricional_a_rel" ]. nutrición_n1 := n_trans_le & [ STEM < "nutrición" >, SYNSEM.LKEYS.KEYREL.PRED "_nutrición_n_rel" ]. nutrimento_n1 := n_trans_le & [ STEM < "nutrimento" >, SYNSEM.LKEYS.KEYREL.PRED "_nutrimento_n_rel" ]. nutritivamente_x1 := av_i_spr_le & [ STEM < "nutritivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nutritivamente_x_rel" ]. nutritivo_a1 := a_qual_intr_scopal_le & [ STEM < "nutritivo" >, SYNSEM.LKEYS.KEYREL.PRED "_nutritivo_a_rel" ]. nutriólogo_n1 := n_intr_count_le & [ STEM < "nutriólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nutriólogo_n_rel" ] ]. nuñismo_n1 := n_intr_uncount_le & [ STEM < "nuñismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nuñismo_n_rel" ] ]. nyanja_n1 := n_intr_count_le & [ STEM < "nyanja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_nyanja_n_rel" ] ]. nylón_n1 := n_intr_count_le & [ STEM < "nylón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nylón_n_rel" ] ]. nácar_n1 := n_intr_mass_le & [ STEM < "nácar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_nácar_n_rel" ] ]. nártex_n1 := n_intr_count_le & [ STEM < "nártex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_nártex_n_rel" ] ]. násico_n1 := n_intr_count_le & [ STEM < "násico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_násico_n_rel" ] ]. náufrago_n1 := n_intr_count_le & [ STEM < "náufrago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_náufrago_n_rel" ] ]. náuticamente_x1 := av_i_spr_le & [ STEM < "náuticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_náuticamente_x_rel" ]. náutico_a1 := a_rel_nonprd_intr_le & [ STEM < "náutico" >, SYNSEM.LKEYS.KEYREL.PRED "_náutico_a_rel" ]. náyade_n1 := n_intr_count_le & [ STEM < "náyade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_náyade_n_rel" ] ]. nécora_n1 := n_intr_count_le & [ STEM < "nécora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_nécora_n_rel" ] ]. néctar_n1 := n_intr_mass_le & [ STEM < "néctar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_néctar_n_rel" ] ]. néper_n1 := n_intr_count_le & [ STEM < "néper" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_néper_n_rel" ] ]. néurula_n1 := n_intr_count_le & [ STEM < "néurula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_néurula_n_rel" ] ]. níquel_n1 := n_intr_mass_le & [ STEM < "níquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_níquel_n_rel" ] ]. níscalo_n1 := n_intr_count_le & [ STEM < "níscalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_níscalo_n_rel" ] ]. níspero_n1 := n_intr_mass_le & [ STEM < "níspero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_níspero_n_rel" ] ]. níspola_n1 := n_intr_count_le & [ STEM < "níspola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_níspola_n_rel" ] ]. nítidamente_x1 := av_i_spr_le & [ STEM < "nítidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_nítidamente_x_rel" ]. nítido_a1 := a_qual_intr_scopal_le & [ STEM < "nítido" >, SYNSEM.LKEYS.KEYREL.PRED "_nítido_a_rel" ]. nítrico_a1 := a_rel_nonprd_intr_le & [ STEM < "nítrico" >, SYNSEM.LKEYS.KEYREL.PRED "_nítrico_a_rel" ]. níveo_a1 := a_qual_intr_scopal_le & [ STEM < "níveo" >, SYNSEM.LKEYS.KEYREL.PRED "_níveo_a_rel" ]. nóctulo_n1 := n_intr_count_le & [ STEM < "nóctulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_nóctulo_n_rel" ] ]. nódula_n1 := n_ppcomp_count_le & [ STEM < "nódula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_nódula_n_rel" ] ]. nómada_a1 := a_rel_nonprd_intr_le & [ STEM < "nómada" >, SYNSEM.LKEYS.KEYREL.PRED "_nómada_a_rel" ]. nómada_n1 := n_intr_count_le & [ STEM < "nómada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_nómada_n_rel" ] ]. nómico_a1 := a_rel_nonprd_intr_le & [ STEM < "nómico" >, SYNSEM.LKEYS.KEYREL.PRED "_nómico_a_rel" ]. nórdico_a1 := a_rel_prd_le & [ STEM < "nórdico" >, SYNSEM.LKEYS.KEYREL.PRED "_nórdico_a_rel" ]. núbil_a1 := a_qual_intr_ser_le & [ STEM < "núbil" >, SYNSEM.LKEYS.KEYREL.PRED "_núbil_a_rel" ]. núcleo_n1 := n_intr_count_le & [ STEM < "núcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_núcleo_n_rel" ] ]. o_cc1 := cc_disj_o_le & [ STEM < "o" > ]. o_cc2 := cc_exclsv-disj_o_le & [ STEM < "o" > ]. oasis_n1 := n_intr_count_le & [ STEM < "oasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_oasis_n_rel" ] ]. obcecación_n1 := n_intr_mass_le & [ STEM < "obcecación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obcecación_n_rel" ] ]. obcecar_v1 := v_intr_io*_le & [ STEM < "obcecar" >, SYNSEM.LKEYS.KEYREL.PRED "_obcecar_v_rel" ]. obcecar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "obcecar" >, SYNSEM.LKEYS.KEYREL.PRED "_obcecar_v_rel" ]. obedecer_1v := v_intr_mrkd_cp_prop_fin_le & [ STEM < "obedecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_obedecer_v_rel" ] ]. obedecer_v2 := v_intr_mrkd_np_le & [ STEM < "obedecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_obedecer_v_rel" ] ]. obedecer_v3 := v_trans_np*_le & [ STEM < "obedecer" >, SYNSEM.LKEYS.KEYREL.PRED "_obedecer_v_rel" ]. obediencia_n1 := n_intr_mass_le & [ STEM < "obediencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obediencia_n_rel" ] ]. obediente_a1 := a_qual_intr_ser_le & [ STEM < "obediente" >, SYNSEM.LKEYS.KEYREL.PRED "_obediente_a_rel" ]. obedientemente_x1 := av_i_spr_le & [ STEM < "obedientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_obedientemente_x_rel" ]. obelisco_n1 := n_intr_count_le & [ STEM < "obelisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obelisco_n_rel" ] ]. obenque_n1 := n_intr_count_le & [ STEM < "obenque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obenque_n_rel" ] ]. obertura_n1 := n_intr_count_le & [ STEM < "obertura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obertura_n_rel" ] ]. obesidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "obesidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obesidad_n_rel" ] ]. obeso_a1 := a_qual_intr_ser_le & [ STEM < "obeso" >, SYNSEM.LKEYS.KEYREL.PRED "_obeso_a_rel" ]. obispado_n1 := n_intr_count_le & [ STEM < "obispado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_obispado_n_rel" ] ]. obispo_n1 := n_intr_count_le & [ STEM < "obispo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_obispo_n_rel" ] ]. objeción_n1 := n_trans_le & [ STEM < "objeción" >, SYNSEM.LKEYS.KEYREL.PRED "_objeción_n_rel" ]. objetable_a1 := a_qual_intr_scopal_le & [ STEM < "objetable" >, SYNSEM.LKEYS.KEYREL.PRED "_objetable_a_rel" ]. objetante_a1 := a_rel_nonprd_intr_le & [ STEM < "objetante" >, SYNSEM.LKEYS.KEYREL.PRED "_objetante_a_rel" ]. objetar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "objetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_objetar_v_rel" ] ]. objetar_v2 := v_ditrans*_le & [ STEM < "objetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_objetar_v_rel" ] ]. objetar_v3 := v_trans_np_mrkd_np_le & [ STEM < "objetar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_objetar_v_rel" ] ] ]. objetivación_n1 := n_trans_le & [ STEM < "objetivación" >, SYNSEM.LKEYS.KEYREL.PRED "_objetivación_n_rel" ]. objetivamente_x1 := av_i_spr_le & [ STEM < "objetivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_objetivamente_x_rel" ]. objetividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "objetividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_objetividad_n_rel" ] ]. objetivismo_n1 := n_intr_uncount_le & [ STEM < "objetivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_objetivismo_n_rel" ] ]. objetivo_a1 := a_qual_intr_scopal_le & [ STEM < "objetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_objetivo_a_rel" ]. objeto_n1 := n_intr_count_le & [ STEM < "objeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_objeto_n_rel" ] ]. objetor_n1 := n_subj-nom_le & [ STEM < "objetor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_objetor_n_rel" ] ]. oblea_n1 := n_intr_count_le & [ STEM < "oblea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oblea_n_rel" ] ]. oblicuamente_x1 := av_i_spr_le & [ STEM < "oblicuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oblicuamente_x_rel" ]. oblicuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "oblicuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oblicuidad_n_rel" ] ]. oblicuo_a1 := a_qual_intr_ser_le & [ STEM < "oblicuo" >, SYNSEM.LKEYS.KEYREL.PRED "_oblicuo_a_rel" ]. oblicuángulo_a1 := a_rel_nonprd_intr_le & [ STEM < "oblicuángulo" >, SYNSEM.LKEYS.KEYREL.PRED "_oblicuángulo_a_rel" ]. obligacional_a1 := a_rel_nonprd_intr_le & [ STEM < "obligacional" >, SYNSEM.LKEYS.KEYREL.PRED "_obligacional_a_rel" ]. obligacionista_n1 := n_intr_count_le & [ STEM < "obligacionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_obligacionista_n_rel" ] ]. obligación_n1 := n_intr_count_le & [ STEM < "obligación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obligación_n_rel" ] ]. obligado_n1 := n_intr_count_le & [ STEM < "obligado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obligado_n_rel" ] ]. obligante_a1 := a_rel_nonprd_intr_le & [ STEM < "obligante" >, SYNSEM.LKEYS.KEYREL.PRED "_obligante_a_rel" ]. obligatoriamente_x1 := av_i_spr_le & [ STEM < "obligatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_obligatoriamente_x_rel" ]. obligatoriedad_n1 := n_ppcomp_uncount_le & [ STEM < "obligatoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obligatoriedad_n_rel" ] ]. obligatorio_a1 := a_rel_prd_le & [ STEM < "obligatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_obligatorio_a_rel" ]. obliteración_n1 := n_trans_le & [ STEM < "obliteración" >, SYNSEM.LKEYS.KEYREL.PRED "_obliteración_n_rel" ]. obliterar_v := v_trans_np_le & [ STEM < "obliterar" >, SYNSEM.LKEYS.KEYREL.PRED "_obliterar_v_rel" ]. obliterativo_a1 := a_rel_nonprd_intr_le & [ STEM < "obliterativo" >, SYNSEM.LKEYS.KEYREL.PRED "_obliterativo_a_rel" ]. oblongo_a1 := a_qual_intr_ser_le & [ STEM < "oblongo" >, SYNSEM.LKEYS.KEYREL.PRED "_oblongo_a_rel" ]. obnubilar_v1 := v_intr_io*_le & [ STEM < "obnubilar" >, SYNSEM.LKEYS.KEYREL.PRED "_obnubilar_v_rel" ]. obnubilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "obnubilar" >, SYNSEM.LKEYS.KEYREL.PRED "_obnubilar_v_rel" ]. obnubilar_v3 := v_trans_np_le & [ STEM < "obnubilar" >, SYNSEM.LKEYS.KEYREL.PRED "_obnubilar_v_rel" ]. oboe_n1 := n_intr_count_le & [ STEM < "oboe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oboe_n_rel" ] ]. obra_n1 := n_intr_count_le & [ STEM < "obra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_obra_n_rel" ] ]. obrador_n1 := n_intr_count_le & [ STEM < "obrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_obrador_n_rel" ] ]. obrar_v := v_intr_le & [ STEM < "obrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_obrar_v_rel" ] ]. obrepción_n1 := n_intr_uncount_le & [ STEM < "obrepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obrepción_n_rel" ] ]. obrero_a1 := a_rel_nonprd_intr_le & [ STEM < "obrero" >, SYNSEM.LKEYS.KEYREL.PRED "_obrero_a_rel" ]. obrero_n1 := n_intr_count_le & [ STEM < "obrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_obrero_n_rel" ] ]. obscenamente_x1 := av_i_spr_le & [ STEM < "obscenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_obscenamente_x_rel" ]. obscenidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "obscenidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obscenidad_n_rel" ] ]. obsceno_a1 := a_qual_intr_scopal_le & [ STEM < "obsceno" >, SYNSEM.LKEYS.KEYREL.PRED "_obsceno_a_rel" ]. obsequiar_v := v_trans_np_mrkd_np*_le & [ STEM < "obsequiar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_obsequiar_v_rel" ] ]. obsequio_n1 := n_intr_count_le & [ STEM < "obsequio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_obsequio_n_rel" ] ]. obsequioso_a1 := a_qual_intr_ser_le & [ STEM < "obsequioso" >, SYNSEM.LKEYS.KEYREL.PRED "_obsequioso_a_rel" ]. observabilidad_n1 := n_intr_uncount_le & [ STEM < "observabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_observabilidad_n_rel" ] ]. observable_a1 := a_qual_intr_scopal_le & [ STEM < "observable" >, SYNSEM.LKEYS.KEYREL.PRED "_observable_a_rel" ]. observacional_a1 := a_rel_nonprd_intr_le & [ STEM < "observacional" >, SYNSEM.LKEYS.KEYREL.PRED "_observacional_a_rel" ]. observación_n1 := n_trans_le & [ STEM < "observación" >, SYNSEM.LKEYS.KEYREL.PRED "_observación_n_rel" ]. observador_a1 := a_qual_intr_scopal_le & [ STEM < "observador" >, SYNSEM.LKEYS.KEYREL.PRED "_observador_a_rel" ]. observador_n1 := n_subj-nom_le & [ STEM < "observador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_observador_n_rel" ] ]. observancia_n1 := n_intr_uncount_le & [ STEM < "observancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_observancia_n_rel" ] ]. observante_a1 := a_rel_nonprd_intr_le & [ STEM < "observante" >, SYNSEM.LKEYS.KEYREL.PRED "_observante_a_rel" ]. observar_v1 := v_trans_cp_prop_fin_le & [ STEM < "observar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_observar_v_rel" ] ]. observar_v2 := v_trans_cp_semi_ques_le & [ STEM < "observar" >, SYNSEM.LKEYS.KEYREL.PRED "_observar_v_rel" ]. observar_v3 := v_trans_np*_le & [ STEM < "observar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_observar_v_rel" ] ]. observatorio_n1 := n_intr_count_le & [ STEM < "observatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_observatorio_n_rel" ] ]. obsesionadamente_x1 := av_i_spr_le & [ STEM < "obsesionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_obsesionadamente_x_rel" ]. obsesionante_a1 := a_rel_prd_le & [ STEM < "obsesionante" >, SYNSEM.LKEYS.KEYREL.PRED "_obsesionante_a_rel" ]. obsesionar_v1 := v_intr_io*_le & [ STEM < "obsesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_obsesionar_v_rel" ]. obsesionar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "obsesionar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_obsesionar_v_rel" ] ]. obsesionar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "obsesionar" >, SYNSEM.LKEYS.KEYREL.PRED "_obsesionar_v_rel" ]. obsesivo_a1 := a_qual_intr_scopal_le & [ STEM < "obsesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_obsesivo_a_rel" ]. obsesión_n1 := n_intr_mass-or-count_le & [ STEM < "obsesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obsesión_n_rel" ] ]. obseso_a1 := a_qual_intr_ser_le & [ STEM < "obseso" >, SYNSEM.LKEYS.KEYREL.PRED "_obseso_a_rel" ]. obsidiana_n1 := n_intr_mass_le & [ STEM < "obsidiana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obsidiana_n_rel" ] ]. obsolescencia_n1 := n_intr_uncount_le & [ STEM < "obsolescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obsolescencia_n_rel" ] ]. obsoleto_a1 := a_qual_intr_scopal_le & [ STEM < "obsoleto" >, SYNSEM.LKEYS.KEYREL.PRED "_obsoleto_a_rel" ]. obstaculizador_a1 := a_rel_nonprd_intr_le & [ STEM < "obstaculizador" >, SYNSEM.LKEYS.KEYREL.PRED "_obstaculizador_a_rel" ]. obstaculizar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "obstaculizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_obstaculizar_v_rel" ] ]. obstaculizar_v2 := v_trans_np_le & [ STEM < "obstaculizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_obstaculizar_v_rel" ] ]. obstar_v1 := v_intr_le & [ STEM < "obstar" >, SYNSEM.LKEYS.KEYREL.PRED "_obstar_v_rel" ]. obstar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "obstar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_obstar_v_rel" ] ]. obstar_v3 := v_intr_mrkd_np_le & [ STEM < "obstar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_obstar_v_rel" ] ]. obstetricia_n1 := n_intr_uncount_le & [ STEM < "obstetricia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obstetricia_n_rel" ] ]. obstinación_n1 := n_intr_mass_le & [ STEM < "obstinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obstinación_n_rel" ] ]. obstinadamente_x1 := av_i_spr_le & [ STEM < "obstinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_obstinadamente_x_rel" ]. obstinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "obstinar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_obstinar_v_rel" ] ] ]. obstinar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "obstinar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_obstinar_v_rel" ] ] ]. obstruccionar_v := v_trans_np_le & [ STEM < "obstruccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_obstruccionar_v_rel" ]. obstruccionismo_n1 := n_intr_uncount_le & [ STEM < "obstruccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obstruccionismo_n_rel" ] ]. obstruccionista_a1 := a_rel_nonprd_intr_le & [ STEM < "obstruccionista" >, SYNSEM.LKEYS.KEYREL.PRED "_obstruccionista_a_rel" ]. obstrucción_n1 := n_trans_le & [ STEM < "obstrucción" >, SYNSEM.LKEYS.KEYREL.PRED "_obstrucción_n_rel" ]. obstructivismo_n1 := n_intr_uncount_le & [ STEM < "obstructivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obstructivismo_n_rel" ] ]. obstructivo_a1 := a_rel_nonprd_intr_le & [ STEM < "obstructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_obstructivo_a_rel" ]. obstructor_a1 := a_rel_nonprd_intr_le & [ STEM < "obstructor" >, SYNSEM.LKEYS.KEYREL.PRED "_obstructor_a_rel" ]. obstruir_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "obstruir" >, SYNSEM.LKEYS.KEYREL.PRED "_obstruir_v_rel" ]. obstruir_v2 := v_trans_np_le & [ STEM < "obstruir" >, SYNSEM.LKEYS.KEYREL.PRED "_obstruir_v_rel" ]. obstruyente_a1 := a_rel_nonprd_intr_le & [ STEM < "obstruyente" >, SYNSEM.LKEYS.KEYREL.PRED "_obstruyente_a_rel" ]. obstáculo_n1 := n_intr_count_le & [ STEM < "obstáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_obstáculo_n_rel" ] ]. obstétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "obstétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_obstétrico_a_rel" ]. obtención_n1 := n_trans_le & [ STEM < "obtención" >, SYNSEM.LKEYS.KEYREL.PRED "_obtención_n_rel" ]. obtenedor_n1 := n_intr_count_le & [ STEM < "obtenedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obtenedor_n_rel" ] ]. obtener_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "obtener" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_obtener_v_rel" ] ]. obtener_v2 := v_trans_np_mrkd_np*_le & [ STEM < "obtener" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_obtener_v_rel" ] ] ]. obtenible_a1 := a_rel_prd_le & [ STEM < "obtenible" >, SYNSEM.LKEYS.KEYREL.PRED "_obtenible_a_rel" ]. obturación_n1 := n_trans_le & [ STEM < "obturación" >, SYNSEM.LKEYS.KEYREL.PRED "_obturación_n_rel" ]. obturador_a1 := a_rel_nonprd_intr_le & [ STEM < "obturador" >, SYNSEM.LKEYS.KEYREL.PRED "_obturador_a_rel" ]. obturador_n1 := n_intr_count_le & [ STEM < "obturador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obturador_n_rel" ] ]. obturar_v := v_trans_np_le & [ STEM < "obturar" >, SYNSEM.LKEYS.KEYREL.PRED "_obturar_v_rel" ]. obtuso_a1 := a_rel_nonprd_intr_le & [ STEM < "obtuso" >, SYNSEM.LKEYS.KEYREL.PRED "_obtuso_a_rel" ]. obvención_n1 := n_intr_count_le & [ STEM < "obvención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obvención_n_rel" ] ]. obviamente_x1 := av_s_prhd_le & [ STEM < "obviamente" >, SYNSEM.LKEYS.KEYREL.PRED "_obviamente_x_rel" ]. obviedad_n1 := n_ppcomp_count_le & [ STEM < "obviedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_obviedad_n_rel" ] ]. obvio_a1 := a_qual_intr_scopal_le & [ STEM < "obvio" >, SYNSEM.LKEYS.KEYREL.PRED "_obvio_a_rel" ]. obús_n1 := n_intr_count_le & [ STEM < "obús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_obús_n_rel" ] ]. oca_n1 := n_intr_count_le & [ STEM < "oca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oca_n_rel" ] ]. ocasionable_a1 := a_rel_prd_le & [ STEM < "ocasionable" >, SYNSEM.LKEYS.KEYREL.PRED "_ocasionable_a_rel" ]. ocasional_a1 := a_qual_intr_scopal_le & [ STEM < "ocasional" >, SYNSEM.LKEYS.KEYREL.PRED "_ocasional_a_rel" ]. ocasionalismo_n1 := n_intr_uncount_le & [ STEM < "ocasionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocasionalismo_n_rel" ] ]. ocasionalmente_x1 := av_s_prhd_spr_le & [ STEM < "ocasionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ocasionalmente_x_rel" ]. ocasionalmente_x2 := av_i_psthd_spr_le & [ STEM < "ocasionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ocasionalmente_x_rel" ]. ocasionar_v1 := v_ditrans*_le & [ STEM < "ocasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_ocasionar_v_rel" ]. ocasionar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "ocasionar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_ocasionar_v_rel" ] ]. ocasionar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "ocasionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_ocasionar_v_rel" ] ]. ocasión_n1 := n_intr_count_le & [ STEM < "ocasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocasión_n_rel" ] ]. occidental_a1 := a_rel_prd_le & [ STEM < "occidental" >, SYNSEM.LKEYS.KEYREL.PRED "_occidental_a_rel" ]. occidental_n1 := n_intr_count_le & [ STEM < "occidental" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_occidental_n_rel" ] ]. occidentalización_n1 := n_trans_le & [ STEM < "occidentalización" >, SYNSEM.LKEYS.KEYREL.PRED "_occidentalización_n_rel" ]. occidentalizar_v := v_trans_np_le & [ STEM < "occidentalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_occidentalizar_v_rel" ]. occidente_n1 := n_intr_count_le & [ STEM < "occidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_occidente_n_rel" ] ]. occipital_a1 := a_rel_nonprd_intr_le & [ STEM < "occipital" >, SYNSEM.LKEYS.KEYREL.PRED "_occipital_a_rel" ]. occipitocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "occipitocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_occipitocervical_a_rel" ]. occipitofrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "occipitofrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_occipitofrontal_a_rel" ]. occipitomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "occipitomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_occipitomastoideo_a_rel" ]. occipitotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "occipitotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_occipitotemporal_a_rel" ]. occipucio_n1 := n_ppcomp_count_le & [ STEM < "occipucio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_occipucio_n_rel" ] ]. occitano_a1 := a_rel_nonprd_intr_le & [ STEM < "occitano" >, SYNSEM.LKEYS.KEYREL.PRED "_occitano_a_rel" ]. occitano_n1 := n_intr_count_le & [ STEM < "occitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_occitano_n_rel" ] ]. oceanidad_n1 := n_intr_uncount_le & [ STEM < "oceanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oceanidad_n_rel" ] ]. oceanografía_n1 := n_intr_uncount_pl_le & [ STEM < "oceanografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oceanografía_n_rel" ] ]. oceanográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "oceanográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_oceanográfico_a_rel" ]. oceanología_n1 := n_intr_uncount_le & [ STEM < "oceanología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oceanología_n_rel" ] ]. oceanógrafo_n1 := n_intr_count_le & [ STEM < "oceanógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oceanógrafo_n_rel" ] ]. ocelo_n1 := n_intr_count_le & [ STEM < "ocelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ocelo_n_rel" ] ]. ocelote_n1 := n_intr_count_le & [ STEM < "ocelote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ocelote_n_rel" ] ]. oceánico_a1 := a_rel_nonprd_intr_le & [ STEM < "oceánico" >, SYNSEM.LKEYS.KEYREL.PRED "_oceánico_a_rel" ]. ochocentista_a1 := a_rel_nonprd_intr_le & [ STEM < "ochocentista" >, SYNSEM.LKEYS.KEYREL.PRED "_ochocentista_a_rel" ]. ociosamente_x1 := av_i_spr_le & [ STEM < "ociosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ociosamente_x_rel" ]. ociosidad_n1 := n_intr_uncount_le & [ STEM < "ociosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ociosidad_n_rel" ] ]. ocioso_a1 := a_qual_intr_ser_le & [ STEM < "ocioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ocioso_a_rel" ]. ocluir_v := v_trans_np_caus_le & [ STEM < "ocluir" >, SYNSEM.LKEYS.KEYREL.PRED "_ocluir_v_rel" ]. oclusal_a1 := a_rel_nonprd_intr_le & [ STEM < "oclusal" >, SYNSEM.LKEYS.KEYREL.PRED "_oclusal_a_rel" ]. oclusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "oclusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_oclusivo_a_rel" ]. oclusión_n1 := n_trans_le & [ STEM < "oclusión" >, SYNSEM.LKEYS.KEYREL.PRED "_oclusión_n_rel" ]. oclusocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "oclusocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_oclusocervical_a_rel" ]. oclusodoncia_n1 := n_intr_uncount_le & [ STEM < "oclusodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oclusodoncia_n_rel" ] ]. oclusodontología_n1 := n_intr_uncount_le & [ STEM < "oclusodontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oclusodontología_n_rel" ] ]. ocre_a1 := a_qual_intr_ser_le & [ STEM < "ocre" >, SYNSEM.LKEYS.KEYREL.PRED "_ocre_a_rel" ]. octadecano_n1 := n_intr_count_le & [ STEM < "octadecano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octadecano_n_rel" ] ]. octadeceno_n1 := n_intr_count_le & [ STEM < "octadeceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octadeceno_n_rel" ] ]. octadecenílico_a1 := a_rel_nonprd_intr_le & [ STEM < "octadecenílico" >, SYNSEM.LKEYS.KEYREL.PRED "_octadecenílico_a_rel" ]. octaedrito_n1 := n_intr_count_le & [ STEM < "octaedrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octaedrito_n_rel" ] ]. octaedro_n1 := n_intr_count_le & [ STEM < "octaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_octaedro_n_rel" ] ]. octagonal_a1 := a_rel_nonprd_intr_le & [ STEM < "octagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_octagonal_a_rel" ]. octal_n1 := n_intr_count_le & [ STEM < "octal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_octal_n_rel" ] ]. octanaje_n1 := n_intr_uncount_le & [ STEM < "octanaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_octanaje_n_rel" ] ]. octanal_a1 := a_rel_nonprd_intr_le & [ STEM < "octanal" >, SYNSEM.LKEYS.KEYREL.PRED "_octanal_a_rel" ]. octanol_n1 := n_intr_mass_le & [ STEM < "octanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octanol_n_rel" ] ]. octante_n1 := n_intr_count_le & [ STEM < "octante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_octante_n_rel" ] ]. octava_n2 := n_intr_count_le & [ STEM < "octava" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_octava_n_rel" ] ]. octavilla_n1 := n_intr_count_le & [ STEM < "octavilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_octavilla_n_rel" ] ]. octaédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "octaédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_octaédrico_a_rel" ]. octaóxido_n1 := n_intr_count_le & [ STEM < "octaóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octaóxido_n_rel" ] ]. octilamina_n1 := n_intr_count_le & [ STEM < "octilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octilamina_n_rel" ] ]. octoato_n1 := n_intr_count_le & [ STEM < "octoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_octoato_n_rel" ] ]. octogenario_n1 := n_intr_count_le & [ STEM < "octogenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_octogenario_n_rel" ] ]. octogonal_a1 := a_rel_nonprd_intr_le & [ STEM < "octogonal" >, SYNSEM.LKEYS.KEYREL.PRED "_octogonal_a_rel" ]. octovalente_a1 := a_rel_nonprd_intr_le & [ STEM < "octovalente" >, SYNSEM.LKEYS.KEYREL.PRED "_octovalente_a_rel" ]. octubre_n1 := n_intr_count_le & [ STEM < "octubre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_octubre_n_rel" ] ]. octuplicar_v := v_trans_np_caus_le & [ STEM < "octuplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_octuplicar_v_rel" ]. octágono_n1 := n_intr_count_le & [ STEM < "octágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_octágono_n_rel" ] ]. ocular_a1 := a_rel_nonprd_intr_le & [ STEM < "ocular" >, SYNSEM.LKEYS.KEYREL.PRED "_ocular_a_rel" ]. ocular_n1 := n_intr_count_le & [ STEM < "ocular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ocular_n_rel" ] ]. oculista_n1 := n_intr_count_le & [ STEM < "oculista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oculista_n_rel" ] ]. ocultación_n1 := n_trans_le & [ STEM < "ocultación" >, SYNSEM.LKEYS.KEYREL.PRED "_ocultación_n_rel" ]. ocultador_n1 := n_subj-nom_le & [ STEM < "ocultador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ocultador_n_rel" ] ]. ocultamente_x1 := av_i_spr_le & [ STEM < "ocultamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ocultamente_x_rel" ]. ocultamiento_n1 := n_trans_le & [ STEM < "ocultamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ocultamiento_n_rel" ]. ocultar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "ocultar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ocultar_v_rel" ] ]. ocultar_v2 := v_ditrans*_le & [ STEM < "ocultar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_ocultar_v_rel" ] ]. ocultar_v3 := v_pron_intr_le & [ STEM < "ocultar" >, SYNSEM.LKEYS.KEYREL.PRED "_ocultar_v_rel" ]. ocultismo_n1 := n_intr_uncount_le & [ STEM < "ocultismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocultismo_n_rel" ] ]. ocultista_a1 := a_rel_nonprd_intr_le & [ STEM < "ocultista" >, SYNSEM.LKEYS.KEYREL.PRED "_ocultista_a_rel" ]. ocultista_n1 := n_intr_count_le & [ STEM < "ocultista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ocultista_n_rel" ] ]. oculto_a1 := a_qual_intr_scopal_le & [ STEM < "oculto" >, SYNSEM.LKEYS.KEYREL.PRED "_oculto_a_rel" ]. ocumo_n1 := n_intr_count_le & [ STEM < "ocumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ocumo_n_rel" ] ]. ocupacional_a1 := a_rel_nonprd_intr_le & [ STEM < "ocupacional" >, SYNSEM.LKEYS.KEYREL.PRED "_ocupacional_a_rel" ]. ocupación_n1 := n_trans_le & [ STEM < "ocupación" >, SYNSEM.LKEYS.KEYREL.PRED "_ocupación_n_rel" ]. ocupante_n1 := n_intr_count_le & [ STEM < "ocupante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ocupante_n_rel" ] ]. ocupar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ocupar" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL.PRED "_ocupar_v_rel" ] ]. ocupar_v3 := v_trans_np_le & [ STEM < "ocupar" >, SYNSEM.LKEYS.KEYREL.PRED "_ocupar_v_rel" ]. ocurrencia_n1 := n_event-result_intr_le & [ STEM < "ocurrencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocurrencia_n_rel" ] ]. ocurrente_a1 := a_qual_intr_ser_le & [ STEM < "ocurrente" >, SYNSEM.LKEYS.KEYREL.PRED "_ocurrente_a_rel" ]. ocurrir_v1 := v_intr_io*_le & [ STEM < "ocurrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_ocurrir_v_rel" ] ]. ocurrir_v2 := v_pron_intr_io*_le & [ STEM < "ocurrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_ocurrir_v_rel" ] ]. ocurrir_v3 := v_pron_subj_cp_prop_fin_intr_io*_le & [ STEM < "ocurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_ocurrir_v_rel" ]. ocurrir_v4 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "ocurrir" >, SYNSEM.LKEYS.KEYREL.PRED "_ocurrir_v_rel" ]. ocurrir_v5 := v_unacc_lcomp_loc*_perf_le & [ STEM < "ocurrir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_ocurrir_v_rel" ] ]. océano_n1 := n_intr_count_le & [ STEM < "océano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_océano_n_rel" ] ]. oda_n1 := n_intr_count_le & [ STEM < "oda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_oda_n_rel" ] ]. odalisca_n1 := n_intr_count_le & [ STEM < "odalisca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_odalisca_n_rel" ] ]. odeón_n1 := n_intr_count_le & [ STEM < "odeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_odeón_n_rel" ] ]. odiar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "odiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_odiar_v_rel" ] ]. odiar_v2 := v_trans_np_le & [ STEM < "odiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_odiar_v_rel" ] ]. odio_n1 := n_intr_mass_le & [ STEM < "odio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odio_n_rel" ] ]. odioso_a1 := a_qual_intr_ser_le & [ STEM < "odioso" >, SYNSEM.LKEYS.KEYREL.PRED "_odioso_a_rel" ]. odontectomía_n1 := n_intr_uncount_pl_le & [ STEM < "odontectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontectomía_n_rel" ] ]. odontinoide_a1 := a_rel_nonprd_intr_le & [ STEM < "odontinoide" >, SYNSEM.LKEYS.KEYREL.PRED "_odontinoide_a_rel" ]. odontoameloblastoma_n1 := n_intr_count_le & [ STEM < "odontoameloblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoameloblastoma_n_rel" ] ]. odontoblasto_n1 := n_intr_count_le & [ STEM < "odontoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoblasto_n_rel" ] ]. odontoblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "odontoblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_odontoblástico_a_rel" ]. odontocirugía_n1 := n_intr_uncount_pl_le & [ STEM < "odontocirugía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontocirugía_n_rel" ] ]. odontoclasto_n1 := n_intr_count_le & [ STEM < "odontoclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoclasto_n_rel" ] ]. odontoclastoma_n1 := n_intr_count_le & [ STEM < "odontoclastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoclastoma_n_rel" ] ]. odontoclástico_a1 := a_rel_nonprd_intr_le & [ STEM < "odontoclástico" >, SYNSEM.LKEYS.KEYREL.PRED "_odontoclástico_a_rel" ]. odontoestomatología_n1 := n_intr_uncount_le & [ STEM < "odontoestomatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontoestomatología_n_rel" ] ]. odontoestomatólogo_n1 := n_intr_count_le & [ STEM < "odontoestomatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_odontoestomatólogo_n_rel" ] ]. odontografía_n1 := n_intr_count_le & [ STEM < "odontografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontografía_n_rel" ] ]. odontogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "odontogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_odontogénico_a_rel" ]. odontolita_n1 := n_intr_count_le & [ STEM < "odontolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_odontolita_n_rel" ] ]. odontología_n1 := n_intr_uncount_le & [ STEM < "odontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontología_n_rel" ] ]. odontológico_a1 := a_rel_nonprd_intr_le & [ STEM < "odontológico" >, SYNSEM.LKEYS.KEYREL.PRED "_odontológico_a_rel" ]. odontoma_n1 := n_intr_count_le & [ STEM < "odontoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoma_n_rel" ] ]. odontopatía_n1 := n_intr_uncount_pl_le & [ STEM < "odontopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontopatía_n_rel" ] ]. odontopediatría_n1 := n_intr_uncount_le & [ STEM < "odontopediatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontopediatría_n_rel" ] ]. odontorradiografía_n1 := n_intr_count_le & [ STEM < "odontorradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontorradiografía_n_rel" ] ]. odontoteca_n1 := n_intr_count_le & [ STEM < "odontoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontoteca_n_rel" ] ]. odontotomía_n1 := n_intr_uncount_le & [ STEM < "odontotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontotomía_n_rel" ] ]. odontálgico_a1 := a_rel_nonprd_intr_le & [ STEM < "odontálgico" >, SYNSEM.LKEYS.KEYREL.PRED "_odontálgico_a_rel" ]. odontógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "odontógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_odontógeno_a_rel" ]. odontógrafo_n1 := n_intr_count_le & [ STEM < "odontógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontógrafo_n_rel" ] ]. odontólito_n1 := n_intr_count_le & [ STEM < "odontólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odontólito_n_rel" ] ]. odontólogo_n1 := n_intr_count_le & [ STEM < "odontólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_odontólogo_n_rel" ] ]. odorante_a1 := a_rel_nonprd_intr_le & [ STEM < "odorante" >, SYNSEM.LKEYS.KEYREL.PRED "_odorante_a_rel" ]. odorimetría_n1 := n_intr_uncount_le & [ STEM < "odorimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odorimetría_n_rel" ] ]. odorífero_a1 := a_rel_nonprd_intr_le & [ STEM < "odorífero" >, SYNSEM.LKEYS.KEYREL.PRED "_odorífero_a_rel" ]. odorímetro_n1 := n_intr_count_le & [ STEM < "odorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_odorímetro_n_rel" ] ]. odóntico_a1 := a_rel_nonprd_intr_le & [ STEM < "odóntico" >, SYNSEM.LKEYS.KEYREL.PRED "_odóntico_a_rel" ]. ofender_v1 := v_intr_io*_le & [ STEM < "ofender" >, SYNSEM.LKEYS.KEYREL.PRED "_ofender_v_rel" ]. ofender_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ofender" >, SYNSEM.LKEYS.KEYREL.PRED "_ofender_v_rel" ]. ofender_v3 := v_trans_np_caus_le & [ STEM < "ofender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_ofender_v_rel" ] ]. ofensivamente_x1 := av_i_spr_le & [ STEM < "ofensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ofensivamente_x_rel" ]. ofensivo_a1 := a_qual_intr_scopal_le & [ STEM < "ofensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ofensivo_a_rel" ]. ofensor_n1 := n_intr_count_le & [ STEM < "ofensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ofensor_n_rel" ] ]. oferente_n1 := n_intr_count_le & [ STEM < "oferente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oferente_n_rel" ] ]. ofertante_a1 := a_rel_nonprd_intr_le & [ STEM < "ofertante" >, SYNSEM.LKEYS.KEYREL.PRED "_ofertante_a_rel" ]. ofertante_n1 := n_intr_count_le & [ STEM < "ofertante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ofertante_n_rel" ] ]. ofertantemente_x1 := av_i_spr_le & [ STEM < "ofertantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ofertantemente_x_rel" ]. ofertar_v := v_ditrans*_le & [ STEM < "ofertar" >, SYNSEM.LKEYS.KEYREL.PRED "_ofertar_v_rel" ]. off-line_a1 := a_rel_nonprd_intr_le & [ STEM < "off-line" >, SYNSEM.LKEYS.KEYREL.PRED "_off-line_a_rel" ]. off_line_x1 := av_i_le & [ STEM < "off_line" >, SYNSEM.LKEYS.KEYREL.PRED "_off_line_x_rel" ]. offshore_a1 := a_rel_nonprd_intr_le & [ STEM < "offshore" >, SYNSEM.LKEYS.KEYREL.PRED "_offshore_a_rel" ]. oficial_a1 := a_rel_prd_le & [ STEM < "oficial" >, SYNSEM.LKEYS.KEYREL.PRED "_oficial_a_rel" ]. oficial_n1 := n_intr_count_le & [ STEM < "oficial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oficial_n_rel" ] ]. oficialidad_n1 := n_intr_coll_le & [ STEM < "oficialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oficialidad_n_rel" ] ]. oficialidad_n2 := n_ppcomp_uncount_le & [ STEM < "oficialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oficialidad_n_rel" ] ]. oficialismo_n1 := n_intr_uncount_le & [ STEM < "oficialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oficialismo_n_rel" ] ]. oficialista_n1 := n_intr_count_le & [ STEM < "oficialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oficialista_n_rel" ] ]. oficialización_n1 := n_trans_le & [ STEM < "oficialización" >, SYNSEM.LKEYS.KEYREL.PRED "_oficialización_n_rel" ]. oficializar_v1 := v_trans_cp_prop_fin_le & [ STEM < "oficializar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_oficializar_v_rel" ] ]. oficializar_v2 := v_trans_np_le & [ STEM < "oficializar" >, SYNSEM.LKEYS.KEYREL.PRED "_oficializar_v_rel" ]. oficialmente_x1 := av_i_spr_le & [ STEM < "oficialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_oficialmente_x_rel" ]. oficiar_v := v_trans_np*_le & [ STEM < "oficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_oficiar_v_rel" ]. oficina_n1 := n_intr_count_le & [ STEM < "oficina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_oficina_n_rel" ] ]. oficinista_n1 := n_intr_count_le & [ STEM < "oficinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oficinista_n_rel" ] ]. oficiosamente_x1 := av_i_spr_le & [ STEM < "oficiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oficiosamente_x_rel" ]. oficioso_a1 := a_rel_nonprd_intr_le & [ STEM < "oficioso" >, SYNSEM.LKEYS.KEYREL.PRED "_oficioso_a_rel" ]. ofidio_n1 := n_intr_count_le & [ STEM < "ofidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ofidio_n_rel" ] ]. ofimático_a1 := a_rel_nonprd_intr_le & [ STEM < "ofimático" >, SYNSEM.LKEYS.KEYREL.PRED "_ofimático_a_rel" ]. ofrecedor_n1 := n_subj-nom_le & [ STEM < "ofrecedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ofrecedor_n_rel" ] ]. ofrecer_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ofrecer_v_rel" ] ]. ofrecer_v2 := v_ditrans*_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ofrecer_v_rel" ]. ofrecer_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ofrecer_v_rel" ] ]. ofrecer_v4 := v_pron_intr_mrkd_np_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ofrecer_v_rel" ] ]. ofrecer_v5 := v_pron_unacc_lcomp_loc*_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ofrecer_v_rel" ]. ofrecer_v6 := v_subj_cp_prop_ditrans*_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS.KEYREL.PRED "_ofrecer_v_rel" ]. ofrecer_v7 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_ofrecer_v_rel" ] ] ]. ofrecer_v8 := v_trans_np_mrkd_np_le & [ STEM < "ofrecer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_ofrecer_v_rel" ] ] ]. ofrecimiento_n1 := n_trans_le & [ STEM < "ofrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ofrecimiento_n_rel" ]. ofrendar_v := v_ditrans*_le & [ STEM < "ofrendar" >, SYNSEM.LKEYS.KEYREL.PRED "_ofrendar_v_rel" ]. oftalmodinamometría_n1 := n_intr_uncount_le & [ STEM < "oftalmodinamometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmodinamometría_n_rel" ] ]. oftalmodinamómetro_n1 := n_intr_count_le & [ STEM < "oftalmodinamómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmodinamómetro_n_rel" ] ]. oftalmoeiconómetro_n1 := n_intr_count_le & [ STEM < "oftalmoeiconómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmoeiconómetro_n_rel" ] ]. oftalmoflebotomía_n1 := n_intr_uncount_le & [ STEM < "oftalmoflebotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmoflebotomía_n_rel" ] ]. oftalmografía_n1 := n_intr_count_le & [ STEM < "oftalmografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmografía_n_rel" ] ]. oftalmoleucoscopio_n1 := n_intr_count_le & [ STEM < "oftalmoleucoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmoleucoscopio_n_rel" ] ]. oftalmología_n1 := n_intr_uncount_le & [ STEM < "oftalmología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmología_n_rel" ] ]. oftalmológico_a1 := a_rel_nonprd_intr_le & [ STEM < "oftalmológico" >, SYNSEM.LKEYS.KEYREL.PRED "_oftalmológico_a_rel" ]. oftalmometría_n1 := n_intr_uncount_pl_le & [ STEM < "oftalmometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmometría_n_rel" ] ]. oftalmomiotomía_n1 := n_intr_uncount_le & [ STEM < "oftalmomiotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmomiotomía_n_rel" ] ]. oftalmoneuritis_n1 := n_intr_count_le & [ STEM < "oftalmoneuritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmoneuritis_n_rel" ] ]. oftalmopatía_n1 := n_intr_uncount_pl_le & [ STEM < "oftalmopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmopatía_n_rel" ] ]. oftalmoplejía_n1 := n_intr_uncount_pl_le & [ STEM < "oftalmoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmoplejía_n_rel" ] ]. oftalmopléjico_a1 := a_rel_nonprd_intr_le & [ STEM < "oftalmopléjico" >, SYNSEM.LKEYS.KEYREL.PRED "_oftalmopléjico_a_rel" ]. oftalmorragia_n1 := n_intr_uncount_le & [ STEM < "oftalmorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmorragia_n_rel" ] ]. oftalmorreacción_n1 := n_intr_count_le & [ STEM < "oftalmorreacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmorreacción_n_rel" ] ]. oftalmoscopio_n1 := n_intr_count_le & [ STEM < "oftalmoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmoscopio_n_rel" ] ]. oftalmotermómetro_n1 := n_intr_count_le & [ STEM < "oftalmotermómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmotermómetro_n_rel" ] ]. oftalmotomía_n1 := n_intr_uncount_le & [ STEM < "oftalmotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmotomía_n_rel" ] ]. oftalmotonometría_n1 := n_intr_uncount_le & [ STEM < "oftalmotonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmotonometría_n_rel" ] ]. oftalmotropómetro_n1 := n_intr_count_le & [ STEM < "oftalmotropómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmotropómetro_n_rel" ] ]. oftalmía_n1 := n_intr_uncount_le & [ STEM < "oftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmía_n_rel" ] ]. oftalmógrafo_n1 := n_intr_count_le & [ STEM < "oftalmógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmógrafo_n_rel" ] ]. oftalmólogo_n1 := n_intr_count_le & [ STEM < "oftalmólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oftalmólogo_n_rel" ] ]. oftalmómetro_n1 := n_intr_count_le & [ STEM < "oftalmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oftalmómetro_n_rel" ] ]. oftálmico_a1 := a_rel_nonprd_intr_le & [ STEM < "oftálmico" >, SYNSEM.LKEYS.KEYREL.PRED "_oftálmico_a_rel" ]. ofuscación_n1 := n_intr_mass-or-count_le & [ STEM < "ofuscación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ofuscación_n_rel" ] ]. ofuscamiento_n1 := n_intr_mass_le & [ STEM < "ofuscamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ofuscamiento_n_rel" ] ]. ofuscar_v1 := v_intr_io*_le & [ STEM < "ofuscar" >, SYNSEM.LKEYS.KEYREL.PRED "_ofuscar_v_rel" ]. ofuscar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ofuscar" >, SYNSEM.LKEYS.KEYREL.PRED "_ofuscar_v_rel" ]. ofuscar_v3 := v_trans_np_caus_le & [ STEM < "ofuscar" >, SYNSEM.LKEYS.KEYREL.PRED "_ofuscar_v_rel" ]. ogro_n1 := n_intr_count_le & [ STEM < "ogro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ogro_n_rel" ] ]. ohm_n := n_intr_count_le & [ STEM < "ohm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ohm_n_rel" ] ]. ohmio_n := n_intr_count_le & [ STEM < "ohmio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ohmio_n_rel" ] ]. ohmmetro_n1 := n_intr_count_le & [ STEM < "ohmmetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ohmmetro_n_rel" ] ]. oir_v4 := v_osr_le & [ STEM < "oir" >, SYNSEM.LKEYS.KEYREL.PRED "_oir_v_rel" ]. ojal_n1 := n_intr_count_le & [ STEM < "ojal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ojal_n_rel" ] ]. ojeada_n1 := n_trans_le & [ STEM < "ojeada" >, SYNSEM.LKEYS.KEYREL.PRED "_ojeada_n_rel" ]. ojeador_n1 := n_subj-nom_le & [ STEM < "ojeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ojeador_n_rel" ] ]. ojear_v := v_trans_np_le & [ STEM < "ojear" >, SYNSEM.LKEYS.KEYREL.PRED "_ojear_v_rel" ]. ojera_n1 := n_ppcomp_count_le & [ STEM < "ojera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ojera_n_rel" ] ]. ojeroso_a1 := a_qual_intr_estar_le & [ STEM < "ojeroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ojeroso_a_rel" ]. ojete_n1 := n_intr_count_le & [ STEM < "ojete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ojete_n_rel" ] ]. ojito_n2 := n_ppcomp_count_le & [ STEM < "ojito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ojito_n_rel" ] ]. ojo_n1 := n_ppcomp_count_le & [ STEM < "ojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ojo_n_rel" ] ]. ok_a1 := a_qual_intr_estar_le & [ STEM < "ok" >, SYNSEM.LKEYS.KEYREL.PRED "_ok_a_rel" ]. okume_n1 := n_intr_count_le & [ STEM < "okume" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_okume_n_rel" ] ]. okupa_n1 := n_intr_count_le & [ STEM < "okupa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_okupa_n_rel" ] ]. ola_de_calor_n1 := n_intr_count_le & [ STEM < "ola_de_calor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ola_de_calor_n_rel" ] ]. ola_n1 := n_intr_count_le & [ STEM < "ola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ola_n_rel" ] ]. oleada_n1 := n_intr_count_le & [ STEM < "oleada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oleada_n_rel" ] ]. oleaginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "oleaginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_oleaginoso_a_rel" ]. oleaje_n1 := n_intr_mass_le & [ STEM < "oleaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oleaje_n_rel" ] ]. oleamida_n1 := n_intr_count_le & [ STEM < "oleamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oleamida_n_rel" ] ]. oleato_n1 := n_intr_count_le & [ STEM < "oleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oleato_n_rel" ] ]. olecraniano_a1 := a_rel_nonprd_intr_le & [ STEM < "olecraniano" >, SYNSEM.LKEYS.KEYREL.PRED "_olecraniano_a_rel" ]. olefina_n1 := n_intr_mass_le & [ STEM < "olefina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_olefina_n_rel" ] ]. oleico_a1 := a_rel_nonprd_intr_le & [ STEM < "oleico" >, SYNSEM.LKEYS.KEYREL.PRED "_oleico_a_rel" ]. oleicultor_n1 := n_intr_count_le & [ STEM < "oleicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oleicultor_n_rel" ] ]. oleoandomicina_n1 := n_intr_count_le & [ STEM < "oleoandomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oleoandomicina_n_rel" ] ]. oleoducto_n1 := n_intr_count_le & [ STEM < "oleoducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oleoducto_n_rel" ] ]. oleoneumático_a1 := a_rel_nonprd_intr_le & [ STEM < "oleoneumático" >, SYNSEM.LKEYS.KEYREL.PRED "_oleoneumático_a_rel" ]. oleoplasto_n1 := n_intr_count_le & [ STEM < "oleoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oleoplasto_n_rel" ] ]. oleorresina_n1 := n_intr_count_le & [ STEM < "oleorresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oleorresina_n_rel" ] ]. oleoso_a1 := a_qual_intr_scopal_le & [ STEM < "oleoso" >, SYNSEM.LKEYS.KEYREL.PRED "_oleoso_a_rel" ]. oler_v1 := v_intr_le & [ STEM < "oler" >, SYNSEM.LKEYS.KEYREL.PRED "_oler_v_rel" ]. oler_v2 := v_intr_mrkd_np_le & [ STEM < "oler" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_oler_v_rel" ] ]. oler_v3 := v_trans_cp_prop_fin_le & [ STEM < "oler" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_oler_v_rel" ] ]. oler_v4 := v_trans_np_le & [ STEM < "oler" >, SYNSEM.LKEYS.KEYREL.PRED "_oler_v_rel" ]. oleína_n1 := n_intr_count_le & [ STEM < "oleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oleína_n_rel" ] ]. oleófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "oleófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_oleófilo_a_rel" ]. oleómetro_n1 := n_intr_count_le & [ STEM < "oleómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oleómetro_n_rel" ] ]. olfacción_n1 := n_trans_le & [ STEM < "olfacción" >, SYNSEM.LKEYS.KEYREL.PRED "_olfacción_n_rel" ]. olfatear_v1 := v_trans_cp_prop_fin_le & [ STEM < "olfatear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_olfatear_v_rel" ] ]. olfatear_v2 := v_trans_np_le & [ STEM < "olfatear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_olfatear_v_rel" ] ]. olfativo_a1 := a_rel_nonprd_intr_le & [ STEM < "olfativo" >, SYNSEM.LKEYS.KEYREL.PRED "_olfativo_a_rel" ]. olfato_n1 := n_intr_uncount_le & [ STEM < "olfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olfato_n_rel" ] ]. olfato_n2 := n_intr_count_le & [ STEM < "olfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olfato_n_rel" ] ]. olfatometría_n1 := n_intr_uncount_pl_le & [ STEM < "olfatometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olfatometría_n_rel" ] ]. olfatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "olfatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_olfatorio_a_rel" ]. olfatómetro_n1 := n_intr_count_le & [ STEM < "olfatómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_olfatómetro_n_rel" ] ]. oligarca_n1 := n_intr_count_le & [ STEM < "oligarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oligarca_n_rel" ] ]. oligarquía_n1 := n_intr_coll_le & [ STEM < "oligarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oligarquía_n_rel" ] ]. oligoceno_n1 := n_intr_count_le & [ STEM < "oligoceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_oligoceno_n_rel" ] ]. oligoclasa_n1 := n_intr_count_le & [ STEM < "oligoclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oligoclasa_n_rel" ] ]. oligoclonal_a1 := a_rel_nonprd_intr_le & [ STEM < "oligoclonal" >, SYNSEM.LKEYS.KEYREL.PRED "_oligoclonal_a_rel" ]. oligodendrocito_n1 := n_intr_count_le & [ STEM < "oligodendrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oligodendrocito_n_rel" ] ]. oligoelemento_n1 := n_intr_count_le & [ STEM < "oligoelemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oligoelemento_n_rel" ] ]. oligogén_n1 := n_intr_count_le & [ STEM < "oligogén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oligogén_n_rel" ] ]. oligomerización_n1 := n_intr_uncount_le & [ STEM < "oligomerización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oligomerización_n_rel" ] ]. oligopólico_a1 := a_rel_nonprd_intr_le & [ STEM < "oligopólico" >, SYNSEM.LKEYS.KEYREL.PRED "_oligopólico_a_rel" ]. oligosacárido_n1 := n_intr_count_le & [ STEM < "oligosacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oligosacárido_n_rel" ] ]. oligotrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "oligotrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_oligotrófico_a_rel" ]. oligárquico_a1 := a_rel_nonprd_intr_le & [ STEM < "oligárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_oligárquico_a_rel" ]. oligómero_n1 := n_intr_mass-or-count_le & [ STEM < "oligómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_oligómero_n_rel" ] ]. olimpiada_n1 := n_intr_count_le & [ STEM < "olimpiada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olimpiada_n_rel" ] ]. olimpismo_n1 := n_intr_uncount_le & [ STEM < "olimpismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olimpismo_n_rel" ] ]. olimpo_n1 := n_intr_count_le & [ STEM < "olimpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_olimpo_n_rel" ] ]. olimpíada_n1 := n_intr_count_le & [ STEM < "olimpíada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olimpíada_n_rel" ] ]. olisquear_v := v_trans_np*_le & [ STEM < "olisquear" >, SYNSEM.LKEYS.KEYREL.PRED "_olisquear_v_rel" ]. oliva_n1 := n_intr_count_le & [ STEM < "oliva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oliva_n_rel" ] ]. olivar_n1 := n_intr_count_le & [ STEM < "olivar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_olivar_n_rel" ] ]. olivarero_a1 := a_rel_nonprd_intr_le & [ STEM < "olivarero" >, SYNSEM.LKEYS.KEYREL.PRED "_olivarero_a_rel" ]. olivarero_n1 := n_intr_count_le & [ STEM < "olivarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_olivarero_n_rel" ] ]. olivenita_n1 := n_intr_count_le & [ STEM < "olivenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_olivenita_n_rel" ] ]. olivera_n1 := n_intr_count_le & [ STEM < "olivera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_olivera_n_rel" ] ]. olivino_n1 := n_intr_count_le & [ STEM < "olivino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_olivino_n_rel" ] ]. olivo_n1 := n_intr_count_le & [ STEM < "olivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_olivo_n_rel" ] ]. oliváceo_a1 := a_rel_nonprd_intr_le & [ STEM < "oliváceo" >, SYNSEM.LKEYS.KEYREL.PRED "_oliváceo_a_rel" ]. olla_n1 := n_intr_count_le & [ STEM < "olla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_olla_n_rel" ] ]. ollar_n1 := n_intr_count_le & [ STEM < "ollar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ollar_n_rel" ] ]. olmeda_n1 := n_intr_count_le & [ STEM < "olmeda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_olmeda_n_rel" ] ]. olmo_n1 := n_intr_count_le & [ STEM < "olmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_olmo_n_rel" ] ]. olor_n1 := n_intr_mass_le & [ STEM < "olor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_olor_n_rel" ] ]. oloroso_a1 := a_qual_intr_scopal_le & [ STEM < "oloroso" >, SYNSEM.LKEYS.KEYREL.PRED "_oloroso_a_rel" ]. olvidadizo_a1 := a_qual_intr_ser_le & [ STEM < "olvidadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_olvidadizo_a_rel" ]. olvidar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "olvidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ] ]. olvidar_v2 := v_pron_intr_mrkd_cp_semi_ques_le & [ STEM < "olvidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ] ]. olvidar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "olvidar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ] ]. olvidar_v4 := v_pron_trans_np_le & [ STEM < "olvidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ]. olvidar_v5 := v_trans_cp_prop_fin_ind_le & [ STEM < "olvidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ]. olvidar_v6 := v_trans_cp_semi_ques_le & [ STEM < "olvidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ]. olvidar_v7 := v_trans_np*_le & [ STEM < "olvidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_olvidar_v_rel" ] ]. olvido_n1 := n_intr_uncount_pl_le & [ STEM < "olvido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_olvido_n_rel" ] ]. olímpicamente_x1 := av_i_spr_le & [ STEM < "olímpicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_olímpicamente_x_rel" ]. olímpico_a1 := a_rel_nonprd_intr_le & [ STEM < "olímpico" >, SYNSEM.LKEYS.KEYREL.PRED "_olímpico_a_rel" ]. ológrafo_a1 := a_rel_nonprd_intr_le & [ STEM < "ológrafo" >, SYNSEM.LKEYS.KEYREL.PRED "_ológrafo_a_rel" ]. ológrafo_n1 := n_intr_count_le & [ STEM < "ológrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ológrafo_n_rel" ] ]. omaní_a1 := a_rel_prd_le & [ STEM < "omaní" >, SYNSEM.LKEYS.KEYREL.PRED "_omaní_a_rel" ]. omaní_n1 := n_intr_count_le & [ STEM < "omaní" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_omaní_n_rel" ] ]. ombligo_n1 := n_intr_count_le & [ STEM < "ombligo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ombligo_n_rel" ] ]. omental_a1 := a_rel_nonprd_intr_le & [ STEM < "omental" >, SYNSEM.LKEYS.KEYREL.PRED "_omental_a_rel" ]. omento_n1 := n_intr_count_le & [ STEM < "omento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_omento_n_rel" ] ]. ominosamente_x1 := av_i_spr_le & [ STEM < "ominosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ominosamente_x_rel" ]. ominoso_a1 := a_qual_intr_scopal_le & [ STEM < "ominoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ominoso_a_rel" ]. omisible_a1 := a_rel_prd_le & [ STEM < "omisible" >, SYNSEM.LKEYS.KEYREL.PRED "_omisible_a_rel" ]. omisión_n1 := n_trans_le & [ STEM < "omisión" >, SYNSEM.LKEYS.KEYREL.PRED "_omisión_n_rel" ]. omiso_a1 := a_qual_intr_estar_le & [ STEM < "omiso" >, SYNSEM.LKEYS.KEYREL.PRED "_omiso_a_rel" ]. omitir_v1 := v_trans_cp_prop_fin_le & [ STEM < "omitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_omitir_v_rel" ] ]. omitir_v2 := v_trans_np_le & [ STEM < "omitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_omitir_v_rel" ] ]. omnidireccional_a1 := a_rel_prd_le & [ STEM < "omnidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_omnidireccional_a_rel" ]. omnipotencia_n1 := n_intr_uncount_le & [ STEM < "omnipotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_omnipotencia_n_rel" ] ]. omnipotente_a1 := a_rel_prd_le & [ STEM < "omnipotente" >, SYNSEM.LKEYS.KEYREL.PRED "_omnipotente_a_rel" ]. omnipotentemente_x1 := av_i_spr_le & [ STEM < "omnipotentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_omnipotentemente_x_rel" ]. omnipresencia_n1 := n_intr_uncount_le & [ STEM < "omnipresencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_omnipresencia_n_rel" ] ]. omnipresente_a1 := a_qual_intr_ser_le & [ STEM < "omnipresente" >, SYNSEM.LKEYS.KEYREL.PRED "_omnipresente_a_rel" ]. omnisciencia_n1 := n_intr_uncount_le & [ STEM < "omnisciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_omnisciencia_n_rel" ] ]. omnisciente_a1 := a_rel_prd_le & [ STEM < "omnisciente" >, SYNSEM.LKEYS.KEYREL.PRED "_omnisciente_a_rel" ]. omnívoro_a1 := a_rel_prd_le & [ STEM < "omnívoro" >, SYNSEM.LKEYS.KEYREL.PRED "_omnívoro_a_rel" ]. omoclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "omoclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_omoclavicular_a_rel" ]. omohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "omohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_omohioideo_a_rel" ]. omóplato_n1 := n_ppcomp_count_le & [ STEM < "omóplato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_omóplato_n_rel" ] ]. on-line_a1 := a_rel_nonprd_intr_le & [ STEM < "on-line" >, SYNSEM.LKEYS.KEYREL.PRED "_on-line_a_rel" ]. on_line_x1 := av_i_le & [ STEM < "on_line" >, SYNSEM.LKEYS.KEYREL.PRED "_on_line_x_rel" ]. oncofetal_a1 := a_rel_nonprd_intr_le & [ STEM < "oncofetal" >, SYNSEM.LKEYS.KEYREL.PRED "_oncofetal_a_rel" ]. oncogén_n1 := n_intr_count_le & [ STEM < "oncogén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oncogén_n_rel" ] ]. oncología_n1 := n_intr_uncount_le & [ STEM < "oncología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oncología_n_rel" ] ]. oncológico_a1 := a_rel_nonprd_intr_le & [ STEM < "oncológico" >, SYNSEM.LKEYS.KEYREL.PRED "_oncológico_a_rel" ]. oncógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "oncógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_oncógeno_a_rel" ]. oncólogo_n1 := n_intr_count_le & [ STEM < "oncólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oncólogo_n_rel" ] ]. oncótico_a1 := a_rel_nonprd_intr_le & [ STEM < "oncótico" >, SYNSEM.LKEYS.KEYREL.PRED "_oncótico_a_rel" ]. ondear_v := v_trans_np_caus_int_non-perf_le & [ STEM < "ondear" >, SYNSEM.LKEYS.KEYREL.PRED "_ondear_v_rel" ]. ondulación_n1 := n_trans_le & [ STEM < "ondulación" >, SYNSEM.LKEYS.KEYREL.PRED "_ondulación_n_rel" ]. ondulador_n1 := n_intr_count_le & [ STEM < "ondulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ondulador_n_rel" ] ]. ondulante_a1 := a_qual_intr_scopal_le & [ STEM < "ondulante" >, SYNSEM.LKEYS.KEYREL.PRED "_ondulante_a_rel" ]. ondulantemente_x1 := av_i_spr_le & [ STEM < "ondulantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ondulantemente_x_rel" ]. ondular_v := v_trans_np_caus_le & [ STEM < "ondular" >, SYNSEM.LKEYS.KEYREL.PRED "_ondular_v_rel" ]. ondulatoriamente_x1 := av_i_spr_le & [ STEM < "ondulatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ondulatoriamente_x_rel" ]. ondulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "ondulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_ondulatorio_a_rel" ]. oneroso_a1 := a_qual_intr_scopal_le & [ STEM < "oneroso" >, SYNSEM.LKEYS.KEYREL.PRED "_oneroso_a_rel" ]. onfalomesentérico_a1 := a_rel_nonprd_intr_le & [ STEM < "onfalomesentérico" >, SYNSEM.LKEYS.KEYREL.PRED "_onfalomesentérico_a_rel" ]. onirismo_n1 := n_intr_uncount_le & [ STEM < "onirismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onirismo_n_rel" ] ]. onomasiología_n1 := n_intr_uncount_le & [ STEM < "onomasiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onomasiología_n_rel" ] ]. onomasiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "onomasiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_onomasiológico_a_rel" ]. onomatopéyico_a1 := a_rel_nonprd_intr_le & [ STEM < "onomatopéyico" >, SYNSEM.LKEYS.KEYREL.PRED "_onomatopéyico_a_rel" ]. onomástico_a1 := a_rel_nonprd_intr_le & [ STEM < "onomástico" >, SYNSEM.LKEYS.KEYREL.PRED "_onomástico_a_rel" ]. ontología_n1 := n_intr_count_le & [ STEM < "ontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ontología_n_rel" ] ]. ontológico_a1 := a_rel_nonprd_intr_le & [ STEM < "ontológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ontológico_a_rel" ]. onubense_n1 := n_intr_count_le & [ STEM < "onubense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_onubense_n_rel" ] ]. onza_n1 := n_pseudo-part_le & [ STEM < "onza" >, SYNSEM.LKEYS.KEYREL.PRED "_onza_n_rel" ]. onírico_a1 := a_rel_nonprd_intr_le & [ STEM < "onírico" >, SYNSEM.LKEYS.KEYREL.PRED "_onírico_a_rel" ]. oocito_n1 := n_intr_count_le & [ STEM < "oocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oocito_n_rel" ] ]. oolito_n1 := n_intr_count_le & [ STEM < "oolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oolito_n_rel" ] ]. opacamente_x1 := av_i_spr_le & [ STEM < "opacamente" >, SYNSEM.LKEYS.KEYREL.PRED "_opacamente_x_rel" ]. opacar_v := v_trans_np_caus_le & [ STEM < "opacar" >, SYNSEM.LKEYS.KEYREL.PRED "_opacar_v_rel" ]. opacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "opacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opacidad_n_rel" ] ]. opacificador_n1 := n_intr_count_le & [ STEM < "opacificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opacificador_n_rel" ] ]. opaco_a1 := a_qual_intr_scopal_le & [ STEM < "opaco" >, SYNSEM.LKEYS.KEYREL.PRED "_opaco_a_rel" ]. opacímetro_n1 := n_intr_count_le & [ STEM < "opacímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_opacímetro_n_rel" ] ]. opalescencia_n1 := n_intr_uncount_le & [ STEM < "opalescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opalescencia_n_rel" ] ]. opalescente_a1 := a_qual_intr_ser_le & [ STEM < "opalescente" >, SYNSEM.LKEYS.KEYREL.PRED "_opalescente_a_rel" ]. opalescentemente_x1 := av_i_spr_le & [ STEM < "opalescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_opalescentemente_x_rel" ]. opalino_a1 := a_qual_intr_ser_le & [ STEM < "opalino" >, SYNSEM.LKEYS.KEYREL.PRED "_opalino_a_rel" ]. opalizar_v := v_trans_np_caus_le & [ STEM < "opalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_opalizar_v_rel" ]. opcional_a1 := a_rel_prd_le & [ STEM < "opcional" >, SYNSEM.LKEYS.KEYREL.PRED "_opcional_a_rel" ]. opcionalidad_n1 := n_intr_mass-or-count_le & [ STEM < "opcionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opcionalidad_n_rel" ] ]. opcionalmente_x1 := av_i_spr_le & [ STEM < "opcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_opcionalmente_x_rel" ]. opción_n1 := n_intr_count_le & [ STEM < "opción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opción_n_rel" ] ]. operabilidad_n1 := n_intr_uncount_le & [ STEM < "operabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_operabilidad_n_rel" ] ]. operable_a1 := a_rel_prd_le & [ STEM < "operable" >, SYNSEM.LKEYS.KEYREL.PRED "_operable_a_rel" ]. operacional_a1 := a_rel_nonprd_intr_le & [ STEM < "operacional" >, SYNSEM.LKEYS.KEYREL.PRED "_operacional_a_rel" ]. operacionalismo_n1 := n_intr_uncount_le & [ STEM < "operacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_operacionalismo_n_rel" ] ]. operación_n1 := n_intr_count_le & [ STEM < "operación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_operación_n_rel" ] ]. operador_a1 := a_rel_nonprd_intr_le & [ STEM < "operador" >, SYNSEM.LKEYS.KEYREL.PRED "_operador_a_rel" ]. operador_n1 := n_intr_count_le & [ STEM < "operador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_operador_n_rel" ] ]. operador_n2 := n_subj-nom_le & [ STEM < "operador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_operador_n_rel" ] ]. operario_n1 := n_intr_count_le & [ STEM < "operario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_operario_n_rel" ] ]. operativamente_x1 := av_i_spr_le & [ STEM < "operativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_operativamente_x_rel" ]. operatividad_n1 := n_intr_mass-or-count_le & [ STEM < "operatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_operatividad_n_rel" ] ]. operativo_a1 := a_rel_nonprd_intr_le & [ STEM < "operativo" >, SYNSEM.LKEYS.KEYREL.PRED "_operativo_a_rel" ]. operatoriamente_x1 := av_i_spr_le & [ STEM < "operatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_operatoriamente_x_rel" ]. operatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "operatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_operatorio_a_rel" ]. opereta_n1 := n_intr_count_le & [ STEM < "opereta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_opereta_n_rel" ] ]. operístico_a1 := a_rel_nonprd_intr_le & [ STEM < "operístico" >, SYNSEM.LKEYS.KEYREL.PRED "_operístico_a_rel" ]. opiato_n1 := n_intr_count_le & [ STEM < "opiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_opiato_n_rel" ] ]. opinable_a1 := a_rel_prd_le & [ STEM < "opinable" >, SYNSEM.LKEYS.KEYREL.PRED "_opinable_a_rel" ]. opinar_v1 := v_trans_cp_prop_fin_le & [ STEM < "opinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_opinar_v_rel" ] ]. opinar_v2 := v_trans_cp_semi_ques_le & [ STEM < "opinar" >, SYNSEM.LKEYS.KEYREL.PRED "_opinar_v_rel" ]. opinar_v3 := v_trans_np_le & [ STEM < "opinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_opinar_v_rel" ] ]. opinativo_a1 := a_rel_nonprd_intr_le & [ STEM < "opinativo" >, SYNSEM.LKEYS.KEYREL.PRED "_opinativo_a_rel" ]. opinión_n1 := n_intr_count_le & [ STEM < "opinión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opinión_n_rel" ] ]. opio_n1 := n_intr_mass_le & [ STEM < "opio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_opio_n_rel" ] ]. opisómetro_n1 := n_intr_count_le & [ STEM < "opisómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_opisómetro_n_rel" ] ]. opiáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "opiáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_opiáceo_a_rel" ]. oponente_n1 := n_intr_count_le & [ STEM < "oponente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oponente_n_rel" ] ]. oponer_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "oponer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_oponer_v_rel" ] ]. oponer_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "oponer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_oponer_v_rel" ] ]. oponer_v3 := v_trans_np_mrkd_np*_le & [ STEM < "oponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_oponer_v_rel" ] ]. oporto_n1 := n_intr_count_le & [ STEM < "oporto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oporto_n_rel" ] ]. oportunamente_x1 := av_i_spr_le & [ STEM < "oportunamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oportunamente_x_rel" ]. oportunidad_n1 := n_intr_count_le & [ STEM < "oportunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oportunidad_n_rel" ] ]. oportunismo_n1 := n_ppcomp_uncount_le & [ STEM < "oportunismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oportunismo_n_rel" ] ]. oportunista_a1 := a_qual_intr_scopal_le & [ STEM < "oportunista" >, SYNSEM.LKEYS.KEYREL.PRED "_oportunista_a_rel" ]. oportunista_n1 := n_intr_count_le & [ STEM < "oportunista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oportunista_n_rel" ] ]. oportuno_a1 := a_qual_intr_scopal_le & [ STEM < "oportuno" >, SYNSEM.LKEYS.KEYREL.PRED "_oportuno_a_rel" ]. oposición_n1 := n_intr_count_le & [ STEM < "oposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_oposición_n_rel" ] ]. opositor_n1 := n_intr_count_le & [ STEM < "opositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_opositor_n_rel" ] ]. opresivamente_x1 := av_i_spr_le & [ STEM < "opresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_opresivamente_x_rel" ]. opresivo_a1 := a_qual_intr_scopal_le & [ STEM < "opresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_opresivo_a_rel" ]. opresión_n1 := n_trans_le & [ STEM < "opresión" >, SYNSEM.LKEYS.KEYREL.PRED "_opresión_n_rel" ]. opresor_n1 := n_subj-nom_le & [ STEM < "opresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_opresor_n_rel" ] ]. oprimir_v := v_trans_np_le & [ STEM < "oprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_oprimir_v_rel" ]. oprobioso_a1 := a_qual_intr_scopal_le & [ STEM < "oprobioso" >, SYNSEM.LKEYS.KEYREL.PRED "_oprobioso_a_rel" ]. opsoclonía_n1 := n_intr_uncount_le & [ STEM < "opsoclonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opsoclonía_n_rel" ] ]. opsonina_n1 := n_intr_mass-or-count_le & [ STEM < "opsonina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_opsonina_n_rel" ] ]. opsonización_n1 := n_intr_uncount_le & [ STEM < "opsonización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opsonización_n_rel" ] ]. opsonizar_v := v_trans_np_le & [ STEM < "opsonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_opsonizar_v_rel" ]. optativamente_x1 := av_i_spr_le & [ STEM < "optativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_optativamente_x_rel" ]. optativo_a1 := a_rel_prd_le & [ STEM < "optativo" >, SYNSEM.LKEYS.KEYREL.PRED "_optativo_a_rel" ]. opticoestriado_a1 := a_rel_nonprd_intr_le & [ STEM < "opticoestriado" >, SYNSEM.LKEYS.KEYREL.PRED "_opticoestriado_a_rel" ]. optimación_n1 := n_trans_le & [ STEM < "optimación" >, SYNSEM.LKEYS.KEYREL.PRED "_optimación_n_rel" ]. optimal_a1 := a_rel_nonprd_intr_le & [ STEM < "optimal" >, SYNSEM.LKEYS.KEYREL.PRED "_optimal_a_rel" ]. optimismo_n1 := n_ppcomp_uncount_le & [ STEM < "optimismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_optimismo_n_rel" ] ]. optimista_a1 := a_qual_intr_ser_le & [ STEM < "optimista" >, SYNSEM.LKEYS.KEYREL.PRED "_optimista_a_rel" ]. optimización_n1 := n_trans_le & [ STEM < "optimización" >, SYNSEM.LKEYS.KEYREL.PRED "_optimización_n_rel" ]. optimizador_n1 := n_intr_count_le & [ STEM < "optimizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_optimizador_n_rel" ] ]. optimizar_v := v_trans_np_le & [ STEM < "optimizar" >, SYNSEM.LKEYS.KEYREL.PRED "_optimizar_v_rel" ]. optocinético_a1 := a_rel_nonprd_intr_le & [ STEM < "optocinético" >, SYNSEM.LKEYS.KEYREL.PRED "_optocinético_a_rel" ]. optoelectrónicamente_x1 := av_i_spr_le & [ STEM < "optoelectrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_optoelectrónicamente_x_rel" ]. optoelectrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "optoelectrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_optoelectrónico_a_rel" ]. optometrista_n1 := n_intr_count_le & [ STEM < "optometrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_optometrista_n_rel" ] ]. optometría_n1 := n_intr_uncount_pl_le & [ STEM < "optometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_optometría_n_rel" ] ]. optomiómetro_n1 := n_intr_count_le & [ STEM < "optomiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_optomiómetro_n_rel" ] ]. optométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "optométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_optométrico_a_rel" ]. optómetro_n1 := n_intr_count_le & [ STEM < "optómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_optómetro_n_rel" ] ]. opuestamente_x1 := av_i_spr_le & [ STEM < "opuestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_opuestamente_x_rel" ]. opuesto_a1 := a_qual_intr_ser_le & [ STEM < "opuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_opuesto_a_rel" ]. opuesto_a2 := a_qual_trans*_estar_le & [ STEM < "opuesto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_opuesto_a_rel" ] ]. opugnar_v := v_trans_np_le & [ STEM < "opugnar" >, SYNSEM.LKEYS.KEYREL.PRED "_opugnar_v_rel" ]. opulencia_n1 := n_intr_uncount_le & [ STEM < "opulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opulencia_n_rel" ] ]. opulentamente_x1 := av_i_spr_le & [ STEM < "opulentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_opulentamente_x_rel" ]. opulento_a1 := a_qual_intr_scopal_le & [ STEM < "opulento" >, SYNSEM.LKEYS.KEYREL.PRED "_opulento_a_rel" ]. opérculo_n1 := n_ppcomp_count_le & [ STEM < "opérculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_opérculo_n_rel" ] ]. opíparamente_x1 := av_i_spr_le & [ STEM < "opíparamente" >, SYNSEM.LKEYS.KEYREL.PRED "_opíparamente_x_rel" ]. opíparo_a1 := a_rel_nonprd_intr_le & [ STEM < "opíparo" >, SYNSEM.LKEYS.KEYREL.PRED "_opíparo_a_rel" ]. opúsculo_n1 := n_intr_count_le & [ STEM < "opúsculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_opúsculo_n_rel" ] ]. oquedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "oquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oquedad_n_rel" ] ]. ora_cc1 := cc_distr_ora_le & [ STEM < "ora" > ]. ora_cc2 := cc_distr_ora-ora_le & [ STEM < "ora" > ]. oracional_a1 := a_rel_nonprd_intr_le & [ STEM < "oracional" >, SYNSEM.LKEYS.KEYREL.PRED "_oracional_a_rel" ]. oración_n1 := n_intr_count_le & [ STEM < "oración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oración_n_rel" ] ]. orador_n1 := n_intr_count_le & [ STEM < "orador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orador_n_rel" ] ]. oral_a1 := a_rel_nonprd_intr_le & [ STEM < "oral" >, SYNSEM.LKEYS.KEYREL.PRED "_oral_a_rel" ]. oralidad_n1 := n_intr_uncount_le & [ STEM < "oralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oralidad_n_rel" ] ]. oralmente_x1 := av_i_spr_le & [ STEM < "oralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_oralmente_x_rel" ]. orangista_a1 := a_rel_nonprd_intr_le & [ STEM < "orangista" >, SYNSEM.LKEYS.KEYREL.PRED "_orangista_a_rel" ]. orangután_n1 := n_intr_count_le & [ STEM < "orangután" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_orangután_n_rel" ] ]. oratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "oratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_oratorio_a_rel" ]. oratorio_n1 := n_intr_count_le & [ STEM < "oratorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_oratorio_n_rel" ] ]. orbicular_a1 := a_rel_nonprd_intr_le & [ STEM < "orbicular" >, SYNSEM.LKEYS.KEYREL.PRED "_orbicular_a_rel" ]. orbicularmente_x1 := av_i_spr_le & [ STEM < "orbicularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_orbicularmente_x_rel" ]. orbital_a1 := a_rel_nonprd_intr_le & [ STEM < "orbital" >, SYNSEM.LKEYS.KEYREL.PRED "_orbital_a_rel" ]. orbital_n1 := n_intr_count_le & [ STEM < "orbital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_orbital_n_rel" ] ]. orbitario_a1 := a_rel_nonprd_intr_le & [ STEM < "orbitario" >, SYNSEM.LKEYS.KEYREL.PRED "_orbitario_a_rel" ]. orbitonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "orbitonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_orbitonasal_a_rel" ]. orbitonometría_n1 := n_intr_uncount_le & [ STEM < "orbitonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orbitonometría_n_rel" ] ]. orbitonómetro_n1 := n_intr_count_le & [ STEM < "orbitonómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orbitonómetro_n_rel" ] ]. orbitotomía_n1 := n_intr_uncount_pl_le & [ STEM < "orbitotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orbitotomía_n_rel" ] ]. orca_n1 := n_intr_count_le & [ STEM < "orca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_orca_n_rel" ] ]. orcina_n1 := n_intr_count_le & [ STEM < "orcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orcina_n_rel" ] ]. ordalía_n1 := n_intr_count_le & [ STEM < "ordalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ordalía_n_rel" ] ]. orden_n1 := n_intr_mass-or-count_le & [ STEM < "orden" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_orden_n_rel" ] ]. ordenación_n1 := n_intr_count_le & [ STEM < "ordenación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ordenación_n_rel" ] ]. ordenada_n1 := n_intr_count_le & [ STEM < "ordenada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ordenada_n_rel" ] ]. ordenadamente_x1 := av_i_spr_le & [ STEM < "ordenadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ordenadamente_x_rel" ]. ordenador_a1 := a_rel_nonprd_intr_le & [ STEM < "ordenador" >, SYNSEM.LKEYS.KEYREL.PRED "_ordenador_a_rel" ]. ordenador_n1 := n_intr_count_le & [ STEM < "ordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ordenador_n_rel" ] ]. ordenamiento_n1 := n_trans_le & [ STEM < "ordenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ordenamiento_n_rel" ]. ordenante_a1 := a_rel_nonprd_intr_le & [ STEM < "ordenante" >, SYNSEM.LKEYS.KEYREL.PRED "_ordenante_a_rel" ]. ordenanza_n1 := n_intr_count_le & [ STEM < "ordenanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_sem, PRED "_ordenanza_n_rel" ] ]. ordenar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "ordenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ordenar_v_rel" ] ]. ordenar_v2 := v_ditrans*_le & [ STEM < "ordenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_ordenar_v_rel" ] ]. ordeñador_n1 := n_subj-nom_le & [ STEM < "ordeñador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ordeñador_n_rel" ] ]. ordeñadora_n1 := n_intr_count_le & [ STEM < "ordeñadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ordeñadora_n_rel" ] ]. ordeñar_v := v_trans_np*_le & [ STEM < "ordeñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani, PRED "_ordeñar_v_rel" ] ]. ordeño_n1 := n_trans_le & [ STEM < "ordeño" >, SYNSEM.LKEYS.KEYREL.PRED "_ordeño_n_rel" ]. ordinal_a1 := nu_ord-adj_le & [ STEM < "ao0ms0" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinal_a_rel" ]. ordinal_a2 := nu_ord-adj_le & [ STEM < "ao0mp0" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinal_a_rel" ]. ordinal_a3 := nu_ord-adj_le & [ STEM < "ao0fs0" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinal_a_rel" ]. ordinal_a4 := nu_ord-adj_le & [ STEM < "ao0fp0" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinal_a_rel" ]. ordinal_n1 := n_intr_count_le & [ STEM < "ordinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ordinal_n_rel" ] ]. ordinalmente_x1 := av_i_spr_le & [ STEM < "ordinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinalmente_x_rel" ]. ordinariamente_x1 := av_i_spr_le & [ STEM < "ordinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinariamente_x_rel" ]. ordinariez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ordinariez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ordinariez_n_rel" ] ]. ordinario_a1 := a_qual_intr_scopal_le & [ STEM < "ordinario" >, SYNSEM.LKEYS.KEYREL.PRED "_ordinario_a_rel" ]. ordinograma_n1 := n_intr_count_le & [ STEM < "ordinograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ordinograma_n_rel" ] ]. oreja_n1 := n_ppcomp_count_le & [ STEM < "oreja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_oreja_n_rel" ] ]. orejera_n1 := n_intr_count_le & [ STEM < "orejera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orejera_n_rel" ] ]. orejeta_n1 := n_intr_count_le & [ STEM < "orejeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orejeta_n_rel" ] ]. orejudo_a1 := a_qual_intr_ser_le & [ STEM < "orejudo" >, SYNSEM.LKEYS.KEYREL.PRED "_orejudo_a_rel" ]. orejuela_n1 := n_intr_count_le & [ STEM < "orejuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orejuela_n_rel" ] ]. orensano_n1 := n_intr_count_le & [ STEM < "orensano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orensano_n_rel" ] ]. oreo_n1 := n_trans_le & [ STEM < "oreo" >, SYNSEM.LKEYS.KEYREL.PRED "_oreo_n_rel" ]. orfanato_n1 := n_intr_count_le & [ STEM < "orfanato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_orfanato_n_rel" ] ]. orfandad_n1 := n_ppcomp_uncount_le & [ STEM < "orfandad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orfandad_n_rel" ] ]. orfebre_n1 := n_intr_count_le & [ STEM < "orfebre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orfebre_n_rel" ] ]. orfebrería_n1 := n_intr_uncount_le & [ STEM < "orfebrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orfebrería_n_rel" ] ]. orfelinato_n1 := n_intr_count_le & [ STEM < "orfelinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_orfelinato_n_rel" ] ]. orfeonista_n1 := n_intr_count_le & [ STEM < "orfeonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orfeonista_n_rel" ] ]. orfeón_n1 := n_intr_count_le & [ STEM < "orfeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_orfeón_n_rel" ] ]. organdí_n1 := n_intr_mass_le & [ STEM < "organdí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_organdí_n_rel" ] ]. organicismo_n1 := n_ppcomp_uncount_le & [ STEM < "organicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organicismo_n_rel" ] ]. organigrama_n1 := n_intr_count_le & [ STEM < "organigrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_organigrama_n_rel" ] ]. organillo_n1 := n_intr_count_le & [ STEM < "organillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_organillo_n_rel" ] ]. organismo_n1 := n_intr_count_le & [ STEM < "organismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_organismo_n_rel" ] ]. organista_n1 := n_intr_count_le & [ STEM < "organista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_organista_n_rel" ] ]. organizacional_a1 := a_rel_nonprd_intr_le & [ STEM < "organizacional" >, SYNSEM.LKEYS.KEYREL.PRED "_organizacional_a_rel" ]. organizacionalmente_x1 := av_i_spr_le & [ STEM < "organizacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_organizacionalmente_x_rel" ]. organización_n1 := n_intr_mass_le & [ STEM < "organización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_organización_n_rel" ] ]. organizadamente_x1 := av_i_spr_le & [ STEM < "organizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_organizadamente_x_rel" ]. organizador_a1 := a_rel_nonprd_intr_le & [ STEM < "organizador" >, SYNSEM.LKEYS.KEYREL.PRED "_organizador_a_rel" ]. organizador_n1 := n_subj-nom_le & [ STEM < "organizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_organizador_n_rel" ] ]. organizativamente_x1 := av_i_spr_le & [ STEM < "organizativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_organizativamente_x_rel" ]. organizativo_a1 := a_rel_nonprd_intr_le & [ STEM < "organizativo" >, SYNSEM.LKEYS.KEYREL.PRED "_organizativo_a_rel" ]. organoclorado_a1 := a_rel_nonprd_intr_le & [ STEM < "organoclorado" >, SYNSEM.LKEYS.KEYREL.PRED "_organoclorado_a_rel" ]. organoclorado_n1 := n_intr_count_le & [ STEM < "organoclorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_organoclorado_n_rel" ] ]. organoléptico_a1 := a_rel_nonprd_intr_le & [ STEM < "organoléptico" >, SYNSEM.LKEYS.KEYREL.PRED "_organoléptico_a_rel" ]. organomegalia_n1 := n_intr_count_le & [ STEM < "organomegalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_organomegalia_n_rel" ] ]. organometálicamente_x1 := av_i_spr_le & [ STEM < "organometálicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_organometálicamente_x_rel" ]. organometálico_a1 := a_rel_nonprd_intr_le & [ STEM < "organometálico" >, SYNSEM.LKEYS.KEYREL.PRED "_organometálico_a_rel" ]. organosol_n1 := n_intr_count_le & [ STEM < "organosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_organosol_n_rel" ] ]. organotropismo_n1 := n_intr_uncount_le & [ STEM < "organotropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organotropismo_n_rel" ] ]. organza_n1 := n_intr_uncount_pl_le & [ STEM < "organza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organza_n_rel" ] ]. orgasmo_n1 := n_intr_count_le & [ STEM < "orgasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orgasmo_n_rel" ] ]. orgiástico_a1 := a_rel_nonprd_intr_le & [ STEM < "orgiástico" >, SYNSEM.LKEYS.KEYREL.PRED "_orgiástico_a_rel" ]. orgullosamente_x1 := av_i_spr_le & [ STEM < "orgullosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_orgullosamente_x_rel" ]. orgulloso_a1 := a_qual_intr_ser_le & [ STEM < "orgulloso" >, SYNSEM.LKEYS.KEYREL.PRED "_orgulloso_a_rel" ]. orgánicamente_x1 := av_i_spr_le & [ STEM < "orgánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_orgánicamente_x_rel" ]. orgánico_a1 := a_rel_nonprd_intr_le & [ STEM < "orgánico" >, SYNSEM.LKEYS.KEYREL.PRED "_orgánico_a_rel" ]. orgánulo_n1 := n_intr_count_le & [ STEM < "orgánulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orgánulo_n_rel" ] ]. orgásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "orgásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_orgásmico_a_rel" ]. orgástico_a1 := a_rel_nonprd_intr_le & [ STEM < "orgástico" >, SYNSEM.LKEYS.KEYREL.PRED "_orgástico_a_rel" ]. orgía_n1 := n_intr_count_le & [ STEM < "orgía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orgía_n_rel" ] ]. orientable_a1 := a_qual_trans*_ser_le & [ STEM < "orientable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_orientable_a_rel" ] ]. orientación_n1 := n_trans_le & [ STEM < "orientación" >, SYNSEM.LKEYS.KEYREL.PRED "_orientación_n_rel" ]. orientador_n1 := n_intr_count_le & [ STEM < "orientador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orientador_n_rel" ] ]. orientador_n2 := n_subj-nom_le & [ STEM < "orientador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orientador_n_rel" ] ]. oriental_a1 := a_rel_prd_le & [ STEM < "oriental" >, SYNSEM.LKEYS.KEYREL.PRED "_oriental_a_rel" ]. orientalismo_n1 := n_intr_uncount_le & [ STEM < "orientalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orientalismo_n_rel" ] ]. orientalista_n1 := n_intr_count_le & [ STEM < "orientalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orientalista_n_rel" ] ]. orientar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "orientar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_orientar_v_rel" ] ]. orientar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "orientar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_orientar_v_rel" ] ]. orientar_v3 := v_pron_intr_le & [ STEM < "orientar" >, SYNSEM.LKEYS.KEYREL.PRED "_orientar_v_rel" ]. orientar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "orientar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_orientar_v_rel" ] ] ]. orientar_v5 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "orientar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_orientar_v_rel" ] ] ]. orientar_v6 := v_trans_np*_mrkd_np_le & [ STEM < "orientar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_orientar_v_rel" ] ] ]. orientativamente_x1 := av_i_spr_le & [ STEM < "orientativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_orientativamente_x_rel" ]. orientativo_a1 := a_rel_nonprd_intr_le & [ STEM < "orientativo" >, SYNSEM.LKEYS.KEYREL.PRED "_orientativo_a_rel" ]. oriente_n1 := n_intr_count_le & [ STEM < "oriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_oriente_n_rel" ] ]. orificación_n1 := n_trans_le & [ STEM < "orificación" >, SYNSEM.LKEYS.KEYREL.PRED "_orificación_n_rel" ]. orificador_n1 := n_intr_count_le & [ STEM < "orificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orificador_n_rel" ] ]. orificio_n1 := n_intr_count_le & [ STEM < "orificio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orificio_n_rel" ] ]. oriflama_n1 := n_intr_count_le & [ STEM < "oriflama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oriflama_n_rel" ] ]. origen_n1 := n_intr_count_le & [ STEM < "origen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_origen_n_rel" ] ]. originador_a1 := a_rel_nonprd_intr_le & [ STEM < "originador" >, SYNSEM.LKEYS.KEYREL.PRED "_originador_a_rel" ]. original_a1 := a_qual_intr_scopal_le & [ STEM < "original" >, SYNSEM.LKEYS.KEYREL.PRED "_original_a_rel" ]. original_n1 := n_intr_count_le & [ STEM < "original" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_original_n_rel" ] ]. originalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "originalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_originalidad_n_rel" ] ]. originalmente_x1 := av_i_spr_le & [ STEM < "originalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_originalmente_x_rel" ]. originar_v1 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "originar" >, SYNSEM.LKEYS.KEYREL.PRED "_originar_v_rel" ]. originar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "originar" >, SYNSEM.LKEYS.KEYREL.PRED "_originar_v_rel" ]. originar_v3 := v_trans_np_caus_perf_le & [ STEM < "originar" >, SYNSEM.LKEYS.KEYREL.PRED "_originar_v_rel" ]. originario_a1 := a_rel_nonprd_trans_le & [ STEM < "originario" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_originario_a_rel" ] ]. orilla_n1 := n_intr_count_le & [ STEM < "orilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_orilla_n_rel" ] ]. orillar_v := v_trans_np_le & [ STEM < "orillar" >, SYNSEM.LKEYS.KEYREL.PRED "_orillar_v_rel" ]. orillo_n1 := n_intr_count_le & [ STEM < "orillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orillo_n_rel" ] ]. orina_n1 := n_intr_mass_le & [ STEM < "orina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orina_n_rel" ] ]. orinal_n1 := n_intr_count_le & [ STEM < "orinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orinal_n_rel" ] ]. orinque_n1 := n_intr_count_le & [ STEM < "orinque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orinque_n_rel" ] ]. orla_n1 := n_intr_count_le & [ STEM < "orla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orla_n_rel" ] ]. ornamentación_n1 := n_trans_le & [ STEM < "ornamentación" >, SYNSEM.LKEYS.KEYREL.PRED "_ornamentación_n_rel" ]. ornamental_a1 := a_qual_intr_scopal_le & [ STEM < "ornamental" >, SYNSEM.LKEYS.KEYREL.PRED "_ornamental_a_rel" ]. ornamentar_v := v_trans_np_le & [ STEM < "ornamentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ornamentar_v_rel" ]. ornamento_n1 := n_intr_count_le & [ STEM < "ornamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ornamento_n_rel" ] ]. ornar_v := v_trans_np_le & [ STEM < "ornar" >, SYNSEM.LKEYS.KEYREL.PRED "_ornar_v_rel" ]. ornato_n1 := n_intr_count_le & [ STEM < "ornato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ornato_n_rel" ] ]. ornitina_n1 := n_intr_count_le & [ STEM < "ornitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ornitina_n_rel" ] ]. ornitología_n1 := n_intr_uncount_le & [ STEM < "ornitología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ornitología_n_rel" ] ]. ornitológico_a1 := a_rel_nonprd_intr_le & [ STEM < "ornitológico" >, SYNSEM.LKEYS.KEYREL.PRED "_ornitológico_a_rel" ]. ornitorrinco_n1 := n_intr_count_le & [ STEM < "ornitorrinco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ornitorrinco_n_rel" ] ]. ornitólogo_n1 := n_intr_count_le & [ STEM < "ornitólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ornitólogo_n_rel" ] ]. oro_n1 := n_intr_mass_le & [ STEM < "oro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oro_n_rel" ] ]. orofaringe_n1 := n_ppcomp_count_le & [ STEM < "orofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_orofaringe_n_rel" ] ]. orofito_n1 := n_intr_count_le & [ STEM < "orofito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_orofito_n_rel" ] ]. orografía_n1 := n_intr_uncount_pl_le & [ STEM < "orografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orografía_n_rel" ] ]. orográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "orográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_orográfico_a_rel" ]. orogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "orogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_orogénico_a_rel" ]. orolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "orolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_orolingual_a_rel" ]. oromaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "oromaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_oromaxilar_a_rel" ]. oronasal_a1 := a_rel_nonprd_intr_le & [ STEM < "oronasal" >, SYNSEM.LKEYS.KEYREL.PRED "_oronasal_a_rel" ]. orondo_a1 := a_qual_intr_scopal_le & [ STEM < "orondo" >, SYNSEM.LKEYS.KEYREL.PRED "_orondo_a_rel" ]. oropimente_n1 := n_intr_mass_le & [ STEM < "oropimente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oropimente_n_rel" ] ]. oropéndola_n1 := n_intr_count_le & [ STEM < "oropéndola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oropéndola_n_rel" ] ]. orozuz_n1 := n_intr_count_le & [ STEM < "orozuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_orozuz_n_rel" ] ]. orquesta_n1 := n_intr_coll_le & [ STEM < "orquesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_orquesta_n_rel" ] ]. orquestación_n1 := n_trans_le & [ STEM < "orquestación" >, SYNSEM.LKEYS.KEYREL.PRED "_orquestación_n_rel" ]. orquestal_a1 := a_rel_nonprd_intr_le & [ STEM < "orquestal" >, SYNSEM.LKEYS.KEYREL.PRED "_orquestal_a_rel" ]. orquestar_v := v_trans_np_le & [ STEM < "orquestar" >, SYNSEM.LKEYS.KEYREL.PRED "_orquestar_v_rel" ]. orquídea_n1 := n_intr_count_le & [ STEM < "orquídea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_orquídea_n_rel" ] ]. ortiga_n1 := n_intr_count_le & [ STEM < "ortiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ortiga_n_rel" ] ]. ortocromáticamente_x1 := av_i_spr_le & [ STEM < "ortocromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ortocromáticamente_x_rel" ]. ortocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "ortocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_ortocromático_a_rel" ]. ortodoncia_n1 := n_intr_uncount_le & [ STEM < "ortodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortodoncia_n_rel" ] ]. ortodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "ortodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_ortodonto_a_rel" ]. ortodontología_n1 := n_intr_uncount_pl_le & [ STEM < "ortodontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortodontología_n_rel" ] ]. ortodoxo_a1 := a_qual_intr_scopal_le & [ STEM < "ortodoxo" >, SYNSEM.LKEYS.KEYREL.PRED "_ortodoxo_a_rel" ]. ortodóncico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortodóncico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortodóncico_a_rel" ]. ortodóntico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortodóntico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortodóntico_a_rel" ]. ortoformiato_n1 := n_intr_count_le & [ STEM < "ortoformiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ortoformiato_n_rel" ] ]. ortofosfato_n1 := n_intr_count_le & [ STEM < "ortofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ortofosfato_n_rel" ] ]. ortofosforoso_a1 := a_rel_nonprd_intr_le & [ STEM < "ortofosforoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ortofosforoso_a_rel" ]. ortofotografía_n1 := n_intr_uncount_pl_le & [ STEM < "ortofotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortofotografía_n_rel" ] ]. ortofotomapa_n1 := n_intr_count_le & [ STEM < "ortofotomapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_ortofotomapa_n_rel" ] ]. ortognato_a1 := a_rel_nonprd_intr_le & [ STEM < "ortognato" >, SYNSEM.LKEYS.KEYREL.PRED "_ortognato_a_rel" ]. ortognatodoncia_n1 := n_intr_uncount_le & [ STEM < "ortognatodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortognatodoncia_n_rel" ] ]. ortognático_a1 := a_rel_nonprd_intr_le & [ STEM < "ortognático" >, SYNSEM.LKEYS.KEYREL.PRED "_ortognático_a_rel" ]. ortogonal_a1 := a_qual_intr_ser_le & [ STEM < "ortogonal" >, SYNSEM.LKEYS.KEYREL.PRED "_ortogonal_a_rel" ]. ortogonalidad_n1 := n_intr_uncount_le & [ STEM < "ortogonalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortogonalidad_n_rel" ] ]. ortogonalmente_x1 := av_i_spr_le & [ STEM < "ortogonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ortogonalmente_x_rel" ]. ortografía_n1 := n_intr_uncount_pl_le & [ STEM < "ortografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortografía_n_rel" ] ]. ortográficamente_x1 := av_s_le & [ STEM < "ortográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ortográficamente_x_rel" ]. ortográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortográfico_a_rel" ]. ortohelio_n1 := n_intr_count_le & [ STEM < "ortohelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ortohelio_n_rel" ] ]. ortohidrógeno_n1 := n_intr_count_le & [ STEM < "ortohidrógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ortohidrógeno_n_rel" ] ]. ortología_n1 := n_intr_uncount_le & [ STEM < "ortología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortología_n_rel" ] ]. ortonormal_a1 := a_rel_nonprd_intr_le & [ STEM < "ortonormal" >, SYNSEM.LKEYS.KEYREL.PRED "_ortonormal_a_rel" ]. ortopantomografía_n1 := n_intr_count_le & [ STEM < "ortopantomografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ortopantomografía_n_rel" ] ]. ortopedagogía_n1 := n_intr_uncount_le & [ STEM < "ortopedagogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortopedagogía_n_rel" ] ]. ortopedista_n1 := n_intr_count_le & [ STEM < "ortopedista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ortopedista_n_rel" ] ]. ortoptoscopio_n1 := n_intr_count_le & [ STEM < "ortoptoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ortoptoscopio_n_rel" ] ]. ortopédico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortopédico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortopédico_a_rel" ]. ortorrómbico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortorrómbico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortorrómbico_a_rel" ]. ortosa_n1 := n_intr_count_le & [ STEM < "ortosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ortosa_n_rel" ] ]. ortoscopio_n1 := n_intr_count_le & [ STEM < "ortoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ortoscopio_n_rel" ] ]. ortotópico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortotópico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortotópico_a_rel" ]. ortóptero_n1 := n_intr_count_le & [ STEM < "ortóptero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ortóptero_n_rel" ] ]. ortóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "ortóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_ortóptico_a_rel" ]. ortótropo_a1 := a_rel_nonprd_intr_le & [ STEM < "ortótropo" >, SYNSEM.LKEYS.KEYREL.PRED "_ortótropo_a_rel" ]. oruga_n1 := n_intr_count_le & [ STEM < "oruga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oruga_n_rel" ] ]. orzar_v := v_trans_np*_le & [ STEM < "orzar" >, SYNSEM.LKEYS.KEYREL.PRED "_orzar_v_rel" ]. orzuelo_n1 := n_intr_count_le & [ STEM < "orzuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_orzuelo_n_rel" ] ]. oráculo_n1 := n_intr_count_le & [ STEM < "oráculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_oráculo_n_rel" ] ]. orégano_n1 := n_intr_mass_le & [ STEM < "orégano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_orégano_n_rel" ] ]. orófito_n1 := n_intr_count_le & [ STEM < "orófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_orófito_n_rel" ] ]. orógeno_n1 := n_intr_count_le & [ STEM < "orógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_orógeno_n_rel" ] ]. os_p := af_acc_or_rflx_or_dat_le & [ STEM < "os" > ]. osadamente_x1 := av_i_spr_le & [ STEM < "osadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_osadamente_x_rel" ]. osadía_n1 := n_intr_count_le & [ STEM < "osadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osadía_n_rel" ] ]. osario_n1 := n_intr_count_le & [ STEM < "osario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_osario_n_rel" ] ]. oscar_n1 := n_intr_count_le & [ STEM < "oscar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_oscar_n_rel" ] ]. oscense_a1 := a_rel_nonprd_intr_le & [ STEM < "oscense" >, SYNSEM.LKEYS.KEYREL.PRED "_oscense_a_rel" ]. oscense_n1 := n_intr_count_le & [ STEM < "oscense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oscense_n_rel" ] ]. oscilación_n1 := n_result_intr_ppcomp_le & [ STEM < "oscilación" >, SYNSEM.LKEYS [ --OCOMPKEY _entre_p_sel_rel, KEYREL.PRED "_oscilación_n_rel" ] ]. oscilador_a1 := a_rel_nonprd_intr_le & [ STEM < "oscilador" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilador_a_rel" ]. oscilador_n1 := n_intr_count_le & [ STEM < "oscilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oscilador_n_rel" ] ]. oscilante_a1 := a_rel_nonprd_intr_le & [ STEM < "oscilante" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilante_a_rel" ]. oscilantemente_x1 := av_i_spr_le & [ STEM < "oscilantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilantemente_x_rel" ]. oscilar_v := v_intr_mrkd_np*_le & [ STEM < "oscilar" >, SYNSEM.LKEYS [ --COMPKEY _entre_p_sel_rel, KEYREL.PRED "_oscilar_v_rel" ] ]. oscilatoriamente_x1 := av_i_spr_le & [ STEM < "oscilatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilatoriamente_x_rel" ]. oscilatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "oscilatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilatorio_a_rel" ]. oscilograma_n1 := n_intr_count_le & [ STEM < "oscilograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oscilograma_n_rel" ] ]. oscilográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "oscilográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_oscilográfico_a_rel" ]. oscilometría_n1 := n_intr_uncount_pl_le & [ STEM < "oscilometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oscilometría_n_rel" ] ]. osciloscopio_n1 := n_intr_count_le & [ STEM < "osciloscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_osciloscopio_n_rel" ] ]. oscilógrafo_n1 := n_intr_count_le & [ STEM < "oscilógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_oscilógrafo_n_rel" ] ]. osculación_n1 := n_intr_uncount_le & [ STEM < "osculación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osculación_n_rel" ] ]. oscuramente_x1 := av_i_spr_le & [ STEM < "oscuramente" >, SYNSEM.LKEYS.KEYREL.PRED "_oscuramente_x_rel" ]. oscurantismo_n1 := n_intr_uncount_le & [ STEM < "oscurantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oscurantismo_n_rel" ] ]. oscurantista_a1 := a_rel_nonprd_intr_le & [ STEM < "oscurantista" >, SYNSEM.LKEYS.KEYREL.PRED "_oscurantista_a_rel" ]. oscurantista_n1 := n_intr_count_le & [ STEM < "oscurantista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oscurantista_n_rel" ] ]. oscurecer_v1 := v_impers_strict_intr_le & [ STEM < "oscurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_oscurecer_v_rel" ]. oscurecer_v2 := v_trans_np_caus_le & [ STEM < "oscurecer" >, SYNSEM.LKEYS.KEYREL.PRED "_oscurecer_v_rel" ]. oscurecimento_n1 := n_trans_le & [ STEM < "oscurecimento" >, SYNSEM.LKEYS.KEYREL.PRED "_oscurecimento_n_rel" ]. oscuridad_n1 := n_intr_mass-or-count_le & [ STEM < "oscuridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oscuridad_n_rel" ] ]. oscuro_a1 := a_qual_intr_ser_le & [ STEM < "oscuro" >, SYNSEM.LKEYS.KEYREL.PRED "_oscuro_a_rel" ]. osera_n1 := n_intr_count_le & [ STEM < "osera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osera_n_rel" ] ]. osezno_n1 := n_intr_count_le & [ STEM < "osezno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osezno_n_rel" ] ]. osicular_a1 := a_rel_nonprd_intr_le & [ STEM < "osicular" >, SYNSEM.LKEYS.KEYREL.PRED "_osicular_a_rel" ]. osiculectomía_n1 := n_intr_uncount_le & [ STEM < "osiculectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osiculectomía_n_rel" ] ]. osificación_n1 := n_trans_le & [ STEM < "osificación" >, SYNSEM.LKEYS.KEYREL.PRED "_osificación_n_rel" ]. osificar_v := v_trans_np_caus_le & [ STEM < "osificar" >, SYNSEM.LKEYS.KEYREL.PRED "_osificar_v_rel" ]. osmiato_n1 := n_intr_count_le & [ STEM < "osmiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_osmiato_n_rel" ] ]. osmio_n1 := n_intr_mass_le & [ STEM < "osmio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_osmio_n_rel" ] ]. osmiridio_n1 := n_intr_count_le & [ STEM < "osmiridio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_osmiridio_n_rel" ] ]. osmolaridad_n1 := n_intr_uncount_le & [ STEM < "osmolaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osmolaridad_n_rel" ] ]. osmometría_n1 := n_intr_uncount_pl_le & [ STEM < "osmometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osmometría_n_rel" ] ]. osmómetro_n1 := n_intr_count_le & [ STEM < "osmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osmómetro_n_rel" ] ]. osmóticamente_x1 := av_i_spr_le & [ STEM < "osmóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_osmóticamente_x_rel" ]. osmótico_a1 := a_rel_nonprd_intr_le & [ STEM < "osmótico" >, SYNSEM.LKEYS.KEYREL.PRED "_osmótico_a_rel" ]. oso_n1 := n_intr_count_le & [ STEM < "oso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oso_n_rel" ] ]. ossobucco_n1 := n_intr_count_le & [ STEM < "ossobucco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ossobucco_n_rel" ] ]. ostensible_a1 := a_qual_intr_scopal_le & [ STEM < "ostensible" >, SYNSEM.LKEYS.KEYREL.PRED "_ostensible_a_rel" ]. ostensiblemente_x1 := av_s_spr_le & [ STEM < "ostensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ostensiblemente_x_rel" ]. ostentación_n1 := n_trans_le & [ STEM < "ostentación" >, SYNSEM.LKEYS.KEYREL.PRED "_ostentación_n_rel" ]. ostentar_v := v_trans_np*_le & [ STEM < "ostentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ostentar_v_rel" ]. ostentosamente_x1 := av_i_spr_le & [ STEM < "ostentosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ostentosamente_x_rel" ]. ostentoso_a1 := a_qual_intr_scopal_le & [ STEM < "ostentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ostentoso_a_rel" ]. osteoblasto_n1 := n_intr_count_le & [ STEM < "osteoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteoblasto_n_rel" ] ]. osteocemento_n1 := n_intr_count_le & [ STEM < "osteocemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteocemento_n_rel" ] ]. osteoclasto_n1 := n_intr_count_le & [ STEM < "osteoclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteoclasto_n_rel" ] ]. osteodentina_n1 := n_intr_count_le & [ STEM < "osteodentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteodentina_n_rel" ] ]. osteoectomía_n1 := n_intr_uncount_le & [ STEM < "osteoectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteoectomía_n_rel" ] ]. osteointegrado_a1 := a_rel_nonprd_intr_le & [ STEM < "osteointegrado" >, SYNSEM.LKEYS.KEYREL.PRED "_osteointegrado_a_rel" ]. osteología_n1 := n_intr_uncount_le & [ STEM < "osteología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteología_n_rel" ] ]. osteomucoide_n1 := n_intr_count_le & [ STEM < "osteomucoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_osteomucoide_n_rel" ] ]. osteotomía_n1 := n_intr_uncount_pl_le & [ STEM < "osteotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteotomía_n_rel" ] ]. osteotrimer_n1 := n_intr_count_le & [ STEM < "osteotrimer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteotrimer_n_rel" ] ]. osteína_n1 := n_intr_count_le & [ STEM < "osteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_osteína_n_rel" ] ]. osteócito_n1 := n_intr_count_le & [ STEM < "osteócito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteócito_n_rel" ] ]. osteófono_n1 := n_intr_count_le & [ STEM < "osteófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteófono_n_rel" ] ]. osteótomo_n1 := n_intr_count_le & [ STEM < "osteótomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_osteótomo_n_rel" ] ]. ostial_a1 := a_rel_nonprd_intr_le & [ STEM < "ostial" >, SYNSEM.LKEYS.KEYREL.PRED "_ostial_a_rel" ]. ostiolo_n1 := n_intr_count_le & [ STEM < "ostiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ostiolo_n_rel" ] ]. ostra_n1 := n_intr_mass_le & [ STEM < "ostra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ostra_n_rel" ] ]. ostracismo_n1 := n_intr_uncount_le & [ STEM < "ostracismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ostracismo_n_rel" ] ]. ostricultor_n1 := n_intr_count_le & [ STEM < "ostricultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ostricultor_n_rel" ] ]. ostricultura_n1 := n_intr_count_le & [ STEM < "ostricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ostricultura_n_rel" ] ]. otario_n1 := n_intr_count_le & [ STEM < "otario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_otario_n_rel" ] ]. otear_v := v_trans_np_le & [ STEM < "otear" >, SYNSEM.LKEYS.KEYREL.PRED "_otear_v_rel" ]. otero_n1 := n_intr_count_le & [ STEM < "otero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_otero_n_rel" ] ]. otoción_n1 := n_intr_count_le & [ STEM < "otoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_otoción_n_rel" ] ]. otogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "otogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_otogénico_a_rel" ]. otohematoma_n1 := n_intr_count_le & [ STEM < "otohematoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_otohematoma_n_rel" ] ]. otolito_n1 := n_intr_count_le & [ STEM < "otolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_otolito_n_rel" ] ]. otología_n1 := n_intr_uncount_le & [ STEM < "otología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otología_n_rel" ] ]. otolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "otolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_otolítico_a_rel" ]. otológico_a1 := a_rel_nonprd_intr_le & [ STEM < "otológico" >, SYNSEM.LKEYS.KEYREL.PRED "_otológico_a_rel" ]. otomandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "otomandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_otomandibular_a_rel" ]. otomano_n1 := n_intr_count_le & [ STEM < "otomano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_otomano_n_rel" ] ]. otomicroscopio_n1 := n_intr_count_le & [ STEM < "otomicroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_otomicroscopio_n_rel" ] ]. otomán_n1 := n_intr_count_le & [ STEM < "otomán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_otomán_n_rel" ] ]. otopatía_n1 := n_intr_uncount_pl_le & [ STEM < "otopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otopatía_n_rel" ] ]. otorgación_n1 := n_trans_le & [ STEM < "otorgación" >, SYNSEM.LKEYS.KEYREL.PRED "_otorgación_n_rel" ]. otorgador_n1 := n_subj-nom_le & [ STEM < "otorgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_otorgador_n_rel" ] ]. otorgamiento_n1 := n_trans_le & [ STEM < "otorgamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_otorgamiento_n_rel" ]. otorgante_n1 := n_intr_count_le & [ STEM < "otorgante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_otorgante_n_rel" ] ]. otorgar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "otorgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_otorgar_v_rel" ] ]. otorgar_v2 := v_ditrans*_le & [ STEM < "otorgar" >, SYNSEM.LKEYS.KEYREL.PRED "_otorgar_v_rel" ]. otorgar_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "otorgar" >, SYNSEM.LKEYS.KEYREL.PRED "_otorgar_v_rel" ]. otorgar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "otorgar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_otorgar_v_rel" ] ] ]. otorgar_v5 := v_trans_np_mrkd_np_le & [ STEM < "otorgar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_otorgar_v_rel" ] ] ]. otorrinolaringología_n1 := n_intr_uncount_le & [ STEM < "otorrinolaringología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otorrinolaringología_n_rel" ] ]. otorrinolaringólogo_n1 := n_intr_count_le & [ STEM < "otorrinolaringólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_otorrinolaringólogo_n_rel" ] ]. otorrinonaringología_n1 := n_intr_uncount_le & [ STEM < "otorrinonaringología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otorrinonaringología_n_rel" ] ]. otoscopio_n1 := n_intr_count_le & [ STEM < "otoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_otoscopio_n_rel" ] ]. ototoxicidad_n1 := n_intr_uncount_le & [ STEM < "ototoxicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ototoxicidad_n_rel" ] ]. otoñal_a1 := a_rel_nonprd_intr_le & [ STEM < "otoñal" >, SYNSEM.LKEYS.KEYREL.PRED "_otoñal_a_rel" ]. otoño_n1 := n_intr_count_le & [ STEM < "otoño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_otoño_n_rel" ] ]. otro_d := d_qnt-evl_otr_le & [ STEM < "otro" > ]. otro_p := pr_part_otro_le & [ STEM < "otro" >, SYNSEM.LKEYS.ALTKEYREL.PRED _otro_q_rel ]. otítico_a1 := a_rel_nonprd_intr_le & [ STEM < "otítico" >, SYNSEM.LKEYS.KEYREL.PRED "_otítico_a_rel" ]. otólogo_n1 := n_intr_count_le & [ STEM < "otólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_otólogo_n_rel" ] ]. ovacionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "ovacionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ovacionar_v_rel" ] ]. ovacionar_v2 := v_trans_np_le & [ STEM < "ovacionar" >, SYNSEM.LKEYS.KEYREL.PRED "_ovacionar_v_rel" ]. ovación_n1 := n_intr_mass-or-count_le & [ STEM < "ovación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ovación_n_rel" ] ]. ovadamente_x1 := av_i_spr_le & [ STEM < "ovadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ovadamente_x_rel" ]. ovado_a1 := a_qual_intr_ser_le & [ STEM < "ovado" >, SYNSEM.LKEYS.KEYREL.PRED "_ovado_a_rel" ]. oval_a1 := a_qual_intr_ser_le & [ STEM < "oval" >, SYNSEM.LKEYS.KEYREL.PRED "_oval_a_rel" ]. ovalar_v := v_trans_np_le & [ STEM < "ovalar" >, SYNSEM.LKEYS.KEYREL.PRED "_ovalar_v_rel" ]. ovalocito_n1 := n_intr_count_le & [ STEM < "ovalocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovalocito_n_rel" ] ]. ovario_n1 := n_ppcomp_count_le & [ STEM < "ovario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ovario_n_rel" ] ]. oveja_n1 := n_intr_count_le & [ STEM < "oveja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oveja_n_rel" ] ]. ovetense_n1 := n_intr_count_le & [ STEM < "ovetense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ovetense_n_rel" ] ]. ovicáprido_a1 := a_rel_nonprd_intr_le & [ STEM < "ovicáprido" >, SYNSEM.LKEYS.KEYREL.PRED "_ovicáprido_a_rel" ]. ovillar_v1 := v_pron_intr_le & [ STEM < "ovillar" >, SYNSEM.LKEYS.KEYREL.PRED "_ovillar_v_rel" ]. ovillar_v2 := v_trans_np_le & [ STEM < "ovillar" >, SYNSEM.LKEYS.KEYREL.PRED "_ovillar_v_rel" ]. ovillo_n1 := n_intr_count_le & [ STEM < "ovillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovillo_n_rel" ] ]. ovino_a1 := a_rel_nonprd_intr_le & [ STEM < "ovino" >, SYNSEM.LKEYS.KEYREL.PRED "_ovino_a_rel" ]. ovni_n1 := n_intr_count_le & [ STEM < "ovni" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovni_n_rel" ] ]. ovoalbúmina_n1 := n_intr_count_le & [ STEM < "ovoalbúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ovoalbúmina_n_rel" ] ]. ovocito_n1 := n_intr_count_le & [ STEM < "ovocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovocito_n_rel" ] ]. ovoide_a1 := a_qual_intr_ser_le & [ STEM < "ovoide" >, SYNSEM.LKEYS.KEYREL.PRED "_ovoide_a_rel" ]. ovoidemente_x1 := av_i_spr_le & [ STEM < "ovoidemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ovoidemente_x_rel" ]. ovopositor_n1 := n_intr_count_le & [ STEM < "ovopositor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovopositor_n_rel" ] ]. ovoscopio_n1 := n_intr_count_le & [ STEM < "ovoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ovoscopio_n_rel" ] ]. ovulación_n1 := n_intr_uncount_le & [ STEM < "ovulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ovulación_n_rel" ] ]. ovárico_a1 := a_rel_nonprd_intr_le & [ STEM < "ovárico" >, SYNSEM.LKEYS.KEYREL.PRED "_ovárico_a_rel" ]. ovíparo_a1 := a_rel_nonprd_intr_le & [ STEM < "ovíparo" >, SYNSEM.LKEYS.KEYREL.PRED "_ovíparo_a_rel" ]. owenismo_n1 := n_intr_uncount_le & [ STEM < "owenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_owenismo_n_rel" ] ]. oxalatación_n1 := n_intr_uncount_le & [ STEM < "oxalatación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxalatación_n_rel" ] ]. oxalato_n1 := n_intr_count_le & [ STEM < "oxalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxalato_n_rel" ] ]. oxamida_n1 := n_intr_count_le & [ STEM < "oxamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxamida_n_rel" ] ]. oxhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "oxhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_oxhídrico_a_rel" ]. oxiacetileno_n1 := n_intr_count_le & [ STEM < "oxiacetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxiacetileno_n_rel" ] ]. oxiacetilénicamente_x1 := av_i_spr_le & [ STEM < "oxiacetilénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxiacetilénicamente_x_rel" ]. oxiacetilénico_a1 := a_rel_nonprd_intr_le & [ STEM < "oxiacetilénico" >, SYNSEM.LKEYS.KEYREL.PRED "_oxiacetilénico_a_rel" ]. oxialquilación_n1 := n_intr_uncount_le & [ STEM < "oxialquilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxialquilación_n_rel" ] ]. oxicarbonilación_n1 := n_intr_uncount_le & [ STEM < "oxicarbonilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxicarbonilación_n_rel" ] ]. oxicelulosa_n1 := n_intr_count_le & [ STEM < "oxicelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oxicelulosa_n_rel" ] ]. oxicianuro_n1 := n_intr_count_le & [ STEM < "oxicianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxicianuro_n_rel" ] ]. oxicloración_n1 := n_intr_uncount_le & [ STEM < "oxicloración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxicloración_n_rel" ] ]. oxicloruro_n1 := n_intr_count_le & [ STEM < "oxicloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxicloruro_n_rel" ] ]. oxicorte_n1 := n_intr_count_le & [ STEM < "oxicorte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxicorte_n_rel" ] ]. oxicrinina_n1 := n_intr_count_le & [ STEM < "oxicrinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxicrinina_n_rel" ] ]. oxidabilidad_n1 := n_intr_uncount_le & [ STEM < "oxidabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxidabilidad_n_rel" ] ]. oxidable_a1 := a_rel_nonprd_intr_le & [ STEM < "oxidable" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidable_a_rel" ]. oxidablemente_x1 := av_i_spr_le & [ STEM < "oxidablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidablemente_x_rel" ]. oxidación_n1 := n_trans_le & [ STEM < "oxidación" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidación_n_rel" ]. oxidante_a1 := a_rel_prd_le & [ STEM < "oxidante" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidante_a_rel" ]. oxidar_v := v_trans_np_caus_le & [ STEM < "oxidar" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidar_v_rel" ]. oxidasa_n1 := n_intr_count_le & [ STEM < "oxidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxidasa_n_rel" ] ]. oxidativo_a1 := a_rel_nonprd_intr_le & [ STEM < "oxidativo" >, SYNSEM.LKEYS.KEYREL.PRED "_oxidativo_a_rel" ]. oxidisol_n1 := n_intr_count_le & [ STEM < "oxidisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxidisol_n_rel" ] ]. oxidorreducción_n1 := n_intr_uncount_le & [ STEM < "oxidorreducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxidorreducción_n_rel" ] ]. oxietilación_n1 := n_intr_uncount_le & [ STEM < "oxietilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxietilación_n_rel" ] ]. oxigenable_a1 := a_rel_nonprd_intr_le & [ STEM < "oxigenable" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigenable_a_rel" ]. oxigenablemente_x1 := av_i_spr_le & [ STEM < "oxigenablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigenablemente_x_rel" ]. oxigenación_n1 := n_trans_le & [ STEM < "oxigenación" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigenación_n_rel" ]. oxigenar_v := v_trans_np_le & [ STEM < "oxigenar" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigenar_v_rel" ]. oxigenotropismo_n1 := n_intr_uncount_le & [ STEM < "oxigenotropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxigenotropismo_n_rel" ] ]. oxigoniamente_x1 := av_i_spr_le & [ STEM < "oxigoniamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigoniamente_x_rel" ]. oxigonio_a1 := a_rel_nonprd_intr_le & [ STEM < "oxigonio" >, SYNSEM.LKEYS.KEYREL.PRED "_oxigonio_a_rel" ]. oxihemoglobina_n1 := n_intr_count_le & [ STEM < "oxihemoglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxihemoglobina_n_rel" ] ]. oxihídricamente_x1 := av_i_spr_le & [ STEM < "oxihídricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxihídricamente_x_rel" ]. oxihídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "oxihídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_oxihídrico_a_rel" ]. oxima_n1 := n_intr_count_le & [ STEM < "oxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oxima_n_rel" ] ]. oximetandrolona_n1 := n_intr_count_le & [ STEM < "oximetandrolona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oximetandrolona_n_rel" ] ]. oxiprolina_n1 := n_intr_count_le & [ STEM < "oxiprolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxiprolina_n_rel" ] ]. oxipropilación_n1 := n_intr_uncount_le & [ STEM < "oxipropilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxipropilación_n_rel" ] ]. oxitetraciclina_n1 := n_intr_count_le & [ STEM < "oxitetraciclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxitetraciclina_n_rel" ] ]. oxitocina_n1 := n_intr_count_le & [ STEM < "oxitocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxitocina_n_rel" ] ]. oxitricloruro_n1 := n_intr_count_le & [ STEM < "oxitricloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxitricloruro_n_rel" ] ]. oxprenolol_n1 := n_intr_count_le & [ STEM < "oxprenolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxprenolol_n_rel" ] ]. oxtrifilina_n1 := n_intr_count_le & [ STEM < "oxtrifilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxtrifilina_n_rel" ] ]. oxálicamente_x1 := av_i_spr_le & [ STEM < "oxálicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_oxálicamente_x_rel" ]. oxálico_a1 := a_rel_nonprd_intr_le & [ STEM < "oxálico" >, SYNSEM.LKEYS.KEYREL.PRED "_oxálico_a_rel" ]. oxígeno_n1 := n_intr_mass_le & [ STEM < "oxígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_oxígeno_n_rel" ] ]. oxítono_a1 := a_rel_nonprd_intr_le & [ STEM < "oxítono" >, SYNSEM.LKEYS.KEYREL.PRED "_oxítono_a_rel" ]. oxítono_n1 := n_intr_count_le & [ STEM < "oxítono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_oxítono_n_rel" ] ]. oyente_n1 := n_intr_count_le & [ STEM < "oyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_oyente_n_rel" ] ]. ozonador_a1 := a_rel_nonprd_intr_le & [ STEM < "ozonador" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonador_a_rel" ]. ozonadoramente_x1 := av_i_spr_le & [ STEM < "ozonadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonadoramente_x_rel" ]. ozonar_v := v_trans_np_caus_le & [ STEM < "ozonar" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonar_v_rel" ]. ozonesfera_n1 := n_intr_count_le & [ STEM < "ozonesfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ozonesfera_n_rel" ] ]. ozonida_n1 := n_intr_count_le & [ STEM < "ozonida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ozonida_n_rel" ] ]. ozonificar_v := v_trans_np_caus_le & [ STEM < "ozonificar" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonificar_v_rel" ]. ozonizador_a1 := a_rel_nonprd_intr_le & [ STEM < "ozonizador" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonizador_a_rel" ]. ozonizadoramente_x1 := av_i_spr_le & [ STEM < "ozonizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonizadoramente_x_rel" ]. ozonizar_v := v_trans_np_caus_le & [ STEM < "ozonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonizar_v_rel" ]. ozono_n1 := n_intr_mass_le & [ STEM < "ozono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ozono_n_rel" ] ]. ozonoscópicamente_x1 := av_i_spr_le & [ STEM < "ozonoscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonoscópicamente_x_rel" ]. ozonoscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "ozonoscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_ozonoscópico_a_rel" ]. ozonosfera_n1 := n_intr_count_le & [ STEM < "ozonosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ozonosfera_n_rel" ] ]. ozoquerita_n1 := n_intr_count_le & [ STEM < "ozoquerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ozoquerita_n_rel" ] ]. oã­r_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "oír" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_oír_v_rel" ] ]. oã­r_v2 := v_trans_cp_semi_ques_le & [ STEM < "oír" >, SYNSEM.LKEYS.KEYREL.PRED "_oír_v_rel" ]. oã­r_v3 := v_trans_np*_le & [ STEM < "oír" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_oír_v_rel" ] ]. oíble_a1 := a_rel_prd_le & [ STEM < "oíble" >, SYNSEM.LKEYS.KEYREL.PRED "_oíble_a_rel" ]. oído_n1 := n_intr_count_le & [ STEM < "oído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_oído_n_rel" ] ]. oótida_n1 := n_intr_count_le & [ STEM < "oótida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_oótida_n_rel" ] ]. p-clorofenol_n1 := n_intr_count_le & [ STEM < "p-clorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_p-clorofenol_n_rel" ] ]. pabellón_n1 := n_intr_count_le & [ STEM < "pabellón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pabellón_n_rel" ] ]. pabilo_n1 := n_intr_mass_le & [ STEM < "pabilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pabilo_n_rel" ] ]. paca_n1 := n_intr_count_le & [ STEM < "paca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paca_n_rel" ] ]. pacer_v := v_trans_np*_le & [ STEM < "pacer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_pacer_v_rel" ] ]. paceño_n1 := n_intr_count_le & [ STEM < "paceño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paceño_n_rel" ] ]. paciencia_n1 := n_intr_mass_le & [ STEM < "paciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paciencia_n_rel" ] ]. paciente_a1 := a_qual_trans*_ser_le & [ STEM < "paciente" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_paciente_a_rel" ] ]. paciente_n1 := n_intr_count_le & [ STEM < "paciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paciente_n_rel" ] ]. pacientemente_x1 := av_i_spr_le & [ STEM < "pacientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pacientemente_x_rel" ]. pacificación_n1 := n_trans_le & [ STEM < "pacificación" >, SYNSEM.LKEYS.KEYREL.PRED "_pacificación_n_rel" ]. pacificador_a1 := a_rel_nonprd_intr_le & [ STEM < "pacificador" >, SYNSEM.LKEYS.KEYREL.PRED "_pacificador_a_rel" ]. pacificar_v := v_trans_np*_mrkd_np_le & [ STEM < "pacificar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_pacificar_v_rel" ] ]. pacifismo_n1 := n_intr_uncount_le & [ STEM < "pacifismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pacifismo_n_rel" ] ]. pacifista_n1 := n_intr_count_le & [ STEM < "pacifista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pacifista_n_rel" ] ]. pactante_n1 := n_intr_count_le & [ STEM < "pactante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pactante_n_rel" ] ]. pactar_v2 := v_trans_np_le & [ STEM < "pactar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_pactar_v_rel" ] ]. pactismo_n1 := n_intr_uncount_le & [ STEM < "pactismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pactismo_n_rel" ] ]. pactista_a1 := a_rel_nonprd_intr_le & [ STEM < "pactista" >, SYNSEM.LKEYS.KEYREL.PRED "_pactista_a_rel" ]. pacíficamente_x1 := av_i_spr_le & [ STEM < "pacíficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pacíficamente_x_rel" ]. pacífico_a1 := a_qual_intr_ser_le & [ STEM < "pacífico" >, SYNSEM.LKEYS.KEYREL.PRED "_pacífico_a_rel" ]. padauk_n1 := n_intr_count_le & [ STEM < "padauk" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_padauk_n_rel" ] ]. paddock_n1 := n_intr_count_le & [ STEM < "paddock" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paddock_n_rel" ] ]. padecer_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "padecer" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_padecer_v_rel" ] ] ]. padecer_v2 := v_intr_mrkd_np_le & [ STEM < "padecer" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_padecer_v_rel" ] ] ]. padecer_v3 := v_intr_mrkd_np*_le & [ STEM < "padecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_padecer_v_rel" ] ]. padecer_v4 := v_trans_np_le & [ STEM < "padecer" >, SYNSEM.LKEYS.KEYREL.PRED "_padecer_v_rel" ]. padecimiento_n1 := n_trans_le & [ STEM < "padecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_padecimiento_n_rel" ]. padrastro_n1 := n_ppcomp_count_le & [ STEM < "padrastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_padrastro_n_rel" ] ]. padre_n1 := n_ppcomp_count_le & [ STEM < "padre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_padre_n_rel" ] ]. padrino_n1 := n_ppcomp_count_le & [ STEM < "padrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_padrino_n_rel" ] ]. paella_n1 := n_intr_count_le & [ STEM < "paella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paella_n_rel" ] ]. pagador_n1 := n_subj-nom_le & [ STEM < "pagador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pagador_n_rel" ] ]. paganismo_n1 := n_intr_uncount_le & [ STEM < "paganismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paganismo_n_rel" ] ]. pagano_a1 := a_qual_intr_ser_le & [ STEM < "pagano" >, SYNSEM.LKEYS.KEYREL.PRED "_pagano_a_rel" ]. pagano_n1 := n_intr_count_le & [ STEM < "pagano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pagano_n_rel" ] ]. pagar_v := v_ditrans*_le & [ STEM < "pagar" >, SYNSEM.LKEYS.KEYREL.PRED "_pagar_v_rel" ]. pagaré_n1 := n_intr_count_le & [ STEM < "pagaré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pagaré_n_rel" ] ]. pagel_n1 := n_intr_count_le & [ STEM < "pagel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pagel_n_rel" ] ]. paginable_a1 := a_rel_nonprd_intr_le & [ STEM < "paginable" >, SYNSEM.LKEYS.KEYREL.PRED "_paginable_a_rel" ]. paginación_n1 := n_trans_le & [ STEM < "paginación" >, SYNSEM.LKEYS.KEYREL.PRED "_paginación_n_rel" ]. paginar_v := v_trans_np_le & [ STEM < "paginar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_sem, PRED "_paginar_v_rel" ] ]. pagoda_n1 := n_intr_count_le & [ STEM < "pagoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pagoda_n_rel" ] ]. pagodita_n1 := n_intr_count_le & [ STEM < "pagodita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pagodita_n_rel" ] ]. pailebot_n1 := n_intr_count_le & [ STEM < "pailebot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pailebot_n_rel" ] ]. pailebote_n1 := n_intr_count_le & [ STEM < "pailebote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pailebote_n_rel" ] ]. painita_n1 := n_intr_count_le & [ STEM < "painita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_painita_n_rel" ] ]. paisaje_n1 := n_intr_count_le & [ STEM < "paisaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paisaje_n_rel" ] ]. paisajismo_n1 := n_intr_uncount_le & [ STEM < "paisajismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paisajismo_n_rel" ] ]. paisajista_a1 := a_rel_nonprd_intr_le & [ STEM < "paisajista" >, SYNSEM.LKEYS.KEYREL.PRED "_paisajista_a_rel" ]. paisajista_n1 := n_intr_count_le & [ STEM < "paisajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paisajista_n_rel" ] ]. paisajístico_a1 := a_rel_nonprd_intr_le & [ STEM < "paisajístico" >, SYNSEM.LKEYS.KEYREL.PRED "_paisajístico_a_rel" ]. paisano_n1 := n_intr_count_le & [ STEM < "paisano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paisano_n_rel" ] ]. paja_n1 := n_intr_mass-or-count_le & [ STEM < "paja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_paja_n_rel" ] ]. pajar_n1 := n_intr_count_le & [ STEM < "pajar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pajar_n_rel" ] ]. pajarera_n1 := n_intr_count_le & [ STEM < "pajarera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pajarera_n_rel" ] ]. pajarillo_n1 := n_intr_count_le & [ STEM < "pajarillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pajarillo_n_rel" ] ]. pajarita_n1 := n_intr_count_le & [ STEM < "pajarita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pajarita_n_rel" ] ]. pajarito_n1 := n_intr_count_le & [ STEM < "pajarito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pajarito_n_rel" ] ]. paje_n1 := n_intr_count_le & [ STEM < "paje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paje_n_rel" ] ]. pajita_n1 := n_intr_count_le & [ STEM < "pajita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pajita_n_rel" ] ]. pakistani_n1 := n_intr_count_le & [ STEM < "pakistani" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pakistani_n_rel" ] ]. pakistaní_a1 := a_rel_prd_le & [ STEM < "pakistaní" >, SYNSEM.LKEYS.KEYREL.PRED "_pakistaní_a_rel" ]. pala_n1 := n_intr_count_le & [ STEM < "pala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pala_n_rel" ] ]. palabra_n1 := n_intr_count_le & [ STEM < "palabra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_palabra_n_rel" ] ]. palabrería_n1 := n_intr_uncount_pl_le & [ STEM < "palabrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palabrería_n_rel" ] ]. palacete_n1 := n_intr_count_le & [ STEM < "palacete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_palacete_n_rel" ] ]. palaciego_a1 := a_rel_nonprd_intr_le & [ STEM < "palaciego" >, SYNSEM.LKEYS.KEYREL.PRED "_palaciego_a_rel" ]. palacio_n1 := n_intr_count_le & [ STEM < "palacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_palacio_n_rel" ] ]. palada_n1 := n_intr_count_le & [ STEM < "palada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palada_n_rel" ] ]. paladar_n1 := n_intr_count_le & [ STEM < "paladar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paladar_n_rel" ] ]. paladear_v := v_trans_np_le & [ STEM < "paladear" >, SYNSEM.LKEYS.KEYREL.PRED "_paladear_v_rel" ]. paladio_n1 := n_intr_mass_le & [ STEM < "paladio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paladio_n_rel" ] ]. palado_a1 := a_rel_nonprd_intr_le & [ STEM < "palado" >, SYNSEM.LKEYS.KEYREL.PRED "_palado_a_rel" ]. paladín_n1 := n_intr_count_le & [ STEM < "paladín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paladín_n_rel" ] ]. palafrenero_n1 := n_intr_count_le & [ STEM < "palafrenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_palafrenero_n_rel" ] ]. palanca_n1 := n_intr_mass_le & [ STEM < "palanca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palanca_n_rel" ] ]. palangana_n1 := n_intr_count_le & [ STEM < "palangana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palangana_n_rel" ] ]. palangre_n1 := n_intr_count_le & [ STEM < "palangre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palangre_n_rel" ] ]. palanqueta_n1 := n_intr_count_le & [ STEM < "palanqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palanqueta_n_rel" ] ]. palanquita_n1 := n_intr_mass_le & [ STEM < "palanquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palanquita_n_rel" ] ]. palastro_n1 := n_intr_count_le & [ STEM < "palastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palastro_n_rel" ] ]. palatal_a1 := a_rel_nonprd_intr_le & [ STEM < "palatal" >, SYNSEM.LKEYS.KEYREL.PRED "_palatal_a_rel" ]. palatalización_n1 := n_trans_le & [ STEM < "palatalización" >, SYNSEM.LKEYS.KEYREL.PRED "_palatalización_n_rel" ]. palatino_a1 := a_rel_nonprd_intr_le & [ STEM < "palatino" >, SYNSEM.LKEYS.KEYREL.PRED "_palatino_a_rel" ]. palatoetmoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "palatoetmoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_palatoetmoidal_a_rel" ]. palatofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "palatofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_palatofaríngeo_a_rel" ]. palatogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "palatogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_palatogloso_a_rel" ]. palatografía_n1 := n_intr_uncount_pl_le & [ STEM < "palatografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palatografía_n_rel" ] ]. palatograma_n1 := n_intr_count_le & [ STEM < "palatograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palatograma_n_rel" ] ]. palatográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "palatográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_palatográfico_a_rel" ]. palatomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "palatomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_palatomaxilar_a_rel" ]. palatonasal_a1 := a_rel_nonprd_intr_le & [ STEM < "palatonasal" >, SYNSEM.LKEYS.KEYREL.PRED "_palatonasal_a_rel" ]. palatooclusal_a1 := a_rel_nonprd_intr_le & [ STEM < "palatooclusal" >, SYNSEM.LKEYS.KEYREL.PRED "_palatooclusal_a_rel" ]. palatovaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "palatovaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_palatovaginal_a_rel" ]. palatógrafo_n1 := n_intr_count_le & [ STEM < "palatógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palatógrafo_n_rel" ] ]. palco_n1 := n_intr_count_le & [ STEM < "palco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_palco_n_rel" ] ]. palentino_a1 := a_rel_prd_le & [ STEM < "palentino" >, SYNSEM.LKEYS.KEYREL.PRED "_palentino_a_rel" ]. palentino_n1 := n_intr_count_le & [ STEM < "palentino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_palentino_n_rel" ] ]. paleoantropología_n1 := n_intr_uncount_le & [ STEM < "paleoantropología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoantropología_n_rel" ] ]. paleobotánico_n1 := n_intr_count_le & [ STEM < "paleobotánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paleobotánico_n_rel" ] ]. paleoceanografía_n1 := n_intr_uncount_le & [ STEM < "paleoceanografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoceanografía_n_rel" ] ]. paleocerebelo_n1 := n_ppcomp_count_le & [ STEM < "paleocerebelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paleocerebelo_n_rel" ] ]. paleoclimatología_n1 := n_intr_uncount_le & [ STEM < "paleoclimatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoclimatología_n_rel" ] ]. paleodemografía_n1 := n_intr_uncount_le & [ STEM < "paleodemografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleodemografía_n_rel" ] ]. paleoecología_n1 := n_intr_uncount_le & [ STEM < "paleoecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoecología_n_rel" ] ]. paleoeconomía_n1 := n_intr_uncount_le & [ STEM < "paleoeconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoeconomía_n_rel" ] ]. paleoetnología_n1 := n_intr_uncount_le & [ STEM < "paleoetnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoetnología_n_rel" ] ]. paleografía_n1 := n_intr_uncount_le & [ STEM < "paleografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleografía_n_rel" ] ]. paleográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "paleográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_paleográfico_a_rel" ]. paleolíticamente_x1 := av_i_spr_le & [ STEM < "paleolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paleolíticamente_x_rel" ]. paleolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "paleolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_paleolítico_a_rel" ]. paleomagnetismo_n1 := n_intr_uncount_le & [ STEM < "paleomagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleomagnetismo_n_rel" ] ]. paleontología_n1 := n_intr_uncount_le & [ STEM < "paleontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleontología_n_rel" ] ]. paleontológico_a1 := a_rel_nonprd_intr_le & [ STEM < "paleontológico" >, SYNSEM.LKEYS.KEYREL.PRED "_paleontológico_a_rel" ]. paleontólogo_n1 := n_intr_count_le & [ STEM < "paleontólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paleontólogo_n_rel" ] ]. paleopalio_n1 := n_ppcomp_count_le & [ STEM < "paleopalio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paleopalio_n_rel" ] ]. paleopatología_n1 := n_intr_uncount_le & [ STEM < "paleopatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleopatología_n_rel" ] ]. paleopatólogo_n1 := n_intr_count_le & [ STEM < "paleopatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paleopatólogo_n_rel" ] ]. paleosol_n1 := n_intr_count_le & [ STEM < "paleosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paleosol_n_rel" ] ]. paleotropical_a1 := a_rel_nonprd_intr_le & [ STEM < "paleotropical" >, SYNSEM.LKEYS.KEYREL.PRED "_paleotropical_a_rel" ]. paleozoicamente_x1 := av_i_spr_le & [ STEM < "paleozoicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paleozoicamente_x_rel" ]. paleozoico_a1 := a_rel_nonprd_intr_le & [ STEM < "paleozoico" >, SYNSEM.LKEYS.KEYREL.PRED "_paleozoico_a_rel" ]. paleozoología_n1 := n_intr_uncount_le & [ STEM < "paleozoología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleozoología_n_rel" ] ]. palestino_a1 := a_rel_prd_le & [ STEM < "palestino" >, SYNSEM.LKEYS.KEYREL.PRED "_palestino_a_rel" ]. palestino_n1 := n_intr_count_le & [ STEM < "palestino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_palestino_n_rel" ] ]. palestra_n1 := n_intr_count_le & [ STEM < "palestra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_palestra_n_rel" ] ]. palet_n1 := n_intr_count_le & [ STEM < "palet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palet_n_rel" ] ]. paleta_n1 := n_intr_count_le & [ STEM < "paleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paleta_n_rel" ] ]. paletada_n1 := n_intr_count_le & [ STEM < "paletada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_paletada_n_rel" ] ]. paletilla_n1 := n_intr_mass-or-count_le & [ STEM < "paletilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paletilla_n_rel" ] ]. paletilla_n2 := n_ppcomp_count_le & [ STEM < "paletilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paletilla_n_rel" ] ]. paletina_n1 := n_intr_count_le & [ STEM < "paletina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paletina_n_rel" ] ]. paletista_n1 := n_intr_count_le & [ STEM < "paletista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paletista_n_rel" ] ]. paletizable_a1 := a_rel_nonprd_intr_le & [ STEM < "paletizable" >, SYNSEM.LKEYS.KEYREL.PRED "_paletizable_a_rel" ]. paletizado_a1 := a_rel_nonprd_intr_le & [ STEM < "paletizado" >, SYNSEM.LKEYS.KEYREL.PRED "_paletizado_a_rel" ]. paletizadora_n1 := n_intr_count_le & [ STEM < "paletizadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paletizadora_n_rel" ] ]. paletnología_n1 := n_intr_uncount_le & [ STEM < "paletnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paletnología_n_rel" ] ]. paleto_n1 := n_intr_count_le & [ STEM < "paleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paleto_n_rel" ] ]. paletón_n1 := n_intr_count_le & [ STEM < "paletón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paletón_n_rel" ] ]. paleógrafo_n1 := n_intr_count_le & [ STEM < "paleógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paleógrafo_n_rel" ] ]. paliación_n1 := n_trans_le & [ STEM < "paliación" >, SYNSEM.LKEYS.KEYREL.PRED "_paliación_n_rel" ]. paliar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "paliar" >, SYNSEM.LKEYS.KEYREL.PRED "_paliar_v_rel" ]. paliar_v2 := v_trans_np_le & [ STEM < "paliar" >, SYNSEM.LKEYS.KEYREL.PRED "_paliar_v_rel" ]. paliativo_a1 := a_rel_nonprd_intr_le & [ STEM < "paliativo" >, SYNSEM.LKEYS.KEYREL.PRED "_paliativo_a_rel" ]. palidecer_v := v_unacc_le & [ STEM < "palidecer" >, SYNSEM.LKEYS.KEYREL.PRED "_palidecer_v_rel" ]. palidez_n1 := n_ppcomp_uncount_le & [ STEM < "palidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palidez_n_rel" ] ]. palillo_n1 := n_intr_count_le & [ STEM < "palillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palillo_n_rel" ] ]. palimpsesto_n1 := n_intr_count_le & [ STEM < "palimpsesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_palimpsesto_n_rel" ] ]. palinología_n1 := n_intr_uncount_le & [ STEM < "palinología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palinología_n_rel" ] ]. palinólogo_a := a_rel_nonprd_intr_le & [ STEM < "palinólogo" >, SYNSEM.LKEYS.KEYREL.PRED "_palinólogo_a_rel" ]. palio_n1 := n_intr_count_le & [ STEM < "palio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palio_n_rel" ] ]. palisandro_n1 := n_intr_mass_le & [ STEM < "palisandro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_palisandro_n_rel" ] ]. palista_n1 := n_intr_count_le & [ STEM < "palista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_palista_n_rel" ] ]. palito_n1 := n_intr_count_le & [ STEM < "palito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palito_n_rel" ] ]. palizada_n1 := n_intr_count_le & [ STEM < "palizada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palizada_n_rel" ] ]. palmada_n1 := n_intr_count_le & [ STEM < "palmada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palmada_n_rel" ] ]. palmado_a1 := a_qual_intr_ser_le & [ STEM < "palmado" >, SYNSEM.LKEYS.KEYREL.PRED "_palmado_a_rel" ]. palmar_a1 := a_rel_nonprd_intr_le & [ STEM < "palmar" >, SYNSEM.LKEYS.KEYREL.PRED "_palmar_a_rel" ]. palmear_v := v_trans_np_lcomp_loc*_le & [ STEM < "palmear" >, SYNSEM.LKEYS.KEYREL.PRED "_palmear_v_rel" ]. palmeo_n1 := n_event-result_intr_le & [ STEM < "palmeo" >, SYNSEM.LKEYS.KEYREL.PRED "_palmeo_n_rel" ]. palmera_n1 := n_intr_count_le & [ STEM < "palmera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palmera_n_rel" ] ]. palmero_n1 := n_intr_count_le & [ STEM < "palmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_palmero_n_rel" ] ]. palmeta_n1 := n_intr_count_le & [ STEM < "palmeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_palmeta_n_rel" ] ]. palmira_n1 := n_intr_count_le & [ STEM < "palmira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_palmira_n_rel" ] ]. palmitato_n1 := n_intr_count_le & [ STEM < "palmitato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_palmitato_n_rel" ] ]. palmitoleato_n1 := n_intr_count_le & [ STEM < "palmitoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_palmitoleato_n_rel" ] ]. palmitoleico_a1 := a_rel_nonprd_intr_le & [ STEM < "palmitoleico" >, SYNSEM.LKEYS.KEYREL.PRED "_palmitoleico_a_rel" ]. palmo_n1 := n_pseudo-part_le & [ STEM < "palmo" >, SYNSEM.LKEYS.KEYREL.PRED "_palmo_n_rel" ]. palmoteo_n1 := n_result_intr_le & [ STEM < "palmoteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palmoteo_n_rel" ] ]. palmípedo_a1 := a_rel_nonprd_intr_le & [ STEM < "palmípedo" >, SYNSEM.LKEYS.KEYREL.PRED "_palmípedo_a_rel" ]. palmítico_a1 := a_rel_nonprd_intr_le & [ STEM < "palmítico" >, SYNSEM.LKEYS.KEYREL.PRED "_palmítico_a_rel" ]. palo_n1 := n_intr_mass_le & [ STEM < "palo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palo_n_rel" ] ]. paloma_n1 := n_intr_count_le & [ STEM < "paloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_paloma_n_rel" ] ]. palomar_n1 := n_intr_count_le & [ STEM < "palomar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_palomar_n_rel" ] ]. palomilla_n1 := n_intr_count_le & [ STEM < "palomilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palomilla_n_rel" ] ]. palomino_n1 := n_intr_count_le & [ STEM < "palomino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_palomino_n_rel" ] ]. palomita_n1 := n_intr_count_le & [ STEM < "palomita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palomita_n_rel" ] ]. palpable_a1 := a_qual_intr_scopal_le & [ STEM < "palpable" >, SYNSEM.LKEYS.KEYREL.PRED "_palpable_a_rel" ]. palpablemente_x1 := av_i_spr_le & [ STEM < "palpablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_palpablemente_x_rel" ]. palpador_n1 := n_intr_count_le & [ STEM < "palpador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_palpador_n_rel" ] ]. palpebral_a1 := a_rel_nonprd_intr_le & [ STEM < "palpebral" >, SYNSEM.LKEYS.KEYREL.PRED "_palpebral_a_rel" ]. palpebronasal_a1 := a_rel_nonprd_intr_le & [ STEM < "palpebronasal" >, SYNSEM.LKEYS.KEYREL.PRED "_palpebronasal_a_rel" ]. palpitación_n1 := n_event-result_intr_le & [ STEM < "palpitación" >, SYNSEM.LKEYS.KEYREL.PRED "_palpitación_n_rel" ]. palpitante_a1 := a_qual_intr_scopal_le & [ STEM < "palpitante" >, SYNSEM.LKEYS.KEYREL.PRED "_palpitante_a_rel" ]. palpitar_v := v_unacc_le & [ STEM < "palpitar" >, SYNSEM.LKEYS.KEYREL.PRED "_palpitar_v_rel" ]. palpo_n1 := n_intr_count_le & [ STEM < "palpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palpo_n_rel" ] ]. paludismo_n1 := n_intr_uncount_le & [ STEM < "paludismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paludismo_n_rel" ] ]. palurdo_a1 := a_qual_intr_ser_le & [ STEM < "palurdo" >, SYNSEM.LKEYS.KEYREL.PRED "_palurdo_a_rel" ]. palustre_n1 := n_intr_count_le & [ STEM < "palustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_palustre_n_rel" ] ]. palygorskita_n1 := n_intr_count_le & [ STEM < "palygorskita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_palygorskita_n_rel" ] ]. palúdico_a1 := a_rel_nonprd_intr_le & [ STEM < "palúdico" >, SYNSEM.LKEYS.KEYREL.PRED "_palúdico_a_rel" ]. pamela_n1 := n_intr_count_le & [ STEM < "pamela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pamela_n_rel" ] ]. pampeano_a1 := a_rel_prd_le & [ STEM < "pampeano" >, SYNSEM.LKEYS.KEYREL.PRED "_pampeano_a_rel" ]. pampeano_n1 := n_intr_count_le & [ STEM < "pampeano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pampeano_n_rel" ] ]. pampero_a1 := a_rel_prd_le & [ STEM < "pampero" >, SYNSEM.LKEYS.KEYREL.PRED "_pampero_a_rel" ]. pampero_n1 := n_intr_count_le & [ STEM < "pampero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pampero_n_rel" ] ]. pampiniforme_a1 := a_rel_nonprd_intr_le & [ STEM < "pampiniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_pampiniforme_a_rel" ]. pamplonés_a1 := a_rel_prd_le & [ STEM < "pamplonés" >, SYNSEM.LKEYS.KEYREL.PRED "_pamplonés_a_rel" ]. pamplonés_n1 := n_intr_count_le & [ STEM < "pamplonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pamplonés_n_rel" ] ]. pan_n1 := n_intr_mass_le & [ STEM < "pan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pan_n_rel" ] ]. pana_n1 := n_intr_mass_le & [ STEM < "pana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pana_n_rel" ] ]. panadero_n1 := n_intr_count_le & [ STEM < "panadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_panadero_n_rel" ] ]. panadería_n1 := n_intr_count_le & [ STEM < "panadería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_panadería_n_rel" ] ]. panal_n1 := n_intr_count_le & [ STEM < "panal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panal_n_rel" ] ]. panamericano_a1 := a_rel_prd_le & [ STEM < "panamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_panamericano_a_rel" ]. panameño_a1 := a_rel_prd_le & [ STEM < "panameño" >, SYNSEM.LKEYS.KEYREL.PRED "_panameño_a_rel" ]. panameño_n1 := n_intr_count_le & [ STEM < "panameño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_panameño_n_rel" ] ]. panarabismo_n1 := n_intr_uncount_pl_le & [ STEM < "panarabismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panarabismo_n_rel" ] ]. pancarta_n1 := n_intr_count_le & [ STEM < "pancarta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pancarta_n_rel" ] ]. pancatalanismo_n1 := n_intr_uncount_pl_le & [ STEM < "pancatalanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pancatalanismo_n_rel" ] ]. pancatalanista_n1 := n_intr_count_le & [ STEM < "pancatalanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pancatalanista_n_rel" ] ]. pancreaticoduodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "pancreaticoduodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_pancreaticoduodenal_a_rel" ]. pancreatina_n1 := n_intr_count_le & [ STEM < "pancreatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pancreatina_n_rel" ] ]. pancreático_a1 := a_rel_nonprd_intr_le & [ STEM < "pancreático" >, SYNSEM.LKEYS.KEYREL.PRED "_pancreático_a_rel" ]. pancromáticamente_x1 := av_i_spr_le & [ STEM < "pancromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pancromáticamente_x_rel" ]. pancromático_a1 := a_rel_nonprd_intr_le & [ STEM < "pancromático" >, SYNSEM.LKEYS.KEYREL.PRED "_pancromático_a_rel" ]. pandeo_n1 := n_event-result_intr_le & [ STEM < "pandeo" >, SYNSEM.LKEYS.KEYREL.PRED "_pandeo_n_rel" ]. pandereta_n1 := n_intr_count_le & [ STEM < "pandereta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pandereta_n_rel" ] ]. panderete_n1 := n_intr_count_le & [ STEM < "panderete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panderete_n_rel" ] ]. pandero_n1 := n_intr_count_le & [ STEM < "pandero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pandero_n_rel" ] ]. pandero_n2 := n_ppcomp_count_le & [ STEM < "pandero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pandero_n_rel" ] ]. pandilla_n1 := n_intr_coll_le & [ STEM < "pandilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_soc, PRED "_pandilla_n_rel" ] ]. pandillero_n1 := n_intr_count_le & [ STEM < "pandillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pandillero_n_rel" ] ]. pandora_n1 := n_intr_count_le & [ STEM < "pandora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pandora_n_rel" ] ]. pandémico_a1 := a_rel_nonprd_intr_le & [ STEM < "pandémico" >, SYNSEM.LKEYS.KEYREL.PRED "_pandémico_a_rel" ]. panecillo_n1 := n_intr_mass_le & [ STEM < "panecillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panecillo_n_rel" ] ]. panegírico_a1 := a_rel_nonprd_intr_le & [ STEM < "panegírico" >, SYNSEM.LKEYS.KEYREL.PRED "_panegírico_a_rel" ]. panegírico_n1 := n_intr_count_le & [ STEM < "panegírico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_panegírico_n_rel" ] ]. panel_n1 := n_intr_count_le & [ STEM < "panel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panel_n_rel" ] ]. panera_n1 := n_intr_count_le & [ STEM < "panera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panera_n_rel" ] ]. panfletista_n1 := n_intr_count_le & [ STEM < "panfletista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_panfletista_n_rel" ] ]. panfleto_n1 := n_intr_count_le & [ STEM < "panfleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_panfleto_n_rel" ] ]. panificable_a1 := a_rel_nonprd_intr_le & [ STEM < "panificable" >, SYNSEM.LKEYS.KEYREL.PRED "_panificable_a_rel" ]. panificar_v := v_trans_np_le & [ STEM < "panificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_panificar_v_rel" ] ]. panmíctico_a1 := a_rel_nonprd_intr_le & [ STEM < "panmíctico" >, SYNSEM.LKEYS.KEYREL.PRED "_panmíctico_a_rel" ]. panocha_n1 := n_intr_count_le & [ STEM < "panocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_panocha_n_rel" ] ]. panoplia_n1 := n_intr_count_le & [ STEM < "panoplia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panoplia_n_rel" ] ]. panorama_n1 := n_intr_count_le & [ STEM < "panorama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panorama_n_rel" ] ]. panorámicamente_x1 := av_i_spr_le & [ STEM < "panorámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_panorámicamente_x_rel" ]. panorámico_a1 := a_rel_nonprd_intr_le & [ STEM < "panorámico" >, SYNSEM.LKEYS.KEYREL.PRED "_panorámico_a_rel" ]. pantalla_n1 := n_intr_count_le & [ STEM < "pantalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantalla_n_rel" ] ]. pantalán_n1 := n_intr_count_le & [ STEM < "pantalán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pantalán_n_rel" ] ]. pantalón_n1 := n_intr_count_le & [ STEM < "pantalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantalón_n_rel" ] ]. pantanal_n1 := n_intr_count_le & [ STEM < "pantanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pantanal_n_rel" ] ]. pantano_n1 := n_intr_count_le & [ STEM < "pantano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pantano_n_rel" ] ]. pantanosamente_x1 := av_i_spr_le & [ STEM < "pantanosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pantanosamente_x_rel" ]. pantanoso_a1 := a_qual_intr_ser_le & [ STEM < "pantanoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pantanoso_a_rel" ]. pantera_n1 := n_intr_count_le & [ STEM < "pantera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pantera_n_rel" ] ]. panteísta_a1 := a_rel_prd_le & [ STEM < "panteísta" >, SYNSEM.LKEYS.KEYREL.PRED "_panteísta_a_rel" ]. panteísta_n1 := n_intr_count_le & [ STEM < "panteísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_panteísta_n_rel" ] ]. panteón_n1 := n_intr_count_le & [ STEM < "panteón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_panteón_n_rel" ] ]. pantografía_n1 := n_intr_count_le & [ STEM < "pantografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantografía_n_rel" ] ]. pantográficamente_x1 := av_i_spr_le & [ STEM < "pantográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pantográficamente_x_rel" ]. pantomografía_n1 := n_intr_count_le & [ STEM < "pantomografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantomografía_n_rel" ] ]. pantomograma_n1 := n_intr_count_le & [ STEM < "pantomograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantomograma_n_rel" ] ]. pantoque_n1 := n_intr_count_le & [ STEM < "pantoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantoque_n_rel" ] ]. pantorrilla_n1 := n_ppcomp_count_le & [ STEM < "pantorrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pantorrilla_n_rel" ] ]. pantotenato_n1 := n_intr_count_le & [ STEM < "pantotenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pantotenato_n_rel" ] ]. pantoténico_a1 := a_rel_nonprd_intr_le & [ STEM < "pantoténico" >, SYNSEM.LKEYS.KEYREL.PRED "_pantoténico_a_rel" ]. pantropical_a1 := a_rel_nonprd_intr_le & [ STEM < "pantropical" >, SYNSEM.LKEYS.KEYREL.PRED "_pantropical_a_rel" ]. pantufla_n1 := n_intr_count_le & [ STEM < "pantufla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantufla_n_rel" ] ]. pantógrafo_n1 := n_intr_count_le & [ STEM < "pantógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantógrafo_n_rel" ] ]. pantómetro_n1 := n_intr_count_le & [ STEM < "pantómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pantómetro_n_rel" ] ]. panza_n1 := n_intr_mass_le & [ STEM < "panza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_panza_n_rel" ] ]. panzudo_a1 := a_qual_intr_ser_le & [ STEM < "panzudo" >, SYNSEM.LKEYS.KEYREL.PRED "_panzudo_a_rel" ]. panícula_n1 := n_intr_count_le & [ STEM < "panícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_panícula_n_rel" ] ]. papa_n1 := n_ppcomp_count_le & [ STEM < "papa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_papa_n_rel" ] ]. papada_n1 := n_ppcomp_uncount_le & [ STEM < "papada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_papada_n_rel" ] ]. papado_n1 := n_intr_count_le & [ STEM < "papado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papado_n_rel" ] ]. papagayo_n1 := n_intr_count_le & [ STEM < "papagayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_papagayo_n_rel" ] ]. papal_a1 := a_rel_nonprd_intr_le & [ STEM < "papal" >, SYNSEM.LKEYS.KEYREL.PRED "_papal_a_rel" ]. papamóvil_n1 := n_intr_count_le & [ STEM < "papamóvil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papamóvil_n_rel" ] ]. papaya_n1 := n_intr_mass_le & [ STEM < "papaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papaya_n_rel" ] ]. papaína_n1 := n_intr_count_le & [ STEM < "papaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_papaína_n_rel" ] ]. papel_n1 := n_intr_mass-or-count_le & [ STEM < "papel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_papel_n_rel" ] ]. papeleo_n1 := n_result_intr_le & [ STEM < "papeleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papeleo_n_rel" ] ]. papelera_n1 := n_intr_count_le & [ STEM < "papelera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_papelera_n_rel" ] ]. papelero_a1 := a_rel_nonprd_intr_le & [ STEM < "papelero" >, SYNSEM.LKEYS.KEYREL.PRED "_papelero_a_rel" ]. papelería_n1 := n_intr_count_le & [ STEM < "papelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_papelería_n_rel" ] ]. papeleta_n1 := n_intr_count_le & [ STEM < "papeleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_papeleta_n_rel" ] ]. papelina_n1 := n_intr_count_le & [ STEM < "papelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papelina_n_rel" ] ]. papelonado_a1 := a_rel_nonprd_intr_le & [ STEM < "papelonado" >, SYNSEM.LKEYS.KEYREL.PRED "_papelonado_a_rel" ]. papera_n1 := n_intr_uncount_pl_le & [ STEM < "papera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papera_n_rel" ] ]. papila_n1 := n_intr_count_le & [ STEM < "papila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papila_n_rel" ] ]. papilar_a1 := a_rel_nonprd_intr_le & [ STEM < "papilar" >, SYNSEM.LKEYS.KEYREL.PRED "_papilar_a_rel" ]. papiledema_n1 := n_intr_count_le & [ STEM < "papiledema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_papiledema_n_rel" ] ]. papilionácea_n1 := n_intr_count_le & [ STEM < "papilionácea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_papilionácea_n_rel" ] ]. papilla_n1 := n_intr_mass_le & [ STEM < "papilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papilla_n_rel" ] ]. papillota_n1 := n_intr_count_le & [ STEM < "papillota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papillota_n_rel" ] ]. papiro_n1 := n_intr_mass_le & [ STEM < "papiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_papiro_n_rel" ] ]. papista_a1 := a_qual_intr_scopal_le & [ STEM < "papista" >, SYNSEM.LKEYS.KEYREL.PRED "_papista_a_rel" ]. papión_n1 := n_intr_count_le & [ STEM < "papión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_papión_n_rel" ] ]. paprika_n1 := n_intr_mass_le & [ STEM < "paprika" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paprika_n_rel" ] ]. papá_n1 := n_ppcomp_count_le & [ STEM < "papá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_papá_n_rel" ] ]. papú_n1 := n_intr_count_le & [ STEM < "papú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_papú_n_rel" ] ]. paquebote_n1 := n_intr_count_le & [ STEM < "paquebote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paquebote_n_rel" ] ]. paquete_n1 := n_intr_count_le & [ STEM < "paquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paquete_n_rel" ] ]. paquetería_n1 := n_intr_uncount_pl_le & [ STEM < "paquetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paquetería_n_rel" ] ]. paquidermo_n1 := n_intr_count_le & [ STEM < "paquidermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_paquidermo_n_rel" ] ]. paquimeninge_n1 := n_ppcomp_count_le & [ STEM < "paquimeninge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paquimeninge_n_rel" ] ]. paquistanés_n1 := n_intr_count_le & [ STEM < "paquistanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paquistanés_n_rel" ] ]. paquistaní_a1 := a_rel_prd_le & [ STEM < "paquistaní" >, SYNSEM.LKEYS.KEYREL.PRED "_paquistaní_a_rel" ]. paquistaní_n1 := n_intr_count_le & [ STEM < "paquistaní" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paquistaní_n_rel" ] ]. par_a1 := a_rel_nonprd_intr_le & [ STEM < "par" >, SYNSEM.LKEYS.KEYREL.PRED "_par_a_rel" ]. par_n1 := n_pseudo-part_le & [ STEM < "par" >, SYNSEM.LKEYS.KEYREL.PRED "_par_n_rel" ]. para_colmo_x1 := av_i_le & [ STEM < "para_colmo" >, SYNSEM.LKEYS.KEYREL.PRED "_para_colmo_x_rel" ]. para_dar_y_tomar_x1 := av_i_le & [ STEM < "para_dar_y_tomar" >, SYNSEM.LKEYS.KEYREL.PRED "_para_dar_y_tomar_x_rel" ]. para_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_sel_rel ]. para_mrk_np := p_mrk_np_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_sel_rel ]. para_más_inri_x1 := av_i_le & [ STEM < "para_más_inri" >, SYNSEM.LKEYS.KEYREL.PRED "_para_más_inri_x_rel" ]. para_p_nmod := p_nmod_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_rel ]. para_p_temp_nmod := p_temp_nmod_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_temp_rel ]. para_p_temp_vmod := p_temp_vmod_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_temp_rel ]. para_p_vmod := p_vmod_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED _para_p_rel ]. para_rato_x1 := av_i_le & [ STEM < "para_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_para_rato_x_rel" ]. para_remate_x1 := av_i_le & [ STEM < "para_remate" >, SYNSEM.LKEYS.KEYREL.PRED "_para_remate_x_rel" ]. para_sc1 := p_cp_prop_fin_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED "_para_x_subord_rel" ]. para_sc2 := p_vp_inf_le & [ STEM < "para" >, SYNSEM.LKEYS.KEYREL.PRED "_para_x_subord_rel" ]. para_todo_trote_x1 := av_i_le & [ STEM < "para_todo_trote" >, SYNSEM.LKEYS.KEYREL.PRED "_para_todo_trote_x_rel" ]. paraapical_a1 := a_rel_nonprd_intr_le & [ STEM < "paraapical" >, SYNSEM.LKEYS.KEYREL.PRED "_paraapical_a_rel" ]. paraavalancha_n1 := n_intr_count_le & [ STEM < "paraavalancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paraavalancha_n_rel" ] ]. paraaórtico_a1 := a_rel_nonprd_intr_le & [ STEM < "paraaórtico" >, SYNSEM.LKEYS.KEYREL.PRED "_paraaórtico_a_rel" ]. parabalas_n1 := n_intr_count_le & [ STEM < "parabalas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parabalas_n_rel" ] ]. parabrisas_n1 := n_intr_count_le & [ STEM < "parabrisas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parabrisas_n_rel" ] ]. parabólicamente_x1 := av_i_spr_le & [ STEM < "parabólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_parabólicamente_x_rel" ]. parabólico_a1 := a_rel_nonprd_intr_le & [ STEM < "parabólico" >, SYNSEM.LKEYS.KEYREL.PRED "_parabólico_a_rel" ]. paracaidismo_n1 := n_intr_uncount_le & [ STEM < "paracaidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paracaidismo_n_rel" ] ]. paracaidista_n1 := n_intr_count_le & [ STEM < "paracaidista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paracaidista_n_rel" ] ]. paracaídas_n1 := n_intr_count_le & [ STEM < "paracaídas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paracaídas_n_rel" ] ]. paracentral_a1 := a_rel_nonprd_intr_le & [ STEM < "paracentral" >, SYNSEM.LKEYS.KEYREL.PRED "_paracentral_a_rel" ]. parachoques_n1 := n_intr_count_le & [ STEM < "parachoques" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parachoques_n_rel" ] ]. paraciencia_n1 := n_intr_uncount_pl_le & [ STEM < "paraciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraciencia_n_rel" ] ]. paracorteza_n1 := n_ppcomp_count_le & [ STEM < "paracorteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paracorteza_n_rel" ] ]. paracortical_a1 := a_rel_nonprd_intr_le & [ STEM < "paracortical" >, SYNSEM.LKEYS.KEYREL.PRED "_paracortical_a_rel" ]. paracromatina_n1 := n_intr_count_le & [ STEM < "paracromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paracromatina_n_rel" ] ]. paracólico_a1 := a_rel_nonprd_intr_le & [ STEM < "paracólico" >, SYNSEM.LKEYS.KEYREL.PRED "_paracólico_a_rel" ]. parada_n1 := n_intr_count_le & [ STEM < "parada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_parada_n_rel" ] ]. paradero_n1 := n_intr_count_le & [ STEM < "paradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paradero_n_rel" ] ]. paradiafonía_n1 := n_intr_uncount_le & [ STEM < "paradiafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paradiafonía_n_rel" ] ]. paradigmático_a1 := a_qual_intr_ser_le & [ STEM < "paradigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_paradigmático_a_rel" ]. paradisiaco_a1 := a_qual_intr_ser_le & [ STEM < "paradisiaco" >, SYNSEM.LKEYS.KEYREL.PRED "_paradisiaco_a_rel" ]. paradisíaco_a1 := a_qual_intr_ser_le & [ STEM < "paradisíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_paradisíaco_a_rel" ]. parado_n1 := n_intr_count_le & [ STEM < "parado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parado_n_rel" ] ]. parador_n1 := n_intr_count_le & [ STEM < "parador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_parador_n_rel" ] ]. paraduodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "paraduodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_paraduodenal_a_rel" ]. paradídimo_n1 := n_ppcomp_count_le & [ STEM < "paradídimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paradídimo_n_rel" ] ]. paradójicamente_x1 := av_s_spr_le & [ STEM < "paradójicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paradójicamente_x_rel" ]. paradójico_a1 := a_qual_intr_ser_le & [ STEM < "paradójico" >, SYNSEM.LKEYS.KEYREL.PRED "_paradójico_a_rel" ]. parafarmacia_n1 := n_intr_count_le & [ STEM < "parafarmacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_parafarmacia_n_rel" ] ]. parafina_n1 := n_intr_mass_le & [ STEM < "parafina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parafina_n_rel" ] ]. parafiscalidad_n1 := n_intr_uncount_le & [ STEM < "parafiscalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parafiscalidad_n_rel" ] ]. parafonía_n1 := n_intr_uncount_pl_le & [ STEM < "parafonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parafonía_n_rel" ] ]. paraformaldehído_n1 := n_intr_count_le & [ STEM < "paraformaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paraformaldehído_n_rel" ] ]. parafrasear_v := v_trans_np_le & [ STEM < "parafrasear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_parafrasear_v_rel" ] ]. parafínico_a1 := a_rel_nonprd_intr_le & [ STEM < "parafínico" >, SYNSEM.LKEYS.KEYREL.PRED "_parafínico_a_rel" ]. paraglobina_n1 := n_intr_count_le & [ STEM < "paraglobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paraglobina_n_rel" ] ]. paraglobulina_n1 := n_intr_count_le & [ STEM < "paraglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paraglobulina_n_rel" ] ]. paraglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "paraglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_paraglótico_a_rel" ]. paraguas_n1 := n_intr_count_le & [ STEM < "paraguas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paraguas_n_rel" ] ]. paraguayano_n1 := n_intr_count_le & [ STEM < "paraguayano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paraguayano_n_rel" ] ]. paraguayo_a1 := a_rel_prd_le & [ STEM < "paraguayo" >, SYNSEM.LKEYS.KEYREL.PRED "_paraguayo_a_rel" ]. paraguayo_n1 := n_intr_count_le & [ STEM < "paraguayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paraguayo_n_rel" ] ]. paragüero_n1 := n_intr_count_le & [ STEM < "paragüero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paragüero_n_rel" ] ]. parahelio_n1 := n_intr_count_le & [ STEM < "parahelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parahelio_n_rel" ] ]. parahidrógeno_n1 := n_intr_count_le & [ STEM < "parahidrógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parahidrógeno_n_rel" ] ]. paraje_n1 := n_intr_count_le & [ STEM < "paraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paraje_n_rel" ] ]. paralabio_n1 := n_ppcomp_count_le & [ STEM < "paralabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paralabio_n_rel" ] ]. paralaje_n1 := n_intr_uncount_le & [ STEM < "paralaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralaje_n_rel" ] ]. paralaje_n2 := n_intr_count_le & [ STEM < "paralaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralaje_n_rel" ] ]. paraldehído_n1 := n_intr_mass_le & [ STEM < "paraldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paraldehído_n_rel" ] ]. paralegal_a1 := a_rel_nonprd_intr_le & [ STEM < "paralegal" >, SYNSEM.LKEYS.KEYREL.PRED "_paralegal_a_rel" ]. paralela_n1 := n_intr_count_le & [ STEM < "paralela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_paralela_n_rel" ] ]. paralelamente_x1 := av_i_spr_le & [ STEM < "paralelamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paralelamente_x_rel" ]. paralelismo_n1 := n_ppcomp_mass-or-count_le & [ STEM < "paralelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralelismo_n_rel" ] ]. paralelización_n1 := n_trans_le & [ STEM < "paralelización" >, SYNSEM.LKEYS.KEYREL.PRED "_paralelización_n_rel" ]. paralelizador_n1 := n_intr_count_le & [ STEM < "paralelizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paralelizador_n_rel" ] ]. paralelo_a1 := a_qual_trans*_ser_le & [ STEM < "paralelo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_paralelo_a_rel" ] ]. paraleloguía_n1 := n_intr_count_le & [ STEM < "paraleloguía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraleloguía_n_rel" ] ]. paralelógrafo_n1 := n_intr_count_le & [ STEM < "paralelógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paralelógrafo_n_rel" ] ]. paralelómetro_n1 := n_intr_count_le & [ STEM < "paralelómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paralelómetro_n_rel" ] ]. paralingã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "paralingüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_paralingüístico_a_rel" ]. paralingüísticamente_x1 := av_i_spr_le & [ STEM < "paralingüísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paralingüísticamente_x_rel" ]. paralización_n1 := n_trans_le & [ STEM < "paralización" >, SYNSEM.LKEYS.KEYREL.PRED "_paralización_n_rel" ]. paralizador_a1 := a_qual_intr_ser_le & [ STEM < "paralizador" >, SYNSEM.LKEYS.KEYREL.PRED "_paralizador_a_rel" ]. paralizadormente_x1 := av_i_spr_le & [ STEM < "paralizadormente" >, SYNSEM.LKEYS.KEYREL.PRED "_paralizadormente_x_rel" ]. paralizante_a1 := a_qual_intr_ser_le & [ STEM < "paralizante" >, SYNSEM.LKEYS.KEYREL.PRED "_paralizante_a_rel" ]. paralizar_v := v_trans_np_le & [ STEM < "paralizar" >, SYNSEM.LKEYS.KEYREL.PRED "_paralizar_v_rel" ]. parallamas_n1 := n_intr_count_le & [ STEM < "parallamas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parallamas_n_rel" ] ]. paralogismo_n1 := n_intr_uncount_le & [ STEM < "paralogismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralogismo_n_rel" ] ]. paralácticamente_x1 := av_i_spr_le & [ STEM < "paralácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paralácticamente_x_rel" ]. paraláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "paraláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_paraláctico_a_rel" ]. paralímpico_a1 := a_rel_nonprd_intr_le & [ STEM < "paralímpico" >, SYNSEM.LKEYS.KEYREL.PRED "_paralímpico_a_rel" ]. paralítico_a1 := a_qual_intr_ser_le & [ STEM < "paralítico" >, SYNSEM.LKEYS.KEYREL.PRED "_paralítico_a_rel" ]. paramagnetismo_n1 := n_intr_uncount_le & [ STEM < "paramagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paramagnetismo_n_rel" ] ]. paramagnéticamente_x1 := av_i_spr_le & [ STEM < "paramagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paramagnéticamente_x_rel" ]. paramagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "paramagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_paramagnético_a_rel" ]. paramediano_a1 := a_rel_nonprd_intr_le & [ STEM < "paramediano" >, SYNSEM.LKEYS.KEYREL.PRED "_paramediano_a_rel" ]. paramento_n1 := n_intr_count_le & [ STEM < "paramento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paramento_n_rel" ] ]. paramesonéfrico_a1 := a_rel_nonprd_intr_le & [ STEM < "paramesonéfrico" >, SYNSEM.LKEYS.KEYREL.PRED "_paramesonéfrico_a_rel" ]. parametadiona_n1 := n_intr_count_le & [ STEM < "parametadiona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parametadiona_n_rel" ] ]. parametrio_n1 := n_intr_count_le & [ STEM < "parametrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parametrio_n_rel" ] ]. parametrizar_v := v_trans_np_le & [ STEM < "parametrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_parametrizar_v_rel" ]. paramilitar_a1 := a_rel_nonprd_intr_le & [ STEM < "paramilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_paramilitar_a_rel" ]. paramétricamente_x1 := av_i_spr_le & [ STEM < "paramétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paramétricamente_x_rel" ]. paramétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "paramétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_paramétrico_a_rel" ]. paranasal_a1 := a_rel_nonprd_intr_le & [ STEM < "paranasal" >, SYNSEM.LKEYS.KEYREL.PRED "_paranasal_a_rel" ]. paraninfo_n1 := n_intr_count_le & [ STEM < "paraninfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paraninfo_n_rel" ] ]. paranoico_a1 := a_qual_intr_ser_le & [ STEM < "paranoico" >, SYNSEM.LKEYS.KEYREL.PRED "_paranoico_a_rel" ]. paranoico_n1 := n_intr_count_le & [ STEM < "paranoico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paranoico_n_rel" ] ]. paranormal_a1 := a_rel_nonprd_intr_le & [ STEM < "paranormal" >, SYNSEM.LKEYS.KEYREL.PRED "_paranormal_a_rel" ]. paranucleína_n1 := n_intr_count_le & [ STEM < "paranucleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paranucleína_n_rel" ] ]. paraovario_n1 := n_ppcomp_count_le & [ STEM < "paraovario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paraovario_n_rel" ] ]. parapente_n1 := n_intr_uncount_le & [ STEM < "parapente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parapente_n_rel" ] ]. paraperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "paraperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_paraperióstico_a_rel" ]. parapetar_v := v_pron_intr_le & [ STEM < "parapetar" >, SYNSEM.LKEYS.KEYREL.PRED "_parapetar_v_rel" ]. parapeto_n1 := n_intr_count_le & [ STEM < "parapeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_parapeto_n_rel" ] ]. paraplasma_n1 := n_intr_count_le & [ STEM < "paraplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paraplasma_n_rel" ] ]. parapléjico_a1 := a_qual_intr_ser_le & [ STEM < "parapléjico" >, SYNSEM.LKEYS.KEYREL.PRED "_parapléjico_a_rel" ]. paraproteína_n1 := n_intr_count_le & [ STEM < "paraproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_paraproteína_n_rel" ] ]. parapsicología_n1 := n_intr_uncount_le & [ STEM < "parapsicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parapsicología_n_rel" ] ]. parar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "parar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_parar_v_rel" ] ] ]. parar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "parar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_parar_v_rel" ] ] ]. parar_v3 := v_trans_np*_caus_le & [ STEM < "parar" >, SYNSEM.LKEYS.KEYREL.PRED "_parar_v_rel" ]. parar_v4 := v_intr_mrkd_vp_ssr_le & [ STEM < "parar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_parar_v_rel" ] ]. pararendsina_n1 := n_intr_count_le & [ STEM < "pararendsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pararendsina_n_rel" ] ]. pararrayos_n1 := n_intr_count_le & [ STEM < "pararrayos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pararrayos_n_rel" ] ]. parasimpático_a1 := a_rel_nonprd_intr_le & [ STEM < "parasimpático" >, SYNSEM.LKEYS.KEYREL.PRED "_parasimpático_a_rel" ]. parasintético_a1 := a_rel_nonprd_intr_le & [ STEM < "parasintético" >, SYNSEM.LKEYS.KEYREL.PRED "_parasintético_a_rel" ]. parasitariamente_x1 := av_i_spr_le & [ STEM < "parasitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_parasitariamente_x_rel" ]. parasitario_a1 := a_rel_nonprd_intr_le & [ STEM < "parasitario" >, SYNSEM.LKEYS.KEYREL.PRED "_parasitario_a_rel" ]. parasiticida_n1 := n_intr_count_le & [ STEM < "parasiticida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_parasiticida_n_rel" ] ]. parasitismo_n1 := n_intr_uncount_le & [ STEM < "parasitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parasitismo_n_rel" ] ]. parasitología_n1 := n_intr_uncount_le & [ STEM < "parasitología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parasitología_n_rel" ] ]. parasol_n1 := n_intr_count_le & [ STEM < "parasol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parasol_n_rel" ] ]. parasítico_a1 := a_rel_nonprd_intr_le & [ STEM < "parasítico" >, SYNSEM.LKEYS.KEYREL.PRED "_parasítico_a_rel" ]. paraterminal_a1 := a_rel_nonprd_intr_le & [ STEM < "paraterminal" >, SYNSEM.LKEYS.KEYREL.PRED "_paraterminal_a_rel" ]. paratiroides_n1 := n_ppcomp_count_le & [ STEM < "paratiroides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_paratiroides_n_rel" ] ]. paratáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "paratáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_paratáctico_a_rel" ]. paraumbilical_a1 := a_rel_nonprd_intr_le & [ STEM < "paraumbilical" >, SYNSEM.LKEYS.KEYREL.PRED "_paraumbilical_a_rel" ]. parauretral_a1 := a_rel_nonprd_intr_le & [ STEM < "parauretral" >, SYNSEM.LKEYS.KEYREL.PRED "_parauretral_a_rel" ]. paraventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "paraventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_paraventricular_a_rel" ]. paraxial_a1 := a_rel_nonprd_intr_le & [ STEM < "paraxial" >, SYNSEM.LKEYS.KEYREL.PRED "_paraxial_a_rel" ]. paraíso_n1 := n_intr_count_le & [ STEM < "paraíso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_paraíso_n_rel" ] ]. parcela_n1 := n_pseudo-part_le & [ STEM < "parcela" >, SYNSEM.LKEYS.KEYREL.PRED "_parcela_n_rel" ]. parcelación_n1 := n_trans_le & [ STEM < "parcelación" >, SYNSEM.LKEYS.KEYREL.PRED "_parcelación_n_rel" ]. parcelar_v := v_trans_np_le & [ STEM < "parcelar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_parcelar_v_rel" ] ]. parcelario_a1 := a_rel_nonprd_intr_le & [ STEM < "parcelario" >, SYNSEM.LKEYS.KEYREL.PRED "_parcelario_a_rel" ]. parcheador_n1 := n_subj-nom_le & [ STEM < "parcheador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parcheador_n_rel" ] ]. parchear_v := v_trans_np_le & [ STEM < "parchear" >, SYNSEM.LKEYS.KEYREL.PRED "_parchear_v_rel" ]. parchís_n1 := n_intr_uncount_le & [ STEM < "parchís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parchís_n_rel" ] ]. parcial_a1 := a_qual_intr_ser_le & [ STEM < "parcial" >, SYNSEM.LKEYS.KEYREL.PRED "_parcial_a_rel" ]. parcialidad_n1 := n_intr_mass-or-count_le & [ STEM < "parcialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parcialidad_n_rel" ] ]. parcialmente_x1 := av_i_spr_le & [ STEM < "parcialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_parcialmente_x_rel" ]. parco_a1 := a_qual_trans*_ser_le & [ STEM < "parco" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_parco_a_rel" ] ]. pardillo_n1 := n_intr_count_le & [ STEM < "pardillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pardillo_n_rel" ] ]. pardo_a1 := a_qual_intr_ser_le & [ STEM < "pardo" >, SYNSEM.LKEYS.KEYREL.PRED "_pardo_a_rel" ]. pardogrisáceo_a1 := a_qual_intr_ser_le & [ STEM < "pardogrisáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_pardogrisáceo_a_rel" ]. pardusco_a1 := a_qual_intr_ser_le & [ STEM < "pardusco" >, SYNSEM.LKEYS.KEYREL.PRED "_pardusco_a_rel" ]. pareado_n1 := n_intr_count_le & [ STEM < "pareado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_pareado_n_rel" ] ]. parecer_v1 := v_impers_cp_prop_fin_ind_le & [ STEM < "parecer" >, SYNSEM.LKEYS.KEYREL.PRED "_parecer_v_rel" ]. parecer_v2 := v_intr_io*_le & [ STEM < "parecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_parecer_v_rel" ] ]. parecer_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "parecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_parecer_v_rel" ] ]. parecer_v4 := v_ssr_le & [ STEM < "parecer" >, SYNSEM.LKEYS.KEYREL.PRED "_parecer_v_rel" ]. parecer_v5 := v_subj_cp_prop_inf_or_fin_sub_intr_io_le & [ STEM < "parecer" >, SYNSEM.LKEYS.KEYREL.PRED "_parecer_v_rel" ]. parecido_n1 := n_intr_uncount_pl_le & [ STEM < "parecido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parecido_n_rel" ] ]. pared_n1 := n_intr_count_le & [ STEM < "pared" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pared_n_rel" ] ]. paredaña_n1 := n_intr_count_le & [ STEM < "paredaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paredaña_n_rel" ] ]. pareja_n1 := n_pseudo-part_le & [ STEM < "pareja" >, SYNSEM.LKEYS.KEYREL.PRED "_pareja_n_rel" ]. pareja_n2 := n_intr_count_le & [ STEM < "pareja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pareja_n_rel" ] ]. parejamente_x1 := av_i_spr_le & [ STEM < "parejamente" >, SYNSEM.LKEYS.KEYREL.PRED "_parejamente_x_rel" ]. parejita_n1 := n_intr_count_le & [ STEM < "parejita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parejita_n_rel" ] ]. parejo_a1 := a_qual_intr_scopal_le & [ STEM < "parejo" >, SYNSEM.LKEYS.KEYREL.PRED "_parejo_a_rel" ]. paremiología_n1 := n_intr_uncount_le & [ STEM < "paremiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paremiología_n_rel" ] ]. paremiólogo_n1 := n_intr_count_le & [ STEM < "paremiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paremiólogo_n_rel" ] ]. parenquimatoso_a1 := a_rel_nonprd_intr_le & [ STEM < "parenquimatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_parenquimatoso_a_rel" ]. parental_a1 := a_rel_nonprd_intr_le & [ STEM < "parental" >, SYNSEM.LKEYS.KEYREL.PRED "_parental_a_rel" ]. parentizar_v := v_trans_np_le & [ STEM < "parentizar" >, SYNSEM.LKEYS.KEYREL.PRED "_parentizar_v_rel" ]. parentético_a1 := a_rel_nonprd_intr_le & [ STEM < "parentético" >, SYNSEM.LKEYS.KEYREL.PRED "_parentético_a_rel" ]. pareo_n1 := n_intr_mass_le & [ STEM < "pareo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pareo_n_rel" ] ]. pargasita_n1 := n_intr_count_le & [ STEM < "pargasita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pargasita_n_rel" ] ]. pargo_n1 := n_intr_count_le & [ STEM < "pargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pargo_n_rel" ] ]. parhilera_n1 := n_intr_count_le & [ STEM < "parhilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parhilera_n_rel" ] ]. paria_n1 := n_intr_count_le & [ STEM < "paria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_paria_n_rel" ] ]. paridad_n1 := n_intr_mass-or-count_le & [ STEM < "paridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paridad_n_rel" ] ]. pariente_n1 := n_intr_count_le & [ STEM < "pariente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pariente_n_rel" ] ]. parietal_a1 := a_rel_nonprd_intr_le & [ STEM < "parietal" >, SYNSEM.LKEYS.KEYREL.PRED "_parietal_a_rel" ]. parietal_n1 := n_ppcomp_count_le & [ STEM < "parietal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_parietal_n_rel" ] ]. parietalmente_x1 := av_i_spr_le & [ STEM < "parietalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_parietalmente_x_rel" ]. parietomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "parietomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_parietomastoideo_a_rel" ]. parietooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "parietooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_parietooccipital_a_rel" ]. parir_v := v_trans_np*_le & [ STEM < "parir" >, SYNSEM.LKEYS.KEYREL.PRED "_parir_v_rel" ]. parisiense_a1 := a_rel_prd_le & [ STEM < "parisiense" >, SYNSEM.LKEYS.KEYREL.PRED "_parisiense_a_rel" ]. parisino_a1 := a_rel_prd_le & [ STEM < "parisino" >, SYNSEM.LKEYS.KEYREL.PRED "_parisino_a_rel" ]. parisino_n1 := n_intr_count_le & [ STEM < "parisino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parisino_n_rel" ] ]. paritario_a1 := a_rel_nonprd_intr_le & [ STEM < "paritario" >, SYNSEM.LKEYS.KEYREL.PRED "_paritario_a_rel" ]. parlamentar_v := v_intr_mrkd_np*_le & [ STEM < "parlamentar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_parlamentar_v_rel" ] ]. parlamentario_a1 := a_rel_nonprd_intr_le & [ STEM < "parlamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_parlamentario_a_rel" ]. parlamentario_n1 := n_intr_count_le & [ STEM < "parlamentario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parlamentario_n_rel" ] ]. parlamentarismo_n1 := n_intr_uncount_le & [ STEM < "parlamentarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parlamentarismo_n_rel" ] ]. parlamento_europeo_n1 := n_intr_count_le & [ STEM < "parlamento_europeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_parlamento_europeo_n_rel" ] ]. parlamento_n1 := n_intr_count_le & [ STEM < "parlamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_parlamento_n_rel" ] ]. parlanchín_n1 := n_intr_count_le & [ STEM < "parlanchín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parlanchín_n_rel" ] ]. parloteo_n1 := n_result_intr_le & [ STEM < "parloteo" >, SYNSEM.LKEYS.KEYREL.PRED "_parloteo_n_rel" ]. parmesano_a1 := a_rel_prd_le & [ STEM < "parmesano" >, SYNSEM.LKEYS.KEYREL.PRED "_parmesano_a_rel" ]. parmesano_n1 := n_intr_mass_le & [ STEM < "parmesano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parmesano_n_rel" ] ]. parodiar_v := v_trans_np_le & [ STEM < "parodiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT abs_hum_pro_sem_soc, PRED "_parodiar_v_rel" ] ]. paronímicamente_x1 := av_i_spr_le & [ STEM < "paronímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paronímicamente_x_rel" ]. paronímico_a1 := a_rel_nonprd_intr_le & [ STEM < "paronímico" >, SYNSEM.LKEYS.KEYREL.PRED "_paronímico_a_rel" ]. parotídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "parotídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_parotídeo_a_rel" ]. paroxismo_n1 := n_intr_uncount_le & [ STEM < "paroxismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paroxismo_n_rel" ] ]. paroxístico_a1 := a_rel_nonprd_intr_le & [ STEM < "paroxístico" >, SYNSEM.LKEYS.KEYREL.PRED "_paroxístico_a_rel" ]. paroxítono_a1 := a_rel_nonprd_intr_le & [ STEM < "paroxítono" >, SYNSEM.LKEYS.KEYREL.PRED "_paroxítono_a_rel" ]. parpadeo_n1 := n_result_intr_le & [ STEM < "parpadeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parpadeo_n_rel" ] ]. parque_n1 := n_intr_count_le & [ STEM < "parque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_parque_n_rel" ] ]. parquedad_n1 := n_intr_mass-or-count_le & [ STEM < "parquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parquedad_n_rel" ] ]. parquet_n1 := n_intr_mass_le & [ STEM < "parquet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parquet_n_rel" ] ]. parqué_n1 := n_intr_mass-or-count_le & [ STEM < "parqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_parqué_n_rel" ] ]. parquímetro_n1 := n_intr_count_le & [ STEM < "parquímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parquímetro_n_rel" ] ]. parra_n1 := n_intr_count_le & [ STEM < "parra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_parra_n_rel" ] ]. parricida_n1 := n_intr_count_le & [ STEM < "parricida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parricida_n_rel" ] ]. parrilla_n1 := n_intr_count_le & [ STEM < "parrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parrilla_n_rel" ] ]. parrillada_n1 := n_intr_count_le & [ STEM < "parrillada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parrillada_n_rel" ] ]. parroquia_n1 := n_intr_count_le & [ STEM < "parroquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_parroquia_n_rel" ] ]. parroquial_a1 := a_rel_nonprd_intr_le & [ STEM < "parroquial" >, SYNSEM.LKEYS.KEYREL.PRED "_parroquial_a_rel" ]. parsimonioso_a1 := a_qual_intr_ser_le & [ STEM < "parsimonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_parsimonioso_a_rel" ]. parte_n1 := n_intr_count_le & [ STEM < "parte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_parte_n_rel" ] ]. parteluz_n1 := n_intr_count_le & [ STEM < "parteluz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parteluz_n_rel" ] ]. parterre_n1 := n_intr_count_le & [ STEM < "parterre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_parterre_n_rel" ] ]. participación_n1 := n_result_intr_ppcomp_le & [ STEM < "participación" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_participación_n_rel" ] ]. participante_a1 := a_rel_nonprd_intr_le & [ STEM < "participante" >, SYNSEM.LKEYS.KEYREL.PRED "_participante_a_rel" ]. participante_n1 := n_intr_count_le & [ STEM < "participante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_participante_n_rel" ] ]. participar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "participar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_participar_v_rel" ] ]. participar_v2 := v_ditrans*_le & [ STEM < "participar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_participar_v_rel" ] ]. participar_v3 := v_intr_mrkd_np_le & [ STEM < "participar" >, SYNSEM.LKEYS [ --COMPKEY de_or_en_p_sel_rel, KEYREL.PRED "_participar_v_rel" ] ]. participativamente_x1 := av_i_spr_le & [ STEM < "participativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_participativamente_x_rel" ]. participativo_a1 := a_qual_intr_ser_le & [ STEM < "participativo" >, SYNSEM.LKEYS.KEYREL.PRED "_participativo_a_rel" ]. partición_n1 := n_trans_le & [ STEM < "partición" >, SYNSEM.LKEYS.KEYREL.PRED "_partición_n_rel" ]. particulado_a1 := a_qual_intr_estar_le & [ STEM < "particulado" >, SYNSEM.LKEYS.KEYREL.PRED "_particulado_a_rel" ]. particular_a1 := a_qual_intr_ser_le & [ STEM < "particular" >, SYNSEM.LKEYS.KEYREL.PRED "_particular_a_rel" ]. particular_n1 := n_intr_count_le & [ STEM < "particular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_particular_n_rel" ] ]. particularidad_n1 := n_intr_count_le & [ STEM < "particularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_particularidad_n_rel" ] ]. particularismo_n1 := n_intr_uncount_le & [ STEM < "particularismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_particularismo_n_rel" ] ]. particularista_a1 := a_qual_intr_ser_le & [ STEM < "particularista" >, SYNSEM.LKEYS.KEYREL.PRED "_particularista_a_rel" ]. particularizar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "particularizar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_particularizar_v_rel" ] ] ]. particularizar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "particularizar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_particularizar_v_rel" ] ] ]. particularizar_v3 := v_trans_np_le & [ STEM < "particularizar" >, SYNSEM.LKEYS.KEYREL.PRED "_particularizar_v_rel" ]. particularmente_x1 := av_i_foc_spr_le & [ STEM < "particularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_particularmente_x_rel" ]. particularmente_x3 := av_i_np-foc_spr_le & [ STEM < "particularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_particularmente_x_rel" ]. partida_n1 := n_group_le & [ STEM < "partida" >, SYNSEM.LKEYS.KEYREL.PRED "_partida_n_rel" ]. partida_n2 := n_intr_count_le & [ STEM < "partida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_partida_n_rel" ] ]. partidario_a1 := a_qual_trans*_ser_le & [ STEM < "partidario" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partidario_a_rel" ] ]. partidario_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "partidario" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partidario_a_rel" ] ]. partidario_a3 := a_qual_cp_ques_ser_le & [ STEM < "partidario" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partidario_a_rel" ] ]. partidario_n1 := n_intr_count_le & [ STEM < "partidario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_partidario_n_rel" ] ]. partidazo_n1 := n_intr_count_le & [ STEM < "partidazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_partidazo_n_rel" ] ]. partidismo_n1 := n_intr_uncount_le & [ STEM < "partidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_partidismo_n_rel" ] ]. partidista_a1 := a_qual_intr_ser_le & [ STEM < "partidista" >, SYNSEM.LKEYS.KEYREL.PRED "_partidista_a_rel" ]. partido_n1 := n_intr_count_le & [ STEM < "partido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_partido_n_rel" ] ]. partido_político_n1 := n_intr_count_le & [ STEM < "partido_político" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_partido_político_n_rel" ] ]. partidor_a1 := a_rel_nonprd_intr_le & [ STEM < "partidor" >, SYNSEM.LKEYS.KEYREL.PRED "_partidor_a_rel" ]. partidor_n1 := n_subj-nom_le & [ STEM < "partidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_partidor_n_rel" ] ]. partir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "partir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_partir_v_rel" ] ] ]. partir_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "partir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_partir_v_rel" ] ] ]. partir_v3 := v_intr_mrkd_np_le & [ STEM < "partir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_partir_v_rel" ] ] ]. partir_v4 := v_intr_mrkd_np_le & [ STEM < "partir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_partir_v_rel" ] ] ]. partisano_n1 := n_intr_count_le & [ STEM < "partisano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_partisano_n_rel" ] ]. partitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "partitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_partitivo_a_rel" ]. partitura_n1 := n_intr_count_le & [ STEM < "partitura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_partitura_n_rel" ] ]. parto_n1 := n_trans_le & [ STEM < "parto" >, SYNSEM.LKEYS.KEYREL.PRED "_parto_n_rel" ]. parturienta_n1 := n_intr_count_le & [ STEM < "parturienta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_parturienta_n_rel" ] ]. partícipe_a1 := a_qual_trans_ser_le & [ STEM < "partícipe" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partícipe_a_rel" ] ]. partícipe_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "partícipe" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partícipe_a_rel" ] ]. partícipe_a3 := a_qual_cp_ques_ser_le & [ STEM < "partícipe" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_partícipe_a_rel" ] ]. partícula_n1 := n_intr_count_le & [ STEM < "partícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_partícula_n_rel" ] ]. parvulario_n1 := n_intr_count_le & [ STEM < "parvulario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_parvulario_n_rel" ] ]. parásito_a1 := a_rel_nonprd_intr_le & [ STEM < "parásito" >, SYNSEM.LKEYS.KEYREL.PRED "_parásito_a_rel" ]. parásito_n1 := n_intr_count_le & [ STEM < "parásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_parásito_n_rel" ] ]. parénquima_n1 := n_intr_count_le & [ STEM < "parénquima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_parénquima_n_rel" ] ]. paródicamente_x1 := av_i_spr_le & [ STEM < "paródicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paródicamente_x_rel" ]. paródico_a1 := a_rel_nonprd_intr_le & [ STEM < "paródico" >, SYNSEM.LKEYS.KEYREL.PRED "_paródico_a_rel" ]. parótida_n1 := n_ppcomp_count_le & [ STEM < "parótida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_parótida_n_rel" ] ]. parótido_a1 := a_rel_nonprd_intr_le & [ STEM < "parótido" >, SYNSEM.LKEYS.KEYREL.PRED "_parótido_a_rel" ]. pasa_n1 := n_intr_count_le & [ STEM < "pasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasa_n_rel" ] ]. pasabalas_n1 := n_intr_count_le & [ STEM < "pasabalas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasabalas_n_rel" ] ]. pasable_a1 := a_qual_intr_scopal_le & [ STEM < "pasable" >, SYNSEM.LKEYS.KEYREL.PRED "_pasable_a_rel" ]. pasacables_n1 := n_intr_count_le & [ STEM < "pasacables" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasacables_n_rel" ] ]. pasacintas_n1 := n_intr_count_le & [ STEM < "pasacintas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasacintas_n_rel" ] ]. pasada_n1 := n_intr_count_le & [ STEM < "pasada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pasada_n_rel" ] ]. pasadizo_n1 := n_intr_count_le & [ STEM < "pasadizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pasadizo_n_rel" ] ]. pasado_mañana_n1 := av_deic_tmp_le & [ STEM < "pasado_mañana" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_pasado_mañana_x_rel" ]. pasado_mañana_x1 := av_i_le & [ STEM < "pasado_mañana" >, SYNSEM.LKEYS.KEYREL.PRED "_pasado_mañana_x_rel" ]. pasado_n1 := n_intr_count_le & [ STEM < "pasado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_pasado_n_rel" ] ]. pasador_n1 := n_intr_count_le & [ STEM < "pasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasador_n_rel" ] ]. pasahilos_n1 := n_intr_count_le & [ STEM < "pasahilos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasahilos_n_rel" ] ]. pasaje_n1 := n_intr_count_le & [ STEM < "pasaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_sem, PRED "_pasaje_n_rel" ] ]. pasajeramente_x1 := av_i_spr_le & [ STEM < "pasajeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_pasajeramente_x_rel" ]. pasajero_a1 := a_qual_intr_ser_le & [ STEM < "pasajero" >, SYNSEM.LKEYS.KEYREL.PRED "_pasajero_a_rel" ]. pasajero_n1 := n_intr_count_le & [ STEM < "pasajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pasajero_n_rel" ] ]. pasamanería_n1 := n_intr_mass_le & [ STEM < "pasamanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasamanería_n_rel" ] ]. pasamano_n1 := n_intr_count_le & [ STEM < "pasamano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasamano_n_rel" ] ]. pasamanos_n1 := n_intr_count_le & [ STEM < "pasamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasamanos_n_rel" ] ]. pasamontañas_n1 := n_intr_count_le & [ STEM < "pasamontañas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasamontañas_n_rel" ] ]. pasamuros_n1 := n_intr_count_le & [ STEM < "pasamuros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasamuros_n_rel" ] ]. pasante_a1 := a_rel_nonprd_intr_le & [ STEM < "pasante" >, SYNSEM.LKEYS.KEYREL.PRED "_pasante_a_rel" ]. pasante_n1 := n_intr_count_le & [ STEM < "pasante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pasante_n_rel" ] ]. pasantemente_x1 := av_i_spr_le & [ STEM < "pasantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pasantemente_x_rel" ]. pasantía_n1 := n_intr_count_le & [ STEM < "pasantía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasantía_n_rel" ] ]. pasapelotas_n1 := n_intr_count_le & [ STEM < "pasapelotas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasapelotas_n_rel" ] ]. pasaporte_n1 := n_intr_count_le & [ STEM < "pasaporte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasaporte_n_rel" ] ]. pasapurés_n1 := n_intr_count_le & [ STEM < "pasapurés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasapurés_n_rel" ] ]. pasarela_n1 := n_intr_count_le & [ STEM < "pasarela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pasarela_n_rel" ] ]. pasatiempo_n1 := n_intr_count_le & [ STEM < "pasatiempo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasatiempo_n_rel" ] ]. pascal_n := n_intr_count_le & [ STEM < "pascal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_pascal_n_rel" ] ]. pascua_n1 := n_intr_count_le & [ STEM < "pascua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_pascua_n_rel" ] ]. pascual_a1 := a_rel_nonprd_intr_le & [ STEM < "pascual" >, SYNSEM.LKEYS.KEYREL.PRED "_pascual_a_rel" ]. pase_n1 := n_intr_count_le & [ STEM < "pase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_pase_n_rel" ] ]. pasear_v1 := v_intr_le & [ STEM < "pasear" >, SYNSEM.LKEYS.KEYREL.PRED "_pasear_v_rel" ]. pasear_v2 := v_trans_np_le & [ STEM < "pasear" >, SYNSEM.LKEYS.KEYREL.PRED "_pasear_v_rel" ]. paseo_n1 := n_intr_count_le & [ STEM < "paseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_paseo_n_rel" ] ]. paseo_n2 := n_event-result_intr_le & [ STEM < "paseo" >, SYNSEM.LKEYS.KEYREL.PRED "_paseo_n_rel" ]. pasiflora_n1 := n_intr_mass_le & [ STEM < "pasiflora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_pasiflora_n_rel" ] ]. pasillo_n1 := n_intr_count_le & [ STEM < "pasillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pasillo_n_rel" ] ]. pasional_a1 := a_qual_intr_ser_le & [ STEM < "pasional" >, SYNSEM.LKEYS.KEYREL.PRED "_pasional_a_rel" ]. pasivamente_x1 := av_i_spr_le & [ STEM < "pasivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pasivamente_x_rel" ]. pasividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pasividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasividad_n_rel" ] ]. pasivo_a1 := a_qual_intr_ser_le & [ STEM < "pasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_pasivo_a_rel" ]. pasión_n1 := n_intr_mass-or-count_le & [ STEM < "pasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasión_n_rel" ] ]. pasmar_v1 := v_intr_io*_le & [ STEM < "pasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_pasmar_v_rel" ]. pasmar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "pasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_pasmar_v_rel" ]. pasmosamente_x1 := av_i_spr_le & [ STEM < "pasmosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pasmosamente_x_rel" ]. pasmoso_a1 := a_qual_intr_ser_le & [ STEM < "pasmoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pasmoso_a_rel" ]. paso_n1 := n_intr_count_le & [ STEM < "paso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_paso_n_rel" ] ]. pasotismo_n1 := n_intr_uncount_le & [ STEM < "pasotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasotismo_n_rel" ] ]. pasta_n1 := n_intr_mass_le & [ STEM < "pasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasta_n_rel" ] ]. pastar_v := v_intr_le & [ STEM < "pastar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_pastar_v_rel" ] ]. pastel_n1 := n_intr_mass_le & [ STEM < "pastel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pastel_n_rel" ] ]. pastelero_n1 := n_intr_count_le & [ STEM < "pastelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pastelero_n_rel" ] ]. pastelería_n1 := n_intr_count_le & [ STEM < "pastelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pastelería_n_rel" ] ]. pasterizar_v := v_trans_np_le & [ STEM < "pasterizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_pasterizar_v_rel" ] ]. pasteurización_n1 := n_trans_le & [ STEM < "pasteurización" >, SYNSEM.LKEYS.KEYREL.PRED "_pasteurización_n_rel" ]. pasteurizar_v := v_trans_np_le & [ STEM < "pasteurizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_pasteurizar_v_rel" ] ]. pasticultura_n1 := n_intr_uncount_le & [ STEM < "pasticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasticultura_n_rel" ] ]. pastilla_n1 := n_pseudo-part_le & [ STEM < "pastilla" >, SYNSEM.LKEYS.KEYREL.PRED "_pastilla_n_rel" ]. pastilladora_n1 := n_intr_count_le & [ STEM < "pastilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pastilladora_n_rel" ] ]. pastinaca_n1 := n_intr_count_le & [ STEM < "pastinaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pastinaca_n_rel" ] ]. pastizal_n1 := n_intr_count_le & [ STEM < "pastizal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pastizal_n_rel" ] ]. pasto_n1 := n_intr_mass_le & [ STEM < "pasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pasto_n_rel" ] ]. pasto_n2 := n_intr_count_le & [ STEM < "pasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pasto_n_rel" ] ]. pastor_n1 := n_intr_count_le & [ STEM < "pastor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pastor_n_rel" ] ]. pastoral_a1 := a_rel_nonprd_intr_le & [ STEM < "pastoral" >, SYNSEM.LKEYS.KEYREL.PRED "_pastoral_a_rel" ]. pastoral_n1 := n_ppcomp_count_le & [ STEM < "pastoral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pastoral_n_rel" ] ]. pastoralismo_n1 := n_intr_uncount_le & [ STEM < "pastoralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pastoralismo_n_rel" ] ]. pastoralmente_x1 := av_i_spr_le & [ STEM < "pastoralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pastoralmente_x_rel" ]. pastorela_n1 := n_intr_count_le & [ STEM < "pastorela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_pastorela_n_rel" ] ]. pastoreo_n1 := n_result_intr_le & [ STEM < "pastoreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pastoreo_n_rel" ] ]. pastoso_a1 := a_qual_intr_scopal_le & [ STEM < "pastoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pastoso_a_rel" ]. pasturaje_n1 := n_trans_le & [ STEM < "pasturaje" >, SYNSEM.LKEYS.KEYREL.PRED "_pasturaje_n_rel" ]. pata_n1 := n_intr_count_le & [ STEM < "pata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pata_n_rel" ] ]. patada_n1 := n_intr_count_le & [ STEM < "patada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patada_n_rel" ] ]. patagón_a1 := a_rel_prd_le & [ STEM < "patagón" >, SYNSEM.LKEYS.KEYREL.PRED "_patagón_a_rel" ]. patagón_n1 := n_intr_count_le & [ STEM < "patagón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patagón_n_rel" ] ]. patalear_v := v_intr_le & [ STEM < "patalear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_patalear_v_rel" ] ]. pataleo_n1 := n_result_intr_le & [ STEM < "pataleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pataleo_n_rel" ] ]. patata_n1 := n_intr_mass_le & [ STEM < "patata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patata_n_rel" ] ]. patatar_n1 := n_intr_count_le & [ STEM < "patatar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_patatar_n_rel" ] ]. patatera_n1 := n_intr_count_le & [ STEM < "patatera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_patatera_n_rel" ] ]. patear_v1 := v_pron_trans_np_le & [ STEM < "patear" >, SYNSEM.LKEYS.KEYREL.PRED "_patear_v_rel" ]. patear_v2 := v_trans_np*_le & [ STEM < "patear" >, SYNSEM.LKEYS.KEYREL.PRED "_patear_v_rel" ]. patela_n1 := n_ppcomp_count_le & [ STEM < "patela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_patela_n_rel" ] ]. patelar_a1 := a_rel_nonprd_intr_le & [ STEM < "patelar" >, SYNSEM.LKEYS.KEYREL.PRED "_patelar_a_rel" ]. patentabilidad_n1 := n_trans_le & [ STEM < "patentabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_patentabilidad_n_rel" ]. patentable_a1 := a_rel_prd_le & [ STEM < "patentable" >, SYNSEM.LKEYS.KEYREL.PRED "_patentable_a_rel" ]. patentar_v := v_trans_np_le & [ STEM < "patentar" >, SYNSEM.LKEYS.KEYREL.PRED "_patentar_v_rel" ]. patente_a1 := a_qual_intr_scopal_le & [ STEM < "patente" >, SYNSEM.LKEYS.KEYREL.PRED "_patente_a_rel" ]. patente_n1 := n_intr_count_le & [ STEM < "patente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patente_n_rel" ] ]. patentizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "patentizar" >, SYNSEM.LKEYS.KEYREL.PRED "_patentizar_v_rel" ]. patentizar_v2 := v_trans_np_le & [ STEM < "patentizar" >, SYNSEM.LKEYS.KEYREL.PRED "_patentizar_v_rel" ]. patera_n1 := n_intr_count_le & [ STEM < "patera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patera_n_rel" ] ]. paternal_a1 := a_qual_intr_ser_le & [ STEM < "paternal" >, SYNSEM.LKEYS.KEYREL.PRED "_paternal_a_rel" ]. paternalismo_n1 := n_intr_uncount_le & [ STEM < "paternalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paternalismo_n_rel" ] ]. paternalista_a1 := a_qual_intr_ser_le & [ STEM < "paternalista" >, SYNSEM.LKEYS.KEYREL.PRED "_paternalista_a_rel" ]. paternalmente_x1 := av_i_spr_le & [ STEM < "paternalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_paternalmente_x_rel" ]. paternidad_n1 := n_intr_uncount_le & [ STEM < "paternidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paternidad_n_rel" ] ]. paternidad_n2 := n_intr_count_le & [ STEM < "paternidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paternidad_n_rel" ] ]. paterno_a1 := a_rel_nonprd_intr_le & [ STEM < "paterno" >, SYNSEM.LKEYS.KEYREL.PRED "_paterno_a_rel" ]. patetismo_n1 := n_ppcomp_uncount_le & [ STEM < "patetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patetismo_n_rel" ] ]. patilla_n1 := n_intr_count_le & [ STEM < "patilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patilla_n_rel" ] ]. patilludo_a1 := a_qual_intr_ser_le & [ STEM < "patilludo" >, SYNSEM.LKEYS.KEYREL.PRED "_patilludo_a_rel" ]. patinador_n1 := n_intr_count_le & [ STEM < "patinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patinador_n_rel" ] ]. patinaje_n1 := n_event-result_intr_le & [ STEM < "patinaje" >, SYNSEM.LKEYS.KEYREL.PRED "_patinaje_n_rel" ]. patinar_v1 := v_intr_le & [ STEM < "patinar" >, SYNSEM.LKEYS.KEYREL.PRED "_patinar_v_rel" ]. patinar_v2 := v_unacc_lcomp_dir_le & [ STEM < "patinar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_patinar_v_rel" ] ]. patinazo_n1 := n_result_intr_le & [ STEM < "patinazo" >, SYNSEM.LKEYS.KEYREL.PRED "_patinazo_n_rel" ]. patineta_n1 := n_intr_count_le & [ STEM < "patineta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patineta_n_rel" ] ]. patinete_n1 := n_intr_count_le & [ STEM < "patinete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patinete_n_rel" ] ]. patio_n1 := n_intr_count_le & [ STEM < "patio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_patio_n_rel" ] ]. patitieso_a1 := a_qual_intr_estar_le & [ STEM < "patitieso" >, SYNSEM.LKEYS.KEYREL.PRED "_patitieso_a_rel" ]. patizambo_a1 := a_qual_intr_ser_le & [ STEM < "patizambo" >, SYNSEM.LKEYS.KEYREL.PRED "_patizambo_a_rel" ]. pato_n1 := n_intr_count_le & [ STEM < "pato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pato_n_rel" ] ]. patognomónico_a1 := a_rel_nonprd_intr_le & [ STEM < "patognomónico" >, SYNSEM.LKEYS.KEYREL.PRED "_patognomónico_a_rel" ]. patogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "patogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_patogénico_a_rel" ]. patología_n1 := n_intr_count_le & [ STEM < "patología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patología_n_rel" ] ]. patológicamente_x1 := av_i_spr_le & [ STEM < "patológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_patológicamente_x_rel" ]. patológico_a1 := a_rel_nonprd_intr_le & [ STEM < "patológico" >, SYNSEM.LKEYS.KEYREL.PRED "_patológico_a_rel" ]. patoso_a1 := a_qual_intr_ser_le & [ STEM < "patoso" >, SYNSEM.LKEYS.KEYREL.PRED "_patoso_a_rel" ]. patria_n1 := n_intr_count_le & [ STEM < "patria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_patria_n_rel" ] ]. patriarca_n1 := n_ppcomp_count_le & [ STEM < "patriarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patriarca_n_rel" ] ]. patriarcado_n1 := n_intr_count_le & [ STEM < "patriarcado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patriarcado_n_rel" ] ]. patriarcal_a1 := a_rel_nonprd_intr_le & [ STEM < "patriarcal" >, SYNSEM.LKEYS.KEYREL.PRED "_patriarcal_a_rel" ]. patriciado_n1 := n_intr_coll_le & [ STEM < "patriciado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patriciado_n_rel" ] ]. patricio_a1 := a_rel_nonprd_intr_le & [ STEM < "patricio" >, SYNSEM.LKEYS.KEYREL.PRED "_patricio_a_rel" ]. patricio_n1 := n_intr_count_le & [ STEM < "patricio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patricio_n_rel" ] ]. patriclán_n1 := n_intr_count_le & [ STEM < "patriclán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_patriclán_n_rel" ] ]. patrilateral_a1 := a_rel_nonprd_intr_le & [ STEM < "patrilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_patrilateral_a_rel" ]. patrilinaje_n1 := n_intr_uncount_le & [ STEM < "patrilinaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrilinaje_n_rel" ] ]. patrilinaje_n2 := n_intr_count_le & [ STEM < "patrilinaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrilinaje_n_rel" ] ]. patrilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "patrilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_patrilineal_a_rel" ]. patrilinealidad_n1 := n_intr_uncount_le & [ STEM < "patrilinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrilinealidad_n_rel" ] ]. patrilinealmente_x1 := av_i_spr_le & [ STEM < "patrilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_patrilinealmente_x_rel" ]. patrilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "patrilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_patrilocal_a_rel" ]. patrilocalidad_n1 := n_intr_uncount_le & [ STEM < "patrilocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrilocalidad_n_rel" ] ]. patrimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "patrimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_patrimonial_a_rel" ]. patrimonialidad_n1 := n_intr_uncount_le & [ STEM < "patrimonialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrimonialidad_n_rel" ] ]. patrimonialista_a1 := a_rel_nonprd_intr_le & [ STEM < "patrimonialista" >, SYNSEM.LKEYS.KEYREL.PRED "_patrimonialista_a_rel" ]. patrio_a1 := a_rel_nonprd_intr_le & [ STEM < "patrio" >, SYNSEM.LKEYS.KEYREL.PRED "_patrio_a_rel" ]. patriota_n1 := n_intr_count_le & [ STEM < "patriota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patriota_n_rel" ] ]. patrioteramente_x1 := av_i_spr_le & [ STEM < "patrioteramente" >, SYNSEM.LKEYS.KEYREL.PRED "_patrioteramente_x_rel" ]. patrioterismo_n1 := n_intr_uncount_le & [ STEM < "patrioterismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrioterismo_n_rel" ] ]. patriotero_a1 := a_qual_intr_ser_le & [ STEM < "patriotero" >, SYNSEM.LKEYS.KEYREL.PRED "_patriotero_a_rel" ]. patriotismo_n1 := n_intr_mass_le & [ STEM < "patriotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patriotismo_n_rel" ] ]. patriótico_a1 := a_qual_intr_ser_le & [ STEM < "patriótico" >, SYNSEM.LKEYS.KEYREL.PRED "_patriótico_a_rel" ]. patrocinador_n1 := n_intr_count_le & [ STEM < "patrocinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_patrocinador_n_rel" ] ]. patrocinar_v := v_trans_np_le & [ STEM < "patrocinar" >, SYNSEM.LKEYS.KEYREL.PRED "_patrocinar_v_rel" ]. patronal_a1 := a_rel_nonprd_intr_le & [ STEM < "patronal" >, SYNSEM.LKEYS.KEYREL.PRED "_patronal_a_rel" ]. patronal_n1 := n_intr_coll_le & [ STEM < "patronal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_patronal_n_rel" ] ]. patronato_n1 := n_intr_count_le & [ STEM < "patronato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patronato_n_rel" ] ]. patronear_v := v_trans_np_le & [ STEM < "patronear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_patronear_v_rel" ] ]. patrono_n1 := n_intr_count_le & [ STEM < "patrono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patrono_n_rel" ] ]. patronímico_a1 := a_rel_nonprd_intr_le & [ STEM < "patronímico" >, SYNSEM.LKEYS.KEYREL.PRED "_patronímico_a_rel" ]. patrulla_n1 := n_intr_coll_le & [ STEM < "patrulla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patrulla_n_rel" ] ]. patrullaje_n1 := n_event-result_intr_le & [ STEM < "patrullaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrullaje_n_rel" ] ]. patrullar_v := v_trans_np*_le & [ STEM < "patrullar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_patrullar_v_rel" ] ]. patrullera_n1 := n_intr_count_le & [ STEM < "patrullera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_patrullera_n_rel" ] ]. patrullero_a1 := a_rel_nonprd_intr_le & [ STEM < "patrullero" >, SYNSEM.LKEYS.KEYREL.PRED "_patrullero_a_rel" ]. patrullero_n1 := n_intr_count_le & [ STEM < "patrullero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patrullero_n_rel" ] ]. patrón_n1 := n_intr_count_le & [ STEM < "patrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_patrón_n_rel" ] ]. patudo_a1 := a_qual_intr_ser_le & [ STEM < "patudo" >, SYNSEM.LKEYS.KEYREL.PRED "_patudo_a_rel" ]. patán_n1 := n_intr_count_le & [ STEM < "patán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patán_n_rel" ] ]. paté_n1 := n_intr_count_le & [ STEM < "paté" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paté_n_rel" ] ]. patéticamente_x1 := av_i_spr_le & [ STEM < "patéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_patéticamente_x_rel" ]. patético_a1 := a_qual_intr_ser_le & [ STEM < "patético" >, SYNSEM.LKEYS.KEYREL.PRED "_patético_a_rel" ]. patíbulo_n1 := n_intr_count_le & [ STEM < "patíbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_patíbulo_n_rel" ] ]. patín_n1 := n_intr_count_le & [ STEM < "patín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_patín_n_rel" ] ]. patógenamente_x1 := av_i_spr_le & [ STEM < "patógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_patógenamente_x_rel" ]. patógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "patógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_patógeno_a_rel" ]. patólogo_n1 := n_intr_count_le & [ STEM < "patólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_patólogo_n_rel" ] ]. paulatino_a1 := a_qual_intr_scopal_le & [ STEM < "paulatino" >, SYNSEM.LKEYS.KEYREL.PRED "_paulatino_a_rel" ]. paulatinamente_x1 := av_i_spr_le & [ STEM < "paulatinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_paulatinamente_x_rel" ]. paulino_a1 := a_rel_nonprd_intr_le & [ STEM < "paulino" >, SYNSEM.LKEYS.KEYREL.PRED "_paulino_a_rel" ]. pauperismo_n1 := n_intr_uncount_le & [ STEM < "pauperismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pauperismo_n_rel" ] ]. pauperización_n1 := n_trans_le & [ STEM < "pauperización" >, SYNSEM.LKEYS.KEYREL.PRED "_pauperización_n_rel" ]. pausar_v := v_trans_np*_le & [ STEM < "pausar" >, SYNSEM.LKEYS.KEYREL.PRED "_pausar_v_rel" ]. pavimentación_n1 := n_trans_le & [ STEM < "pavimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_pavimentación_n_rel" ]. pavimentar_v := v_trans_np_le & [ STEM < "pavimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_pavimentar_v_rel" ]. pavimento_n1 := n_intr_mass_le & [ STEM < "pavimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pavimento_n_rel" ] ]. pavo_n1 := n_intr_count_le & [ STEM < "pavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pavo_n_rel" ] ]. pavonado_n1 := n_trans_le & [ STEM < "pavonado" >, SYNSEM.LKEYS.KEYREL.PRED "_pavonado_n_rel" ]. pavonear_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "pavonear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pavonear_v_rel" ] ] ]. pavonear_v2 := v_pron_intr_mrkd_np_le & [ STEM < "pavonear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_pavonear_v_rel" ] ] ]. pavor_n1 := n_intr_mass_le & [ STEM < "pavor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pavor_n_rel" ] ]. pavorosamente_x1 := av_i_spr_le & [ STEM < "pavorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pavorosamente_x_rel" ]. pavoroso_a1 := a_qual_intr_ser_le & [ STEM < "pavoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_pavoroso_a_rel" ]. pavés_n1 := n_intr_mass-or-count_le & [ STEM < "pavés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_pavés_n_rel" ] ]. pavón_n1 := n_intr_count_le & [ STEM < "pavón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pavón_n_rel" ] ]. payasada_n1 := n_intr_count_le & [ STEM < "payasada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_payasada_n_rel" ] ]. payaso_n1 := n_intr_count_le & [ STEM < "payaso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_payaso_n_rel" ] ]. payo_n1 := n_intr_count_le & [ STEM < "payo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_payo_n_rel" ] ]. payés_n1 := n_intr_count_le & [ STEM < "payés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_payés_n_rel" ] ]. país_n1 := n_intr_count_le & [ STEM < "país" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_país_n_rel" ] ]. pañal_n1 := n_intr_count_le & [ STEM < "pañal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pañal_n_rel" ] ]. pañero_n1 := n_intr_count_le & [ STEM < "pañero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pañero_n_rel" ] ]. pañería_n1 := n_intr_count_le & [ STEM < "pañería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pañería_n_rel" ] ]. paño_n1 := n_intr_count_le & [ STEM < "paño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_paño_n_rel" ] ]. pañol_n1 := n_intr_count_le & [ STEM < "pañol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pañol_n_rel" ] ]. pañolada_n1 := n_intr_count_le & [ STEM < "pañolada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pañolada_n_rel" ] ]. pañuelo_n1 := n_intr_count_le & [ STEM < "pañuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pañuelo_n_rel" ] ]. peaje_n1 := n_intr_count_le & [ STEM < "peaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_peaje_n_rel" ] ]. peana_n1 := n_intr_count_le & [ STEM < "peana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peana_n_rel" ] ]. peatonal_a1 := a_rel_nonprd_intr_le & [ STEM < "peatonal" >, SYNSEM.LKEYS.KEYREL.PRED "_peatonal_a_rel" ]. peatón_n1 := n_intr_count_le & [ STEM < "peatón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peatón_n_rel" ] ]. pebetero_n1 := n_intr_count_le & [ STEM < "pebetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pebetero_n_rel" ] ]. peca_n1 := n_intr_count_le & [ STEM < "peca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peca_n_rel" ] ]. pecado_n1 := n_intr_count_le & [ STEM < "pecado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pecado_n_rel" ] ]. pecador_n1 := n_intr_count_le & [ STEM < "pecador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pecador_n_rel" ] ]. pecaminoso_a1 := a_qual_intr_ser_le & [ STEM < "pecaminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pecaminoso_a_rel" ]. pecdeck_n1 := n_intr_count_le & [ STEM < "pecdeck" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pecdeck_n_rel" ] ]. pecera_n1 := n_intr_count_le & [ STEM < "pecera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pecera_n_rel" ] ]. pechblenda_n1 := n_intr_count_le & [ STEM < "pechblenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pechblenda_n_rel" ] ]. pechera_n1 := n_intr_mass_le & [ STEM < "pechera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pechera_n_rel" ] ]. pecho_n1 := n_ppcomp_count_le & [ STEM < "pecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pecho_n_rel" ] ]. pechuga_n1 := n_intr_mass_le & [ STEM < "pechuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pechuga_n_rel" ] ]. pecilocito_n1 := n_intr_count_le & [ STEM < "pecilocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pecilocito_n_rel" ] ]. pecio_n1 := n_intr_count_le & [ STEM < "pecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pecio_n_rel" ] ]. peciolo_n1 := n_intr_count_le & [ STEM < "peciolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peciolo_n_rel" ] ]. pecoso_a1 := a_qual_intr_ser_le & [ STEM < "pecoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pecoso_a_rel" ]. pectina_n1 := n_intr_mass_le & [ STEM < "pectina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pectina_n_rel" ] ]. pectiniforme_a1 := a_rel_nonprd_intr_le & [ STEM < "pectiniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_pectiniforme_a_rel" ]. pectolita_n1 := n_intr_count_le & [ STEM < "pectolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pectolita_n_rel" ] ]. pectoral_a1 := a_rel_nonprd_intr_le & [ STEM < "pectoral" >, SYNSEM.LKEYS.KEYREL.PRED "_pectoral_a_rel" ]. pectoral_n1 := n_ppcomp_count_le & [ STEM < "pectoral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pectoral_n_rel" ] ]. pectíneo_a1 := a_rel_nonprd_intr_le & [ STEM < "pectíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_pectíneo_a_rel" ]. pecuario_a1 := a_rel_nonprd_intr_le & [ STEM < "pecuario" >, SYNSEM.LKEYS.KEYREL.PRED "_pecuario_a_rel" ]. peculado_n1 := n_intr_uncount_le & [ STEM < "peculado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peculado_n_rel" ] ]. peculado_n2 := n_intr_count_le & [ STEM < "peculado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peculado_n_rel" ] ]. peculiar_a1 := a_qual_intr_ser_le & [ STEM < "peculiar" >, SYNSEM.LKEYS.KEYREL.PRED "_peculiar_a_rel" ]. peculiaridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "peculiaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peculiaridad_n_rel" ] ]. peculiarmente_x1 := av_i_spr_le & [ STEM < "peculiarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_peculiarmente_x_rel" ]. pecuniarimente_x1 := av_i_spr_le & [ STEM < "pecuniarimente" >, SYNSEM.LKEYS.KEYREL.PRED "_pecuniarimente_x_rel" ]. pecuniario_a1 := a_rel_nonprd_intr_le & [ STEM < "pecuniario" >, SYNSEM.LKEYS.KEYREL.PRED "_pecuniario_a_rel" ]. pedagogo_n1 := n_intr_count_le & [ STEM < "pedagogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedagogo_n_rel" ] ]. pedagogía_n1 := n_intr_uncount_pl_le & [ STEM < "pedagogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedagogía_n_rel" ] ]. pedagógicamente_x1 := av_i_spr_le & [ STEM < "pedagógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pedagógicamente_x_rel" ]. pedagógico_a1 := a_qual_intr_ser_le & [ STEM < "pedagógico" >, SYNSEM.LKEYS.KEYREL.PRED "_pedagógico_a_rel" ]. pedal_n1 := n_intr_count_le & [ STEM < "pedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedal_n_rel" ] ]. pedalada_n1 := n_intr_count_le & [ STEM < "pedalada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedalada_n_rel" ] ]. pedalear_v := v_intr_le & [ STEM < "pedalear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pedalear_v_rel" ] ]. pedaleo_n1 := n_event-result_intr_le & [ STEM < "pedaleo" >, SYNSEM.LKEYS.KEYREL.PRED "_pedaleo_n_rel" ]. pedalfer_n1 := n_intr_count_le & [ STEM < "pedalfer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pedalfer_n_rel" ] ]. pedalier_n1 := n_intr_count_le & [ STEM < "pedalier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedalier_n_rel" ] ]. pedalina_n1 := n_intr_count_le & [ STEM < "pedalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedalina_n_rel" ] ]. pedante_a1 := a_qual_intr_ser_le & [ STEM < "pedante" >, SYNSEM.LKEYS.KEYREL.PRED "_pedante_a_rel" ]. pedante_n1 := n_intr_count_le & [ STEM < "pedante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedante_n_rel" ] ]. pedazo_n1 := n_pseudo-part_le & [ STEM < "pedazo" >, SYNSEM.LKEYS.KEYREL.PRED "_pedazo_n_rel" ]. pederasta_n1 := n_intr_count_le & [ STEM < "pederasta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pederasta_n_rel" ] ]. pedernal_n1 := n_intr_mass_le & [ STEM < "pedernal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pedernal_n_rel" ] ]. pederástico_a1 := a_rel_nonprd_intr_le & [ STEM < "pederástico" >, SYNSEM.LKEYS.KEYREL.PRED "_pederástico_a_rel" ]. pedestal_n1 := n_intr_count_le & [ STEM < "pedestal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedestal_n_rel" ] ]. pedestre_a1 := a_rel_nonprd_intr_le & [ STEM < "pedestre" >, SYNSEM.LKEYS.KEYREL.PRED "_pedestre_a_rel" ]. pedial_a1 := a_rel_nonprd_intr_le & [ STEM < "pedial" >, SYNSEM.LKEYS.KEYREL.PRED "_pedial_a_rel" ]. pediatra_n1 := n_intr_count_le & [ STEM < "pediatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pediatra_n_rel" ] ]. pediatría_n1 := n_intr_uncount_le & [ STEM < "pediatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pediatría_n_rel" ] ]. pedicelo_n1 := n_intr_count_le & [ STEM < "pedicelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedicelo_n_rel" ] ]. pediculado_a1 := a_rel_nonprd_intr_le & [ STEM < "pediculado" >, SYNSEM.LKEYS.KEYREL.PRED "_pediculado_a_rel" ]. pedicuro_n1 := n_intr_count_le & [ STEM < "pedicuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedicuro_n_rel" ] ]. pedido_n1 := n_trans_le & [ STEM < "pedido" >, SYNSEM.LKEYS.KEYREL.PRED "_pedido_n_rel" ]. pedillanura_n1 := n_intr_count_le & [ STEM < "pedillanura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedillanura_n_rel" ] ]. pedimento_n1 := n_intr_count_le & [ STEM < "pedimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedimento_n_rel" ] ]. pedio_a1 := a_rel_nonprd_intr_le & [ STEM < "pedio" >, SYNSEM.LKEYS.KEYREL.PRED "_pedio_a_rel" ]. pedipalpo_n1 := n_intr_count_le & [ STEM < "pedipalpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedipalpo_n_rel" ] ]. pedir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "pedir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pedir_v_rel" ] ]. pedir_v2 := v_ditrans*_le & [ STEM < "pedir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pedir_v_rel" ] ]. pediátrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pediátrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pediátrico_a_rel" ]. pedocal_n1 := n_intr_count_le & [ STEM < "pedocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedocal_n_rel" ] ]. pedográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "pedográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_pedográfico_a_rel" ]. pedología_n1 := n_intr_uncount_le & [ STEM < "pedología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedología_n_rel" ] ]. pedrada_n1 := n_intr_count_le & [ STEM < "pedrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedrada_n_rel" ] ]. pedraplenar_v := v_trans_np_le & [ STEM < "pedraplenar" >, SYNSEM.LKEYS.KEYREL.PRED "_pedraplenar_v_rel" ]. pedregosidad_n1 := n_intr_uncount_le & [ STEM < "pedregosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedregosidad_n_rel" ] ]. pedregoso_a1 := a_qual_intr_scopal_le & [ STEM < "pedregoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pedregoso_a_rel" ]. pedrera_n1 := n_intr_count_le & [ STEM < "pedrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pedrera_n_rel" ] ]. pedrero_n1 := n_intr_count_le & [ STEM < "pedrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedrero_n_rel" ] ]. pedrería_n1 := n_intr_coll_le & [ STEM < "pedrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedrería_n_rel" ] ]. pedrisco_n1 := n_intr_mass_le & [ STEM < "pedrisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedrisco_n_rel" ] ]. pedriza_n1 := n_intr_count_le & [ STEM < "pedriza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pedriza_n_rel" ] ]. pedrusco_n1 := n_intr_count_le & [ STEM < "pedrusco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedrusco_n_rel" ] ]. peduncular_a1 := a_rel_nonprd_intr_le & [ STEM < "peduncular" >, SYNSEM.LKEYS.KEYREL.PRED "_peduncular_a_rel" ]. pedáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "pedáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_pedáneo_a_rel" ]. pedáneo_n1 := n_intr_count_le & [ STEM < "pedáneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedáneo_n_rel" ] ]. pedículo_n1 := n_ppcomp_count_le & [ STEM < "pedículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pedículo_n_rel" ] ]. pedófilo_n1 := n_intr_count_le & [ STEM < "pedófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedófilo_n_rel" ] ]. pedólogo_n1 := n_intr_count_le & [ STEM < "pedólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pedólogo_n_rel" ] ]. pedúnculo_n1 := n_intr_count_le & [ STEM < "pedúnculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pedúnculo_n_rel" ] ]. pega_n1 := n_intr_count_le & [ STEM < "pega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pega_n_rel" ] ]. pegadizo_a1 := a_qual_intr_ser_le & [ STEM < "pegadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_pegadizo_a_rel" ]. pegado_n1 := n_trans_le & [ STEM < "pegado" >, SYNSEM.LKEYS.KEYREL.PRED "_pegado_n_rel" ]. pegajosidad_n1 := n_intr_mass_le & [ STEM < "pegajosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pegajosidad_n_rel" ] ]. pegajoso_a1 := a_qual_intr_scopal_le & [ STEM < "pegajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pegajoso_a_rel" ]. pegamento_n1 := n_intr_mass_le & [ STEM < "pegamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pegamento_n_rel" ] ]. pegar_v1 := v_intr_mrkd_np*_le & [ STEM < "pegar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_pegar_v_rel" ] ]. pegar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "pegar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_pegar_v_rel" ] ]. pegaso_n1 := n_intr_count_le & [ STEM < "pegaso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pegaso_n_rel" ] ]. pegatina_n1 := n_intr_count_le & [ STEM < "pegatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pegatina_n_rel" ] ]. peggiorista_n1 := n_intr_count_le & [ STEM < "peggiorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peggiorista_n_rel" ] ]. pegmatita_n1 := n_intr_count_le & [ STEM < "pegmatita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pegmatita_n_rel" ] ]. pehachímetro_n1 := n_intr_count_le & [ STEM < "pehachímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pehachímetro_n_rel" ] ]. peinado_n1 := n_intr_count_le & [ STEM < "peinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peinado_n_rel" ] ]. peinador_a1 := a_rel_nonprd_intr_le & [ STEM < "peinador" >, SYNSEM.LKEYS.KEYREL.PRED "_peinador_a_rel" ]. peinador_n1 := n_intr_count_le & [ STEM < "peinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peinador_n_rel" ] ]. peinador_n2 := n_subj-nom_le & [ STEM < "peinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peinador_n_rel" ] ]. peinadora_n1 := n_intr_count_le & [ STEM < "peinadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peinadora_n_rel" ] ]. peinazo_n1 := n_intr_count_le & [ STEM < "peinazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peinazo_n_rel" ] ]. peine_n1 := n_intr_count_le & [ STEM < "peine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peine_n_rel" ] ]. peineta_n1 := n_intr_count_le & [ STEM < "peineta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peineta_n_rel" ] ]. pejerrey_n1 := n_intr_count_le & [ STEM < "pejerrey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pejerrey_n_rel" ] ]. pelacables_n1 := n_intr_count_le & [ STEM < "pelacables" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelacables_n_rel" ] ]. pelada_n1 := n_intr_count_le & [ STEM < "pelada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pelada_n_rel" ] ]. peladilla_n1 := n_intr_count_le & [ STEM < "peladilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peladilla_n_rel" ] ]. peladora_n1 := n_intr_count_le & [ STEM < "peladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peladora_n_rel" ] ]. peladura_n1 := n_intr_mass_le & [ STEM < "peladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peladura_n_rel" ] ]. pelaje_n1 := n_intr_count_le & [ STEM < "pelaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pelaje_n_rel" ] ]. pelapatatas_n1 := n_intr_count_le & [ STEM < "pelapatatas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelapatatas_n_rel" ] ]. pelar_v := v_trans_np_caus_le & [ STEM < "pelar" >, SYNSEM.LKEYS.KEYREL.PRED "_pelar_v_rel" ]. pelargonato_n1 := n_intr_count_le & [ STEM < "pelargonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pelargonato_n_rel" ] ]. pelargónico_a1 := a_rel_nonprd_intr_le & [ STEM < "pelargónico" >, SYNSEM.LKEYS.KEYREL.PRED "_pelargónico_a_rel" ]. pelasgo_n1 := n_intr_count_le & [ STEM < "pelasgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pelasgo_n_rel" ] ]. peldaño_n1 := n_intr_count_le & [ STEM < "peldaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peldaño_n_rel" ] ]. pelear_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "pelear" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pelear_v_rel" ] ] ]. pelear_v2 := v_pron_intr_mrkd_np_le & [ STEM < "pelear" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pelear_v_rel" ] ] ]. pelear_v3 := v_pron_intr_mrkd_np_sym_le & [ STEM < "pelear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_pelear_v_rel" ] ]. pelear_v4 := v_intr_le & [ STEM < "pelear" >, SYNSEM.LKEYS.KEYREL.PRED "_pelear_v_rel" ]. pelele_n1 := n_intr_count_le & [ STEM < "pelele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_pelele_n_rel" ] ]. peletero_n1 := n_intr_count_le & [ STEM < "peletero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peletero_n_rel" ] ]. peletería_n1 := n_intr_mass-or-count_le & [ STEM < "peletería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_peletería_n_rel" ] ]. peleón_a1 := a_qual_intr_ser_le & [ STEM < "peleón" >, SYNSEM.LKEYS.KEYREL.PRED "_peleón_a_rel" ]. peliagudo_a1 := a_qual_intr_ser_le & [ STEM < "peliagudo" >, SYNSEM.LKEYS.KEYREL.PRED "_peliagudo_a_rel" ]. pelicular_a1 := a_rel_nonprd_intr_le & [ STEM < "pelicular" >, SYNSEM.LKEYS.KEYREL.PRED "_pelicular_a_rel" ]. pelicularmente_x1 := av_i_spr_le & [ STEM < "pelicularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pelicularmente_x_rel" ]. peliculero_a1 := a_qual_intr_ser_le & [ STEM < "peliculero" >, SYNSEM.LKEYS.KEYREL.PRED "_peliculero_a_rel" ]. peligrar_v := v_unacc_le & [ STEM < "peligrar" >, SYNSEM.LKEYS.KEYREL.PRED "_peligrar_v_rel" ]. peligrosamente_x1 := av_i_spr_le & [ STEM < "peligrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_peligrosamente_x_rel" ]. peligrosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "peligrosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peligrosidad_n_rel" ] ]. peligroso_a1 := a_qual_intr_ser_le & [ STEM < "peligroso" >, SYNSEM.LKEYS.KEYREL.PRED "_peligroso_a_rel" ]. pelirrojo_a1 := a_qual_intr_ser_le & [ STEM < "pelirrojo" >, SYNSEM.LKEYS.KEYREL.PRED "_pelirrojo_a_rel" ]. pelliza_n1 := n_intr_count_le & [ STEM < "pelliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelliza_n_rel" ] ]. pellizcar_v := v_ditrans*_le & [ STEM < "pellizcar" >, SYNSEM.LKEYS.KEYREL.PRED "_pellizcar_v_rel" ]. pellizco_n1 := n_trans_le & [ STEM < "pellizco" >, SYNSEM.LKEYS.KEYREL.PRED "_pellizco_n_rel" ]. pelo_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pelo_n_rel" ] ]. pelosilla_n1 := n_intr_count_le & [ STEM < "pelosilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelosilla_n_rel" ] ]. pelosol_n1 := n_intr_count_le & [ STEM < "pelosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pelosol_n_rel" ] ]. pelota_n1 := n_intr_count_le & [ STEM < "pelota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelota_n_rel" ] ]. pelotari_n1 := n_intr_count_le & [ STEM < "pelotari" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pelotari_n_rel" ] ]. pelotazo_n1 := n_intr_count_le & [ STEM < "pelotazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pelotazo_n_rel" ] ]. pelotear_v := v_intr_le & [ STEM < "pelotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pelotear_v_rel" ] ]. peloteo_n1 := n_event-result_intr_le & [ STEM < "peloteo" >, SYNSEM.LKEYS.KEYREL.PRED "_peloteo_n_rel" ]. pelotero_a1 := a_qual_intr_ser_le & [ STEM < "pelotero" >, SYNSEM.LKEYS.KEYREL.PRED "_pelotero_a_rel" ]. pelotero_n1 := n_intr_count_le & [ STEM < "pelotero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pelotero_n_rel" ] ]. pelotón_n1 := n_intr_count_le & [ STEM < "pelotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_pelotón_n_rel" ] ]. pelouse_n1 := n_intr_count_le & [ STEM < "pelouse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelouse_n_rel" ] ]. peltre_n1 := n_intr_mass-or-count_le & [ STEM < "peltre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_peltre_n_rel" ] ]. peluca_n1 := n_intr_count_le & [ STEM < "peluca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peluca_n_rel" ] ]. peludo_a1 := a_qual_intr_ser_le & [ STEM < "peludo" >, SYNSEM.LKEYS.KEYREL.PRED "_peludo_a_rel" ]. peluquero_n1 := n_intr_count_le & [ STEM < "peluquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peluquero_n_rel" ] ]. peluquería_n1 := n_intr_count_le & [ STEM < "peluquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_peluquería_n_rel" ] ]. peluquín_n1 := n_intr_count_le & [ STEM < "peluquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peluquín_n_rel" ] ]. pelusa_n1 := n_intr_mass_le & [ STEM < "pelusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pelusa_n_rel" ] ]. pelviano_a1 := a_rel_nonprd_intr_le & [ STEM < "pelviano" >, SYNSEM.LKEYS.KEYREL.PRED "_pelviano_a_rel" ]. pelvis_n1 := n_ppcomp_count_le & [ STEM < "pelvis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pelvis_n_rel" ] ]. pelágico_a1 := a_rel_nonprd_intr_le & [ STEM < "pelágico" >, SYNSEM.LKEYS.KEYREL.PRED "_pelágico_a_rel" ]. pelícano_n1 := n_intr_count_le & [ STEM < "pelícano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pelícano_n_rel" ] ]. película_n1 := n_intr_count_le & [ STEM < "película" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_película_n_rel" ] ]. pelúcido_a1 := a_rel_nonprd_intr_le & [ STEM < "pelúcido" >, SYNSEM.LKEYS.KEYREL.PRED "_pelúcido_a_rel" ]. penable_a1 := a_rel_prd_le & [ STEM < "penable" >, SYNSEM.LKEYS.KEYREL.PRED "_penable_a_rel" ]. penacho_n1 := n_intr_count_le & [ STEM < "penacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_penacho_n_rel" ] ]. penado_n1 := n_intr_count_le & [ STEM < "penado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_penado_n_rel" ] ]. penal_a1 := a_rel_nonprd_intr_le & [ STEM < "penal" >, SYNSEM.LKEYS.KEYREL.PRED "_penal_a_rel" ]. penal_n1 := n_intr_count_le & [ STEM < "penal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_penal_n_rel" ] ]. penalidad_n1 := n_intr_count_le & [ STEM < "penalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penalidad_n_rel" ] ]. penalista_n1 := n_intr_count_le & [ STEM < "penalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_penalista_n_rel" ] ]. penalización_n1 := n_trans_le & [ STEM < "penalización" >, SYNSEM.LKEYS.KEYREL.PRED "_penalización_n_rel" ]. penalizar_v := v_trans_np_le & [ STEM < "penalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_penalizar_v_rel" ]. penalmente_x1 := av_i_spr_le & [ STEM < "penalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_penalmente_x_rel" ]. penar_v1 := v_intr_mrkd_np*_le & [ STEM < "penar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_penar_v_rel" ] ]. penar_v2 := v_trans_np_le & [ STEM < "penar" >, SYNSEM.LKEYS.KEYREL.PRED "_penar_v_rel" ]. penbutolol_n1 := n_intr_count_le & [ STEM < "penbutolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_penbutolol_n_rel" ] ]. pendenciero_n1 := n_intr_count_le & [ STEM < "pendenciero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pendenciero_n_rel" ] ]. pendiente_a1 := a_qual_trans_estar_le & [ STEM < "pendiente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_pendiente_a_rel" ] ]. pendiente_a2 := a_octrl_le & [ STEM < "pendiente" >, SYNSEM.LKEYS.KEYREL.PRED "_pendiente_a_rel" ]. pendiente_n1 := n_intr_count_le & [ STEM < "pendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_pendiente_n_rel" ] ]. pendolón_n1 := n_intr_count_le & [ STEM < "pendolón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pendolón_n_rel" ] ]. pendular_a1 := a_rel_nonprd_intr_le & [ STEM < "pendular" >, SYNSEM.LKEYS.KEYREL.PRED "_pendular_a_rel" ]. pendularmente_x1 := av_i_spr_le & [ STEM < "pendularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pendularmente_x_rel" ]. penduleo_n1 := n_event-result_intr_le & [ STEM < "penduleo" >, SYNSEM.LKEYS.KEYREL.PRED "_penduleo_n_rel" ]. pendón_n1 := n_intr_count_le & [ STEM < "pendón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pendón_n_rel" ] ]. pene_n1 := n_ppcomp_count_le & [ STEM < "pene" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pene_n_rel" ] ]. penetrabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "penetrabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penetrabilidad_n_rel" ] ]. penetrable_a1 := a_qual_intr_ser_le & [ STEM < "penetrable" >, SYNSEM.LKEYS.KEYREL.PRED "_penetrable_a_rel" ]. penetración_n1 := n_trans_le & [ STEM < "penetración" >, SYNSEM.LKEYS.KEYREL.PRED "_penetración_n_rel" ]. penetrador_n1 := n_subj-nom_le & [ STEM < "penetrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_penetrador_n_rel" ] ]. penetrante_a1 := a_qual_intr_ser_le & [ STEM < "penetrante" >, SYNSEM.LKEYS.KEYREL.PRED "_penetrante_a_rel" ]. penetrantemente_x1 := av_i_spr_le & [ STEM < "penetrantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_penetrantemente_x_rel" ]. penetrar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "penetrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_penetrar_v_rel" ] ] ]. penetrar_v2 := v_intr_mrkd_np_le & [ STEM < "penetrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_penetrar_v_rel" ] ] ]. peneuvista_a1 := a_rel_nonprd_intr_le & [ STEM < "peneuvista" >, SYNSEM.LKEYS.KEYREL.PRED "_peneuvista_a_rel" ]. peneuvista_n1 := n_intr_count_le & [ STEM < "peneuvista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peneuvista_n_rel" ] ]. penicilado_a1 := a_rel_nonprd_intr_le & [ STEM < "penicilado" >, SYNSEM.LKEYS.KEYREL.PRED "_penicilado_a_rel" ]. penicilina_n1 := n_intr_mass_le & [ STEM < "penicilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_penicilina_n_rel" ] ]. penicilinasa_n1 := n_intr_count_le & [ STEM < "penicilinasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_penicilinasa_n_rel" ] ]. penillanura_n1 := n_intr_count_le & [ STEM < "penillanura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penillanura_n_rel" ] ]. peninsular_a1 := a_rel_nonprd_intr_le & [ STEM < "peninsular" >, SYNSEM.LKEYS.KEYREL.PRED "_peninsular_a_rel" ]. peninsular_n1 := n_intr_count_le & [ STEM < "peninsular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peninsular_n_rel" ] ]. peninsularmente_x1 := av_i_spr_le & [ STEM < "peninsularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_peninsularmente_x_rel" ]. penique_n1 := n_intr_count_le & [ STEM < "penique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_penique_n_rel" ] ]. penitencia_n1 := n_trans_le & [ STEM < "penitencia" >, SYNSEM.LKEYS.KEYREL.PRED "_penitencia_n_rel" ]. penitencial_a1 := a_rel_nonprd_intr_le & [ STEM < "penitencial" >, SYNSEM.LKEYS.KEYREL.PRED "_penitencial_a_rel" ]. penitenciario_a1 := a_rel_nonprd_intr_le & [ STEM < "penitenciario" >, SYNSEM.LKEYS.KEYREL.PRED "_penitenciario_a_rel" ]. penitenciario_n1 := n_intr_count_le & [ STEM < "penitenciario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_penitenciario_n_rel" ] ]. penitenciarismo_n1 := n_intr_uncount_le & [ STEM < "penitenciarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penitenciarismo_n_rel" ] ]. penitenciaría_n1 := n_intr_count_le & [ STEM < "penitenciaría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_penitenciaría_n_rel" ] ]. penitente_a1 := a_rel_nonprd_intr_le & [ STEM < "penitente" >, SYNSEM.LKEYS.KEYREL.PRED "_penitente_a_rel" ]. penol_n1 := n_intr_count_le & [ STEM < "penol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_penol_n_rel" ] ]. penología_n1 := n_intr_uncount_le & [ STEM < "penología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penología_n_rel" ] ]. penológico_a1 := a_rel_prd_le & [ STEM < "penológico" >, SYNSEM.LKEYS.KEYREL.PRED "_penológico_a_rel" ]. penosamente_x1 := av_i_spr_le & [ STEM < "penosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_penosamente_x_rel" ]. penoso_a1 := a_qual_intr_ser_le & [ STEM < "penoso" >, SYNSEM.LKEYS.KEYREL.PRED "_penoso_a_rel" ]. pensador_n1 := n_subj-nom_le & [ STEM < "pensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pensador_n_rel" ] ]. pensamiento_n1 := n_intr_count_le & [ STEM < "pensamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pensamiento_n_rel" ] ]. pensante_a1 := a_rel_nonprd_intr_le & [ STEM < "pensante" >, SYNSEM.LKEYS.KEYREL.PRED "_pensante_a_rel" ]. pensar_v2 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "pensar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_pensar_v_rel" ] ]. pensar_v3 := v_trans_cp_prop_fin_le & [ STEM < "pensar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pensar_v_rel" ] ]. pensar_v4 := v_trans_np_le & [ STEM < "pensar" >, SYNSEM.LKEYS.KEYREL.PRED "_pensar_v_rel" ]. pensativo_a1 := a_qual_intr_estar_le & [ STEM < "pensativo" >, SYNSEM.LKEYS.KEYREL.PRED "_pensativo_a_rel" ]. pensil_a1 := a_rel_nonprd_intr_le & [ STEM < "pensil" >, SYNSEM.LKEYS.KEYREL.PRED "_pensil_a_rel" ]. pensilvano_a1 := a_rel_prd_le & [ STEM < "pensilvano" >, SYNSEM.LKEYS.KEYREL.PRED "_pensilvano_a_rel" ]. pensilvano_n1 := n_intr_count_le & [ STEM < "pensilvano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pensilvano_n_rel" ] ]. pensionado_n1 := n_intr_count_le & [ STEM < "pensionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pensionado_n_rel" ] ]. pensionario_n1 := n_intr_count_le & [ STEM < "pensionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pensionario_n_rel" ] ]. pensionista_n1 := n_intr_count_le & [ STEM < "pensionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pensionista_n_rel" ] ]. pensión_n1 := n_intr_count_le & [ STEM < "pensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_pensión_n_rel" ] ]. penta_n1 := n_intr_count_le & [ STEM < "penta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_penta_n_rel" ] ]. pentaborano_n1 := n_intr_count_le & [ STEM < "pentaborano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentaborano_n_rel" ] ]. pentaborato_n1 := n_intr_count_le & [ STEM < "pentaborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentaborato_n_rel" ] ]. pentabromuro_n1 := n_intr_count_le & [ STEM < "pentabromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentabromuro_n_rel" ] ]. pentacampeón_n1 := n_intr_count_le & [ STEM < "pentacampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pentacampeón_n_rel" ] ]. pentacloroestearato_n1 := n_intr_count_le & [ STEM < "pentacloroestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentacloroestearato_n_rel" ] ]. pentacloroetano_n1 := n_intr_count_le & [ STEM < "pentacloroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentacloroetano_n_rel" ] ]. pentaclorofenato_n1 := n_intr_count_le & [ STEM < "pentaclorofenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentaclorofenato_n_rel" ] ]. pentaclorofenol_n1 := n_intr_count_le & [ STEM < "pentaclorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentaclorofenol_n_rel" ] ]. pentacloronitrobenceno_n1 := n_intr_count_le & [ STEM < "pentacloronitrobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentacloronitrobenceno_n_rel" ] ]. pentacloruro_n1 := n_intr_count_le & [ STEM < "pentacloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentacloruro_n_rel" ] ]. pentacordio_n1 := n_intr_count_le & [ STEM < "pentacordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pentacordio_n_rel" ] ]. pentadecanoato_n1 := n_intr_count_le & [ STEM < "pentadecanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentadecanoato_n_rel" ] ]. pentadecanoico_a1 := a_rel_nonprd_intr_le & [ STEM < "pentadecanoico" >, SYNSEM.LKEYS.KEYREL.PRED "_pentadecanoico_a_rel" ]. pentaeritrita_n1 := n_intr_count_le & [ STEM < "pentaeritrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentaeritrita_n_rel" ] ]. pentafilarmente_x1 := av_i_spr_le & [ STEM < "pentafilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentafilarmente_x_rel" ]. pentafluoruro_n1 := n_intr_count_le & [ STEM < "pentafluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentafluoruro_n_rel" ] ]. pentafásicamente_x1 := av_i_spr_le & [ STEM < "pentafásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentafásicamente_x_rel" ]. pentafásico_a1 := a_rel_nonprd_intr_le & [ STEM < "pentafásico" >, SYNSEM.LKEYS.KEYREL.PRED "_pentafásico_a_rel" ]. pentagonal_a1 := a_rel_nonprd_intr_le & [ STEM < "pentagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_pentagonal_a_rel" ]. pentagonalmente_x1 := av_i_spr_le & [ STEM < "pentagonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentagonalmente_x_rel" ]. pentalfa_n1 := n_intr_count_le & [ STEM < "pentalfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_pentalfa_n_rel" ] ]. pentanodiol_n1 := n_intr_count_le & [ STEM < "pentanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentanodiol_n_rel" ] ]. pentanol_n1 := n_intr_count_le & [ STEM < "pentanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentanol_n_rel" ] ]. pentapolar_a1 := a_rel_nonprd_intr_le & [ STEM < "pentapolar" >, SYNSEM.LKEYS.KEYREL.PRED "_pentapolar_a_rel" ]. pentapolarmente_x1 := av_i_spr_le & [ STEM < "pentapolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentapolarmente_x_rel" ]. pentasulfuro_n1 := n_intr_count_le & [ STEM < "pentasulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentasulfuro_n_rel" ] ]. pentasómico_a1 := a_rel_nonprd_intr_le & [ STEM < "pentasómico" >, SYNSEM.LKEYS.KEYREL.PRED "_pentasómico_a_rel" ]. pentatleta_n1 := n_intr_count_le & [ STEM < "pentatleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pentatleta_n_rel" ] ]. pentatloniano_n1 := n_intr_count_le & [ STEM < "pentatloniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pentatloniano_n_rel" ] ]. pentatlón_n1 := n_intr_count_le & [ STEM < "pentatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentatlón_n_rel" ] ]. pentatriacontano_n1 := n_intr_count_le & [ STEM < "pentatriacontano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentatriacontano_n_rel" ] ]. pentatónico_a1 := a_rel_nonprd_intr_le & [ STEM < "pentatónico" >, SYNSEM.LKEYS.KEYREL.PRED "_pentatónico_a_rel" ]. pentavalente_a1 := a_rel_nonprd_intr_le & [ STEM < "pentavalente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentavalente_a_rel" ]. pentavalentemente_x1 := av_i_spr_le & [ STEM < "pentavalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentavalentemente_x_rel" ]. pentilentetrazol_n1 := n_intr_count_le & [ STEM < "pentilentetrazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentilentetrazol_n_rel" ] ]. pentlandita_n1 := n_intr_count_le & [ STEM < "pentlandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentlandita_n_rel" ] ]. pentobarbital_a1 := a_rel_nonprd_intr_le & [ STEM < "pentobarbital" >, SYNSEM.LKEYS.KEYREL.PRED "_pentobarbital_a_rel" ]. pentodamente_x1 := av_i_spr_le & [ STEM < "pentodamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pentodamente_x_rel" ]. pentolita_n1 := n_intr_count_le & [ STEM < "pentolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pentolita_n_rel" ] ]. pentosa_n1 := n_intr_count_le & [ STEM < "pentosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pentosa_n_rel" ] ]. pentotal_n1 := n_intr_count_le & [ STEM < "pentotal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pentotal_n_rel" ] ]. pentágono_n1 := n_intr_count_le & [ STEM < "pentágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pentágono_n_rel" ] ]. pentámetro_n1 := n_intr_count_le & [ STEM < "pentámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pentámetro_n_rel" ] ]. pentóxido_n1 := n_intr_uncount_le & [ STEM < "pentóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentóxido_n_rel" ] ]. península_n1 := n_intr_count_le & [ STEM < "península" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_península_n_rel" ] ]. peonia_n1 := n_intr_count_le & [ STEM < "peonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_peonia_n_rel" ] ]. peonza_n1 := n_intr_count_le & [ STEM < "peonza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peonza_n_rel" ] ]. peor_a1 := a_compar_le & [ STEM < "peor" >, SYNSEM.LKEYS.KEYREL.PRED "_peor_a_rel" ]. peor_a2 := a_super_le & [ STEM < "peor" >, SYNSEM.LKEYS.KEYREL.PRED "_peor_a_rel" ]. pepinillo_n1 := n_intr_count_le & [ STEM < "pepinillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_pepinillo_n_rel" ] ]. pepino_n1 := n_intr_mass_le & [ STEM < "pepino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pepino_n_rel" ] ]. pepita_n1 := n_intr_count_le & [ STEM < "pepita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pepita_n_rel" ] ]. pepsina_n1 := n_intr_mass_le & [ STEM < "pepsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pepsina_n_rel" ] ]. peptona_n1 := n_intr_count_le & [ STEM < "peptona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peptona_n_rel" ] ]. peque_n1 := n_intr_count_le & [ STEM < "peque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peque_n_rel" ] ]. pequeñez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pequeñez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pequeñez_n_rel" ] ]. pequeño_a1 := a_qual_intr_ser_le & [ STEM < "pequeño" >, SYNSEM.LKEYS.KEYREL.PRED "_pequeño_a_rel" ]. pequeño_n1 := n_intr_count_le & [ STEM < "pequeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pequeño_n_rel" ] ]. pequinés_a1 := a_rel_prd_le & [ STEM < "pequinés" >, SYNSEM.LKEYS.KEYREL.PRED "_pequinés_a_rel" ]. pequinés_n1 := n_intr_count_le & [ STEM < "pequinés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pequinés_n_rel" ] ]. pera_n1 := n_intr_mass_le & [ STEM < "pera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pera_n_rel" ] ]. peral_n1 := n_intr_count_le & [ STEM < "peral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_peral_n_rel" ] ]. perbenzoato_n1 := n_intr_count_le & [ STEM < "perbenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perbenzoato_n_rel" ] ]. perborato_n1 := n_intr_count_le & [ STEM < "perborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perborato_n_rel" ] ]. perca_n1 := n_intr_count_le & [ STEM < "perca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_perca_n_rel" ] ]. percal_n1 := n_intr_mass-or-count_le & [ STEM < "percal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_percal_n_rel" ] ]. percarbonato_n1 := n_intr_count_le & [ STEM < "percarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_percarbonato_n_rel" ] ]. percatar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "percatar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_percatar_v_rel" ] ] ]. percatar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "percatar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_percatar_v_rel" ] ] ]. percebe_n1 := n_intr_count_le & [ STEM < "percebe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_percebe_n_rel" ] ]. percentil_a1 := a_rel_nonprd_intr_le & [ STEM < "percentil" >, SYNSEM.LKEYS.KEYREL.PRED "_percentil_a_rel" ]. percepción_n1 := n_trans_le & [ STEM < "percepción" >, SYNSEM.LKEYS.KEYREL.PRED "_percepción_n_rel" ]. perceptible_a1 := a_qual_intr_ser_le & [ STEM < "perceptible" >, SYNSEM.LKEYS.KEYREL.PRED "_perceptible_a_rel" ]. perceptiblemente_x1 := av_s_spr_le & [ STEM < "perceptiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_perceptiblemente_x_rel" ]. perceptivo_a1 := a_qual_intr_ser_le & [ STEM < "perceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_perceptivo_a_rel" ]. perceptor_a1 := a_rel_nonprd_intr_le & [ STEM < "perceptor" >, SYNSEM.LKEYS.KEYREL.PRED "_perceptor_a_rel" ]. perceptoramente_x1 := av_i_spr_le & [ STEM < "perceptoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_perceptoramente_x_rel" ]. perceptuar_v1 := v_trans_cp_prop_fin_le & [ STEM < "perceptuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perceptuar_v_rel" ] ]. perceptuar_v2 := v_trans_np_le & [ STEM < "perceptuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_perceptuar_v_rel" ] ]. percha_n1 := n_intr_count_le & [ STEM < "percha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_percha_n_rel" ] ]. perchar_v := v_trans_np_le & [ STEM < "perchar" >, SYNSEM.LKEYS.KEYREL.PRED "_perchar_v_rel" ]. perchero_n1 := n_intr_count_le & [ STEM < "perchero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perchero_n_rel" ] ]. perclorato_n1 := n_intr_count_le & [ STEM < "perclorato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perclorato_n_rel" ] ]. percloroetileno_n1 := n_intr_count_le & [ STEM < "percloroetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_percloroetileno_n_rel" ] ]. percloréter_n1 := n_intr_count_le & [ STEM < "percloréter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_percloréter_n_rel" ] ]. perclóricamente_x1 := av_i_spr_le & [ STEM < "perclóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perclóricamente_x_rel" ]. perclórico_a1 := a_rel_nonprd_intr_le & [ STEM < "perclórico" >, SYNSEM.LKEYS.KEYREL.PRED "_perclórico_a_rel" ]. percolación_n1 := n_event-result_intr_le & [ STEM < "percolación" >, SYNSEM.LKEYS.KEYREL.PRED "_percolación_n_rel" ]. percolante_a1 := a_rel_nonprd_intr_le & [ STEM < "percolante" >, SYNSEM.LKEYS.KEYREL.PRED "_percolante_a_rel" ]. percolar_v := v_trans_np_le & [ STEM < "percolar" >, SYNSEM.LKEYS.KEYREL.PRED "_percolar_v_rel" ]. percrómicamente_x1 := av_i_spr_le & [ STEM < "percrómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_percrómicamente_x_rel" ]. percrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "percrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_percrómico_a_rel" ]. percusionista_n1 := n_intr_count_le & [ STEM < "percusionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_percusionista_n_rel" ] ]. percusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "percusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_percusivo_a_rel" ]. percusión_n1 := n_trans_le & [ STEM < "percusión" >, SYNSEM.LKEYS.KEYREL.PRED "_percusión_n_rel" ]. percusor_n1 := n_intr_count_le & [ STEM < "percusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_percusor_n_rel" ] ]. percutir_v := v_trans_np_le & [ STEM < "percutir" >, SYNSEM.LKEYS.KEYREL.PRED "_percutir_v_rel" ]. percutor_a1 := a_rel_nonprd_intr_le & [ STEM < "percutor" >, SYNSEM.LKEYS.KEYREL.PRED "_percutor_a_rel" ]. percutor_n1 := n_intr_count_le & [ STEM < "percutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_percutor_n_rel" ] ]. perdedor_n1 := n_subj-nom_le & [ STEM < "perdedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perdedor_n_rel" ] ]. perder_v1 := v_pron_intr_le & [ STEM < "perder" >, SYNSEM.LKEYS.KEYREL [ PRED "_perder_v_rel" ] ]. perder_v2 := v_intr_le & [ STEM < "perder" >, SYNSEM.LKEYS.KEYREL [ PRED "_perder_v_rel" ] ]. perder_v3 := v_trans_np_le & [ STEM < "perder" >, SYNSEM.LKEYS.KEYREL [ PRED "_perder_v_rel" ] ]. perdición_n1 := n_trans_le & [ STEM < "perdición" >, SYNSEM.LKEYS.KEYREL.PRED "_perdición_n_rel" ]. perdigonada_n1 := n_intr_count_le & [ STEM < "perdigonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perdigonada_n_rel" ] ]. perdigonar_v := v_trans_np_le & [ STEM < "perdigonar" >, SYNSEM.LKEYS.KEYREL.PRED "_perdigonar_v_rel" ]. perdigonazo_n1 := n_intr_count_le & [ STEM < "perdigonazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perdigonazo_n_rel" ] ]. perdigueramente_x1 := av_i_spr_le & [ STEM < "perdigueramente" >, SYNSEM.LKEYS.KEYREL.PRED "_perdigueramente_x_rel" ]. perdiguero_a1 := a_rel_nonprd_intr_le & [ STEM < "perdiguero" >, SYNSEM.LKEYS.KEYREL.PRED "_perdiguero_a_rel" ]. perdigón_n1 := n_intr_count_le & [ STEM < "perdigón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_perdigón_n_rel" ] ]. perdir_v := v_ditrans*_le & [ STEM < "perdir" >, SYNSEM.LKEYS.KEYREL.PRED "_perdir_v_rel" ]. perdiz_n1 := n_intr_count_le & [ STEM < "perdiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_perdiz_n_rel" ] ]. perdonable_a1 := a_qual_intr_ser_le & [ STEM < "perdonable" >, SYNSEM.LKEYS.KEYREL.PRED "_perdonable_a_rel" ]. perdonar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "perdonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perdonar_v_rel" ] ]. perdonar_v2 := v_ditrans*_le & [ STEM < "perdonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_perdonar_v_rel" ] ]. perdonar_v3 := v_trans_np*_le & [ STEM < "perdonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_perdonar_v_rel" ] ]. perdurabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "perdurabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perdurabilidad_n_rel" ] ]. perdurable_a1 := a_rel_prd_le & [ STEM < "perdurable" >, SYNSEM.LKEYS.KEYREL.PRED "_perdurable_a_rel" ]. perdurablemente_x1 := av_i_spr_le & [ STEM < "perdurablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_perdurablemente_x_rel" ]. perdurar_v := v_unacc_lcomp_loc*_le & [ STEM < "perdurar" >, SYNSEM.LKEYS.KEYREL.PRED "_perdurar_v_rel" ]. perecedero_a1 := a_qual_intr_ser_le & [ STEM < "perecedero" >, SYNSEM.LKEYS.KEYREL.PRED "_perecedero_a_rel" ]. perecer_v := v_unacc_perf_le & [ STEM < "perecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_perecer_v_rel" ] ]. peregrinación_n1 := n_event-result_intr_le & [ STEM < "peregrinación" >, SYNSEM.LKEYS.KEYREL.PRED "_peregrinación_n_rel" ]. peregrinaje_n1 := n_event-result_intr_le & [ STEM < "peregrinaje" >, SYNSEM.LKEYS.KEYREL.PRED "_peregrinaje_n_rel" ]. peregrinar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "peregrinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_peregrinar_v_rel" ] ] ]. peregrinar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "peregrinar" >, SYNSEM.LKEYS.KEYREL.PRED "_peregrinar_v_rel" ]. peregrino_a1 := a_rel_nonprd_intr_le & [ STEM < "peregrino" >, SYNSEM.LKEYS.KEYREL.PRED "_peregrino_a_rel" ]. peregrino_n1 := n_intr_count_le & [ STEM < "peregrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peregrino_n_rel" ] ]. perejil_n1 := n_intr_mass_le & [ STEM < "perejil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perejil_n_rel" ] ]. perención_n1 := n_intr_count_le & [ STEM < "perención" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perención_n_rel" ] ]. perenne_a1 := a_rel_prd_le & [ STEM < "perenne" >, SYNSEM.LKEYS.KEYREL.PRED "_perenne_a_rel" ]. perennemente_x1 := av_i_spr_le & [ STEM < "perennemente" >, SYNSEM.LKEYS.KEYREL.PRED "_perennemente_x_rel" ]. perentoriamente_x1 := av_i_spr_le & [ STEM < "perentoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perentoriamente_x_rel" ]. perentorio_a1 := a_qual_intr_ser_le & [ STEM < "perentorio" >, SYNSEM.LKEYS.KEYREL.PRED "_perentorio_a_rel" ]. pereza_n1 := n_intr_mass_le & [ STEM < "pereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pereza_n_rel" ] ]. perezosamente_x1 := av_i_spr_le & [ STEM < "perezosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perezosamente_x_rel" ]. perezoso_a1 := a_qual_intr_ser_le & [ STEM < "perezoso" >, SYNSEM.LKEYS.KEYREL.PRED "_perezoso_a_rel" ]. perfeccionamiento_n1 := n_trans_le & [ STEM < "perfeccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_perfeccionamiento_n_rel" ]. perfeccionismo_n1 := n_intr_uncount_le & [ STEM < "perfeccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perfeccionismo_n_rel" ] ]. perfeccionista_a1 := a_qual_intr_ser_le & [ STEM < "perfeccionista" >, SYNSEM.LKEYS.KEYREL.PRED "_perfeccionista_a_rel" ]. perfección_n1 := n_intr_mass_le & [ STEM < "perfección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perfección_n_rel" ] ]. perfectamente_x1 := av_i_le & [ STEM < "perfectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perfectamente_x_rel" ]. perfectivo_a1 := a_qual_intr_ser_le & [ STEM < "perfectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_perfectivo_a_rel" ]. perfecto_a1 := a_rel_prd_le & [ STEM < "perfecto" >, SYNSEM.LKEYS.KEYREL.PRED "_perfecto_a_rel" ]. perfenacina_n1 := n_intr_count_le & [ STEM < "perfenacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perfenacina_n_rel" ] ]. perfil_n1 := n_intr_count_le & [ STEM < "perfil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perfil_n_rel" ] ]. perfiladamente_x1 := av_i_spr_le & [ STEM < "perfiladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perfiladamente_x_rel" ]. perfilador_n1 := n_intr_count_le & [ STEM < "perfilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perfilador_n_rel" ] ]. perfilógrafo_n1 := n_intr_count_le & [ STEM < "perfilógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perfilógrafo_n_rel" ] ]. perforación_n1 := n_trans_le & [ STEM < "perforación" >, SYNSEM.LKEYS.KEYREL.PRED "_perforación_n_rel" ]. perforador_a1 := a_rel_nonprd_intr_le & [ STEM < "perforador" >, SYNSEM.LKEYS.KEYREL.PRED "_perforador_a_rel" ]. perforador_n1 := n_subj-nom_le & [ STEM < "perforador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perforador_n_rel" ] ]. perforadora_n1 := n_intr_count_le & [ STEM < "perforadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_perforadora_n_rel" ] ]. perforante_a1 := a_rel_nonprd_intr_le & [ STEM < "perforante" >, SYNSEM.LKEYS.KEYREL.PRED "_perforante_a_rel" ]. perforar_v := v_trans_np_le & [ STEM < "perforar" >, SYNSEM.LKEYS.KEYREL.PRED "_perforar_v_rel" ]. perforina_n1 := n_intr_count_le & [ STEM < "perforina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perforina_n_rel" ] ]. perforista_n1 := n_intr_count_le & [ STEM < "perforista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perforista_n_rel" ] ]. performativamente_x1 := av_i_spr_le & [ STEM < "performativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_performativamente_x_rel" ]. performativo_a1 := a_rel_nonprd_intr_le & [ STEM < "performativo" >, SYNSEM.LKEYS.KEYREL.PRED "_performativo_a_rel" ]. perfume_n1 := n_intr_mass_le & [ STEM < "perfume" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perfume_n_rel" ] ]. perfumería_n1 := n_intr_count_le & [ STEM < "perfumería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_perfumería_n_rel" ] ]. perfórmico_a1 := a_rel_nonprd_intr_le & [ STEM < "perfórmico" >, SYNSEM.LKEYS.KEYREL.PRED "_perfórmico_a_rel" ]. pergamino_n1 := n_intr_count_le & [ STEM < "pergamino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pergamino_n_rel" ] ]. pergelisol_n1 := n_intr_count_le & [ STEM < "pergelisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pergelisol_n_rel" ] ]. periamigdalino_a1 := a_rel_nonprd_intr_le & [ STEM < "periamigdalino" >, SYNSEM.LKEYS.KEYREL.PRED "_periamigdalino_a_rel" ]. periapical_a1 := a_rel_nonprd_intr_le & [ STEM < "periapical" >, SYNSEM.LKEYS.KEYREL.PRED "_periapical_a_rel" ]. periarterial_a1 := a_rel_nonprd_intr_le & [ STEM < "periarterial" >, SYNSEM.LKEYS.KEYREL.PRED "_periarterial_a_rel" ]. peribucal_a1 := a_rel_nonprd_intr_le & [ STEM < "peribucal" >, SYNSEM.LKEYS.KEYREL.PRED "_peribucal_a_rel" ]. pericardio_n1 := n_ppcomp_count_le & [ STEM < "pericardio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pericardio_n_rel" ] ]. pericardiofrénico_a1 := a_rel_nonprd_intr_le & [ STEM < "pericardiofrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_pericardiofrénico_a_rel" ]. pericarpio_n1 := n_intr_count_le & [ STEM < "pericarpio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pericarpio_n_rel" ] ]. pericemental_a1 := a_rel_nonprd_intr_le & [ STEM < "pericemental" >, SYNSEM.LKEYS.KEYREL.PRED "_pericemental_a_rel" ]. pericemento_n1 := n_intr_count_le & [ STEM < "pericemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pericemento_n_rel" ] ]. pericentriolar_a1 := a_rel_nonprd_intr_le & [ STEM < "pericentriolar" >, SYNSEM.LKEYS.KEYREL.PRED "_pericentriolar_a_rel" ]. pericia_n1 := n_intr_count_le & [ STEM < "pericia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pericia_n_rel" ] ]. pericial_a1 := a_rel_nonprd_intr_le & [ STEM < "pericial" >, SYNSEM.LKEYS.KEYREL.PRED "_pericial_a_rel" ]. pericialmente_x1 := av_i_spr_le & [ STEM < "pericialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pericialmente_x_rel" ]. pericinético_a1 := a_rel_nonprd_intr_le & [ STEM < "pericinético" >, SYNSEM.LKEYS.KEYREL.PRED "_pericinético_a_rel" ]. periclasa_n1 := n_intr_count_le & [ STEM < "periclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_periclasa_n_rel" ] ]. periclinal_a1 := a_rel_nonprd_intr_le & [ STEM < "periclinal" >, SYNSEM.LKEYS.KEYREL.PRED "_periclinal_a_rel" ]. perico_n1 := n_intr_count_le & [ STEM < "perico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perico_n_rel" ] ]. pericondrio_n1 := n_ppcomp_count_le & [ STEM < "pericondrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pericondrio_n_rel" ] ]. pericráneo_n1 := n_ppcomp_count_le & [ STEM < "pericráneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pericráneo_n_rel" ] ]. pericárdico_a1 := a_rel_nonprd_intr_le & [ STEM < "pericárdico" >, SYNSEM.LKEYS.KEYREL.PRED "_pericárdico_a_rel" ]. peridental_a1 := a_rel_nonprd_intr_le & [ STEM < "peridental" >, SYNSEM.LKEYS.KEYREL.PRED "_peridental_a_rel" ]. peridotita_n1 := n_intr_count_le & [ STEM < "peridotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peridotita_n_rel" ] ]. peridoto_n1 := n_intr_count_le & [ STEM < "peridoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peridoto_n_rel" ] ]. perifaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "perifaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_perifaríngeo_a_rel" ]. periferia_n1 := n_intr_count_le & [ STEM < "periferia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_periferia_n_rel" ] ]. perifollo_n1 := n_intr_count_le & [ STEM < "perifollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_perifollo_n_rel" ] ]. perifrástico_a1 := a_rel_nonprd_intr_le & [ STEM < "perifrástico" >, SYNSEM.LKEYS.KEYREL.PRED "_perifrástico_a_rel" ]. periféricamente_x1 := av_i_spr_le & [ STEM < "periféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_periféricamente_x_rel" ]. periférico_a1 := a_qual_intr_ser_le & [ STEM < "periférico" >, SYNSEM.LKEYS.KEYREL.PRED "_periférico_a_rel" ]. periférico_n1 := n_intr_count_le & [ STEM < "periférico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_periférico_n_rel" ] ]. perigeo_n1 := n_intr_count_le & [ STEM < "perigeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perigeo_n_rel" ] ]. periglaciar_a1 := a_rel_nonprd_intr_le & [ STEM < "periglaciar" >, SYNSEM.LKEYS.KEYREL.PRED "_periglaciar_a_rel" ]. perilinfático_a1 := a_rel_nonprd_intr_le & [ STEM < "perilinfático" >, SYNSEM.LKEYS.KEYREL.PRED "_perilinfático_a_rel" ]. perilla_n1 := n_ppcomp_count_le & [ STEM < "perilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_perilla_n_rel" ] ]. perimetral_a1 := a_rel_nonprd_intr_le & [ STEM < "perimetral" >, SYNSEM.LKEYS.KEYREL.PRED "_perimetral_a_rel" ]. perimetría_n1 := n_intr_uncount_pl_le & [ STEM < "perimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perimetría_n_rel" ] ]. perimisio_n1 := n_ppcomp_count_le & [ STEM < "perimisio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_perimisio_n_rel" ] ]. perimétricamente_x1 := av_i_spr_le & [ STEM < "perimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perimétricamente_x_rel" ]. perimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "perimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_perimétrico_a_rel" ]. perinatal_a1 := a_rel_nonprd_intr_le & [ STEM < "perinatal" >, SYNSEM.LKEYS.KEYREL.PRED "_perinatal_a_rel" ]. perineal_a1 := a_rel_nonprd_intr_le & [ STEM < "perineal" >, SYNSEM.LKEYS.KEYREL.PRED "_perineal_a_rel" ]. perineo_n1 := n_ppcomp_count_le & [ STEM < "perineo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_perineo_n_rel" ] ]. perinuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "perinuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_perinuclear_a_rel" ]. periné_n1 := n_ppcomp_count_le & [ STEM < "periné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_periné_n_rel" ] ]. periodicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "periodicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodicidad_n_rel" ] ]. periodificación_n1 := n_trans_le & [ STEM < "periodificación" >, SYNSEM.LKEYS.KEYREL.PRED "_periodificación_n_rel" ]. periodismo_n1 := n_intr_uncount_le & [ STEM < "periodismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodismo_n_rel" ] ]. periodista_n1 := n_intr_count_le & [ STEM < "periodista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_periodista_n_rel" ] ]. periodo_n1 := n_intr_count_le & [ STEM < "periodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_periodo_n_rel" ] ]. periodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "periodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodoncia_n_rel" ] ]. periodontal_a1 := a_rel_nonprd_intr_le & [ STEM < "periodontal" >, SYNSEM.LKEYS.KEYREL.PRED "_periodontal_a_rel" ]. periodontista_n1 := n_intr_count_le & [ STEM < "periodontista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_periodontista_n_rel" ] ]. periodontología_n1 := n_intr_uncount_le & [ STEM < "periodontología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodontología_n_rel" ] ]. periodontómetro_n1 := n_intr_count_le & [ STEM < "periodontómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_periodontómetro_n_rel" ] ]. periodístico_a1 := a_rel_nonprd_intr_le & [ STEM < "periodístico" >, SYNSEM.LKEYS.KEYREL.PRED "_periodístico_a_rel" ]. periodóntico_a1 := a_rel_nonprd_intr_le & [ STEM < "periodóntico" >, SYNSEM.LKEYS.KEYREL.PRED "_periodóntico_a_rel" ]. periosteótomo_n1 := n_intr_count_le & [ STEM < "periosteótomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_periosteótomo_n_rel" ] ]. periostio_n2 := n_ppcomp_count_le & [ STEM < "periostio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_periostio_n_rel" ] ]. peripecia_n1 := n_intr_count_le & [ STEM < "peripecia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peripecia_n_rel" ] ]. periplasma_n1 := n_intr_count_le & [ STEM < "periplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_periplasma_n_rel" ] ]. periplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "periplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_periplasmático_a_rel" ]. periplo_n1 := n_intr_count_le & [ STEM < "periplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periplo_n_rel" ] ]. periplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "periplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_periplásmico_a_rel" ]. periquito_n1 := n_intr_count_le & [ STEM < "periquito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_periquito_n_rel" ] ]. periscopio_n1 := n_intr_count_le & [ STEM < "periscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_periscopio_n_rel" ] ]. periscópicamente_x1 := av_i_spr_le & [ STEM < "periscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_periscópicamente_x_rel" ]. periscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "periscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_periscópico_a_rel" ]. perisodáctilo_n1 := n_intr_count_le & [ STEM < "perisodáctilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_perisodáctilo_n_rel" ] ]. peristerita_n1 := n_intr_count_le & [ STEM < "peristerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peristerita_n_rel" ] ]. peritación_n1 := n_trans_le & [ STEM < "peritación" >, SYNSEM.LKEYS.KEYREL.PRED "_peritación_n_rel" ]. peritaje_n1 := n_trans_le & [ STEM < "peritaje" >, SYNSEM.LKEYS.KEYREL.PRED "_peritaje_n_rel" ]. peritamente_x1 := av_i_spr_le & [ STEM < "peritamente" >, SYNSEM.LKEYS.KEYREL.PRED "_peritamente_x_rel" ]. peritectomía_n1 := n_intr_uncount_pl_le & [ STEM < "peritectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peritectomía_n_rel" ] ]. peritendón_n1 := n_ppcomp_count_le & [ STEM < "peritendón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_peritendón_n_rel" ] ]. perito_a1 := a_qual_intr_ser_le & [ STEM < "perito" >, SYNSEM.LKEYS.KEYREL.PRED "_perito_a_rel" ]. perito_n1 := n_intr_count_le & [ STEM < "perito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perito_n_rel" ] ]. peritoneal_a1 := a_rel_nonprd_intr_le & [ STEM < "peritoneal" >, SYNSEM.LKEYS.KEYREL.PRED "_peritoneal_a_rel" ]. peritoneo_n1 := n_intr_mass_le & [ STEM < "peritoneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peritoneo_n_rel" ] ]. peritoneoperineal_a1 := a_rel_nonprd_intr_le & [ STEM < "peritoneoperineal" >, SYNSEM.LKEYS.KEYREL.PRED "_peritoneoperineal_a_rel" ]. peritéctico_a1 := a_rel_nonprd_intr_le & [ STEM < "peritéctico" >, SYNSEM.LKEYS.KEYREL.PRED "_peritéctico_a_rel" ]. periventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "periventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_periventricular_a_rel" ]. periódicamente_x1 := av_i_spr_le & [ STEM < "periódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_periódicamente_x_rel" ]. periódico_a1 := a_rel_nonprd_intr_le & [ STEM < "periódico" >, SYNSEM.LKEYS.KEYREL.PRED "_periódico_a_rel" ]. periódico_n1 := n_intr_count_le & [ STEM < "periódico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_periódico_n_rel" ] ]. perióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "perióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_perióstico_a_rel" ]. perjudicado_n1 := n_intr_count_le & [ STEM < "perjudicado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perjudicado_n_rel" ] ]. perjudicar_v1 := v_intr_io*_le & [ STEM < "perjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_perjudicar_v_rel" ]. perjudicar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "perjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_perjudicar_v_rel" ]. perjudicar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "perjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_perjudicar_v_rel" ]. perjudicar_v4 := v_trans_np_le & [ STEM < "perjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_perjudicar_v_rel" ]. perjudicial_a1 := a_qual_trans*_ser_le & [ STEM < "perjudicial" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_perjudicial_a_rel" ] ]. perjudicialmente_x1 := av_i_spr_le & [ STEM < "perjudicialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_perjudicialmente_x_rel" ]. perjurar_v := v_intr_le & [ STEM < "perjurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perjurar_v_rel" ] ]. perla_n1 := n_intr_count_le & [ STEM < "perla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perla_n_rel" ] ]. perlado_a1 := a_qual_intr_ser_le & [ STEM < "perlado" >, SYNSEM.LKEYS.KEYREL.PRED "_perlado_a_rel" ]. perlingual_a1 := a_rel_nonprd_intr_le & [ STEM < "perlingual" >, SYNSEM.LKEYS.KEYREL.PRED "_perlingual_a_rel" ]. perlino_a1 := a_qual_intr_ser_le & [ STEM < "perlino" >, SYNSEM.LKEYS.KEYREL.PRED "_perlino_a_rel" ]. perlocutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "perlocutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_perlocutivo_a_rel" ]. perlítico_a1 := a_rel_nonprd_intr_le & [ STEM < "perlítico" >, SYNSEM.LKEYS.KEYREL.PRED "_perlítico_a_rel" ]. perlómetro_n1 := n_intr_count_le & [ STEM < "perlómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perlómetro_n_rel" ] ]. perlón_n1 := n_intr_mass_le & [ STEM < "perlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perlón_n_rel" ] ]. permafrost_n1 := n_intr_count_le & [ STEM < "permafrost" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_permafrost_n_rel" ] ]. permagel_n1 := n_intr_count_le & [ STEM < "permagel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_permagel_n_rel" ] ]. permaloy_n1 := n_intr_count_le & [ STEM < "permaloy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_permaloy_n_rel" ] ]. permanencia_n1 := n_result_intr_ppcomp_le & [ STEM < "permanencia" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_permanencia_n_rel" ] ]. permanente_a1 := a_rel_prd_le & [ STEM < "permanente" >, SYNSEM.LKEYS.KEYREL.PRED "_permanente_a_rel" ]. permanente_n1 := n_intr_count_le & [ STEM < "permanente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_permanente_n_rel" ] ]. permanentemente_x1 := av_i_spr_le & [ STEM < "permanentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_permanentemente_x_rel" ]. permanganato_n1 := n_intr_count_le & [ STEM < "permanganato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_permanganato_n_rel" ] ]. permeabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "permeabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_permeabilidad_n_rel" ] ]. permeable_a1 := a_qual_intr_ser_le & [ STEM < "permeable" >, SYNSEM.LKEYS.KEYREL.PRED "_permeable_a_rel" ]. permeación_n1 := n_trans_le & [ STEM < "permeación" >, SYNSEM.LKEYS.KEYREL.PRED "_permeación_n_rel" ]. permeámetro_n1 := n_intr_count_le & [ STEM < "permeámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_permeámetro_n_rel" ] ]. permisible_a1 := a_qual_intr_ser_le & [ STEM < "permisible" >, SYNSEM.LKEYS.KEYREL.PRED "_permisible_a_rel" ]. permisionario_n1 := n_intr_count_le & [ STEM < "permisionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_permisionario_n_rel" ] ]. permisividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "permisividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_permisividad_n_rel" ] ]. permisivo_a1 := a_qual_intr_ser_le & [ STEM < "permisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_permisivo_a_rel" ]. permisión_n1 := n_trans_le & [ STEM < "permisión" >, SYNSEM.LKEYS.KEYREL.PRED "_permisión_n_rel" ]. permiso_n1 := n_intr_count_le & [ STEM < "permiso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_permiso_n_rel" ] ]. permitible_a1 := a_qual_intr_ser_le & [ STEM < "permitible" >, SYNSEM.LKEYS.KEYREL.PRED "_permitible_a_rel" ]. permitir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "permitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_permitir_v_rel" ] ]. permitir_v2 := v_ditrans*_le & [ STEM < "permitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_permitir_v_rel" ] ]. permitir_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "permitir" >, SYNSEM.LKEYS.KEYREL.PRED "_permitir_v_rel" ]. permitir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "permitir" >, SYNSEM.LKEYS.KEYREL.PRED "_permitir_v_rel" ]. permitivamente_x1 := av_i_spr_le & [ STEM < "permitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_permitivamente_x_rel" ]. permitividad_n1 := n_intr_uncount_le & [ STEM < "permitividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_permitividad_n_rel" ] ]. permitivo_a1 := a_qual_intr_ser_le & [ STEM < "permitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_permitivo_a_rel" ]. permutable_a1 := a_rel_prd_le & [ STEM < "permutable" >, SYNSEM.LKEYS.KEYREL.PRED "_permutable_a_rel" ]. permutación_n1 := n_trans_le & [ STEM < "permutación" >, SYNSEM.LKEYS.KEYREL.PRED "_permutación_n_rel" ]. permutar_v := v_trans_np_mrkd_np*_le & [ STEM < "permutar" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_permutar_v_rel" ] ]. permutativo_a1 := a_rel_nonprd_intr_le & [ STEM < "permutativo" >, SYNSEM.LKEYS.KEYREL.PRED "_permutativo_a_rel" ]. pernera_n1 := n_intr_count_le & [ STEM < "pernera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pernera_n_rel" ] ]. pernicioso_a1 := a_qual_intr_ser_le & [ STEM < "pernicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_pernicioso_a_rel" ]. pernito_n1 := n_intr_count_le & [ STEM < "pernito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pernito_n_rel" ] ]. perno_n1 := n_intr_count_le & [ STEM < "perno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perno_n_rel" ] ]. pernoctación_n1 := n_event-result_intr_le & [ STEM < "pernoctación" >, SYNSEM.LKEYS.KEYREL.PRED "_pernoctación_n_rel" ]. pernoctar_v := v_unacc_lcomp_loc*_le & [ STEM < "pernoctar" >, SYNSEM.LKEYS.KEYREL.PRED "_pernoctar_v_rel" ]. pernítricamente_x1 := av_i_spr_le & [ STEM < "pernítricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pernítricamente_x_rel" ]. pernítrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pernítrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pernítrico_a_rel" ]. pero_cc := cc_advers_pero_le & [ STEM < "pero" > ]. perol_n1 := n_intr_count_le & [ STEM < "perol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perol_n_rel" ] ]. peroneal_a1 := a_rel_nonprd_intr_le & [ STEM < "peroneal" >, SYNSEM.LKEYS.KEYREL.PRED "_peroneal_a_rel" ]. peroneoastragalino_a1 := a_rel_nonprd_intr_le & [ STEM < "peroneoastragalino" >, SYNSEM.LKEYS.KEYREL.PRED "_peroneoastragalino_a_rel" ]. peronista_n1 := n_intr_count_le & [ STEM < "peronista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peronista_n_rel" ] ]. peroné_n1 := n_ppcomp_count_le & [ STEM < "peroné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_peroné_n_rel" ] ]. peroxidasa_n1 := n_intr_count_le & [ STEM < "peroxidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peroxidasa_n_rel" ] ]. peroxidicarbonato_n1 := n_intr_count_le & [ STEM < "peroxidicarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peroxidicarbonato_n_rel" ] ]. peroxidoacetilnitrato_n1 := n_intr_count_le & [ STEM < "peroxidoacetilnitrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peroxidoacetilnitrato_n_rel" ] ]. peroxisoma_n1 := n_intr_count_le & [ STEM < "peroxisoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peroxisoma_n_rel" ] ]. perpendicular_a1 := a_rel_nonprd_trans_le & [ STEM < "perpendicular" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_perpendicular_a_rel" ] ]. perpendicularidad_n1 := n_ppcomp_uncount_le & [ STEM < "perpendicularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perpendicularidad_n_rel" ] ]. perpendicularidad_n2 := n_ppcomp_count_le & [ STEM < "perpendicularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perpendicularidad_n_rel" ] ]. perpendicularmente_x1 := av_i_spr_le & [ STEM < "perpendicularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_perpendicularmente_x_rel" ]. perpetración_n1 := n_trans_le & [ STEM < "perpetración" >, SYNSEM.LKEYS.KEYREL.PRED "_perpetración_n_rel" ]. perpetrar_v := v_trans_np_le & [ STEM < "perpetrar" >, SYNSEM.LKEYS.KEYREL.PRED "_perpetrar_v_rel" ]. perpetuación_n1 := n_trans_le & [ STEM < "perpetuación" >, SYNSEM.LKEYS.KEYREL.PRED "_perpetuación_n_rel" ]. perpetuamente_x1 := av_i_spr_le & [ STEM < "perpetuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perpetuamente_x_rel" ]. perpetuar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "perpetuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perpetuar_v_rel" ] ]. perpetuar_v2 := v_trans_np_le & [ STEM < "perpetuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_perpetuar_v_rel" ] ]. perpetuidad_n1 := n_intr_mass-or-count_le & [ STEM < "perpetuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perpetuidad_n_rel" ] ]. perpetuo_a1 := a_rel_prd_le & [ STEM < "perpetuo" >, SYNSEM.LKEYS.KEYREL.PRED "_perpetuo_a_rel" ]. perplejidad_n1 := n_intr_mass-or-count_le & [ STEM < "perplejidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perplejidad_n_rel" ] ]. perplejo_a1 := a_qual_intr_estar_le & [ STEM < "perplejo" >, SYNSEM.LKEYS.KEYREL.PRED "_perplejo_a_rel" ]. perquirir_v := v_trans_np_le & [ STEM < "perquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_perquirir_v_rel" ]. perquisición_n1 := n_trans_le & [ STEM < "perquisición" >, SYNSEM.LKEYS.KEYREL.PRED "_perquisición_n_rel" ]. perrera_n1 := n_intr_count_le & [ STEM < "perrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_perrera_n_rel" ] ]. perrillo_n1 := n_intr_count_le & [ STEM < "perrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_perrillo_n_rel" ] ]. perrito_n1 := n_intr_count_le & [ STEM < "perrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_perrito_n_rel" ] ]. perro_n1 := n_intr_count_le & [ STEM < "perro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_perro_n_rel" ] ]. persa_a1 := a_rel_prd_le & [ STEM < "persa" >, SYNSEM.LKEYS.KEYREL.PRED "_persa_a_rel" ]. persa_n1 := n_intr_count_le & [ STEM < "persa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_persa_n_rel" ] ]. persecución_n1 := n_trans_le & [ STEM < "persecución" >, SYNSEM.LKEYS.KEYREL.PRED "_persecución_n_rel" ]. persecutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "persecutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_persecutorio_a_rel" ]. perseguibilidad_n1 := n_intr_uncount_le & [ STEM < "perseguibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perseguibilidad_n_rel" ] ]. perseguible_a1 := a_rel_prd_le & [ STEM < "perseguible" >, SYNSEM.LKEYS.KEYREL.PRED "_perseguible_a_rel" ]. perseguidor_n1 := n_subj-nom_le & [ STEM < "perseguidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perseguidor_n_rel" ] ]. perseguir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "perseguir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perseguir_v_rel" ] ]. perseguir_v2 := v_trans_np_le & [ STEM < "perseguir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_perseguir_v_rel" ] ]. persevante_n1 := n_intr_count_le & [ STEM < "persevante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_persevante_n_rel" ] ]. perseverancia_n1 := n_result_intr_le & [ STEM < "perseverancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perseverancia_n_rel" ] ]. perseverante_a1 := a_qual_intr_ser_le & [ STEM < "perseverante" >, SYNSEM.LKEYS.KEYREL.PRED "_perseverante_a_rel" ]. perseverantemente_x1 := av_i_spr_le & [ STEM < "perseverantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_perseverantemente_x_rel" ]. perseverar_v := v_intr_mrkd_np_le & [ STEM < "perseverar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_perseverar_v_rel" ] ]. persiana_n1 := n_intr_count_le & [ STEM < "persiana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_persiana_n_rel" ] ]. persistencia_n1 := n_result_intr_le & [ STEM < "persistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_persistencia_n_rel" ] ]. persistente_a1 := a_qual_intr_ser_le & [ STEM < "persistente" >, SYNSEM.LKEYS.KEYREL.PRED "_persistente_a_rel" ]. persistentemente_x1 := av_i_spr_le & [ STEM < "persistentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_persistentemente_x_rel" ]. persistir_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "persistir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_persistir_v_rel" ] ]. persistir_v2 := v_unacc_lcomp_loc*_le & [ STEM < "persistir" >, SYNSEM.LKEYS.KEYREL.PRED "_persistir_v_rel" ]. persona_n1 := n_intr_count_le & [ STEM < "persona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_persona_n_rel" ] ]. personación_n1 := n_event-result_intr_le & [ STEM < "personación" >, SYNSEM.LKEYS.KEYREL.PRED "_personación_n_rel" ]. personaje_n1 := n_intr_count_le & [ STEM < "personaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_personaje_n_rel" ] ]. personal_a1 := a_qual_intr_ser_le & [ STEM < "personal" >, SYNSEM.LKEYS.KEYREL.PRED "_personal_a_rel" ]. personal_n1 := n_intr_coll_le & [ STEM < "personal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_personal_n_rel" ] ]. personalidad_n1 := n_intr_mass_le & [ STEM < "personalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_personalidad_n_rel" ] ]. personalismo_n1 := n_intr_uncount_le & [ STEM < "personalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_personalismo_n_rel" ] ]. personalista_a1 := a_qual_intr_ser_le & [ STEM < "personalista" >, SYNSEM.LKEYS.KEYREL.PRED "_personalista_a_rel" ]. personalización_n1 := n_trans_le & [ STEM < "personalización" >, SYNSEM.LKEYS.KEYREL.PRED "_personalización_n_rel" ]. personalizar_v := v_trans_np*_le & [ STEM < "personalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_personalizar_v_rel" ]. personalmente_x1 := av_i_spr_le & [ STEM < "personalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_personalmente_x_rel" ]. personar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "personar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_personar_v_rel" ] ] ]. personar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "personar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_personar_v_rel" ] ] ]. personar_v3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "personar" >, SYNSEM.LKEYS.KEYREL.PRED "_personar_v_rel" ]. personificar_v := v_trans_np_le & [ STEM < "personificar" >, SYNSEM.LKEYS.KEYREL.PRED "_personificar_v_rel" ]. perspectivamente_x1 := av_i_spr_le & [ STEM < "perspectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perspectivamente_x_rel" ]. perspectividad_n1 := n_intr_uncount_le & [ STEM < "perspectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perspectividad_n_rel" ] ]. perspectivismo_n1 := n_intr_uncount_le & [ STEM < "perspectivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perspectivismo_n_rel" ] ]. perspex_n1 := n_intr_count_le & [ STEM < "perspex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perspex_n_rel" ] ]. perspicacia_n1 := n_intr_mass_le & [ STEM < "perspicacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perspicacia_n_rel" ] ]. perspicaz_a1 := a_qual_intr_ser_le & [ STEM < "perspicaz" >, SYNSEM.LKEYS.KEYREL.PRED "_perspicaz_a_rel" ]. perspicazmente_x1 := av_i_spr_le & [ STEM < "perspicazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_perspicazmente_x_rel" ]. persuadir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuadir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuadir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuadir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuadir_v5 := v_trans_np_mrkd_np*_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuadir_v6 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "persuadir" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_persuadir_v_rel" ] ] ]. persuasivo_a1 := a_qual_intr_ser_le & [ STEM < "persuasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_persuasivo_a_rel" ]. persuasión_n1 := n_trans_le & [ STEM < "persuasión" >, SYNSEM.LKEYS.KEYREL.PRED "_persuasión_n_rel" ]. persulfato_n1 := n_intr_count_le & [ STEM < "persulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_persulfato_n_rel" ] ]. pertenecer_v1 := v_intr_io_le & [ STEM < "pertenecer" >, SYNSEM.LKEYS.KEYREL.PRED "_pertenecer_v_rel" ]. pertenecer_v2 := v_intr_mrkd_np_le & [ STEM < "pertenecer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_pertenecer_v_rel" ] ] ]. perteneciente_a1 := a_rel_nonprd_trans_le & [ STEM < "perteneciente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_perteneciente_a_rel" ] ]. pertenencia_n1 := n_intr_uncount_le & [ STEM < "pertenencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pertenencia_n_rel" ] ]. pertiguista_n1 := n_intr_count_le & [ STEM < "pertiguista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pertiguista_n_rel" ] ]. pertinaz_a1 := a_qual_intr_ser_le & [ STEM < "pertinaz" >, SYNSEM.LKEYS.KEYREL.PRED "_pertinaz_a_rel" ]. pertinazmente_x1 := av_i_spr_le & [ STEM < "pertinazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pertinazmente_x_rel" ]. pertinencia_n1 := n_ppcomp_uncount_le & [ STEM < "pertinencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pertinencia_n_rel" ] ]. pertinente_a1 := a_qual_trans*_ser_le & [ STEM < "pertinente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_pertinente_a_rel" ] ]. pertinentemente_x1 := av_i_spr_le & [ STEM < "pertinentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pertinentemente_x_rel" ]. pertita_n1 := n_intr_count_le & [ STEM < "pertita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pertita_n_rel" ] ]. perturbación_n1 := n_trans_le & [ STEM < "perturbación" >, SYNSEM.LKEYS.KEYREL.PRED "_perturbación_n_rel" ]. perturbador_a1 := a_qual_intr_ser_le & [ STEM < "perturbador" >, SYNSEM.LKEYS.KEYREL.PRED "_perturbador_a_rel" ]. perturbador_n1 := n_subj-nom_le & [ STEM < "perturbador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_perturbador_n_rel" ] ]. perturbadoramente_x1 := av_i_spr_le & [ STEM < "perturbadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_perturbadoramente_x_rel" ]. perturbar_v1 := v_intr_io*_le & [ STEM < "perturbar" >, SYNSEM.LKEYS.KEYREL.PRED "_perturbar_v_rel" ]. perturbar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "perturbar" >, SYNSEM.LKEYS.KEYREL.PRED "_perturbar_v_rel" ]. peruano_a1 := a_rel_prd_le & [ STEM < "peruano" >, SYNSEM.LKEYS.KEYREL.PRED "_peruano_a_rel" ]. peruano_n1 := n_intr_count_le & [ STEM < "peruano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peruano_n_rel" ] ]. perveancia_n1 := n_intr_uncount_le & [ STEM < "perveancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perveancia_n_rel" ] ]. perversamente_x1 := av_i_spr_le & [ STEM < "perversamente" >, SYNSEM.LKEYS.KEYREL.PRED "_perversamente_x_rel" ]. perversidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "perversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perversidad_n_rel" ] ]. perversión_n1 := n_trans_le & [ STEM < "perversión" >, SYNSEM.LKEYS.KEYREL.PRED "_perversión_n_rel" ]. perverso_a1 := a_qual_intr_ser_le & [ STEM < "perverso" >, SYNSEM.LKEYS.KEYREL.PRED "_perverso_a_rel" ]. pervertir_v := v_trans_np*_le & [ STEM < "pervertir" >, SYNSEM.LKEYS.KEYREL.PRED "_pervertir_v_rel" ]. pervibrador_n1 := n_intr_count_le & [ STEM < "pervibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pervibrador_n_rel" ] ]. pervivencia_n1 := n_intr_uncount_le & [ STEM < "pervivencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pervivencia_n_rel" ] ]. pervivir_v := v_unacc_le & [ STEM < "pervivir" >, SYNSEM.LKEYS.KEYREL.PRED "_pervivir_v_rel" ]. peryodato_n1 := n_intr_count_le & [ STEM < "peryodato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peryodato_n_rel" ] ]. perácido_n1 := n_intr_count_le & [ STEM < "perácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_perácido_n_rel" ] ]. período_n1 := n_intr_count_le & [ STEM < "período" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_período_n_rel" ] ]. períptero_a1 := a_rel_nonprd_intr_le & [ STEM < "períptero" >, SYNSEM.LKEYS.KEYREL.PRED "_períptero_a_rel" ]. peróxido_n1 := n_intr_mass_le & [ STEM < "peróxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_peróxido_n_rel" ] ]. pesa_n1 := n_intr_count_le & [ STEM < "pesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pesa_n_rel" ] ]. pesada_n1 := n_trans_le & [ STEM < "pesada" >, SYNSEM.LKEYS.KEYREL.PRED "_pesada_n_rel" ]. pesadamente_x1 := av_i_spr_le & [ STEM < "pesadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pesadamente_x_rel" ]. pesadez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pesadez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesadez_n_rel" ] ]. pesado_n1 := n_intr_count_le & [ STEM < "pesado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesado_n_rel" ] ]. pesador_a1 := a_rel_nonprd_intr_le & [ STEM < "pesador" >, SYNSEM.LKEYS.KEYREL.PRED "_pesador_a_rel" ]. pesadumbre_n1 := n_intr_mass_le & [ STEM < "pesadumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesadumbre_n_rel" ] ]. pesaje_n1 := n_trans_le & [ STEM < "pesaje" >, SYNSEM.LKEYS.KEYREL.PRED "_pesaje_n_rel" ]. pesante_a1 := a_rel_nonprd_intr_le & [ STEM < "pesante" >, SYNSEM.LKEYS.KEYREL.PRED "_pesante_a_rel" ]. pesar_n1 := n_intr_mass-or-count_le & [ STEM < "pesar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesar_n_rel" ] ]. pesar_v1 := v_intr_io*_le & [ STEM < "pesar" >, SYNSEM.LKEYS.KEYREL.PRED "_pesar_v_rel" ]. pesar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "pesar" >, SYNSEM.LKEYS.KEYREL.PRED "_pesar_v_rel" ]. pesar_v3 := v_trans_np_le & [ STEM < "pesar" >, SYNSEM.LKEYS.KEYREL.PRED "_pesar_v_rel" ]. pesar_v4 := v_unacc_lcomp_loc_le & [ STEM < "pesar" >, SYNSEM.LKEYS.KEYREL.PRED "_pesar_v_rel" ]. pesaroso_a1 := a_qual_intr_ser_le & [ STEM < "pesaroso" >, SYNSEM.LKEYS.KEYREL.PRED "_pesaroso_a_rel" ]. pesca_n1 := n_trans_le & [ STEM < "pesca" >, SYNSEM.LKEYS.KEYREL.PRED "_pesca_n_rel" ]. pescable_a1 := a_rel_prd_le & [ STEM < "pescable" >, SYNSEM.LKEYS.KEYREL.PRED "_pescable_a_rel" ]. pescadero_n1 := n_intr_count_le & [ STEM < "pescadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pescadero_n_rel" ] ]. pescadería_n1 := n_intr_count_le & [ STEM < "pescadería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pescadería_n_rel" ] ]. pescadilla_n1 := n_intr_count_le & [ STEM < "pescadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pescadilla_n_rel" ] ]. pescado_n1 := n_intr_count_le & [ STEM < "pescado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pescado_n_rel" ] ]. pescador_n1 := n_subj-nom_le & [ STEM < "pescador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pescador_n_rel" ] ]. pescante_n1 := n_intr_count_le & [ STEM < "pescante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pescante_n_rel" ] ]. pescar_v1 := v_trans_cp_prop_fin_le & [ STEM < "pescar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pescar_v_rel" ] ]. pescar_v2 := v_trans_np*_le & [ STEM < "pescar" >, SYNSEM.LKEYS.KEYREL.PRED "_pescar_v_rel" ]. pescuezo_n1 := n_intr_count_le & [ STEM < "pescuezo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pescuezo_n_rel" ] ]. pese_a_p_vmod := p_vmod_le & [ STEM < "pese_a" >, SYNSEM.LKEYS.KEYREL.PRED _pese_a_p_rel ]. pesebre_n1 := n_intr_count_le & [ STEM < "pesebre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pesebre_n_rel" ] ]. peseta_n1 := n_intr_count_le & [ STEM < "peseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peseta_n_rel" ] ]. pesetero_a1 := a_rel_nonprd_intr_le & [ STEM < "pesetero" >, SYNSEM.LKEYS.KEYREL.PRED "_pesetero_a_rel" ]. pesimismo_n1 := n_ppcomp_mass_le & [ STEM < "pesimismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesimismo_n_rel" ] ]. pesimista_a1 := a_qual_intr_ser_le & [ STEM < "pesimista" >, SYNSEM.LKEYS.KEYREL.PRED "_pesimista_a_rel" ]. pesimista_n1 := n_intr_count_le & [ STEM < "pesimista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pesimista_n_rel" ] ]. pesista_n1 := n_intr_count_le & [ STEM < "pesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pesista_n_rel" ] ]. peso_n1 := n_intr_mass_le & [ STEM < "peso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_peso_n_rel" ] ]. pespuntar_v := v_trans_np_le & [ STEM < "pespuntar" >, SYNSEM.LKEYS.KEYREL.PRED "_pespuntar_v_rel" ]. pespunte_n1 := n_intr_count_le & [ STEM < "pespunte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pespunte_n_rel" ] ]. pespuntear_v := v_trans_np_le & [ STEM < "pespuntear" >, SYNSEM.LKEYS.KEYREL.PRED "_pespuntear_v_rel" ]. pesquera_n1 := n_intr_count_le & [ STEM < "pesquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesquera_n_rel" ] ]. pesquero_a1 := a_rel_nonprd_intr_le & [ STEM < "pesquero" >, SYNSEM.LKEYS.KEYREL.PRED "_pesquero_a_rel" ]. pesquero_n1 := n_intr_count_le & [ STEM < "pesquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_pesquero_n_rel" ] ]. pesquería_n1 := n_intr_count_le & [ STEM < "pesquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_pesquería_n_rel" ] ]. pestaña_n1 := n_ppcomp_count_le & [ STEM < "pestaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pestaña_n_rel" ] ]. pestañear_v := v_intr_le & [ STEM < "pestañear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_bpart_hum, PRED "_pestañear_v_rel" ] ]. pestañeo_n1 := n_event-result_intr_le & [ STEM < "pestañeo" >, SYNSEM.LKEYS.KEYREL.PRED "_pestañeo_n_rel" ]. pesticida_n1 := n_intr_mass_le & [ STEM < "pesticida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pesticida_n_rel" ] ]. pestilencia_n1 := n_intr_uncount_pl_le & [ STEM < "pestilencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pestilencia_n_rel" ] ]. pestilente_a1 := a_qual_intr_ser_le & [ STEM < "pestilente" >, SYNSEM.LKEYS.KEYREL.PRED "_pestilente_a_rel" ]. pestillo_n1 := n_intr_count_le & [ STEM < "pestillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pestillo_n_rel" ] ]. petaca_n1 := n_intr_count_le & [ STEM < "petaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petaca_n_rel" ] ]. petalismo_n1 := n_intr_uncount_le & [ STEM < "petalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petalismo_n_rel" ] ]. petanquista_n1 := n_intr_count_le & [ STEM < "petanquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_petanquista_n_rel" ] ]. petardeo_n1 := n_trans_le & [ STEM < "petardeo" >, SYNSEM.LKEYS.KEYREL.PRED "_petardeo_n_rel" ]. petardo_n1 := n_intr_count_le & [ STEM < "petardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petardo_n_rel" ] ]. petate_n1 := n_intr_count_le & [ STEM < "petate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petate_n_rel" ] ]. petichismo_n1 := n_intr_uncount_le & [ STEM < "petichismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petichismo_n_rel" ] ]. peticionar_v := v_trans_np_le & [ STEM < "peticionar" >, SYNSEM.LKEYS.KEYREL.PRED "_peticionar_v_rel" ]. peticionario_n1 := n_intr_count_le & [ STEM < "peticionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peticionario_n_rel" ] ]. petición_n1 := n_trans_le & [ STEM < "petición" >, SYNSEM.LKEYS.KEYREL.PRED "_petición_n_rel" ]. petimetre_n1 := n_intr_count_le & [ STEM < "petimetre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_petimetre_n_rel" ] ]. petirrojo_n1 := n_intr_count_le & [ STEM < "petirrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_petirrojo_n_rel" ] ]. petitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "petitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_petitorio_a_rel" ]. peto_n1 := n_intr_count_le & [ STEM < "peto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peto_n_rel" ] ]. petral_n1 := n_intr_count_le & [ STEM < "petral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petral_n_rel" ] ]. petrificación_n1 := n_trans_le & [ STEM < "petrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_petrificación_n_rel" ]. petrificar_v := v_trans_np_le & [ STEM < "petrificar" >, SYNSEM.LKEYS.KEYREL.PRED "_petrificar_v_rel" ]. petrobono_n1 := n_intr_count_le & [ STEM < "petrobono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_petrobono_n_rel" ] ]. petrocálcico_a1 := a_rel_nonprd_intr_le & [ STEM < "petrocálcico" >, SYNSEM.LKEYS.KEYREL.PRED "_petrocálcico_a_rel" ]. petrodólar_n1 := n_intr_count_le & [ STEM < "petrodólar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petrodólar_n_rel" ] ]. petroescamoso_a1 := a_rel_nonprd_intr_le & [ STEM < "petroescamoso" >, SYNSEM.LKEYS.KEYREL.PRED "_petroescamoso_a_rel" ]. petrofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "petrofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_petrofaríngeo_a_rel" ]. petroférrico_a1 := a_rel_nonprd_intr_le & [ STEM < "petroférrico" >, SYNSEM.LKEYS.KEYREL.PRED "_petroférrico_a_rel" ]. petrografía_n1 := n_intr_count_le & [ STEM < "petrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_petrografía_n_rel" ] ]. petrogípsico_a1 := a_rel_nonprd_intr_le & [ STEM < "petrogípsico" >, SYNSEM.LKEYS.KEYREL.PRED "_petrogípsico_a_rel" ]. petrolato_n1 := n_intr_count_le & [ STEM < "petrolato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_petrolato_n_rel" ] ]. petrolero_a1 := a_rel_nonprd_intr_le & [ STEM < "petrolero" >, SYNSEM.LKEYS.KEYREL.PRED "_petrolero_a_rel" ]. petrolero_n1 := n_intr_count_le & [ STEM < "petrolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_petrolero_n_rel" ] ]. petrología_n1 := n_intr_uncount_le & [ STEM < "petrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petrología_n_rel" ] ]. petrolífero_a1 := a_rel_nonprd_intr_le & [ STEM < "petrolífero" >, SYNSEM.LKEYS.KEYREL.PRED "_petrolífero_a_rel" ]. petrolíticamente_x1 := av_i_spr_le & [ STEM < "petrolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_petrolíticamente_x_rel" ]. petrolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "petrolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_petrolítico_a_rel" ]. petrológicamente_x1 := av_i_spr_le & [ STEM < "petrológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_petrológicamente_x_rel" ]. petrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "petrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_petrológico_a_rel" ]. petromastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "petromastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_petromastoideo_a_rel" ]. petrooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "petrooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_petrooccipital_a_rel" ]. petroquímicamente_x1 := av_i_spr_le & [ STEM < "petroquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_petroquímicamente_x_rel" ]. petroquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "petroquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_petroquímico_a_rel" ]. petroso_a1 := a_rel_nonprd_intr_le & [ STEM < "petroso" >, SYNSEM.LKEYS.KEYREL.PRED "_petroso_a_rel" ]. petrosíleamente_x1 := av_i_spr_le & [ STEM < "petrosíleamente" >, SYNSEM.LKEYS.KEYREL.PRED "_petrosíleamente_x_rel" ]. petrotimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "petrotimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_petrotimpánico_a_rel" ]. petróleo_n1 := n_intr_mass_le & [ STEM < "petróleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_petróleo_n_rel" ] ]. petrólogo_n1 := n_intr_count_le & [ STEM < "petrólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_petrólogo_n_rel" ] ]. petulancia_n1 := n_intr_uncount_le & [ STEM < "petulancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petulancia_n_rel" ] ]. peyorativo_a1 := a_qual_intr_ser_le & [ STEM < "peyorativo" >, SYNSEM.LKEYS.KEYREL.PRED "_peyorativo_a_rel" ]. pez_n1 := n_intr_mass-or-count_le & [ STEM < "pez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_mat, PRED "_pez_n_rel" ] ]. pezonera_n1 := n_intr_count_le & [ STEM < "pezonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pezonera_n_rel" ] ]. pezuña_n1 := n_ppcomp_count_le & [ STEM < "pezuña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pezuña_n_rel" ] ]. pezón_n1 := n_ppcomp_count_le & [ STEM < "pezón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pezón_n_rel" ] ]. peña_n1 := n_intr_count_le & [ STEM < "peña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_peña_n_rel" ] ]. peñascal_n1 := n_intr_count_le & [ STEM < "peñascal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_peñascal_n_rel" ] ]. peñasco_n1 := n_intr_count_le & [ STEM < "peñasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_peñasco_n_rel" ] ]. peñista_n1 := n_intr_count_le & [ STEM < "peñista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_peñista_n_rel" ] ]. peñón_n1 := n_intr_count_le & [ STEM < "peñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_peñón_n_rel" ] ]. peón_n1 := n_intr_count_le & [ STEM < "peón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_peón_n_rel" ] ]. peúco_n1 := n_intr_count_le & [ STEM < "peúco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_peúco_n_rel" ] ]. pfennig_n1 := n_intr_count_le & [ STEM < "pfennig" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pfennig_n_rel" ] ]. photo-finish_n1 := n_intr_count_le & [ STEM < "photo-finish" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_photo-finish_n_rel" ] ]. piadosamente_x1 := av_i_spr_le & [ STEM < "piadosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piadosamente_x_rel" ]. piadoso_a1 := a_qual_intr_ser_le & [ STEM < "piadoso" >, SYNSEM.LKEYS.KEYREL.PRED "_piadoso_a_rel" ]. piafar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "piafar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_piafar_v_rel" ] ]. piafar_v2 := v_ditrans*_le & [ STEM < "piafar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_piafar_v_rel" ] ]. piafar_v3 := v_intr_le & [ STEM < "piafar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_piafar_v_rel" ] ]. piamontita_n1 := n_intr_count_le & [ STEM < "piamontita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piamontita_n_rel" ] ]. piamontés_a1 := a_rel_prd_le & [ STEM < "piamontés" >, SYNSEM.LKEYS.KEYREL.PRED "_piamontés_a_rel" ]. piamontés_n1 := n_intr_count_le & [ STEM < "piamontés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_piamontés_n_rel" ] ]. pianista_n1 := n_intr_count_le & [ STEM < "pianista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pianista_n_rel" ] ]. piano_n1 := n_intr_count_le & [ STEM < "piano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piano_n_rel" ] ]. piano_x1 := av_i_le & [ STEM < "piano" >, SYNSEM.LKEYS.KEYREL.PRED "_piano_x_rel" ]. piar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "piar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_piar_v_rel" ] ]. piar_v2 := v_ditrans*_le & [ STEM < "piar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_piar_v_rel" ] ]. piar_v3 := v_intr_le & [ STEM < "piar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_piar_v_rel" ] ]. picadero_n1 := n_intr_count_le & [ STEM < "picadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_picadero_n_rel" ] ]. picadillo_n1 := n_intr_mass_le & [ STEM < "picadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picadillo_n_rel" ] ]. picadora_n1 := n_intr_count_le & [ STEM < "picadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picadora_n_rel" ] ]. picadura_n1 := n_trans_le & [ STEM < "picadura" >, SYNSEM.LKEYS.KEYREL.PRED "_picadura_n_rel" ]. picadura_n2 := n_intr_count_le & [ STEM < "picadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picadura_n_rel" ] ]. picamaderos_n1 := n_intr_count_le & [ STEM < "picamaderos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_picamaderos_n_rel" ] ]. picante_a1 := a_qual_intr_scopal_le & [ STEM < "picante" >, SYNSEM.LKEYS.KEYREL.PRED "_picante_a_rel" ]. picantón_n1 := n_intr_count_le & [ STEM < "picantón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picantón_n_rel" ] ]. picapedrero_n1 := n_intr_count_le & [ STEM < "picapedrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_picapedrero_n_rel" ] ]. picapleitos_n1 := n_intr_count_le & [ STEM < "picapleitos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_picapleitos_n_rel" ] ]. picaporte_n1 := n_intr_count_le & [ STEM < "picaporte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picaporte_n_rel" ] ]. picar_v1 := v_intr_io*_le & [ STEM < "picar" >, SYNSEM.LKEYS.KEYREL.PRED "_picar_v_rel" ]. picar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "picar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_picar_v_rel" ] ] ]. picar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "picar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_picar_v_rel" ] ] ]. picar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "picar" >, SYNSEM.LKEYS.KEYREL.PRED "_picar_v_rel" ]. picar_v5 := v_trans_np_le & [ STEM < "picar" >, SYNSEM.LKEYS.KEYREL.PRED "_picar_v_rel" ]. picardía_n1 := n_intr_count_le & [ STEM < "picardía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picardía_n_rel" ] ]. picaresco_a1 := a_qual_intr_ser_le & [ STEM < "picaresco" >, SYNSEM.LKEYS.KEYREL.PRED "_picaresco_a_rel" ]. picatoste_n1 := n_intr_count_le & [ STEM < "picatoste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picatoste_n_rel" ] ]. pichel_n1 := n_intr_count_le & [ STEM < "pichel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pichel_n_rel" ] ]. pichichi_n1 := n_intr_count_le & [ STEM < "pichichi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pichichi_n_rel" ] ]. pichón_n1 := n_intr_count_le & [ STEM < "pichón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pichón_n_rel" ] ]. picnómetro_n1 := n_intr_count_le & [ STEM < "picnómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_picnómetro_n_rel" ] ]. picnótico_a1 := a_rel_nonprd_intr_le & [ STEM < "picnótico" >, SYNSEM.LKEYS.KEYREL.PRED "_picnótico_a_rel" ]. pico_n1 := n_intr_count_le & [ STEM < "pico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pico_n_rel" ] ]. picogordo_n1 := n_intr_count_le & [ STEM < "picogordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_picogordo_n_rel" ] ]. picolina_n1 := n_intr_count_le & [ STEM < "picolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_picolina_n_rel" ] ]. picor_n1 := n_intr_mass-or-count_le & [ STEM < "picor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picor_n_rel" ] ]. picosegungo_n1 := n_pseudo-part_temp_le & [ STEM < "picosegungo" >, SYNSEM.LKEYS.KEYREL.PRED "_picosegungo_n_rel" ]. picosegungo_n2 := n_intr_temp_le & [ STEM < "picosegundo" > ]. picotazo_n1 := n_trans_le & [ STEM < "picotazo" >, SYNSEM.LKEYS.KEYREL.PRED "_picotazo_n_rel" ]. picotita_n1 := n_intr_count_le & [ STEM < "picotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_picotita_n_rel" ] ]. picramato_n1 := n_intr_count_le & [ STEM < "picramato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_picramato_n_rel" ] ]. picrato_n1 := n_intr_count_le & [ STEM < "picrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_picrato_n_rel" ] ]. picrolónico_a1 := a_rel_nonprd_intr_le & [ STEM < "picrolónico" >, SYNSEM.LKEYS.KEYREL.PRED "_picrolónico_a_rel" ]. picrotoxina_n1 := n_intr_count_le & [ STEM < "picrotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_picrotoxina_n_rel" ] ]. picrámico_a1 := a_rel_nonprd_intr_le & [ STEM < "picrámico" >, SYNSEM.LKEYS.KEYREL.PRED "_picrámico_a_rel" ]. pictografía_n1 := n_intr_uncount_pl_le & [ STEM < "pictografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pictografía_n_rel" ] ]. pictograma_n1 := n_intr_count_le & [ STEM < "pictograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pictograma_n_rel" ] ]. pictográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "pictográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_pictográfico_a_rel" ]. pictórico_a1 := a_rel_nonprd_intr_le & [ STEM < "pictórico" >, SYNSEM.LKEYS.KEYREL.PRED "_pictórico_a_rel" ]. picón_n1 := n_intr_count_le & [ STEM < "picón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_picón_n_rel" ] ]. pie_n1 := n_ppcomp_count_le & [ STEM < "pie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pie_n_rel" ] ]. piedad_n1 := n_intr_mass-or-count_le & [ STEM < "piedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piedad_n_rel" ] ]. piedemonte_n1 := n_intr_count_le & [ STEM < "piedemonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_piedemonte_n_rel" ] ]. piedra_n1 := n_intr_mass-or-count_le & [ STEM < "piedra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_piedra_n_rel" ] ]. piel_n1 := n_ppcomp_uncount_le & [ STEM < "piel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_piel_n_rel" ] ]. piemontés_n1 := n_intr_count_le & [ STEM < "piemontés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_piemontés_n_rel" ] ]. pienso_n1 := n_intr_mass_le & [ STEM < "pienso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pienso_n_rel" ] ]. pierna_n1 := n_ppcomp_count_le & [ STEM < "pierna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pierna_n_rel" ] ]. pieza_n1 := n_intr_count_le & [ STEM < "pieza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pieza_n_rel" ] ]. piezoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "piezoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_piezoeléctrico_a_rel" ]. piezométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "piezométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_piezométrico_a_rel" ]. piezómetro_n1 := n_intr_count_le & [ STEM < "piezómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piezómetro_n_rel" ] ]. pigmentación_n1 := n_trans_le & [ STEM < "pigmentación" >, SYNSEM.LKEYS.KEYREL.PRED "_pigmentación_n_rel" ]. pigmentar_v := v_trans_np_caus_le & [ STEM < "pigmentar" >, SYNSEM.LKEYS.KEYREL.PRED "_pigmentar_v_rel" ]. pigmentario_a1 := a_rel_nonprd_intr_le & [ STEM < "pigmentario" >, SYNSEM.LKEYS.KEYREL.PRED "_pigmentario_a_rel" ]. pigmento_n1 := n_intr_mass_le & [ STEM < "pigmento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pigmento_n_rel" ] ]. pigmentoso_a1 := a_qual_intr_ser_le & [ STEM < "pigmentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pigmentoso_a_rel" ]. pigmeo_a1 := a_rel_nonprd_intr_le & [ STEM < "pigmeo" >, SYNSEM.LKEYS.KEYREL.PRED "_pigmeo_a_rel" ]. pigmeo_n1 := n_intr_count_le & [ STEM < "pigmeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pigmeo_n_rel" ] ]. pignoración_n1 := n_trans_le & [ STEM < "pignoración" >, SYNSEM.LKEYS.KEYREL.PRED "_pignoración_n_rel" ]. pignorar_v := v_trans_np_le & [ STEM < "pignorar" >, SYNSEM.LKEYS.KEYREL.PRED "_pignorar_v_rel" ]. pignoraticio_a1 := a_rel_nonprd_intr_le & [ STEM < "pignoraticio" >, SYNSEM.LKEYS.KEYREL.PRED "_pignoraticio_a_rel" ]. pijama_n1 := n_intr_count_le & [ STEM < "pijama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pijama_n_rel" ] ]. pila_n1 := n_intr_count_le & [ STEM < "pila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pila_n_rel" ] ]. pilar_n1 := n_intr_count_le & [ STEM < "pilar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_pilar_n_rel" ] ]. pilastra_n1 := n_intr_count_le & [ STEM < "pilastra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pilastra_n_rel" ] ]. pilbarita_n1 := n_intr_count_le & [ STEM < "pilbarita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pilbarita_n_rel" ] ]. pillaje_n1 := n_intr_count_le & [ STEM < "pillaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pillaje_n_rel" ] ]. pillar_v := v_trans_np_le & [ STEM < "pillar" >, SYNSEM.LKEYS.KEYREL.PRED "_pillar_v_rel" ]. pillo_n1 := n_intr_count_le & [ STEM < "pillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pillo_n_rel" ] ]. pilocarpina_n1 := n_intr_count_le & [ STEM < "pilocarpina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pilocarpina_n_rel" ] ]. piloso_a1 := a_rel_nonprd_intr_le & [ STEM < "piloso" >, SYNSEM.LKEYS.KEYREL.PRED "_piloso_a_rel" ]. pilotaje_n1 := n_trans_le & [ STEM < "pilotaje" >, SYNSEM.LKEYS.KEYREL.PRED "_pilotaje_n_rel" ]. pilotar_v := v_trans_np_le & [ STEM < "pilotar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_pilotar_v_rel" ] ]. pilote_n1 := n_intr_count_le & [ STEM < "pilote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pilote_n_rel" ] ]. piloto_n1 := n_intr_count_le & [ STEM < "piloto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_piloto_n_rel" ] ]. pilón_n1 := n_intr_count_le & [ STEM < "pilón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pilón_n_rel" ] ]. pilórico_a1 := a_rel_nonprd_intr_le & [ STEM < "pilórico" >, SYNSEM.LKEYS.KEYREL.PRED "_pilórico_a_rel" ]. pimentero_n1 := n_intr_count_le & [ STEM < "pimentero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pimentero_n_rel" ] ]. pimentón_n1 := n_intr_mass_le & [ STEM < "pimentón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pimentón_n_rel" ] ]. pimienta_n1 := n_intr_mass_le & [ STEM < "pimienta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pimienta_n_rel" ] ]. pimiento_n1 := n_intr_mass_le & [ STEM < "pimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pimiento_n_rel" ] ]. pimpinela_n1 := n_intr_count_le & [ STEM < "pimpinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pimpinela_n_rel" ] ]. pimpollo_n1 := n_intr_count_le & [ STEM < "pimpollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pimpollo_n_rel" ] ]. pin_n1 := n_intr_count_le & [ STEM < "pin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pin_n_rel" ] ]. pinar_n1 := n_intr_count_le & [ STEM < "pinar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pinar_n_rel" ] ]. pinaza_n1 := n_intr_count_le & [ STEM < "pinaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pinaza_n_rel" ] ]. pincel_n1 := n_intr_count_le & [ STEM < "pincel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pincel_n_rel" ] ]. pincelada_n1 := n_intr_count_le & [ STEM < "pincelada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pincelada_n_rel" ] ]. pinchadiscos_n1 := n_intr_count_le & [ STEM < "pinchadiscos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pinchadiscos_n_rel" ] ]. pinchar_v := v_trans_np*_le & [ STEM < "pinchar" >, SYNSEM.LKEYS.KEYREL.PRED "_pinchar_v_rel" ]. pinchazo_n1 := n_trans_le & [ STEM < "pinchazo" >, SYNSEM.LKEYS.KEYREL.PRED "_pinchazo_n_rel" ]. pinche_n1 := n_intr_count_le & [ STEM < "pinche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pinche_n_rel" ] ]. pinchito_n1 := n_intr_count_le & [ STEM < "pinchito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pinchito_n_rel" ] ]. pincho_n1 := n_intr_count_le & [ STEM < "pincho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pincho_n_rel" ] ]. pinchón_n1 := n_intr_count_le & [ STEM < "pinchón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pinchón_n_rel" ] ]. pineal_a1 := a_rel_nonprd_intr_le & [ STEM < "pineal" >, SYNSEM.LKEYS.KEYREL.PRED "_pineal_a_rel" ]. pinedo_n1 := n_intr_count_le & [ STEM < "pinedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pinedo_n_rel" ] ]. pineno_n1 := n_intr_count_le & [ STEM < "pineno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pineno_n_rel" ] ]. pingpongista_n1 := n_intr_count_le & [ STEM < "pingpongista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pingpongista_n_rel" ] ]. pingã¼e_a1 := a_qual_intr_ser_le & [ STEM < "pingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_pingüe_a_rel" ]. pingüino_n1 := n_intr_count_le & [ STEM < "pingüino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pingüino_n_rel" ] ]. pinjante_a1 := a_rel_nonprd_intr_le & [ STEM < "pinjante" >, SYNSEM.LKEYS.KEYREL.PRED "_pinjante_a_rel" ]. pinnado_a1 := a_rel_nonprd_intr_le & [ STEM < "pinnado" >, SYNSEM.LKEYS.KEYREL.PRED "_pinnado_a_rel" ]. pino_n1 := n_intr_count_le & [ STEM < "pino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pino_n_rel" ] ]. pinochetista_a1 := a_rel_nonprd_intr_le & [ STEM < "pinochetista" >, SYNSEM.LKEYS.KEYREL.PRED "_pinochetista_a_rel" ]. pinocitótico_a1 := a_rel_nonprd_intr_le & [ STEM < "pinocitótico" >, SYNSEM.LKEYS.KEYREL.PRED "_pinocitótico_a_rel" ]. pinta_n1 := n_pseudo-part_le & [ STEM < "pinta" >, SYNSEM.LKEYS.KEYREL.PRED "_pinta_n_rel" ]. pintada_n1 := n_intr_count_le & [ STEM < "pintada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_pintada_n_rel" ] ]. pintado_n1 := n_trans_le & [ STEM < "pintado" >, SYNSEM.LKEYS.KEYREL.PRED "_pintado_n_rel" ]. pintarroja_n1 := n_intr_count_le & [ STEM < "pintarroja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pintarroja_n_rel" ] ]. pintor_a1 := a_rel_nonprd_intr_le & [ STEM < "pintor" >, SYNSEM.LKEYS.KEYREL.PRED "_pintor_a_rel" ]. pintor_n1 := n_subj-nom_le & [ STEM < "pintor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pintor_n_rel" ] ]. pintoresco_a1 := a_qual_intr_ser_le & [ STEM < "pintoresco" >, SYNSEM.LKEYS.KEYREL.PRED "_pintoresco_a_rel" ]. pintura_n1 := n_intr_mass_le & [ STEM < "pintura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pintura_n_rel" ] ]. pintón_a1 := a_qual_intr_ser_le & [ STEM < "pintón" >, SYNSEM.LKEYS.KEYREL.PRED "_pintón_a_rel" ]. pinza_n1 := n_intr_count_le & [ STEM < "pinza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pinza_n_rel" ] ]. pinzamiento_n1 := n_intr_uncount_le & [ STEM < "pinzamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pinzamiento_n_rel" ] ]. pinzar_v := v_trans_np_le & [ STEM < "pinzar" >, SYNSEM.LKEYS.KEYREL.PRED "_pinzar_v_rel" ]. pinzón_n1 := n_intr_count_le & [ STEM < "pinzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pinzón_n_rel" ] ]. piogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "piogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_piogénico_a_rel" ]. piojo_n1 := n_intr_count_le & [ STEM < "piojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_piojo_n_rel" ] ]. piojoso_a1 := a_qual_intr_ser_le & [ STEM < "piojoso" >, SYNSEM.LKEYS.KEYREL.PRED "_piojoso_a_rel" ]. piolet_n1 := n_intr_count_le & [ STEM < "piolet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piolet_n_rel" ] ]. pionero_a1 := a_rel_prd_le & [ STEM < "pionero" >, SYNSEM.LKEYS.KEYREL.PRED "_pionero_a_rel" ]. pionero_n1 := n_intr_count_le & [ STEM < "pionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pionero_n_rel" ] ]. pipa_n1 := n_intr_count_le & [ STEM < "pipa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pipa_n_rel" ] ]. piperacina_n1 := n_intr_count_le & [ STEM < "piperacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piperacina_n_rel" ] ]. piperidina_n1 := n_intr_count_le & [ STEM < "piperidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piperidina_n_rel" ] ]. piperidinoetanol_n1 := n_intr_count_le & [ STEM < "piperidinoetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piperidinoetanol_n_rel" ] ]. piperileno_n1 := n_intr_count_le & [ STEM < "piperileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piperileno_n_rel" ] ]. piperonal_n1 := n_intr_count_le & [ STEM < "piperonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piperonal_n_rel" ] ]. pipeta_n1 := n_intr_count_le & [ STEM < "pipeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pipeta_n_rel" ] ]. pipetar_v := v_trans_np*_le & [ STEM < "pipetar" >, SYNSEM.LKEYS.KEYREL.PRED "_pipetar_v_rel" ]. piquera_n1 := n_intr_count_le & [ STEM < "piquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piquera_n_rel" ] ]. piqueta_n1 := n_intr_count_le & [ STEM < "piqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piqueta_n_rel" ] ]. piqué_n1 := n_intr_count_le & [ STEM < "piqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piqué_n_rel" ] ]. piracinamida_n1 := n_intr_count_le & [ STEM < "piracinamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piracinamida_n_rel" ] ]. pirado_n1 := n_intr_count_le & [ STEM < "pirado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pirado_n_rel" ] ]. piragua_n1 := n_intr_count_le & [ STEM < "piragua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piragua_n_rel" ] ]. piragã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "piragüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_piragüístico_a_rel" ]. piragüismo_n1 := n_intr_uncount_le & [ STEM < "piragüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piragüismo_n_rel" ] ]. piragüista_n1 := n_intr_count_le & [ STEM < "piragüista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_piragüista_n_rel" ] ]. piralmandita_n1 := n_intr_count_le & [ STEM < "piralmandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piralmandita_n_rel" ] ]. piramidal_a1 := a_rel_nonprd_intr_le & [ STEM < "piramidal" >, SYNSEM.LKEYS.KEYREL.PRED "_piramidal_a_rel" ]. piramidalmente_x1 := av_i_spr_le & [ STEM < "piramidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_piramidalmente_x_rel" ]. pirandina_n1 := n_intr_count_le & [ STEM < "pirandina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirandina_n_rel" ] ]. piranómetro_n1 := n_intr_count_le & [ STEM < "piranómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piranómetro_n_rel" ] ]. pirar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "pirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pirar_v_rel" ] ] ]. pirar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "pirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pirar_v_rel" ] ] ]. pirargirita_n1 := n_intr_count_le & [ STEM < "pirargirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirargirita_n_rel" ] ]. pirata_n1 := n_intr_count_le & [ STEM < "pirata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pirata_n_rel" ] ]. piratear_v := v_ditrans*_le & [ STEM < "piratear" >, SYNSEM.LKEYS.KEYREL.PRED "_piratear_v_rel" ]. pirateo_n1 := n_trans_le & [ STEM < "pirateo" >, SYNSEM.LKEYS.KEYREL.PRED "_pirateo_n_rel" ]. piratería_n1 := n_intr_uncount_pl_le & [ STEM < "piratería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piratería_n_rel" ] ]. pirazolona_n1 := n_intr_count_le & [ STEM < "pirazolona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirazolona_n_rel" ] ]. piraña_n1 := n_intr_count_le & [ STEM < "piraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_piraña_n_rel" ] ]. pirca_n1 := n_intr_count_le & [ STEM < "pirca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pirca_n_rel" ] ]. pirenaico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirenaico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirenaico_a_rel" ]. piretrina_n1 := n_intr_count_le & [ STEM < "piretrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piretrina_n_rel" ] ]. pirheliómetro_n1 := n_intr_count_le & [ STEM < "pirheliómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pirheliómetro_n_rel" ] ]. piridiletilacrilato_n1 := n_intr_count_le & [ STEM < "piridiletilacrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piridiletilacrilato_n_rel" ] ]. piridina_n1 := n_intr_count_le & [ STEM < "piridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piridina_n_rel" ] ]. piridoxina_n1 := n_intr_count_le & [ STEM < "piridoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piridoxina_n_rel" ] ]. piriforme_a1 := a_rel_nonprd_intr_le & [ STEM < "piriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_piriforme_a_rel" ]. pirimetamina_n1 := n_intr_count_le & [ STEM < "pirimetamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirimetamina_n_rel" ] ]. pirimidina_n1 := n_intr_count_le & [ STEM < "pirimidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirimidina_n_rel" ] ]. pirita_n1 := n_intr_count_le & [ STEM < "pirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirita_n_rel" ] ]. piritosamente_x1 := av_i_spr_le & [ STEM < "piritosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piritosamente_x_rel" ]. piritoso_a1 := a_rel_nonprd_intr_le & [ STEM < "piritoso" >, SYNSEM.LKEYS.KEYREL.PRED "_piritoso_a_rel" ]. pirocatecol_n1 := n_intr_count_le & [ STEM < "pirocatecol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirocatecol_n_rel" ] ]. piroclástico_a1 := a_rel_nonprd_intr_le & [ STEM < "piroclástico" >, SYNSEM.LKEYS.KEYREL.PRED "_piroclástico_a_rel" ]. piroelectricidad_n1 := n_intr_uncount_le & [ STEM < "piroelectricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piroelectricidad_n_rel" ] ]. piroeléctricamente_x1 := av_i_spr_le & [ STEM < "piroeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piroeléctricamente_x_rel" ]. piroeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "piroeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_piroeléctrico_a_rel" ]. pirofilita_n1 := n_intr_count_le & [ STEM < "pirofilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirofilita_n_rel" ] ]. pirofosfato_n1 := n_intr_count_le & [ STEM < "pirofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirofosfato_n_rel" ] ]. pirofosfórico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirofosfórico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirofosfórico_a_rel" ]. pirofórico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirofórico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirofórico_a_rel" ]. pirogalol_n1 := n_intr_count_le & [ STEM < "pirogalol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirogalol_n_rel" ] ]. piroglobulina_n1 := n_intr_count_le & [ STEM < "piroglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piroglobulina_n_rel" ] ]. pirogálico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirogálico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirogálico_a_rel" ]. piroleñoso_a1 := a_rel_nonprd_intr_le & [ STEM < "piroleñoso" >, SYNSEM.LKEYS.KEYREL.PRED "_piroleñoso_a_rel" ]. pirolusita_n1 := n_intr_count_le & [ STEM < "pirolusita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirolusita_n_rel" ] ]. piromagnéticamente_x1 := av_i_spr_le & [ STEM < "piromagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piromagnéticamente_x_rel" ]. piromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "piromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_piromagnético_a_rel" ]. piromelítico_a1 := a_rel_nonprd_intr_le & [ STEM < "piromelítico" >, SYNSEM.LKEYS.KEYREL.PRED "_piromelítico_a_rel" ]. pirometría_n1 := n_intr_uncount_pl_le & [ STEM < "pirometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirometría_n_rel" ] ]. pirométricamente_x1 := av_i_spr_le & [ STEM < "pirométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pirométricamente_x_rel" ]. pirométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirométrico_a_rel" ]. pirona_n1 := n_intr_mass-or-count_le & [ STEM < "pirona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_pirona_n_rel" ] ]. piropo_n1 := n_trans_le & [ STEM < "piropo" >, SYNSEM.LKEYS.KEYREL.PRED "_piropo_n_rel" ]. piroquímicamente_x1 := av_i_spr_le & [ STEM < "piroquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piroquímicamente_x_rel" ]. piroquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "piroquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_piroquímico_a_rel" ]. pirotartárico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirotartárico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirotartárico_a_rel" ]. pirotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirotécnico_a_rel" ]. piroxilina_n1 := n_intr_count_le & [ STEM < "piroxilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_piroxilina_n_rel" ] ]. pirrolidona_n1 := n_intr_count_le & [ STEM < "pirrolidona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirrolidona_n_rel" ] ]. pirronismo_n1 := n_intr_uncount_le & [ STEM < "pirronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirronismo_n_rel" ] ]. pirrotita_n1 := n_intr_count_le & [ STEM < "pirrotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pirrotita_n_rel" ] ]. piruleta_n1 := n_intr_count_le & [ STEM < "piruleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piruleta_n_rel" ] ]. pirámide_n1 := n_intr_count_le & [ STEM < "pirámide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pirámide_n_rel" ] ]. piríticamente_x1 := av_i_spr_le & [ STEM < "piríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_piríticamente_x_rel" ]. pirítico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirítico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirítico_a_rel" ]. pirófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "pirófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_pirófilo_a_rel" ]. pirófito_n1 := n_intr_count_le & [ STEM < "pirófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pirófito_n_rel" ] ]. pirógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "pirógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_pirógeno_a_rel" ]. pirógeno_n1 := n_intr_count_le & [ STEM < "pirógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pirógeno_n_rel" ] ]. pirólisis_n1 := n_intr_uncount_le & [ STEM < "pirólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirólisis_n_rel" ] ]. pirómano_n1 := n_intr_count_le & [ STEM < "pirómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pirómano_n_rel" ] ]. pirómetro_n1 := n_intr_count_le & [ STEM < "pirómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pirómetro_n_rel" ] ]. piróstato_n1 := n_intr_count_le & [ STEM < "piróstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piróstato_n_rel" ] ]. pirúvico_a1 := a_rel_nonprd_intr_le & [ STEM < "pirúvico" >, SYNSEM.LKEYS.KEYREL.PRED "_pirúvico_a_rel" ]. pisable_a1 := a_rel_prd_le & [ STEM < "pisable" >, SYNSEM.LKEYS.KEYREL.PRED "_pisable_a_rel" ]. pisada_n1 := n_intr_count_le & [ STEM < "pisada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pisada_n_rel" ] ]. pisano_a1 := a_rel_prd_le & [ STEM < "pisano" >, SYNSEM.LKEYS.KEYREL.PRED "_pisano_a_rel" ]. pisano_n1 := n_intr_count_le & [ STEM < "pisano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pisano_n_rel" ] ]. pisapapeles_n1 := n_intr_count_le & [ STEM < "pisapapeles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pisapapeles_n_rel" ] ]. pisar_v := v_trans_np*_io_le & [ STEM < "pisar" >, SYNSEM.LKEYS.KEYREL.PRED "_pisar_v_rel" ]. piscicultor_n1 := n_intr_count_le & [ STEM < "piscicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_piscicultor_n_rel" ] ]. piscicultura_n1 := n_intr_count_le & [ STEM < "piscicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piscicultura_n_rel" ] ]. piscifactoría_n1 := n_intr_count_le & [ STEM < "piscifactoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piscifactoría_n_rel" ] ]. piscina_n1 := n_intr_count_le & [ STEM < "piscina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_piscina_n_rel" ] ]. piscícola_a1 := a_rel_nonprd_intr_le & [ STEM < "piscícola" >, SYNSEM.LKEYS.KEYREL.PRED "_piscícola_a_rel" ]. pisiforme_n1 := n_ppcomp_count_le & [ STEM < "pisiforme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pisiforme_n_rel" ] ]. pisimetacarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "pisimetacarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_pisimetacarpiano_a_rel" ]. piso_n1 := n_intr_count_le & [ STEM < "piso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_piso_n_rel" ] ]. pisolita_n1 := n_intr_count_le & [ STEM < "pisolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pisolita_n_rel" ] ]. pisotear_v := v_trans_np_le & [ STEM < "pisotear" >, SYNSEM.LKEYS.KEYREL.PRED "_pisotear_v_rel" ]. pista_n1 := n_intr_count_le & [ STEM < "pista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_pista_n_rel" ] ]. pistachero_n1 := n_intr_count_le & [ STEM < "pistachero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pistachero_n_rel" ] ]. pistacho_n1 := n_intr_mass_le & [ STEM < "pistacho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pistacho_n_rel" ] ]. pistacita_n1 := n_intr_count_le & [ STEM < "pistacita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pistacita_n_rel" ] ]. pistero_n1 := n_intr_count_le & [ STEM < "pistero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pistero_n_rel" ] ]. pistola_n1 := n_intr_count_le & [ STEM < "pistola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pistola_n_rel" ] ]. pistolera_n1 := n_intr_count_le & [ STEM < "pistolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pistolera_n_rel" ] ]. pistolero_n1 := n_intr_count_le & [ STEM < "pistolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pistolero_n_rel" ] ]. pistoletazo_n1 := n_intr_count_le & [ STEM < "pistoletazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pistoletazo_n_rel" ] ]. pistón_n1 := n_intr_count_le & [ STEM < "pistón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pistón_n_rel" ] ]. pita_n1 := n_intr_count_le & [ STEM < "pita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_pita_n_rel" ] ]. pitada_n1 := n_trans_le & [ STEM < "pitada" >, SYNSEM.LKEYS.KEYREL.PRED "_pitada_n_rel" ]. pitagórico_a1 := a_rel_nonprd_intr_le & [ STEM < "pitagórico" >, SYNSEM.LKEYS.KEYREL.PRED "_pitagórico_a_rel" ]. pitar_v := v_trans_np*_le & [ STEM < "pitar" >, SYNSEM.LKEYS.KEYREL.PRED "_pitar_v_rel" ]. pitecántropo_n1 := n_intr_count_le & [ STEM < "pitecántropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pitecántropo_n_rel" ] ]. pithos_n1 := n_intr_count_le & [ STEM < "pithos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pithos_n_rel" ] ]. pitido_n1 := n_intr_count_le & [ STEM < "pitido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pitido_n_rel" ] ]. pitillera_n1 := n_intr_count_le & [ STEM < "pitillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pitillera_n_rel" ] ]. pitillo_n1 := n_intr_count_le & [ STEM < "pitillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pitillo_n_rel" ] ]. pito_n1 := n_intr_count_le & [ STEM < "pito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pito_n_rel" ] ]. pitonisa_n1 := n_intr_count_le & [ STEM < "pitonisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pitonisa_n_rel" ] ]. pitorro_n1 := n_intr_count_le & [ STEM < "pitorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pitorro_n_rel" ] ]. pitufar_v := v_trans_np*_io_le & [ STEM < "pitufar" >, SYNSEM.LKEYS.KEYREL.PRED "_pitufar_v_rel" ]. pituicito_n1 := n_intr_count_le & [ STEM < "pituicito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pituicito_n_rel" ] ]. pituitaria_n1 := n_ppcomp_count_le & [ STEM < "pituitaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pituitaria_n_rel" ] ]. pituitario_a1 := a_rel_nonprd_intr_le & [ STEM < "pituitario" >, SYNSEM.LKEYS.KEYREL.PRED "_pituitario_a_rel" ]. pitón_n1 := n_intr_count_le & [ STEM < "pitón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pitón_n_rel" ] ]. pivotante_a1 := a_rel_nonprd_intr_le & [ STEM < "pivotante" >, SYNSEM.LKEYS.KEYREL.PRED "_pivotante_a_rel" ]. pivotar_v := v_unacc_le & [ STEM < "pivotar" >, SYNSEM.LKEYS.KEYREL.PRED "_pivotar_v_rel" ]. pivote_n1 := n_intr_count_le & [ STEM < "pivote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pivote_n_rel" ] ]. pixel_n1 := n_intr_count_le & [ STEM < "pixel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pixel_n_rel" ] ]. pixidio_n1 := n_intr_mass-or-count_le & [ STEM < "pixidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_pixidio_n_rel" ] ]. pizarra_n1 := n_intr_mass_le & [ STEM < "pizarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pizarra_n_rel" ] ]. pizarrero_n1 := n_intr_count_le & [ STEM < "pizarrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pizarrero_n_rel" ] ]. pizarroso_a1 := a_qual_intr_ser_le & [ STEM < "pizarroso" >, SYNSEM.LKEYS.KEYREL.PRED "_pizarroso_a_rel" ]. pizarrín_n1 := n_intr_count_le & [ STEM < "pizarrín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pizarrín_n_rel" ] ]. pizca_n1 := n_pseudo-part_le & [ STEM < "pizca" >, SYNSEM.LKEYS.KEYREL.PRED "_pizca_n_rel" ]. pizza_n1 := n_intr_count_le & [ STEM < "pizza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pizza_n_rel" ] ]. pizzería_n1 := n_intr_count_le & [ STEM < "pizzería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pizzería_n_rel" ] ]. piéride_n1 := n_intr_count_le & [ STEM < "piéride" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_piéride_n_rel" ] ]. piña_n1 := n_intr_mass_le & [ STEM < "piña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_piña_n_rel" ] ]. piñonero_a1 := a_rel_nonprd_intr_le & [ STEM < "piñonero" >, SYNSEM.LKEYS.KEYREL.PRED "_piñonero_a_rel" ]. piñonero_n1 := n_intr_count_le & [ STEM < "piñonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_piñonero_n_rel" ] ]. piñón_n1 := n_intr_mass-or-count_le & [ STEM < "piñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_piñón_n_rel" ] ]. placa_n1 := n_intr_count_le & [ STEM < "placa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_placa_n_rel" ] ]. placaje_n1 := n_trans_le & [ STEM < "placaje" >, SYNSEM.LKEYS.KEYREL.PRED "_placaje_n_rel" ]. placebo_n1 := n_intr_count_le & [ STEM < "placebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_placebo_n_rel" ] ]. placenta_n1 := n_intr_mass_le & [ STEM < "placenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_placenta_n_rel" ] ]. placentero_a1 := a_qual_intr_ser_le & [ STEM < "placentero" >, SYNSEM.LKEYS.KEYREL.PRED "_placentero_a_rel" ]. placer_v1 := v_intr_io*_le & [ STEM < "placer" >, SYNSEM.LKEYS.KEYREL.PRED "_placer_v_rel" ]. placer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "placer" >, SYNSEM.LKEYS.KEYREL.PRED "_placer_v_rel" ]. placeta_n1 := n_intr_count_le & [ STEM < "placeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_placeta_n_rel" ] ]. placidez_n1 := n_ppcomp_uncount_le & [ STEM < "placidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_placidez_n_rel" ] ]. placoide_a1 := a_rel_nonprd_intr_le & [ STEM < "placoide" >, SYNSEM.LKEYS.KEYREL.PRED "_placoide_a_rel" ]. plafón_n1 := n_intr_count_le & [ STEM < "plafón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plafón_n_rel" ] ]. plagar_v := v_trans_np_mrkd_np*_le & [ STEM < "plagar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_plagar_v_rel" ] ]. plagiar_v := v_trans_np_le & [ STEM < "plagiar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_sem_soc, PRED "_plagiar_v_rel" ] ]. plagio_n1 := n_trans_le & [ STEM < "plagio" >, SYNSEM.LKEYS.KEYREL.PRED "_plagio_n_rel" ]. plagioclasa_n1 := n_intr_count_le & [ STEM < "plagioclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plagioclasa_n_rel" ] ]. plaguicida_n1 := n_intr_count_le & [ STEM < "plaguicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plaguicida_n_rel" ] ]. plan_n1 := n_intr_count_le & [ STEM < "plan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plan_n_rel" ] ]. plana_n1 := n_intr_count_le & [ STEM < "plana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_plana_n_rel" ] ]. planar_a1 := a_rel_nonprd_intr_le & [ STEM < "planar" >, SYNSEM.LKEYS.KEYREL.PRED "_planar_a_rel" ]. plancha_n1 := n_intr_count_le & [ STEM < "plancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plancha_n_rel" ] ]. planchado_n1 := n_trans_le & [ STEM < "planchado" >, SYNSEM.LKEYS.KEYREL.PRED "_planchado_n_rel" ]. planchar_v := v_trans_np*_le & [ STEM < "planchar" >, SYNSEM.LKEYS.KEYREL.PRED "_planchar_v_rel" ]. plancheta_n1 := n_intr_count_le & [ STEM < "plancheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plancheta_n_rel" ] ]. planchista_n1 := n_intr_count_le & [ STEM < "planchista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_planchista_n_rel" ] ]. planchistería_n1 := n_intr_count_le & [ STEM < "planchistería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_planchistería_n_rel" ] ]. plancton_n1 := n_intr_count_le & [ STEM < "plancton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_plancton_n_rel" ] ]. planctófagamente_x1 := av_i_spr_le & [ STEM < "planctófagamente" >, SYNSEM.LKEYS.KEYREL.PRED "_planctófagamente_x_rel" ]. planctófago_a1 := a_rel_nonprd_intr_le & [ STEM < "planctófago" >, SYNSEM.LKEYS.KEYREL.PRED "_planctófago_a_rel" ]. planctónico_a1 := a_rel_nonprd_intr_le & [ STEM < "planctónico" >, SYNSEM.LKEYS.KEYREL.PRED "_planctónico_a_rel" ]. planeador_n1 := n_intr_count_le & [ STEM < "planeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_planeador_n_rel" ] ]. planeamiento_n1 := n_trans_le & [ STEM < "planeamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_planeamiento_n_rel" ]. planear_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "planear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_planear_v_rel" ] ]. planear_v2 := v_trans_np_le & [ STEM < "planear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_planear_v_rel" ] ]. planeo_n1 := n_event-result_intr_le & [ STEM < "planeo" >, SYNSEM.LKEYS.KEYREL.PRED "_planeo_n_rel" ]. planeta_n1 := n_intr_count_le & [ STEM < "planeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_planeta_n_rel" ] ]. planetario_a1 := a_rel_nonprd_intr_le & [ STEM < "planetario" >, SYNSEM.LKEYS.KEYREL.PRED "_planetario_a_rel" ]. planetología_n1 := n_intr_uncount_le & [ STEM < "planetología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planetología_n_rel" ] ]. planicie_n1 := n_intr_count_le & [ STEM < "planicie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_planicie_n_rel" ] ]. planificabilidad_n1 := n_intr_uncount_le & [ STEM < "planificabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planificabilidad_n_rel" ] ]. planificación_familiar_n1 := n_intr_mass_le & [ STEM < "planificación_familiar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planificación_familiar_n_rel" ] ]. planificación_n1 := n_trans_le & [ STEM < "planificación" >, SYNSEM.LKEYS.KEYREL.PRED "_planificación_n_rel" ]. planificadamente_x1 := av_i_spr_le & [ STEM < "planificadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_planificadamente_x_rel" ]. planificador_n1 := n_subj-nom_le & [ STEM < "planificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_planificador_n_rel" ] ]. planificar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "planificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_planificar_v_rel" ] ]. planificar_v2 := v_trans_np_le & [ STEM < "planificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_planificar_v_rel" ] ]. planifolio_n1 := n_intr_count_le & [ STEM < "planifolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_planifolio_n_rel" ] ]. planilla_n1 := n_intr_count_le & [ STEM < "planilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_planilla_n_rel" ] ]. planimetría_n1 := n_intr_uncount_pl_le & [ STEM < "planimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planimetría_n_rel" ] ]. planimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "planimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_planimétrico_a_rel" ]. plano_a1 := a_qual_intr_ser_le & [ STEM < "plano" >, SYNSEM.LKEYS.KEYREL.PRED "_plano_a_rel" ]. plano_n1 := n_intr_count_le & [ STEM < "plano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_plano_n_rel" ] ]. planogameto_n1 := n_ppcomp_count_le & [ STEM < "planogameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_planogameto_n_rel" ] ]. planosol_n1 := n_intr_count_le & [ STEM < "planosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_planosol_n_rel" ] ]. planta_n1 := n_intr_mass_le & [ STEM < "planta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_planta_n_rel" ] ]. plantación_n1 := n_trans_le & [ STEM < "plantación" >, SYNSEM.LKEYS.KEYREL.PRED "_plantación_n_rel" ]. plantación_n2 := n_intr_count_le & [ STEM < "plantación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_plantación_n_rel" ] ]. plantador_a1 := a_rel_nonprd_intr_le & [ STEM < "plantador" >, SYNSEM.LKEYS.KEYREL.PRED "_plantador_a_rel" ]. plantador_n1 := n_intr_count_le & [ STEM < "plantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plantador_n_rel" ] ]. plantadora_n1 := n_intr_count_le & [ STEM < "plantadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plantadora_n_rel" ] ]. plantar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "plantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_plantar_v_rel" ] ] ]. plantar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "plantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_plantar_v_rel" ] ] ]. plantar_v3 := v_trans_np_le & [ STEM < "plantar" >, SYNSEM.LKEYS.KEYREL.PRED "_plantar_v_rel" ]. planteamiento_n2 := n_trans_le & [ STEM < "planteamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_planteamiento_n_rel" ]. plantear_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "plantear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_plantear_v_rel" ] ]. plantear_v2 := v_ditrans*_le & [ STEM < "plantear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_plantear_v_rel" ] ]. plantel_n1 := n_intr_coll_le & [ STEM < "plantel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_plantel_n_rel" ] ]. plantilla_n1 := n_intr_coll_le & [ STEM < "plantilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plantilla_n_rel" ] ]. plantista_n1 := n_intr_count_le & [ STEM < "plantista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plantista_n_rel" ] ]. planto_n1 := n_intr_count_le & [ STEM < "planto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_planto_n_rel" ] ]. plantonera_n1 := n_intr_count_le & [ STEM < "plantonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plantonera_n_rel" ] ]. planícula_n1 := n_intr_count_le & [ STEM < "planícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_planícula_n_rel" ] ]. planímetro_n1 := n_intr_count_le & [ STEM < "planímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_planímetro_n_rel" ] ]. plaquear_v := v_trans_np_le & [ STEM < "plaquear" >, SYNSEM.LKEYS.KEYREL.PRED "_plaquear_v_rel" ]. plaqueta_n1 := n_intr_count_le & [ STEM < "plaqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plaqueta_n_rel" ] ]. plaquetario_a1 := a_rel_nonprd_intr_le & [ STEM < "plaquetario" >, SYNSEM.LKEYS.KEYREL.PRED "_plaquetario_a_rel" ]. plaquita_n1 := n_intr_count_le & [ STEM < "plaquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plaquita_n_rel" ] ]. plasenciano_a1 := a_rel_nonprd_intr_le & [ STEM < "plasenciano" >, SYNSEM.LKEYS.KEYREL.PRED "_plasenciano_a_rel" ]. plasenciano_n1 := n_intr_count_le & [ STEM < "plasenciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plasenciano_n_rel" ] ]. plasma_n1 := n_intr_mass_le & [ STEM < "plasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasma_n_rel" ] ]. plasmacito_n1 := n_intr_count_le & [ STEM < "plasmacito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmacito_n_rel" ] ]. plasmación_n1 := n_event-result_intr_le & [ STEM < "plasmación" >, SYNSEM.LKEYS.KEYREL.PRED "_plasmación_n_rel" ]. plasmacromatina_n1 := n_intr_count_le & [ STEM < "plasmacromatina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmacromatina_n_rel" ] ]. plasmagen_n1 := n_intr_count_le & [ STEM < "plasmagen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmagen_n_rel" ] ]. plasmar_v := v_trans_np_le & [ STEM < "plasmar" >, SYNSEM.LKEYS.KEYREL.PRED "_plasmar_v_rel" ]. plasmasoma_n1 := n_intr_count_le & [ STEM < "plasmasoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmasoma_n_rel" ] ]. plasmina_n1 := n_intr_count_le & [ STEM < "plasmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmina_n_rel" ] ]. plasminógeno_n1 := n_intr_count_le & [ STEM < "plasminógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasminógeno_n_rel" ] ]. plasmocito_n1 := n_intr_count_le & [ STEM < "plasmocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmocito_n_rel" ] ]. plasmodesma_n1 := n_intr_count_le & [ STEM < "plasmodesma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmodesma_n_rel" ] ]. plasmodia_n1 := n_intr_count_le & [ STEM < "plasmodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plasmodia_n_rel" ] ]. plasmodio_n1 := n_intr_count_le & [ STEM < "plasmodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmodio_n_rel" ] ]. plasmodium_n1 := n_intr_count_le & [ STEM < "plasmodium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plasmodium_n_rel" ] ]. plasmosoma_n1 := n_intr_count_le & [ STEM < "plasmosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasmosoma_n_rel" ] ]. plasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "plasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_plasmático_a_rel" ]. plaste_n1 := n_intr_count_le & [ STEM < "plaste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plaste_n_rel" ] ]. plastecido_n1 := n_trans_le & [ STEM < "plastecido" >, SYNSEM.LKEYS.KEYREL.PRED "_plastecido_n_rel" ]. plasticidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "plasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasticidad_n_rel" ] ]. plastidial_a1 := a_rel_nonprd_intr_le & [ STEM < "plastidial" >, SYNSEM.LKEYS.KEYREL.PRED "_plastidial_a_rel" ]. plastidio_n1 := n_intr_count_le & [ STEM < "plastidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plastidio_n_rel" ] ]. plastificación_n1 := n_trans_le & [ STEM < "plastificación" >, SYNSEM.LKEYS.KEYREL.PRED "_plastificación_n_rel" ]. plastificante_n1 := n_intr_mass_le & [ STEM < "plastificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plastificante_n_rel" ] ]. plastificar_v := v_trans_np_le & [ STEM < "plastificar" >, SYNSEM.LKEYS.KEYREL.PRED "_plastificar_v_rel" ]. plastigel_n1 := n_intr_count_le & [ STEM < "plastigel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plastigel_n_rel" ] ]. plastisol_n1 := n_intr_count_le & [ STEM < "plastisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plastisol_n_rel" ] ]. plasto_n1 := n_intr_count_le & [ STEM < "plasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plasto_n_rel" ] ]. plastoma_n1 := n_intr_count_le & [ STEM < "plastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastoma_n_rel" ] ]. plastorribosoma_n1 := n_intr_count_le & [ STEM < "plastorribosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastorribosoma_n_rel" ] ]. plastosoma_n1 := n_intr_count_le & [ STEM < "plastosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastosoma_n_rel" ] ]. plastrón_n1 := n_intr_count_le & [ STEM < "plastrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastrón_n_rel" ] ]. plastómero_n1 := n_intr_count_le & [ STEM < "plastómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastómero_n_rel" ] ]. plastómetro_n1 := n_intr_count_le & [ STEM < "plastómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plastómetro_n_rel" ] ]. plata_n1 := n_intr_mass_le & [ STEM < "plata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plata_n_rel" ] ]. plataforma_n1 := n_intr_count_le & [ STEM < "plataforma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_plataforma_n_rel" ] ]. platanero_n1 := n_intr_count_le & [ STEM < "platanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_platanero_n_rel" ] ]. platea_n1 := n_intr_count_le & [ STEM < "platea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_platea_n_rel" ] ]. plateado_n1 := n_trans_le & [ STEM < "plateado" >, SYNSEM.LKEYS.KEYREL.PRED "_plateado_n_rel" ]. plateador_n1 := n_intr_count_le & [ STEM < "plateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plateador_n_rel" ] ]. platear_v := v_trans_np_le & [ STEM < "platear" >, SYNSEM.LKEYS.KEYREL.PRED "_platear_v_rel" ]. platero_n1 := n_intr_count_le & [ STEM < "platero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_platero_n_rel" ] ]. platería_n1 := n_intr_count_le & [ STEM < "platería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_platería_n_rel" ] ]. platicar_v := v_intr_mrkd_cp_semi_ques_le & [ STEM < "platicar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_platicar_v_rel" ] ]. platicéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "platicéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_platicéfalo_a_rel" ]. platicúrtico_a1 := a_rel_nonprd_intr_le & [ STEM < "platicúrtico" >, SYNSEM.LKEYS.KEYREL.PRED "_platicúrtico_a_rel" ]. platifónicamente_x1 := av_i_spr_le & [ STEM < "platifónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platifónicamente_x_rel" ]. platifónico_a1 := a_rel_nonprd_intr_le & [ STEM < "platifónico" >, SYNSEM.LKEYS.KEYREL.PRED "_platifónico_a_rel" ]. platigloso_a1 := a_rel_nonprd_intr_le & [ STEM < "platigloso" >, SYNSEM.LKEYS.KEYREL.PRED "_platigloso_a_rel" ]. platija_n1 := n_intr_count_le & [ STEM < "platija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_platija_n_rel" ] ]. platillo_n1 := n_intr_count_le & [ STEM < "platillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_platillo_n_rel" ] ]. platimérico_a1 := a_rel_nonprd_intr_le & [ STEM < "platimérico" >, SYNSEM.LKEYS.KEYREL.PRED "_platimérico_a_rel" ]. platina_n1 := n_intr_count_le & [ STEM < "platina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_platina_n_rel" ] ]. platinadamente_x1 := av_i_spr_le & [ STEM < "platinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platinadamente_x_rel" ]. platinado_n1 := n_trans_le & [ STEM < "platinado" >, SYNSEM.LKEYS.KEYREL.PRED "_platinado_n_rel" ]. platino_n1 := n_intr_mass-or-count_le & [ STEM < "platino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_platino_n_rel" ] ]. platinoide_n1 := n_intr_count_le & [ STEM < "platinoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_platinoide_n_rel" ] ]. platinosamente_x1 := av_i_spr_le & [ STEM < "platinosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platinosamente_x_rel" ]. platinoso_a1 := a_qual_intr_ser_le & [ STEM < "platinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_platinoso_a_rel" ]. platiníferamente_x1 := av_i_spr_le & [ STEM < "platiníferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platiníferamente_x_rel" ]. platinífero_a1 := a_rel_nonprd_intr_le & [ STEM < "platinífero" >, SYNSEM.LKEYS.KEYREL.PRED "_platinífero_a_rel" ]. platirrino_a1 := a_rel_nonprd_intr_le & [ STEM < "platirrino" >, SYNSEM.LKEYS.KEYREL.PRED "_platirrino_a_rel" ]. plato_n1 := n_intr_count_le & [ STEM < "plato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plato_n_rel" ] ]. platonismo_n1 := n_intr_uncount_le & [ STEM < "platonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_platonismo_n_rel" ] ]. platínicamente_x1 := av_i_spr_le & [ STEM < "platínicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platínicamente_x_rel" ]. platínico_a1 := a_rel_nonprd_intr_le & [ STEM < "platínico" >, SYNSEM.LKEYS.KEYREL.PRED "_platínico_a_rel" ]. plató_n1 := n_intr_count_le & [ STEM < "plató" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_plató_n_rel" ] ]. platónicamente_x1 := av_i_spr_le & [ STEM < "platónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_platónicamente_x_rel" ]. platónico_a1 := a_qual_intr_ser_le & [ STEM < "platónico" >, SYNSEM.LKEYS.KEYREL.PRED "_platónico_a_rel" ]. plausibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "plausibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plausibilidad_n_rel" ] ]. plausible_a1 := a_qual_intr_ser_le & [ STEM < "plausible" >, SYNSEM.LKEYS.KEYREL.PRED "_plausible_a_rel" ]. plausiblemente_x1 := av_i_spr_le & [ STEM < "plausiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_plausiblemente_x_rel" ]. playa_n1 := n_intr_count_le & [ STEM < "playa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_playa_n_rel" ] ]. playboy_n1 := n_intr_count_le & [ STEM < "playboy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_playboy_n_rel" ] ]. playero_a1 := a_rel_nonprd_intr_le & [ STEM < "playero" >, SYNSEM.LKEYS.KEYREL.PRED "_playero_a_rel" ]. plaza_n1 := n_intr_count_le & [ STEM < "plaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_plaza_n_rel" ] ]. plazo_n1 := n_intr_count_le & [ STEM < "plazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_plazo_n_rel" ] ]. plañidero_a1 := a_rel_nonprd_intr_le & [ STEM < "plañidero" >, SYNSEM.LKEYS.KEYREL.PRED "_plañidero_a_rel" ]. pleamar_n1 := n_intr_count_le & [ STEM < "pleamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleamar_n_rel" ] ]. plebe_n1 := n_intr_coll_le & [ STEM < "plebe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plebe_n_rel" ] ]. plebeyo_a1 := a_rel_nonprd_intr_le & [ STEM < "plebeyo" >, SYNSEM.LKEYS.KEYREL.PRED "_plebeyo_a_rel" ]. plebeyo_n1 := n_intr_count_le & [ STEM < "plebeyo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plebeyo_n_rel" ] ]. plectro_n1 := n_intr_count_le & [ STEM < "plectro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plectro_n_rel" ] ]. plegable_a1 := a_rel_prd_le & [ STEM < "plegable" >, SYNSEM.LKEYS.KEYREL.PRED "_plegable_a_rel" ]. plegadora_n1 := n_intr_count_le & [ STEM < "plegadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plegadora_n_rel" ] ]. plegamiento_n1 := n_trans_le & [ STEM < "plegamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_plegamiento_n_rel" ]. plegar_v := v_trans_np_le & [ STEM < "plegar" >, SYNSEM.LKEYS.KEYREL.PRED "_plegar_v_rel" ]. pleitear_v1 := v_intr_mrkd_np*_le & [ STEM < "pleitear" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_pleitear_v_rel" ] ]. pleitear_v2 := v_trans_np_le & [ STEM < "pleitear" >, SYNSEM.LKEYS.KEYREL.PRED "_pleitear_v_rel" ]. pleiteo_n1 := n_trans_le & [ STEM < "pleiteo" >, SYNSEM.LKEYS.KEYREL.PRED "_pleiteo_n_rel" ]. pleitesía_n1 := n_intr_uncount_pl_le & [ STEM < "pleitesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleitesía_n_rel" ] ]. plenamar_n1 := n_intr_count_le & [ STEM < "plenamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_plenamar_n_rel" ] ]. plenamente_x1 := av_deg_le & [ STEM < "plenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plenamente_x_rel" ]. plenario_a1 := a_rel_nonprd_intr_le & [ STEM < "plenario" >, SYNSEM.LKEYS.KEYREL.PRED "_plenario_a_rel" ]. plenipotencia_n1 := n_intr_uncount_le & [ STEM < "plenipotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plenipotencia_n_rel" ] ]. plenipotenciario_a1 := a_rel_nonprd_intr_le & [ STEM < "plenipotenciario" >, SYNSEM.LKEYS.KEYREL.PRED "_plenipotenciario_a_rel" ]. plenipotenciario_n1 := n_intr_count_le & [ STEM < "plenipotenciario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plenipotenciario_n_rel" ] ]. plenitud_n1 := n_ppcomp_mass_le & [ STEM < "plenitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plenitud_n_rel" ] ]. pleno_a1 := a_qual_intr_ser_le & [ STEM < "pleno" >, SYNSEM.LKEYS.KEYREL.PRED "_pleno_a_rel" ]. pleocroico_a1 := a_rel_nonprd_intr_le & [ STEM < "pleocroico" >, SYNSEM.LKEYS.KEYREL.PRED "_pleocroico_a_rel" ]. pleonasto_n1 := n_intr_count_le & [ STEM < "pleonasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pleonasto_n_rel" ] ]. pleonásticamente_x1 := av_i_spr_le & [ STEM < "pleonásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pleonásticamente_x_rel" ]. pleonástico_a1 := a_rel_nonprd_intr_le & [ STEM < "pleonástico" >, SYNSEM.LKEYS.KEYREL.PRED "_pleonástico_a_rel" ]. plesiócrono_a1 := a_rel_nonprd_intr_le & [ STEM < "plesiócrono" >, SYNSEM.LKEYS.KEYREL.PRED "_plesiócrono_a_rel" ]. pletina_n1 := n_intr_count_le & [ STEM < "pletina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pletina_n_rel" ] ]. pletórico_a1 := a_qual_trans*_estar_le & [ STEM < "pletórico" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_pletórico_a_rel" ] ]. pleura_n1 := n_intr_mass_le & [ STEM < "pleura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pleura_n_rel" ] ]. pleural_a1 := a_rel_nonprd_intr_le & [ STEM < "pleural" >, SYNSEM.LKEYS.KEYREL.PRED "_pleural_a_rel" ]. pleurodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "pleurodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleurodoncia_n_rel" ] ]. plexiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "plexiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_plexiforme_a_rel" ]. plica_n1 := n_intr_count_le & [ STEM < "plica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_plica_n_rel" ] ]. pliego_n1 := n_intr_count_le & [ STEM < "pliego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_pliego_n_rel" ] ]. pliegue_n1 := n_intr_count_le & [ STEM < "pliegue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pliegue_n_rel" ] ]. plintita_n1 := n_intr_count_le & [ STEM < "plintita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plintita_n_rel" ] ]. plinto_n1 := n_intr_count_le & [ STEM < "plinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plinto_n_rel" ] ]. plintácuico_a1 := a_rel_nonprd_intr_le & [ STEM < "plintácuico" >, SYNSEM.LKEYS.KEYREL.PRED "_plintácuico_a_rel" ]. plisar_v := v_trans_np_le & [ STEM < "plisar" >, SYNSEM.LKEYS.KEYREL.PRED "_plisar_v_rel" ]. plomada_n1 := n_intr_count_le & [ STEM < "plomada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plomada_n_rel" ] ]. plombato_n1 := n_intr_count_le & [ STEM < "plombato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plombato_n_rel" ] ]. plomizamente_x1 := av_i_spr_le & [ STEM < "plomizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plomizamente_x_rel" ]. plomizo_a1 := a_qual_intr_ser_le & [ STEM < "plomizo" >, SYNSEM.LKEYS.KEYREL.PRED "_plomizo_a_rel" ]. plomo_n1 := n_intr_mass_le & [ STEM < "plomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plomo_n_rel" ] ]. plomíferamente_x1 := av_i_spr_le & [ STEM < "plomíferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plomíferamente_x_rel" ]. plomífero_a1 := a_rel_nonprd_intr_le & [ STEM < "plomífero" >, SYNSEM.LKEYS.KEYREL.PRED "_plomífero_a_rel" ]. pluma_n1 := n_intr_count_le & [ STEM < "pluma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pluma_n_rel" ] ]. plumado_a1 := a_qual_intr_scopal_le & [ STEM < "plumado" >, SYNSEM.LKEYS.KEYREL.PRED "_plumado_a_rel" ]. plumaje_n1 := n_intr_mass_le & [ STEM < "plumaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plumaje_n_rel" ] ]. plumbosolvencia_n1 := n_intr_uncount_le & [ STEM < "plumbosolvencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plumbosolvencia_n_rel" ] ]. plumero_n1 := n_intr_count_le & [ STEM < "plumero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plumero_n_rel" ] ]. plumoso_a1 := a_qual_intr_scopal_le & [ STEM < "plumoso" >, SYNSEM.LKEYS.KEYREL.PRED "_plumoso_a_rel" ]. plumón_n1 := n_intr_count_le & [ STEM < "plumón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plumón_n_rel" ] ]. plural_a1 := a_qual_intr_ser_le & [ STEM < "plural" >, SYNSEM.LKEYS.KEYREL.PRED "_plural_a_rel" ]. plural_n1 := n_intr_count_le & [ STEM < "plural" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plural_n_rel" ] ]. pluralidad_n1 := n_intr_mass-or-count_le & [ STEM < "pluralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluralidad_n_rel" ] ]. pluralismo_n1 := n_intr_uncount_le & [ STEM < "pluralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluralismo_n_rel" ] ]. pluralista_n1 := n_intr_count_le & [ STEM < "pluralista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pluralista_n_rel" ] ]. pluralización_n1 := n_trans_le & [ STEM < "pluralización" >, SYNSEM.LKEYS.KEYREL.PRED "_pluralización_n_rel" ]. plurianual_a1 := a_rel_nonprd_intr_le & [ STEM < "plurianual" >, SYNSEM.LKEYS.KEYREL.PRED "_plurianual_a_rel" ]. plurianualmente_x1 := av_i_spr_le & [ STEM < "plurianualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_plurianualmente_x_rel" ]. pluricultural_a1 := a_rel_nonprd_intr_le & [ STEM < "pluricultural" >, SYNSEM.LKEYS.KEYREL.PRED "_pluricultural_a_rel" ]. pluriculturalidad_n1 := n_intr_uncount_le & [ STEM < "pluriculturalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluriculturalidad_n_rel" ] ]. pluriculturalmente_x1 := av_i_spr_le & [ STEM < "pluriculturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pluriculturalmente_x_rel" ]. pluridimensional_a1 := a_rel_prd_le & [ STEM < "pluridimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_pluridimensional_a_rel" ]. pluridimensionalmente_x1 := av_i_spr_le & [ STEM < "pluridimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pluridimensionalmente_x_rel" ]. pluridisciplinar_a1 := a_rel_prd_le & [ STEM < "pluridisciplinar" >, SYNSEM.LKEYS.KEYREL.PRED "_pluridisciplinar_a_rel" ]. pluriempleado_n1 := n_intr_count_le & [ STEM < "pluriempleado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pluriempleado_n_rel" ] ]. pluriempleo_n1 := n_intr_uncount_pl_le & [ STEM < "pluriempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluriempleo_n_rel" ] ]. plurifamiliar_a1 := a_rel_nonprd_intr_le & [ STEM < "plurifamiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_plurifamiliar_a_rel" ]. plurifuncional_a1 := a_rel_prd_le & [ STEM < "plurifuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_plurifuncional_a_rel" ]. plurifuncionalmente_x1 := av_i_spr_le & [ STEM < "plurifuncionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_plurifuncionalmente_x_rel" ]. plurilegislación_n1 := n_intr_uncount_le & [ STEM < "plurilegislación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plurilegislación_n_rel" ] ]. plurilegislativo_a1 := a_rel_prd_le & [ STEM < "plurilegislativo" >, SYNSEM.LKEYS.KEYREL.PRED "_plurilegislativo_a_rel" ]. plurilingã¼e_a1 := a_rel_prd_le & [ STEM < "plurilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_plurilingüe_a_rel" ]. plurilingüismo_n1 := n_intr_uncount_le & [ STEM < "plurilingüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plurilingüismo_n_rel" ] ]. plurinacional_a1 := a_rel_prd_le & [ STEM < "plurinacional" >, SYNSEM.LKEYS.KEYREL.PRED "_plurinacional_a_rel" ]. plurinacionalidad_n1 := n_intr_uncount_le & [ STEM < "plurinacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plurinacionalidad_n_rel" ] ]. plurinacionalidad_n2 := n_intr_count_le & [ STEM < "plurinacionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plurinacionalidad_n_rel" ] ]. pluripotencial_a1 := a_rel_prd_le & [ STEM < "pluripotencial" >, SYNSEM.LKEYS.KEYREL.PRED "_pluripotencial_a_rel" ]. plurisubjetivamente_x1 := av_i_spr_le & [ STEM < "plurisubjetivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plurisubjetivamente_x_rel" ]. plurisubjetivo_a1 := a_rel_prd_le & [ STEM < "plurisubjetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_plurisubjetivo_a_rel" ]. plurivalente_a1 := a_rel_prd_le & [ STEM < "plurivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_plurivalente_a_rel" ]. plurívoco_a1 := a_rel_prd_le & [ STEM < "plurívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_plurívoco_a_rel" ]. pluscuamperfecto_a1 := a_rel_nonprd_intr_le & [ STEM < "pluscuamperfecto" >, SYNSEM.LKEYS.KEYREL.PRED "_pluscuamperfecto_a_rel" ]. plusmarquista_n1 := n_intr_count_le & [ STEM < "plusmarquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_plusmarquista_n_rel" ] ]. pluspetición_n1 := n_intr_uncount_le & [ STEM < "pluspetición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluspetición_n_rel" ] ]. plusvalía_n1 := n_intr_uncount_pl_le & [ STEM < "plusvalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plusvalía_n_rel" ] ]. plutocracia_n1 := n_intr_uncount_pl_le & [ STEM < "plutocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plutocracia_n_rel" ] ]. plutocráticamente_x1 := av_i_spr_le & [ STEM < "plutocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plutocráticamente_x_rel" ]. plutocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "plutocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_plutocrático_a_rel" ]. plutonio_n1 := n_intr_mass_le & [ STEM < "plutonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plutonio_n_rel" ] ]. plutonismo_n1 := n_intr_uncount_le & [ STEM < "plutonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plutonismo_n_rel" ] ]. plutónico_a1 := a_rel_nonprd_intr_le & [ STEM < "plutónico" >, SYNSEM.LKEYS.KEYREL.PRED "_plutónico_a_rel" ]. pluvial_a1 := a_rel_nonprd_intr_le & [ STEM < "pluvial" >, SYNSEM.LKEYS.KEYREL.PRED "_pluvial_a_rel" ]. pluviográficamente_x1 := av_i_spr_le & [ STEM < "pluviográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pluviográficamente_x_rel" ]. pluviográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "pluviográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_pluviográfico_a_rel" ]. pluviometría_n1 := n_intr_uncount_pl_le & [ STEM < "pluviometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluviometría_n_rel" ] ]. pluviométricamente_x1 := av_i_spr_le & [ STEM < "pluviométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pluviométricamente_x_rel" ]. pluviométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pluviométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pluviométrico_a_rel" ]. pluviosamente_x1 := av_i_spr_le & [ STEM < "pluviosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pluviosamente_x_rel" ]. pluviosidad_n1 := n_intr_uncount_le & [ STEM < "pluviosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluviosidad_n_rel" ] ]. pluviosidad_n2 := n_intr_count_le & [ STEM < "pluviosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluviosidad_n_rel" ] ]. pluvioso_a1 := a_rel_nonprd_intr_le & [ STEM < "pluvioso" >, SYNSEM.LKEYS.KEYREL.PRED "_pluvioso_a_rel" ]. pluviselva_n1 := n_intr_count_le & [ STEM < "pluviselva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pluviselva_n_rel" ] ]. pluviógrafo_n1 := n_intr_count_le & [ STEM < "pluviógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pluviógrafo_n_rel" ] ]. pluviómetro_n1 := n_intr_count_le & [ STEM < "pluviómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pluviómetro_n_rel" ] ]. plácidamente_x1 := av_i_spr_le & [ STEM < "plácidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plácidamente_x_rel" ]. plácido_a1 := a_qual_intr_ser_le & [ STEM < "plácido" >, SYNSEM.LKEYS.KEYREL.PRED "_plácido_a_rel" ]. plántula_n1 := n_intr_count_le & [ STEM < "plántula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_plántula_n_rel" ] ]. plásticamente_x1 := av_i_spr_le & [ STEM < "plásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plásticamente_x_rel" ]. plástico_a1 := a_rel_nonprd_intr_le & [ STEM < "plástico" >, SYNSEM.LKEYS.KEYREL.PRED "_plástico_a_rel" ]. plástico_n1 := n_intr_mass_le & [ STEM < "plástico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_plástico_n_rel" ] ]. plátano_n1 := n_intr_mass_le & [ STEM < "plátano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plátano_n_rel" ] ]. plíntico_a1 := a_rel_nonprd_intr_le & [ STEM < "plíntico" >, SYNSEM.LKEYS.KEYREL.PRED "_plíntico_a_rel" ]. plóter_n1 := n_intr_count_le & [ STEM < "plóter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_plóter_n_rel" ] ]. plúmbeo_a1 := a_rel_nonprd_intr_le & [ STEM < "plúmbeo" >, SYNSEM.LKEYS.KEYREL.PRED "_plúmbeo_a_rel" ]. plúmbicamente_x1 := av_i_spr_le & [ STEM < "plúmbicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_plúmbicamente_x_rel" ]. plúmbico_a1 := a_rel_nonprd_intr_le & [ STEM < "plúmbico" >, SYNSEM.LKEYS.KEYREL.PRED "_plúmbico_a_rel" ]. plúmula_n1 := n_intr_count_le & [ STEM < "plúmula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_plúmula_n_rel" ] ]. pname := n_proper_le & [ STEM < "np00000" > ]. poblacional_a1 := a_rel_nonprd_intr_le & [ STEM < "poblacional" >, SYNSEM.LKEYS.KEYREL.PRED "_poblacional_a_rel" ]. población_n1 := n_intr_coll_le & [ STEM < "población" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_población_n_rel" ] ]. poblado_n1 := n_intr_count_le & [ STEM < "poblado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_poblado_n_rel" ] ]. poblador_n1 := n_subj-nom_le & [ STEM < "poblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poblador_n_rel" ] ]. poblamiento_n1 := n_trans_le & [ STEM < "poblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_poblamiento_n_rel" ]. pobre_a1 := a_qual_intr_ser_le & [ STEM < "pobre" >, SYNSEM.LKEYS.KEYREL.PRED "_pobre_a_rel" ]. pobre_n1 := n_intr_count_le & [ STEM < "pobre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pobre_n_rel" ] ]. pobreza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pobreza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pobreza_n_rel" ] ]. pocha_n1 := n_intr_count_le & [ STEM < "pocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pocha_n_rel" ] ]. pocilga_n1 := n_intr_count_le & [ STEM < "pocilga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pocilga_n_rel" ] ]. poción_n1 := n_intr_mass_le & [ STEM < "poción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poción_n_rel" ] ]. poco_a_poco_x1 := av_i_le & [ STEM < "poco_a_poco" >, SYNSEM.LKEYS.KEYREL.PRED "_poco_a_poco_x_rel" ]. poco_d := d_qnt-evl_poc_le & [ STEM < "poco" > ]. poco_p1 := pr_pseudo-part_poco_le & [ STEM < "poco" > ]. poco_p2 := pr_part_poco_le & [ STEM < "poco" >, SYNSEM.LKEYS.ALTKEYREL.PRED _poco_q_rel ]. poco_x1 := av_qnt-deg_poco_le & [ STEM < "poco" >, SYNSEM.LKEYS.KEYREL.PRED "_poco_x_deg_rel" ]. poco_x2 := av_qnt-pron_poco_le & [ STEM < "poco" > ]. podadera_n1 := n_intr_count_le & [ STEM < "podadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_podadera_n_rel" ] ]. podador_n1 := n_intr_count_le & [ STEM < "podador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_podador_n_rel" ] ]. podador_n2 := n_subj-nom_le & [ STEM < "podador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_podador_n_rel" ] ]. podadora_n1 := n_intr_count_le & [ STEM < "podadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_podadora_n_rel" ] ]. podagra_n1 := n_intr_uncount_le & [ STEM < "podagra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_podagra_n_rel" ] ]. podar_v := v_trans_np*_le & [ STEM < "podar" >, SYNSEM.LKEYS.KEYREL.PRED "_podar_v_rel" ]. poder_v1 := v_impers_cp_prop_fin_sub_le & [ STEM < "poder" >, SYNSEM.LKEYS.KEYREL.PRED "_poder_v_rel" ]. poder_v2 := v_ssr_le & [ STEM < "poder" >, SYNSEM.LKEYS.KEYREL.PRED "_poder_v_rel" ]. poderdante_n1 := n_intr_count_le & [ STEM < "poderdante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poderdante_n_rel" ] ]. poderosamente_x1 := av_i_spr_le & [ STEM < "poderosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_poderosamente_x_rel" ]. poderoso_a1 := a_qual_intr_ser_le & [ STEM < "poderoso" >, SYNSEM.LKEYS.KEYREL.PRED "_poderoso_a_rel" ]. poderío_n1 := n_intr_uncount_pl_le & [ STEM < "poderío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poderío_n_rel" ] ]. podio_n1 := n_intr_count_le & [ STEM < "podio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_podio_n_rel" ] ]. podium_n1 := n_intr_count_le & [ STEM < "podium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_podium_n_rel" ] ]. podología_n1 := n_intr_uncount_le & [ STEM < "podología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_podología_n_rel" ] ]. podrir_v1 := v_pron_intr_le & [ STEM < "podrir" >, SYNSEM.LKEYS.KEYREL.PRED "_podrir_v_rel" ]. podrir_v2 := v_trans_np_le & [ STEM < "podrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_mat, ARG2.SORT cnc_mat, PRED "_podrir_v_rel" ] ]. podsolizar_v := v_trans_np_le & [ STEM < "podsolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_podsolizar_v_rel" ]. podsoluvisol_n1 := n_intr_count_le & [ STEM < "podsoluvisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_podsoluvisol_n_rel" ] ]. podólogo_n1 := n_intr_count_le & [ STEM < "podólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_podólogo_n_rel" ] ]. podómetro_n1 := n_intr_count_le & [ STEM < "podómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_podómetro_n_rel" ] ]. poema_n1 := n_intr_count_le & [ STEM < "poema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poema_n_rel" ] ]. poesía_n1 := n_intr_mass_le & [ STEM < "poesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_poesía_n_rel" ] ]. poeta_n1 := n_intr_count_le & [ STEM < "poeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poeta_n_rel" ] ]. poetisa_n1 := n_intr_count_le & [ STEM < "poetisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poetisa_n_rel" ] ]. poiquilocito_n1 := n_intr_count_le & [ STEM < "poiquilocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poiquilocito_n_rel" ] ]. polaco_a1 := a_rel_prd_le & [ STEM < "polaco" >, SYNSEM.LKEYS.KEYREL.PRED "_polaco_a_rel" ]. polaco_n1 := n_intr_count_le & [ STEM < "polaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polaco_n_rel" ] ]. polaina_n1 := n_intr_count_le & [ STEM < "polaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polaina_n_rel" ] ]. polar_a1 := a_rel_nonprd_intr_le & [ STEM < "polar" >, SYNSEM.LKEYS.KEYREL.PRED "_polar_a_rel" ]. polaridad_n1 := n_intr_mass-or-count_le & [ STEM < "polaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polaridad_n_rel" ] ]. polariscopio_n1 := n_intr_count_le & [ STEM < "polariscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polariscopio_n_rel" ] ]. polariscópicamente_x1 := av_i_spr_le & [ STEM < "polariscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polariscópicamente_x_rel" ]. polariscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "polariscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_polariscópico_a_rel" ]. polarizabilidad_n1 := n_intr_uncount_le & [ STEM < "polarizabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polarizabilidad_n_rel" ] ]. polarizable_a1 := a_rel_nonprd_intr_le & [ STEM < "polarizable" >, SYNSEM.LKEYS.KEYREL.PRED "_polarizable_a_rel" ]. polarizablemente_x1 := av_i_spr_le & [ STEM < "polarizablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_polarizablemente_x_rel" ]. polarización_n1 := n_trans_le & [ STEM < "polarización" >, SYNSEM.LKEYS.KEYREL.PRED "_polarización_n_rel" ]. polarizador_a1 := a_rel_nonprd_intr_le & [ STEM < "polarizador" >, SYNSEM.LKEYS.KEYREL.PRED "_polarizador_a_rel" ]. polarizador_n1 := n_intr_count_le & [ STEM < "polarizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_polarizador_n_rel" ] ]. polarizar_v := v_trans_np_caus_le & [ STEM < "polarizar" >, SYNSEM.LKEYS.KEYREL.PRED "_polarizar_v_rel" ]. polarmente_x1 := av_i_spr_le & [ STEM < "polarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_polarmente_x_rel" ]. polarografía_n1 := n_intr_uncount_pl_le & [ STEM < "polarografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polarografía_n_rel" ] ]. polarográficamente_x1 := av_i_spr_le & [ STEM < "polarográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polarográficamente_x_rel" ]. polarográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "polarográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_polarográfico_a_rel" ]. polarímetricamente_x1 := av_i_spr_le & [ STEM < "polarímetricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polarímetricamente_x_rel" ]. polarímetrico_a1 := a_rel_nonprd_intr_le & [ STEM < "polarímetrico" >, SYNSEM.LKEYS.KEYREL.PRED "_polarímetrico_a_rel" ]. polarímetro_n1 := n_intr_count_le & [ STEM < "polarímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polarímetro_n_rel" ] ]. polca_n1 := n_intr_count_le & [ STEM < "polca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polca_n_rel" ] ]. polea_n1 := n_intr_count_le & [ STEM < "polea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polea_n_rel" ] ]. polemista_n1 := n_intr_count_le & [ STEM < "polemista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polemista_n_rel" ] ]. polemizar_v := v_intr_mrkd_np*_le & [ STEM < "polemizar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_polemizar_v_rel" ] ]. polen_n1 := n_intr_mass_le & [ STEM < "polen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polen_n_rel" ] ]. poliacetal_n1 := n_intr_count_le & [ STEM < "poliacetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliacetal_n_rel" ] ]. poliacetato_n1 := n_intr_count_le & [ STEM < "poliacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliacetato_n_rel" ] ]. poliacrilamida_n1 := n_intr_count_le & [ STEM < "poliacrilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliacrilamida_n_rel" ] ]. poliacrilato_n1 := n_intr_count_le & [ STEM < "poliacrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliacrilato_n_rel" ] ]. poliacrilonitrilo_n1 := n_intr_count_le & [ STEM < "poliacrilonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliacrilonitrilo_n_rel" ] ]. poliacrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "poliacrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_poliacrílico_a_rel" ]. poliaglutinabilidad_n1 := n_intr_uncount_le & [ STEM < "poliaglutinabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliaglutinabilidad_n_rel" ] ]. polialcano_n1 := n_intr_count_le & [ STEM < "polialcano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polialcano_n_rel" ] ]. polialcohol_n1 := n_intr_count_le & [ STEM < "polialcohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polialcohol_n_rel" ] ]. polialómero_n1 := n_intr_mass-or-count_le & [ STEM < "polialómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_polialómero_n_rel" ] ]. poliamida_n1 := n_intr_mass_le & [ STEM < "poliamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliamida_n_rel" ] ]. poliarquía_n1 := n_intr_uncount_pl_le & [ STEM < "poliarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliarquía_n_rel" ] ]. poliatómicamente_x1 := av_i_spr_le & [ STEM < "poliatómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_poliatómicamente_x_rel" ]. poliatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "poliatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_poliatómico_a_rel" ]. polibasita_n1 := n_intr_count_le & [ STEM < "polibasita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polibasita_n_rel" ] ]. polibutadieno_n1 := n_intr_count_le & [ STEM < "polibutadieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polibutadieno_n_rel" ] ]. polibuteno_n1 := n_intr_count_le & [ STEM < "polibuteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polibuteno_n_rel" ] ]. polibutileno_n1 := n_intr_count_le & [ STEM < "polibutileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polibutileno_n_rel" ] ]. polibutiral_n1 := n_intr_count_le & [ STEM < "polibutiral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polibutiral_n_rel" ] ]. polibásicamente_x1 := av_i_spr_le & [ STEM < "polibásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polibásicamente_x_rel" ]. polibásico_a1 := a_rel_nonprd_intr_le & [ STEM < "polibásico" >, SYNSEM.LKEYS.KEYREL.PRED "_polibásico_a_rel" ]. policarbonato_n1 := n_intr_count_le & [ STEM < "policarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policarbonato_n_rel" ] ]. polichinela_n1 := n_intr_count_le & [ STEM < "polichinela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polichinela_n_rel" ] ]. policiaco_a1 := a_rel_nonprd_intr_le & [ STEM < "policiaco" >, SYNSEM.LKEYS.KEYREL.PRED "_policiaco_a_rel" ]. policial_a1 := a_rel_nonprd_intr_le & [ STEM < "policial" >, SYNSEM.LKEYS.KEYREL.PRED "_policial_a_rel" ]. policialmente_x1 := av_i_spr_le & [ STEM < "policialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_policialmente_x_rel" ]. policlonal_a1 := a_rel_nonprd_intr_le & [ STEM < "policlonal" >, SYNSEM.LKEYS.KEYREL.PRED "_policlonal_a_rel" ]. policlorobifenil_n1 := n_intr_count_le & [ STEM < "policlorobifenil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policlorobifenil_n_rel" ] ]. policloropreno_n1 := n_intr_count_le & [ STEM < "policloropreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_policloropreno_n_rel" ] ]. policloroterfenil_n1 := n_intr_count_le & [ STEM < "policloroterfenil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policloroterfenil_n_rel" ] ]. policlorotrifluoretileno_n1 := n_intr_count_le & [ STEM < "policlorotrifluoretileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policlorotrifluoretileno_n_rel" ] ]. policlorotrifluoroetileno_n1 := n_intr_count_le & [ STEM < "policlorotrifluoroetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policlorotrifluoroetileno_n_rel" ] ]. policloruro_n1 := n_intr_mass_le & [ STEM < "policloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policloruro_n_rel" ] ]. policondensación_n1 := n_intr_uncount_le & [ STEM < "policondensación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policondensación_n_rel" ] ]. policorriente_a1 := a_rel_nonprd_intr_le & [ STEM < "policorriente" >, SYNSEM.LKEYS.KEYREL.PRED "_policorriente_a_rel" ]. policristal_n1 := n_intr_count_le & [ STEM < "policristal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_policristal_n_rel" ] ]. policristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "policristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_policristalino_a_rel" ]. policromatófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "policromatófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_policromatófilo_a_rel" ]. policromo_a1 := a_rel_nonprd_intr_le & [ STEM < "policromo" >, SYNSEM.LKEYS.KEYREL.PRED "_policromo_a_rel" ]. policromía_n1 := n_intr_uncount_pl_le & [ STEM < "policromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policromía_n_rel" ] ]. policéntricamente_x1 := av_i_spr_le & [ STEM < "policéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_policéntricamente_x_rel" ]. policéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "policéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_policéntrico_a_rel" ]. policía_n1 := n_intr_mass-or-count_le & [ STEM < "policía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_policía_n_rel" ] ]. policíaco_a1 := a_rel_nonprd_intr_le & [ STEM < "policíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_policíaco_a_rel" ]. policíclicamente_x1 := av_i_spr_le & [ STEM < "policíclicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_policíclicamente_x_rel" ]. policíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "policíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_policíclico_a_rel" ]. policóndrico_a1 := a_rel_nonprd_intr_le & [ STEM < "policóndrico" >, SYNSEM.LKEYS.KEYREL.PRED "_policóndrico_a_rel" ]. policónicamente_x1 := av_i_spr_le & [ STEM < "policónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_policónicamente_x_rel" ]. policónico_a1 := a_rel_nonprd_intr_le & [ STEM < "policónico" >, SYNSEM.LKEYS.KEYREL.PRED "_policónico_a_rel" ]. polideportivo_n1 := n_intr_count_le & [ STEM < "polideportivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_polideportivo_n_rel" ] ]. polidimensional_a1 := a_rel_nonprd_intr_le & [ STEM < "polidimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_polidimensional_a_rel" ]. polidisperso_a1 := a_rel_nonprd_intr_le & [ STEM < "polidisperso" >, SYNSEM.LKEYS.KEYREL.PRED "_polidisperso_a_rel" ]. poliedro_n1 := n_intr_count_le & [ STEM < "poliedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_poliedro_n_rel" ] ]. polienergéticamente_x1 := av_i_spr_le & [ STEM < "polienergéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polienergéticamente_x_rel" ]. polienergético_a1 := a_rel_prd_le & [ STEM < "polienergético" >, SYNSEM.LKEYS.KEYREL.PRED "_polienergético_a_rel" ]. poliestireno_n1 := n_intr_count_le & [ STEM < "poliestireno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliestireno_n_rel" ] ]. poliestirol_n1 := n_intr_count_le & [ STEM < "poliestirol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliestirol_n_rel" ] ]. poliestéricamente_x1 := av_i_spr_le & [ STEM < "poliestéricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_poliestéricamente_x_rel" ]. poliestérico_a1 := a_rel_nonprd_intr_le & [ STEM < "poliestérico" >, SYNSEM.LKEYS.KEYREL.PRED "_poliestérico_a_rel" ]. polietersulfona_n1 := n_intr_count_le & [ STEM < "polietersulfona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polietersulfona_n_rel" ] ]. polietileno_n1 := n_intr_mass_le & [ STEM < "polietileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polietileno_n_rel" ] ]. polietápico_a1 := a_rel_nonprd_intr_le & [ STEM < "polietápico" >, SYNSEM.LKEYS.KEYREL.PRED "_polietápico_a_rel" ]. polifacético_a1 := a_qual_intr_ser_le & [ STEM < "polifacético" >, SYNSEM.LKEYS.KEYREL.PRED "_polifacético_a_rel" ]. polifilarmente_x1 := av_i_spr_le & [ STEM < "polifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_polifilarmente_x_rel" ]. polifluoruro_n1 := n_intr_count_le & [ STEM < "polifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polifluoruro_n_rel" ] ]. polifonía_n1 := n_intr_uncount_pl_le & [ STEM < "polifonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polifonía_n_rel" ] ]. poliformal_n1 := n_intr_count_le & [ STEM < "poliformal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliformal_n_rel" ] ]. poliformaldehído_n1 := n_intr_mass_le & [ STEM < "poliformaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliformaldehído_n_rel" ] ]. polifosfato_n1 := n_intr_mass_le & [ STEM < "polifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polifosfato_n_rel" ] ]. poliftalato_n1 := n_intr_count_le & [ STEM < "poliftalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliftalato_n_rel" ] ]. polifásicamente_x1 := av_i_spr_le & [ STEM < "polifásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polifásicamente_x_rel" ]. polifásico_a1 := a_qual_intr_ser_le & [ STEM < "polifásico" >, SYNSEM.LKEYS.KEYREL.PRED "_polifásico_a_rel" ]. polifónicamente_x1 := av_i_spr_le & [ STEM < "polifónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polifónicamente_x_rel" ]. polifónico_a1 := a_rel_nonprd_intr_le & [ STEM < "polifónico" >, SYNSEM.LKEYS.KEYREL.PRED "_polifónico_a_rel" ]. poligenismo_n1 := n_intr_uncount_le & [ STEM < "poligenismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poligenismo_n_rel" ] ]. poligenético_a1 := a_rel_nonprd_intr_le & [ STEM < "poligenético" >, SYNSEM.LKEYS.KEYREL.PRED "_poligenético_a_rel" ]. poliglicol_n1 := n_intr_count_le & [ STEM < "poliglicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliglicol_n_rel" ] ]. poligonal_a1 := a_rel_nonprd_intr_le & [ STEM < "poligonal" >, SYNSEM.LKEYS.KEYREL.PRED "_poligonal_a_rel" ]. poligonalmente_x1 := av_i_spr_le & [ STEM < "poligonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_poligonalmente_x_rel" ]. poligénico_a1 := a_rel_nonprd_intr_le & [ STEM < "poligénico" >, SYNSEM.LKEYS.KEYREL.PRED "_poligénico_a_rel" ]. polihexametilenadipamida_n1 := n_intr_count_le & [ STEM < "polihexametilenadipamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polihexametilenadipamida_n_rel" ] ]. poliinmunoglobulínico_a1 := a_rel_nonprd_intr_le & [ STEM < "poliinmunoglobulínico" >, SYNSEM.LKEYS.KEYREL.PRED "_poliinmunoglobulínico_a_rel" ]. poliisobutileno_n1 := n_intr_count_le & [ STEM < "poliisobutileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliisobutileno_n_rel" ] ]. poliisocianurato_n1 := n_intr_count_le & [ STEM < "poliisocianurato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliisocianurato_n_rel" ] ]. polilla_n1 := n_intr_count_le & [ STEM < "polilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_polilla_n_rel" ] ]. polimerización_n1 := n_intr_uncount_le & [ STEM < "polimerización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polimerización_n_rel" ] ]. polimerizar_v := v_trans_np*_le & [ STEM < "polimerizar" >, SYNSEM.LKEYS.KEYREL.PRED "_polimerizar_v_rel" ]. polimetacrilato_n1 := n_intr_count_le & [ STEM < "polimetacrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polimetacrilato_n_rel" ] ]. polimetalismo_n1 := n_intr_uncount_le & [ STEM < "polimetalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polimetalismo_n_rel" ] ]. polimineral_a1 := a_rel_nonprd_intr_le & [ STEM < "polimineral" >, SYNSEM.LKEYS.KEYREL.PRED "_polimineral_a_rel" ]. polimixina_n1 := n_intr_count_le & [ STEM < "polimixina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polimixina_n_rel" ] ]. polimorfismo_n1 := n_intr_uncount_le & [ STEM < "polimorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polimorfismo_n_rel" ] ]. polimorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "polimorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_polimorfo_a_rel" ]. polimorfonuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "polimorfonuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_polimorfonuclear_a_rel" ]. polimérico_a1 := a_rel_nonprd_intr_le & [ STEM < "polimérico" >, SYNSEM.LKEYS.KEYREL.PRED "_polimérico_a_rel" ]. polimórfico_a1 := a_rel_prd_le & [ STEM < "polimórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_polimórfico_a_rel" ]. polinesio_a1 := a_rel_prd_le & [ STEM < "polinesio" >, SYNSEM.LKEYS.KEYREL.PRED "_polinesio_a_rel" ]. polinesio_n1 := n_intr_count_le & [ STEM < "polinesio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polinesio_n_rel" ] ]. polinización_n1 := n_intr_uncount_le & [ STEM < "polinización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polinización_n_rel" ] ]. polinizador_n1 := n_intr_count_le & [ STEM < "polinizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polinizador_n_rel" ] ]. polinomial_a1 := a_rel_nonprd_intr_le & [ STEM < "polinomial" >, SYNSEM.LKEYS.KEYREL.PRED "_polinomial_a_rel" ]. polinomialmente_x1 := av_i_spr_le & [ STEM < "polinomialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_polinomialmente_x_rel" ]. polinuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "polinuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_polinuclear_a_rel" ]. polinuclearmente_x1 := av_i_spr_le & [ STEM < "polinuclearmente" >, SYNSEM.LKEYS.KEYREL.PRED "_polinuclearmente_x_rel" ]. polinómico_a1 := a_rel_nonprd_intr_le & [ STEM < "polinómico" >, SYNSEM.LKEYS.KEYREL.PRED "_polinómico_a_rel" ]. polinósico_a1 := a_rel_nonprd_intr_le & [ STEM < "polinósico" >, SYNSEM.LKEYS.KEYREL.PRED "_polinósico_a_rel" ]. poliodoncia_n1 := n_intr_uncount_pl_le & [ STEM < "poliodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliodoncia_n_rel" ] ]. poliolefina_n1 := n_intr_count_le & [ STEM < "poliolefina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliolefina_n_rel" ] ]. poliopía_n1 := n_intr_uncount_le & [ STEM < "poliopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliopía_n_rel" ] ]. polioximetileno_n1 := n_intr_count_le & [ STEM < "polioximetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polioximetileno_n_rel" ] ]. polipeptídico_a1 := a_rel_nonprd_intr_le & [ STEM < "polipeptídico" >, SYNSEM.LKEYS.KEYREL.PRED "_polipeptídico_a_rel" ]. poliploide_a1 := a_rel_nonprd_intr_le & [ STEM < "poliploide" >, SYNSEM.LKEYS.KEYREL.PRED "_poliploide_a_rel" ]. poliploidía_n1 := n_intr_uncount_le & [ STEM < "poliploidía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliploidía_n_rel" ] ]. polipropileno_n1 := n_intr_count_le & [ STEM < "polipropileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polipropileno_n_rel" ] ]. poliprotodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "poliprotodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_poliprotodonto_a_rel" ]. polipéptido_n1 := n_intr_count_le & [ STEM < "polipéptido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polipéptido_n_rel" ] ]. polirradicular_a1 := a_rel_nonprd_intr_le & [ STEM < "polirradicular" >, SYNSEM.LKEYS.KEYREL.PRED "_polirradicular_a_rel" ]. polirribosoma_n1 := n_intr_count_le & [ STEM < "polirribosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polirribosoma_n_rel" ] ]. polisacárido_n1 := n_intr_count_le & [ STEM < "polisacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polisacárido_n_rel" ] ]. polisilogismo_n1 := n_intr_uncount_pl_le & [ STEM < "polisilogismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polisilogismo_n_rel" ] ]. polisilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "polisilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_polisilábico_a_rel" ]. polisintéticamente_x1 := av_i_spr_le & [ STEM < "polisintéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polisintéticamente_x_rel" ]. polisintético_a1 := a_rel_nonprd_intr_le & [ STEM < "polisintético" >, SYNSEM.LKEYS.KEYREL.PRED "_polisintético_a_rel" ]. polisoma_n1 := n_intr_count_le & [ STEM < "polisoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polisoma_n_rel" ] ]. polisopreno_n1 := n_intr_count_le & [ STEM < "polisopreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polisopreno_n_rel" ] ]. polisulfona_n1 := n_intr_count_le & [ STEM < "polisulfona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polisulfona_n_rel" ] ]. polisulfuro_n1 := n_intr_count_le & [ STEM < "polisulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polisulfuro_n_rel" ] ]. polisémicamente_x1 := av_i_spr_le & [ STEM < "polisémicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polisémicamente_x_rel" ]. polisémico_a1 := a_qual_intr_ser_le & [ STEM < "polisémico" >, SYNSEM.LKEYS.KEYREL.PRED "_polisémico_a_rel" ]. polisílabo_a1 := a_rel_nonprd_intr_le & [ STEM < "polisílabo" >, SYNSEM.LKEYS.KEYREL.PRED "_polisílabo_a_rel" ]. politereftalato_n1 := n_intr_count_le & [ STEM < "politereftalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_politereftalato_n_rel" ] ]. politetrafluoetileno_n1 := n_intr_count_le & [ STEM < "politetrafluoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_politetrafluoetileno_n_rel" ] ]. politetrafluoroetileno_n1 := n_intr_count_le & [ STEM < "politetrafluoroetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_politetrafluoroetileno_n_rel" ] ]. politeísta_a1 := a_rel_nonprd_intr_le & [ STEM < "politeísta" >, SYNSEM.LKEYS.KEYREL.PRED "_politeísta_a_rel" ]. politicastro_n1 := n_intr_count_le & [ STEM < "politicastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_politicastro_n_rel" ] ]. politipismo_n1 := n_intr_uncount_le & [ STEM < "politipismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_politipismo_n_rel" ] ]. politización_n1 := n_trans_le & [ STEM < "politización" >, SYNSEM.LKEYS.KEYREL.PRED "_politización_n_rel" ]. politizar_v := v_trans_np_caus_le & [ STEM < "politizar" >, SYNSEM.LKEYS.KEYREL.PRED "_politizar_v_rel" ]. politécnicamente_x1 := av_i_spr_le & [ STEM < "politécnicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_politécnicamente_x_rel" ]. politécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "politécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_politécnico_a_rel" ]. politénico_a1 := a_rel_nonprd_intr_le & [ STEM < "politénico" >, SYNSEM.LKEYS.KEYREL.PRED "_politénico_a_rel" ]. politólogo_n1 := n_intr_count_le & [ STEM < "politólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_politólogo_n_rel" ] ]. poliuretano_n1 := n_intr_count_le & [ STEM < "poliuretano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliuretano_n_rel" ] ]. polivalente_a1 := a_rel_prd_le & [ STEM < "polivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_polivalente_a_rel" ]. polivinilideno_n1 := n_intr_count_le & [ STEM < "polivinilideno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polivinilideno_n_rel" ] ]. polivinilpirrolidona_n1 := n_intr_count_le & [ STEM < "polivinilpirrolidona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polivinilpirrolidona_n_rel" ] ]. polivinílico_a1 := a_rel_nonprd_intr_le & [ STEM < "polivinílico" >, SYNSEM.LKEYS.KEYREL.PRED "_polivinílico_a_rel" ]. polizón_n1 := n_intr_count_le & [ STEM < "polizón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polizón_n_rel" ] ]. poliédrico_a1 := a_qual_intr_ser_le & [ STEM < "poliédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_poliédrico_a_rel" ]. poliéster_n1 := n_intr_mass_le & [ STEM < "poliéster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliéster_n_rel" ] ]. poliéter_n1 := n_intr_count_le & [ STEM < "poliéter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_poliéter_n_rel" ] ]. polióxido_n1 := n_intr_count_le & [ STEM < "polióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polióxido_n_rel" ] ]. poljé_n1 := n_intr_count_le & [ STEM < "poljé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_poljé_n_rel" ] ]. polla_n1 := n_intr_count_le & [ STEM < "polla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_polla_n_rel" ] ]. polla_n2 := n_ppcomp_count_le & [ STEM < "polla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_polla_n_rel" ] ]. pollería_n1 := n_intr_count_le & [ STEM < "pollería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pollería_n_rel" ] ]. pollo_n1 := n_intr_count_le & [ STEM < "pollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pollo_n_rel" ] ]. polluelo_n1 := n_intr_count_le & [ STEM < "polluelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_polluelo_n_rel" ] ]. polo_n1 := n_intr_count_le & [ STEM < "polo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_polo_n_rel" ] ]. polocito_n1 := n_intr_count_le & [ STEM < "polocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polocito_n_rel" ] ]. polonio_n1 := n_intr_mass_le & [ STEM < "polonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polonio_n_rel" ] ]. polonés_a1 := a_rel_prd_le & [ STEM < "polonés" >, SYNSEM.LKEYS.KEYREL.PRED "_polonés_a_rel" ]. polonés_n1 := n_intr_count_le & [ STEM < "polonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polonés_n_rel" ] ]. polucita_n1 := n_intr_count_le & [ STEM < "polucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_polucita_n_rel" ] ]. polución_n1 := n_intr_mass_le & [ STEM < "polución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polución_n_rel" ] ]. polutamente_x1 := av_i_spr_le & [ STEM < "polutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polutamente_x_rel" ]. poluto_a1 := a_qual_intr_scopal_le & [ STEM < "poluto" >, SYNSEM.LKEYS.KEYREL.PRED "_poluto_a_rel" ]. polvera_n1 := n_intr_count_le & [ STEM < "polvera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polvera_n_rel" ] ]. polvo_n1 := n_intr_mass_le & [ STEM < "polvo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polvo_n_rel" ] ]. polvorientamente_x1 := av_i_spr_le & [ STEM < "polvorientamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polvorientamente_x_rel" ]. polvoriento_a1 := a_qual_intr_scopal_le & [ STEM < "polvoriento" >, SYNSEM.LKEYS.KEYREL.PRED "_polvoriento_a_rel" ]. polvorización_n1 := n_trans_le & [ STEM < "polvorización" >, SYNSEM.LKEYS.KEYREL.PRED "_polvorización_n_rel" ]. polvorín_n1 := n_intr_count_le & [ STEM < "polvorín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_mat, PRED "_polvorín_n_rel" ] ]. polémica_n1 := n_intr_count_le & [ STEM < "polémica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polémica_n_rel" ] ]. polémicamente_x1 := av_i_spr_le & [ STEM < "polémicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polémicamente_x_rel" ]. polémico_a1 := a_qual_intr_ser_le & [ STEM < "polémico" >, SYNSEM.LKEYS.KEYREL.PRED "_polémico_a_rel" ]. polícromo_a1 := a_rel_nonprd_intr_le & [ STEM < "polícromo" >, SYNSEM.LKEYS.KEYREL.PRED "_polícromo_a_rel" ]. polífonamente_x1 := av_i_spr_le & [ STEM < "polífonamente" >, SYNSEM.LKEYS.KEYREL.PRED "_polífonamente_x_rel" ]. polífono_a1 := a_rel_nonprd_intr_le & [ STEM < "polífono" >, SYNSEM.LKEYS.KEYREL.PRED "_polífono_a_rel" ]. polígamo_a1 := a_rel_prd_le & [ STEM < "polígamo" >, SYNSEM.LKEYS.KEYREL.PRED "_polígamo_a_rel" ]. polígamo_n1 := n_intr_count_le & [ STEM < "polígamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_polígamo_n_rel" ] ]. políglota_n1 := n_intr_count_le & [ STEM < "políglota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_políglota_n_rel" ] ]. polígono_n1 := n_intr_count_le & [ STEM < "polígono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polígono_n_rel" ] ]. polímero_n1 := n_intr_mass_le & [ STEM < "polímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_polímero_n_rel" ] ]. polínico_a1 := a_rel_nonprd_intr_le & [ STEM < "polínico" >, SYNSEM.LKEYS.KEYREL.PRED "_polínico_a_rel" ]. políticamente_x1 := av_s_le & [ STEM < "políticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_políticamente_x_rel" ]. político-administrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "político-administrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_político-administrativo_a_rel" ]. político-jurídico_a1 := a_rel_nonprd_intr_le & [ STEM < "político-jurídico" >, SYNSEM.LKEYS.KEYREL.PRED "_político-jurídico_a_rel" ]. político_a1 := a_rel_nonprd_intr_le & [ STEM < "político" >, SYNSEM.LKEYS.KEYREL.PRED "_político_a_rel" ]. político_n1 := n_intr_count_le & [ STEM < "político" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_político_n_rel" ] ]. pomada_n1 := n_intr_mass_le & [ STEM < "pomada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pomada_n_rel" ] ]. pomelo_n1 := n_intr_mass_le & [ STEM < "pomelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pomelo_n_rel" ] ]. pomicultor_n1 := n_intr_count_le & [ STEM < "pomicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pomicultor_n_rel" ] ]. pomo_n1 := n_intr_count_le & [ STEM < "pomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pomo_n_rel" ] ]. pompa_n1 := n_intr_count_le & [ STEM < "pompa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pompa_n_rel" ] ]. pompeyano_a1 := a_rel_prd_le & [ STEM < "pompeyano" >, SYNSEM.LKEYS.KEYREL.PRED "_pompeyano_a_rel" ]. pompeyano_n1 := n_intr_count_le & [ STEM < "pompeyano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pompeyano_n_rel" ] ]. pomposamente_x1 := av_i_spr_le & [ STEM < "pomposamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pomposamente_x_rel" ]. pomposidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pomposidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pomposidad_n_rel" ] ]. pomposo_a1 := a_qual_intr_ser_le & [ STEM < "pomposo" >, SYNSEM.LKEYS.KEYREL.PRED "_pomposo_a_rel" ]. ponche_n1 := n_intr_count_le & [ STEM < "ponche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ponche_n_rel" ] ]. ponchera_n1 := n_intr_count_le & [ STEM < "ponchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ponchera_n_rel" ] ]. ponderación_n1 := n_intr_count_le & [ STEM < "ponderación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ponderación_n_rel" ] ]. ponderador_a1 := a_rel_nonprd_intr_le & [ STEM < "ponderador" >, SYNSEM.LKEYS.KEYREL.PRED "_ponderador_a_rel" ]. ponderal_a1 := a_rel_nonprd_intr_le & [ STEM < "ponderal" >, SYNSEM.LKEYS.KEYREL.PRED "_ponderal_a_rel" ]. ponderalmente_x1 := av_i_spr_le & [ STEM < "ponderalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ponderalmente_x_rel" ]. ponderar_v1 := v_trans_cp_prop_fin_le & [ STEM < "ponderar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ponderar_v_rel" ] ]. ponderar_v2 := v_trans_np_le & [ STEM < "ponderar" >, SYNSEM.LKEYS.KEYREL.PRED "_ponderar_v_rel" ]. ponderoso_a1 := a_qual_intr_ser_le & [ STEM < "ponderoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ponderoso_a_rel" ]. ponencia_n1 := n_intr_count_le & [ STEM < "ponencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_ponencia_n_rel" ] ]. ponente_n1 := n_intr_count_le & [ STEM < "ponente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ponente_n_rel" ] ]. poner_v := v_pron_intr_mrkd_vp_ssr_le & [ STEM < "poner" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_poner_v_rel" ] ]. poner_v1 := v_ditrans*_le & [ STEM < "poner" >, SYNSEM.LKEYS.KEYREL.PRED "_poner_v_rel" ]. poner_v2 := v_pron_intr_mrkd_np_le & [ STEM < "poner" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_poner_v_rel" ] ] ]. poner_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "poner" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_poner_v_rel" ] ] ]. poner_v4 := v_trans_np*_mrkd_np_le & [ STEM < "poner" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_poner_v_rel" ] ] ]. poney_n1 := n_intr_count_le & [ STEM < "poney" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_poney_n_rel" ] ]. poniente_n1 := n_intr_count_le & [ STEM < "poniente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_poniente_n_rel" ] ]. pontazguero_n1 := n_intr_count_le & [ STEM < "pontazguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pontazguero_n_rel" ] ]. pontevedrés_n1 := n_intr_count_le & [ STEM < "pontevedrés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pontevedrés_n_rel" ] ]. pontificado_n1 := n_intr_count_le & [ STEM < "pontificado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pontificado_n_rel" ] ]. pontificio_a1 := a_rel_nonprd_intr_le & [ STEM < "pontificio" >, SYNSEM.LKEYS.KEYREL.PRED "_pontificio_a_rel" ]. pontino_a1 := a_rel_nonprd_intr_le & [ STEM < "pontino" >, SYNSEM.LKEYS.KEYREL.PRED "_pontino_a_rel" ]. pontonero_n1 := n_intr_count_le & [ STEM < "pontonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pontonero_n_rel" ] ]. pontífice_n1 := n_intr_count_le & [ STEM < "pontífice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pontífice_n_rel" ] ]. pontón_n1 := n_intr_count_le & [ STEM < "pontón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pontón_n_rel" ] ]. ponzoña_n1 := n_intr_mass_le & [ STEM < "ponzoña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ponzoña_n_rel" ] ]. popa_n1 := n_intr_count_le & [ STEM < "popa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_popa_n_rel" ] ]. popelín_n1 := n_intr_mass-or-count_le & [ STEM < "popelín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_popelín_n_rel" ] ]. poplíteo_a1 := a_rel_nonprd_intr_le & [ STEM < "poplíteo" >, SYNSEM.LKEYS.KEYREL.PRED "_poplíteo_a_rel" ]. popular_a1 := a_qual_intr_ser_le & [ STEM < "popular" >, SYNSEM.LKEYS.KEYREL.PRED "_popular_a_rel" ]. popularidad_n1 := n_intr_mass_le & [ STEM < "popularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_popularidad_n_rel" ] ]. popularización_n1 := n_trans_le & [ STEM < "popularización" >, SYNSEM.LKEYS.KEYREL.PRED "_popularización_n_rel" ]. popularizar_v := v_trans_np_le & [ STEM < "popularizar" >, SYNSEM.LKEYS.KEYREL.PRED "_popularizar_v_rel" ]. popularmente_x1 := av_i_spr_le & [ STEM < "popularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_popularmente_x_rel" ]. populismo_n1 := n_intr_uncount_le & [ STEM < "populismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_populismo_n_rel" ] ]. populista_a1 := a_qual_intr_ser_le & [ STEM < "populista" >, SYNSEM.LKEYS.KEYREL.PRED "_populista_a_rel" ]. populista_n1 := n_intr_count_le & [ STEM < "populista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_populista_n_rel" ] ]. populoso_a1 := a_qual_intr_ser_le & [ STEM < "populoso" >, SYNSEM.LKEYS.KEYREL.PRED "_populoso_a_rel" ]. por_adarmes_x1 := av_i_le & [ STEM < "por_adarmes" >, SYNSEM.LKEYS.KEYREL.PRED "_por_adarmes_x_rel" ]. por_al_lado_de_p_vmod := p_vmod_le & [ STEM < "por_al_lado_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_al_lado_de_p_rel ]. por_amor_de_dios_x1 := av_i_le & [ STEM < "por_amor_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_por_amor_de_Dios_x_rel" ]. por_anticipado_x1 := av_i_le & [ STEM < "por_anticipado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_anticipado_x_rel" ]. por_aquel_entonces_x1 := av_i_le & [ STEM < "por_aquel_entonces" >, SYNSEM.LKEYS.KEYREL.PRED "_por_aquel_entonces_x_rel" ]. por_arte_de_birlibirloque_x1 := av_i_le & [ STEM < "por_arte_de_birlibirloque" >, SYNSEM.LKEYS.KEYREL.PRED "_por_arte_de_birlibirloque_x_rel" ]. por_arte_de_magia_x1 := av_i_le & [ STEM < "por_arte_de_magia" >, SYNSEM.LKEYS.KEYREL.PRED "_por_arte_de_magia_x_rel" ]. por_barba_x1 := av_i_le & [ STEM < "por_barba" >, SYNSEM.LKEYS.KEYREL.PRED "_por_barba_x_rel" ]. por_carambola_x1 := av_i_le & [ STEM < "por_carambola" >, SYNSEM.LKEYS.KEYREL.PRED "_por_carambola_x_rel" ]. por_causa_de_p_vmod := p_vmod_le & [ STEM < "por_causa_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_causa_de_p_rel ]. por_ce_o_por_be_x1 := av_i_le & [ STEM < "por_ce_o_por_be" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ce_o_por_be_x_rel" ]. por_ceremonia_x1 := av_i_le & [ STEM < "por_ceremonia" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ceremonia_x_rel" ]. por_concuerda_x1 := av_i_le & [ STEM < "por_concuerda" >, SYNSEM.LKEYS.KEYREL.PRED "_por_concuerda_x_rel" ]. por_consecuencia_x1 := av_i_le & [ STEM < "por_consecuencia" >, SYNSEM.LKEYS.KEYREL.PRED "_por_consecuencia_x_rel" ]. por_consiguiente_x1 := av_i_le & [ STEM < "por_consiguiente" >, SYNSEM.LKEYS.KEYREL.PRED "_por_consiguiente_x_rel" ]. por_contera_x1 := av_i_le & [ STEM < "por_contera" >, SYNSEM.LKEYS.KEYREL.PRED "_por_contera_x_rel" ]. por_cuatro_reales_x1 := av_i_le & [ STEM < "por_cuatro_reales" >, SYNSEM.LKEYS.KEYREL.PRED "_por_cuatro_reales_x_rel" ]. por_cuenta_de_p_vmod := p_vmod_le & [ STEM < "por_cuenta_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_cuenta_de_p_rel ]. por_cuenta_y_riesgo_x1 := av_i_le & [ STEM < "por_cuenta_y_riesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_por_cuenta_y_riesgo_x_rel" ]. por_de_contado_x1 := av_i_le & [ STEM < "por_de_contado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_de_contado_x_rel" ]. por_de_pronto_x1 := av_i_le & [ STEM < "por_de_pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_de_pronto_x_rel" ]. por_debajo_de_cuerda_x1 := av_i_le & [ STEM < "por_debajo_de_cuerda" >, SYNSEM.LKEYS.KEYREL.PRED "_por_debajo_de_cuerda_x_rel" ]. por_decirlo_así_x1 := av_i_le & [ STEM < "por_decirlo_así" >, SYNSEM.LKEYS.KEYREL.PRED "_por_decirlo_así_x_rel" ]. por_descontado_x1 := av_i_le & [ STEM < "por_descontado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_descontado_x_rel" ]. por_duplicado_x1 := av_i_le & [ STEM < "por_duplicado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_duplicado_x_rel" ]. por_ejemplo_x1 := av_i_le & [ STEM < "por_ejemplo" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ejemplo_x_rel" ]. por_el_centro_de_p_vmod := p_vmod_le & [ STEM < "por_el_centro_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_el_centro_de_p_rel ]. por_el_contrario_x1 := av_i_le & [ STEM < "por_el_contrario" >, SYNSEM.LKEYS.KEYREL.PRED "_por_el_contrario_x_rel" ]. por_el_otro_lado_de_p_vmod := p_vmod_le & [ STEM < "por_el_otro_lado_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_el_otro_lado_de_p_rel ]. por_en_medio_x1 := av_i_le & [ STEM < "por_en_medio" >, SYNSEM.LKEYS.KEYREL.PRED "_por_en_medio_x_rel" ]. por_ende_x1 := av_i_le & [ STEM < "por_ende" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ende_x_rel" ]. por_ensalmo_x1 := av_i_le & [ STEM < "por_ensalmo" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ensalmo_x_rel" ]. por_entonces_x1 := av_i_le & [ STEM < "por_entonces" >, SYNSEM.LKEYS.KEYREL.PRED "_por_entonces_x_rel" ]. por_esos_mundos_de_dios_x1 := av_i_le & [ STEM < "por_esos_mundos_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_por_esos_mundos_de_Dios_x_rel" ]. por_este_lado_de_p_vmod := p_vmod_le & [ STEM < "por_este_lado_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_este_lado_de_p_rel ]. por_favor_x1 := av_i_le & [ STEM < "por_favor" >, SYNSEM.LKEYS.KEYREL.PRED "_por_favor_x_rel" ]. por_fuerza_x1 := av_s_spr_le & [ STEM < "por_fuerza" >, SYNSEM.LKEYS.KEYREL.PRED "_por_fuerza_x_rel" ]. por_hache_o_por_be_x1 := av_i_le & [ STEM < "por_hache_o_por_be" >, SYNSEM.LKEYS.KEYREL.PRED "_por_hache_o_por_be_x_rel" ]. por_igual_x1 := av_i_le & [ STEM < "por_igual" >, SYNSEM.LKEYS.KEYREL.PRED "_por_igual_x_rel" ]. por_intuito_x1 := av_i_le & [ STEM < "por_intuito" >, SYNSEM.LKEYS.KEYREL.PRED "_por_intuito_x_rel" ]. por_la_cuenta_que_sc := sc_prop_fin_le & [ STEM < "por_la_cuenta_que" >, SYNSEM.LKEYS.KEYREL.PRED "_por_la_cuenta_que_x_subord_rel" ]. por_la_gracia_de_dios_x1 := av_i_le & [ STEM < "por_la_gracia_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_por_la_gracia_de_Dios_x_rel" ]. por_lo_bajines_x1 := av_i_le & [ STEM < "por_lo_bajines" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_bajines_x_rel" ]. por_lo_bajini_x1 := av_i_le & [ STEM < "por_lo_bajini" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_bajini_x_rel" ]. por_lo_bajinis_x1 := av_i_le & [ STEM < "por_lo_bajinis" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_bajinis_x_rel" ]. por_lo_claro_x1 := av_i_le & [ STEM < "por_lo_claro" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_claro_x_rel" ]. por_lo_común_x1 := av_i_le & [ STEM < "por_lo_común" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_común_x_rel" ]. por_lo_general_x1 := av_i_le & [ STEM < "por_lo_general" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_general_x_rel" ]. por_lo_menos_x1 := av_i_le & [ STEM < "por_lo_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_menos_x_rel" ]. por_lo_presente_x1 := av_i_le & [ STEM < "por_lo_presente" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_presente_x_rel" ]. por_lo_pronto_x1 := av_i_le & [ STEM < "por_lo_pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_pronto_x_rel" ]. por_lo_tanto_x1 := av_i_le & [ STEM < "por_lo_tanto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_lo_tanto_x_rel" ]. por_medio_de_p_vmod := p_vmod_le & [ STEM < "por_medio_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_medio_de_p_rel ]. por_minutos_x1 := av_i_le & [ STEM < "por_minutos" >, SYNSEM.LKEYS.KEYREL.PRED "_por_minutos_x_rel" ]. por_motivo_de_p_vmod := p_vmod_le & [ STEM < "por_motivo_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_motivo_de_p_rel ]. por_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_sel_rel ]. por_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_sel_rel ]. por_mrk_np := p_mrk_np_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_sel_rel ]. por_mucho_que_sc := sc_prop_fin_le & [ STEM < "por_mucho_que" >, SYNSEM.LKEYS.KEYREL.PRED "_por_mucho_que_x_subord_rel" ]. por_más_que_digas_x1 := av_i_le & [ STEM < "por_más_que_digas" >, SYNSEM.LKEYS.KEYREL.PRED "_por_más_que_digas_x_rel" ]. por_nada_de_el_mundo_x1 := av_i_le & [ STEM < "por_nada_del_mundo" >, SYNSEM.LKEYS.KEYREL.PRED "_por_nada_del_mundo_x_rel" ]. por_ningún_concepto_x1 := av_i_le & [ STEM < "por_ningún_concepto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ningún_concepto_x_rel" ]. por_norma_general_x1 := av_i_le & [ STEM < "por_norma_general" >, SYNSEM.LKEYS.KEYREL.PRED "_por_norma_general_x_rel" ]. por_obra_de_p_vmod := p_vmod_le & [ STEM < "por_obra_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_obra_de_p_rel ]. por_obra_y_gracia_de_p_vmod := p_vmod_le & [ STEM < "por_obra_y_gracia_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_obra_y_gracia_de_p_rel ]. por_onzas_x1 := av_i_le & [ STEM < "por_onzas" >, SYNSEM.LKEYS.KEYREL.PRED "_por_onzas_x_rel" ]. por_otro_lado_x1 := av_i_le & [ STEM < "por_otro_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_otro_lado_x_rel" ]. por_oídas_x1 := av_i_le & [ STEM < "por_oídas" >, SYNSEM.LKEYS.KEYREL.PRED "_por_oídas_x_rel" ]. por_p_ap_vmod := p_ap_vmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_rel ]. por_p_nmod := p_nmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_rel ]. por_p_pp_vmod := p_pp_vmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_rel ]. por_p_temp_vmod := p_temp_vmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_temp_rel ]. por_p_vmod := p_vmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_rel ]. por_p_vp-inf-slash_nmod := p_vp-inf-slash_nmod_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED _por_p_rel ]. por_pura_fórmula_x1 := av_i_le & [ STEM < "por_pura_fórmula" >, SYNSEM.LKEYS.KEYREL.PRED "_por_pura_fórmula_x_rel" ]. por_razón_de_p_vmod := p_vmod_le & [ STEM < "por_razón_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_razón_de_p_rel ]. por_real_decreto_x1 := av_i_le & [ STEM < "por_real_decreto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_real_decreto_x_rel" ]. por_regla_general_x1 := av_i_le & [ STEM < "por_regla_general" >, SYNSEM.LKEYS.KEYREL.PRED "_por_regla_general_x_rel" ]. por_sc := p_vp_inf_le & [ STEM < "por" >, SYNSEM.LKEYS.KEYREL.PRED "_por_x_subord_rel" ]. por_segundo_año_consecutivo_x1 := av_i_le & [ STEM < "por_segundo_año_consecutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_por_segundo_año_consecutivo_x_rel" ]. por_separado_x1 := av_i_le & [ STEM < "por_separado" >, SYNSEM.LKEYS.KEYREL.PRED "_por_separado_x_rel" ]. por_si_acaso_x1 := av_i_le & [ STEM < "por_si_acaso" >, SYNSEM.LKEYS.KEYREL.PRED "_por_si_acaso_x_rel" ]. por_si_las_moscas_x1 := av_i_le & [ STEM < "por_si_las_moscas" >, SYNSEM.LKEYS.KEYREL.PRED "_por_si_las_moscas_x_rel" ]. por_siempre_jamás_x1 := av_i_le & [ STEM < "por_siempre_jamás" >, SYNSEM.LKEYS.KEYREL.PRED "_por_siempre_jamás_x_rel" ]. por_supuesto_x1 := av_i_le & [ STEM < "por_supuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_supuesto_x_rel" ]. por_testa_x1 := av_i_le & [ STEM < "por_testa" >, SYNSEM.LKEYS.KEYREL.PRED "_por_testa_x_rel" ]. por_todo_lo_alto_x1 := av_i_le & [ STEM < "por_todo_lo_alto" >, SYNSEM.LKEYS.KEYREL.PRED "_por_todo_lo_alto_x_rel" ]. por_un_tris_x1 := av_i_le & [ STEM < "por_un_tris" >, SYNSEM.LKEYS.KEYREL.PRED "_por_un_tris_x_rel" ]. por_ventura_x1 := av_i_le & [ STEM < "por_ventura" >, SYNSEM.LKEYS.KEYREL.PRED "_por_ventura_x_rel" ]. por_virtud_de_p_vmod := p_vmod_le & [ STEM < "por_virtud_de" >, SYNSEM.LKEYS.KEYREL.PRED _por_virtud_de_p_rel ]. poral_a1 := a_rel_nonprd_intr_le & [ STEM < "poral" >, SYNSEM.LKEYS.KEYREL.PRED "_poral_a_rel" ]. porcelana_n1 := n_intr_mass_le & [ STEM < "porcelana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_porcelana_n_rel" ] ]. porcentaje_n1 := n_intr_count_le & [ STEM < "porcentaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_porcentaje_n_rel" ] ]. porcentual_a1 := a_rel_nonprd_intr_le & [ STEM < "porcentual" >, SYNSEM.LKEYS.KEYREL.PRED "_porcentual_a_rel" ]. porcentualmente_x1 := av_i_spr_le & [ STEM < "porcentualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_porcentualmente_x_rel" ]. porche_n1 := n_intr_count_le & [ STEM < "porche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_porche_n_rel" ] ]. porcino_a1 := a_rel_nonprd_intr_le & [ STEM < "porcino" >, SYNSEM.LKEYS.KEYREL.PRED "_porcino_a_rel" ]. porción_n1 := n_pseudo-part_le & [ STEM < "porción" >, SYNSEM.LKEYS.KEYREL.PRED "_porción_n_rel" ]. porcupino_a1 := a_rel_nonprd_intr_le & [ STEM < "porcupino" >, SYNSEM.LKEYS.KEYREL.PRED "_porcupino_a_rel" ]. pordiosero_n1 := n_intr_count_le & [ STEM < "pordiosero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pordiosero_n_rel" ] ]. porfiar_v1 := v_trans_cp_prop_fin_le & [ STEM < "porfiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_porfiar_v_rel" ] ]. porfiar_v2 := v_trans_np_le & [ STEM < "porfiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_porfiar_v_rel" ] ]. porfirina_n1 := n_intr_count_le & [ STEM < "porfirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_porfirina_n_rel" ] ]. pormenor_n1 := n_intr_count_le & [ STEM < "pormenor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pormenor_n_rel" ] ]. porno_a1 := a_rel_nonprd_intr_le & [ STEM < "porno" >, SYNSEM.LKEYS.KEYREL.PRED "_porno_a_rel" ]. pornografía_n1 := n_intr_uncount_le & [ STEM < "pornografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pornografía_n_rel" ] ]. pornográfico_a1 := a_qual_intr_ser_le & [ STEM < "pornográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_pornográfico_a_rel" ]. poro_n1 := n_intr_count_le & [ STEM < "poro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poro_n_rel" ] ]. porosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "porosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_porosidad_n_rel" ] ]. poroso_a1 := a_qual_intr_ser_le & [ STEM < "poroso" >, SYNSEM.LKEYS.KEYREL.PRED "_poroso_a_rel" ]. porosímetro_n1 := n_intr_count_le & [ STEM < "porosímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_porosímetro_n_rel" ] ]. porque_sc := sc_prop_fin_le & [ STEM < "porque" >, SYNSEM.LKEYS.KEYREL.PRED "_porque_x_subord_rel" ]. porquería_n1 := n_intr_count_le & [ STEM < "porquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_porquería_n_rel" ] ]. porra_n1 := n_intr_count_le & [ STEM < "porra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_porra_n_rel" ] ]. porta_n1 := n_intr_count_le & [ STEM < "porta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_porta_n_rel" ] ]. portaacumulador_n1 := n_intr_count_le & [ STEM < "portaacumulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_portaacumulador_n_rel" ] ]. portaaguja_n1 := n_intr_count_le & [ STEM < "portaaguja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaaguja_n_rel" ] ]. portaamalgama_n1 := n_intr_count_le & [ STEM < "portaamalgama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaamalgama_n_rel" ] ]. portaaspersor_n1 := n_intr_count_le & [ STEM < "portaaspersor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaaspersor_n_rel" ] ]. portaaviones_n1 := n_intr_count_le & [ STEM < "portaaviones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_portaaviones_n_rel" ] ]. portabidón_n1 := n_intr_count_le & [ STEM < "portabidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portabidón_n_rel" ] ]. portabilidad_n1 := n_intr_uncount_le & [ STEM < "portabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portabilidad_n_rel" ] ]. portable_a1 := a_rel_prd_le & [ STEM < "portable" >, SYNSEM.LKEYS.KEYREL.PRED "_portable_a_rel" ]. portablocs_n1 := n_intr_count_le & [ STEM < "portablocs" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portablocs_n_rel" ] ]. portabrocas_n1 := n_intr_count_le & [ STEM < "portabrocas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portabrocas_n_rel" ] ]. portacarabina_n1 := n_intr_count_le & [ STEM < "portacarabina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portacarabina_n_rel" ] ]. portacontenedores_n1 := n_intr_count_le & [ STEM < "portacontenedores" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portacontenedores_n_rel" ] ]. portacubiertos_n1 := n_intr_count_le & [ STEM < "portacubiertos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portacubiertos_n_rel" ] ]. portada_n1 := n_intr_count_le & [ STEM < "portada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portada_n_rel" ] ]. portadique_n1 := n_intr_count_le & [ STEM < "portadique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portadique_n_rel" ] ]. portador_a1 := a_rel_nonprd_intr_le & [ STEM < "portador" >, SYNSEM.LKEYS.KEYREL.PRED "_portador_a_rel" ]. portador_n1 := n_subj-nom_le & [ STEM < "portador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_portador_n_rel" ] ]. portaelectrodo_n1 := n_intr_count_le & [ STEM < "portaelectrodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaelectrodo_n_rel" ] ]. portaequipaje_n1 := n_intr_mass_le & [ STEM < "portaequipaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaequipaje_n_rel" ] ]. portaequipajes_n1 := n_intr_count_le & [ STEM < "portaequipajes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_portaequipajes_n_rel" ] ]. portaescobillas_n1 := n_intr_count_le & [ STEM < "portaescobillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaescobillas_n_rel" ] ]. portaetiquetas_n1 := n_intr_count_le & [ STEM < "portaetiquetas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaetiquetas_n_rel" ] ]. portafiltros_n1 := n_intr_count_le & [ STEM < "portafiltros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portafiltros_n_rel" ] ]. portafolio_n1 := n_intr_count_le & [ STEM < "portafolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_portafolio_n_rel" ] ]. portafolios_n1 := n_intr_count_le & [ STEM < "portafolios" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portafolios_n_rel" ] ]. portafusible_n1 := n_intr_count_le & [ STEM < "portafusible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portafusible_n_rel" ] ]. portagelatinas_n1 := n_intr_count_le & [ STEM < "portagelatinas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portagelatinas_n_rel" ] ]. portagrapas_n1 := n_intr_count_le & [ STEM < "portagrapas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portagrapas_n_rel" ] ]. portahelicópteros_n1 := n_intr_count_le & [ STEM < "portahelicópteros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portahelicópteros_n_rel" ] ]. portaherramientas_n1 := n_intr_count_le & [ STEM < "portaherramientas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaherramientas_n_rel" ] ]. portaimán_n1 := n_intr_count_le & [ STEM < "portaimán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaimán_n_rel" ] ]. portainjerto_n1 := n_intr_count_le & [ STEM < "portainjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portainjerto_n_rel" ] ]. portal_n1 := n_intr_count_le & [ STEM < "portal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_portal_n_rel" ] ]. portaligas_n1 := n_intr_count_le & [ STEM < "portaligas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaligas_n_rel" ] ]. portalámparas_n1 := n_intr_count_le & [ STEM < "portalámparas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portalámparas_n_rel" ] ]. portalón_n1 := n_intr_count_le & [ STEM < "portalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_portalón_n_rel" ] ]. portamachos_n1 := n_intr_count_le & [ STEM < "portamachos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamachos_n_rel" ] ]. portamapas_n1 := n_intr_count_le & [ STEM < "portamapas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamapas_n_rel" ] ]. portamatriz_n1 := n_intr_count_le & [ STEM < "portamatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamatriz_n_rel" ] ]. portamicrófonos_n1 := n_intr_count_le & [ STEM < "portamicrófonos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamicrófonos_n_rel" ] ]. portaminas_n1 := n_intr_count_le & [ STEM < "portaminas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaminas_n_rel" ] ]. portamolde_n1 := n_intr_count_le & [ STEM < "portamolde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamolde_n_rel" ] ]. portamonedas_n1 := n_intr_count_le & [ STEM < "portamonedas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portamonedas_n_rel" ] ]. portante_n1 := n_intr_count_le & [ STEM < "portante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portante_n_rel" ] ]. portaobjetivo_n1 := n_intr_count_le & [ STEM < "portaobjetivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaobjetivo_n_rel" ] ]. portaobjetos_n1 := n_intr_count_le & [ STEM < "portaobjetos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaobjetos_n_rel" ] ]. portapapeles_n1 := n_intr_count_le & [ STEM < "portapapeles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portapapeles_n_rel" ] ]. portapiezas_n1 := n_intr_count_le & [ STEM < "portapiezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portapiezas_n_rel" ] ]. portaplanos_n1 := n_intr_count_le & [ STEM < "portaplanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaplanos_n_rel" ] ]. portapulidora_n1 := n_intr_count_le & [ STEM < "portapulidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portapulidora_n_rel" ] ]. portarollos_n1 := n_intr_count_le & [ STEM < "portarollos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portarollos_n_rel" ] ]. portasellos_n1 := n_intr_count_le & [ STEM < "portasellos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portasellos_n_rel" ] ]. portaservilleta_n1 := n_intr_count_le & [ STEM < "portaservilleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaservilleta_n_rel" ] ]. portaterrajas_n1 := n_intr_count_le & [ STEM < "portaterrajas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portaterrajas_n_rel" ] ]. portaviones_n1 := n_intr_count_le & [ STEM < "portaviones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_portaviones_n_rel" ] ]. portavoz_n1 := n_intr_count_le & [ STEM < "portavoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_portavoz_n_rel" ] ]. portazapatas_n1 := n_intr_count_le & [ STEM < "portazapatas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portazapatas_n_rel" ] ]. portazo_n1 := n_intr_count_le & [ STEM < "portazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portazo_n_rel" ] ]. portañuela_n1 := n_intr_count_le & [ STEM < "portañuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portañuela_n_rel" ] ]. porteador_n1 := n_subj-nom_le & [ STEM < "porteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_porteador_n_rel" ] ]. portero_n1 := n_intr_count_le & [ STEM < "portero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_portero_n_rel" ] ]. portería_n1 := n_intr_count_le & [ STEM < "portería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_portería_n_rel" ] ]. porteño_n1 := n_intr_count_le & [ STEM < "porteño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_porteño_n_rel" ] ]. portilla_n1 := n_intr_count_le & [ STEM < "portilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_portilla_n_rel" ] ]. portillo_n1 := n_intr_count_le & [ STEM < "portillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portillo_n_rel" ] ]. portopolipasto_a1 := a_rel_nonprd_intr_le & [ STEM < "portopolipasto" >, SYNSEM.LKEYS.KEYREL.PRED "_portopolipasto_a_rel" ]. portorriqueño_a1 := a_rel_prd_le & [ STEM < "portorriqueño" >, SYNSEM.LKEYS.KEYREL.PRED "_portorriqueño_a_rel" ]. portorriqueño_n1 := n_intr_count_le & [ STEM < "portorriqueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_portorriqueño_n_rel" ] ]. portuario_a1 := a_rel_nonprd_intr_le & [ STEM < "portuario" >, SYNSEM.LKEYS.KEYREL.PRED "_portuario_a_rel" ]. portugués_a1 := a_rel_prd_le & [ STEM < "portugués" >, SYNSEM.LKEYS.KEYREL.PRED "_portugués_a_rel" ]. portugués_n1 := n_intr_count_le & [ STEM < "portugués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_portugués_n_rel" ] ]. portulano_n1 := n_intr_count_le & [ STEM < "portulano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_portulano_n_rel" ] ]. portátil_a1 := a_rel_nonprd_intr_le & [ STEM < "portátil" >, SYNSEM.LKEYS.KEYREL.PRED "_portátil_a_rel" ]. portátil_n1 := n_intr_count_le & [ STEM < "portátil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_portátil_n_rel" ] ]. porímetro_n1 := n_intr_count_le & [ STEM < "porímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_porímetro_n_rel" ] ]. posada_n1 := n_intr_count_le & [ STEM < "posada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_posada_n_rel" ] ]. posar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "posar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_posar_v_rel" ] ] ]. posar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "posar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_posar_v_rel" ] ] ]. posavasos_n1 := n_intr_count_le & [ STEM < "posavasos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_posavasos_n_rel" ] ]. poscentral_a1 := a_rel_nonprd_intr_le & [ STEM < "poscentral" >, SYNSEM.LKEYS.KEYREL.PRED "_poscentral_a_rel" ]. poscombustión_n1 := n_intr_count_le & [ STEM < "poscombustión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poscombustión_n_rel" ] ]. posdata_n1 := n_intr_count_le & [ STEM < "posdata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_posdata_n_rel" ] ]. poseedor_n1 := n_subj-nom_le & [ STEM < "poseedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poseedor_n_rel" ] ]. poseer_v := v_trans_np_le & [ STEM < "poseer" >, SYNSEM.LKEYS.KEYREL.PRED "_poseer_v_rel" ]. posesivo_a1 := a_qual_intr_ser_le & [ STEM < "posesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_posesivo_a_rel" ]. posesión_n1 := n_trans_le & [ STEM < "posesión" >, SYNSEM.LKEYS.KEYREL.PRED "_posesión_n_rel" ]. poseso_n1 := n_intr_count_le & [ STEM < "poseso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_poseso_n_rel" ] ]. posganglionar_a1 := a_rel_nonprd_intr_le & [ STEM < "posganglionar" >, SYNSEM.LKEYS.KEYREL.PRED "_posganglionar_a_rel" ]. posgrado_n := n_intr_count_le & [ STEM < "posgrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_posgrado_n_rel" ] ]. posibilismo_n1 := n_intr_uncount_le & [ STEM < "posibilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posibilismo_n_rel" ] ]. posibilista_a1 := a_qual_intr_ser_le & [ STEM < "posibilista" >, SYNSEM.LKEYS.KEYREL.PRED "_posibilista_a_rel" ]. posibilista_n1 := n_intr_count_le & [ STEM < "posibilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_posibilista_n_rel" ] ]. posibilitar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "posibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_posibilitar_v_rel" ] ]. posibilitar_v2 := v_ditrans*_le & [ STEM < "posibilitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_posibilitar_v_rel" ] ]. posibilitar_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "posibilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_posibilitar_v_rel" ]. posibilitar_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "posibilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_posibilitar_v_rel" ]. posible_a1 := a_qual_intr_ser_le & [ STEM < "posible" >, SYNSEM.LKEYS.KEYREL.PRED "_posible_a_rel" ]. posiblemente_x1 := av_s_prhd_spr_le & [ STEM < "posiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_posiblemente_x_rel" ]. posicionable_a1 := a_rel_prd_le & [ STEM < "posicionable" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionable_a_rel" ]. posicionado_n1 := n_event-result_intr_le & [ STEM < "posicionado" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionado_n_rel" ]. posicionador_a1 := a_rel_nonprd_intr_le & [ STEM < "posicionador" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionador_a_rel" ]. posicionador_n1 := n_intr_count_le & [ STEM < "posicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_posicionador_n_rel" ] ]. posicionadormente_x1 := av_i_spr_le & [ STEM < "posicionadormente" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionadormente_x_rel" ]. posicional_a1 := a_rel_nonprd_intr_le & [ STEM < "posicional" >, SYNSEM.LKEYS.KEYREL.PRED "_posicional_a_rel" ]. posicionalmente_x1 := av_i_spr_le & [ STEM < "posicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionalmente_x_rel" ]. posicionamiento_n1 := n_result_intr_le & [ STEM < "posicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionamiento_n_rel" ]. posicionar_v := v_trans_np_le & [ STEM < "posicionar" >, SYNSEM.LKEYS.KEYREL.PRED "_posicionar_v_rel" ]. posición_n1 := n_intr_count_le & [ STEM < "posición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posición_n_rel" ] ]. decúbito_n1 := n_intr_count_le & [ STEM < "decúbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_decúbito_n_rel" ] ]. positivamente_x1 := av_i_spr_le & [ STEM < "positivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_positivamente_x_rel" ]. positivismo_n1 := n_intr_uncount_le & [ STEM < "positivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_positivismo_n_rel" ] ]. positivista_a1 := a_qual_intr_ser_le & [ STEM < "positivista" >, SYNSEM.LKEYS.KEYREL.PRED "_positivista_a_rel" ]. positivista_n1 := n_intr_count_le & [ STEM < "positivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_positivista_n_rel" ] ]. positivo_a1 := a_qual_intr_ser_le & [ STEM < "positivo" >, SYNSEM.LKEYS.KEYREL.PRED "_positivo_a_rel" ]. positivo_n1 := n_intr_count_le & [ STEM < "positivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_positivo_n_rel" ] ]. positrón_n1 := n_intr_count_le & [ STEM < "positrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_positrón_n_rel" ] ]. poso_n1 := n_intr_count_le & [ STEM < "poso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poso_n_rel" ] ]. posología_n1 := n_intr_uncount_pl_le & [ STEM < "posología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posología_n_rel" ] ]. posponer_v := v_trans_np_le & [ STEM < "posponer" >, SYNSEM.LKEYS.KEYREL.PRED "_posponer_v_rel" ]. posposición_n1 := n_trans_le & [ STEM < "posposición" >, SYNSEM.LKEYS.KEYREL.PRED "_posposición_n_rel" ]. posta_n1 := n_intr_count_le & [ STEM < "posta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_posta_n_rel" ] ]. postal_a1 := a_rel_nonprd_intr_le & [ STEM < "postal" >, SYNSEM.LKEYS.KEYREL.PRED "_postal_a_rel" ]. postal_n1 := n_intr_count_le & [ STEM < "postal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_postal_n_rel" ] ]. postalmente_x1 := av_i_spr_le & [ STEM < "postalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_postalmente_x_rel" ]. postalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "postalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_postalveolar_a_rel" ]. postbucal_a1 := a_rel_nonprd_intr_le & [ STEM < "postbucal" >, SYNSEM.LKEYS.KEYREL.PRED "_postbucal_a_rel" ]. postcondíleo_a1 := a_rel_nonprd_intr_le & [ STEM < "postcondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_postcondíleo_a_rel" ]. postconectar_v := v_trans_np_mrkd_np*_le & [ STEM < "postconectar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_postconectar_v_rel" ] ]. postcranial_a1 := a_rel_nonprd_intr_le & [ STEM < "postcranial" >, SYNSEM.LKEYS.KEYREL.PRED "_postcranial_a_rel" ]. postdelictual_a1 := a_rel_nonprd_intr_le & [ STEM < "postdelictual" >, SYNSEM.LKEYS.KEYREL.PRED "_postdelictual_a_rel" ]. postdelictualidad_n1 := n_intr_uncount_le & [ STEM < "postdelictualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postdelictualidad_n_rel" ] ]. postdelictualmente_x1 := av_i_spr_le & [ STEM < "postdelictualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_postdelictualmente_x_rel" ]. poste_n1 := n_intr_count_le & [ STEM < "poste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poste_n_rel" ] ]. postecualización_n1 := n_trans_le & [ STEM < "postecualización" >, SYNSEM.LKEYS.KEYREL.PRED "_postecualización_n_rel" ]. postedición_n1 := n_trans_le & [ STEM < "postedición" >, SYNSEM.LKEYS.KEYREL.PRED "_postedición_n_rel" ]. posteditar_v := v_trans_np*_le & [ STEM < "posteditar" >, SYNSEM.LKEYS.KEYREL.PRED "_posteditar_v_rel" ]. postergación_n1 := n_trans_le & [ STEM < "postergación" >, SYNSEM.LKEYS.KEYREL.PRED "_postergación_n_rel" ]. postergar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "postergar" >, SYNSEM.LKEYS.KEYREL.PRED "_postergar_v_rel" ]. postergar_v2 := v_trans_np_le & [ STEM < "postergar" >, SYNSEM.LKEYS.KEYREL.PRED "_postergar_v_rel" ]. posteridad_n1 := n_intr_uncount_le & [ STEM < "posteridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posteridad_n_rel" ] ]. posteridad_n2 := n_intr_count_le & [ STEM < "posteridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posteridad_n_rel" ] ]. posterior_a1 := a_compar_alt_le & [ STEM < "posterior" >, SYNSEM.LKEYS.KEYREL.PRED "_posterior_a_rel" ]. posterioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "posterioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posterioridad_n_rel" ] ]. posteriormente_a_p_vmod := p_vmod_le & [ STEM < "posteriormente_a" >, SYNSEM.LKEYS.KEYREL.PRED _posteriormente_a_p_rel ]. posteriormente_x1 := av_i_spr_le & [ STEM < "posteriormente" >, SYNSEM.LKEYS.KEYREL.PRED "_posteriormente_x_rel" ]. posterolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "posterolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_posterolateral_a_rel" ]. posterotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "posterotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_posterotemporal_a_rel" ]. postesfenoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "postesfenoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_postesfenoidal_a_rel" ]. postgrado_n := n_intr_count_le & [ STEM < "postgrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_postgrado_n_rel" ] ]. posthemorrágico_a1 := a_rel_nonprd_intr_le & [ STEM < "posthemorrágico" >, SYNSEM.LKEYS.KEYREL.PRED "_posthemorrágico_a_rel" ]. postigo_n1 := n_intr_count_le & [ STEM < "postigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_postigo_n_rel" ] ]. postindustrial_a1 := a_rel_nonprd_intr_le & [ STEM < "postindustrial" >, SYNSEM.LKEYS.KEYREL.PRED "_postindustrial_a_rel" ]. postinstalar_v := v_ditrans*_le & [ STEM < "postinstalar" >, SYNSEM.LKEYS.KEYREL.PRED "_postinstalar_v_rel" ]. postizo_a1 := a_rel_nonprd_intr_le & [ STEM < "postizo" >, SYNSEM.LKEYS.KEYREL.PRED "_postizo_a_rel" ]. postizo_n1 := n_intr_count_le & [ STEM < "postizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_postizo_n_rel" ] ]. postlingual_a1 := a_rel_nonprd_intr_le & [ STEM < "postlingual" >, SYNSEM.LKEYS.KEYREL.PRED "_postlingual_a_rel" ]. postmodernismo_n1 := n_intr_uncount_le & [ STEM < "postmodernismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postmodernismo_n_rel" ] ]. postnupcial_a1 := a_rel_nonprd_intr_le & [ STEM < "postnupcial" >, SYNSEM.LKEYS.KEYREL.PRED "_postnupcial_a_rel" ]. postobligatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "postobligatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_postobligatorio_a_rel" ]. postoperatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "postoperatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_postoperatorio_a_rel" ]. postor_n1 := n_intr_count_le & [ STEM < "postor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_postor_n_rel" ] ]. postpalatal_a1 := a_rel_nonprd_intr_le & [ STEM < "postpalatal" >, SYNSEM.LKEYS.KEYREL.PRED "_postpalatal_a_rel" ]. postpaís_n1 := n_intr_count_le & [ STEM < "postpaís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_postpaís_n_rel" ] ]. postponer_v := v_trans_np_le & [ STEM < "postponer" >, SYNSEM.LKEYS.KEYREL.PRED "_postponer_v_rel" ]. postprocesador_n1 := n_intr_count_le & [ STEM < "postprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_postprocesador_n_rel" ] ]. postprocesar_v := v_trans_np_le & [ STEM < "postprocesar" >, SYNSEM.LKEYS.KEYREL.PRED "_postprocesar_v_rel" ]. postprocesual_a1 := a_rel_nonprd_intr_le & [ STEM < "postprocesual" >, SYNSEM.LKEYS.KEYREL.PRED "_postprocesual_a_rel" ]. postproducción_n1 := n_intr_uncount_le & [ STEM < "postproducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postproducción_n_rel" ] ]. postración_n1 := n_trans_le & [ STEM < "postración" >, SYNSEM.LKEYS.KEYREL.PRED "_postración_n_rel" ]. postransfusional_a1 := a_rel_nonprd_intr_le & [ STEM < "postransfusional" >, SYNSEM.LKEYS.KEYREL.PRED "_postransfusional_a_rel" ]. postrar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "postrar" >, SYNSEM.LKEYS.KEYREL.PRED "_postrar_v_rel" ]. postrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "postrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_postrar_v_rel" ] ] ]. postrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "postrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_postrar_v_rel" ] ] ]. postre_n1 := n_intr_count_le & [ STEM < "postre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_postre_n_rel" ] ]. postremo_a1 := a_rel_nonprd_intr_le & [ STEM < "postremo" >, SYNSEM.LKEYS.KEYREL.PRED "_postremo_a_rel" ]. postrero_a1 := a_rel_nonprd_intr_le & [ STEM < "postrero" >, SYNSEM.LKEYS.KEYREL.PRED "_postrero_a_rel" ]. postsecundario_a1 := a_rel_nonprd_intr_le & [ STEM < "postsecundario" >, SYNSEM.LKEYS.KEYREL.PRED "_postsecundario_a_rel" ]. postsincronización_n1 := n_intr_uncount_le & [ STEM < "postsincronización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postsincronización_n_rel" ] ]. postulable_a1 := a_rel_nonprd_intr_le & [ STEM < "postulable" >, SYNSEM.LKEYS.KEYREL.PRED "_postulable_a_rel" ]. postulación_n1 := n_trans_le & [ STEM < "postulación" >, SYNSEM.LKEYS.KEYREL.PRED "_postulación_n_rel" ]. postulado_n1 := n_intr_count_le & [ STEM < "postulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postulado_n_rel" ] ]. postura_n1 := n_intr_count_le & [ STEM < "postura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postura_n_rel" ] ]. postural_a1 := a_rel_nonprd_intr_le & [ STEM < "postural" >, SYNSEM.LKEYS.KEYREL.PRED "_postural_a_rel" ]. posturalmente_x1 := av_i_spr_le & [ STEM < "posturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_posturalmente_x_rel" ]. postverbal_a1 := a_rel_nonprd_intr_le & [ STEM < "postverbal" >, SYNSEM.LKEYS.KEYREL.PRED "_postverbal_a_rel" ]. postámbulo_n1 := n_intr_count_le & [ STEM < "postámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_postámbulo_n_rel" ] ]. postónico_a1 := a_rel_nonprd_intr_le & [ STEM < "postónico" >, SYNSEM.LKEYS.KEYREL.PRED "_postónico_a_rel" ]. pota_n1 := n_intr_count_le & [ STEM < "pota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pota_n_rel" ] ]. potabilizar_v := v_trans_np_le & [ STEM < "potabilizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_mat_pro_soc, ARG2.SORT cnc_mat, PRED "_potabilizar_v_rel" ] ]. potable_a1 := a_qual_intr_scopal_le & [ STEM < "potable" >, SYNSEM.LKEYS.KEYREL.PRED "_potable_a_rel" ]. potablemente_x1 := av_i_spr_le & [ STEM < "potablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_potablemente_x_rel" ]. potamología_n1 := n_intr_uncount_le & [ STEM < "potamología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_potamología_n_rel" ] ]. potasa_n1 := n_intr_mass_le & [ STEM < "potasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_potasa_n_rel" ] ]. potasio_n1 := n_intr_mass_le & [ STEM < "potasio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_potasio_n_rel" ] ]. pote_n1 := n_intr_count_le & [ STEM < "pote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pote_n_rel" ] ]. potencia_n1 := n_intr_mass_le & [ STEM < "potencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_potencia_n_rel" ] ]. potenciación_n1 := n_trans_le & [ STEM < "potenciación" >, SYNSEM.LKEYS.KEYREL.PRED "_potenciación_n_rel" ]. potenciador_n1 := n_intr_count_le & [ STEM < "potenciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_potenciador_n_rel" ] ]. potencial_a1 := a_qual_intr_ser_le & [ STEM < "potencial" >, SYNSEM.LKEYS.KEYREL.PRED "_potencial_a_rel" ]. potencial_n1 := n_intr_count_le & [ STEM < "potencial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_potencial_n_rel" ] ]. potencialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "potencialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_potencialidad_n_rel" ] ]. potencialmente_x1 := av_i_spr_le & [ STEM < "potencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_potencialmente_x_rel" ]. potenciar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "potenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_potenciar_v_rel" ]. potenciar_v2 := v_trans_np_le & [ STEM < "potenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_potenciar_v_rel" ]. potenciómetro_n1 := n_intr_count_le & [ STEM < "potenciómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_potenciómetro_n_rel" ] ]. potentado_n1 := n_intr_count_le & [ STEM < "potentado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_potentado_n_rel" ] ]. potente_a1 := a_qual_intr_ser_le & [ STEM < "potente" >, SYNSEM.LKEYS.KEYREL.PRED "_potente_a_rel" ]. potentemente_x1 := av_i_spr_le & [ STEM < "potentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_potentemente_x_rel" ]. potenza_n1 := n_intr_count_le & [ STEM < "potenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_potenza_n_rel" ] ]. poterna_n1 := n_intr_count_le & [ STEM < "poterna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poterna_n_rel" ] ]. potestad_n1 := n_intr_count_le & [ STEM < "potestad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_potestad_n_rel" ] ]. potestativo_a1 := a_rel_nonprd_intr_le & [ STEM < "potestativo" >, SYNSEM.LKEYS.KEYREL.PRED "_potestativo_a_rel" ]. potro_n1 := n_intr_count_le & [ STEM < "potro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_potro_n_rel" ] ]. potásicamente_x1 := av_i_spr_le & [ STEM < "potásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_potásicamente_x_rel" ]. potásico_a1 := a_rel_nonprd_intr_le & [ STEM < "potásico" >, SYNSEM.LKEYS.KEYREL.PRED "_potásico_a_rel" ]. powellita_n1 := n_intr_count_le & [ STEM < "powellita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_powellita_n_rel" ] ]. poyal_n1 := n_intr_count_le & [ STEM < "poyal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poyal_n_rel" ] ]. poyete_n1 := n_intr_count_le & [ STEM < "poyete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_poyete_n_rel" ] ]. poza_n1 := n_intr_count_le & [ STEM < "poza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_poza_n_rel" ] ]. pozo_n1 := n_intr_count_le & [ STEM < "pozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pozo_n_rel" ] ]. poéticamente_x1 := av_i_spr_le & [ STEM < "poéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_poéticamente_x_rel" ]. poético_a1 := a_qual_intr_ser_le & [ STEM < "poético" >, SYNSEM.LKEYS.KEYREL.PRED "_poético_a_rel" ]. practicable_a1 := a_rel_prd_le & [ STEM < "practicable" >, SYNSEM.LKEYS.KEYREL.PRED "_practicable_a_rel" ]. practicablemente_x1 := av_i_spr_le & [ STEM < "practicablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_practicablemente_x_rel" ]. practicaje_n1 := n_intr_uncount_le & [ STEM < "practicaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_practicaje_n_rel" ] ]. practicaje_n2 := n_intr_count_le & [ STEM < "practicaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_practicaje_n_rel" ] ]. practicante_n1 := n_intr_count_le & [ STEM < "practicante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_practicante_n_rel" ] ]. pradera_n1 := n_intr_count_le & [ STEM < "pradera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pradera_n_rel" ] ]. prado_n1 := n_intr_count_le & [ STEM < "prado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_prado_n_rel" ] ]. pragmatismo_n1 := n_intr_mass_le & [ STEM < "pragmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pragmatismo_n_rel" ] ]. pragmatista_n1 := n_intr_count_le & [ STEM < "pragmatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pragmatista_n_rel" ] ]. pragmáticamente_x1 := av_i_spr_le & [ STEM < "pragmáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pragmáticamente_x_rel" ]. pragmático_a1 := a_qual_intr_ser_le & [ STEM < "pragmático" >, SYNSEM.LKEYS.KEYREL.PRED "_pragmático_a_rel" ]. praseodimio_n1 := n_intr_mass_le & [ STEM < "praseodimio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_praseodimio_n_rel" ] ]. prasio_n1 := n_intr_count_le & [ STEM < "prasio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prasio_n_rel" ] ]. prasiolita_n1 := n_intr_count_le & [ STEM < "prasiolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prasiolita_n_rel" ] ]. praticultura_n1 := n_intr_uncount_le & [ STEM < "praticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_praticultura_n_rel" ] ]. preacentuación_n1 := n_trans_le & [ STEM < "preacentuación" >, SYNSEM.LKEYS.KEYREL.PRED "_preacentuación_n_rel" ]. prealmacenamiento_n1 := n_trans_le & [ STEM < "prealmacenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_prealmacenamiento_n_rel" ]. prealmacenar_v := v_trans_np_le & [ STEM < "prealmacenar" >, SYNSEM.LKEYS.KEYREL.PRED "_prealmacenar_v_rel" ]. preamplificador_n1 := n_intr_count_le & [ STEM < "preamplificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_preamplificador_n_rel" ] ]. preanuncio_n1 := n_intr_count_le & [ STEM < "preanuncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_preanuncio_n_rel" ] ]. prearmadamente_x1 := av_i_spr_le & [ STEM < "prearmadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prearmadamente_x_rel" ]. preasignar_v := v_ditrans*_le & [ STEM < "preasignar" >, SYNSEM.LKEYS.KEYREL.PRED "_preasignar_v_rel" ]. preauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "preauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_preauricular_a_rel" ]. precalefacción_n1 := n_trans_le & [ STEM < "precalefacción" >, SYNSEM.LKEYS.KEYREL.PRED "_precalefacción_n_rel" ]. precalentador_n1 := n_intr_count_le & [ STEM < "precalentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precalentador_n_rel" ] ]. precalentamiento_n1 := n_ppcomp_mass_le & [ STEM < "precalentamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precalentamiento_n_rel" ] ]. precalentar_v := v_trans_np*_le & [ STEM < "precalentar" >, SYNSEM.LKEYS.KEYREL.PRED "_precalentar_v_rel" ]. precapitalista_a1 := a_rel_nonprd_intr_le & [ STEM < "precapitalista" >, SYNSEM.LKEYS.KEYREL.PRED "_precapitalista_a_rel" ]. precarga_n1 := n_intr_uncount_le & [ STEM < "precarga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precarga_n_rel" ] ]. precariamente_x1 := av_i_spr_le & [ STEM < "precariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_precariamente_x_rel" ]. precariedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "precariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precariedad_n_rel" ] ]. precario_a1 := a_qual_intr_ser_le & [ STEM < "precario" >, SYNSEM.LKEYS.KEYREL.PRED "_precario_a_rel" ]. precaución_n1 := n_intr_mass-or-count_le & [ STEM < "precaución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precaución_n_rel" ] ]. precautoriamente_x1 := av_i_spr_le & [ STEM < "precautoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_precautoriamente_x_rel" ]. precautorio_a1 := a_rel_nonprd_intr_le & [ STEM < "precautorio" >, SYNSEM.LKEYS.KEYREL.PRED "_precautorio_a_rel" ]. precavidamente_x1 := av_i_spr_le & [ STEM < "precavidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_precavidamente_x_rel" ]. precedencia_n1 := n_intr_uncount_pl_le & [ STEM < "precedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precedencia_n_rel" ] ]. precedente_a1 := a_rel_nonprd_intr_le & [ STEM < "precedente" >, SYNSEM.LKEYS.KEYREL.PRED "_precedente_a_rel" ]. precedentemente_a_p_vmod := p_vmod_le & [ STEM < "precedentemente_a" >, SYNSEM.LKEYS.KEYREL.PRED _precedentemente_a_p_rel ]. precedentemente_x1 := av_i_spr_le & [ STEM < "precedentement" >, SYNSEM.LKEYS.KEYREL.PRED "_precedentement_x_rel" ]. preceder_v1 := v_intr_io_le & [ STEM < "preceder" >, SYNSEM.LKEYS.KEYREL.PRED "_preceder_v_rel" ]. preceder_v2 := v_trans_np_le & [ STEM < "preceder" >, SYNSEM.LKEYS.KEYREL.PRED "_preceder_v_rel" ]. precentral_a1 := a_rel_nonprd_intr_le & [ STEM < "precentral" >, SYNSEM.LKEYS.KEYREL.PRED "_precentral_a_rel" ]. preceptivamente_x1 := av_i_spr_le & [ STEM < "preceptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_preceptivamente_x_rel" ]. preceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "preceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_preceptivo_a_rel" ]. preceptor_n1 := n_intr_count_le & [ STEM < "preceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_preceptor_n_rel" ] ]. preceptorado_n1 := n_intr_count_le & [ STEM < "preceptorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_preceptorado_n_rel" ] ]. preceptoral_a1 := a_rel_nonprd_intr_le & [ STEM < "preceptoral" >, SYNSEM.LKEYS.KEYREL.PRED "_preceptoral_a_rel" ]. preciador_a1 := a_qual_intr_ser_le & [ STEM < "preciador" >, SYNSEM.LKEYS.KEYREL.PRED "_preciador_a_rel" ]. preciadoramente_x1 := av_i_spr_le & [ STEM < "preciadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_preciadoramente_x_rel" ]. precinta_n1 := n_intr_count_le & [ STEM < "precinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precinta_n_rel" ] ]. precintar_v := v_trans_np_le & [ STEM < "precintar" >, SYNSEM.LKEYS.KEYREL.PRED "_precintar_v_rel" ]. precinto_n1 := n_intr_count_le & [ STEM < "precinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precinto_n_rel" ] ]. precio_n1 := n_intr_count_le & [ STEM < "precio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precio_n_rel" ] ]. precioso_a1 := a_qual_intr_scopal_le & [ STEM < "precioso" >, SYNSEM.LKEYS.KEYREL.PRED "_precioso_a_rel" ]. precipicio_n1 := n_intr_count_le & [ STEM < "precipicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_precipicio_n_rel" ] ]. precipitablemente_x1 := av_i_spr_le & [ STEM < "precipitablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitablemente_x_rel" ]. precipitación_n1 := n_trans_le & [ STEM < "precipitación" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitación_n_rel" ]. precipitadamente_x1 := av_i_spr_le & [ STEM < "precipitadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitadamente_x_rel" ]. precipitado_n1 := n_intr_count_le & [ STEM < "precipitado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precipitado_n_rel" ] ]. precipitador_n1 := n_intr_count_le & [ STEM < "precipitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_precipitador_n_rel" ] ]. precipitante_a1 := a_rel_nonprd_intr_le & [ STEM < "precipitante" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitante_a_rel" ]. precipitantemente_x1 := av_i_spr_le & [ STEM < "precipitantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitantemente_x_rel" ]. precipitar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "precipitar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_precipitar_v_rel" ] ]. precipitar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "precipitar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_precipitar_v_rel" ] ]. precipitar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "precipitar" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitar_v_rel" ]. precipitar_v4 := v_trans_np_le & [ STEM < "precipitar" >, SYNSEM.LKEYS.KEYREL.PRED "_precipitar_v_rel" ]. precipitina_n1 := n_intr_count_le & [ STEM < "precipitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precipitina_n_rel" ] ]. precisamente_x1 := av_s_spr_le & [ STEM < "precisamente" >, SYNSEM.LKEYS.KEYREL.PRED "_precisamente_x_rel" ]. precisar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "precisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_precisar_v_rel" ] ]. precisar_v2 := v_ditrans_le & [ STEM < "precisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_precisar_v_rel" ] ]. precisar_v3 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "precisar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_precisar_v_rel" ] ] ]. precisar_v4 := v_intr_mrkd_np_le & [ STEM < "precisar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_precisar_v_rel" ] ]. precisar_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "precisar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_precisar_v_rel" ] ]. precisar_v6 := v_trans_np_le & [ STEM < "precisar" >, SYNSEM.LKEYS.KEYREL.PRED "_precisar_v_rel" ]. precisión_n1 := n_intr_mass-or-count_le & [ STEM < "precisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precisión_n_rel" ] ]. preciso_a1 := a_qual_intr_ser_le & [ STEM < "preciso" >, SYNSEM.LKEYS.KEYREL.PRED "_preciso_a_rel" ]. preclasificación_n1 := n_trans_le & [ STEM < "preclasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_preclasificación_n_rel" ]. preclasificar_v := v_trans_np_le & [ STEM < "preclasificar" >, SYNSEM.LKEYS.KEYREL.PRED "_preclasificar_v_rel" ]. preclusión_n1 := n_intr_count_le & [ STEM < "preclusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preclusión_n_rel" ] ]. precocidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "precocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precocidad_n_rel" ] ]. precolocar_v := v_trans_np_lcomp_loc*_le & [ STEM < "precolocar" >, SYNSEM.LKEYS.KEYREL.PRED "_precolocar_v_rel" ]. precolombino_a1 := a_rel_nonprd_intr_le & [ STEM < "precolombino" >, SYNSEM.LKEYS.KEYREL.PRED "_precolombino_a_rel" ]. precoloración_n1 := n_intr_count_le & [ STEM < "precoloración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precoloración_n_rel" ] ]. precombustión_n1 := n_intr_count_le & [ STEM < "precombustión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precombustión_n_rel" ] ]. precompacto_a1 := a_rel_nonprd_intr_le & [ STEM < "precompacto" >, SYNSEM.LKEYS.KEYREL.PRED "_precompacto_a_rel" ]. precompilación_n1 := n_intr_count_le & [ STEM < "precompilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precompilación_n_rel" ] ]. precompilador_n1 := n_intr_count_le & [ STEM < "precompilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precompilador_n_rel" ] ]. precompresión_n1 := n_intr_uncount_le & [ STEM < "precompresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precompresión_n_rel" ] ]. precomprimir_v := v_trans_np_caus_le & [ STEM < "precomprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_precomprimir_v_rel" ]. preconcebir_v := v_trans_np_le & [ STEM < "preconcebir" >, SYNSEM.LKEYS.KEYREL.PRED "_preconcebir_v_rel" ]. preconectar_v := v_trans_np_mrkd_np*_le & [ STEM < "preconectar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_preconectar_v_rel" ] ]. preconfeccionar_v := v_trans_np_le & [ STEM < "preconfeccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_preconfeccionar_v_rel" ]. preconizable_a1 := a_rel_nonprd_intr_le & [ STEM < "preconizable" >, SYNSEM.LKEYS.KEYREL.PRED "_preconizable_a_rel" ]. preconización_n1 := n_trans_le & [ STEM < "preconización" >, SYNSEM.LKEYS.KEYREL.PRED "_preconización_n_rel" ]. preconizar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "preconizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_preconizar_v_rel" ] ]. preconizar_v2 := v_trans_np_le & [ STEM < "preconizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, ARG2.SORT abs_pro, PRED "_preconizar_v_rel" ] ]. preconsciente_a1 := a_rel_nonprd_intr_le & [ STEM < "preconsciente" >, SYNSEM.LKEYS.KEYREL.PRED "_preconsciente_a_rel" ]. preconsolidación_n1 := n_intr_uncount_le & [ STEM < "preconsolidación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preconsolidación_n_rel" ] ]. precontrato_n1 := n_intr_count_le & [ STEM < "precontrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_precontrato_n_rel" ] ]. precordial_a1 := a_rel_nonprd_intr_le & [ STEM < "precordial" >, SYNSEM.LKEYS.KEYREL.PRED "_precordial_a_rel" ]. precoz_a1 := a_qual_intr_ser_le & [ STEM < "precoz" >, SYNSEM.LKEYS.KEYREL.PRED "_precoz_a_rel" ]. precozmente_x1 := av_i_spr_le & [ STEM < "precozmente" >, SYNSEM.LKEYS.KEYREL.PRED "_precozmente_x_rel" ]. precribador_n1 := n_intr_count_le & [ STEM < "precribador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_precribador_n_rel" ] ]. precursor_a1 := a_rel_nonprd_intr_le & [ STEM < "precursor" >, SYNSEM.LKEYS.KEYREL.PRED "_precursor_a_rel" ]. precursor_n1 := n_subj-nom_le & [ STEM < "precursor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_precursor_n_rel" ] ]. precursor_n2 := n_intr_count_le & [ STEM < "precursor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precursor_n_rel" ] ]. predación_n1 := n_trans_le & [ STEM < "predación" >, SYNSEM.LKEYS.KEYREL.PRED "_predación_n_rel" ]. predador_n1 := n_intr_count_le & [ STEM < "predador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_predador_n_rel" ] ]. predecesor_a1 := a_rel_nonprd_intr_le & [ STEM < "predecesor" >, SYNSEM.LKEYS.KEYREL.PRED "_predecesor_a_rel" ]. predecesor_n1 := n_subj-nom_le & [ STEM < "predecesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_predecesor_n_rel" ] ]. predecible_a1 := a_qual_intr_ser_le & [ STEM < "predecible" >, SYNSEM.LKEYS.KEYREL.PRED "_predecible_a_rel" ]. predecir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "predecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_predecir_v_rel" ] ]. predecir_v2 := v_ditrans*_le & [ STEM < "predecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_predecir_v_rel" ] ]. predeclarar_v := v_trans_np_le & [ STEM < "predeclarar" >, SYNSEM.LKEYS.KEYREL.PRED "_predeclarar_v_rel" ]. predefinir_v := v_trans_np_le & [ STEM < "predefinir" >, SYNSEM.LKEYS.KEYREL.PRED "_predefinir_v_rel" ]. predelictual_a1 := a_rel_nonprd_intr_le & [ STEM < "predelictual" >, SYNSEM.LKEYS.KEYREL.PRED "_predelictual_a_rel" ]. predelictualmente_x1 := av_i_spr_le & [ STEM < "predelictualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_predelictualmente_x_rel" ]. predelincuencia_n1 := n_intr_uncount_le & [ STEM < "predelincuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predelincuencia_n_rel" ] ]. predelincuente_n1 := n_intr_count_le & [ STEM < "predelincuente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_predelincuente_n_rel" ] ]. predentina_n1 := n_intr_count_le & [ STEM < "predentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_predentina_n_rel" ] ]. predestinación_n1 := n_intr_uncount_le & [ STEM < "predestinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predestinación_n_rel" ] ]. predial_a1 := a_rel_nonprd_intr_le & [ STEM < "predial" >, SYNSEM.LKEYS.KEYREL.PRED "_predial_a_rel" ]. predicable_a1 := a_rel_prd_le & [ STEM < "predicable" >, SYNSEM.LKEYS.KEYREL.PRED "_predicable_a_rel" ]. predicación_n1 := n_trans_le & [ STEM < "predicación" >, SYNSEM.LKEYS.KEYREL.PRED "_predicación_n_rel" ]. predicado_n1 := n_intr_count_le & [ STEM < "predicado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predicado_n_rel" ] ]. predicador_n1 := n_subj-nom_le & [ STEM < "predicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_predicador_n_rel" ] ]. predicamento_n1 := n_intr_count_le & [ STEM < "predicamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predicamento_n_rel" ] ]. predicar_v1 := v_trans_cp_prop_fin_le & [ STEM < "predicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_predicar_v_rel" ] ]. predicar_v2 := v_trans_np*_le & [ STEM < "predicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_predicar_v_rel" ] ]. predicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "predicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_predicativo_a_rel" ]. predicción_n1 := n_trans_le & [ STEM < "predicción" >, SYNSEM.LKEYS.KEYREL.PRED "_predicción_n_rel" ]. predictible_a1 := a_qual_intr_ser_le & [ STEM < "predictible" >, SYNSEM.LKEYS.KEYREL.PRED "_predictible_a_rel" ]. predictivo_a1 := a_qual_intr_ser_le & [ STEM < "predictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_predictivo_a_rel" ]. predictor_a1 := a_qual_intr_ser_le & [ STEM < "predictor" >, SYNSEM.LKEYS.KEYREL.PRED "_predictor_a_rel" ]. predilección_n1 := n_intr_count_le & [ STEM < "predilección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predilección_n_rel" ] ]. predilecto_a1 := a_rel_nonprd_intr_le & [ STEM < "predilecto" >, SYNSEM.LKEYS.KEYREL.PRED "_predilecto_a_rel" ]. predio_n1 := n_intr_count_le & [ STEM < "predio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_predio_n_rel" ] ]. predisponer_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "predisponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_predisponer_v_rel" ] ] ]. predisponer_v2 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "predisponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_predisponer_v_rel" ] ] ]. predisponer_v3 := v_non_pass_np_mrkd_np*_le & [ STEM < "predisponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_predisponer_v_rel" ] ] ]. predisposición_n1 := n_trans_le & [ STEM < "predisposición" >, SYNSEM.LKEYS.KEYREL.PRED "_predisposición_n_rel" ]. predisruptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "predisruptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_predisruptivo_a_rel" ]. prednisolona_n1 := n_intr_count_le & [ STEM < "prednisolona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prednisolona_n_rel" ] ]. prednisona_n1 := n_intr_count_le & [ STEM < "prednisona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prednisona_n_rel" ] ]. predominante_a1 := a_qual_intr_ser_le & [ STEM < "predominante" >, SYNSEM.LKEYS.KEYREL.PRED "_predominante_a_rel" ]. predominar_v := v_unacc_lcomp_loc*_le & [ STEM < "predominar" >, SYNSEM.LKEYS.KEYREL.PRED "_predominar_v_rel" ]. predorsal_a1 := a_rel_nonprd_intr_le & [ STEM < "predorsal" >, SYNSEM.LKEYS.KEYREL.PRED "_predorsal_a_rel" ]. preecualización_n1 := n_intr_uncount_le & [ STEM < "preecualización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preecualización_n_rel" ] ]. preedípico_a1 := a_rel_nonprd_intr_le & [ STEM < "preedípico" >, SYNSEM.LKEYS.KEYREL.PRED "_preedípico_a_rel" ]. preeminente_a1 := a_qual_intr_ser_le & [ STEM < "preeminente" >, SYNSEM.LKEYS.KEYREL.PRED "_preeminente_a_rel" ]. preenfriador_n1 := n_intr_count_le & [ STEM < "preenfriador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preenfriador_n_rel" ] ]. preenfriar_v := v_trans_np_caus_le & [ STEM < "preenfriar" >, SYNSEM.LKEYS.KEYREL.PRED "_preenfriar_v_rel" ]. preensamblar_v := v_trans_np_mrkd_np*_le & [ STEM < "preensamblar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_preensamblar_v_rel" ] ]. preenvasado_n1 := n_trans_le & [ STEM < "preenvasado" >, SYNSEM.LKEYS.KEYREL.PRED "_preenvasado_n_rel" ]. preepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "preepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_preepiglótico_a_rel" ]. preeruptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "preeruptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_preeruptivo_a_rel" ]. preescolar_a1 := a_rel_nonprd_intr_le & [ STEM < "preescolar" >, SYNSEM.LKEYS.KEYREL.PRED "_preescolar_a_rel" ]. preestatal_a1 := a_rel_nonprd_intr_le & [ STEM < "preestatal" >, SYNSEM.LKEYS.KEYREL.PRED "_preestatal_a_rel" ]. preexaminar_v := v_trans_np_le & [ STEM < "preexaminar" >, SYNSEM.LKEYS.KEYREL.PRED "_preexaminar_v_rel" ]. preexistencia_n1 := n_intr_uncount_le & [ STEM < "preexistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preexistencia_n_rel" ] ]. preexistente_a1 := a_rel_nonprd_intr_le & [ STEM < "preexistente" >, SYNSEM.LKEYS.KEYREL.PRED "_preexistente_a_rel" ]. prefabricación_n1 := n_trans_le & [ STEM < "prefabricación" >, SYNSEM.LKEYS.KEYREL.PRED "_prefabricación_n_rel" ]. prefabricar_v := v_trans_np_le & [ STEM < "prefabricar" >, SYNSEM.LKEYS.KEYREL.PRED "_prefabricar_v_rel" ]. prefacturación_n1 := n_trans_le & [ STEM < "prefacturación" >, SYNSEM.LKEYS.KEYREL.PRED "_prefacturación_n_rel" ]. prefecto_n1 := n_intr_count_le & [ STEM < "prefecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prefecto_n_rel" ] ]. prefectura_n1 := n_intr_count_le & [ STEM < "prefectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_prefectura_n_rel" ] ]. preferencia_n1 := n_intr_mass-or-count_le & [ STEM < "preferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preferencia_n_rel" ] ]. preferencial_a1 := a_rel_nonprd_intr_le & [ STEM < "preferencial" >, SYNSEM.LKEYS.KEYREL.PRED "_preferencial_a_rel" ]. preferencialmente_x1 := av_i_spr_le & [ STEM < "preferencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_preferencialmente_x_rel" ]. preferente_a1 := a_qual_intr_ser_le & [ STEM < "preferente" >, SYNSEM.LKEYS.KEYREL.PRED "_preferente_a_rel" ]. preferible_a1 := a_qual_trans*_ser_le & [ STEM < "preferible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_preferible_a_rel" ] ]. preferiblemente_x1 := av_i_spr_le & [ STEM < "preferiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_preferiblemente_x_rel" ]. preferir_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "preferir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_preferir_v_rel" ] ]. preferir_v2 := v_non_pass_np*_mrkd_cp_prop_inf_sc_le & [ STEM < "preferir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_preferir_v_rel" ] ]. preferir_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "preferir" >, SYNSEM.LKEYS.KEYREL.PRED "_preferir_v_rel" ]. preferir_v4 := v_trans_np_mrkd_np*_le & [ STEM < "preferir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_preferir_v_rel" ] ]. prefijable_a1 := a_rel_nonprd_intr_le & [ STEM < "prefijable" >, SYNSEM.LKEYS.KEYREL.PRED "_prefijable_a_rel" ]. prefijablemente_x1 := av_i_spr_le & [ STEM < "prefijablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_prefijablemente_x_rel" ]. prefijación_n1 := n_trans_le & [ STEM < "prefijación" >, SYNSEM.LKEYS.KEYREL.PRED "_prefijación_n_rel" ]. prefijal_a1 := a_rel_nonprd_intr_le & [ STEM < "prefijal" >, SYNSEM.LKEYS.KEYREL.PRED "_prefijal_a_rel" ]. prefijar_v := v_trans_np_le & [ STEM < "prefijar" >, SYNSEM.LKEYS.KEYREL.PRED "_prefijar_v_rel" ]. prefijo_n1 := n_intr_count_le & [ STEM < "prefijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prefijo_n_rel" ] ]. prefiltración_n1 := n_intr_count_le & [ STEM < "prefiltración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prefiltración_n_rel" ] ]. prefinanciación_n1 := n_trans_le & [ STEM < "prefinanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_prefinanciación_n_rel" ]. preformadamente_x1 := av_i_spr_le & [ STEM < "preformadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_preformadamente_x_rel" ]. preformado_a1 := a_qual_intr_estar_le & [ STEM < "preformado" >, SYNSEM.LKEYS.KEYREL.PRED "_preformado_a_rel" ]. preformar_v := v_trans_np_le & [ STEM < "preformar" >, SYNSEM.LKEYS.KEYREL.PRED "_preformar_v_rel" ]. preformatear_v := v_trans_np_le & [ STEM < "preformatear" >, SYNSEM.LKEYS.KEYREL.PRED "_preformatear_v_rel" ]. preformular_v := v_trans_np_le & [ STEM < "preformular" >, SYNSEM.LKEYS.KEYREL.PRED "_preformular_v_rel" ]. prefrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "prefrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_prefrontal_a_rel" ]. prefuncional_a1 := a_rel_nonprd_intr_le & [ STEM < "prefuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_prefuncional_a_rel" ]. preganglionar_a1 := a_rel_nonprd_intr_le & [ STEM < "preganglionar" >, SYNSEM.LKEYS.KEYREL.PRED "_preganglionar_a_rel" ]. pregnanodiol_n1 := n_intr_count_le & [ STEM < "pregnanodiol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pregnanodiol_n_rel" ] ]. pregnenolona_n1 := n_intr_count_le & [ STEM < "pregnenolona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pregnenolona_n_rel" ] ]. pregonar_v1 := v_trans_cp_prop_fin_le & [ STEM < "pregonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pregonar_v_rel" ] ]. pregonar_v2 := v_trans_np_le & [ STEM < "pregonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pregonar_v_rel" ] ]. pregonero_n1 := n_intr_count_le & [ STEM < "pregonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pregonero_n_rel" ] ]. pregrabar_v := v_trans_np_le & [ STEM < "pregrabar" >, SYNSEM.LKEYS.KEYREL.PRED "_pregrabar_v_rel" ]. preguntar_v1 := v_pron_trans_ques_le & [ STEM < "preguntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_preguntar_v_rel" ] ]. preguntar_v2 := v_ditrans_ques_le & [ STEM < "preguntar" >, SYNSEM.LKEYS.KEYREL.PRED "_preguntar_v_rel" ]. preguntar_v3 := v_intr_io*_mrkd_np_le & [ STEM < "preguntar" >, SYNSEM.LKEYS [ --OCOMPKEY por_or_materia_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_preguntar_v_rel" ] ] ]. preguntar_v4 := v_pron_trans_cp_prop_fin_ind_le & [ STEM < "preguntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_preguntar_v_rel" ] ]. preguntar_v5 := v_ditrans*_le & [ STEM < "preguntar" >, SYNSEM.LKEYS.KEYREL.PRED "_preguntar_v_rel" ]. preguntar_v6 := v_pron_trans_np_le & [ STEM < "preguntar" >, SYNSEM.LKEYS.KEYREL.PRED "_preguntar_v_rel" ]. preguntón_a1 := a_qual_intr_ser_le & [ STEM < "preguntón" >, SYNSEM.LKEYS.KEYREL.PRED "_preguntón_a_rel" ]. prehilbertiano_a1 := a_rel_nonprd_intr_le & [ STEM < "prehilbertiano" >, SYNSEM.LKEYS.KEYREL.PRED "_prehilbertiano_a_rel" ]. prehioidal_a1 := a_rel_nonprd_intr_le & [ STEM < "prehioidal" >, SYNSEM.LKEYS.KEYREL.PRED "_prehioidal_a_rel" ]. prehistoria_n1 := n_intr_count_le & [ STEM < "prehistoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_prehistoria_n_rel" ] ]. prehistoriador_n1 := n_intr_count_le & [ STEM < "prehistoriador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prehistoriador_n_rel" ] ]. prehistórico_a1 := a_rel_nonprd_intr_le & [ STEM < "prehistórico" >, SYNSEM.LKEYS.KEYREL.PRED "_prehistórico_a_rel" ]. prehniteno_n1 := n_intr_count_le & [ STEM < "prehniteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prehniteno_n_rel" ] ]. preimpresión_n1 := n_intr_count_le & [ STEM < "preimpresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preimpresión_n_rel" ] ]. preimpulso_n1 := n_intr_count_le & [ STEM < "preimpulso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preimpulso_n_rel" ] ]. preinmunización_n1 := n_trans_le & [ STEM < "preinmunización" >, SYNSEM.LKEYS.KEYREL.PRED "_preinmunización_n_rel" ]. preintroducir_v := v_trans_np_le & [ STEM < "preintroducir" >, SYNSEM.LKEYS.KEYREL.PRED "_preintroducir_v_rel" ]. prejudicial_a1 := a_rel_nonprd_intr_le & [ STEM < "prejudicial" >, SYNSEM.LKEYS.KEYREL.PRED "_prejudicial_a_rel" ]. prejudicialidad_n1 := n_intr_uncount_le & [ STEM < "prejudicialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prejudicialidad_n_rel" ] ]. prelación_n1 := n_intr_mass-or-count_le & [ STEM < "prelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prelación_n_rel" ] ]. prelado_n1 := n_intr_count_le & [ STEM < "prelado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prelado_n_rel" ] ]. prelaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "prelaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_prelaríngeo_a_rel" ]. prelibertad_n1 := n_intr_uncount_le & [ STEM < "prelibertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prelibertad_n_rel" ] ]. prelibertad_n2 := n_intr_count_le & [ STEM < "prelibertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prelibertad_n_rel" ] ]. preliminar_a1 := a_rel_nonprd_intr_le & [ STEM < "preliminar" >, SYNSEM.LKEYS.KEYREL.PRED "_preliminar_a_rel" ]. prelimpiadora_n1 := n_intr_count_le & [ STEM < "prelimpiadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prelimpiadora_n_rel" ] ]. prelitoral_a1 := a_rel_nonprd_intr_le & [ STEM < "prelitoral" >, SYNSEM.LKEYS.KEYREL.PRED "_prelitoral_a_rel" ]. prelitoral_n1 := n_intr_count_le & [ STEM < "prelitoral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_prelitoral_n_rel" ] ]. prematrimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "prematrimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_prematrimonial_a_rel" ]. prematuramente_x1 := av_i_spr_le & [ STEM < "prematuramente" >, SYNSEM.LKEYS.KEYREL.PRED "_prematuramente_x_rel" ]. prematuro_a1 := a_qual_intr_ser_le & [ STEM < "prematuro" >, SYNSEM.LKEYS.KEYREL.PRED "_prematuro_a_rel" ]. premaxila_n1 := n_ppcomp_count_le & [ STEM < "premaxila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_premaxila_n_rel" ] ]. premaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "premaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_premaxilar_a_rel" ]. premeditación_n1 := n_trans_le & [ STEM < "premeditación" >, SYNSEM.LKEYS.KEYREL.PRED "_premeditación_n_rel" ]. premeditadamente_x1 := av_s_spr_le & [ STEM < "premeditadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_premeditadamente_x_rel" ]. premeditadamente_x2 := av_i_psthd_spr_le & [ STEM < "premeditadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_premeditadamente_x_rel" ]. premezcla_n1 := n_intr_count_le & [ STEM < "premezcla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premezcla_n_rel" ] ]. premezclar_v := v_trans_np_mrkd_np*_le & [ STEM < "premezclar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_premezclar_v_rel" ] ]. premiar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "premiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_premiar_v_rel" ] ]. premiar_v2 := v_trans_np_le & [ STEM < "premiar" >, SYNSEM.LKEYS.KEYREL.PRED "_premiar_v_rel" ]. premio_n1 := n_intr_count_le & [ STEM < "premio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premio_n_rel" ] ]. premoción_n1 := n_intr_count_le & [ STEM < "premoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premoción_n_rel" ] ]. premodificar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "premodificar" >, SYNSEM.LKEYS.KEYREL.PRED "_premodificar_v_rel" ]. premodificar_v2 := v_trans_np_le & [ STEM < "premodificar" >, SYNSEM.LKEYS.KEYREL.PRED "_premodificar_v_rel" ]. premolar_a1 := a_rel_nonprd_intr_le & [ STEM < "premolar" >, SYNSEM.LKEYS.KEYREL.PRED "_premolar_a_rel" ]. premolar_n2 := n_ppcomp_count_le & [ STEM < "premolar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_premolar_n_rel" ] ]. premolarización_n1 := n_intr_uncount_le & [ STEM < "premolarización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premolarización_n_rel" ] ]. premolarmente_x1 := av_i_spr_le & [ STEM < "premolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_premolarmente_x_rel" ]. premonición_n1 := n_intr_count_le & [ STEM < "premonición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premonición_n_rel" ] ]. premonitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "premonitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_premonitorio_a_rel" ]. premoriencia_n1 := n_intr_uncount_le & [ STEM < "premoriencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premoriencia_n_rel" ] ]. premura_n1 := n_intr_mass-or-count_le & [ STEM < "premura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premura_n_rel" ] ]. prenatal_a1 := a_rel_nonprd_intr_le & [ STEM < "prenatal" >, SYNSEM.LKEYS.KEYREL.PRED "_prenatal_a_rel" ]. prenda_n1 := n_intr_count_le & [ STEM < "prenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_prenda_n_rel" ] ]. prendar_v1 := v_intr_io*_le & [ STEM < "prendar" >, SYNSEM.LKEYS.KEYREL.PRED "_prendar_v_rel" ]. prendar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "prendar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_prendar_v_rel" ] ] ]. prendar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "prendar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_prendar_v_rel" ] ] ]. prendar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "prendar" >, SYNSEM.LKEYS.KEYREL.PRED "_prendar_v_rel" ]. prendario_a1 := a_rel_nonprd_intr_le & [ STEM < "prendario" >, SYNSEM.LKEYS.KEYREL.PRED "_prendario_a_rel" ]. prendimiento_n1 := n_trans_le & [ STEM < "prendimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_prendimiento_n_rel" ]. prenoción_n1 := n_intr_count_le & [ STEM < "prenoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prenoción_n_rel" ] ]. prensabala_n1 := n_intr_count_le & [ STEM < "prensabala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prensabala_n_rel" ] ]. prensado_n1 := n_trans_le & [ STEM < "prensado" >, SYNSEM.LKEYS.KEYREL.PRED "_prensado_n_rel" ]. prensador_n1 := n_intr_count_le & [ STEM < "prensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prensador_n_rel" ] ]. prensadora_n1 := n_intr_count_le & [ STEM < "prensadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_prensadora_n_rel" ] ]. prensaestopas_n1 := n_intr_count_le & [ STEM < "prensaestopas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prensaestopas_n_rel" ] ]. prensapatatas_n1 := n_intr_count_le & [ STEM < "prensapatatas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prensapatatas_n_rel" ] ]. prensar_v := v_trans_np_le & [ STEM < "prensar" >, SYNSEM.LKEYS.KEYREL.PRED "_prensar_v_rel" ]. prensil_a1 := a_rel_nonprd_intr_le & [ STEM < "prensil" >, SYNSEM.LKEYS.KEYREL.PRED "_prensil_a_rel" ]. prensor_n1 := n_intr_count_le & [ STEM < "prensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prensor_n_rel" ] ]. preoccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "preoccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_preoccipital_a_rel" ]. preocupación_n1 := n_trans_le & [ STEM < "preocupación" >, SYNSEM.LKEYS.KEYREL.PRED "_preocupación_n_rel" ]. preocupadamente_x1 := av_i_spr_le & [ STEM < "preocupadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_preocupadamente_x_rel" ]. preocupante_a1 := a_qual_intr_ser_le & [ STEM < "preocupante" >, SYNSEM.LKEYS.KEYREL.PRED "_preocupante_a_rel" ]. preocupar_v1 := v_intr_io*_le & [ STEM < "preocupar" >, SYNSEM.LKEYS.KEYREL.PRED "_preocupar_v_rel" ]. preocupar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "preocupar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_preocupar_v_rel" ] ] ]. preocupar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "preocupar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_preocupar_v_rel" ] ]. preocupar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "preocupar" >, SYNSEM.LKEYS.KEYREL.PRED "_preocupar_v_rel" ]. preordenar_v := v_trans_np_le & [ STEM < "preordenar" >, SYNSEM.LKEYS.KEYREL.PRED "_preordenar_v_rel" ]. prepalatal_a1 := a_rel_nonprd_intr_le & [ STEM < "prepalatal" >, SYNSEM.LKEYS.KEYREL.PRED "_prepalatal_a_rel" ]. preparación_n1 := n_trans_le & [ STEM < "preparación" >, SYNSEM.LKEYS.KEYREL.PRED "_preparación_n_rel" ]. preparado_n1 := n_intr_mass_le & [ STEM < "preparado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preparado_n_rel" ] ]. preparador_n1 := n_subj-nom_le & [ STEM < "preparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_preparador_n_rel" ] ]. preparar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "preparar" >, SYNSEM.LKEYS [ --OCOMPKEY _para_p_sel_rel, KEYREL.PRED "_preparar_v_rel" ] ]. preparar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "preparar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_preparar_v_rel" ] ]. preparar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "preparar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_preparar_v_rel" ] ]. preparar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "preparar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_preparar_v_rel" ] ]. preparar_v5 := v_trans_np_le & [ STEM < "preparar" >, SYNSEM.LKEYS.KEYREL.PRED "_preparar_v_rel" ]. preparar_v6 := v_trans_np_mrkd_np_le & [ STEM < "preparar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_preparar_v_rel" ] ]. preparativo_a1 := a_rel_nonprd_intr_le & [ STEM < "preparativo" >, SYNSEM.LKEYS.KEYREL.PRED "_preparativo_a_rel" ]. preparativo_n1 := n_intr_count_le & [ STEM < "preparativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preparativo_n_rel" ] ]. preparatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "preparatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_preparatorio_a_rel" ]. preperforación_n1 := n_trans_le & [ STEM < "preperforación" >, SYNSEM.LKEYS.KEYREL.PRED "_preperforación_n_rel" ]. preperforar_v := v_trans_np_le & [ STEM < "preperforar" >, SYNSEM.LKEYS.KEYREL.PRED "_preperforar_v_rel" ]. preperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "preperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_preperióstico_a_rel" ]. prepilórico_a1 := a_rel_nonprd_intr_le & [ STEM < "prepilórico" >, SYNSEM.LKEYS.KEYREL.PRED "_prepilórico_a_rel" ]. prepodadora_n1 := n_intr_count_le & [ STEM < "prepodadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prepodadora_n_rel" ] ]. prepolímero_n1 := n_intr_count_le & [ STEM < "prepolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prepolímero_n_rel" ] ]. preponderancia_n1 := n_intr_uncount_le & [ STEM < "preponderancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preponderancia_n_rel" ] ]. preponderante_a1 := a_qual_intr_ser_le & [ STEM < "preponderante" >, SYNSEM.LKEYS.KEYREL.PRED "_preponderante_a_rel" ]. preponderar_v := v_unacc_lcomp_loc*_le & [ STEM < "preponderar" >, SYNSEM.LKEYS.KEYREL.PRED "_preponderar_v_rel" ]. preposicional_a1 := a_rel_nonprd_intr_le & [ STEM < "preposicional" >, SYNSEM.LKEYS.KEYREL.PRED "_preposicional_a_rel" ]. preposición_n1 := n_intr_count_le & [ STEM < "preposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preposición_n_rel" ] ]. prepositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "prepositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_prepositivo_a_rel" ]. prepotencia_n1 := n_ppcomp_uncount_le & [ STEM < "prepotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prepotencia_n_rel" ] ]. preprocesador_n1 := n_intr_count_le & [ STEM < "preprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_preprocesador_n_rel" ] ]. preprocesamiento_n1 := n_trans_le & [ STEM < "preprocesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_preprocesamiento_n_rel" ]. preprocesar_v := v_trans_np*_le & [ STEM < "preprocesar" >, SYNSEM.LKEYS.KEYREL.PRED "_preprocesar_v_rel" ]. preproducción_n1 := n_trans_le & [ STEM < "preproducción" >, SYNSEM.LKEYS.KEYREL.PRED "_preproducción_n_rel" ]. preprofago_n1 := n_intr_count_le & [ STEM < "preprofago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preprofago_n_rel" ] ]. preprofásico_a1 := a_rel_nonprd_intr_le & [ STEM < "preprofásico" >, SYNSEM.LKEYS.KEYREL.PRED "_preprofásico_a_rel" ]. preprogramar_v := v_trans_np_le & [ STEM < "preprogramar" >, SYNSEM.LKEYS.KEYREL.PRED "_preprogramar_v_rel" ]. prepuberal_a1 := a_rel_nonprd_intr_le & [ STEM < "prepuberal" >, SYNSEM.LKEYS.KEYREL.PRED "_prepuberal_a_rel" ]. prepucial_a1 := a_rel_nonprd_intr_le & [ STEM < "prepucial" >, SYNSEM.LKEYS.KEYREL.PRED "_prepucial_a_rel" ]. prepucio_n1 := n_ppcomp_count_le & [ STEM < "prepucio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_prepucio_n_rel" ] ]. prerefrigeración_n1 := n_trans_le & [ STEM < "prerefrigeración" >, SYNSEM.LKEYS.KEYREL.PRED "_prerefrigeración_n_rel" ]. presa_n1 := n_intr_count_le & [ STEM < "presa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum_loc, PRED "_presa_n_rel" ] ]. presagiar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "presagiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_presagiar_v_rel" ] ]. presagiar_v2 := v_ditrans*_le & [ STEM < "presagiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_presagiar_v_rel" ] ]. presagiar_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "presagiar" >, SYNSEM.LKEYS.KEYREL.PRED "_presagiar_v_rel" ]. presaturadamente_x1 := av_i_spr_le & [ STEM < "presaturadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_presaturadamente_x_rel" ]. presbicia_n1 := n_intr_uncount_le & [ STEM < "presbicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presbicia_n_rel" ] ]. presbiopía_n1 := n_intr_uncount_le & [ STEM < "presbiopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presbiopía_n_rel" ] ]. presbiterial_a1 := a_rel_nonprd_intr_le & [ STEM < "presbiterial" >, SYNSEM.LKEYS.KEYREL.PRED "_presbiterial_a_rel" ]. presbiteriano_a1 := a_rel_nonprd_intr_le & [ STEM < "presbiteriano" >, SYNSEM.LKEYS.KEYREL.PRED "_presbiteriano_a_rel" ]. presbiteriano_n1 := n_intr_count_le & [ STEM < "presbiteriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_presbiteriano_n_rel" ] ]. presbiterio_n1 := n_intr_count_le & [ STEM < "presbiterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_presbiterio_n_rel" ] ]. prescindible_a1 := a_qual_intr_ser_le & [ STEM < "prescindible" >, SYNSEM.LKEYS.KEYREL.PRED "_prescindible_a_rel" ]. prescindiblemente_x1 := av_i_spr_le & [ STEM < "prescindiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_prescindiblemente_x_rel" ]. prescindir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "prescindir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_prescindir_v_rel" ] ] ]. prescindir_v3 := v_intr_mrkd_np_le & [ STEM < "prescindir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_prescindir_v_rel" ] ]. prescribir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "prescribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_prescribir_v_rel" ] ]. prescribir_v2 := v_ditrans*_le & [ STEM < "prescribir" >, SYNSEM.LKEYS.KEYREL.PRED "_prescribir_v_rel" ]. prescribir_v3 := v_intr_le & [ STEM < "prescribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_pro_sem, PRED "_prescribir_v_rel" ] ]. prescripción_n1 := n_trans_le & [ STEM < "prescripción" >, SYNSEM.LKEYS.KEYREL.PRED "_prescripción_n_rel" ]. prescriptivo_a1 := a_qual_intr_ser_le & [ STEM < "prescriptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_prescriptivo_a_rel" ]. presecador_n1 := n_intr_count_le & [ STEM < "presecador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_presecador_n_rel" ] ]. preselección_n1 := n_trans_le & [ STEM < "preselección" >, SYNSEM.LKEYS.KEYREL.PRED "_preselección_n_rel" ]. preselector_n1 := n_intr_count_le & [ STEM < "preselector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preselector_n_rel" ] ]. presencia_n1 := n_intr_uncount_le & [ STEM < "presencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presencia_n_rel" ] ]. presencial_a1 := a_rel_nonprd_intr_le & [ STEM < "presencial" >, SYNSEM.LKEYS.KEYREL.PRED "_presencial_a_rel" ]. presencialidad_n1 := n_intr_uncount_le & [ STEM < "presencialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presencialidad_n_rel" ] ]. presentable_a1 := a_qual_intr_scopal_le & [ STEM < "presentable" >, SYNSEM.LKEYS.KEYREL.PRED "_presentable_a_rel" ]. presentación_n1 := n_trans_le & [ STEM < "presentación" >, SYNSEM.LKEYS.KEYREL.PRED "_presentación_n_rel" ]. presentador_a1 := a_rel_nonprd_intr_le & [ STEM < "presentador" >, SYNSEM.LKEYS.KEYREL.PRED "_presentador_a_rel" ]. presentador_n1 := n_subj-nom_le & [ STEM < "presentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_presentador_n_rel" ] ]. presente_a1 := a_qual_trans*_estar_le & [ STEM < "presente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_presente_a_rel" ] ]. presente_n1 := n_intr_count_le & [ STEM < "presente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_presente_n_rel" ] ]. presentimiento_n1 := n_trans_le & [ STEM < "presentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_presentimiento_n_rel" ]. presentir_v1 := v_trans_cp_prop_fin_le & [ STEM < "presentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_presentir_v_rel" ] ]. presentir_v2 := v_trans_np_le & [ STEM < "presentir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_presentir_v_rel" ] ]. preservación_n1 := n_trans_le & [ STEM < "preservación" >, SYNSEM.LKEYS.KEYREL.PRED "_preservación_n_rel" ]. preservar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "preservar" >, SYNSEM.LKEYS [ --OCOMPKEY contra_or_de_p_sel_rel, KEYREL.PRED "_preservar_v_rel" ] ]. preservativo_a1 := a_qual_trans*_ser_le & [ STEM < "preservativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_preservativo_a_rel" ] ]. preservativo_n1 := n_intr_count_le & [ STEM < "preservativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_preservativo_n_rel" ] ]. preseñalización_n1 := n_trans_le & [ STEM < "preseñalización" >, SYNSEM.LKEYS.KEYREL.PRED "_preseñalización_n_rel" ]. presidencia_n1 := n_trans_le & [ STEM < "presidencia" >, SYNSEM.LKEYS.KEYREL.PRED "_presidencia_n_rel" ]. presidenciable_a1 := a_rel_nonprd_intr_le & [ STEM < "presidenciable" >, SYNSEM.LKEYS.KEYREL.PRED "_presidenciable_a_rel" ]. presidencial_a1 := a_rel_nonprd_intr_le & [ STEM < "presidencial" >, SYNSEM.LKEYS.KEYREL.PRED "_presidencial_a_rel" ]. presidencialista_a1 := a_rel_nonprd_intr_le & [ STEM < "presidencialista" >, SYNSEM.LKEYS.KEYREL.PRED "_presidencialista_a_rel" ]. presidente_n1 := n_intr_count_le & [ STEM < "presidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_presidente_n_rel" ] ]. presidiario_n1 := n_intr_count_le & [ STEM < "presidiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_presidiario_n_rel" ] ]. presidio_n1 := n_intr_count_le & [ STEM < "presidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_presidio_n_rel" ] ]. presidir_v := v_trans_np_le & [ STEM < "presidir" >, SYNSEM.LKEYS.KEYREL.PRED "_presidir_v_rel" ]. presilla_n1 := n_intr_count_le & [ STEM < "presilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_presilla_n_rel" ] ]. presionante_a1 := a_rel_nonprd_intr_le & [ STEM < "presionante" >, SYNSEM.LKEYS.KEYREL.PRED "_presionante_a_rel" ]. presionar_v := v_trans_np*_le & [ STEM < "presionar" >, SYNSEM.LKEYS.KEYREL.PRED "_presionar_v_rel" ]. presión_n1 := n_intr_mass_le & [ STEM < "presión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_presión_n_rel" ] ]. preso_a1 := a_qual_intr_estar_le & [ STEM < "preso" >, SYNSEM.LKEYS.KEYREL.PRED "_preso_a_rel" ]. preso_n1 := n_intr_count_le & [ STEM < "preso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_preso_n_rel" ] ]. presostato_n1 := n_intr_count_le & [ STEM < "presostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_presostato_n_rel" ] ]. prestable_a1 := a_rel_nonprd_intr_le & [ STEM < "prestable" >, SYNSEM.LKEYS.KEYREL.PRED "_prestable_a_rel" ]. prestacional_a1 := a_rel_nonprd_intr_le & [ STEM < "prestacional" >, SYNSEM.LKEYS.KEYREL.PRED "_prestacional_a_rel" ]. prestación_n1 := n_trans_le & [ STEM < "prestación" >, SYNSEM.LKEYS.KEYREL.PRED "_prestación_n_rel" ]. prestador_n1 := n_subj-nom_le & [ STEM < "prestador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prestador_n_rel" ] ]. prestamente_x1 := av_i_spr_le & [ STEM < "prestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prestamente_x_rel" ]. prestamista_n1 := n_intr_count_le & [ STEM < "prestamista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prestamista_n_rel" ] ]. prestancia_n1 := n_intr_mass_le & [ STEM < "prestancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prestancia_n_rel" ] ]. prestar_v1 := v_ditrans*_le & [ STEM < "prestar" >, SYNSEM.LKEYS.KEYREL.PRED "_prestar_v_rel" ]. prestar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "prestar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_prestar_v_rel" ] ]. prestar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "prestar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_prestar_v_rel" ] ]. prestatario_n1 := n_intr_count_le & [ STEM < "prestatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prestatario_n_rel" ] ]. presteza_n1 := n_ppcomp_mass_le & [ STEM < "presteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presteza_n_rel" ] ]. prestidigitación_n1 := n_intr_mass_le & [ STEM < "prestidigitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prestidigitación_n_rel" ] ]. prestidigitador_n1 := n_intr_count_le & [ STEM < "prestidigitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prestidigitador_n_rel" ] ]. prestigiar_v := v_trans_np_le & [ STEM < "prestigiar" >, SYNSEM.LKEYS.KEYREL.PRED "_prestigiar_v_rel" ]. prestigioso_a1 := a_qual_intr_ser_le & [ STEM < "prestigioso" >, SYNSEM.LKEYS.KEYREL.PRED "_prestigioso_a_rel" ]. presto_a1 := a_qual_intr_ser_le & [ STEM < "presto" >, SYNSEM.LKEYS.KEYREL.PRED "_presto_a_rel" ]. presumible_a1 := a_qual_intr_ser_le & [ STEM < "presumible" >, SYNSEM.LKEYS.KEYREL.PRED "_presumible_a_rel" ]. presumiblemente_x1 := av_s_prhd_le & [ STEM < "presumiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_presumiblemente_x_rel" ]. presumir_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "presumir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_presumir_v_rel" ] ] ]. presumir_v3 := v_intr_mrkd_np_le & [ STEM < "presumir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_presumir_v_rel" ] ] ]. presumir_v4 := v_trans_cp_prop_fin_le & [ STEM < "presumir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_presumir_v_rel" ] ]. presunción_n1 := n_trans_le & [ STEM < "presunción" >, SYNSEM.LKEYS.KEYREL.PRED "_presunción_n_rel" ]. presunción_n2 := n_result_intr_ppcomp_le & [ STEM < "presunción" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_presunción_n_rel" ] ]. presuntamente_x1 := av_s_prhd_le & [ STEM < "presuntamente" >, SYNSEM.LKEYS.KEYREL.PRED "_presuntamente_x_rel" ]. presuntivo_a1 := a_rel_nonprd_intr_le & [ STEM < "presuntivo" >, SYNSEM.LKEYS.KEYREL.PRED "_presuntivo_a_rel" ]. presunto_a1 := a_adv_int_le & [ STEM < "presunto" >, SYNSEM.LKEYS.KEYREL.PRED "_presunto_a_rel" ]. presuntuosamente_x1 := av_i_spr_le & [ STEM < "presuntuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_presuntuosamente_x_rel" ]. presuntuoso_a1 := a_qual_intr_ser_le & [ STEM < "presuntuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_presuntuoso_a_rel" ]. presuponer_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "presuponer" >, SYNSEM.LKEYS.KEYREL.PRED "_presuponer_v_rel" ]. presuponer_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "presuponer" >, SYNSEM.LKEYS.KEYREL.PRED "_presuponer_v_rel" ]. presuponer_v3 := v_trans_cp_prop_fin_le & [ STEM < "presuponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_presuponer_v_rel" ] ]. presuponer_v4 := v_trans_np_le & [ STEM < "presuponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_presuponer_v_rel" ] ]. presuposición_n1 := n_trans_le & [ STEM < "presuposición" >, SYNSEM.LKEYS.KEYREL.PRED "_presuposición_n_rel" ]. presupuestación_n1 := n_trans_le & [ STEM < "presupuestación" >, SYNSEM.LKEYS.KEYREL.PRED "_presupuestación_n_rel" ]. presupuestar_v := v_trans_np_le & [ STEM < "presupuestar" >, SYNSEM.LKEYS.KEYREL.PRED "_presupuestar_v_rel" ]. presupuestariamente_x1 := av_i_spr_le & [ STEM < "presupuestariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_presupuestariamente_x_rel" ]. presupuestario_a1 := a_rel_nonprd_intr_le & [ STEM < "presupuestario" >, SYNSEM.LKEYS.KEYREL.PRED "_presupuestario_a_rel" ]. presupuesto_n1 := n_intr_count_le & [ STEM < "presupuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_presupuesto_n_rel" ] ]. presurización_n1 := n_trans_le & [ STEM < "presurización" >, SYNSEM.LKEYS.KEYREL.PRED "_presurización_n_rel" ]. presurizar_v := v_trans_np_le & [ STEM < "presurizar" >, SYNSEM.LKEYS.KEYREL.PRED "_presurizar_v_rel" ]. presurosamente_x1 := av_i_spr_le & [ STEM < "presurosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_presurosamente_x_rel" ]. presuroso_a1 := a_qual_intr_ser_le & [ STEM < "presuroso" >, SYNSEM.LKEYS.KEYREL.PRED "_presuroso_a_rel" ]. pretaladrar_v := v_trans_np_le & [ STEM < "pretaladrar" >, SYNSEM.LKEYS.KEYREL.PRED "_pretaladrar_v_rel" ]. pretencioso_a1 := a_qual_intr_ser_le & [ STEM < "pretencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_pretencioso_a_rel" ]. pretender_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "pretender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pretender_v_rel" ] ]. pretender_v2 := v_ditrans*_le & [ STEM < "pretender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_pretender_v_rel" ] ]. pretendiente_n1 := n_ppcomp_count_le & [ STEM < "pretendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pretendiente_n_rel" ] ]. pretensado_n1 := n_trans_le & [ STEM < "pretensado" >, SYNSEM.LKEYS.KEYREL.PRED "_pretensado_n_rel" ]. pretensar_v := v_trans_np_le & [ STEM < "pretensar" >, SYNSEM.LKEYS.KEYREL.PRED "_pretensar_v_rel" ]. pretensión_n1 := n_intr_count_le & [ STEM < "pretensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pretensión_n_rel" ] ]. preterición_n1 := n_trans_le & [ STEM < "preterición" >, SYNSEM.LKEYS.KEYREL.PRED "_preterición_n_rel" ]. preterintencional_a1 := a_rel_nonprd_intr_le & [ STEM < "preterintencional" >, SYNSEM.LKEYS.KEYREL.PRED "_preterintencional_a_rel" ]. preterintencionalidad_n1 := n_intr_uncount_le & [ STEM < "preterintencionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preterintencionalidad_n_rel" ] ]. pretermisión_n1 := n_intr_uncount_le & [ STEM < "pretermisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pretermisión_n_rel" ] ]. pretextar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "pretextar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pretextar_v_rel" ] ]. pretextar_v2 := v_ditrans*_le & [ STEM < "pretextar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_pretextar_v_rel" ] ]. pretil_n1 := n_intr_count_le & [ STEM < "pretil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pretil_n_rel" ] ]. pretina_n1 := n_intr_count_le & [ STEM < "pretina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pretina_n_rel" ] ]. pretoriano_a1 := a_rel_nonprd_intr_le & [ STEM < "pretoriano" >, SYNSEM.LKEYS.KEYREL.PRED "_pretoriano_a_rel" ]. pretoriano_n1 := n_intr_count_le & [ STEM < "pretoriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pretoriano_n_rel" ] ]. pretorio_n1 := n_intr_count_le & [ STEM < "pretorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_pretorio_n_rel" ] ]. pretragial_a1 := a_rel_nonprd_intr_le & [ STEM < "pretragial" >, SYNSEM.LKEYS.KEYREL.PRED "_pretragial_a_rel" ]. pretratamiento_n1 := n_trans_le & [ STEM < "pretratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_pretratamiento_n_rel" ]. pretratar_v := v_trans_np_le & [ STEM < "pretratar" >, SYNSEM.LKEYS.KEYREL.PRED "_pretratar_v_rel" ]. pretrituración_n1 := n_trans_le & [ STEM < "pretrituración" >, SYNSEM.LKEYS.KEYREL.PRED "_pretrituración_n_rel" ]. pretriturador_n1 := n_intr_count_le & [ STEM < "pretriturador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pretriturador_n_rel" ] ]. pretérito_a1 := a_rel_nonprd_intr_le & [ STEM < "pretérito" >, SYNSEM.LKEYS.KEYREL.PRED "_pretérito_a_rel" ]. pretónico_a1 := a_rel_nonprd_intr_le & [ STEM < "pretónico" >, SYNSEM.LKEYS.KEYREL.PRED "_pretónico_a_rel" ]. prevalecer_v := v_unacc_lcomp_loc*_le & [ STEM < "prevalecer" >, SYNSEM.LKEYS.KEYREL.PRED "_prevalecer_v_rel" ]. prevalencia_n1 := n_result_intr_le & [ STEM < "prevalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prevalencia_n_rel" ] ]. prevalente_a1 := a_rel_nonprd_intr_le & [ STEM < "prevalente" >, SYNSEM.LKEYS.KEYREL.PRED "_prevalente_a_rel" ]. prevaler_v := v_pron_intr_mrkd_np_le & [ STEM < "prevaler" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_prevaler_v_rel" ] ]. prevaricación_n1 := n_intr_uncount_le & [ STEM < "prevaricación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prevaricación_n_rel" ] ]. prevaricador_n1 := n_intr_count_le & [ STEM < "prevaricador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prevaricador_n_rel" ] ]. prevaricar_v := v_intr_le & [ STEM < "prevaricar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_prevaricar_v_rel" ] ]. prevaricato_n1 := n_intr_uncount_le & [ STEM < "prevaricato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prevaricato_n_rel" ] ]. prevención_n1 := n_trans_le & [ STEM < "prevención" >, SYNSEM.LKEYS.KEYREL.PRED "_prevención_n_rel" ]. prevenir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "prevenir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_prevenir_v_rel" ] ]. prevenir_v2 := v_trans_np_le & [ STEM < "prevenir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_prevenir_v_rel" ] ]. prevenir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "prevenir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_prevenir_v_rel" ] ] ]. prevenir_v4 := v_trans_np*_mrkd_np_le & [ STEM < "prevenir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_prevenir_v_rel" ] ]. preventivamente_x1 := av_i_spr_le & [ STEM < "preventivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_preventivamente_x_rel" ]. preventivo_a1 := a_rel_nonprd_intr_le & [ STEM < "preventivo" >, SYNSEM.LKEYS.KEYREL.PRED "_preventivo_a_rel" ]. prever_v1 := v_trans_cp_prop_fin_le & [ STEM < "prever" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_prever_v_rel" ] ]. prever_v2 := v_trans_np_le & [ STEM < "prever" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_prever_v_rel" ] ]. prevertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "prevertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_prevertebral_a_rel" ]. prevesical_a1 := a_rel_nonprd_intr_le & [ STEM < "prevesical" >, SYNSEM.LKEYS.KEYREL.PRED "_prevesical_a_rel" ]. previo_a1 := a_qual_trans*_ser_le & [ STEM < "previo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_previo_a_rel" ] ]. previsibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "previsibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_previsibilidad_n_rel" ] ]. previsible_a1 := a_qual_intr_ser_le & [ STEM < "previsible" >, SYNSEM.LKEYS.KEYREL.PRED "_previsible_a_rel" ]. previsiblemente_x1 := av_i_spr_le & [ STEM < "previsiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_previsiblemente_x_rel" ]. previsión_n1 := n_trans_le & [ STEM < "previsión" >, SYNSEM.LKEYS.KEYREL.PRED "_previsión_n_rel" ]. previsor_a1 := a_qual_intr_ser_le & [ STEM < "previsor" >, SYNSEM.LKEYS.KEYREL.PRED "_previsor_a_rel" ]. previsto_a1 := a_qual_intr_estar_le & [ STEM < "previsto" >, SYNSEM.LKEYS.KEYREL.PRED "_previsto_a_rel" ]. preñar_v := v_trans_np_le & [ STEM < "preñar" >, SYNSEM.LKEYS.KEYREL.PRED "_preñar_v_rel" ]. preóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "preóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_preóptico_a_rel" ]. priceita_n1 := n_intr_count_le & [ STEM < "priceita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_priceita_n_rel" ] ]. primacía_n1 := n_intr_uncount_pl_le & [ STEM < "primacía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primacía_n_rel" ] ]. primar_v1 := v_intr_mrkd_np*_le & [ STEM < "primar" >, SYNSEM.LKEYS [ --COMPKEY _sobre_p_sel_rel, KEYREL.PRED "_primar_v_rel" ] ]. primar_v2 := v_trans_np_le & [ STEM < "primar" >, SYNSEM.LKEYS.KEYREL.PRED "_primar_v_rel" ]. primariamente_x1 := av_i_spr_le & [ STEM < "primariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_primariamente_x_rel" ]. primariedad_n1 := n_intr_uncount_le & [ STEM < "primariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primariedad_n_rel" ] ]. primario_a1 := a_rel_nonprd_intr_le & [ STEM < "primario" >, SYNSEM.LKEYS.KEYREL.PRED "_primario_a_rel" ]. primarosol_n1 := n_intr_count_le & [ STEM < "primarosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_primarosol_n_rel" ] ]. primate_n1 := n_intr_count_le & [ STEM < "primate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_primate_n_rel" ] ]. primavera_n1 := n_intr_count_le & [ STEM < "primavera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_primavera_n_rel" ] ]. primaveral_a1 := a_qual_intr_ser_le & [ STEM < "primaveral" >, SYNSEM.LKEYS.KEYREL.PRED "_primaveral_a_rel" ]. primer_a1 := a_adv_event_le & [ STEM < "primer" >, SYNSEM.LKEYS.KEYREL.PRED "_primer_a_rel" ]. primeramente_x1 := av_i_le & [ STEM < "primeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_primeramente_x_rel" ]. primerizo_a1 := a_rel_nonprd_intr_le & [ STEM < "primerizo" >, SYNSEM.LKEYS.KEYREL.PRED "_primerizo_a_rel" ]. primero_x1 := av_i_le & [ STEM < "primero" >, SYNSEM.LKEYS.KEYREL.PRED "_primero_x_rel" ]. primicia_n1 := n_intr_count_le & [ STEM < "primicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primicia_n_rel" ] ]. primita_n1 := n_intr_count_le & [ STEM < "primita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_primita_n_rel" ] ]. primitivamente_x1 := av_i_spr_le & [ STEM < "primitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_primitivamente_x_rel" ]. primitivismo_n1 := n_intr_uncount_le & [ STEM < "primitivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primitivismo_n_rel" ] ]. primitivo_a1 := a_qual_intr_ser_le & [ STEM < "primitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_primitivo_a_rel" ]. primo_a1 := a_rel_nonprd_intr_le & [ STEM < "primo" >, SYNSEM.LKEYS.KEYREL.PRED "_primo_a_rel" ]. primo_n1 := n_ppcomp_count_le & [ STEM < "primo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_primo_n_rel" ] ]. primogénito_a1 := a_rel_nonprd_intr_le & [ STEM < "primogénito" >, SYNSEM.LKEYS.KEYREL.PRED "_primogénito_a_rel" ]. primogénito_n1 := n_ppcomp_count_le & [ STEM < "primogénito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_primogénito_n_rel" ] ]. primor_n1 := n_intr_count_le & [ STEM < "primor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primor_n_rel" ] ]. primordial_a1 := a_qual_intr_ser_le & [ STEM < "primordial" >, SYNSEM.LKEYS.KEYREL.PRED "_primordial_a_rel" ]. primorosamente_x1 := av_i_spr_le & [ STEM < "primorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_primorosamente_x_rel" ]. primoroso_a1 := a_qual_intr_ser_le & [ STEM < "primoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_primoroso_a_rel" ]. primulina_n1 := n_intr_mass-or-count_le & [ STEM < "primulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_primulina_n_rel" ] ]. princesa_n1 := n_intr_count_le & [ STEM < "princesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_princesa_n_rel" ] ]. principado_n1 := n_intr_count_le & [ STEM < "principado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_principado_n_rel" ] ]. principal_a1 := a_adv_int_le & [ STEM < "principal" >, SYNSEM.LKEYS.KEYREL.PRED "_principal_a_rel" ]. principalmente_x1 := av_i_foc_le & [ STEM < "principalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_principalmente_x_rel" ]. principalmente_x2 := av_s_cp_prop_le & [ STEM < "principalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_principalmente_x_rel" ]. principalmente_x3 := av_i_np-foc_le & [ STEM < "principalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_principalmente_x_rel" ]. principesco_a1 := a_rel_nonprd_intr_le & [ STEM < "principesco" >, SYNSEM.LKEYS.KEYREL.PRED "_principesco_a_rel" ]. principiante_a1 := a_rel_nonprd_intr_le & [ STEM < "principiante" >, SYNSEM.LKEYS.KEYREL.PRED "_principiante_a_rel" ]. principiante_n1 := n_intr_count_le & [ STEM < "principiante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_principiante_n_rel" ] ]. prior_n1 := n_intr_count_le & [ STEM < "prior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prior_n_rel" ] ]. priorato_n1 := n_intr_mass-or-count_le & [ STEM < "priorato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_priorato_n_rel" ] ]. prioridad_n1 := n_intr_count_le & [ STEM < "prioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prioridad_n_rel" ] ]. prioritariamente_x1 := av_i_spr_le & [ STEM < "prioritariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prioritariamente_x_rel" ]. prioritario_a1 := a_rel_nonprd_intr_le & [ STEM < "prioritario" >, SYNSEM.LKEYS.KEYREL.PRED "_prioritario_a_rel" ]. priorización_n1 := n_trans_le & [ STEM < "priorización" >, SYNSEM.LKEYS.KEYREL.PRED "_priorización_n_rel" ]. priorizadamente_x1 := av_i_spr_le & [ STEM < "priorizadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_priorizadamente_x_rel" ]. priorizar_v := v_trans_np_le & [ STEM < "priorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_priorizar_v_rel" ]. prisionero_n1 := n_intr_count_le & [ STEM < "prisionero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prisionero_n_rel" ] ]. prisionización_n1 := n_trans_le & [ STEM < "prisionización" >, SYNSEM.LKEYS.KEYREL.PRED "_prisionización_n_rel" ]. prisionizar_v := v_trans_np_le & [ STEM < "prisionizar" >, SYNSEM.LKEYS.KEYREL.PRED "_prisionizar_v_rel" ]. prisión_n1 := n_intr_count_le & [ STEM < "prisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_prisión_n_rel" ] ]. prisma_n1 := n_intr_count_le & [ STEM < "prisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prisma_n_rel" ] ]. prismoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "prismoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_prismoidal_a_rel" ]. prismoidalmente_x1 := av_i_spr_le & [ STEM < "prismoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_prismoidalmente_x_rel" ]. prismático_a1 := a_rel_nonprd_intr_le & [ STEM < "prismático" >, SYNSEM.LKEYS.KEYREL.PRED "_prismático_a_rel" ]. prismáticos_n1 := n_intr_count_le & [ STEM < "prismáticos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prismáticos_n_rel" ] ]. prisómetro_n1 := n_intr_count_le & [ STEM < "prisómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prisómetro_n_rel" ] ]. privacidad_n1 := n_intr_mass_le & [ STEM < "privacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_privacidad_n_rel" ] ]. privación_n1 := n_trans_le & [ STEM < "privación" >, SYNSEM.LKEYS.KEYREL.PRED "_privación_n_rel" ]. privadamente_x1 := av_i_spr_le & [ STEM < "privadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_privadamente_x_rel" ]. privar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "privar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_privar_v_rel" ] ]. privar_v3 := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "privar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_privar_v_rel" ] ]. privar_v4 := v_trans_np_mrkd_np_le & [ STEM < "privar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_privar_v_rel" ] ]. privatización_n1 := n_trans_le & [ STEM < "privatización" >, SYNSEM.LKEYS.KEYREL.PRED "_privatización_n_rel" ]. privatizar_v := v_trans_np_le & [ STEM < "privatizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_loc_pro_soc, PRED "_privatizar_v_rel" ] ]. privilegiadamente_x1 := av_i_spr_le & [ STEM < "privilegiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_privilegiadamente_x_rel" ]. privilegiar_v := v_trans_np_le & [ STEM < "privilegiar" >, SYNSEM.LKEYS.KEYREL.PRED "_privilegiar_v_rel" ]. pro_p_nmod := p_nmod_le & [ STEM < "pro" >, SYNSEM.LKEYS.KEYREL.PRED _pro_p_rel ]. proa_n1 := n_intr_count_le & [ STEM < "proa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_proa_n_rel" ] ]. proacelerina_n1 := n_intr_count_le & [ STEM < "proacelerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_proacelerina_n_rel" ] ]. proactinio_n1 := n_intr_mass_le & [ STEM < "proactinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_proactinio_n_rel" ] ]. probabilidad_n1 := n_intr_count_le & [ STEM < "probabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_probabilidad_n_rel" ] ]. probabilismo_n1 := n_ppcomp_uncount_le & [ STEM < "probabilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_probabilismo_n_rel" ] ]. probabilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "probabilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_probabilístico_a_rel" ]. probable_a1 := a_adv_int_le & [ STEM < "probable" >, SYNSEM.LKEYS.KEYREL.PRED "_probable_a_rel" ]. probablemente_x1 := av_s_prhd_spr_le & [ STEM < "probablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_probablemente_x_rel" ]. probador_n1 := n_intr_count_le & [ STEM < "probador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_probador_n_rel" ] ]. probanza_n1 := n_trans_le & [ STEM < "probanza" >, SYNSEM.LKEYS.KEYREL.PRED "_probanza_n_rel" ]. probar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "probar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_probar_v_rel" ] ]. probar_v2 := v_ditrans_le & [ STEM < "probar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_probar_v_rel" ] ]. probar_v3 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "probar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_probar_v_rel" ] ]. probar_v4 := v_intr_mrkd_np_le & [ STEM < "probar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_probar_v_rel" ] ]. probar_v5 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "probar" >, SYNSEM.LKEYS.KEYREL.PRED "_probar_v_rel" ]. probar_v6 := v_subj_cp_prop_trans_np_le & [ STEM < "probar" >, SYNSEM.LKEYS.KEYREL.PRED "_probar_v_rel" ]. probar_v7 := v_trans_np_le & [ STEM < "probar" >, SYNSEM.LKEYS.KEYREL.PRED "_probar_v_rel" ]. probatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "probatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_probatorio_a_rel" ]. probeta_n1 := n_intr_count_le & [ STEM < "probeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_probeta_n_rel" ] ]. problema_n1 := n_intr_count_le & [ STEM < "problema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_problema_n_rel" ] ]. problematizar_v := v_trans_np*_le & [ STEM < "problematizar" >, SYNSEM.LKEYS.KEYREL.PRED "_problematizar_v_rel" ]. problemáticamente_x1 := av_i_spr_le & [ STEM < "problemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_problemáticamente_x_rel" ]. problemático_a1 := a_qual_intr_ser_le & [ STEM < "problemático" >, SYNSEM.LKEYS.KEYREL.PRED "_problemático_a_rel" ]. probóscide_n1 := n_intr_count_le & [ STEM < "probóscide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_probóscide_n_rel" ] ]. procacidad_n1 := n_intr_count_le & [ STEM < "procacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_procacidad_n_rel" ] ]. procarion_n1 := n_intr_count_le & [ STEM < "procarion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_procarion_n_rel" ] ]. procarionte_a1 := a_rel_nonprd_intr_le & [ STEM < "procarionte" >, SYNSEM.LKEYS.KEYREL.PRED "_procarionte_a_rel" ]. procariota_n1 := n_intr_count_le & [ STEM < "procariota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_procariota_n_rel" ] ]. procarión_n1 := n_intr_count_le & [ STEM < "procarión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_procarión_n_rel" ] ]. procariótico_a1 := a_rel_nonprd_intr_le & [ STEM < "procariótico" >, SYNSEM.LKEYS.KEYREL.PRED "_procariótico_a_rel" ]. procaz_a1 := a_rel_nonprd_intr_le & [ STEM < "procaz" >, SYNSEM.LKEYS.KEYREL.PRED "_procaz_a_rel" ]. procedencia_n1 := n_intr_count_le & [ STEM < "procedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_procedencia_n_rel" ] ]. procedente_a1 := a_rel_nonprd_trans_le & [ STEM < "procedente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_procedente_a_rel" ] ]. proceder_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "proceder" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_proceder_v_rel" ] ] ]. proceder_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "proceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_proceder_v_rel" ] ]. proceder_v3 := v_intr_mrkd_np_le & [ STEM < "proceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_proceder_v_rel" ] ]. proceder_v4 := v_intr_mrkd_np_le & [ STEM < "proceder" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_proceder_v_rel" ] ]. proceder_v5 := v_intr_le & [ STEM < "proceder" >, SYNSEM.LKEYS.KEYREL.PRED "_proceder_v_rel" ]. procedibilidad_n1 := n_intr_uncount_le & [ STEM < "procedibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_procedibilidad_n_rel" ] ]. procedimental_a1 := a_rel_nonprd_intr_le & [ STEM < "procedimental" >, SYNSEM.LKEYS.KEYREL.PRED "_procedimental_a_rel" ]. procedimiento_n1 := n_intr_count_le & [ STEM < "procedimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_procedimiento_n_rel" ]. procedural_a1 := a_rel_nonprd_intr_le & [ STEM < "procedural" >, SYNSEM.LKEYS.KEYREL.PRED "_procedural_a_rel" ]. proceduralmente_x1 := av_i_spr_le & [ STEM < "proceduralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_proceduralmente_x_rel" ]. procesabilidad_n1 := n_intr_uncount_le & [ STEM < "procesabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_procesabilidad_n_rel" ] ]. procesable_a1 := a_rel_nonprd_intr_le & [ STEM < "procesable" >, SYNSEM.LKEYS.KEYREL.PRED "_procesable_a_rel" ]. procesado_n1 := n_intr_count_le & [ STEM < "procesado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_procesado_n_rel" ] ]. procesador_n1 := n_intr_count_le & [ STEM < "procesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_procesador_n_rel" ] ]. procesal_a1 := a_rel_nonprd_intr_le & [ STEM < "procesal" >, SYNSEM.LKEYS.KEYREL.PRED "_procesal_a_rel" ]. procesalmente_x1 := av_i_spr_le & [ STEM < "procesalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_procesalmente_x_rel" ]. procesamiento_n1 := n_trans_le & [ STEM < "procesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_procesamiento_n_rel" ]. procesar_v := v_trans_np*_le & [ STEM < "procesar" >, SYNSEM.LKEYS.KEYREL.PRED "_procesar_v_rel" ]. procesión_n1 := n_intr_count_le & [ STEM < "procesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_procesión_n_rel" ] ]. procesión_n2 := n_result_intr_ppcomp_le & [ STEM < "procesión" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_procesión_n_rel" ] ]. proceso_n1 := n_trans_le & [ STEM < "proceso" >, SYNSEM.LKEYS.KEYREL.PRED "_proceso_n_rel" ]. procesual_a1 := a_rel_nonprd_intr_le & [ STEM < "procesual" >, SYNSEM.LKEYS.KEYREL.PRED "_procesual_a_rel" ]. proclamación_n1 := n_trans_le & [ STEM < "proclamación" >, SYNSEM.LKEYS.KEYREL.PRED "_proclamación_n_rel" ]. proclítico_a1 := a_rel_nonprd_intr_le & [ STEM < "proclítico" >, SYNSEM.LKEYS.KEYREL.PRED "_proclítico_a_rel" ]. proconsulado_n1 := n_intr_count_le & [ STEM < "proconsulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proconsulado_n_rel" ] ]. procreación_n1 := n_result_intr_le & [ STEM < "procreación" >, SYNSEM.LKEYS.KEYREL.PRED "_procreación_n_rel" ]. procrear_v := v_intr_le & [ STEM < "procrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_procrear_v_rel" ] ]. procromosoma_n1 := n_intr_count_le & [ STEM < "procromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_procromosoma_n_rel" ] ]. proctología_n1 := n_intr_uncount_le & [ STEM < "proctología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proctología_n_rel" ] ]. procuración_n1 := n_trans_le & [ STEM < "procuración" >, SYNSEM.LKEYS.KEYREL.PRED "_procuración_n_rel" ]. procurador_n1 := n_intr_count_le & [ STEM < "procurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_procurador_n_rel" ] ]. procuraduría_n1 := n_intr_uncount_pl_le & [ STEM < "procuraduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_procuraduría_n_rel" ] ]. procurar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "procurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_procurar_v_rel" ] ]. procurar_v2 := v_ditrans*_le & [ STEM < "procurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_procurar_v_rel" ] ]. procámbium_n1 := n_intr_count_le & [ STEM < "procámbium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_procámbium_n_rel" ] ]. procónsul_n1 := n_intr_count_le & [ STEM < "procónsul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_procónsul_n_rel" ] ]. prodigalidad_n1 := n_intr_mass_le & [ STEM < "prodigalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prodigalidad_n_rel" ] ]. prodigiosamente_x1 := av_i_spr_le & [ STEM < "prodigiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prodigiosamente_x_rel" ]. prodigioso_a1 := a_qual_intr_ser_le & [ STEM < "prodigioso" >, SYNSEM.LKEYS.KEYREL.PRED "_prodigioso_a_rel" ]. prodrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "prodrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_prodrómico_a_rel" ]. producción_n1 := n_trans_le & [ STEM < "producción" >, SYNSEM.LKEYS.KEYREL.PRED "_producción_n_rel" ]. producible_a1 := a_rel_nonprd_intr_le & [ STEM < "producible" >, SYNSEM.LKEYS.KEYREL.PRED "_producible_a_rel" ]. cobijar_v1 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "cobijar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobijar_v_rel" ]. cobijar_v2 := v_trans_np_le & [ STEM < "cobijar" >, SYNSEM.LKEYS.KEYREL.PRED "_cobijar_v_rel" ]. producir_v1 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "producir" >, SYNSEM.LKEYS.KEYREL.PRED "_producir_v_rel" ]. producir_v2 := v_trans_np_le & [ STEM < "producir" >, SYNSEM.LKEYS.KEYREL.PRED "_producir_v_rel" ]. productivamente_x1 := av_i_spr_le & [ STEM < "productivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_productivamente_x_rel" ]. productividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "productividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_productividad_n_rel" ] ]. productivismo_n1 := n_intr_uncount_le & [ STEM < "productivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_productivismo_n_rel" ] ]. productivo_a1 := a_qual_intr_ser_le & [ STEM < "productivo" >, SYNSEM.LKEYS.KEYREL.PRED "_productivo_a_rel" ]. producto_n1 := n_intr_count_le & [ STEM < "producto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_producto_n_rel" ] ]. productor_n1 := n_subj-nom_le & [ STEM < "productor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_productor_n_rel" ] ]. proel_a1 := a_rel_nonprd_intr_le & [ STEM < "proel" >, SYNSEM.LKEYS.KEYREL.PRED "_proel_a_rel" ]. proel_n1 := n_intr_count_le & [ STEM < "proel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proel_n_rel" ] ]. proelmente_x1 := av_i_spr_le & [ STEM < "proelmente" >, SYNSEM.LKEYS.KEYREL.PRED "_proelmente_x_rel" ]. proenzima_n1 := n_intr_count_le & [ STEM < "proenzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_proenzima_n_rel" ] ]. proeritroblasto_n1 := n_intr_count_le & [ STEM < "proeritroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_proeritroblasto_n_rel" ] ]. proeza_n1 := n_intr_count_le & [ STEM < "proeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proeza_n_rel" ] ]. profago_n1 := n_intr_count_le & [ STEM < "profago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_profago_n_rel" ] ]. profanación_n1 := n_trans_le & [ STEM < "profanación" >, SYNSEM.LKEYS.KEYREL.PRED "_profanación_n_rel" ]. profanamente_x1 := av_i_spr_le & [ STEM < "profanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_profanamente_x_rel" ]. profanar_v := v_trans_np_le & [ STEM < "profanar" >, SYNSEM.LKEYS.KEYREL.PRED "_profanar_v_rel" ]. profano_a1 := a_qual_intr_ser_le & [ STEM < "profano" >, SYNSEM.LKEYS.KEYREL.PRED "_profano_a_rel" ]. profano_n1 := n_intr_count_le & [ STEM < "profano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_profano_n_rel" ] ]. profecticio_a1 := a_rel_nonprd_intr_le & [ STEM < "profecticio" >, SYNSEM.LKEYS.KEYREL.PRED "_profecticio_a_rel" ]. profecía_n1 := n_intr_count_le & [ STEM < "profecía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profecía_n_rel" ] ]. proferir_v1 := v_trans_cp_prop_fin_le & [ STEM < "proferir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proferir_v_rel" ] ]. proferir_v2 := v_trans_np_le & [ STEM < "proferir" >, SYNSEM.LKEYS.KEYREL.PRED "_proferir_v_rel" ]. profesar_v := v_ditrans*_le & [ STEM < "profesar" >, SYNSEM.LKEYS.KEYREL.PRED "_profesar_v_rel" ]. profesional_a1 := a_qual_intr_ser_le & [ STEM < "profesional" >, SYNSEM.LKEYS.KEYREL.PRED "_profesional_a_rel" ]. profesional_n1 := n_intr_count_le & [ STEM < "profesional" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_profesional_n_rel" ] ]. profesionalidad_n1 := n_intr_mass_le & [ STEM < "profesionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profesionalidad_n_rel" ] ]. profesionalismo_n1 := n_intr_uncount_le & [ STEM < "profesionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profesionalismo_n_rel" ] ]. profesionalización_n1 := n_trans_le & [ STEM < "profesionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_profesionalización_n_rel" ]. profesionalizar_v := v_trans_np_le & [ STEM < "profesionalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_profesionalizar_v_rel" ]. profesionalmente_x1 := av_i_spr_le & [ STEM < "profesionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_profesionalmente_x_rel" ]. profesión_n1 := n_trans_le & [ STEM < "profesión" >, SYNSEM.LKEYS.KEYREL.PRED "_profesión_n_rel" ]. profesor_n1 := n_intr_count_le & [ STEM < "profesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_profesor_n_rel" ] ]. profesorado_n1 := n_intr_coll_le & [ STEM < "profesorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_profesorado_n_rel" ] ]. profeta_n1 := n_intr_count_le & [ STEM < "profeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_profeta_n_rel" ] ]. profetizar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "profetizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_profetizar_v_rel" ] ]. profetizar_v2 := v_ditrans*_le & [ STEM < "profetizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_profetizar_v_rel" ] ]. profibrinolisina_n1 := n_intr_count_le & [ STEM < "profibrinolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_profibrinolisina_n_rel" ] ]. profiláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "profiláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_profiláctico_a_rel" ]. profiláctico_n1 := n_intr_mass_le & [ STEM < "profiláctico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_profiláctico_n_rel" ] ]. proflavina_n1 := n_intr_count_le & [ STEM < "proflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_proflavina_n_rel" ] ]. profundamente_x1 := av_i_spr_le & [ STEM < "profundamente" >, SYNSEM.LKEYS.KEYREL.PRED "_profundamente_x_rel" ]. profundidad_n1 := n_intr_mass_le & [ STEM < "profundidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_profundidad_n_rel" ] ]. profundización_n1 := n_trans_le & [ STEM < "profundización" >, SYNSEM.LKEYS.KEYREL.PRED "_profundización_n_rel" ]. profundizar_v1 := v_trans_cp_prop_fin_le & [ STEM < "profundizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_profundizar_v_rel" ] ]. profundizar_v2 := v_trans_np*_le & [ STEM < "profundizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc_loc_pro_sem, PRED "_profundizar_v_rel" ] ]. profundizar_v3 := v_unacc_lcomp_loc_le & [ STEM < "profundizar" >, SYNSEM.LKEYS.KEYREL.PRED "_profundizar_v_rel" ]. profundo_a1 := a_qual_intr_scopal_le & [ STEM < "profundo" >, SYNSEM.LKEYS.KEYREL.PRED "_profundo_a_rel" ]. profusamente_x1 := av_i_spr_le & [ STEM < "profusamente" >, SYNSEM.LKEYS.KEYREL.PRED "_profusamente_x_rel" ]. profusión_n1 := n_intr_mass_le & [ STEM < "profusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profusión_n_rel" ] ]. profuso_a1 := a_qual_intr_ser_le & [ STEM < "profuso" >, SYNSEM.LKEYS.KEYREL.PRED "_profuso_a_rel" ]. proféticamente_x1 := av_i_spr_le & [ STEM < "proféticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_proféticamente_x_rel" ]. profético_a1 := a_qual_intr_ser_le & [ STEM < "profético" >, SYNSEM.LKEYS.KEYREL.PRED "_profético_a_rel" ]. progenitor_a1 := a_rel_nonprd_intr_le & [ STEM < "progenitor" >, SYNSEM.LKEYS.KEYREL.PRED "_progenitor_a_rel" ]. progenitor_n1 := n_intr_count_le & [ STEM < "progenitor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_progenitor_n_rel" ] ]. progenitura_n1 := n_intr_count_le & [ STEM < "progenitura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_progenitura_n_rel" ] ]. progesterona_n1 := n_intr_count_le & [ STEM < "progesterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_progesterona_n_rel" ] ]. prognatismo_n1 := n_ppcomp_uncount_le & [ STEM < "prognatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prognatismo_n_rel" ] ]. prognato_a1 := a_rel_nonprd_intr_le & [ STEM < "prognato" >, SYNSEM.LKEYS.KEYREL.PRED "_prognato_a_rel" ]. prognatómetro_n1 := n_intr_count_le & [ STEM < "prognatómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prognatómetro_n_rel" ] ]. prognático_a1 := a_rel_nonprd_intr_le & [ STEM < "prognático" >, SYNSEM.LKEYS.KEYREL.PRED "_prognático_a_rel" ]. progradante_a1 := a_rel_nonprd_intr_le & [ STEM < "progradante" >, SYNSEM.LKEYS.KEYREL.PRED "_progradante_a_rel" ]. programa_n1 := n_intr_count_le & [ STEM < "programa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_programa_n_rel" ] ]. programabilidad_n1 := n_intr_uncount_le & [ STEM < "programabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_programabilidad_n_rel" ] ]. programable_a1 := a_rel_nonprd_intr_le & [ STEM < "programable" >, SYNSEM.LKEYS.KEYREL.PRED "_programable_a_rel" ]. programación_n1 := n_trans_le & [ STEM < "programación" >, SYNSEM.LKEYS.KEYREL.PRED "_programación_n_rel" ]. programador_a1 := a_rel_nonprd_intr_le & [ STEM < "programador" >, SYNSEM.LKEYS.KEYREL.PRED "_programador_a_rel" ]. programador_n1 := n_intr_count_le & [ STEM < "programador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_programador_n_rel" ] ]. programador_n2 := n_subj-nom_le & [ STEM < "programador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_programador_n_rel" ] ]. programar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "programar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_programar_v_rel" ] ]. programar_v2 := v_trans_np_le & [ STEM < "programar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_programar_v_rel" ] ]. programático_a1 := a_rel_nonprd_intr_le & [ STEM < "programático" >, SYNSEM.LKEYS.KEYREL.PRED "_programático_a_rel" ]. progre_n1 := n_intr_count_le & [ STEM < "progre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_progre_n_rel" ] ]. progresar_v := v_unacc_le & [ STEM < "progresar" >, SYNSEM.LKEYS.KEYREL.PRED "_progresar_v_rel" ]. progresismo_n1 := n_intr_uncount_le & [ STEM < "progresismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_progresismo_n_rel" ] ]. progresista_a1 := a_qual_intr_ser_le & [ STEM < "progresista" >, SYNSEM.LKEYS.KEYREL.PRED "_progresista_a_rel" ]. progresivamente_x1 := av_i_spr_le & [ STEM < "progresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_progresivamente_x_rel" ]. progresividad_n1 := n_intr_mass-or-count_le & [ STEM < "progresividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_progresividad_n_rel" ] ]. progresivo_a1 := a_qual_intr_ser_le & [ STEM < "progresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_progresivo_a_rel" ]. progresión_n1 := n_event-result_intr_le & [ STEM < "progresión" >, SYNSEM.LKEYS.KEYREL.PRED "_progresión_n_rel" ]. progreso_n1 := n_event-result_intr_le & [ STEM < "progreso" >, SYNSEM.LKEYS.KEYREL.PRED "_progreso_n_rel" ]. prohibicionismo_n1 := n_intr_uncount_le & [ STEM < "prohibicionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prohibicionismo_n_rel" ] ]. prohibicionista_a1 := a_rel_nonprd_intr_le & [ STEM < "prohibicionista" >, SYNSEM.LKEYS.KEYREL.PRED "_prohibicionista_a_rel" ]. prohibición_n1 := n_trans_le & [ STEM < "prohibición" >, SYNSEM.LKEYS.KEYREL.PRED "_prohibición_n_rel" ]. prohibir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "prohibir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_prohibir_v_rel" ] ]. prohibir_v2 := v_ditrans*_le & [ STEM < "prohibir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_prohibir_v_rel" ] ]. prohibitivo_a1 := a_qual_intr_ser_le & [ STEM < "prohibitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_prohibitivo_a_rel" ]. prohibitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "prohibitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_prohibitorio_a_rel" ]. prohijamiento_n1 := n_trans_le & [ STEM < "prohijamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_prohijamiento_n_rel" ]. prolactina_n1 := n_intr_count_le & [ STEM < "prolactina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prolactina_n_rel" ] ]. prolamelar_a1 := a_rel_nonprd_intr_le & [ STEM < "prolamelar" >, SYNSEM.LKEYS.KEYREL.PRED "_prolamelar_a_rel" ]. prolamina_n1 := n_intr_count_le & [ STEM < "prolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prolamina_n_rel" ] ]. prolapsar_v := v_trans_np_caus_le & [ STEM < "prolapsar" >, SYNSEM.LKEYS.KEYREL.PRED "_prolapsar_v_rel" ]. prole_n1 := n_intr_count_le & [ STEM < "prole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prole_n_rel" ] ]. proletariado_n1 := n_intr_count_le & [ STEM < "proletariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proletariado_n_rel" ] ]. proletario_a1 := a_rel_nonprd_intr_le & [ STEM < "proletario" >, SYNSEM.LKEYS.KEYREL.PRED "_proletario_a_rel" ]. proletario_n1 := n_intr_count_le & [ STEM < "proletario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proletario_n_rel" ] ]. proletarismo_n1 := n_intr_uncount_le & [ STEM < "proletarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proletarismo_n_rel" ] ]. proletarización_n1 := n_intr_uncount_le & [ STEM < "proletarización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proletarización_n_rel" ] ]. proliferación_n1 := n_event-result_intr_le & [ STEM < "proliferación" >, SYNSEM.LKEYS.KEYREL.PRED "_proliferación_n_rel" ]. proliferar_v := v_unacc_lcomp_loc*_perf_le & [ STEM < "proliferar" >, SYNSEM.LKEYS.KEYREL.PRED "_proliferar_v_rel" ]. proliferativo_a1 := a_qual_intr_ser_le & [ STEM < "proliferativo" >, SYNSEM.LKEYS.KEYREL.PRED "_proliferativo_a_rel" ]. prolijamente_x1 := av_i_spr_le & [ STEM < "prolijamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prolijamente_x_rel" ]. prolijo_a1 := a_qual_intr_ser_le & [ STEM < "prolijo" >, SYNSEM.LKEYS.KEYREL.PRED "_prolijo_a_rel" ]. prolina_n1 := n_intr_count_le & [ STEM < "prolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prolina_n_rel" ] ]. prolinfocito_n1 := n_intr_count_le & [ STEM < "prolinfocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prolinfocito_n_rel" ] ]. prologar_v := v_trans_np_le & [ STEM < "prologar" >, SYNSEM.LKEYS.KEYREL.PRED "_prologar_v_rel" ]. prolongación_n1 := n_trans_le & [ STEM < "prolongación" >, SYNSEM.LKEYS.KEYREL.PRED "_prolongación_n_rel" ]. prolongar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "prolongar" >, SYNSEM.LKEYS.KEYREL.PRED "_prolongar_v_rel" ]. prolongar_v2 := v_trans_np_caus_le & [ STEM < "prolongar" >, SYNSEM.LKEYS.KEYREL.PRED "_prolongar_v_rel" ]. prolífero_a1 := a_qual_intr_ser_le & [ STEM < "prolífero" >, SYNSEM.LKEYS.KEYREL.PRED "_prolífero_a_rel" ]. prolífico_a1 := a_qual_intr_ser_le & [ STEM < "prolífico" >, SYNSEM.LKEYS.KEYREL.PRED "_prolífico_a_rel" ]. promecio_n1 := n_intr_count_le & [ STEM < "promecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_promecio_n_rel" ] ]. prometedor_a1 := a_qual_intr_ser_le & [ STEM < "prometedor" >, SYNSEM.LKEYS.KEYREL.PRED "_prometedor_a_rel" ]. prometido_n1 := n_intr_count_le & [ STEM < "prometido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prometido_n_rel" ] ]. prometio_n1 := n_intr_mass_le & [ STEM < "prometio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prometio_n_rel" ] ]. promielocito_n1 := n_intr_count_le & [ STEM < "promielocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_promielocito_n_rel" ] ]. prominencia_n1 := n_intr_uncount_le & [ STEM < "prominencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prominencia_n_rel" ] ]. prominente_a1 := a_qual_intr_ser_le & [ STEM < "prominente" >, SYNSEM.LKEYS.KEYREL.PRED "_prominente_a_rel" ]. prominentemente_x1 := av_i_spr_le & [ STEM < "prominentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_prominentemente_x_rel" ]. promiscuamente_x1 := av_i_spr_le & [ STEM < "promiscuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_promiscuamente_x_rel" ]. promiscuidad_n1 := n_intr_mass-or-count_le & [ STEM < "promiscuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_promiscuidad_n_rel" ] ]. promiscuo_a1 := a_qual_intr_ser_le & [ STEM < "promiscuo" >, SYNSEM.LKEYS.KEYREL.PRED "_promiscuo_a_rel" ]. promisorio_a1 := a_qual_intr_ser_le & [ STEM < "promisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_promisorio_a_rel" ]. promocional_a1 := a_rel_nonprd_intr_le & [ STEM < "promocional" >, SYNSEM.LKEYS.KEYREL.PRED "_promocional_a_rel" ]. promoción_n1 := n_trans_le & [ STEM < "promoción" >, SYNSEM.LKEYS.KEYREL.PRED "_promoción_n_rel" ]. promonocito_n1 := n_intr_count_le & [ STEM < "promonocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_promonocito_n_rel" ] ]. promotor_n1 := n_intr_count_le & [ STEM < "promotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_promotor_n_rel" ] ]. promotor_n2 := n_subj-nom_le & [ STEM < "promotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_promotor_n_rel" ] ]. promovedor_a1 := a_rel_nonprd_intr_le & [ STEM < "promovedor" >, SYNSEM.LKEYS.KEYREL.PRED "_promovedor_a_rel" ]. promovedor_n1 := n_subj-nom_le & [ STEM < "promovedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_promovedor_n_rel" ] ]. promovente_n1 := n_intr_count_le & [ STEM < "promovente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_promovente_n_rel" ] ]. promover_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "promover" >, SYNSEM.LKEYS.KEYREL.PRED "_promover_v_rel" ]. promover_v2 := v_trans_np_le & [ STEM < "promover" >, SYNSEM.LKEYS.KEYREL.PRED "_promover_v_rel" ]. promulgación_n1 := n_trans_le & [ STEM < "promulgación" >, SYNSEM.LKEYS.KEYREL.PRED "_promulgación_n_rel" ]. promulgar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "promulgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_promulgar_v_rel" ] ]. promulgar_v2 := v_trans_np_le & [ STEM < "promulgar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_promulgar_v_rel" ] ]. pronaos_n1 := n_intr_count_le & [ STEM < "pronaos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pronaos_n_rel" ] ]. prono_a1 := a_qual_intr_ser_le & [ STEM < "prono" >, SYNSEM.LKEYS.KEYREL.PRED "_prono_a_rel" ]. pronominal_a1 := a_rel_nonprd_intr_le & [ STEM < "pronominal" >, SYNSEM.LKEYS.KEYREL.PRED "_pronominal_a_rel" ]. pronominalización_n1 := n_trans_le & [ STEM < "pronominalización" >, SYNSEM.LKEYS.KEYREL.PRED "_pronominalización_n_rel" ]. pronosticación_n1 := n_trans_le & [ STEM < "pronosticación" >, SYNSEM.LKEYS.KEYREL.PRED "_pronosticación_n_rel" ]. pronosticador_n1 := n_subj-nom_le & [ STEM < "pronosticador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pronosticador_n_rel" ] ]. pronosticar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "pronosticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_pronosticar_v_rel" ] ]. pronosticar_v2 := v_ditrans*_le & [ STEM < "pronosticar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_pronosticar_v_rel" ] ]. prontitud_n1 := n_intr_uncount_le & [ STEM < "prontitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prontitud_n_rel" ] ]. pronto_a1 := a_adv_event_le & [ STEM < "pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_pronto_a_rel" ]. pronto_x1 := av_i_spr_le & [ STEM < "pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_pronto_x_rel" ]. pronucléolo_n1 := n_intr_count_le & [ STEM < "pronucléolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pronucléolo_n_rel" ] ]. pronunciable_a1 := a_rel_prd_le & [ STEM < "pronunciable" >, SYNSEM.LKEYS.KEYREL.PRED "_pronunciable_a_rel" ]. pronunciación_n1 := n_trans_le & [ STEM < "pronunciación" >, SYNSEM.LKEYS.KEYREL.PRED "_pronunciación_n_rel" ]. pronunciamiento_n1 := n_ppcomp_count_le & [ STEM < "pronunciamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pronunciamiento_n_rel" ] ]. pronóstico_n1 := n_trans_le & [ STEM < "pronóstico" >, SYNSEM.LKEYS.KEYREL.PRED "_pronóstico_n_rel" ]. pronúcleo_n1 := n_intr_mass_le & [ STEM < "pronúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pronúcleo_n_rel" ] ]. propagación_n1 := n_trans_le & [ STEM < "propagación" >, SYNSEM.LKEYS.KEYREL.PRED "_propagación_n_rel" ]. propagador_a1 := a_rel_nonprd_intr_le & [ STEM < "propagador" >, SYNSEM.LKEYS.KEYREL.PRED "_propagador_a_rel" ]. propagador_n1 := n_intr_count_le & [ STEM < "propagador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propagador_n_rel" ] ]. propagandista_a1 := a_qual_intr_ser_le & [ STEM < "propagandista" >, SYNSEM.LKEYS.KEYREL.PRED "_propagandista_a_rel" ]. propagandista_n1 := n_intr_count_le & [ STEM < "propagandista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_propagandista_n_rel" ] ]. propagandístico_a1 := a_qual_intr_ser_le & [ STEM < "propagandístico" >, SYNSEM.LKEYS.KEYREL.PRED "_propagandístico_a_rel" ]. propagar_v1 := v_trans_cp_prop_fin_le & [ STEM < "propagar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_propagar_v_rel" ] ]. propagar_v2 := v_trans_np_caus_le & [ STEM < "propagar" >, SYNSEM.LKEYS.KEYREL.PRED "_propagar_v_rel" ]. propano_n1 := n_intr_mass_le & [ STEM < "propano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propano_n_rel" ] ]. propanol_n1 := n_intr_count_le & [ STEM < "propanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propanol_n_rel" ] ]. propanolol_n1 := n_intr_count_le & [ STEM < "propanolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propanolol_n_rel" ] ]. proparoxítono_a1 := a_rel_nonprd_intr_le & [ STEM < "proparoxítono" >, SYNSEM.LKEYS.KEYREL.PRED "_proparoxítono_a_rel" ]. propendar_v := v_intr_mrkd_cp_prop_inf_le & [ STEM < "propendar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propendar_v_rel" ] ]. propender_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "propender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propender_v_rel" ] ]. propender_v2 := v_intr_mrkd_np_le & [ STEM < "propender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propender_v_rel" ] ]. propeno_n1 := n_intr_count_le & [ STEM < "propeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propeno_n_rel" ] ]. propensión_n1 := n_result_intr_ppcomp_le & [ STEM < "propensión" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_propensión_n_rel" ] ]. propenso_a1 := a_qual_trans*_ser_le & [ STEM < "propenso" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propenso_a_rel" ] ]. propenso_a2 := a_sctrl_ser_le & [ STEM < "propenso" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propenso_a_rel" ] ]. properdina_n1 := n_intr_count_le & [ STEM < "properdina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_properdina_n_rel" ] ]. propergol_n1 := n_intr_count_le & [ STEM < "propergol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_propergol_n_rel" ] ]. propiamente_x1 := av_i_foc_le & [ STEM < "propiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_propiamente_x_rel" ]. propiamente_x2 := av_s_cp_prop_le & [ STEM < "propiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_propiamente_x_rel" ]. propiamente_x3 := av_i_np-foc_le & [ STEM < "propiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_propiamente_x_rel" ]. propiciamente_x1 := av_i_spr_le & [ STEM < "propiciamente" >, SYNSEM.LKEYS.KEYREL.PRED "_propiciamente_x_rel" ]. propiciar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "propiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_propiciar_v_rel" ]. propiciar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "propiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_propiciar_v_rel" ]. propiciar_v3 := v_trans_np_le & [ STEM < "propiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_propiciar_v_rel" ]. propiciatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "propiciatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_propiciatorio_a_rel" ]. propicio_a1 := a_qual_trans*_ser_le & [ STEM < "propicio" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propicio_a_rel" ] ]. propicio_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "propicio" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_propicio_a_rel" ] ]. propiedad_n1 := n_intr_uncount_le & [ STEM < "propiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propiedad_n_rel" ] ]. propiedad_n2 := n_intr_count_le & [ STEM < "propiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propiedad_n_rel" ] ]. propietario_n1 := n_intr_count_le & [ STEM < "propietario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_propietario_n_rel" ] ]. propilacroleína_n1 := n_intr_count_le & [ STEM < "propilacroleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propilacroleína_n_rel" ] ]. propilamina_n1 := n_intr_count_le & [ STEM < "propilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propilamina_n_rel" ] ]. propilendiamina_n1 := n_intr_count_le & [ STEM < "propilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propilendiamina_n_rel" ] ]. propileno_n1 := n_intr_count_le & [ STEM < "propileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propileno_n_rel" ] ]. propileo_n1 := n_intr_mass_le & [ STEM < "propileo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_propileo_n_rel" ] ]. propilhexedrina_n1 := n_intr_count_le & [ STEM < "propilhexedrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propilhexedrina_n_rel" ] ]. propiltiouracilo_n1 := n_intr_count_le & [ STEM < "propiltiouracilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propiltiouracilo_n_rel" ] ]. propinar_v1 := v_ditrans_le & [ STEM < "propinar" >, SYNSEM.LKEYS.KEYREL.PRED "_propinar_v_rel" ]. propinar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "propinar" >, SYNSEM.LKEYS.KEYREL.PRED "_propinar_v_rel" ]. propinar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "propinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_propinar_v_rel" ] ] ]. propinar_v4 := v_trans_np_mrkd_np_le & [ STEM < "propinar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_propinar_v_rel" ] ] ]. propio_a1 := a_adv_int_le & [ STEM < "propio" >, SYNSEM.LKEYS.KEYREL.PRED "_propio_a_rel" ]. propio_a2 := a_qual_trans*_ser_le & [ STEM < "propio" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_propio_a_rel" ] ]. propioceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "propioceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_propioceptivo_a_rel" ]. propiofenona_n1 := n_intr_count_le & [ STEM < "propiofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propiofenona_n_rel" ] ]. propiolactona_n1 := n_intr_count_le & [ STEM < "propiolactona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propiolactona_n_rel" ] ]. propionaldehído_n1 := n_intr_mass_le & [ STEM < "propionaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propionaldehído_n_rel" ] ]. propionato_n1 := n_intr_count_le & [ STEM < "propionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_propionato_n_rel" ] ]. propiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "propiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_propiónico_a_rel" ]. proponente_a1 := a_rel_nonprd_intr_le & [ STEM < "proponente" >, SYNSEM.LKEYS.KEYREL.PRED "_proponente_a_rel" ]. proponente_n1 := n_intr_count_le & [ STEM < "proponente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proponente_n_rel" ] ]. proponer_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "proponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proponer_v_rel" ] ]. proponer_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "proponer" >, SYNSEM.LKEYS.KEYREL.PRED "_proponer_v_rel" ]. proponer_v3 := v_ditrans*_le & [ STEM < "proponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_proponer_v_rel" ] ]. proporcionadamente_x1 := av_i_spr_le & [ STEM < "proporcionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_proporcionadamente_x_rel" ]. proporcionalidad_n1 := n_intr_mass-or-count_le & [ STEM < "proporcionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proporcionalidad_n_rel" ] ]. proporcionalmente_x1 := av_i_spr_le & [ STEM < "proporcionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_proporcionalmente_x_rel" ]. proporcionar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "proporcionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proporcionar_v_rel" ] ]. proporcionar_v2 := v_ditrans*_le & [ STEM < "proporcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_proporcionar_v_rel" ]. proporcionar_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "proporcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_proporcionar_v_rel" ]. proporcionar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "proporcionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_proporcionar_v_rel" ] ] ]. proporcionar_v5 := v_trans_np_mrkd_np_le & [ STEM < "proporcionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_proporcionar_v_rel" ] ] ]. proporción_n1 := n_intr_count_le & [ STEM < "proporción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proporción_n_rel" ] ]. proposicional_a1 := a_rel_nonprd_intr_le & [ STEM < "proposicional" >, SYNSEM.LKEYS.KEYREL.PRED "_proposicional_a_rel" ]. proposición_n1 := n_trans_le & [ STEM < "proposición" >, SYNSEM.LKEYS.KEYREL.PRED "_proposición_n_rel" ]. propugnar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "propugnar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_propugnar_v_rel" ] ]. propugnar_v2 := v_trans_np_le & [ STEM < "propugnar" >, SYNSEM.LKEYS.KEYREL.PRED "_propugnar_v_rel" ]. propulsante_n1 := n_intr_count_le & [ STEM < "propulsante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_propulsante_n_rel" ] ]. propulsar_v := v_trans_np_lcomp_dir*_le & [ STEM < "propulsar" >, SYNSEM.LKEYS.KEYREL.PRED "_propulsar_v_rel" ]. propulsivamente_x1 := av_i_spr_le & [ STEM < "propulsivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_propulsivamente_x_rel" ]. propulsivo_a1 := a_rel_nonprd_intr_le & [ STEM < "propulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_propulsivo_a_rel" ]. propulsión_n1 := n_trans_le & [ STEM < "propulsión" >, SYNSEM.LKEYS.KEYREL.PRED "_propulsión_n_rel" ]. propulsor_a1 := a_rel_nonprd_intr_le & [ STEM < "propulsor" >, SYNSEM.LKEYS.KEYREL.PRED "_propulsor_a_rel" ]. propulsor_n1 := n_intr_count_le & [ STEM < "propulsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_propulsor_n_rel" ] ]. propósito_n1 := n_intr_count_le & [ STEM < "propósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propósito_n_rel" ] ]. prorratear_v := v_trans_np_mrkd_np*_le & [ STEM < "prorratear" >, SYNSEM.LKEYS [ --OCOMPKEY _entre_p_sel_rel, KEYREL.PRED "_prorratear_v_rel" ] ]. prorrateo_n1 := n_trans_le & [ STEM < "prorrateo" >, SYNSEM.LKEYS.KEYREL.PRED "_prorrateo_n_rel" ]. prorrogable_a1 := a_rel_nonprd_intr_le & [ STEM < "prorrogable" >, SYNSEM.LKEYS.KEYREL.PRED "_prorrogable_a_rel" ]. prorrogación_n1 := n_trans_le & [ STEM < "prorrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_prorrogación_n_rel" ]. prorrogar_v := v_trans_np_le & [ STEM < "prorrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_prorrogar_v_rel" ]. prorrumpir_v := v_intr_mrkd_np_le & [ STEM < "prorrumpir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_prorrumpir_v_rel" ] ]. prosaicamente_x1 := av_i_spr_le & [ STEM < "prosaicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prosaicamente_x_rel" ]. prosaico_a1 := a_qual_intr_ser_le & [ STEM < "prosaico" >, SYNSEM.LKEYS.KEYREL.PRED "_prosaico_a_rel" ]. proscenio_n1 := n_intr_count_le & [ STEM < "proscenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_proscenio_n_rel" ] ]. proscribir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "proscribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proscribir_v_rel" ] ]. proscribir_v2 := v_trans_np_le & [ STEM < "proscribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_sem_soc, PRED "_proscribir_v_rel" ] ]. proscribir_v3 := v_trans_np_le & [ STEM < "proscribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_proscribir_v_rel" ] ]. proscripción_n1 := n_trans_le & [ STEM < "proscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_proscripción_n_rel" ]. proscriptor_a1 := a_rel_nonprd_intr_le & [ STEM < "proscriptor" >, SYNSEM.LKEYS.KEYREL.PRED "_proscriptor_a_rel" ]. prosecución_n1 := n_trans_le & [ STEM < "prosecución" >, SYNSEM.LKEYS.KEYREL.PRED "_prosecución_n_rel" ]. proselitismo_n1 := n_intr_uncount_le & [ STEM < "proselitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proselitismo_n_rel" ] ]. proselitista_a1 := a_rel_nonprd_intr_le & [ STEM < "proselitista" >, SYNSEM.LKEYS.KEYREL.PRED "_proselitista_a_rel" ]. prosencéfalo_n1 := n_ppcomp_count_le & [ STEM < "prosencéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_prosencéfalo_n_rel" ] ]. prosopita_n1 := n_intr_count_le & [ STEM < "prosopita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prosopita_n_rel" ] ]. prosopómetro_n1 := n_intr_count_le & [ STEM < "prosopómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prosopómetro_n_rel" ] ]. prospección_n1 := n_intr_count_le & [ STEM < "prospección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prospección_n_rel" ] ]. prospectar_v := v_trans_np_le & [ STEM < "prospectar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_prospectar_v_rel" ] ]. prospectivamente_x1 := av_i_spr_le & [ STEM < "prospectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prospectivamente_x_rel" ]. prospectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "prospectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_prospectivo_a_rel" ]. prospecto_n1 := n_intr_count_le & [ STEM < "prospecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_prospecto_n_rel" ] ]. prosperar_v := v_unacc_le & [ STEM < "prosperar" >, SYNSEM.LKEYS.KEYREL.PRED "_prosperar_v_rel" ]. prosperidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "prosperidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prosperidad_n_rel" ] ]. prostaglandina_n1 := n_intr_count_le & [ STEM < "prostaglandina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_prostaglandina_n_rel" ] ]. prosternar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "prosternar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_prosternar_v_rel" ] ] ]. prosternar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "prosternar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_prosternar_v_rel" ] ] ]. prostitución_n1 := n_trans_le & [ STEM < "prostitución" >, SYNSEM.LKEYS.KEYREL.PRED "_prostitución_n_rel" ]. prostituta_n1 := n_intr_count_le & [ STEM < "prostituta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prostituta_n_rel" ] ]. prostodoncia_n1 := n_intr_uncount_le & [ STEM < "prostodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prostodoncia_n_rel" ] ]. prostático_a1 := a_rel_nonprd_intr_le & [ STEM < "prostático" >, SYNSEM.LKEYS.KEYREL.PRED "_prostático_a_rel" ]. prostético_a1 := a_rel_nonprd_intr_le & [ STEM < "prostético" >, SYNSEM.LKEYS.KEYREL.PRED "_prostético_a_rel" ]. prostíbulo_n1 := n_intr_count_le & [ STEM < "prostíbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_prostíbulo_n_rel" ] ]. prosódico_a1 := a_rel_nonprd_intr_le & [ STEM < "prosódico" >, SYNSEM.LKEYS.KEYREL.PRED "_prosódico_a_rel" ]. protactinio_n1 := n_intr_mass_le & [ STEM < "protactinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_protactinio_n_rel" ] ]. protagonismo_n1 := n_intr_uncount_le & [ STEM < "protagonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protagonismo_n_rel" ] ]. protagonista_n1 := n_intr_count_le & [ STEM < "protagonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protagonista_n_rel" ] ]. protagonizar_v := v_trans_np_le & [ STEM < "protagonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_protagonizar_v_rel" ]. protamina_n1 := n_intr_count_le & [ STEM < "protamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_protamina_n_rel" ] ]. protanomalopía_n1 := n_intr_uncount_le & [ STEM < "protanomalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protanomalopía_n_rel" ] ]. protanopía_n1 := n_intr_uncount_le & [ STEM < "protanopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protanopía_n_rel" ] ]. proteasa_n1 := n_intr_count_le & [ STEM < "proteasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_proteasa_n_rel" ] ]. proteccionismo_n1 := n_intr_uncount_le & [ STEM < "proteccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proteccionismo_n_rel" ] ]. proteccionista_a1 := a_qual_intr_ser_le & [ STEM < "proteccionista" >, SYNSEM.LKEYS.KEYREL.PRED "_proteccionista_a_rel" ]. protección_n1 := n_trans_le & [ STEM < "protección" >, SYNSEM.LKEYS.KEYREL.PRED "_protección_n_rel" ]. protector_a1 := a_qual_intr_ser_le & [ STEM < "protector" >, SYNSEM.LKEYS.KEYREL.PRED "_protector_a_rel" ]. protector_n1 := n_intr_count_le & [ STEM < "protector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protector_n_rel" ] ]. protectorado_n1 := n_intr_count_le & [ STEM < "protectorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_protectorado_n_rel" ] ]. protectoramente_x1 := av_i_spr_le & [ STEM < "protectoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_protectoramente_x_rel" ]. proteger_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "proteger" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proteger_v_rel" ] ]. proteger_v2 := v_trans_np_mrkd_np*_le & [ STEM < "proteger" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_proteger_v_rel" ] ]. protegido_n1 := n_intr_count_le & [ STEM < "protegido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protegido_n_rel" ] ]. proteicamente_x1 := av_i_spr_le & [ STEM < "proteicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_proteicamente_x_rel" ]. proteico_a1 := a_qual_intr_ser_le & [ STEM < "proteico" >, SYNSEM.LKEYS.KEYREL.PRED "_proteico_a_rel" ]. proteolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "proteolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_proteolítico_a_rel" ]. protervo_a1 := a_qual_intr_ser_le & [ STEM < "protervo" >, SYNSEM.LKEYS.KEYREL.PRED "_protervo_a_rel" ]. protesista_n1 := n_intr_count_le & [ STEM < "protesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protesista_n_rel" ] ]. protestante_a1 := a_rel_nonprd_intr_le & [ STEM < "protestante" >, SYNSEM.LKEYS.KEYREL.PRED "_protestante_a_rel" ]. protestante_n1 := n_intr_count_le & [ STEM < "protestante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protestante_n_rel" ] ]. protestantismo_n1 := n_intr_uncount_le & [ STEM < "protestantismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protestantismo_n_rel" ] ]. protestar_v1 := v_intr_le & [ STEM < "protestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_protestar_v_rel" ] ]. protestar_v2 := v_intr_mrkd_np_le & [ STEM < "protestar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_protestar_v_rel" ] ] ]. protestar_v3 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "protestar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_protestar_v_rel" ] ] ]. proteína_n1 := n_intr_mass_le & [ STEM < "proteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_proteína_n_rel" ] ]. proteínico_a1 := a_rel_nonprd_intr_le & [ STEM < "proteínico" >, SYNSEM.LKEYS.KEYREL.PRED "_proteínico_a_rel" ]. protoactinio_n1 := n_intr_count_le & [ STEM < "protoactinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_protoactinio_n_rel" ] ]. protocolario_a1 := a_rel_nonprd_intr_le & [ STEM < "protocolario" >, SYNSEM.LKEYS.KEYREL.PRED "_protocolario_a_rel" ]. protocolización_n1 := n_trans_le & [ STEM < "protocolización" >, SYNSEM.LKEYS.KEYREL.PRED "_protocolización_n_rel" ]. protocolizar_v := v_trans_np_le & [ STEM < "protocolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_protocolizar_v_rel" ]. protocolo_n1 := n_intr_count_le & [ STEM < "protocolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_protocolo_n_rel" ] ]. protofilamento_n1 := n_intr_count_le & [ STEM < "protofilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protofilamento_n_rel" ] ]. protogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "protogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_protogenético_a_rel" ]. protonotario_n1 := n_intr_count_le & [ STEM < "protonotario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protonotario_n_rel" ] ]. protoplasma_n1 := n_intr_mass_le & [ STEM < "protoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protoplasma_n_rel" ] ]. protoplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "protoplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_protoplasmático_a_rel" ]. protoplasto_n1 := n_intr_count_le & [ STEM < "protoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protoplasto_n_rel" ] ]. protoplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "protoplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_protoplásmico_a_rel" ]. prototipo_n1 := n_intr_count_le & [ STEM < "prototipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prototipo_n_rel" ] ]. protoveratrina_n1 := n_intr_count_le & [ STEM < "protoveratrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_protoveratrina_n_rel" ] ]. protozoo_n1 := n_intr_count_le & [ STEM < "protozoo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_protozoo_n_rel" ] ]. protozoología_n1 := n_intr_uncount_le & [ STEM < "protozoología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protozoología_n_rel" ] ]. protracción_n1 := n_intr_uncount_le & [ STEM < "protracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protracción_n_rel" ] ]. protrombina_n1 := n_intr_count_le & [ STEM < "protrombina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protrombina_n_rel" ] ]. protrusivo_a1 := a_rel_nonprd_intr_le & [ STEM < "protrusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_protrusivo_a_rel" ]. protrusión_n1 := n_event-result_intr_le & [ STEM < "protrusión" >, SYNSEM.LKEYS.KEYREL.PRED "_protrusión_n_rel" ]. protrómbico_a1 := a_rel_nonprd_intr_le & [ STEM < "protrómbico" >, SYNSEM.LKEYS.KEYREL.PRED "_protrómbico_a_rel" ]. protuberancia_n1 := n_intr_count_le & [ STEM < "protuberancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protuberancia_n_rel" ] ]. protuberancial_a1 := a_rel_nonprd_intr_le & [ STEM < "protuberancial" >, SYNSEM.LKEYS.KEYREL.PRED "_protuberancial_a_rel" ]. protuberante_a1 := a_qual_intr_ser_le & [ STEM < "protuberante" >, SYNSEM.LKEYS.KEYREL.PRED "_protuberante_a_rel" ]. protutor_n1 := n_intr_count_le & [ STEM < "protutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_protutor_n_rel" ] ]. protánope_a1 := a_rel_nonprd_intr_le & [ STEM < "protánope" >, SYNSEM.LKEYS.KEYREL.PRED "_protánope_a_rel" ]. protésico_a1 := a_rel_nonprd_intr_le & [ STEM < "protésico" >, SYNSEM.LKEYS.KEYREL.PRED "_protésico_a_rel" ]. protésico_n1 := n_intr_count_le & [ STEM < "protésico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protésico_n_rel" ] ]. protético_a1 := a_rel_nonprd_intr_le & [ STEM < "protético" >, SYNSEM.LKEYS.KEYREL.PRED "_protético_a_rel" ]. protón_n1 := n_intr_count_le & [ STEM < "protón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protón_n_rel" ] ]. protónico_a1 := a_rel_nonprd_intr_le & [ STEM < "protónico" >, SYNSEM.LKEYS.KEYREL.PRED "_protónico_a_rel" ]. protórax_n1 := n_intr_count_le & [ STEM < "protórax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_protórax_n_rel" ] ]. protótrofo_a1 := a_rel_nonprd_intr_le & [ STEM < "protótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_protótrofo_a_rel" ]. proustita_n1 := n_intr_count_le & [ STEM < "proustita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_proustita_n_rel" ] ]. provechosamente_x1 := av_i_spr_le & [ STEM < "provechosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_provechosamente_x_rel" ]. provechoso_a1 := a_qual_intr_ser_le & [ STEM < "provechoso" >, SYNSEM.LKEYS.KEYREL.PRED "_provechoso_a_rel" ]. proveedor_n1 := n_intr_count_le & [ STEM < "proveedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_proveedor_n_rel" ] ]. proveniente_a1 := a_rel_nonprd_trans_le & [ STEM < "proveniente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_proveniente_a_rel" ] ]. provenir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "provenir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_provenir_v_rel" ] ] ]. provenir_v2 := v_intr_mrkd_np_le & [ STEM < "provenir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_provenir_v_rel" ] ]. provenzal_a1 := a_rel_nonprd_intr_le & [ STEM < "provenzal" >, SYNSEM.LKEYS.KEYREL.PRED "_provenzal_a_rel" ]. provenzal_n1 := n_intr_count_le & [ STEM < "provenzal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_provenzal_n_rel" ] ]. proverbial_a1 := a_rel_nonprd_intr_le & [ STEM < "proverbial" >, SYNSEM.LKEYS.KEYREL.PRED "_proverbial_a_rel" ]. proverbio_n1 := n_intr_count_le & [ STEM < "proverbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_proverbio_n_rel" ] ]. providencia_n1 := n_intr_uncount_le & [ STEM < "providencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_providencia_n_rel" ] ]. providencial_a1 := a_rel_prd_le & [ STEM < "providencial" >, SYNSEM.LKEYS.KEYREL.PRED "_providencial_a_rel" ]. providencialmente_x1 := av_i_spr_le & [ STEM < "providencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_providencialmente_x_rel" ]. provincia_n1 := n_intr_count_le & [ STEM < "provincia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_provincia_n_rel" ] ]. provincial_a1 := a_rel_nonprd_intr_le & [ STEM < "provincial" >, SYNSEM.LKEYS.KEYREL.PRED "_provincial_a_rel" ]. provincialismo_n1 := n_intr_uncount_le & [ STEM < "provincialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_provincialismo_n_rel" ] ]. provincialización_n1 := n_trans_le & [ STEM < "provincialización" >, SYNSEM.LKEYS.KEYREL.PRED "_provincialización_n_rel" ]. provinciano_a1 := a_rel_nonprd_intr_le & [ STEM < "provinciano" >, SYNSEM.LKEYS.KEYREL.PRED "_provinciano_a_rel" ]. provisional_a1 := a_rel_nonprd_intr_le & [ STEM < "provisional" >, SYNSEM.LKEYS.KEYREL.PRED "_provisional_a_rel" ]. provisionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "provisionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_provisionalidad_n_rel" ] ]. provisionalmente_x1 := av_i_spr_le & [ STEM < "provisionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_provisionalmente_x_rel" ]. provisión_n1 := n_trans_le & [ STEM < "provisión" >, SYNSEM.LKEYS.KEYREL.PRED "_provisión_n_rel" ]. provisoriamente_x1 := av_i_spr_le & [ STEM < "provisoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_provisoriamente_x_rel" ]. provisorio_a1 := a_qual_intr_ser_le & [ STEM < "provisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_provisorio_a_rel" ]. provocación_n1 := n_trans_le & [ STEM < "provocación" >, SYNSEM.LKEYS.KEYREL.PRED "_provocación_n_rel" ]. provocador_a1 := a_qual_trans*_ser_le & [ STEM < "provocador" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_provocador_a_rel" ] ]. provocadoramente_x1 := av_i_spr_le & [ STEM < "provocadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_provocadoramente_x_rel" ]. provocar_v1 := v_ditrans*_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_provocar_v_rel" ] ]. provocar_v2 := v_intr_io*_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL.PRED "_provocar_v_rel" ]. provocar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL.PRED "_provocar_v_rel" ]. provocar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL.PRED "_provocar_v_rel" ]. provocar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL.PRED "_provocar_v_rel" ]. provocar_v6 := v_trans_cp_prop_fin_sub_le & [ STEM < "provocar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_provocar_v_rel" ] ]. provocar_v7 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "provocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_provocar_v_rel" ] ] ]. provocar_v8 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "provocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_provocar_v_rel" ] ] ]. provocativo_a1 := a_qual_intr_ser_le & [ STEM < "provocativo" >, SYNSEM.LKEYS.KEYREL.PRED "_provocativo_a_rel" ]. proxemiología_n1 := n_intr_uncount_le & [ STEM < "proxemiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proxemiología_n_rel" ] ]. proxeneta_n1 := n_intr_count_le & [ STEM < "proxeneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proxeneta_n_rel" ] ]. proxenetismo_n1 := n_intr_uncount_le & [ STEM < "proxenetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proxenetismo_n_rel" ] ]. proxenitismo_n1 := n_intr_uncount_le & [ STEM < "proxenitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proxenitismo_n_rel" ] ]. proximal_a1 := a_rel_nonprd_intr_le & [ STEM < "proximal" >, SYNSEM.LKEYS.KEYREL.PRED "_proximal_a_rel" ]. proximidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "proximidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proximidad_n_rel" ] ]. proyección_n1 := n_trans_le & [ STEM < "proyección" >, SYNSEM.LKEYS.KEYREL.PRED "_proyección_n_rel" ]. proyectable_a1 := a_rel_prd_le & [ STEM < "proyectable" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectable_a_rel" ]. proyectante_a1 := a_rel_nonprd_intr_le & [ STEM < "proyectante" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectante_a_rel" ]. proyectantemente_x1 := av_i_spr_le & [ STEM < "proyectantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectantemente_x_rel" ]. proyectar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "proyectar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_proyectar_v_rel" ] ]. proyectar_v2 := v_trans_np_lcomp_dir*_le & [ STEM < "proyectar" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectar_v_rel" ]. proyectil_n1 := n_intr_count_le & [ STEM < "proyectil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_proyectil_n_rel" ] ]. proyectista_a1 := a_rel_nonprd_intr_le & [ STEM < "proyectista" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectista_a_rel" ]. proyectista_n1 := n_intr_count_le & [ STEM < "proyectista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_proyectista_n_rel" ] ]. proyectividad_n1 := n_intr_uncount_le & [ STEM < "proyectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proyectividad_n_rel" ] ]. proyectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "proyectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_proyectivo_a_rel" ]. proyecto_n1 := n_intr_count_le & [ STEM < "proyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proyecto_n_rel" ] ]. proyector_n1 := n_intr_count_le & [ STEM < "proyector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_proyector_n_rel" ] ]. prudencia_n1 := n_intr_mass_le & [ STEM < "prudencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prudencia_n_rel" ] ]. prudencial_a1 := a_qual_intr_ser_le & [ STEM < "prudencial" >, SYNSEM.LKEYS.KEYREL.PRED "_prudencial_a_rel" ]. prudencialmente_x1 := av_i_spr_le & [ STEM < "prudencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_prudencialmente_x_rel" ]. prudente_a1 := a_qual_intr_ser_le & [ STEM < "prudente" >, SYNSEM.LKEYS.KEYREL.PRED "_prudente_a_rel" ]. prudentemente_x1 := av_s_spr_le & [ STEM < "prudentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_prudentemente_x_rel" ]. prudentemente_x2 := av_i_psthd_spr_le & [ STEM < "prudentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_prudentemente_x_rel" ]. prueba_n1 := n_trans_le & [ STEM < "prueba" >, SYNSEM.LKEYS.KEYREL.PRED "_prueba_n_rel" ]. prusiano_a1 := a_rel_prd_le & [ STEM < "prusiano" >, SYNSEM.LKEYS.KEYREL.PRED "_prusiano_a_rel" ]. prusiano_n1 := n_intr_count_le & [ STEM < "prusiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prusiano_n_rel" ] ]. prácticamente_x1 := av_s_prhd_le & [ STEM < "prácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_prácticamente_x_rel" ]. práctico_a1 := a_qual_intr_ser_le & [ STEM < "práctico" >, SYNSEM.LKEYS.KEYREL.PRED "_práctico_a_rel" ]. práctico_n1 := n_intr_count_le & [ STEM < "práctico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_práctico_n_rel" ] ]. préstamo_n1 := n_trans_le & [ STEM < "préstamo" >, SYNSEM.LKEYS.KEYREL.PRED "_préstamo_n_rel" ]. prímula_n1 := n_intr_count_le & [ STEM < "prímula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_prímula_n_rel" ] ]. príncipe_n1 := n_intr_count_le & [ STEM < "príncipe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_príncipe_n_rel" ] ]. prístino_a1 := a_qual_intr_ser_le & [ STEM < "prístino" >, SYNSEM.LKEYS.KEYREL.PRED "_prístino_a_rel" ]. prócer_n1 := n_intr_count_le & [ STEM < "prócer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prócer_n_rel" ] ]. pródigo_a1 := a_qual_intr_ser_le & [ STEM < "pródigo" >, SYNSEM.LKEYS.KEYREL.PRED "_pródigo_a_rel" ]. prófugo_n1 := n_intr_count_le & [ STEM < "prófugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prófugo_n_rel" ] ]. prójimo_n1 := n_intr_count_le & [ STEM < "prójimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_prójimo_n_rel" ] ]. prólogo_n1 := n_intr_count_le & [ STEM < "prólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_prólogo_n_rel" ] ]. próspero_a1 := a_qual_intr_scopal_le & [ STEM < "próspero" >, SYNSEM.LKEYS.KEYREL.PRED "_próspero_a_rel" ]. próstata_n1 := n_ppcomp_count_le & [ STEM < "próstata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_próstata_n_rel" ] ]. próstilo_a1 := a_rel_nonprd_intr_le & [ STEM < "próstilo" >, SYNSEM.LKEYS.KEYREL.PRED "_próstilo_a_rel" ]. próteles_n1 := n_intr_count_le & [ STEM < "próteles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_próteles_n_rel" ] ]. prótesis_n1 := n_intr_count_le & [ STEM < "prótesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prótesis_n_rel" ] ]. prótido_n1 := n_intr_count_le & [ STEM < "prótido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_prótido_n_rel" ] ]. próximamente_x1 := av_i_le & [ STEM < "próximamente" >, SYNSEM.LKEYS.KEYREL.PRED "_próximamente_x_rel" ]. próximo_a1 := a_adv_event_le & [ STEM < "próximo" >, SYNSEM.LKEYS.KEYREL.PRED "_próximo_a_rel" ]. próximo_a2 := a_qual_intr_ser_le & [ STEM < "próximo" >, SYNSEM.LKEYS.KEYREL.PRED "_próximo_a_rel" ]. próximo_a3 := a_qual_trans*_estar_le & [ STEM < "próximo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_próximo_a_rel" ] ]. psalidodoncia_n1 := n_intr_uncount_le & [ STEM < "psalidodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psalidodoncia_n_rel" ] ]. psammita_n1 := n_intr_count_le & [ STEM < "psammita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_psammita_n_rel" ] ]. psefita_n1 := n_intr_count_le & [ STEM < "psefita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_psefita_n_rel" ] ]. pseudoaccidental_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudoaccidental" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudoaccidental_a_rel" ]. pseudoaleatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudoaleatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudoaleatorio_a_rel" ]. pseudoalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudoalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudoalveolar_a_rel" ]. pseudocientífico_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudocientífico" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudocientífico_a_rel" ]. pseudocilíndrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudocilíndrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudocilíndrico_a_rel" ]. pseudocumeno_n1 := n_intr_count_le & [ STEM < "pseudocumeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pseudocumeno_n_rel" ] ]. pseudoesfera_n1 := n_intr_count_le & [ STEM < "pseudoesfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_pseudoesfera_n_rel" ] ]. pseudoesférico_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudoesférico" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudoesférico_a_rel" ]. pseudofita_n1 := n_intr_count_le & [ STEM < "pseudofita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pseudofita_n_rel" ] ]. pseudogén_n1 := n_intr_count_le & [ STEM < "pseudogén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pseudogén_n_rel" ] ]. pseudomorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudomorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudomorfo_a_rel" ]. pseudoptialismo_n1 := n_intr_uncount_le & [ STEM < "pseudoptialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudoptialismo_n_rel" ] ]. pseudoracémico_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudoracémico" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudoracémico_a_rel" ]. pseudotopológico_a1 := a_rel_nonprd_intr_le & [ STEM < "pseudotopológico" >, SYNSEM.LKEYS.KEYREL.PRED "_pseudotopológico_a_rel" ]. pseudovariedad_n1 := n_intr_mass-or-count_le & [ STEM < "pseudovariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudovariedad_n_rel" ] ]. pseudoácido_n1 := n_intr_count_le & [ STEM < "pseudoácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pseudoácido_n_rel" ] ]. psicoanalista_n1 := n_intr_count_le & [ STEM < "psicoanalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicoanalista_n_rel" ] ]. psicoanalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicoanalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicoanalítico_a_rel" ]. psicodepresor_a1 := a_rel_nonprd_intr_le & [ STEM < "psicodepresor" >, SYNSEM.LKEYS.KEYREL.PRED "_psicodepresor_a_rel" ]. psicodélico_a1 := a_qual_intr_ser_le & [ STEM < "psicodélico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicodélico_a_rel" ]. psicofarmacológico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicofarmacológico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicofarmacológico_a_rel" ]. psicofisiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicofisiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicofisiológico_a_rel" ]. psicologismo_n1 := n_intr_uncount_le & [ STEM < "psicologismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicologismo_n_rel" ] ]. psicología_n1 := n_intr_uncount_le & [ STEM < "psicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicología_n_rel" ] ]. psicológicamente_x1 := av_i_spr_le & [ STEM < "psicológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_psicológicamente_x_rel" ]. psicológico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicológico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicológico_a_rel" ]. psicometría_n1 := n_intr_uncount_pl_le & [ STEM < "psicometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicometría_n_rel" ] ]. psicomotricidad_n1 := n_intr_uncount_le & [ STEM < "psicomotricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicomotricidad_n_rel" ] ]. psicomotriz_a1 := a_rel_nonprd_intr_le & [ STEM < "psicomotriz" >, SYNSEM.LKEYS.KEYREL.PRED "_psicomotriz_a_rel" ]. psicométricamente_x1 := av_i_spr_le & [ STEM < "psicométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_psicométricamente_x_rel" ]. psicométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicométrico_a_rel" ]. psicopatología_n1 := n_intr_uncount_pl_le & [ STEM < "psicopatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicopatología_n_rel" ] ]. psicopatológico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicopatológico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicopatológico_a_rel" ]. psicopatía_n1 := n_intr_count_le & [ STEM < "psicopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicopatía_n_rel" ] ]. psicopatólogo_n1 := n_intr_count_le & [ STEM < "psicopatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicopatólogo_n_rel" ] ]. psicopedagogo_n1 := n_intr_count_le & [ STEM < "psicopedagogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicopedagogo_n_rel" ] ]. psicopedagogía_n1 := n_intr_uncount_le & [ STEM < "psicopedagogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicopedagogía_n_rel" ] ]. psicopedagógico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicopedagógico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicopedagógico_a_rel" ]. psicopático_a1 := a_rel_nonprd_intr_le & [ STEM < "psicopático" >, SYNSEM.LKEYS.KEYREL.PRED "_psicopático_a_rel" ]. psicosexual_a1 := a_rel_nonprd_intr_le & [ STEM < "psicosexual" >, SYNSEM.LKEYS.KEYREL.PRED "_psicosexual_a_rel" ]. psicosocial_a1 := a_rel_nonprd_intr_le & [ STEM < "psicosocial" >, SYNSEM.LKEYS.KEYREL.PRED "_psicosocial_a_rel" ]. psicosociológico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicosociológico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicosociológico_a_rel" ]. psicosomático_a1 := a_rel_nonprd_intr_le & [ STEM < "psicosomático" >, SYNSEM.LKEYS.KEYREL.PRED "_psicosomático_a_rel" ]. psicotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicotrópico_a_rel" ]. psicotécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "psicotécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicotécnico_a_rel" ]. psicotécnico_n1 := n_intr_count_le & [ STEM < "psicotécnico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicotécnico_n_rel" ] ]. psicrómetro_n1 := n_intr_count_le & [ STEM < "psicrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_psicrómetro_n_rel" ] ]. psicógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "psicógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_psicógeno_a_rel" ]. psicólogo_n1 := n_intr_count_le & [ STEM < "psicólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicólogo_n_rel" ] ]. psicómetro_n1 := n_intr_count_le & [ STEM < "psicómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_psicómetro_n_rel" ] ]. psicópata_n1 := n_intr_count_le & [ STEM < "psicópata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psicópata_n_rel" ] ]. psicótico_a1 := a_qual_intr_ser_le & [ STEM < "psicótico" >, SYNSEM.LKEYS.KEYREL.PRED "_psicótico_a_rel" ]. psilomelana_n1 := n_intr_count_le & [ STEM < "psilomelana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_psilomelana_n_rel" ] ]. psilomelano_n1 := n_intr_count_le & [ STEM < "psilomelano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_psilomelano_n_rel" ] ]. psique_n1 := n_intr_uncount_le & [ STEM < "psique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psique_n_rel" ] ]. psiquiatra_n1 := n_intr_count_le & [ STEM < "psiquiatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_psiquiatra_n_rel" ] ]. psiquiatría_n1 := n_intr_uncount_le & [ STEM < "psiquiatría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psiquiatría_n_rel" ] ]. psiquismo_n1 := n_intr_uncount_le & [ STEM < "psiquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psiquismo_n_rel" ] ]. psiquiátrico_a1 := a_rel_nonprd_intr_le & [ STEM < "psiquiátrico" >, SYNSEM.LKEYS.KEYREL.PRED "_psiquiátrico_a_rel" ]. psofométricamente_x1 := av_i_spr_le & [ STEM < "psofométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_psofométricamente_x_rel" ]. psofométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "psofométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_psofométrico_a_rel" ]. psofómetro_n1 := n_intr_count_le & [ STEM < "psofómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_psofómetro_n_rel" ] ]. psíquicamente_x1 := av_i_spr_le & [ STEM < "psíquicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_psíquicamente_x_rel" ]. psíquico_a1 := a_rel_nonprd_intr_le & [ STEM < "psíquico" >, SYNSEM.LKEYS.KEYREL.PRED "_psíquico_a_rel" ]. psórico_a1 := a_rel_nonprd_intr_le & [ STEM < "psórico" >, SYNSEM.LKEYS.KEYREL.PRED "_psórico_a_rel" ]. pterigoespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigoespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigoespinoso_a_rel" ]. pterigofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigofaríngeo_a_rel" ]. pterigoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigoideo_a_rel" ]. pterigomandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigomandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigomandibular_a_rel" ]. pterigomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigomaxilar_a_rel" ]. pterigopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "pterigopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_pterigopalatino_a_rel" ]. ptialina_n1 := n_intr_mass-or-count_le & [ STEM < "ptialina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ptialina_n_rel" ] ]. ptialismo_n1 := n_intr_uncount_le & [ STEM < "ptialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ptialismo_n_rel" ] ]. ptialografía_n1 := n_intr_count_le & [ STEM < "ptialografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ptialografía_n_rel" ] ]. ptialogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "ptialogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_ptialogénico_a_rel" ]. ptialolitotomía_n1 := n_intr_uncount_le & [ STEM < "ptialolitotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ptialolitotomía_n_rel" ] ]. ptomaína_n1 := n_intr_count_le & [ STEM < "ptomaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ptomaína_n_rel" ] ]. pub_n1 := n_intr_count_le & [ STEM < "pub" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pub_n_rel" ] ]. puberal_a1 := a_rel_nonprd_intr_le & [ STEM < "puberal" >, SYNSEM.LKEYS.KEYREL.PRED "_puberal_a_rel" ]. pubertad_n1 := n_intr_mass_le & [ STEM < "pubertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_pubertad_n_rel" ] ]. pubescencia_n1 := n_intr_uncount_le & [ STEM < "pubescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pubescencia_n_rel" ] ]. pubescente_a1 := a_rel_nonprd_intr_le & [ STEM < "pubescente" >, SYNSEM.LKEYS.KEYREL.PRED "_pubescente_a_rel" ]. pubiano_a1 := a_rel_nonprd_intr_le & [ STEM < "pubiano" >, SYNSEM.LKEYS.KEYREL.PRED "_pubiano_a_rel" ]. pubilla_n1 := n_intr_count_le & [ STEM < "pubilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pubilla_n_rel" ] ]. pubis_n1 := n_ppcomp_count_le & [ STEM < "pubis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pubis_n_rel" ] ]. publicable_a1 := a_rel_prd_le & [ STEM < "publicable" >, SYNSEM.LKEYS.KEYREL.PRED "_publicable_a_rel" ]. publicación_n2 := n_trans_le & [ STEM < "publicación" >, SYNSEM.LKEYS.KEYREL.PRED "_publicación_n_rel" ]. publicador_a1 := a_rel_nonprd_intr_le & [ STEM < "publicador" >, SYNSEM.LKEYS.KEYREL.PRED "_publicador_a_rel" ]. publicar_v1 := v_trans_cp_prop_fin_le & [ STEM < "publicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_publicar_v_rel" ] ]. publicar_v2 := v_trans_np_le & [ STEM < "publicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_publicar_v_rel" ] ]. publicidad_n1 := n_intr_mass-or-count_le & [ STEM < "publicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_publicidad_n_rel" ] ]. publicista_n1 := n_intr_count_le & [ STEM < "publicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_publicista_n_rel" ] ]. publicitar_v := v_trans_np_le & [ STEM < "publicitar" >, SYNSEM.LKEYS.KEYREL.PRED "_publicitar_v_rel" ]. publicitariamente_x1 := av_i_spr_le & [ STEM < "publicitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_publicitariamente_x_rel" ]. publicitario_a1 := a_rel_nonprd_intr_le & [ STEM < "publicitario" >, SYNSEM.LKEYS.KEYREL.PRED "_publicitario_a_rel" ]. publicitario_n1 := n_intr_count_le & [ STEM < "publicitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_publicitario_n_rel" ] ]. publienvío_n1 := n_intr_count_le & [ STEM < "publienvío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_publienvío_n_rel" ] ]. pubococcígeo_a1 := a_rel_nonprd_intr_le & [ STEM < "pubococcígeo" >, SYNSEM.LKEYS.KEYREL.PRED "_pubococcígeo_a_rel" ]. pubofemoral_a1 := a_rel_nonprd_intr_le & [ STEM < "pubofemoral" >, SYNSEM.LKEYS.KEYREL.PRED "_pubofemoral_a_rel" ]. puboprostático_a1 := a_rel_nonprd_intr_le & [ STEM < "puboprostático" >, SYNSEM.LKEYS.KEYREL.PRED "_puboprostático_a_rel" ]. puborrectal_a1 := a_rel_nonprd_intr_le & [ STEM < "puborrectal" >, SYNSEM.LKEYS.KEYREL.PRED "_puborrectal_a_rel" ]. pubovesical_a1 := a_rel_nonprd_intr_le & [ STEM < "pubovesical" >, SYNSEM.LKEYS.KEYREL.PRED "_pubovesical_a_rel" ]. pucelano_a1 := a_rel_nonprd_intr_le & [ STEM < "pucelano" >, SYNSEM.LKEYS.KEYREL.PRED "_pucelano_a_rel" ]. pucherazo_n1 := n_intr_count_le & [ STEM < "pucherazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pucherazo_n_rel" ] ]. puchero_n1 := n_intr_count_le & [ STEM < "puchero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puchero_n_rel" ] ]. pudendo_a1 := a_rel_nonprd_intr_le & [ STEM < "pudendo" >, SYNSEM.LKEYS.KEYREL.PRED "_pudendo_a_rel" ]. pudibundo_a1 := a_qual_intr_ser_le & [ STEM < "pudibundo" >, SYNSEM.LKEYS.KEYREL.PRED "_pudibundo_a_rel" ]. pudiente_a1 := a_qual_intr_ser_le & [ STEM < "pudiente" >, SYNSEM.LKEYS.KEYREL.PRED "_pudiente_a_rel" ]. puding_n1 := n_intr_mass_le & [ STEM < "puding" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puding_n_rel" ] ]. pudor_n1 := n_intr_mass-or-count_le & [ STEM < "pudor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pudor_n_rel" ] ]. pudoroso_a1 := a_qual_intr_ser_le & [ STEM < "pudoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_pudoroso_a_rel" ]. pudrición_n1 := n_event-result_intr_le & [ STEM < "pudrición" >, SYNSEM.LKEYS.KEYREL.PRED "_pudrición_n_rel" ]. pudrir_v := v_trans_np_caus_le & [ STEM < "pudrir" >, SYNSEM.LKEYS.KEYREL.PRED "_pudrir_v_rel" ]. pueblecito_n1 := n_intr_count_le & [ STEM < "pueblecito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pueblecito_n_rel" ] ]. pueblo_n1 := n_intr_count_le & [ STEM < "pueblo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_pueblo_n_rel" ] ]. pueblucho_n1 := n_intr_count_le & [ STEM < "pueblucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pueblucho_n_rel" ] ]. puente_n1 := n_intr_count_le & [ STEM < "puente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puente_n_rel" ] ]. puente_n2 := n_intr_temp_le & [ STEM < "puente" > ]. puenteo_n1 := n_intr_uncount_pl_le & [ STEM < "puenteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puenteo_n_rel" ] ]. puerca_n1 := n_intr_count_le & [ STEM < "puerca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_puerca_n_rel" ] ]. puerco_n1 := n_intr_count_le & [ STEM < "puerco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_puerco_n_rel" ] ]. puericultor_n1 := n_intr_count_le & [ STEM < "puericultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puericultor_n_rel" ] ]. puericultura_n1 := n_intr_count_le & [ STEM < "puericultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puericultura_n_rel" ] ]. pueril_a1 := a_qual_intr_ser_le & [ STEM < "pueril" >, SYNSEM.LKEYS.KEYREL.PRED "_pueril_a_rel" ]. puerilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "puerilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puerilidad_n_rel" ] ]. puerilmente_x1 := av_i_spr_le & [ STEM < "puerilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_puerilmente_x_rel" ]. puerperal_a1 := a_rel_nonprd_intr_le & [ STEM < "puerperal" >, SYNSEM.LKEYS.KEYREL.PRED "_puerperal_a_rel" ]. puerro_n1 := n_intr_mass_le & [ STEM < "puerro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puerro_n_rel" ] ]. puerta_n1 := n_intr_count_le & [ STEM < "puerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puerta_n_rel" ] ]. puerto_n1 := n_intr_count_le & [ STEM < "puerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_puerto_n_rel" ] ]. puertorriqueño_a1 := a_rel_prd_le & [ STEM < "puertorriqueño" >, SYNSEM.LKEYS.KEYREL.PRED "_puertorriqueño_a_rel" ]. puertorriqueño_n1 := n_intr_count_le & [ STEM < "puertorriqueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puertorriqueño_n_rel" ] ]. pues_bien_x1 := av_i_le & [ STEM < "pues_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_pues_bien_x_rel" ]. pues_sc := sc_prop_fin_le & [ STEM < "pues" >, SYNSEM.LKEYS.KEYREL.PRED "_pues_x_subord_rel" ]. pues_sí_que_sc := sc_prop_fin_le & [ STEM < "pues_sí_que" >, SYNSEM.LKEYS.KEYREL.PRED "_pues_sí_que_x_subord_rel" ]. puesto_n1 := n_intr_count_le & [ STEM < "puesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_puesto_n_rel" ] ]. puf_n1 := n_intr_count_le & [ STEM < "puf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puf_n_rel" ] ]. pugilato_n1 := n_intr_count_le & [ STEM < "pugilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pugilato_n_rel" ] ]. pugilismo_n1 := n_intr_uncount_le & [ STEM < "pugilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pugilismo_n_rel" ] ]. pugilista_n1 := n_intr_count_le & [ STEM < "pugilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pugilista_n_rel" ] ]. pugilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "pugilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_pugilístico_a_rel" ]. pugnar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "pugnar" >, SYNSEM.LKEYS [ --COMPKEY para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pugnar_v_rel" ] ] ]. pugnar_v2 := v_intr_mrkd_np*_le & [ STEM < "pugnar" >, SYNSEM.LKEYS [ --COMPKEY para_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_pugnar_v_rel" ] ] ]. pujamen_n1 := n_intr_count_le & [ STEM < "pujamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pujamen_n_rel" ] ]. pujante_a1 := a_qual_intr_ser_le & [ STEM < "pujante" >, SYNSEM.LKEYS.KEYREL.PRED "_pujante_a_rel" ]. pujantemente_x1 := av_i_spr_le & [ STEM < "pujantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pujantemente_x_rel" ]. pujanza_n1 := n_result_intr_le & [ STEM < "pujanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pujanza_n_rel" ] ]. pujar_v := v_trans_np*_le & [ STEM < "pujar" >, SYNSEM.LKEYS.KEYREL.PRED "_pujar_v_rel" ]. pularda_n1 := n_intr_count_le & [ STEM < "pularda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pularda_n_rel" ] ]. pulcritud_n1 := n_ppcomp_uncount_le & [ STEM < "pulcritud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulcritud_n_rel" ] ]. pulcro_a1 := a_qual_intr_ser_le & [ STEM < "pulcro" >, SYNSEM.LKEYS.KEYREL.PRED "_pulcro_a_rel" ]. pulga_n1 := n_intr_count_le & [ STEM < "pulga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pulga_n_rel" ] ]. pulgada_n := n_intr_count_le & [ STEM < "pulgada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_pulgada_n_rel" ] ]. pulgar_n1 := n_intr_count_le & [ STEM < "pulgar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulgar_n_rel" ] ]. pulgón_n1 := n_intr_count_le & [ STEM < "pulgón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pulgón_n_rel" ] ]. pulidor_a1 := a_rel_nonprd_intr_le & [ STEM < "pulidor" >, SYNSEM.LKEYS.KEYREL.PRED "_pulidor_a_rel" ]. pulidor_n1 := n_intr_count_le & [ STEM < "pulidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulidor_n_rel" ] ]. pulidora_n1 := n_intr_count_le & [ STEM < "pulidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulidora_n_rel" ] ]. pulimentado_n1 := n_trans_le & [ STEM < "pulimentado" >, SYNSEM.LKEYS.KEYREL.PRED "_pulimentado_n_rel" ]. pulimentar_v := v_trans_np_le & [ STEM < "pulimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_pulimentar_v_rel" ]. pulimento_n1 := n_trans_le & [ STEM < "pulimento" >, SYNSEM.LKEYS.KEYREL.PRED "_pulimento_n_rel" ]. pulir_v := v_trans_np_le & [ STEM < "pulir" >, SYNSEM.LKEYS.KEYREL.PRED "_pulir_v_rel" ]. pullover_n1 := n_intr_count_le & [ STEM < "pullover" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pullover_n_rel" ] ]. pulmonar_a1 := a_rel_nonprd_intr_le & [ STEM < "pulmonar" >, SYNSEM.LKEYS.KEYREL.PRED "_pulmonar_a_rel" ]. pulmonía_n1 := n_intr_uncount_pl_le & [ STEM < "pulmonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulmonía_n_rel" ] ]. pulmón_n1 := n_intr_count_le & [ STEM < "pulmón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulmón_n_rel" ] ]. pulpa_n1 := n_intr_count_le & [ STEM < "pulpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulpa_n_rel" ] ]. pulpectomía_n1 := n_intr_uncount_pl_le & [ STEM < "pulpectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulpectomía_n_rel" ] ]. pulpejo_n1 := n_ppcomp_count_le & [ STEM < "pulpejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pulpejo_n_rel" ] ]. pulpeta_n1 := n_intr_count_le & [ STEM < "pulpeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulpeta_n_rel" ] ]. pulpito_n1 := n_intr_count_le & [ STEM < "pulpito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pulpito_n_rel" ] ]. pulpo_n1 := n_intr_count_le & [ STEM < "pulpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pulpo_n_rel" ] ]. pulpolito_n1 := n_intr_count_le & [ STEM < "pulpolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulpolito_n_rel" ] ]. pulposo_a1 := a_qual_intr_ser_le & [ STEM < "pulposo" >, SYNSEM.LKEYS.KEYREL.PRED "_pulposo_a_rel" ]. pulpotomía_n1 := n_intr_uncount_pl_le & [ STEM < "pulpotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulpotomía_n_rel" ] ]. pulsación_n1 := n_trans_le & [ STEM < "pulsación" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsación_n_rel" ]. pulsador_a1 := a_rel_nonprd_intr_le & [ STEM < "pulsador" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsador_a_rel" ]. pulsador_n1 := n_intr_count_le & [ STEM < "pulsador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulsador_n_rel" ] ]. pulsante_a1 := a_rel_nonprd_intr_le & [ STEM < "pulsante" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsante_a_rel" ]. pulsantemente_x1 := av_i_spr_le & [ STEM < "pulsantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsantemente_x_rel" ]. pulsar_v := v_trans_np_le & [ STEM < "pulsar" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsar_v_rel" ]. pulsativamente_x1 := av_i_spr_le & [ STEM < "pulsativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsativamente_x_rel" ]. pulsativo_a1 := a_rel_nonprd_intr_le & [ STEM < "pulsativo" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsativo_a_rel" ]. pulsatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "pulsatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsatorio_a_rel" ]. pulsera_n1 := n_intr_count_le & [ STEM < "pulsera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulsera_n_rel" ] ]. pulsión_n1 := n_intr_count_le & [ STEM < "pulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulsión_n_rel" ] ]. pulso_n1 := n_intr_mass_le & [ STEM < "pulso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulso_n_rel" ] ]. pulsátil_a1 := a_rel_nonprd_intr_le & [ STEM < "pulsátil" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsátil_a_rel" ]. pulsátilmente_x1 := av_i_spr_le & [ STEM < "pulsátilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_pulsátilmente_x_rel" ]. pulsímetro_n1 := n_intr_count_le & [ STEM < "pulsímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulsímetro_n_rel" ] ]. pultáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "pultáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_pultáceo_a_rel" ]. pulular_v := v_unacc_le & [ STEM < "pulular" >, SYNSEM.LKEYS.KEYREL.PRED "_pulular_v_rel" ]. pulverizable_a1 := a_rel_prd_le & [ STEM < "pulverizable" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverizable_a_rel" ]. pulverizablemente_x1 := av_i_spr_le & [ STEM < "pulverizablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverizablemente_x_rel" ]. pulverización_n1 := n_trans_le & [ STEM < "pulverización" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverización_n_rel" ]. pulverizado_n1 := n_trans_le & [ STEM < "pulverizado" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverizado_n_rel" ]. pulverizador_a1 := a_rel_nonprd_intr_le & [ STEM < "pulverizador" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverizador_a_rel" ]. pulverizador_n1 := n_intr_count_le & [ STEM < "pulverizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pulverizador_n_rel" ] ]. pulverizar_v := v_trans_np_le & [ STEM < "pulverizar" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverizar_v_rel" ]. pulverulentamente_x1 := av_i_spr_le & [ STEM < "pulverulentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverulentamente_x_rel" ]. pulverulento_a1 := a_rel_nonprd_intr_le & [ STEM < "pulverulento" >, SYNSEM.LKEYS.KEYREL.PRED "_pulverulento_a_rel" ]. puma_n1 := n_intr_count_le & [ STEM < "puma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_puma_n_rel" ] ]. puncha_n1 := n_intr_count_le & [ STEM < "puncha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puncha_n_rel" ] ]. puncionar_v := v_trans_np_le & [ STEM < "puncionar" >, SYNSEM.LKEYS.KEYREL.PRED "_puncionar_v_rel" ]. punción_n1 := n_trans_le & [ STEM < "punción" >, SYNSEM.LKEYS.KEYREL.PRED "_punción_n_rel" ]. pundonor_n1 := n_intr_uncount_le & [ STEM < "pundonor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pundonor_n_rel" ] ]. punibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "punibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punibilidad_n_rel" ] ]. punible_a1 := a_rel_nonprd_intr_le & [ STEM < "punible" >, SYNSEM.LKEYS.KEYREL.PRED "_punible_a_rel" ]. punición_n1 := n_trans_le & [ STEM < "punición" >, SYNSEM.LKEYS.KEYREL.PRED "_punición_n_rel" ]. punir_v := v_trans_np_le & [ STEM < "punir" >, SYNSEM.LKEYS.KEYREL.PRED "_punir_v_rel" ]. punitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "punitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_punitivo_a_rel" ]. punta_n1 := n_intr_count_le & [ STEM < "punta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_punta_n_rel" ] ]. puntada_n1 := n_intr_count_le & [ STEM < "puntada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puntada_n_rel" ] ]. puntal_n1 := n_intr_count_le & [ STEM < "puntal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puntal_n_rel" ] ]. punteado_n1 := n_intr_count_le & [ STEM < "punteado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punteado_n_rel" ] ]. punteadora_n1 := n_intr_count_le & [ STEM < "punteadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_punteadora_n_rel" ] ]. puntear_v := v_trans_np_le & [ STEM < "puntear" >, SYNSEM.LKEYS.KEYREL.PRED "_puntear_v_rel" ]. puntera_n1 := n_intr_count_le & [ STEM < "puntera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puntera_n_rel" ] ]. punterazo_n1 := n_intr_count_le & [ STEM < "punterazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punterazo_n_rel" ] ]. puntero_a1 := a_rel_nonprd_intr_le & [ STEM < "puntero" >, SYNSEM.LKEYS.KEYREL.PRED "_puntero_a_rel" ]. puntero_n1 := n_intr_count_le & [ STEM < "puntero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_puntero_n_rel" ] ]. puntería_n1 := n_intr_mass_le & [ STEM < "puntería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puntería_n_rel" ] ]. puntiagudo_a1 := a_qual_intr_ser_le & [ STEM < "puntiagudo" >, SYNSEM.LKEYS.KEYREL.PRED "_puntiagudo_a_rel" ]. puntiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "puntiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_puntiforme_a_rel" ]. puntiformemente_x1 := av_i_spr_le & [ STEM < "puntiformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_puntiformemente_x_rel" ]. puntilla_n1 := n_intr_count_le & [ STEM < "puntilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puntilla_n_rel" ] ]. puntilladamente_x1 := av_i_spr_le & [ STEM < "puntilladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_puntilladamente_x_rel" ]. puntilloso_a1 := a_qual_intr_ser_le & [ STEM < "puntilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_puntilloso_a_rel" ]. puntista_n1 := n_intr_count_le & [ STEM < "puntista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puntista_n_rel" ] ]. punto_de_vista_n1 := n_intr_count_le & [ STEM < "punto_de_vista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punto_de_vista_n_rel" ] ]. puntuable_a1 := a_rel_nonprd_intr_le & [ STEM < "puntuable" >, SYNSEM.LKEYS.KEYREL.PRED "_puntuable_a_rel" ]. puntuación_n1 := n_trans_le & [ STEM < "puntuación" >, SYNSEM.LKEYS.KEYREL.PRED "_puntuación_n_rel" ]. puntual_a1 := a_qual_intr_ser_le & [ STEM < "puntual" >, SYNSEM.LKEYS.KEYREL.PRED "_puntual_a_rel" ]. puntualidad_n1 := n_intr_mass_le & [ STEM < "puntualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puntualidad_n_rel" ] ]. puntualización_n1 := n_trans_le & [ STEM < "puntualización" >, SYNSEM.LKEYS.KEYREL.PRED "_puntualización_n_rel" ]. puntualizar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "puntualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_puntualizar_v_rel" ] ]. puntualizar_v2 := v_ditrans*_le & [ STEM < "puntualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_puntualizar_v_rel" ] ]. puntuar_v := v_trans_np*_le & [ STEM < "puntuar" >, SYNSEM.LKEYS.KEYREL.PRED "_puntuar_v_rel" ]. puntura_n1 := n_intr_count_le & [ STEM < "puntura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puntura_n_rel" ] ]. punzada_n1 := n_intr_count_le & [ STEM < "punzada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punzada_n_rel" ] ]. punzante_a1 := a_qual_intr_ser_le & [ STEM < "punzante" >, SYNSEM.LKEYS.KEYREL.PRED "_punzante_a_rel" ]. punzonadora_n1 := n_intr_count_le & [ STEM < "punzonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_punzonadora_n_rel" ] ]. punzonar_v := v_trans_np_le & [ STEM < "punzonar" >, SYNSEM.LKEYS.KEYREL.PRED "_punzonar_v_rel" ]. punzón_n1 := n_intr_count_le & [ STEM < "punzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_punzón_n_rel" ] ]. pupila_n1 := n_ppcomp_count_le & [ STEM < "pupila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pupila_n_rel" ] ]. pupilar_a1 := a_rel_nonprd_intr_le & [ STEM < "pupilar" >, SYNSEM.LKEYS.KEYREL.PRED "_pupilar_a_rel" ]. pupilatonía_n1 := n_intr_uncount_le & [ STEM < "pupilatonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pupilatonía_n_rel" ] ]. pupilo_n1 := n_intr_count_le & [ STEM < "pupilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pupilo_n_rel" ] ]. pupilometría_n1 := n_intr_uncount_pl_le & [ STEM < "pupilometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pupilometría_n_rel" ] ]. pupiloscopio_n1 := n_intr_count_le & [ STEM < "pupiloscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pupiloscopio_n_rel" ] ]. pupilostatómetro_n1 := n_intr_count_le & [ STEM < "pupilostatómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pupilostatómetro_n_rel" ] ]. pupilógrafo_n1 := n_intr_count_le & [ STEM < "pupilógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pupilógrafo_n_rel" ] ]. pupilómetro_n1 := n_intr_count_le & [ STEM < "pupilómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pupilómetro_n_rel" ] ]. pupitre_n1 := n_intr_count_le & [ STEM < "pupitre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pupitre_n_rel" ] ]. puramente_x1 := av_i_foc_le & [ STEM < "puramente" >, SYNSEM.LKEYS.KEYREL.PRED "_puramente_x_rel" ]. puramente_x2 := av_s_cp_prop_le & [ STEM < "puramente" >, SYNSEM.LKEYS.KEYREL.PRED "_puramente_x_rel" ]. puramente_x3 := av_i_np-foc_le & [ STEM < "puramente" >, SYNSEM.LKEYS.KEYREL.PRED "_puramente_x_rel" ]. pureza_n1 := n_ppcomp_mass_le & [ STEM < "pureza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pureza_n_rel" ] ]. purgador_a1 := a_rel_nonprd_intr_le & [ STEM < "purgador" >, SYNSEM.LKEYS.KEYREL.PRED "_purgador_a_rel" ]. purgador_n1 := n_intr_count_le & [ STEM < "purgador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_purgador_n_rel" ] ]. purgante_n1 := n_intr_count_le & [ STEM < "purgante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_purgante_n_rel" ] ]. purgativo_a1 := a_rel_nonprd_intr_le & [ STEM < "purgativo" >, SYNSEM.LKEYS.KEYREL.PRED "_purgativo_a_rel" ]. purgatorio_n1 := n_intr_count_le & [ STEM < "purgatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_purgatorio_n_rel" ] ]. purificación_n1 := n_trans_le & [ STEM < "purificación" >, SYNSEM.LKEYS.KEYREL.PRED "_purificación_n_rel" ]. purificador_a1 := a_rel_nonprd_intr_le & [ STEM < "purificador" >, SYNSEM.LKEYS.KEYREL.PRED "_purificador_a_rel" ]. purificador_n1 := n_intr_count_le & [ STEM < "purificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_purificador_n_rel" ] ]. purificar_v := v_trans_np_caus_le & [ STEM < "purificar" >, SYNSEM.LKEYS.KEYREL.PRED "_purificar_v_rel" ]. purina_n1 := n_intr_count_le & [ STEM < "purina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_purina_n_rel" ] ]. purismo_n1 := n_ppcomp_uncount_le & [ STEM < "purismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_purismo_n_rel" ] ]. purista_a1 := a_qual_intr_ser_le & [ STEM < "purista" >, SYNSEM.LKEYS.KEYREL.PRED "_purista_a_rel" ]. purista_n1 := n_intr_count_le & [ STEM < "purista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_purista_n_rel" ] ]. puritanismo_n1 := n_intr_uncount_le & [ STEM < "puritanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puritanismo_n_rel" ] ]. puritano_a1 := a_qual_intr_ser_le & [ STEM < "puritano" >, SYNSEM.LKEYS.KEYREL.PRED "_puritano_a_rel" ]. puritano_n1 := n_intr_count_le & [ STEM < "puritano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puritano_n_rel" ] ]. purito_n1 := n_intr_count_le & [ STEM < "purito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_purito_n_rel" ] ]. puro_a1 := a_adv_int_le & [ STEM < "puro" >, SYNSEM.LKEYS.KEYREL.PRED "_puro_a_rel" ]. puro_a2 := a_qual_intr_scopal_le & [ STEM < "puro" >, SYNSEM.LKEYS.KEYREL.PRED "_puro_a_rel" ]. puromicina_n1 := n_intr_count_le & [ STEM < "puromicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puromicina_n_rel" ] ]. purpurina_n1 := n_intr_count_le & [ STEM < "purpurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_purpurina_n_rel" ] ]. purpúreo_a1 := a_qual_intr_ser_le & [ STEM < "purpúreo" >, SYNSEM.LKEYS.KEYREL.PRED "_purpúreo_a_rel" ]. purulento_a1 := a_qual_intr_ser_le & [ STEM < "purulento" >, SYNSEM.LKEYS.KEYREL.PRED "_purulento_a_rel" ]. puré_n1 := n_intr_mass_le & [ STEM < "puré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puré_n_rel" ] ]. pus_n1 := n_intr_mass_le & [ STEM < "pus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pus_n_rel" ] ]. pusilanimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "pusilanimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pusilanimidad_n_rel" ] ]. pusilánime_a1 := a_qual_intr_ser_le & [ STEM < "pusilánime" >, SYNSEM.LKEYS.KEYREL.PRED "_pusilánime_a_rel" ]. puta_n1 := n_intr_count_le & [ STEM < "puta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_puta_n_rel" ] ]. putamen_n1 := n_intr_count_le & [ STEM < "putamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_putamen_n_rel" ] ]. putativo_a1 := a_rel_nonprd_intr_le & [ STEM < "putativo" >, SYNSEM.LKEYS.KEYREL.PRED "_putativo_a_rel" ]. putero_n1 := n_intr_count_le & [ STEM < "putero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_putero_n_rel" ] ]. puticlub_n1 := n_intr_count_le & [ STEM < "puticlub" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_puticlub_n_rel" ] ]. putrefacción_n1 := n_event-result_intr_le & [ STEM < "putrefacción" >, SYNSEM.LKEYS.KEYREL.PRED "_putrefacción_n_rel" ]. putrefactamente_x1 := av_i_spr_le & [ STEM < "putrefactamente" >, SYNSEM.LKEYS.KEYREL.PRED "_putrefactamente_x_rel" ]. putrefactivamente_x1 := av_i_spr_le & [ STEM < "putrefactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_putrefactivamente_x_rel" ]. putrefactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "putrefactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_putrefactivo_a_rel" ]. putrefacto_a1 := a_qual_intr_estar_le & [ STEM < "putrefacto" >, SYNSEM.LKEYS.KEYREL.PRED "_putrefacto_a_rel" ]. putrescencia_n1 := n_intr_uncount_le & [ STEM < "putrescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_putrescencia_n_rel" ] ]. putrescente_a1 := a_rel_nonprd_intr_le & [ STEM < "putrescente" >, SYNSEM.LKEYS.KEYREL.PRED "_putrescente_a_rel" ]. putrescentemente_x1 := av_i_spr_le & [ STEM < "putrescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_putrescentemente_x_rel" ]. putrescible_a1 := a_rel_nonprd_intr_le & [ STEM < "putrescible" >, SYNSEM.LKEYS.KEYREL.PRED "_putrescible_a_rel" ]. putresciblemente_x1 := av_i_spr_le & [ STEM < "putresciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_putresciblemente_x_rel" ]. puzolana_n1 := n_intr_count_le & [ STEM < "puzolana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_puzolana_n_rel" ] ]. puzolánicamente_x1 := av_i_spr_le & [ STEM < "puzolánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_puzolánicamente_x_rel" ]. puzzle_n1 := n_intr_count_le & [ STEM < "puzzle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puzzle_n_rel" ] ]. puñado_n1 := n_pseudo-part_le & [ STEM < "puñado" >, SYNSEM.LKEYS.KEYREL.PRED "_puñado_n_rel" ]. puñal_n1 := n_intr_count_le & [ STEM < "puñal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puñal_n_rel" ] ]. puñalada_n1 := n_intr_count_le & [ STEM < "puñalada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puñalada_n_rel" ] ]. puñetazo_n1 := n_intr_count_le & [ STEM < "puñetazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puñetazo_n_rel" ] ]. puño_n1 := n_intr_count_le & [ STEM < "puño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_puño_n_rel" ] ]. pyme_n1 := n_intr_count_le & [ STEM < "pyme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_pyme_n_rel" ] ]. pábilo_n1 := n_intr_mass_le & [ STEM < "pábilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pábilo_n_rel" ] ]. página_n1 := n_intr_count_le & [ STEM < "página" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_página_n_rel" ] ]. pájara_n1 := n_intr_count_le & [ STEM < "pájara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pájara_n_rel" ] ]. pájaro_n1 := n_intr_count_le & [ STEM < "pájaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pájaro_n_rel" ] ]. pálido_a1 := a_qual_intr_ser_le & [ STEM < "pálido" >, SYNSEM.LKEYS.KEYREL.PRED "_pálido_a_rel" ]. pálmer_n1 := n_intr_count_le & [ STEM < "pálmer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pálmer_n_rel" ] ]. pámpano_n1 := n_intr_count_le & [ STEM < "pámpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pámpano_n_rel" ] ]. páncreas_n1 := n_intr_count_le & [ STEM < "páncreas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_páncreas_n_rel" ] ]. pápula_n1 := n_intr_count_le & [ STEM < "pápula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pápula_n_rel" ] ]. páramo_n1 := n_intr_count_le & [ STEM < "páramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_páramo_n_rel" ] ]. párpado_n1 := n_intr_count_le & [ STEM < "párpado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_párpado_n_rel" ] ]. párrafo_n1 := n_intr_count_le & [ STEM < "párrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_párrafo_n_rel" ] ]. párroco_n1 := n_intr_count_le & [ STEM < "párroco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_párroco_n_rel" ] ]. párvulo_n1 := n_intr_count_le & [ STEM < "párvulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_párvulo_n_rel" ] ]. pátera_n1 := n_intr_count_le & [ STEM < "pátera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pátera_n_rel" ] ]. pátina_n1 := n_intr_count_le & [ STEM < "pátina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_pátina_n_rel" ] ]. pélvico_a1 := a_rel_nonprd_intr_le & [ STEM < "pélvico" >, SYNSEM.LKEYS.KEYREL.PRED "_pélvico_a_rel" ]. péndulo_n1 := n_intr_count_le & [ STEM < "péndulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_péndulo_n_rel" ] ]. péptico_a1 := a_rel_nonprd_intr_le & [ STEM < "péptico" >, SYNSEM.LKEYS.KEYREL.PRED "_péptico_a_rel" ]. péptido_n1 := n_intr_count_le & [ STEM < "péptido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_péptido_n_rel" ] ]. péptido_n2 := n_ppcomp_count_le & [ STEM < "péptido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_péptido_n_rel" ] ]. pérfidamente_x1 := av_i_spr_le & [ STEM < "pérfidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pérfidamente_x_rel" ]. pérfido_a1 := a_qual_intr_ser_le & [ STEM < "pérfido" >, SYNSEM.LKEYS.KEYREL.PRED "_pérfido_a_rel" ]. pérgola_n1 := n_intr_count_le & [ STEM < "pérgola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_pérgola_n_rel" ] ]. pérsico_a1 := a_rel_prd_le & [ STEM < "pérsico" >, SYNSEM.LKEYS.KEYREL.PRED "_pérsico_a_rel" ]. pértiga_n1 := n_intr_count_le & [ STEM < "pértiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pértiga_n_rel" ] ]. pésimamente_x1 := av_i_spr_le & [ STEM < "pésimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pésimamente_x_rel" ]. pétalo_n1 := n_intr_count_le & [ STEM < "pétalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pétalo_n_rel" ] ]. pétreamente_x1 := av_i_spr_le & [ STEM < "pétreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pétreamente_x_rel" ]. pétreo_a1 := a_rel_nonprd_intr_le & [ STEM < "pétreo" >, SYNSEM.LKEYS.KEYREL.PRED "_pétreo_a_rel" ]. píamente_x1 := av_i_spr_le & [ STEM < "píamente" >, SYNSEM.LKEYS.KEYREL.PRED "_píamente_x_rel" ]. pícaro_n1 := n_intr_count_le & [ STEM < "pícaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pícaro_n_rel" ] ]. pícea_n1 := n_intr_count_le & [ STEM < "pícea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_pícea_n_rel" ] ]. pícnic_n1 := n_intr_count_le & [ STEM < "pícnic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pícnic_n_rel" ] ]. pícrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pícrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pícrico_a_rel" ]. píldora_n1 := n_intr_count_le & [ STEM < "píldora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_píldora_n_rel" ] ]. píloro_n1 := n_intr_count_le & [ STEM < "píloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_píloro_n_rel" ] ]. pío_a1 := a_qual_intr_ser_le & [ STEM < "pío" >, SYNSEM.LKEYS.KEYREL.PRED "_pío_a_rel" ]. pírrico_a1 := a_rel_nonprd_intr_le & [ STEM < "pírrico" >, SYNSEM.LKEYS.KEYREL.PRED "_pírrico_a_rel" ]. pívot_n1 := n_intr_count_le & [ STEM < "pívot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_pívot_n_rel" ] ]. píxel_n1 := n_intr_count_le & [ STEM < "píxel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_píxel_n_rel" ] ]. píxida_n1 := n_intr_count_le & [ STEM < "píxida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_píxida_n_rel" ] ]. píxide_n1 := n_intr_count_le & [ STEM < "píxide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_píxide_n_rel" ] ]. pócima_n1 := n_intr_mass_le & [ STEM < "pócima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pócima_n_rel" ] ]. pódium_n1 := n_intr_count_le & [ STEM < "pódium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pódium_n_rel" ] ]. pólder_n1 := n_intr_count_le & [ STEM < "pólder" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_pólder_n_rel" ] ]. póleo_n1 := n_intr_mass-or-count_le & [ STEM < "póleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_póleo_n_rel" ] ]. pólipo_n1 := n_intr_count_le & [ STEM < "pólipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_pólipo_n_rel" ] ]. póliza_n1 := n_intr_count_le & [ STEM < "póliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_póliza_n_rel" ] ]. pólvora_n1 := n_intr_mass_le & [ STEM < "pólvora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_pólvora_n_rel" ] ]. pómulo_n1 := n_intr_count_le & [ STEM < "pómulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pómulo_n_rel" ] ]. pómulo_n2 := n_ppcomp_count_le & [ STEM < "pómulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_pómulo_n_rel" ] ]. póntico_a1 := a_rel_nonprd_intr_le & [ STEM < "póntico" >, SYNSEM.LKEYS.KEYREL.PRED "_póntico_a_rel" ]. póquer_n1 := n_intr_uncount_le & [ STEM < "póquer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_póquer_n_rel" ] ]. pórtico_n1 := n_intr_count_le & [ STEM < "pórtico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pórtico_n_rel" ] ]. pósito_n1 := n_intr_count_le & [ STEM < "pósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pósito_n_rel" ] ]. póster_n1 := n_intr_count_le & [ STEM < "póster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_póster_n_rel" ] ]. póstumo_a1 := a_rel_nonprd_intr_le & [ STEM < "póstumo" >, SYNSEM.LKEYS.KEYREL.PRED "_póstumo_a_rel" ]. púa_n1 := n_intr_count_le & [ STEM < "púa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_púa_n_rel" ] ]. púbico_a1 := a_rel_nonprd_intr_le & [ STEM < "púbico" >, SYNSEM.LKEYS.KEYREL.PRED "_púbico_a_rel" ]. públicamente_x1 := av_i_spr_le & [ STEM < "públicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_públicamente_x_rel" ]. público_n1 := n_intr_coll_le & [ STEM < "público" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_público_n_rel" ] ]. púdico_a1 := a_qual_intr_ser_le & [ STEM < "púdico" >, SYNSEM.LKEYS.KEYREL.PRED "_púdico_a_rel" ]. púgil_n1 := n_intr_count_le & [ STEM < "púgil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_púgil_n_rel" ] ]. púlpito_n1 := n_intr_count_le & [ STEM < "púlpito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_púlpito_n_rel" ] ]. púnico_n1 := n_intr_count_le & [ STEM < "púnico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_púnico_n_rel" ] ]. púrpura_a1 := a_qual_intr_ser_le & [ STEM < "púrpura" >, SYNSEM.LKEYS.KEYREL.PRED "_púrpura_a_rel" ]. púrpura_n1 := n_intr_uncount_le & [ STEM < "púrpura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_púrpura_n_rel" ] ]. pústula_n1 := n_intr_count_le & [ STEM < "pústula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_pústula_n_rel" ] ]. pútridamente_x1 := av_i_spr_le & [ STEM < "pútridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_pútridamente_x_rel" ]. pútrido_a1 := a_qual_intr_estar_le & [ STEM < "pútrido" >, SYNSEM.LKEYS.KEYREL.PRED "_pútrido_a_rel" ]. qm_cl_pnct := pnct_fit_le & [ STEM < "fit" > ]. qm_op_pnct := pnct_fia_le & [ STEM < "fia" > ]. quadroxalato_n1 := n_intr_count_le & [ STEM < "quadroxalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quadroxalato_n_rel" ] ]. que_c := cmp_que_le & [ STEM < "que" > ]. que_ni_hecho_de_encargo_x1 := av_i_le & [ STEM < "que_ni_hecho_de_encargo" >, SYNSEM.LKEYS.KEYREL.PRED "_que_ni_hecho_de_encargo_x_rel" ]. que_ni_pintado_x1 := av_i_le & [ STEM < "que_ni_pintado" >, SYNSEM.LKEYS.KEYREL.PRED "_que_ni_pintado_x_rel" ]. que_p := p_mrk_np_le & [ STEM < "que" >, SYNSEM.LKEYS.KEYREL.PRED _que_p_comp_rel ]. que_pela_x1 := av_i_le & [ STEM < "que_pela" >, SYNSEM.LKEYS.KEYREL.PRED "_que_pela_x_rel" ]. que_r := pr_rel_que_le & [ STEM < "que" > ]. que_r2 := pr_free-rel_que_le & [ STEM < "que" > ]. que_si_tal_que_si_cual_x1 := av_i_le & [ STEM < "que_si_tal_que_si_cual" >, SYNSEM.LKEYS.KEYREL.PRED "_que_si_tal_que_si_cual_x_rel" ]. quebequés_a1 := a_rel_prd_le & [ STEM < "quebequés" >, SYNSEM.LKEYS.KEYREL.PRED "_quebequés_a_rel" ]. quebequés_n1 := n_intr_count_le & [ STEM < "quebequés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quebequés_n_rel" ] ]. quebrachitol_n1 := n_intr_count_le & [ STEM < "quebrachitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quebrachitol_n_rel" ] ]. quebracho_n1 := n_intr_count_le & [ STEM < "quebracho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_quebracho_n_rel" ] ]. quebrada_n1 := n_intr_count_le & [ STEM < "quebrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_quebrada_n_rel" ] ]. quebradero_n1 := n_intr_count_le & [ STEM < "quebradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quebradero_n_rel" ] ]. quebradizamente_x1 := av_i_spr_le & [ STEM < "quebradizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_quebradizamente_x_rel" ]. quebradizo_a1 := a_qual_intr_scopal_le & [ STEM < "quebradizo" >, SYNSEM.LKEYS.KEYREL.PRED "_quebradizo_a_rel" ]. quebrador_a1 := a_rel_nonprd_intr_le & [ STEM < "quebrador" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrador_a_rel" ]. quebradoramente_x1 := av_i_spr_le & [ STEM < "quebradoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_quebradoramente_x_rel" ]. quebrantador_a1 := a_qual_intr_ser_le & [ STEM < "quebrantador" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrantador_a_rel" ]. quebrantadoramente_x1 := av_i_spr_le & [ STEM < "quebrantadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrantadoramente_x_rel" ]. quebrantamiento_n1 := n_trans_le & [ STEM < "quebrantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrantamiento_n_rel" ]. quebrantar_v := v_trans_np_caus_le & [ STEM < "quebrantar" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrantar_v_rel" ]. quebrar_v := v_trans_np*_caus_le & [ STEM < "quebrar" >, SYNSEM.LKEYS.KEYREL.PRED "_quebrar_v_rel" ]. quebraza_n1 := n_intr_count_le & [ STEM < "quebraza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quebraza_n_rel" ] ]. quechua_a1 := a_rel_prd_le & [ STEM < "quechua" >, SYNSEM.LKEYS.KEYREL.PRED "_quechua_a_rel" ]. quechua_n1 := n_intr_count_le & [ STEM < "quechua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_quechua_n_rel" ] ]. queja_n1 := n_intr_count_le & [ STEM < "queja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queja_n_rel" ] ]. queja_n2 := n_result_intr_ppcomp_le & [ STEM < "queja" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_queja_n_rel" ] ]. quejar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "quejar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_quejar_v_rel" ] ] ]. quejica_a1 := a_qual_intr_ser_le & [ STEM < "quejica" >, SYNSEM.LKEYS.KEYREL.PRED "_quejica_a_rel" ]. quejido_n1 := n_intr_count_le & [ STEM < "quejido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quejido_n_rel" ] ]. quejoso_a1 := a_qual_intr_ser_le & [ STEM < "quejoso" >, SYNSEM.LKEYS.KEYREL.PRED "_quejoso_a_rel" ]. quejumbroso_a1 := a_qual_intr_ser_le & [ STEM < "quejumbroso" >, SYNSEM.LKEYS.KEYREL.PRED "_quejumbroso_a_rel" ]. quelación_n1 := n_intr_uncount_le & [ STEM < "quelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quelación_n_rel" ] ]. quelante_a1 := a_rel_nonprd_intr_le & [ STEM < "quelante" >, SYNSEM.LKEYS.KEYREL.PRED "_quelante_a_rel" ]. quelato_n1 := n_intr_mass-or-count_le & [ STEM < "quelato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_quelato_n_rel" ] ]. quelpo_n1 := n_intr_count_le & [ STEM < "quelpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_quelpo_n_rel" ] ]. quemador_n1 := n_intr_count_le & [ STEM < "quemador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quemador_n_rel" ] ]. quemadura_n1 := n_intr_count_le & [ STEM < "quemadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quemadura_n_rel" ] ]. quemar_v := v_trans_np_caus_le & [ STEM < "quemar" >, SYNSEM.LKEYS.KEYREL.PRED "_quemar_v_rel" ]. quepis_n1 := n_intr_count_le & [ STEM < "quepis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quepis_n_rel" ] ]. querargirita_n1 := n_intr_count_le & [ STEM < "querargirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_querargirita_n_rel" ] ]. queratectomía_n1 := n_intr_uncount_pl_le & [ STEM < "queratectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratectomía_n_rel" ] ]. queratina_n1 := n_intr_count_le & [ STEM < "queratina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_queratina_n_rel" ] ]. queratocele_n1 := n_intr_count_le & [ STEM < "queratocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_queratocele_n_rel" ] ]. queratocono_n1 := n_ppcomp_count_le & [ STEM < "queratocono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_queratocono_n_rel" ] ]. queratoglobo_n1 := n_ppcomp_count_le & [ STEM < "queratoglobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_queratoglobo_n_rel" ] ]. queratomalacia_n1 := n_intr_uncount_le & [ STEM < "queratomalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratomalacia_n_rel" ] ]. queratopatía_n1 := n_intr_uncount_pl_le & [ STEM < "queratopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratopatía_n_rel" ] ]. queratoscopio_n1 := n_intr_count_le & [ STEM < "queratoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_queratoscopio_n_rel" ] ]. queratotomía_n1 := n_intr_uncount_pl_le & [ STEM < "queratotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratotomía_n_rel" ] ]. queratómetro_n1 := n_intr_count_le & [ STEM < "queratómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_queratómetro_n_rel" ] ]. quercetina_n1 := n_intr_count_le & [ STEM < "quercetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quercetina_n_rel" ] ]. quercitol_n1 := n_intr_count_le & [ STEM < "quercitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quercitol_n_rel" ] ]. querella_n1 := n_intr_count_le & [ STEM < "querella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_querella_n_rel" ] ]. querellante_a1 := a_rel_nonprd_intr_le & [ STEM < "querellante" >, SYNSEM.LKEYS.KEYREL.PRED "_querellante_a_rel" ]. querellante_n1 := n_intr_count_le & [ STEM < "querellante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_querellante_n_rel" ] ]. querellar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "querellar" >, SYNSEM.LKEYS [ --COMPKEY con_or_contra_p_sel_rel, KEYREL.PRED "_querellar_v_rel" ] ]. querer_v1 := v_non_pass_np_le & [ STEM < "querer" >, SYNSEM.LKEYS.KEYREL.PRED "_querer_v_rel" ]. querer_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "querer" >, SYNSEM.LKEYS.KEYREL.PRED "_querer_v_rel" ]. querido_n1 := n_intr_count_le & [ STEM < "querido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_querido_n_rel" ] ]. quermesita_n1 := n_intr_count_le & [ STEM < "quermesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quermesita_n_rel" ] ]. queroseno_n1 := n_intr_mass_le & [ STEM < "queroseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_queroseno_n_rel" ] ]. querototomía_n1 := n_intr_uncount_pl_le & [ STEM < "querototomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_querototomía_n_rel" ] ]. querubín_n1 := n_intr_count_le & [ STEM < "querubín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_querubín_n_rel" ] ]. querógeno_n1 := n_intr_count_le & [ STEM < "querógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_querógeno_n_rel" ] ]. quesera_n1 := n_intr_count_le & [ STEM < "quesera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quesera_n_rel" ] ]. quesero_n1 := n_intr_count_le & [ STEM < "quesero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quesero_n_rel" ] ]. quesería_n1 := n_intr_count_le & [ STEM < "quesería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_quesería_n_rel" ] ]. queso_n1 := n_intr_mass_le & [ STEM < "queso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_queso_n_rel" ] ]. quiastolita_n1 := n_intr_count_le & [ STEM < "quiastolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quiastolita_n_rel" ] ]. quicio_n1 := n_intr_count_le & [ STEM < "quicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quicio_n_rel" ] ]. quididad_n1 := n_intr_uncount_le & [ STEM < "quididad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quididad_n_rel" ] ]. quididad_n2 := n_intr_count_le & [ STEM < "quididad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quididad_n_rel" ] ]. quiebra_n1 := n_intr_mass-or-count_le & [ STEM < "quiebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiebra_n_rel" ] ]. quien_r := pr_rel_quien_le & [ STEM < "quien" > ]. quien_r2 := pr_free-rel_quien_le & [ STEM < "quien" > ]. quienquiera_p := pr_part_quienq_le & [ STEM < "quienquiera" >, SYNSEM.LKEYS.ALTKEYREL.PRED _quienquiera_q_rel ]. quiera_que_no_x1 := av_i_le & [ STEM < "quiera_que_no" >, SYNSEM.LKEYS.KEYREL.PRED "_quiera_que_no_x_rel" ]. quieras_que_no_x1 := av_i_le & [ STEM < "quieras_que_no" >, SYNSEM.LKEYS.KEYREL.PRED "_quieras_que_no_x_rel" ]. quietismo_n1 := n_intr_uncount_le & [ STEM < "quietismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quietismo_n_rel" ] ]. quietista_n1 := n_intr_count_le & [ STEM < "quietista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quietista_n_rel" ] ]. quieto_a1 := a_qual_intr_estar_le & [ STEM < "quieto" >, SYNSEM.LKEYS.KEYREL.PRED "_quieto_a_rel" ]. quietud_n1 := n_intr_mass_le & [ STEM < "quietud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quietud_n_rel" ] ]. quijada_n1 := n_ppcomp_count_le & [ STEM < "quijada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_quijada_n_rel" ] ]. quijera_n1 := n_intr_count_le & [ STEM < "quijera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quijera_n_rel" ] ]. quijotesco_a1 := a_qual_intr_ser_le & [ STEM < "quijotesco" >, SYNSEM.LKEYS.KEYREL.PRED "_quijotesco_a_rel" ]. quilate_n := n_intr_count_le & [ STEM < "quilate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_quilate_n_rel" ] ]. quilatero_n1 := n_intr_count_le & [ STEM < "quilatero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quilatero_n_rel" ] ]. quilificación_n1 := n_trans_le & [ STEM < "quilificación" >, SYNSEM.LKEYS.KEYREL.PRED "_quilificación_n_rel" ]. quilla_n1 := n_intr_count_le & [ STEM < "quilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quilla_n_rel" ] ]. quilo_n1 := n_pseudo-part_le & [ STEM < "quilo" >, SYNSEM.LKEYS.KEYREL.PRED "_quilo_n_rel" ]. quilolitro_n := n_pseudo-part_le & [ STEM < "quilolitro" >, SYNSEM.LKEYS.KEYREL.PRED "_quilolitro_n_rel" ]. quilométrico_a1 := a_rel_prd_le & [ STEM < "quilométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_quilométrico_a_rel" ]. quilífero_a1 := a_rel_nonprd_intr_le & [ STEM < "quilífero" >, SYNSEM.LKEYS.KEYREL.PRED "_quilífero_a_rel" ]. quimera_n1 := n_intr_count_le & [ STEM < "quimera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_ani, PRED "_quimera_n_rel" ] ]. quimerismo_n1 := n_intr_uncount_le & [ STEM < "quimerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimerismo_n_rel" ] ]. quimiluminiscencia_n1 := n_intr_uncount_le & [ STEM < "quimiluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiluminiscencia_n_rel" ] ]. quimioluminiscencia_n1 := n_intr_uncount_le & [ STEM < "quimioluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimioluminiscencia_n_rel" ] ]. quimionuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "quimionuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_quimionuclear_a_rel" ]. quimiorreceptor_n1 := n_intr_count_le & [ STEM < "quimiorreceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_quimiorreceptor_n_rel" ] ]. quimiorresistencia_n1 := n_intr_uncount_le & [ STEM < "quimiorresistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiorresistencia_n_rel" ] ]. quimiosintéticamente_x1 := av_i_spr_le & [ STEM < "quimiosintéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_quimiosintéticamente_x_rel" ]. quimiosintético_a1 := a_rel_nonprd_intr_le & [ STEM < "quimiosintético" >, SYNSEM.LKEYS.KEYREL.PRED "_quimiosintético_a_rel" ]. quimioterapéutico_a1 := a_rel_nonprd_intr_le & [ STEM < "quimioterapéutico" >, SYNSEM.LKEYS.KEYREL.PRED "_quimioterapéutico_a_rel" ]. quimiotáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "quimiotáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_quimiotáctico_a_rel" ]. quimograma_n1 := n_intr_count_le & [ STEM < "quimograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quimograma_n_rel" ] ]. quimográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "quimográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_quimográfico_a_rel" ]. quimono_n1 := n_intr_count_le & [ STEM < "quimono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quimono_n_rel" ] ]. quimosina_n1 := n_intr_count_le & [ STEM < "quimosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quimosina_n_rel" ] ]. quimotripsina_n1 := n_intr_count_le & [ STEM < "quimotripsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quimotripsina_n_rel" ] ]. quimérico_a1 := a_rel_nonprd_intr_le & [ STEM < "quimérico" >, SYNSEM.LKEYS.KEYREL.PRED "_quimérico_a_rel" ]. quinaldina_n1 := n_intr_count_le & [ STEM < "quinaldina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinaldina_n_rel" ] ]. quinario_a1 := a_rel_nonprd_intr_le & [ STEM < "quinario" >, SYNSEM.LKEYS.KEYREL.PRED "_quinario_a_rel" ]. quinario_n2 := n_intr_count_le & [ STEM < "quinario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quinario_n_rel" ] ]. quincallero_n1 := n_intr_count_le & [ STEM < "quincallero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quincallero_n_rel" ] ]. quincallería_n1 := n_intr_count_le & [ STEM < "quincallería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quincallería_n_rel" ] ]. quincena_n1 := n_pseudo-part_temp_le & [ STEM < "quincena" >, SYNSEM.LKEYS.KEYREL.PRED "_quincena_n_rel" ]. quincena_n2 := n_intr_temp_le & [ STEM < "quincena" > ]. quincenal_a1 := a_rel_nonprd_intr_le & [ STEM < "quincenal" >, SYNSEM.LKEYS.KEYREL.PRED "_quincenal_a_rel" ]. quincenalmente_x1 := av_s_prhd_le & [ STEM < "quincenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_quincenalmente_x_rel" ]. quincenalmente_x2 := av_i_psthd_le & [ STEM < "quincenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_quincenalmente_x_rel" ]. quinhidrona_n1 := n_intr_count_le & [ STEM < "quinhidrona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinhidrona_n_rel" ] ]. quinidina_n1 := n_intr_count_le & [ STEM < "quinidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinidina_n_rel" ] ]. quiniela_n1 := n_intr_count_le & [ STEM < "quiniela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_quiniela_n_rel" ] ]. quinielista_n1 := n_intr_count_le & [ STEM < "quinielista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quinielista_n_rel" ] ]. quinina_n1 := n_intr_mass_le & [ STEM < "quinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quinina_n_rel" ] ]. quino_n1 := n_intr_count_le & [ STEM < "quino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_quino_n_rel" ] ]. quinolina_n1 := n_intr_count_le & [ STEM < "quinolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinolina_n_rel" ] ]. quinona_n1 := n_intr_count_le & [ STEM < "quinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinona_n_rel" ] ]. quinonógeno_n1 := n_intr_mass_le & [ STEM < "quinonógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinonógeno_n_rel" ] ]. quinoxalina_n1 := n_intr_count_le & [ STEM < "quinoxalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quinoxalina_n_rel" ] ]. quinquefolio_n1 := n_intr_count_le & [ STEM < "quinquefolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quinquefolio_n_rel" ] ]. quinquenal_a1 := a_rel_nonprd_intr_le & [ STEM < "quinquenal" >, SYNSEM.LKEYS.KEYREL.PRED "_quinquenal_a_rel" ]. quinquenalmente_x1 := av_s_prhd_le & [ STEM < "quinquenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_quinquenalmente_x_rel" ]. quinquenalmente_x2 := av_i_psthd_le & [ STEM < "quinquenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_quinquenalmente_x_rel" ]. quinqué_n1 := n_intr_count_le & [ STEM < "quinqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quinqué_n_rel" ] ]. quintaesencia_n1 := n_intr_uncount_le & [ STEM < "quintaesencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quintaesencia_n_rel" ] ]. quintal_n := n_intr_count_le & [ STEM < "quintal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_quintal_n_rel" ] ]. quintillizo_n1 := n_intr_count_le & [ STEM < "quintillizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quintillizo_n_rel" ] ]. quintillón_n := n_intr_count_le & [ STEM < "quintillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_quintillón_n_rel" ] ]. quintuplicar_v := v_trans_np_caus_le & [ STEM < "quintuplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_quintuplicar_v_rel" ]. quiosco_n1 := n_intr_count_le & [ STEM < "quiosco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_quiosco_n_rel" ] ]. quiosquero_n1 := n_intr_count_le & [ STEM < "quiosquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quiosquero_n_rel" ] ]. quiromancia_n1 := n_intr_uncount_le & [ STEM < "quiromancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiromancia_n_rel" ] ]. quiromasaje_n1 := n_intr_uncount_le & [ STEM < "quiromasaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiromasaje_n_rel" ] ]. quiromántico_n1 := n_intr_count_le & [ STEM < "quiromántico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quiromántico_n_rel" ] ]. quiropodista_n1 := n_intr_count_le & [ STEM < "quiropodista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quiropodista_n_rel" ] ]. quiropráctico_n1 := n_intr_count_le & [ STEM < "quiropráctico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quiropráctico_n_rel" ] ]. quirófano_n1 := n_intr_count_le & [ STEM < "quirófano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_quirófano_n_rel" ] ]. quirógrafo_n1 := n_intr_count_le & [ STEM < "quirógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_quirógrafo_n_rel" ] ]. quirúrgicamente_x1 := av_i_spr_le & [ STEM < "quirúrgicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_quirúrgicamente_x_rel" ]. quirúrgico_a1 := a_rel_nonprd_intr_le & [ STEM < "quirúrgico" >, SYNSEM.LKEYS.KEYREL.PRED "_quirúrgico_a_rel" ]. quisquilla_n1 := n_intr_count_le & [ STEM < "quisquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_quisquilla_n_rel" ] ]. quisquilloso_a1 := a_qual_intr_ser_le & [ STEM < "quisquilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_quisquilloso_a_rel" ]. quistamina_n1 := n_intr_count_le & [ STEM < "quistamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quistamina_n_rel" ] ]. quiste_n1 := n_intr_count_le & [ STEM < "quiste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quiste_n_rel" ] ]. quitación_n1 := n_intr_count_le & [ STEM < "quitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quitación_n_rel" ] ]. quitaesmalte_n1 := n_intr_mass_le & [ STEM < "quitaesmalte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quitaesmalte_n_rel" ] ]. quitamanchas_n1 := n_intr_mass_le & [ STEM < "quitamanchas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_quitamanchas_n_rel" ] ]. quitameriendas_n1 := n_intr_count_le & [ STEM < "quitameriendas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_quitameriendas_n_rel" ] ]. quitamiedos_n1 := n_intr_count_le & [ STEM < "quitamiedos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quitamiedos_n_rel" ] ]. quitanieves_n1 := n_intr_count_le & [ STEM < "quitanieves" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_quitanieves_n_rel" ] ]. quitapiedras_n1 := n_intr_count_le & [ STEM < "quitapiedras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quitapiedras_n_rel" ] ]. quitapinturas_n1 := n_intr_count_le & [ STEM < "quitapinturas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quitapinturas_n_rel" ] ]. quitar_v1 := v_ditrans*_le & [ STEM < "quitar" >, SYNSEM.LKEYS.KEYREL.PRED "_quitar_v_rel" ]. quitar_v2 := v_pron_trans_np_le & [ STEM < "quitar" >, SYNSEM.LKEYS.KEYREL.PRED "_quitar_v_rel" ]. quitar_v3 := v_trans_cp_prop_fin_le & [ STEM < "quitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_quitar_v_rel" ] ]. quitar_v4 := v_trans_np_mrkd_np_le & [ STEM < "quitar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_quitar_v_rel" ] ]. quitasol_n1 := n_intr_count_le & [ STEM < "quitasol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quitasol_n_rel" ] ]. quiteño_n1 := n_intr_count_le & [ STEM < "quiteño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_quiteño_n_rel" ] ]. quitina_n1 := n_intr_count_le & [ STEM < "quitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_quitina_n_rel" ] ]. quitinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "quitinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_quitinoso_a_rel" ]. quizá_x1 := av_s_cp_prop_le & [ STEM < "quizá" >, SYNSEM.LKEYS.KEYREL.PRED "_quizá_x_rel" ]. quizás_x1 := av_s_cp_prop_le & [ STEM < "quizás" >, SYNSEM.LKEYS.KEYREL.PRED "_quizás_x_rel" ]. quién_i := pr_wh_quien_le & [ STEM < "quién" > ]. quiñón_n1 := n_intr_count_le & [ STEM < "quiñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_quiñón_n_rel" ] ]. qué_d := d_wh_que_le & [ STEM < "qué" > ]. qué_i := pr_wh_que_le & [ STEM < "qué" > ]. químicamente_x1 := av_i_spr_le & [ STEM < "químicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_químicamente_x_rel" ]. químico_a1 := a_rel_nonprd_intr_le & [ STEM < "químico" >, SYNSEM.LKEYS.KEYREL.PRED "_químico_a_rel" ]. químico_n1 := n_intr_count_le & [ STEM < "químico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_químico_n_rel" ] ]. quístico_a1 := a_rel_nonprd_intr_le & [ STEM < "quístico" >, SYNSEM.LKEYS.KEYREL.PRED "_quístico_a_rel" ]. rabadilla_n1 := n_intr_count_le & [ STEM < "rabadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rabadilla_n_rel" ] ]. rabel_n1 := n_intr_count_le & [ STEM < "rabel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rabel_n_rel" ] ]. rabiar_v1 := v_intr_le & [ STEM < "rabiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rabiar_v_rel" ] ]. rabiar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "rabiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_rabiar_v_rel" ] ] ]. rabiar_v3 := v_intr_mrkd_np_le & [ STEM < "rabiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_rabiar_v_rel" ] ] ]. rabino_n1 := n_intr_count_le & [ STEM < "rabino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rabino_n_rel" ] ]. rabiosamente_x1 := av_i_spr_le & [ STEM < "rabiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rabiosamente_x_rel" ]. rabioso_a1 := a_qual_intr_estar_le & [ STEM < "rabioso" >, SYNSEM.LKEYS.KEYREL.PRED "_rabioso_a_rel" ]. rabión_n1 := n_intr_count_le & [ STEM < "rabión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_rabión_n_rel" ] ]. rabo_n1 := n_ppcomp_count_le & [ STEM < "rabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rabo_n_rel" ] ]. racanería_n1 := n_intr_uncount_pl_le & [ STEM < "racanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racanería_n_rel" ] ]. racemoso_a1 := a_rel_nonprd_intr_le & [ STEM < "racemoso" >, SYNSEM.LKEYS.KEYREL.PRED "_racemoso_a_rel" ]. racial_a1 := a_rel_nonprd_intr_le & [ STEM < "racial" >, SYNSEM.LKEYS.KEYREL.PRED "_racial_a_rel" ]. racimo_n := n_group_le & [ STEM < "racimo" >, SYNSEM.LKEYS.KEYREL.PRED "_racimo_n_rel" ]. racionado_n1 := n_intr_uncount_le & [ STEM < "racionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racionado_n_rel" ] ]. racional_a1 := a_qual_intr_ser_le & [ STEM < "racional" >, SYNSEM.LKEYS.KEYREL.PRED "_racional_a_rel" ]. racionalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "racionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racionalidad_n_rel" ] ]. racionalismo_n1 := n_intr_uncount_le & [ STEM < "racionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racionalismo_n_rel" ] ]. racionalista_a1 := a_rel_nonprd_intr_le & [ STEM < "racionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_racionalista_a_rel" ]. racionalista_n1 := n_intr_count_le & [ STEM < "racionalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_racionalista_n_rel" ] ]. racionalización_n1 := n_trans_le & [ STEM < "racionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_racionalización_n_rel" ]. racionalizar_v := v_trans_np_le & [ STEM < "racionalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_racionalizar_v_rel" ]. racionalmente_x1 := av_i_spr_le & [ STEM < "racionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_racionalmente_x_rel" ]. racionamiento_n1 := n_trans_le & [ STEM < "racionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_racionamiento_n_rel" ]. racionar_v := v_ditrans*_le & [ STEM < "racionar" >, SYNSEM.LKEYS.KEYREL.PRED "_racionar_v_rel" ]. raciovitalismo_n1 := n_intr_uncount_le & [ STEM < "raciovitalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raciovitalismo_n_rel" ] ]. racismo_n1 := n_intr_uncount_le & [ STEM < "racismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racismo_n_rel" ] ]. racista_a1 := a_qual_intr_ser_le & [ STEM < "racista" >, SYNSEM.LKEYS.KEYREL.PRED "_racista_a_rel" ]. racista_n1 := n_intr_count_le & [ STEM < "racista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_racista_n_rel" ] ]. ración_n1 := n_pseudo-part_le & [ STEM < "ración" >, SYNSEM.LKEYS.KEYREL.PRED "_ración_n_rel" ]. racor_n1 := n_intr_count_le & [ STEM < "racor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_racor_n_rel" ] ]. racémico_a1 := a_rel_nonprd_intr_le & [ STEM < "racémico" >, SYNSEM.LKEYS.KEYREL.PRED "_racémico_a_rel" ]. rada_n1 := n_intr_count_le & [ STEM < "rada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_rada_n_rel" ] ]. radar_n1 := n_intr_count_le & [ STEM < "radar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radar_n_rel" ] ]. radarfaro_n1 := n_intr_count_le & [ STEM < "radarfaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radarfaro_n_rel" ] ]. radectomía_n1 := n_intr_uncount_pl_le & [ STEM < "radectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radectomía_n_rel" ] ]. radiación_n1 := n_trans_le & [ STEM < "radiación" >, SYNSEM.LKEYS.KEYREL.PRED "_radiación_n_rel" ]. radiactinio_n1 := n_intr_count_le & [ STEM < "radiactinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_radiactinio_n_rel" ] ]. radiactividad_n1 := n_intr_mass-or-count_le & [ STEM < "radiactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiactividad_n_rel" ] ]. radiactivo_a1 := a_qual_intr_ser_le & [ STEM < "radiactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_radiactivo_a_rel" ]. radiador_n1 := n_intr_count_le & [ STEM < "radiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiador_n_rel" ] ]. radial_a1 := a_rel_nonprd_intr_le & [ STEM < "radial" >, SYNSEM.LKEYS.KEYREL.PRED "_radial_a_rel" ]. radialmente_x1 := av_i_spr_le & [ STEM < "radialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_radialmente_x_rel" ]. radiancia_n1 := n_intr_uncount_le & [ STEM < "radiancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiancia_n_rel" ] ]. radiante_a1 := a_qual_intr_estar_le & [ STEM < "radiante" >, SYNSEM.LKEYS.KEYREL.PRED "_radiante_a_rel" ]. radiar_v := v_trans_np_le & [ STEM < "radiar" >, SYNSEM.LKEYS.KEYREL.PRED "_radiar_v_rel" ]. radiativamente_x1 := av_i_spr_le & [ STEM < "radiativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiativamente_x_rel" ]. radiativo_a1 := a_rel_nonprd_intr_le & [ STEM < "radiativo" >, SYNSEM.LKEYS.KEYREL.PRED "_radiativo_a_rel" ]. radicador_n1 := n_intr_count_le & [ STEM < "radicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radicador_n_rel" ] ]. radical_a1 := a_qual_intr_ser_le & [ STEM < "radical" >, SYNSEM.LKEYS.KEYREL.PRED "_radical_a_rel" ]. radical_n1 := n_intr_count_le & [ STEM < "radical" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radical_n_rel" ] ]. radicalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "radicalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radicalidad_n_rel" ] ]. radicalismo_n1 := n_ppcomp_uncount_le & [ STEM < "radicalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radicalismo_n_rel" ] ]. radicalización_n1 := n_trans_le & [ STEM < "radicalización" >, SYNSEM.LKEYS.KEYREL.PRED "_radicalización_n_rel" ]. radicalizar_v := v_trans_np_caus_le & [ STEM < "radicalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_radicalizar_v_rel" ]. radicalmente_x1 := av_i_spr_le & [ STEM < "radicalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_radicalmente_x_rel" ]. radicalsocialismo_n1 := n_intr_uncount_le & [ STEM < "radicalsocialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radicalsocialismo_n_rel" ] ]. radicalsocialista_n1 := n_intr_count_le & [ STEM < "radicalsocialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radicalsocialista_n_rel" ] ]. radicar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "radicar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro_sem, PRED "_radicar_v_rel" ] ] ]. radicar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "radicar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT plant, PRED "_radicar_v_rel" ] ]. radicectomía_n1 := n_intr_uncount_pl_le & [ STEM < "radicectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radicectomía_n_rel" ] ]. radicular_a1 := a_rel_nonprd_intr_le & [ STEM < "radicular" >, SYNSEM.LKEYS.KEYREL.PRED "_radicular_a_rel" ]. radio_n1 := n_intr_count_le & [ STEM < "radio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc_soc, PRED "_radio_n_rel" ] ]. radio_n2 := n_ppcomp_count_le & [ STEM < "radio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_radio_n_rel" ] ]. radioactividad_n1 := n_intr_mass_le & [ STEM < "radioactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioactividad_n_rel" ] ]. radioactivo_a1 := a_qual_intr_ser_le & [ STEM < "radioactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_radioactivo_a_rel" ]. radioaficionado_n1 := n_intr_count_le & [ STEM < "radioaficionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioaficionado_n_rel" ] ]. radioastronomía_n1 := n_intr_uncount_le & [ STEM < "radioastronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioastronomía_n_rel" ] ]. radioastrónomo_n1 := n_intr_count_le & [ STEM < "radioastrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioastrónomo_n_rel" ] ]. radioautografía_n1 := n_intr_count_le & [ STEM < "radioautografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radioautografía_n_rel" ] ]. radiobaliza_n1 := n_intr_count_le & [ STEM < "radiobaliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiobaliza_n_rel" ] ]. radiocarbono_n1 := n_intr_count_le & [ STEM < "radiocarbono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_radiocarbono_n_rel" ] ]. radiocarpiano_a1 := a_rel_nonprd_intr_le & [ STEM < "radiocarpiano" >, SYNSEM.LKEYS.KEYREL.PRED "_radiocarpiano_a_rel" ]. radiocasete_n1 := n_intr_count_le & [ STEM < "radiocasete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiocasete_n_rel" ] ]. radiocomunicación_n1 := n_intr_count_le & [ STEM < "radiocomunicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiocomunicación_n_rel" ] ]. radioconcéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "radioconcéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_radioconcéntrico_a_rel" ]. radiocubital_a1 := a_rel_nonprd_intr_le & [ STEM < "radiocubital" >, SYNSEM.LKEYS.KEYREL.PRED "_radiocubital_a_rel" ]. radiodespertador_n1 := n_intr_count_le & [ STEM < "radiodespertador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radiodespertador_n_rel" ] ]. radiodifundidamente_x1 := av_i_spr_le & [ STEM < "radiodifundidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiodifundidamente_x_rel" ]. radiodifusión_n1 := n_trans_le & [ STEM < "radiodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_radiodifusión_n_rel" ]. radiodifusor_n1 := n_intr_count_le & [ STEM < "radiodifusor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radiodifusor_n_rel" ] ]. radiodinámicamente_x1 := av_i_spr_le & [ STEM < "radiodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiodinámicamente_x_rel" ]. radiodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiodinámico_a_rel" ]. radioelemento_n1 := n_intr_count_le & [ STEM < "radioelemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioelemento_n_rel" ] ]. radioeléctricamente_x1 := av_i_spr_le & [ STEM < "radioeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radioeléctricamente_x_rel" ]. radioeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "radioeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_radioeléctrico_a_rel" ]. radioemisor_n1 := n_intr_count_le & [ STEM < "radioemisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioemisor_n_rel" ] ]. radioemisora_n1 := n_intr_count_le & [ STEM < "radioemisora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_radioemisora_n_rel" ] ]. radioescucha_n1 := n_intr_count_le & [ STEM < "radioescucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioescucha_n_rel" ] ]. radiofaro_n1 := n_intr_count_le & [ STEM < "radiofaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radiofaro_n_rel" ] ]. radiofonía_n1 := n_intr_uncount_le & [ STEM < "radiofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiofonía_n_rel" ] ]. radiofotografía_n1 := n_intr_count_le & [ STEM < "radiofotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiofotografía_n_rel" ] ]. radiofotograma_n1 := n_intr_count_le & [ STEM < "radiofotograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiofotograma_n_rel" ] ]. radiofrecuencia_n1 := n_intr_mass_le & [ STEM < "radiofrecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_radiofrecuencia_n_rel" ] ]. radiofónicamente_x1 := av_i_spr_le & [ STEM < "radiofónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiofónicamente_x_rel" ]. radiofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiofónico_a_rel" ]. radiogoniómetricamente_x1 := av_i_spr_le & [ STEM < "radiogoniómetricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiogoniómetricamente_x_rel" ]. radiogoniómetrico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiogoniómetrico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiogoniómetrico_a_rel" ]. radiogoniómetro_n1 := n_intr_count_le & [ STEM < "radiogoniómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiogoniómetro_n_rel" ] ]. radiografiar_v := v_ditrans*_le & [ STEM < "radiografiar" >, SYNSEM.LKEYS.KEYREL.PRED "_radiografiar_v_rel" ]. radiografía_n1 := n_intr_count_le & [ STEM < "radiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiografía_n_rel" ] ]. radiográficamente_x1 := av_i_spr_le & [ STEM < "radiográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiográficamente_x_rel" ]. radiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiográfico_a_rel" ]. radioguiadamente_x1 := av_i_spr_le & [ STEM < "radioguiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radioguiadamente_x_rel" ]. radiogénicamente_x1 := av_i_spr_le & [ STEM < "radiogénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiogénicamente_x_rel" ]. radiogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiogénico_a_rel" ]. radioinmunodifusión_n1 := n_intr_uncount_le & [ STEM < "radioinmunodifusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioinmunodifusión_n_rel" ] ]. radioisótopo_n1 := n_intr_count_le & [ STEM < "radioisótopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radioisótopo_n_rel" ] ]. radiolocalización_n1 := n_intr_uncount_le & [ STEM < "radiolocalización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiolocalización_n_rel" ] ]. radiología_n1 := n_intr_uncount_pl_le & [ STEM < "radiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiología_n_rel" ] ]. radiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiológico_a_rel" ]. radiolúcido_a1 := a_rel_nonprd_intr_le & [ STEM < "radiolúcido" >, SYNSEM.LKEYS.KEYREL.PRED "_radiolúcido_a_rel" ]. radiomarcación_n1 := n_intr_uncount_le & [ STEM < "radiomarcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiomarcación_n_rel" ] ]. radiometalografía_n1 := n_intr_count_le & [ STEM < "radiometalografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiometalografía_n_rel" ] ]. radiometeorología_n1 := n_intr_uncount_le & [ STEM < "radiometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiometeorología_n_rel" ] ]. radiometría_n1 := n_intr_uncount_pl_le & [ STEM < "radiometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiometría_n_rel" ] ]. radiométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiométrico_a_rel" ]. radionavegación_n1 := n_intr_uncount_le & [ STEM < "radionavegación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radionavegación_n_rel" ] ]. radionavegante_n1 := n_intr_count_le & [ STEM < "radionavegante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radionavegante_n_rel" ] ]. radiononiómetro_n1 := n_intr_count_le & [ STEM < "radiononiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiononiómetro_n_rel" ] ]. radionúclido_n1 := n_intr_mass-or-count_le & [ STEM < "radionúclido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_radionúclido_n_rel" ] ]. radioopacamente_x1 := av_i_spr_le & [ STEM < "radioopacamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radioopacamente_x_rel" ]. radioopacidad_n1 := n_intr_uncount_le & [ STEM < "radioopacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioopacidad_n_rel" ] ]. radioquímico_n1 := n_intr_count_le & [ STEM < "radioquímico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioquímico_n_rel" ] ]. radiorreceptor_n1 := n_intr_count_le & [ STEM < "radiorreceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_radiorreceptor_n_rel" ] ]. radioscópicamente_x1 := av_i_spr_le & [ STEM < "radioscópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radioscópicamente_x_rel" ]. radioscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "radioscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_radioscópico_a_rel" ]. radiosonda_n1 := n_intr_count_le & [ STEM < "radiosonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiosonda_n_rel" ] ]. radiosónicamente_x1 := av_i_spr_le & [ STEM < "radiosónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiosónicamente_x_rel" ]. radiosónico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiosónico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiosónico_a_rel" ]. radiotelecomunicación_n1 := n_intr_uncount_le & [ STEM < "radiotelecomunicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiotelecomunicación_n_rel" ] ]. radiotelefonía_n1 := n_intr_uncount_le & [ STEM < "radiotelefonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiotelefonía_n_rel" ] ]. radiotelefónicamente_x1 := av_i_spr_le & [ STEM < "radiotelefónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotelefónicamente_x_rel" ]. radiotelefónico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiotelefónico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotelefónico_a_rel" ]. radiotelegrafista_n1 := n_intr_count_le & [ STEM < "radiotelegrafista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radiotelegrafista_n_rel" ] ]. radiotelegrafía_n1 := n_intr_uncount_le & [ STEM < "radiotelegrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiotelegrafía_n_rel" ] ]. radiotelegráficamente_x1 := av_i_spr_le & [ STEM < "radiotelegráficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotelegráficamente_x_rel" ]. radiotelegráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "radiotelegráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotelegráfico_a_rel" ]. radiotelescopio_n1 := n_intr_count_le & [ STEM < "radiotelescopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiotelescopio_n_rel" ] ]. radiotelevisar_v := v_trans_np_le & [ STEM < "radiotelevisar" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotelevisar_v_rel" ]. radiotelevisión_n1 := n_intr_mass_le & [ STEM < "radiotelevisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_radiotelevisión_n_rel" ] ]. radioteléfono_n1 := n_intr_count_le & [ STEM < "radioteléfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radioteléfono_n_rel" ] ]. radiotelégrafo_n1 := n_intr_count_le & [ STEM < "radiotelégrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiotelégrafo_n_rel" ] ]. radioterapista_n1 := n_intr_count_le & [ STEM < "radioterapista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioterapista_n_rel" ] ]. radiotorio_n1 := n_intr_count_le & [ STEM < "radiotorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_radiotorio_n_rel" ] ]. radiotransmisión_n1 := n_trans_le & [ STEM < "radiotransmisión" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotransmisión_n_rel" ]. radiotransparencia_n1 := n_intr_uncount_le & [ STEM < "radiotransparencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiotransparencia_n_rel" ] ]. radiotransparente_a1 := a_rel_nonprd_intr_le & [ STEM < "radiotransparente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiotransparente_a_rel" ]. radioyente_n1 := n_intr_count_le & [ STEM < "radioyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radioyente_n_rel" ] ]. radián_n := n_intr_count_le & [ STEM < "radián" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_radián_n_rel" ] ]. radiófono_n1 := n_intr_count_le & [ STEM < "radiófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiófono_n_rel" ] ]. radiógenamente_x1 := av_i_spr_le & [ STEM < "radiógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_radiógenamente_x_rel" ]. radiógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "radiógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_radiógeno_a_rel" ]. radiógrafo_n1 := n_intr_count_le & [ STEM < "radiógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiógrafo_n_rel" ] ]. radiólogo_n1 := n_intr_count_le & [ STEM < "radiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_radiólogo_n_rel" ] ]. radiómetro_n1 := n_intr_count_le & [ STEM < "radiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radiómetro_n_rel" ] ]. radícula_n1 := n_intr_count_le & [ STEM < "radícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_radícula_n_rel" ] ]. radón_n1 := n_intr_mass_le & [ STEM < "radón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_radón_n_rel" ] ]. raedera_n1 := n_intr_count_le & [ STEM < "raedera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raedera_n_rel" ] ]. raedura_n1 := n_trans_le & [ STEM < "raedura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raedura_n_rel" ] ]. raer_v := v_trans_np_le & [ STEM < "raer" >, SYNSEM.LKEYS.KEYREL.PRED "_raer_v_rel" ]. rafaelita_n1 := n_intr_count_le & [ STEM < "rafaelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rafaelita_n_rel" ] ]. rafe_n1 := n_intr_count_le & [ STEM < "rafe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rafe_n_rel" ] ]. rafia_n1 := n_intr_mass_le & [ STEM < "rafia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rafia_n_rel" ] ]. rafinosa_n1 := n_intr_count_le & [ STEM < "rafinosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rafinosa_n_rel" ] ]. ragú_n1 := n_intr_count_le & [ STEM < "ragú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ragú_n_rel" ] ]. raja_n1 := n_intr_count_le & [ STEM < "raja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raja_n_rel" ] ]. rajar_v := v_trans_np_caus_le & [ STEM < "rajar" >, SYNSEM.LKEYS.KEYREL.PRED "_rajar_v_rel" ]. ralamente_x1 := av_i_spr_le & [ STEM < "ralamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ralamente_x_rel" ]. ralear_v := v_intr_le & [ STEM < "ralear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, PRED "_ralear_v_rel" ] ]. ralentización_n1 := n_trans_le & [ STEM < "ralentización" >, SYNSEM.LKEYS.KEYREL.PRED "_ralentización_n_rel" ]. ralentizar_v := v_trans_np_caus_le & [ STEM < "ralentizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ralentizar_v_rel" ]. ralentí_n1 := n_intr_count_le & [ STEM < "ralentí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ralentí_n_rel" ] ]. rallador_n1 := n_intr_count_le & [ STEM < "rallador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rallador_n_rel" ] ]. rally_n1 := n_intr_count_le & [ STEM < "rally" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rally_n_rel" ] ]. ralo_a1 := a_rel_nonprd_intr_le & [ STEM < "ralo" >, SYNSEM.LKEYS.KEYREL.PRED "_ralo_a_rel" ]. rama_n1 := n_intr_count_le & [ STEM < "rama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rama_n_rel" ] ]. ramada_n1 := n_intr_count_le & [ STEM < "ramada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ramada_n_rel" ] ]. ramaje_n1 := n_intr_mass_le & [ STEM < "ramaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ramaje_n_rel" ] ]. ramal_n1 := n_intr_count_le & [ STEM < "ramal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ramal_n_rel" ] ]. ramalazo_n1 := n_intr_count_le & [ STEM < "ramalazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ramalazo_n_rel" ] ]. rambla_n1 := n_intr_count_le & [ STEM < "rambla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rambla_n_rel" ] ]. ramera_n1 := n_intr_count_le & [ STEM < "ramera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ramera_n_rel" ] ]. ramificación_n1 := n_event-result_intr_le & [ STEM < "ramificación" >, SYNSEM.LKEYS.KEYREL.PRED "_ramificación_n_rel" ]. ramillete_n := n_group_le & [ STEM < "ramillete" >, SYNSEM.LKEYS.KEYREL.PRED "_ramillete_n_rel" ]. ramio_n1 := n_intr_count_le & [ STEM < "ramio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ramio_n_rel" ] ]. ramo_n1 := n_intr_count_le & [ STEM < "ramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ramo_n_rel" ] ]. rampa_n1 := n_intr_count_le & [ STEM < "rampa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rampa_n_rel" ] ]. rampante_a1 := a_qual_intr_scopal_le & [ STEM < "rampante" >, SYNSEM.LKEYS.KEYREL.PRED "_rampante_a_rel" ]. ramplonería_n1 := n_intr_uncount_pl_le & [ STEM < "ramplonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ramplonería_n_rel" ] ]. ramplón_a1 := a_qual_intr_ser_le & [ STEM < "ramplón" >, SYNSEM.LKEYS.KEYREL.PRED "_ramplón_a_rel" ]. rana_n1 := n_intr_count_le & [ STEM < "rana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rana_n_rel" ] ]. ranchero_n1 := n_intr_count_le & [ STEM < "ranchero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ranchero_n_rel" ] ]. rancho_n1 := n_intr_count_le & [ STEM < "rancho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rancho_n_rel" ] ]. rancidez_n1 := n_ppcomp_uncount_le & [ STEM < "rancidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rancidez_n_rel" ] ]. ranciedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ranciedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ranciedad_n_rel" ] ]. rancio_a1 := a_qual_intr_estar_le & [ STEM < "rancio" >, SYNSEM.LKEYS.KEYREL.PRED "_rancio_a_rel" ]. randomizar_v := v_trans_np_le & [ STEM < "randomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_randomizar_v_rel" ]. rango_n1 := n_intr_uncount_le & [ STEM < "rango" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rango_n_rel" ] ]. ranura_n1 := n_intr_count_le & [ STEM < "ranura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ranura_n_rel" ] ]. ranurado_n1 := n_intr_count_le & [ STEM < "ranurado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ranurado_n_rel" ] ]. ranuradora_n1 := n_intr_count_le & [ STEM < "ranuradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ranuradora_n_rel" ] ]. ranurar_v := v_trans_np_le & [ STEM < "ranurar" >, SYNSEM.LKEYS.KEYREL.PRED "_ranurar_v_rel" ]. ranúnculo_n1 := n_intr_count_le & [ STEM < "ranúnculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ranúnculo_n_rel" ] ]. rapacidad_n1 := n_intr_mass-or-count_le & [ STEM < "rapacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapacidad_n_rel" ] ]. rapaz_a1 := a_qual_intr_ser_le & [ STEM < "rapaz" >, SYNSEM.LKEYS.KEYREL.PRED "_rapaz_a_rel" ]. rapaz_n1 := n_intr_count_le & [ STEM < "rapaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rapaz_n_rel" ] ]. rape_n1 := n_intr_count_le & [ STEM < "rape" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rape_n_rel" ] ]. rapelador_n1 := n_intr_count_le & [ STEM < "rapelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rapelador_n_rel" ] ]. rapero_n1 := n_intr_count_le & [ STEM < "rapero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rapero_n_rel" ] ]. rapidez_n1 := n_ppcomp_uncount_le & [ STEM < "rapidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapidez_n_rel" ] ]. raposa_n1 := n_intr_count_le & [ STEM < "raposa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_raposa_n_rel" ] ]. raposero_n1 := n_intr_count_le & [ STEM < "raposero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_raposero_n_rel" ] ]. raposo_n1 := n_intr_count_le & [ STEM < "raposo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_raposo_n_rel" ] ]. raptar_v := v_trans_np_le & [ STEM < "raptar" >, SYNSEM.LKEYS.KEYREL.PRED "_raptar_v_rel" ]. raptor_n1 := n_subj-nom_le & [ STEM < "raptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_raptor_n_rel" ] ]. raqueta_n1 := n_intr_count_le & [ STEM < "raqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raqueta_n_rel" ] ]. raquetazo_n1 := n_intr_count_le & [ STEM < "raquetazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raquetazo_n_rel" ] ]. raquitismo_n1 := n_intr_uncount_le & [ STEM < "raquitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raquitismo_n_rel" ] ]. raquídeo_a1 := a_rel_nonprd_intr_le & [ STEM < "raquídeo" >, SYNSEM.LKEYS.KEYREL.PRED "_raquídeo_a_rel" ]. raquítico_a1 := a_qual_intr_estar_le & [ STEM < "raquítico" >, SYNSEM.LKEYS.KEYREL.PRED "_raquítico_a_rel" ]. rara_vez_x1 := av_i_le & [ STEM < "rara_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_rara_vez_x_rel" ]. raramente_x1 := av_s_prhd_spr_le & [ STEM < "raramente" >, SYNSEM.LKEYS.KEYREL.PRED "_raramente_x_rel" ]. raramente_x2 := av_i_psthd_spr_le & [ STEM < "raramente" >, SYNSEM.LKEYS.KEYREL.PRED "_raramente_x_rel" ]. rarefacción_n1 := n_trans_le & [ STEM < "rarefacción" >, SYNSEM.LKEYS.KEYREL.PRED "_rarefacción_n_rel" ]. rarefactamente_x1 := av_i_spr_le & [ STEM < "rarefactamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rarefactamente_x_rel" ]. rareza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rareza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rareza_n_rel" ] ]. raridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "raridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raridad_n_rel" ] ]. raro_a1 := a_adv_int_le & [ STEM < "raro" >, SYNSEM.LKEYS.KEYREL.PRED "_raro_a_rel" ]. raro_a2 := a_qual_intr_scopal_le & [ STEM < "raro" >, SYNSEM.LKEYS.KEYREL.PRED "_raro_a_rel" ]. rasante_a1 := a_qual_intr_scopal_le & [ STEM < "rasante" >, SYNSEM.LKEYS.KEYREL.PRED "_rasante_a_rel" ]. rasar_v := v_trans_np_le & [ STEM < "rasar" >, SYNSEM.LKEYS.KEYREL.PRED "_rasar_v_rel" ]. rascacielos_n1 := n_intr_count_le & [ STEM < "rascacielos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rascacielos_n_rel" ] ]. rascacio_n1 := n_intr_count_le & [ STEM < "rascacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rascacio_n_rel" ] ]. rascadera_n1 := n_intr_count_le & [ STEM < "rascadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rascadera_n_rel" ] ]. rascador_n1 := n_intr_count_le & [ STEM < "rascador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rascador_n_rel" ] ]. rasear_v := v_trans_np*_le & [ STEM < "rasear" >, SYNSEM.LKEYS.KEYREL.PRED "_rasear_v_rel" ]. rasero_n1 := n_intr_count_le & [ STEM < "rasero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rasero_n_rel" ] ]. rasete_n1 := n_intr_mass_le & [ STEM < "rasete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rasete_n_rel" ] ]. rasgador_a1 := a_rel_nonprd_intr_le & [ STEM < "rasgador" >, SYNSEM.LKEYS.KEYREL.PRED "_rasgador_a_rel" ]. rasgadura_n1 := n_trans_le & [ STEM < "rasgadura" >, SYNSEM.LKEYS.KEYREL.PRED "_rasgadura_n_rel" ]. rasgar_v := v_trans_np_caus_le & [ STEM < "rasgar" >, SYNSEM.LKEYS.KEYREL.PRED "_rasgar_v_rel" ]. raso_a1 := a_rel_nonprd_intr_le & [ STEM < "raso" >, SYNSEM.LKEYS.KEYREL.PRED "_raso_a_rel" ]. raso_n1 := n_intr_count_le & [ STEM < "raso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_raso_n_rel" ] ]. raspa_n1 := n_intr_count_le & [ STEM < "raspa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raspa_n_rel" ] ]. raspado_n1 := n_trans_le & [ STEM < "raspado" >, SYNSEM.LKEYS.KEYREL.PRED "_raspado_n_rel" ]. raspador_n1 := n_intr_count_le & [ STEM < "raspador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raspador_n_rel" ] ]. raspadura_n1 := n_trans_le & [ STEM < "raspadura" >, SYNSEM.LKEYS.KEYREL.PRED "_raspadura_n_rel" ]. raspallón_n1 := n_intr_count_le & [ STEM < "raspallón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_raspallón_n_rel" ] ]. raspante_a1 := a_rel_nonprd_intr_le & [ STEM < "raspante" >, SYNSEM.LKEYS.KEYREL.PRED "_raspante_a_rel" ]. raspar_v := v_trans_np*_le & [ STEM < "raspar" >, SYNSEM.LKEYS.KEYREL.PRED "_raspar_v_rel" ]. rasposo_a1 := a_qual_intr_scopal_le & [ STEM < "rasposo" >, SYNSEM.LKEYS.KEYREL.PRED "_rasposo_a_rel" ]. rasqueta_n1 := n_intr_count_le & [ STEM < "rasqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rasqueta_n_rel" ] ]. rastra_n1 := n_intr_count_le & [ STEM < "rastra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rastra_n_rel" ] ]. rastreabilidad_n1 := n_intr_uncount_le & [ STEM < "rastreabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rastreabilidad_n_rel" ] ]. rastreable_a1 := a_rel_prd_le & [ STEM < "rastreable" >, SYNSEM.LKEYS.KEYREL.PRED "_rastreable_a_rel" ]. rastreador_a1 := a_rel_nonprd_intr_le & [ STEM < "rastreador" >, SYNSEM.LKEYS.KEYREL.PRED "_rastreador_a_rel" ]. rastreador_n1 := n_subj-nom_le & [ STEM < "rastreador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rastreador_n_rel" ] ]. rastrear_v := v_trans_np_le & [ STEM < "rastrear" >, SYNSEM.LKEYS.KEYREL.PRED "_rastrear_v_rel" ]. rastrel_n1 := n_intr_count_le & [ STEM < "rastrel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rastrel_n_rel" ] ]. rastreo_n1 := n_trans_le & [ STEM < "rastreo" >, SYNSEM.LKEYS.KEYREL.PRED "_rastreo_n_rel" ]. rastreramente_x1 := av_i_spr_le & [ STEM < "rastreramente" >, SYNSEM.LKEYS.KEYREL.PRED "_rastreramente_x_rel" ]. rastrero_a1 := a_qual_intr_ser_le & [ STEM < "rastrero" >, SYNSEM.LKEYS.KEYREL.PRED "_rastrero_a_rel" ]. rastriar_v := v_trans_np_le & [ STEM < "rastriar" >, SYNSEM.LKEYS.KEYREL.PRED "_rastriar_v_rel" ]. rastrillado_n1 := n_trans_le & [ STEM < "rastrillado" >, SYNSEM.LKEYS.KEYREL.PRED "_rastrillado_n_rel" ]. rastrillar_v := v_trans_np*_le & [ STEM < "rastrillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_plant, PRED "_rastrillar_v_rel" ] ]. rastrillo_n1 := n_intr_count_le & [ STEM < "rastrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rastrillo_n_rel" ] ]. rastro_n1 := n_intr_mass_le & [ STEM < "rastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rastro_n_rel" ] ]. rastrojo_n1 := n_intr_count_le & [ STEM < "rastrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rastrojo_n_rel" ] ]. rasurar_v := v_trans_np_caus_le & [ STEM < "rasurar" >, SYNSEM.LKEYS.KEYREL.PRED "_rasurar_v_rel" ]. rata_n1 := n_intr_count_le & [ STEM < "rata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rata_n_rel" ] ]. ratafía_n1 := n_intr_count_le & [ STEM < "ratafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ratafía_n_rel" ] ]. ratero_n1 := n_intr_count_le & [ STEM < "ratero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ratero_n_rel" ] ]. raticida_n1 := n_intr_count_le & [ STEM < "raticida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raticida_n_rel" ] ]. ratificación_n1 := n_trans_le & [ STEM < "ratificación" >, SYNSEM.LKEYS.KEYREL.PRED "_ratificación_n_rel" ]. ratificar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "ratificar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_ratificar_v_rel" ] ]. ratificar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "ratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_ratificar_v_rel" ]. ratificar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "ratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_ratificar_v_rel" ]. ratificar_v4 := v_trans_cp_prop_fin_le & [ STEM < "ratificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ratificar_v_rel" ] ]. ratificar_v5 := v_trans_np_le & [ STEM < "ratificar" >, SYNSEM.LKEYS.KEYREL.PRED "_ratificar_v_rel" ]. rato_n1 := n_intr_mass_le & [ STEM < "rato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_rato_n_rel" ] ]. ratonera_n1 := n_intr_count_le & [ STEM < "ratonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ratonera_n_rel" ] ]. ratonero_a1 := a_rel_nonprd_intr_le & [ STEM < "ratonero" >, SYNSEM.LKEYS.KEYREL.PRED "_ratonero_a_rel" ]. ratonero_n1 := n_intr_count_le & [ STEM < "ratonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ratonero_n_rel" ] ]. ratón_n1 := n_intr_count_le & [ STEM < "ratón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_ratón_n_rel" ] ]. raudal_n1 := n_intr_count_le & [ STEM < "raudal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raudal_n_rel" ] ]. raudamente_x1 := av_i_spr_le & [ STEM < "raudamente" >, SYNSEM.LKEYS.KEYREL.PRED "_raudamente_x_rel" ]. raudo_a1 := a_qual_intr_ser_le & [ STEM < "raudo" >, SYNSEM.LKEYS.KEYREL.PRED "_raudo_a_rel" ]. rauwolfia_n1 := n_intr_count_le & [ STEM < "rauwolfia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_rauwolfia_n_rel" ] ]. ravioli_n1 := n_intr_count_le & [ STEM < "ravioli" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ravioli_n_rel" ] ]. raviolis_n1 := n_intr_count_le & [ STEM < "raviolis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raviolis_n_rel" ] ]. raya_n1 := n_intr_count_le & [ STEM < "raya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raya_n_rel" ] ]. rayadillo_n1 := n_intr_count_le & [ STEM < "rayadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rayadillo_n_rel" ] ]. rayar_v1 := v_intr_mrkd_np_le & [ STEM < "rayar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL [ ARG1.SORT abs_cnc_pro, PRED "_rayar_v_rel" ] ] ]. rayar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "rayar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL.PRED "_rayar_v_rel" ] ]. rayar_v3 := v_trans_np_le & [ STEM < "rayar" >, SYNSEM.LKEYS.KEYREL.PRED "_rayar_v_rel" ]. rayo_n1 := n_intr_count_le & [ STEM < "rayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rayo_n_rel" ] ]. razonable_a1 := a_qual_intr_ser_le & [ STEM < "razonable" >, SYNSEM.LKEYS.KEYREL.PRED "_razonable_a_rel" ]. razonablemente_x1 := av_s_spr_le & [ STEM < "razonablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_razonablemente_x_rel" ]. razonablemente_x2 := av_i_psthd_spr_le & [ STEM < "razonablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_razonablemente_x_rel" ]. razonamiento_n1 := n_result_intr_le & [ STEM < "razonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_razonamiento_n_rel" ]. razonar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "razonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem_soc, PRED "_razonar_v_rel" ] ]. razonar_v2 := v_trans_np_le & [ STEM < "razonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem_soc, ARG2.SORT abs_pro_sem, PRED "_razonar_v_rel" ] ]. razón_n1 := n_intr_mass-or-count_le & [ STEM < "razón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_razón_n_rel" ] ]. razón_n2 := n_intr_uncount_le & [ STEM < "razón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_razón_n_rel" ] ]. raíl_n1 := n_intr_count_le & [ STEM < "raíl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_raíl_n_rel" ] ]. raíz_n1 := n_intr_count_le & [ STEM < "raíz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_raíz_n_rel" ] ]. rchiducado_n1 := n_intr_count_le & [ STEM < "rchiducado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_soc, PRED "_rchiducado_n_rel" ] ]. reabsorción_n1 := n_trans_le & [ STEM < "reabsorción" >, SYNSEM.LKEYS.KEYREL.PRED "_reabsorción_n_rel" ]. reaccionar_v := v_unacc_le & [ STEM < "reaccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_reaccionar_v_rel" ]. reaccionario_a1 := a_qual_intr_ser_le & [ STEM < "reaccionario" >, SYNSEM.LKEYS.KEYREL.PRED "_reaccionario_a_rel" ]. reaccionario_n1 := n_intr_count_le & [ STEM < "reaccionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reaccionario_n_rel" ] ]. reacción_n1 := n_intr_count_le & [ STEM < "reacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reacción_n_rel" ] ]. reaceleración_n1 := n_trans_le & [ STEM < "reaceleración" >, SYNSEM.LKEYS.KEYREL.PRED "_reaceleración_n_rel" ]. reaceptación_n1 := n_trans_le & [ STEM < "reaceptación" >, SYNSEM.LKEYS.KEYREL.PRED "_reaceptación_n_rel" ]. reacio_a1 := a_qual_cp_prop_fin_ser_le & [ STEM < "reacio" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reacio_a_rel" ] ]. reacio_a2 := a_qual_cp_ques_ser_le & [ STEM < "reacio" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reacio_a_rel" ] ]. reacondicionador_n1 := n_intr_count_le & [ STEM < "reacondicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reacondicionador_n_rel" ] ]. reacondicionamiento_n1 := n_trans_le & [ STEM < "reacondicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reacondicionamiento_n_rel" ]. reactancia_n1 := n_intr_uncount_le & [ STEM < "reactancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reactancia_n_rel" ] ]. reactivable_a1 := a_rel_prd_le & [ STEM < "reactivable" >, SYNSEM.LKEYS.KEYREL.PRED "_reactivable_a_rel" ]. reactivación_n1 := n_trans_le & [ STEM < "reactivación" >, SYNSEM.LKEYS.KEYREL.PRED "_reactivación_n_rel" ]. reactivamente_x1 := av_i_spr_le & [ STEM < "reactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reactivamente_x_rel" ]. reactivar_v := v_trans_np_caus_le & [ STEM < "reactivar" >, SYNSEM.LKEYS.KEYREL.PRED "_reactivar_v_rel" ]. reactividad_n1 := n_intr_mass_le & [ STEM < "reactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reactividad_n_rel" ] ]. reactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "reactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_reactivo_a_rel" ]. reactivo_n1 := n_intr_count_le & [ STEM < "reactivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reactivo_n_rel" ] ]. reactor_n1 := n_intr_count_le & [ STEM < "reactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_reactor_n_rel" ] ]. readaptación_n1 := n_trans_le & [ STEM < "readaptación" >, SYNSEM.LKEYS.KEYREL.PRED "_readaptación_n_rel" ]. readquirir_v := v_trans_np_le & [ STEM < "readquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_readquirir_v_rel" ]. reafirmación_n1 := n_trans_le & [ STEM < "reafirmación" >, SYNSEM.LKEYS.KEYREL.PRED "_reafirmación_n_rel" ]. reafirmar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "reafirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reafirmar_v_rel" ] ]. reafirmar_v2 := v_ditrans*_le & [ STEM < "reafirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_reafirmar_v_rel" ] ]. reafirmar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "reafirmar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_reafirmar_v_rel" ] ] ]. reagina_n1 := n_intr_count_le & [ STEM < "reagina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reagina_n_rel" ] ]. reagrupación_n1 := n_trans_le & [ STEM < "reagrupación" >, SYNSEM.LKEYS.KEYREL.PRED "_reagrupación_n_rel" ]. reagrupamiento_n1 := n_trans_le & [ STEM < "reagrupamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reagrupamiento_n_rel" ]. reajustable_a1 := a_rel_prd_le & [ STEM < "reajustable" >, SYNSEM.LKEYS.KEYREL.PRED "_reajustable_a_rel" ]. reajustablemente_x1 := av_i_spr_le & [ STEM < "reajustablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reajustablemente_x_rel" ]. real_a1 := a_qual_intr_ser_le & [ STEM < "real" >, SYNSEM.LKEYS.KEYREL.PRED "_real_a_rel" ]. realce_n1 := n_trans_le & [ STEM < "realce" >, SYNSEM.LKEYS.KEYREL.PRED "_realce_n_rel" ]. realeza_n1 := n_intr_count_le & [ STEM < "realeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_realeza_n_rel" ] ]. realidad_n1 := n_intr_count_le & [ STEM < "realidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_realidad_n_rel" ] ]. realimentación_n1 := n_trans_le & [ STEM < "realimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_realimentación_n_rel" ]. realismo_n1 := n_ppcomp_uncount_le & [ STEM < "realismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_realismo_n_rel" ] ]. realista_a1 := a_qual_intr_ser_le & [ STEM < "realista" >, SYNSEM.LKEYS.KEYREL.PRED "_realista_a_rel" ]. realizable_a1 := a_rel_prd_le & [ STEM < "realizable" >, SYNSEM.LKEYS.KEYREL.PRED "_realizable_a_rel" ]. realización_n1 := n_trans_le & [ STEM < "realización" >, SYNSEM.LKEYS.KEYREL.PRED "_realización_n_rel" ]. realizador_n1 := n_subj-nom_le & [ STEM < "realizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_realizador_n_rel" ] ]. realmacenable_a1 := a_rel_nonprd_intr_le & [ STEM < "realmacenable" >, SYNSEM.LKEYS.KEYREL.PRED "_realmacenable_a_rel" ]. realmacenamiento_n1 := n_trans_le & [ STEM < "realmacenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_realmacenamiento_n_rel" ]. realmacenar_v := v_trans_np_le & [ STEM < "realmacenar" >, SYNSEM.LKEYS.KEYREL.PRED "_realmacenar_v_rel" ]. realmente_x1 := av_i_le & [ STEM < "realmente" >, SYNSEM.LKEYS.KEYREL.PRED "_realmente_x_rel" ]. realojamiento_n1 := n_trans_le & [ STEM < "realojamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_realojamiento_n_rel" ]. realojar_v := v_trans_np_le & [ STEM < "realojar" >, SYNSEM.LKEYS.KEYREL.PRED "_realojar_v_rel" ]. realquilado_n1 := n_intr_count_le & [ STEM < "realquilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_realquilado_n_rel" ] ]. realzar_v1 := v_trans_cp_prop_fin_le & [ STEM < "realzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_realzar_v_rel" ] ]. realzar_v2 := v_trans_np_le & [ STEM < "realzar" >, SYNSEM.LKEYS.KEYREL.PRED "_realzar_v_rel" ]. reanimación_n1 := n_trans_le & [ STEM < "reanimación" >, SYNSEM.LKEYS.KEYREL.PRED "_reanimación_n_rel" ]. reanimador_n1 := n_intr_count_le & [ STEM < "reanimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reanimador_n_rel" ] ]. reanimar_v := v_trans_np_caus_le & [ STEM < "reanimar" >, SYNSEM.LKEYS.KEYREL.PRED "_reanimar_v_rel" ]. reanudación_n1 := n_trans_le & [ STEM < "reanudación" >, SYNSEM.LKEYS.KEYREL.PRED "_reanudación_n_rel" ]. reanudar_v := v_trans_np_le & [ STEM < "reanudar" >, SYNSEM.LKEYS.KEYREL.PRED "_reanudar_v_rel" ]. reaparecer_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "reaparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_reaparecer_v_rel" ] ] ]. reaparecer_v2 := v_unacc_perf_le & [ STEM < "reaparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_reaparecer_v_rel" ]. reapertura_n1 := n_trans_le & [ STEM < "reapertura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reapertura_n_rel" ] ]. reaplicabilidad_n1 := n_intr_uncount_le & [ STEM < "reaplicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reaplicabilidad_n_rel" ] ]. reaplicación_n1 := n_trans_le & [ STEM < "reaplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_reaplicación_n_rel" ]. reaprendizaje_n1 := n_intr_uncount_le & [ STEM < "reaprendizaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reaprendizaje_n_rel" ] ]. reaprovechable_a1 := a_rel_nonprd_intr_le & [ STEM < "reaprovechable" >, SYNSEM.LKEYS.KEYREL.PRED "_reaprovechable_a_rel" ]. reaprovisionamiento_n1 := n_trans_le & [ STEM < "reaprovisionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reaprovisionamiento_n_rel" ]. rearmable_a1 := a_rel_nonprd_intr_le & [ STEM < "rearmable" >, SYNSEM.LKEYS.KEYREL.PRED "_rearmable_a_rel" ]. rearmar_v := v_trans_np_caus_le & [ STEM < "rearmar" >, SYNSEM.LKEYS.KEYREL.PRED "_rearmar_v_rel" ]. rearme_n1 := n_trans_le & [ STEM < "rearme" >, SYNSEM.LKEYS.KEYREL.PRED "_rearme_n_rel" ]. rearrancar_v := v_trans_np*_le & [ STEM < "rearrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_rearrancar_v_rel" ]. rearrendamiento_n1 := n_trans_le & [ STEM < "rearrendamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rearrendamiento_n_rel" ]. reasegurador_a1 := a_rel_nonprd_intr_le & [ STEM < "reasegurador" >, SYNSEM.LKEYS.KEYREL.PRED "_reasegurador_a_rel" ]. reasegurador_n1 := n_subj-nom_le & [ STEM < "reasegurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reasegurador_n_rel" ] ]. reasentamiento_n1 := n_trans_le & [ STEM < "reasentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reasentamiento_n_rel" ]. reasignación_n1 := n_trans_le & [ STEM < "reasignación" >, SYNSEM.LKEYS.KEYREL.PRED "_reasignación_n_rel" ]. reasignar_v := v_ditrans*_le & [ STEM < "reasignar" >, SYNSEM.LKEYS.KEYREL.PRED "_reasignar_v_rel" ]. reavivar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "reavivar" >, SYNSEM.LKEYS.KEYREL.PRED "_reavivar_v_rel" ]. reavivar_v2 := v_trans_np_le & [ STEM < "reavivar" >, SYNSEM.LKEYS.KEYREL.PRED "_reavivar_v_rel" ]. rebaba_n1 := n_intr_mass_le & [ STEM < "rebaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rebaba_n_rel" ] ]. rebajar_v1 := v_intr_io*_le & [ STEM < "rebajar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebajar_v_rel" ]. rebajar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "rebajar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_rebajar_v_rel" ] ]. rebajar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "rebajar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_rebajar_v_rel" ] ]. rebajar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "rebajar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebajar_v_rel" ]. rebajar_v5 := v_trans_np_le & [ STEM < "rebajar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebajar_v_rel" ]. rebaje_n1 := n_trans_le & [ STEM < "rebaje" >, SYNSEM.LKEYS.KEYREL.PRED "_rebaje_n_rel" ]. rebajo_n1 := n_intr_count_le & [ STEM < "rebajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rebajo_n_rel" ] ]. rebanada_n1 := n_pseudo-part_le & [ STEM < "rebanada" >, SYNSEM.LKEYS.KEYREL.PRED "_rebanada_n_rel" ]. rebanar_v := v_trans_np_le & [ STEM < "rebanar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebanar_v_rel" ]. rebasamiento_n1 := n_trans_le & [ STEM < "rebasamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rebasamiento_n_rel" ]. rebasar_v := v_trans_np_le & [ STEM < "rebasar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebasar_v_rel" ]. rebatible_a1 := a_rel_nonprd_intr_le & [ STEM < "rebatible" >, SYNSEM.LKEYS.KEYREL.PRED "_rebatible_a_rel" ]. rebatimiento_n1 := n_trans_le & [ STEM < "rebatimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rebatimiento_n_rel" ]. rebatir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "rebatir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rebatir_v_rel" ] ]. rebatir_v2 := v_ditrans*_le & [ STEM < "rebatir" >, SYNSEM.LKEYS.KEYREL.PRED "_rebatir_v_rel" ]. rebatir_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "rebatir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rebatir_v_rel" ] ]. rebatir_v4 := v_trans_np_le & [ STEM < "rebatir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rebatir_v_rel" ] ]. rebaño_n1 := n_intr_coll_le & [ STEM < "rebaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rebaño_n_rel" ] ]. rebeca_n1 := n_intr_count_le & [ STEM < "rebeca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rebeca_n_rel" ] ]. rebeco_n1 := n_intr_count_le & [ STEM < "rebeco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rebeco_n_rel" ] ]. rebelar_v := v_pron_intr_mrkd_np*_le & [ STEM < "rebelar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_rebelar_v_rel" ] ]. rebelde_a1 := a_qual_intr_ser_le & [ STEM < "rebelde" >, SYNSEM.LKEYS.KEYREL.PRED "_rebelde_a_rel" ]. rebelde_n1 := n_intr_count_le & [ STEM < "rebelde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rebelde_n_rel" ] ]. rebeldía_n1 := n_intr_mass_le & [ STEM < "rebeldía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rebeldía_n_rel" ] ]. rebelión_n1 := n_result_intr_le & [ STEM < "rebelión" >, SYNSEM.LKEYS.KEYREL.PRED "_rebelión_n_rel" ]. reblandecer_v := v_trans_np_caus_le & [ STEM < "reblandecer" >, SYNSEM.LKEYS.KEYREL.PRED "_reblandecer_v_rel" ]. reblandecimiento_n1 := n_trans_le & [ STEM < "reblandecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reblandecimiento_n_rel" ]. rebobinado_n1 := n_intr_count_le & [ STEM < "rebobinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rebobinado_n_rel" ] ]. rebobinar_v := v_trans_np_le & [ STEM < "rebobinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_pro, PRED "_rebobinar_v_rel" ] ]. reborde_n1 := n_intr_count_le & [ STEM < "reborde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reborde_n_rel" ] ]. rebordeado_n1 := n_trans_le & [ STEM < "rebordeado" >, SYNSEM.LKEYS.KEYREL.PRED "_rebordeado_n_rel" ]. rebordear_v := v_trans_np_le & [ STEM < "rebordear" >, SYNSEM.LKEYS.KEYREL.PRED "_rebordear_v_rel" ]. rebordeo_n1 := n_trans_le & [ STEM < "rebordeo" >, SYNSEM.LKEYS.KEYREL.PRED "_rebordeo_n_rel" ]. rebosadero_n1 := n_intr_count_le & [ STEM < "rebosadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rebosadero_n_rel" ] ]. rebosante_a1 := a_qual_trans*_ser_le & [ STEM < "rebosante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_rebosante_a_rel" ] ]. rebotar_v := v_intr_le & [ STEM < "rebotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, PRED "_rebotar_v_rel" ] ]. rebotar_v1 := v_pron_intr_le & [ STEM < "rebotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rebotar_v_rel" ] ]. rebotar_v2 := v_trans_np_le & [ STEM < "rebotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, PRED "_rebotar_v_rel" ] ]. reboteador_n1 := n_subj-nom_le & [ STEM < "reboteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reboteador_n_rel" ] ]. rebotear_v := v_trans_np*_le & [ STEM < "rebotear" >, SYNSEM.LKEYS.KEYREL.PRED "_rebotear_v_rel" ]. rebozar_v := v_trans_np_le & [ STEM < "rebozar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebozar_v_rel" ]. rebucar_v := v_trans_np_le & [ STEM < "rebucar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebucar_v_rel" ]. rebusca_n1 := n_trans_le & [ STEM < "rebusca" >, SYNSEM.LKEYS.KEYREL.PRED "_rebusca_n_rel" ]. rebuscadamente_x1 := av_i_spr_le & [ STEM < "rebuscadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rebuscadamente_x_rel" ]. rebuscar_v := v_unacc_lcomp_loc_le & [ STEM < "rebuscar" >, SYNSEM.LKEYS.KEYREL.PRED "_rebuscar_v_rel" ]. rebuznar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "rebuznar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rebuznar_v_rel" ] ]. rebuznar_v2 := v_ditrans*_le & [ STEM < "rebuznar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rebuznar_v_rel" ] ]. rebuznar_v3 := v_intr_le & [ STEM < "rebuznar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_rebuznar_v_rel" ] ]. recableado_n1 := n_trans_le & [ STEM < "recableado" >, SYNSEM.LKEYS.KEYREL.PRED "_recableado_n_rel" ]. recadero_n1 := n_intr_count_le & [ STEM < "recadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recadero_n_rel" ] ]. recado_n1 := n_intr_uncount_le & [ STEM < "recado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recado_n_rel" ] ]. recaer_v1 := v_intr_le & [ STEM < "recaer" >, SYNSEM.LKEYS.KEYREL.PRED "_recaer_v_rel" ]. recaer_v2 := v_intr_mrkd_np_le & [ STEM < "recaer" >, SYNSEM.LKEYS [ --COMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_recaer_v_rel" ] ]. recalada_n1 := n_result_intr_le & [ STEM < "recalada" >, SYNSEM.LKEYS.KEYREL.PRED "_recalada_n_rel" ]. recalar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "recalar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recalar_v_rel" ] ] ]. recalar_v2 := v_trans_np_le & [ STEM < "recalar" >, SYNSEM.LKEYS.KEYREL.PRED "_recalar_v_rel" ]. recalar_v3 := v_unacc_lcomp_loc*_le & [ STEM < "recalar" >, SYNSEM.LKEYS.KEYREL.PRED "_recalar_v_rel" ]. recalcado_n1 := n_trans_le & [ STEM < "recalcado" >, SYNSEM.LKEYS.KEYREL.PRED "_recalcado_n_rel" ]. recalcador_a1 := a_rel_nonprd_intr_le & [ STEM < "recalcador" >, SYNSEM.LKEYS.KEYREL.PRED "_recalcador_a_rel" ]. recalcadora_n1 := n_intr_count_le & [ STEM < "recalcadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recalcadora_n_rel" ] ]. recalcadura_n1 := n_trans_le & [ STEM < "recalcadura" >, SYNSEM.LKEYS.KEYREL.PRED "_recalcadura_n_rel" ]. recalcar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "recalcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_recalcar_v_rel" ] ]. recalcar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "recalcar" >, SYNSEM.LKEYS.KEYREL.PRED "_recalcar_v_rel" ]. recalcar_v3 := v_ditrans*_le & [ STEM < "recalcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_recalcar_v_rel" ] ]. recalcitrante_a1 := a_rel_nonprd_intr_le & [ STEM < "recalcitrante" >, SYNSEM.LKEYS.KEYREL.PRED "_recalcitrante_a_rel" ]. recalentador_n1 := n_intr_count_le & [ STEM < "recalentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recalentador_n_rel" ] ]. recalentamiento_n1 := n_trans_le & [ STEM < "recalentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_recalentamiento_n_rel" ]. recalentar_v := v_trans_np_caus_le & [ STEM < "recalentar" >, SYNSEM.LKEYS.KEYREL.PRED "_recalentar_v_rel" ]. recalescentemente_x1 := av_i_spr_le & [ STEM < "recalescentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recalescentemente_x_rel" ]. recalificación_n1 := n_trans_le & [ STEM < "recalificación" >, SYNSEM.LKEYS.KEYREL.PRED "_recalificación_n_rel" ]. recalzo_n1 := n_intr_count_le & [ STEM < "recalzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recalzo_n_rel" ] ]. recambiable_a1 := a_rel_nonprd_intr_le & [ STEM < "recambiable" >, SYNSEM.LKEYS.KEYREL.PRED "_recambiable_a_rel" ]. recambiablemente_x1 := av_i_spr_le & [ STEM < "recambiablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recambiablemente_x_rel" ]. recambio_n1 := n_intr_count_le & [ STEM < "recambio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recambio_n_rel" ] ]. recapacitar_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "recapacizar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_recapacizar_v_rel" ] ]. recapacitar_v2 := v_intr_mrkd_np_le & [ STEM < "recapacitar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_recapacitar_v_rel" ] ]. recapitalización_n1 := n_trans_le & [ STEM < "recapitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_recapitalización_n_rel" ]. recapitulación_n1 := n_trans_le & [ STEM < "recapitulación" >, SYNSEM.LKEYS.KEYREL.PRED "_recapitulación_n_rel" ]. recaptación_n1 := n_trans_le & [ STEM < "recaptación" >, SYNSEM.LKEYS.KEYREL.PRED "_recaptación_n_rel" ]. recarga_n1 := n_trans_le & [ STEM < "recarga" >, SYNSEM.LKEYS.KEYREL.PRED "_recarga_n_rel" ]. recargable_a1 := a_rel_nonprd_intr_le & [ STEM < "recargable" >, SYNSEM.LKEYS.KEYREL.PRED "_recargable_a_rel" ]. recargador_n1 := n_intr_count_le & [ STEM < "recargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recargador_n_rel" ] ]. recatalogar_v := v_trans_np_le & [ STEM < "recatalogar" >, SYNSEM.LKEYS.KEYREL.PRED "_recatalogar_v_rel" ]. recato_n1 := n_intr_mass_le & [ STEM < "recato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recato_n_rel" ] ]. recauchutado_n1 := n_trans_le & [ STEM < "recauchutado" >, SYNSEM.LKEYS.KEYREL.PRED "_recauchutado_n_rel" ]. recaudación_n1 := n_trans_le & [ STEM < "recaudación" >, SYNSEM.LKEYS.KEYREL.PRED "_recaudación_n_rel" ]. recaudador_n1 := n_subj-nom_le & [ STEM < "recaudador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recaudador_n_rel" ] ]. recaudar_v := v_trans_np_le & [ STEM < "recaudar" >, SYNSEM.LKEYS.KEYREL.PRED "_recaudar_v_rel" ]. recaudatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "recaudatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_recaudatorio_a_rel" ]. recavar_v := v_trans_np*_le & [ STEM < "recavar" >, SYNSEM.LKEYS.KEYREL.PRED "_recavar_v_rel" ]. recebo_n1 := n_intr_count_le & [ STEM < "recebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_recebo_n_rel" ] ]. recelar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "recelar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recelar_v_rel" ] ] ]. recelar_v2 := v_intr_mrkd_np*_le & [ STEM < "recelar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_recelar_v_rel" ] ] ]. recelar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "recelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_recelar_v_rel" ] ]. recelar_v4 := v_trans_np_le & [ STEM < "recelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_recelar_v_rel" ] ]. receloso_a1 := a_qual_intr_estar_le & [ STEM < "receloso" >, SYNSEM.LKEYS.KEYREL.PRED "_receloso_a_rel" ]. recensión_n1 := n_intr_count_le & [ STEM < "recensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_recensión_n_rel" ] ]. recepcionar_v := v_trans_np_le & [ STEM < "recepcionar" >, SYNSEM.LKEYS.KEYREL.PRED "_recepcionar_v_rel" ]. recepcionista_n1 := n_intr_count_le & [ STEM < "recepcionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recepcionista_n_rel" ] ]. recepción_n1 := n_intr_count_le & [ STEM < "recepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_recepción_n_rel" ] ]. receptación_n1 := n_trans_le & [ STEM < "receptación" >, SYNSEM.LKEYS.KEYREL.PRED "_receptación_n_rel" ]. receptador_n1 := n_subj-nom_le & [ STEM < "receptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_receptador_n_rel" ] ]. receptar_v := v_trans_np_le & [ STEM < "receptar" >, SYNSEM.LKEYS.KEYREL.PRED "_receptar_v_rel" ]. receptivamente_x1 := av_i_spr_le & [ STEM < "receptivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_receptivamente_x_rel" ]. receptividad_n1 := n_intr_mass-or-count_le & [ STEM < "receptividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_receptividad_n_rel" ] ]. receptivo_a1 := a_qual_intr_ser_le & [ STEM < "receptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_receptivo_a_rel" ]. receptor_a1 := a_rel_nonprd_intr_le & [ STEM < "receptor" >, SYNSEM.LKEYS.KEYREL.PRED "_receptor_a_rel" ]. receptor_n1 := n_intr_count_le & [ STEM < "receptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_receptor_n_rel" ] ]. receptáculo_n1 := n_intr_count_le & [ STEM < "receptáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_receptáculo_n_rel" ] ]. recesivamente_x1 := av_i_spr_le & [ STEM < "recesivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_recesivamente_x_rel" ]. recesividad_n1 := n_intr_uncount_le & [ STEM < "recesividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recesividad_n_rel" ] ]. recesivo_a1 := a_qual_intr_scopal_le & [ STEM < "recesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_recesivo_a_rel" ]. recesión_n1 := n_event-result_intr_le & [ STEM < "recesión" >, SYNSEM.LKEYS.KEYREL.PRED "_recesión_n_rel" ]. receta_n1 := n_intr_count_le & [ STEM < "receta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_receta_n_rel" ] ]. recetar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "recetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_recetar_v_rel" ] ]. recetar_v2 := v_ditrans*_le & [ STEM < "recetar" >, SYNSEM.LKEYS.KEYREL.PRED "_recetar_v_rel" ]. recetario_n1 := n_intr_count_le & [ STEM < "recetario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recetario_n_rel" ] ]. rechazable_a1 := a_rel_nonprd_intr_le & [ STEM < "rechazable" >, SYNSEM.LKEYS.KEYREL.PRED "_rechazable_a_rel" ]. rechazamiento_n1 := n_trans_le & [ STEM < "rechazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rechazamiento_n_rel" ]. rechazar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "rechazar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rechazar_v_rel" ] ]. rechazar_v2 := v_trans_np_le & [ STEM < "rechazar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rechazar_v_rel" ] ]. rechazo_n1 := n_trans_le & [ STEM < "rechazo" >, SYNSEM.LKEYS.KEYREL.PRED "_rechazo_n_rel" ]. rechinamiento_n1 := n_result_intr_le & [ STEM < "rechinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rechinamiento_n_rel" ]. rechinar_v := v_intr_le & [ STEM < "rechinar" >, SYNSEM.LKEYS.KEYREL.PRED "_rechinar_v_rel" ]. rechistar_v := v_intr_le & [ STEM < "rechistar" >, SYNSEM.LKEYS.KEYREL.PRED "_rechistar_v_rel" ]. rechoncho_a1 := a_qual_intr_ser_le & [ STEM < "rechoncho" >, SYNSEM.LKEYS.KEYREL.PRED "_rechoncho_a_rel" ]. reciario_n1 := n_intr_count_le & [ STEM < "reciario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reciario_n_rel" ] ]. recibidor_a1 := a_rel_nonprd_intr_le & [ STEM < "recibidor" >, SYNSEM.LKEYS.KEYREL.PRED "_recibidor_a_rel" ]. recibidor_n1 := n_intr_count_le & [ STEM < "recibidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_recibidor_n_rel" ] ]. recibimiento_n1 := n_trans_le & [ STEM < "recibimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_recibimiento_n_rel" ]. recibir_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "recibir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_recibir_v_rel" ] ]. recibir_v2 := v_trans_np_le & [ STEM < "recibir" >, SYNSEM.LKEYS.KEYREL.PRED "_recibir_v_rel" ]. recibir_v3 := v_trans_np_mrkd_np_le & [ STEM < "recibir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_recibir_v_rel" ] ]. recibo_n1 := n_intr_count_le & [ STEM < "recibo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_recibo_n_rel" ] ]. reciclable_a1 := a_rel_nonprd_intr_le & [ STEM < "reciclable" >, SYNSEM.LKEYS.KEYREL.PRED "_reciclable_a_rel" ]. reciclado_n1 := n_trans_le & [ STEM < "reciclado" >, SYNSEM.LKEYS.KEYREL.PRED "_reciclado_n_rel" ]. reciclaje_n1 := n_trans_le & [ STEM < "reciclaje" >, SYNSEM.LKEYS.KEYREL.PRED "_reciclaje_n_rel" ]. reciclar_v := v_trans_np_caus_le & [ STEM < "reciclar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_reciclar_v_rel" ] ]. recidivar_v := v_intr_le & [ STEM < "recividar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_recidivar_v_rel" ] ]. reciente_a1 := a_qual_intr_ser_le & [ STEM < "reciente" >, SYNSEM.LKEYS.KEYREL.PRED "_reciente_a_rel" ]. recientemente_x1 := av_i_spr_le & [ STEM < "recientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recientemente_x_rel" ]. recinto_n1 := n_intr_count_le & [ STEM < "recinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_recinto_n_rel" ] ]. recio_a1 := a_qual_intr_scopal_le & [ STEM < "recio" >, SYNSEM.LKEYS.KEYREL.PRED "_recio_a_rel" ]. recipiente_n1 := n_intr_count_le & [ STEM < "recipiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recipiente_n_rel" ] ]. reciprocación_n1 := n_intr_uncount_le & [ STEM < "reciprocación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reciprocación_n_rel" ] ]. reciprocidad_n1 := n_intr_mass-or-count_le & [ STEM < "reciprocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reciprocidad_n_rel" ] ]. recirculación_n1 := n_result_intr_le & [ STEM < "recirculación" >, SYNSEM.LKEYS.KEYREL.PRED "_recirculación_n_rel" ]. recitación_n1 := n_trans_le & [ STEM < "recitación" >, SYNSEM.LKEYS.KEYREL.PRED "_recitación_n_rel" ]. recitador_n1 := n_subj-nom_le & [ STEM < "recitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recitador_n_rel" ] ]. recital_n1 := n_intr_count_le & [ STEM < "recital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recital_n_rel" ] ]. recitar_v := v_ditrans*_le & [ STEM < "recitar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_recitar_v_rel" ] ]. recitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "recitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_recitativo_a_rel" ]. reclamable_a1 := a_rel_nonprd_intr_le & [ STEM < "reclamable" >, SYNSEM.LKEYS.KEYREL.PRED "_reclamable_a_rel" ]. reclamación_n1 := n_trans_le & [ STEM < "reclamación" >, SYNSEM.LKEYS.KEYREL.PRED "_reclamación_n_rel" ]. reclamador_n1 := n_subj-nom_le & [ STEM < "reclamador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reclamador_n_rel" ] ]. reclamante_n1 := n_intr_count_le & [ STEM < "reclamante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reclamante_n_rel" ] ]. reclamar_v := v_ditrans_cp_prop_fin_sub_le & [ STEM < "reclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reclamar_v_rel" ] ]. reclamar_v1 := v_ditrans*_le & [ STEM < "reclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_reclamar_v_rel" ] ]. reclamar_v2 := v_trans_np_mrkd_np_le & [ STEM < "reclamar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_reclamar_v_rel" ] ]. reclamo_n1 := n_intr_count_le & [ STEM < "reclamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_reclamo_n_rel" ] ]. reclasificación_n1 := n_trans_le & [ STEM < "reclasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_reclasificación_n_rel" ]. reclinable_a1 := a_rel_nonprd_intr_le & [ STEM < "reclinable" >, SYNSEM.LKEYS.KEYREL.PRED "_reclinable_a_rel" ]. reclinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "reclinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_reclinar_v_rel" ] ] ]. reclinar_v2 := v_pron_unacc_lcomp_loc*_le & [ STEM < "reclinar" >, SYNSEM.LKEYS.KEYREL.PRED "_reclinar_v_rel" ]. reclinar_v3 := v_trans_np_le & [ STEM < "reclinar" >, SYNSEM.LKEYS.KEYREL.PRED "_reclinar_v_rel" ]. recluir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "recluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recluir_v_rel" ] ] ]. recluir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "recluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recluir_v_rel" ] ] ]. recluir_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "recluir" >, SYNSEM.LKEYS.KEYREL.PRED "_recluir_v_rel" ]. reclusión_n1 := n_intr_uncount_le & [ STEM < "reclusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reclusión_n_rel" ] ]. recluso_a1 := a_qual_intr_estar_le & [ STEM < "recluso" >, SYNSEM.LKEYS.KEYREL.PRED "_recluso_a_rel" ]. recluso_n1 := n_intr_count_le & [ STEM < "recluso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recluso_n_rel" ] ]. recluta_n1 := n_intr_count_le & [ STEM < "recluta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recluta_n_rel" ] ]. reclutador_a1 := a_rel_nonprd_intr_le & [ STEM < "reclutador" >, SYNSEM.LKEYS.KEYREL.PRED "_reclutador_a_rel" ]. reclutador_n1 := n_subj-nom_le & [ STEM < "reclutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reclutador_n_rel" ] ]. reclutadoramente_x1 := av_i_spr_le & [ STEM < "reclutadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_reclutadoramente_x_rel" ]. reclutamiento_n1 := n_trans_le & [ STEM < "reclutamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reclutamiento_n_rel" ]. reclutar_v := v_trans_np_le & [ STEM < "reclutar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_reclutar_v_rel" ] ]. recocción_n1 := n_trans_le & [ STEM < "recocción" >, SYNSEM.LKEYS.KEYREL.PRED "_recocción_n_rel" ]. recocer_v := v_trans_np_le & [ STEM < "recocer" >, SYNSEM.LKEYS.KEYREL.PRED "_recocer_v_rel" ]. recocho_a1 := a_qual_intr_ser_le & [ STEM < "recocho" >, SYNSEM.LKEYS.KEYREL.PRED "_recocho_a_rel" ]. recodificación_n1 := n_trans_le & [ STEM < "recodificación" >, SYNSEM.LKEYS.KEYREL.PRED "_recodificación_n_rel" ]. recodificador_n1 := n_intr_count_le & [ STEM < "recodificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recodificador_n_rel" ] ]. recodificar_v := v_trans_np_le & [ STEM < "recodificar" >, SYNSEM.LKEYS.KEYREL.PRED "_recodificar_v_rel" ]. recogebalones_n1 := n_intr_count_le & [ STEM < "recogebalones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recogebalones_n_rel" ] ]. recogebates_n1 := n_intr_count_le & [ STEM < "recogebates" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recogebates_n_rel" ] ]. recogedor_a1 := a_rel_nonprd_intr_le & [ STEM < "recogedor" >, SYNSEM.LKEYS.KEYREL.PRED "_recogedor_a_rel" ]. recogedor_n1 := n_intr_count_le & [ STEM < "recogedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recogedor_n_rel" ] ]. recogepelotas_n1 := n_intr_count_le & [ STEM < "recogepelotas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recogepelotas_n_rel" ] ]. recoger_v1 := v_ditrans*_le & [ STEM < "recoger" >, SYNSEM.LKEYS.KEYREL.PRED "_recoger_v_rel" ]. recoger_v2 := v_pron_intr_le & [ STEM < "recoger" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_recoger_v_rel" ] ]. recoger_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "recoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recoger_v_rel" ] ] ]. recoger_v4 := v_pron_intr_mrkd_np_le & [ STEM < "recoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recoger_v_rel" ] ] ]. recogida_n1 := n_trans_le & [ STEM < "recogida" >, SYNSEM.LKEYS.KEYREL.PRED "_recogida_n_rel" ]. recogimiento_n1 := n_trans_le & [ STEM < "recogimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_recogimiento_n_rel" ]. recolección_n1 := n_trans_le & [ STEM < "recolección" >, SYNSEM.LKEYS.KEYREL.PRED "_recolección_n_rel" ]. recolectar_v := v_trans_np_le & [ STEM < "recolectar" >, SYNSEM.LKEYS.KEYREL.PRED "_recolectar_v_rel" ]. recolector_a1 := a_rel_nonprd_intr_le & [ STEM < "recolector" >, SYNSEM.LKEYS.KEYREL.PRED "_recolector_a_rel" ]. recolocación_n1 := n_trans_le & [ STEM < "recolocación" >, SYNSEM.LKEYS.KEYREL.PRED "_recolocación_n_rel" ]. recombinación_n1 := n_trans_le & [ STEM < "recombinación" >, SYNSEM.LKEYS.KEYREL.PRED "_recombinación_n_rel" ]. recombinante_a1 := a_rel_nonprd_intr_le & [ STEM < "recombinante" >, SYNSEM.LKEYS.KEYREL.PRED "_recombinante_a_rel" ]. recombinar_v := v_trans_np_mrkd_np*_le & [ STEM < "recombinar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_recombinar_v_rel" ] ]. recomendable_a1 := a_qual_intr_ser_le & [ STEM < "recomendable" >, SYNSEM.LKEYS.KEYREL.PRED "_recomendable_a_rel" ]. recomendablemente_x1 := av_i_spr_le & [ STEM < "recomendablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recomendablemente_x_rel" ]. recomendación_n1 := n_trans_le & [ STEM < "recomendación" >, SYNSEM.LKEYS.KEYREL.PRED "_recomendación_n_rel" ]. recomendar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "recomendar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_recomendar_v_rel" ] ]. recomendar_v2 := v_ditrans*_le & [ STEM < "recomendar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_recomendar_v_rel" ] ]. recompactación_n1 := n_trans_le & [ STEM < "recompactación" >, SYNSEM.LKEYS.KEYREL.PRED "_recompactación_n_rel" ]. recompensar_v1 := v_trans_cp_prop_fin_le & [ STEM < "recompensar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_recompensar_v_rel" ] ]. recompensar_v2 := v_trans_np_le & [ STEM < "recompensar" >, SYNSEM.LKEYS.KEYREL.PRED "_recompensar_v_rel" ]. recompensatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "recompensatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_recompensatorio_a_rel" ]. recompilación_n1 := n_trans_le & [ STEM < "recompilación" >, SYNSEM.LKEYS.KEYREL.PRED "_recompilación_n_rel" ]. recomplementación_n1 := n_trans_le & [ STEM < "recomplementación" >, SYNSEM.LKEYS.KEYREL.PRED "_recomplementación_n_rel" ]. recomponer_v := v_trans_np_le & [ STEM < "recomponer" >, SYNSEM.LKEYS.KEYREL.PRED "_recomponer_v_rel" ]. recomposición_n1 := n_trans_le & [ STEM < "recomposición" >, SYNSEM.LKEYS.KEYREL.PRED "_recomposición_n_rel" ]. recompra_n1 := n_trans_le & [ STEM < "recompra" >, SYNSEM.LKEYS.KEYREL.PRED "_recompra_n_rel" ]. recompresión_n1 := n_trans_le & [ STEM < "recompresión" >, SYNSEM.LKEYS.KEYREL.PRED "_recompresión_n_rel" ]. reconcentración_n1 := n_trans_le & [ STEM < "reconcentración" >, SYNSEM.LKEYS.KEYREL.PRED "_reconcentración_n_rel" ]. reconciliación_n1 := n_trans_le & [ STEM < "reconciliación" >, SYNSEM.LKEYS.KEYREL.PRED "_reconciliación_n_rel" ]. reconciliar_v1 := v_pron_intr_mrkd_np_sym_le & [ STEM < "reconciliar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_reconciliar_v_rel" ] ]. reconciliar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "reconciliar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_reconciliar_v_rel" ] ]. reconducción_n1 := n_trans_le & [ STEM < "reconducción" >, SYNSEM.LKEYS.KEYREL.PRED "_reconducción_n_rel" ]. reconexión_n1 := n_trans_le & [ STEM < "reconexión" >, SYNSEM.LKEYS.KEYREL.PRED "_reconexión_n_rel" ]. reconfiguración_n1 := n_trans_le & [ STEM < "reconfiguración" >, SYNSEM.LKEYS.KEYREL.PRED "_reconfiguración_n_rel" ]. reconfigurar_v := v_trans_np_le & [ STEM < "reconfigurar" >, SYNSEM.LKEYS.KEYREL.PRED "_reconfigurar_v_rel" ]. reconfortante_a1 := a_qual_intr_ser_le & [ STEM < "reconfortante" >, SYNSEM.LKEYS.KEYREL.PRED "_reconfortante_a_rel" ]. reconfortante_n1 := n_intr_count_le & [ STEM < "reconfortante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reconfortante_n_rel" ] ]. reconfortar_v1 := v_intr_io*_le & [ STEM < "reconfortar" >, SYNSEM.LKEYS.KEYREL.PRED "_reconfortar_v_rel" ]. reconfortar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "reconfortar" >, SYNSEM.LKEYS.KEYREL.PRED "_reconfortar_v_rel" ]. reconfortar_v3 := v_trans_np_le & [ STEM < "reconfortar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_reconfortar_v_rel" ] ]. recongelación_n1 := n_trans_le & [ STEM < "recongelación" >, SYNSEM.LKEYS.KEYREL.PRED "_recongelación_n_rel" ]. reconocible_a1 := a_qual_intr_scopal_le & [ STEM < "reconocible" >, SYNSEM.LKEYS.KEYREL.PRED "_reconocible_a_rel" ]. reconociblemente_x1 := av_i_spr_le & [ STEM < "reconociblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reconociblemente_x_rel" ]. reconocimiento_n1 := n_trans_le & [ STEM < "reconocimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reconocimiento_n_rel" ]. reconquista_n1 := n_trans_le & [ STEM < "reconquista" >, SYNSEM.LKEYS.KEYREL.PRED "_reconquista_n_rel" ]. reconsideración_n1 := n_trans_le & [ STEM < "reconsideración" >, SYNSEM.LKEYS.KEYREL.PRED "_reconsideración_n_rel" ]. reconsignación_n1 := n_trans_le & [ STEM < "reconsignación" >, SYNSEM.LKEYS.KEYREL.PRED "_reconsignación_n_rel" ]. reconstitución_n1 := n_trans_le & [ STEM < "reconstitución" >, SYNSEM.LKEYS.KEYREL.PRED "_reconstitución_n_rel" ]. reconstituidamente_x1 := av_i_spr_le & [ STEM < "reconstituidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reconstituidamente_x_rel" ]. reconstituyente_a1 := a_rel_nonprd_intr_le & [ STEM < "reconstituyente" >, SYNSEM.LKEYS.KEYREL.PRED "_reconstituyente_a_rel" ]. reconstituyente_n1 := n_intr_mass_le & [ STEM < "reconstituyente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reconstituyente_n_rel" ] ]. reconstrucción_n1 := n_trans_le & [ STEM < "reconstrucción" >, SYNSEM.LKEYS.KEYREL.PRED "_reconstrucción_n_rel" ]. reconstruir_v := v_trans_np_le & [ STEM < "reconstruir" >, SYNSEM.LKEYS.KEYREL.PRED "_reconstruir_v_rel" ]. recontar_v := v_trans_np_le & [ STEM < "recontar" >, SYNSEM.LKEYS.KEYREL.PRED "_recontar_v_rel" ]. reconversión_n1 := n_trans_le & [ STEM < "reconversión" >, SYNSEM.LKEYS.KEYREL.PRED "_reconversión_n_rel" ]. reconvertible_a1 := a_rel_nonprd_intr_le & [ STEM < "reconvertible" >, SYNSEM.LKEYS.KEYREL.PRED "_reconvertible_a_rel" ]. recoordinación_n1 := n_trans_le & [ STEM < "recoordinación" >, SYNSEM.LKEYS.KEYREL.PRED "_recoordinación_n_rel" ]. recopilación_n1 := n_trans_le & [ STEM < "recopilación" >, SYNSEM.LKEYS.KEYREL.PRED "_recopilación_n_rel" ]. recopilar_v := v_trans_np_le & [ STEM < "recopilar" >, SYNSEM.LKEYS.KEYREL.PRED "_recopilar_v_rel" ]. recopilatorio_n1 := n_intr_count_le & [ STEM < "recopilatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_recopilatorio_n_rel" ] ]. record_n1 := n_intr_count_le & [ STEM < "record" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_record_n_rel" ] ]. recordar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "recordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_recordar_v_rel" ] ]. recordar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "recordar" >, SYNSEM.LKEYS.KEYREL.PRED "_recordar_v_rel" ]. recordar_v3 := v_ditrans*_le & [ STEM < "recordar" >, SYNSEM.LKEYS.KEYREL.PRED "_recordar_v_rel" ]. recordista_n1 := n_intr_count_le & [ STEM < "recordista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recordista_n_rel" ] ]. recordman_n1 := n_intr_count_le & [ STEM < "recordman" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recordman_n_rel" ] ]. recortable_a1 := a_rel_nonprd_intr_le & [ STEM < "recortable" >, SYNSEM.LKEYS.KEYREL.PRED "_recortable_a_rel" ]. recortable_n1 := n_intr_count_le & [ STEM < "recortable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recortable_n_rel" ] ]. recortablemente_x1 := av_i_spr_le & [ STEM < "recortablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recortablemente_x_rel" ]. recortabordes_n1 := n_intr_count_le & [ STEM < "recortabordes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recortabordes_n_rel" ] ]. recortador_n1 := n_intr_count_le & [ STEM < "recortador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recortador_n_rel" ] ]. recortadora_n1 := n_intr_count_le & [ STEM < "recortadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recortadora_n_rel" ] ]. recortar_v := v_trans_np_le & [ STEM < "recortar" >, SYNSEM.LKEYS.KEYREL.PRED "_recortar_v_rel" ]. recorte_n1 := n_trans_le & [ STEM < "recorte" >, SYNSEM.LKEYS.KEYREL.PRED "_recorte_n_rel" ]. recostar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "recostar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recostar_v_rel" ] ] ]. recostar_v2 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "recostar" >, SYNSEM.LKEYS.KEYREL.PRED "_recostar_v_rel" ]. recoveco_n1 := n_intr_count_le & [ STEM < "recoveco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_recoveco_n_rel" ] ]. recreación_n1 := n_trans_le & [ STEM < "recreación" >, SYNSEM.LKEYS.KEYREL.PRED "_recreación_n_rel" ]. recrear_v1 := v_intr_mrkd_np_le & [ STEM < "recrear" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_recrear_v_rel" ] ]. recrear_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "recrear" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_recrear_v_rel" ] ] ]. recrear_v3 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "recrear" >, SYNSEM.LKEYS [ --COMPKEY con_sel_or_indp_rel, KEYREL.PRED "_recrear_v_rel" ] ]. recrear_v4 := v_pron_intr_mrkd_np_le & [ STEM < "recrear" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_recrear_v_rel" ] ]. recrear_v5 := v_trans_np_le & [ STEM < "recrear" >, SYNSEM.LKEYS.KEYREL.PRED "_recrear_v_rel" ]. recreativo_a1 := a_qual_intr_ser_le & [ STEM < "recreativo" >, SYNSEM.LKEYS.KEYREL.PRED "_recreativo_a_rel" ]. recrecimiento_n1 := n_event-result_intr_le & [ STEM < "recrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_recrecimiento_n_rel" ]. recreo_n1 := n_trans_le & [ STEM < "recreo" >, SYNSEM.LKEYS.KEYREL.PRED "_recreo_n_rel" ]. recriminación_n1 := n_trans_le & [ STEM < "recriminación" >, SYNSEM.LKEYS.KEYREL.PRED "_recriminación_n_rel" ]. recriminador_n1 := n_subj-nom_le & [ STEM < "recriminador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recriminador_n_rel" ] ]. recriminar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "recriminar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_recriminar_v_rel" ] ]. recriminar_v2 := v_ditrans*_le & [ STEM < "recriminar" >, SYNSEM.LKEYS.KEYREL.PRED "_recriminar_v_rel" ]. recriminatorio_a1 := a_qual_intr_ser_le & [ STEM < "recriminatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_recriminatorio_a_rel" ]. recristalización_n1 := n_trans_le & [ STEM < "recristalización" >, SYNSEM.LKEYS.KEYREL.PRED "_recristalización_n_rel" ]. recrudecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "recrudecer" >, SYNSEM.LKEYS.KEYREL.PRED "_recrudecer_v_rel" ]. recrudecer_v2 := v_trans_np_caus_le & [ STEM < "recrudecer" >, SYNSEM.LKEYS.KEYREL.PRED "_recrudecer_v_rel" ]. recrudecimiento_n1 := n_result_intr_le & [ STEM < "recrudecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_recrudecimiento_n_rel" ]. recrudescencia_n1 := n_intr_uncount_le & [ STEM < "recrudescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recrudescencia_n_rel" ] ]. recta_n1 := n_intr_count_le & [ STEM < "recta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_recta_n_rel" ] ]. rectal_a1 := a_rel_nonprd_intr_le & [ STEM < "rectal" >, SYNSEM.LKEYS.KEYREL.PRED "_rectal_a_rel" ]. rectalmente_x1 := av_i_spr_le & [ STEM < "rectalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_rectalmente_x_rel" ]. rectamente_x1 := av_i_spr_le & [ STEM < "rectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rectamente_x_rel" ]. rectangular_a1 := a_qual_intr_ser_le & [ STEM < "rectangular" >, SYNSEM.LKEYS.KEYREL.PRED "_rectangular_a_rel" ]. rectangularidad_n1 := n_intr_uncount_le & [ STEM < "rectangularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rectangularidad_n_rel" ] ]. rectificable_a1 := a_rel_nonprd_intr_le & [ STEM < "rectificable" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificable_a_rel" ]. rectificablemente_x1 := av_i_spr_le & [ STEM < "rectificablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificablemente_x_rel" ]. rectificación_n1 := n_trans_le & [ STEM < "rectificación" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificación_n_rel" ]. rectificado_n1 := n_intr_count_le & [ STEM < "rectificado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rectificado_n_rel" ] ]. rectificador_a1 := a_rel_nonprd_intr_le & [ STEM < "rectificador" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificador_a_rel" ]. rectificador_n1 := n_intr_count_le & [ STEM < "rectificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_rectificador_n_rel" ] ]. rectificadora_n1 := n_intr_count_le & [ STEM < "rectificadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rectificadora_n_rel" ] ]. rectificante_a1 := a_rel_nonprd_intr_le & [ STEM < "rectificante" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificante_a_rel" ]. rectificar_v1 := v_trans_cp_prop_fin_le & [ STEM < "rectificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rectificar_v_rel" ] ]. rectificar_v2 := v_trans_np*_le & [ STEM < "rectificar" >, SYNSEM.LKEYS.KEYREL.PRED "_rectificar_v_rel" ]. rectilíneo_a1 := a_qual_intr_ser_le & [ STEM < "rectilíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_rectilíneo_a_rel" ]. rectitud_n1 := n_ppcomp_mass_le & [ STEM < "rectitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rectitud_n_rel" ] ]. recto_a1 := a_qual_intr_ser_le & [ STEM < "recto" >, SYNSEM.LKEYS.KEYREL.PRED "_recto_a_rel" ]. recto_n1 := n_ppcomp_count_le & [ STEM < "recto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_recto_n_rel" ] ]. rectococcígeo_a1 := a_rel_nonprd_intr_le & [ STEM < "rectococcígeo" >, SYNSEM.LKEYS.KEYREL.PRED "_rectococcígeo_a_rel" ]. rector_a1 := a_rel_nonprd_intr_le & [ STEM < "rector" >, SYNSEM.LKEYS.KEYREL.PRED "_rector_a_rel" ]. rector_n1 := n_intr_count_le & [ STEM < "rector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rector_n_rel" ] ]. rectorado_n1 := n_intr_count_le & [ STEM < "rectorado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rectorado_n_rel" ] ]. rectoría_n1 := n_intr_count_le & [ STEM < "rectoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rectoría_n_rel" ] ]. rectouretral_a1 := a_rel_nonprd_intr_le & [ STEM < "rectouretral" >, SYNSEM.LKEYS.KEYREL.PRED "_rectouretral_a_rel" ]. rectouterino_a1 := a_rel_nonprd_intr_le & [ STEM < "rectouterino" >, SYNSEM.LKEYS.KEYREL.PRED "_rectouterino_a_rel" ]. rectovaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "rectovaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_rectovaginal_a_rel" ]. rectovesical_a1 := a_rel_nonprd_intr_le & [ STEM < "rectovesical" >, SYNSEM.LKEYS.KEYREL.PRED "_rectovesical_a_rel" ]. rectángulo_a1 := a_rel_nonprd_intr_le & [ STEM < "rectángulo" >, SYNSEM.LKEYS.KEYREL.PRED "_rectángulo_a_rel" ]. rectángulo_n1 := n_intr_count_le & [ STEM < "rectángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rectángulo_n_rel" ] ]. rectímetro_n1 := n_intr_count_le & [ STEM < "rectímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rectímetro_n_rel" ] ]. recua_n := n_group_le & [ STEM < "recua" >, SYNSEM.LKEYS.KEYREL.PRED "_recua_n_rel" ]. recuadrar_v := v_trans_np_le & [ STEM < "recuadrar" >, SYNSEM.LKEYS.KEYREL.PRED "_recuadrar_v_rel" ]. recubridor_a1 := a_rel_nonprd_intr_le & [ STEM < "recubridor" >, SYNSEM.LKEYS.KEYREL.PRED "_recubridor_a_rel" ]. recubrimiento_n1 := n_intr_mass_le & [ STEM < "recubrimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recubrimiento_n_rel" ] ]. recuento_n1 := n_trans_le & [ STEM < "recuento" >, SYNSEM.LKEYS.KEYREL.PRED "_recuento_n_rel" ]. reculada_n1 := n_result_intr_le & [ STEM < "reculada" >, SYNSEM.LKEYS.KEYREL.PRED "_reculada_n_rel" ]. recular_v := v_trans_np*_le & [ STEM < "recular" >, SYNSEM.LKEYS.KEYREL.PRED "_recular_v_rel" ]. recuperable_a1 := a_rel_nonprd_intr_le & [ STEM < "recuperable" >, SYNSEM.LKEYS.KEYREL.PRED "_recuperable_a_rel" ]. recuperación_n1 := n_trans_le & [ STEM < "recuperación" >, SYNSEM.LKEYS.KEYREL.PRED "_recuperación_n_rel" ]. recuperador_a1 := a_rel_nonprd_intr_le & [ STEM < "recuperador" >, SYNSEM.LKEYS.KEYREL.PRED "_recuperador_a_rel" ]. recuperador_n1 := n_intr_count_le & [ STEM < "recuperador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_recuperador_n_rel" ] ]. recurrencia_n1 := n_ppcomp_uncount_le & [ STEM < "recurrencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recurrencia_n_rel" ] ]. recurrente_a1 := a_qual_intr_ser_le & [ STEM < "recurrente" >, SYNSEM.LKEYS.KEYREL.PRED "_recurrente_a_rel" ]. recurrentemente_x1 := av_i_spr_le & [ STEM < "recurrentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_recurrentemente_x_rel" ]. recurribilidad_n1 := n_intr_uncount_le & [ STEM < "recurribilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recurribilidad_n_rel" ] ]. recurrible_a1 := a_rel_prd_le & [ STEM < "recurrible" >, SYNSEM.LKEYS.KEYREL.PRED "_recurrible_a_rel" ]. recurrir_v1 := v_intr_mrkd_np_le & [ STEM < "recurrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_recurrir_v_rel" ] ]. recurrir_v2 := v_trans_np_le & [ STEM < "recurrir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_recurrir_v_rel" ] ]. recursivamente_x1 := av_i_spr_le & [ STEM < "recursivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_recursivamente_x_rel" ]. recursividad_n1 := n_ppcomp_mass_le & [ STEM < "recursividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recursividad_n_rel" ] ]. recursivo_a1 := a_qual_intr_ser_le & [ STEM < "recursivo" >, SYNSEM.LKEYS.KEYREL.PRED "_recursivo_a_rel" ]. recursión_n1 := n_intr_count_le & [ STEM < "recursión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recursión_n_rel" ] ]. recurso_n1 := n_intr_count_le & [ STEM < "recurso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_recurso_n_rel" ] ]. recurso_hídrico_n1 := n_intr_count_le & [ STEM < "recurso_hídrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recurso_hídrico_n_rel" ] ]. recusable_a1 := a_rel_prd_le & [ STEM < "recusable" >, SYNSEM.LKEYS.KEYREL.PRED "_recusable_a_rel" ]. recusación_n1 := n_trans_le & [ STEM < "recusación" >, SYNSEM.LKEYS.KEYREL.PRED "_recusación_n_rel" ]. recusante_a1 := a_rel_nonprd_intr_le & [ STEM < "recusante" >, SYNSEM.LKEYS.KEYREL.PRED "_recusante_a_rel" ]. recusante_n1 := n_intr_count_le & [ STEM < "recusante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_recusante_n_rel" ] ]. recusar_v := v_trans_np_le & [ STEM < "recusar" >, SYNSEM.LKEYS.KEYREL.PRED "_recusar_v_rel" ]. recámara_n1 := n_intr_count_le & [ STEM < "recámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_recámara_n_rel" ] ]. recíprocamente_x1 := av_i_le & [ STEM < "recíprocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_recíprocamente_x_rel" ]. recíproco_a1 := a_rel_prd_le & [ STEM < "recíproco" >, SYNSEM.LKEYS.KEYREL.PRED "_recíproco_a_rel" ]. recóndito_a1 := a_qual_intr_ser_le & [ STEM < "recóndito" >, SYNSEM.LKEYS.KEYREL.PRED "_recóndito_a_rel" ]. red_n1 := n_intr_count_le & [ STEM < "red" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_red_n_rel" ] ]. redaccional_a1 := a_rel_nonprd_intr_le & [ STEM < "redaccional" >, SYNSEM.LKEYS.KEYREL.PRED "_redaccional_a_rel" ]. redacción_n1 := n_intr_count_le & [ STEM < "redacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_redacción_n_rel" ] ]. redacción_n2 := n_trans_le & [ STEM < "redacción" >, SYNSEM.LKEYS.KEYREL.PRED "_redacción_n_rel" ]. redactar_v := v_trans_np*_le & [ STEM < "redactar" >, SYNSEM.LKEYS.KEYREL.PRED "_redactar_v_rel" ]. redactor_n1 := n_subj-nom_le & [ STEM < "redactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_redactor_n_rel" ] ]. redada_n1 := n_intr_count_le & [ STEM < "redada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_redada_n_rel" ] ]. redecilla_n1 := n_intr_count_le & [ STEM < "redecilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_redecilla_n_rel" ] ]. redeclaración_n1 := n_trans_le & [ STEM < "redeclaración" >, SYNSEM.LKEYS.KEYREL.PRED "_redeclaración_n_rel" ]. redecoración_n1 := n_trans_le & [ STEM < "redecoración" >, SYNSEM.LKEYS.KEYREL.PRED "_redecoración_n_rel" ]. redefinición_n1 := n_trans_le & [ STEM < "redefinición" >, SYNSEM.LKEYS.KEYREL.PRED "_redefinición_n_rel" ]. redención_n1 := n_trans_le & [ STEM < "redención" >, SYNSEM.LKEYS.KEYREL.PRED "_redención_n_rel" ]. redentor_a1 := a_rel_nonprd_intr_le & [ STEM < "redentor" >, SYNSEM.LKEYS.KEYREL.PRED "_redentor_a_rel" ]. redentor_n1 := n_subj-nom_le & [ STEM < "redentor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_redentor_n_rel" ] ]. redero_n1 := n_intr_count_le & [ STEM < "redero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_redero_n_rel" ] ]. redescubrimiento_n1 := n_trans_le & [ STEM < "redescubrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_redescubrimiento_n_rel" ]. redestilar_v := v_trans_np_le & [ STEM < "redestilar" >, SYNSEM.LKEYS.KEYREL.PRED "_redestilar_v_rel" ]. redhibición_n1 := n_trans_le & [ STEM < "redhibición" >, SYNSEM.LKEYS.KEYREL.PRED "_redhibición_n_rel" ]. redhibir_v := v_trans_np_le & [ STEM < "redhibir" >, SYNSEM.LKEYS.KEYREL.PRED "_redhibir_v_rel" ]. redhibitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "redhibitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_redhibitorio_a_rel" ]. redibujar_v := v_trans_np_le & [ STEM < "redibujar" >, SYNSEM.LKEYS.KEYREL.PRED "_redibujar_v_rel" ]. redifusión_n1 := n_trans_le & [ STEM < "redifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_redifusión_n_rel" ]. redil_n1 := n_intr_count_le & [ STEM < "redil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_redil_n_rel" ] ]. redimible_a1 := a_rel_prd_le & [ STEM < "redimible" >, SYNSEM.LKEYS.KEYREL.PRED "_redimible_a_rel" ]. redimir_v1 := v_pron_intr_le & [ STEM < "redimir" >, SYNSEM.LKEYS.KEYREL.PRED "_redimir_v_rel" ]. redimir_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "redimir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_redimir_v_rel" ] ]. redimir_v3 := v_trans_np_mrkd_np*_le & [ STEM < "redimir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_redimir_v_rel" ] ]. redireccionamiento_n1 := n_trans_le & [ STEM < "redireccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_redireccionamiento_n_rel" ]. redireccionar_v := v_trans_np_lcomp_dir*_le & [ STEM < "redireccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_redireccionar_v_rel" ]. rediseñar_v := v_trans_np_le & [ STEM < "rediseñar" >, SYNSEM.LKEYS.KEYREL.PRED "_rediseñar_v_rel" ]. redisolución_n1 := n_trans_le & [ STEM < "redisolución" >, SYNSEM.LKEYS.KEYREL.PRED "_redisolución_n_rel" ]. redisposición_n1 := n_trans_le & [ STEM < "redisposición" >, SYNSEM.LKEYS.KEYREL.PRED "_redisposición_n_rel" ]. redistribución_n1 := n_trans_le & [ STEM < "redistribución" >, SYNSEM.LKEYS.KEYREL.PRED "_redistribución_n_rel" ]. redistribuir_v1 := v_ditrans_le & [ STEM < "redistribuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_redistribuir_v_rel" ] ]. redistribuir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "redistribuir" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_entre_p_sel_rel, KEYREL [ ARG1.SORT hum_pot_soc, PRED "_redistribuir_v_rel" ] ] ]. redistributivo_a1 := a_rel_nonprd_intr_le & [ STEM < "redistributivo" >, SYNSEM.LKEYS.KEYREL.PRED "_redistributivo_a_rel" ]. redituar_v := v_trans_np_le & [ STEM < "redituar" >, SYNSEM.LKEYS.KEYREL.PRED "_redituar_v_rel" ]. redoma_n1 := n_intr_count_le & [ STEM < "redoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_redoma_n_rel" ] ]. redondeadamente_x1 := av_i_spr_le & [ STEM < "redondeadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_redondeadamente_x_rel" ]. redondear_v := v_trans_np_caus_le & [ STEM < "redondear" >, SYNSEM.LKEYS.KEYREL.PRED "_redondear_v_rel" ]. redondeo_n1 := n_trans_le & [ STEM < "redondeo" >, SYNSEM.LKEYS.KEYREL.PRED "_redondeo_n_rel" ]. redondez_n1 := n_ppcomp_uncount_le & [ STEM < "redondez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_redondez_n_rel" ] ]. redondo_a1 := a_qual_intr_ser_le & [ STEM < "redondo" >, SYNSEM.LKEYS.KEYREL.PRED "_redondo_a_rel" ]. redondo_n1 := n_intr_count_le & [ STEM < "redondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_redondo_n_rel" ] ]. redrutita_n1 := n_intr_count_le & [ STEM < "redrutita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_redrutita_n_rel" ] ]. reducción_n1 := n_trans_le & [ STEM < "reducción" >, SYNSEM.LKEYS.KEYREL.PRED "_reducción_n_rel" ]. reducibilidad_n1 := n_intr_uncount_le & [ STEM < "reducibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reducibilidad_n_rel" ] ]. reducible_a1 := a_qual_trans*_ser_le & [ STEM < "reducible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reducible_a_rel" ] ]. reducidamente_x1 := av_i_spr_le & [ STEM < "reducidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reducidamente_x_rel" ]. reducir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "reducir" >, SYNSEM.LKEYS [ --COMPKEY a_or_en_p_sel_rel, KEYREL.PRED "_reducir_v_rel" ] ]. reducir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "reducir" >, SYNSEM.LKEYS [ --COMPKEY a_or_en_p_sel_rel, KEYREL.PRED "_reducir_v_rel" ] ]. reducir_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "reducir" >, SYNSEM.LKEYS.KEYREL.PRED "_reducir_v_rel" ]. reducir_v4 := v_trans_np_le & [ STEM < "reducir" >, SYNSEM.LKEYS.KEYREL.PRED "_reducir_v_rel" ]. reducir_v5 := v_trans_np_mrkd_cp_prop_fin_le & [ STEM < "reducir" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_en_p_sel_rel, KEYREL.PRED "_reducir_v_rel" ] ]. reducir_v6 := v_trans_np_mrkd_np_le & [ STEM < "reducir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_reducir_v_rel" ] ]. reductasa_n1 := n_intr_count_le & [ STEM < "reductasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_reductasa_n_rel" ] ]. reductibilidad_n1 := n_intr_mass_le & [ STEM < "reductibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reductibilidad_n_rel" ] ]. reductivamente_x1 := av_i_spr_le & [ STEM < "reductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reductivamente_x_rel" ]. reductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "reductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_reductivo_a_rel" ]. reductor_a1 := a_rel_nonprd_intr_le & [ STEM < "reductor" >, SYNSEM.LKEYS.KEYREL.PRED "_reductor_a_rel" ]. reductor_n1 := n_intr_count_le & [ STEM < "reductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reductor_n_rel" ] ]. redundancia_n1 := n_intr_uncount_pl_le & [ STEM < "redundancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_redundancia_n_rel" ] ]. redundante_a1 := a_qual_intr_ser_le & [ STEM < "redundante" >, SYNSEM.LKEYS.KEYREL.PRED "_redundante_a_rel" ]. redundantemente_x1 := av_i_spr_le & [ STEM < "redundantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_redundantemente_x_rel" ]. redundar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "redundar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_redundar_v_rel" ] ]. redundar_v2 := v_intr_mrkd_np_le & [ STEM < "redundar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_redundar_v_rel" ] ]. redundar_v3 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "redundar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_redundar_v_rel" ] ]. reduplicación_n1 := n_trans_le & [ STEM < "reduplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_reduplicación_n_rel" ]. reduplicar_v := v_trans_np_caus_le & [ STEM < "reduplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_reduplicar_v_rel" ]. reduplicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "reduplicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_rduplicativo_a_rel" ]. reedición_n1 := n_trans_le & [ STEM < "reedición" >, SYNSEM.LKEYS.KEYREL.PRED "_reedición_n_rel" ]. reeducación_n1 := n_trans_le & [ STEM < "reeducación" >, SYNSEM.LKEYS.KEYREL.PRED "_reeducación_n_rel" ]. reejecución_n1 := n_trans_le & [ STEM < "reejecución" >, SYNSEM.LKEYS.KEYREL.PRED "_reejecución_n_rel" ]. reembolsable_a1 := a_rel_prd_le & [ STEM < "reembolsable" >, SYNSEM.LKEYS.KEYREL.PRED "_reembolsable_a_rel" ]. reembolsar_v := v_ditrans*_le & [ STEM < "reembolsar" >, SYNSEM.LKEYS.KEYREL.PRED "_reembolsar_v_rel" ]. reembrague_n1 := n_intr_count_le & [ STEM < "reembrague" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reembrague_n_rel" ] ]. reemplazable_a1 := a_rel_prd_le & [ STEM < "reemplazable" >, SYNSEM.LKEYS.KEYREL.PRED "_reemplazable_a_rel" ]. reemplazablemente_x1 := av_i_spr_le & [ STEM < "reemplazablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reemplazablemente_x_rel" ]. reemplazante_a1 := a_rel_nonprd_intr_le & [ STEM < "reemplazante" >, SYNSEM.LKEYS.KEYREL.PRED "_reemplazante_a_rel" ]. reemplazar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "reemplazar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_por_p_sel_rel, KEYREL.PRED "_reemplazar_v_rel" ] ]. reemplazo_n1 := n_trans_le & [ STEM < "reemplazo" >, SYNSEM.LKEYS.KEYREL.PRED "_reemplazo_n_rel" ]. reemplear_v := v_trans_np_le & [ STEM < "reemplear" >, SYNSEM.LKEYS.KEYREL.PRED "_reemplear_v_rel" ]. reempleo_n1 := n_intr_uncount_pl_le & [ STEM < "reempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reempleo_n_rel" ] ]. reencaminamiento_n1 := n_trans_le & [ STEM < "reencaminamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reencaminamiento_n_rel" ]. reencarnación_n1 := n_result_intr_ppcomp_le & [ STEM < "reencarnación" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_reencarnación_n_rel" ] ]. reencendido_n1 := n_trans_le & [ STEM < "reencendido" >, SYNSEM.LKEYS.KEYREL.PRED "_reencendido_n_rel" ]. reencuentro_n1 := n_result_intr_ppcomp_le & [ STEM < "reencuentro" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_reencuentro_n_rel" ] ]. reenfoque_n1 := n_trans_le & [ STEM < "reenfoque" >, SYNSEM.LKEYS.KEYREL.PRED "_reenfoque_n_rel" ]. reenfriador_n1 := n_intr_count_le & [ STEM < "reenfriador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reenfriador_n_rel" ] ]. reenmacetado_n1 := n_trans_le & [ STEM < "reenmacetado" >, SYNSEM.LKEYS.KEYREL.PRED "_reenmacetado_n_rel" ]. reensamblaje_n1 := n_trans_le & [ STEM < "reensamblaje" >, SYNSEM.LKEYS.KEYREL.PRED "_reensamblaje_n_rel" ]. reentrable_a1 := a_rel_nonprd_intr_le & [ STEM < "reentrable" >, SYNSEM.LKEYS.KEYREL.PRED "_reentrable_a_rel" ]. reentrada_n1 := n_trans_le & [ STEM < "reentrada" >, SYNSEM.LKEYS.KEYREL.PRED "_reentrada_n_rel" ]. reentrante_a1 := a_rel_nonprd_intr_le & [ STEM < "reentrante" >, SYNSEM.LKEYS.KEYREL.PRED "_reentrante_a_rel" ]. reentrega_n1 := n_trans_le & [ STEM < "reentrega" >, SYNSEM.LKEYS.KEYREL.PRED "_reentrega_n_rel" ]. reenvío_n1 := n_trans_le & [ STEM < "reenvío" >, SYNSEM.LKEYS.KEYREL.PRED "_reenvío_n_rel" ]. reequilibrar_v := v_trans_np_caus_le & [ STEM < "reequilibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_reequilibrar_v_rel" ]. reequipamiento_n1 := n_trans_le & [ STEM < "reequipamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reequipamiento_n_rel" ]. reescribir_v := v_trans_np_le & [ STEM < "reescribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_reescribir_v_rel" ] ]. reestrenar_v := v_trans_np_le & [ STEM < "reestrenar" >, SYNSEM.LKEYS.KEYREL.PRED "_reestrenar_v_rel" ]. reestructuración_n1 := n_trans_le & [ STEM < "reestructuración" >, SYNSEM.LKEYS.KEYREL.PRED "_reestructuración_n_rel" ]. reestructurar_v := v_trans_np_le & [ STEM < "reestructurar" >, SYNSEM.LKEYS.KEYREL.PRED "_reestructurar_v_rel" ]. reevaluación_n1 := n_trans_le & [ STEM < "reevaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_reevaluación_n_rel" ]. reexportación_n1 := n_trans_le & [ STEM < "reexportación" >, SYNSEM.LKEYS.KEYREL.PRED "_reexportación_n_rel" ]. reextracción_n1 := n_trans_le & [ STEM < "reextracción" >, SYNSEM.LKEYS.KEYREL.PRED "_reextracción_n_rel" ]. refaccionario_a1 := a_rel_nonprd_intr_le & [ STEM < "refaccionario" >, SYNSEM.LKEYS.KEYREL.PRED "_refaccionario_a_rel" ]. refectorio_n1 := n_intr_count_le & [ STEM < "refectorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_refectorio_n_rel" ] ]. referencia_n1 := n_trans_le & [ STEM < "referencia" >, SYNSEM.LKEYS.KEYREL.PRED "_referencia_n_rel" ]. referencial_a1 := a_rel_nonprd_intr_le & [ STEM < "referencial" >, SYNSEM.LKEYS.KEYREL.PRED "_referencial_a_rel" ]. referenciar_v := v_trans_np_le & [ STEM < "referenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_referenciar_v_rel" ]. referente_a1 := a_rel_nonprd_trans_le & [ STEM < "referente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referente_a_rel" ] ]. referente_a2 := a_rel_nonprd_cp_prop_le & [ STEM < "referente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referente_a_rel" ] ]. referente_a3 := a_rel_nonprd_cp_ques_le & [ STEM < "referente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referente_a_rel" ] ]. referente_n1 := n_intr_count_le & [ STEM < "referente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_referente_n_rel" ] ]. referible_a1 := a_qual_trans*_ser_le & [ STEM < "referible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referible_a_rel" ] ]. referir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "referir" >, SYNSEM.LKEYS.KEYREL.PRED "_referir_v_rel" ]. referir_v2 := v_ditrans*_le & [ STEM < "referir" >, SYNSEM.LKEYS.KEYREL.PRED "_referir_v_rel" ]. referir_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "referir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referir_v_rel" ] ]. referir_v4 := v_pron_intr_mrkd_np_le & [ STEM < "referir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_referir_v_rel" ] ]. referir_v5 := v_trans_np_mrkd_np_le & [ STEM < "referir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_referir_v_rel" ] ] ]. referéndum_n1 := n_intr_count_le & [ STEM < "referéndum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_referéndum_n_rel" ] ]. refinación_n1 := n_trans_le & [ STEM < "refinación" >, SYNSEM.LKEYS.KEYREL.PRED "_refinación_n_rel" ]. refinadamente_x1 := av_i_spr_le & [ STEM < "refinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_refinadamente_x_rel" ]. refinado_n1 := n_trans_le & [ STEM < "refinado" >, SYNSEM.LKEYS.KEYREL.PRED "_refinado_n_rel" ]. refinador_n1 := n_intr_count_le & [ STEM < "refinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refinador_n_rel" ] ]. refinamiento_n1 := n_intr_mass_le & [ STEM < "refinamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_refinamiento_n_rel" ] ]. refinanciable_a1 := a_rel_prd_le & [ STEM < "refinanciable" >, SYNSEM.LKEYS.KEYREL.PRED "_refinanciable_a_rel" ]. refinanciación_n1 := n_trans_le & [ STEM < "refinanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_refinanciación_n_rel" ]. refinanciamiento_n1 := n_trans_le & [ STEM < "refinanciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_refinanciamiento_n_rel" ]. refinería_n1 := n_intr_count_le & [ STEM < "refinería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_refinería_n_rel" ] ]. refino_n1 := n_intr_count_le & [ STEM < "refino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_refino_n_rel" ] ]. reflectancia_n1 := n_intr_uncount_le & [ STEM < "reflectancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reflectancia_n_rel" ] ]. reflectante_a1 := a_qual_intr_ser_le & [ STEM < "reflectante" >, SYNSEM.LKEYS.KEYREL.PRED "_reflectante_a_rel" ]. reflectantemente_x1 := av_i_spr_le & [ STEM < "reflectantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reflectantemente_x_rel" ]. reflectividad_n1 := n_intr_uncount_le & [ STEM < "reflectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reflectividad_n_rel" ] ]. reflector_a1 := a_rel_nonprd_intr_le & [ STEM < "reflector" >, SYNSEM.LKEYS.KEYREL.PRED "_reflector_a_rel" ]. reflector_n1 := n_intr_count_le & [ STEM < "reflector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_reflector_n_rel" ] ]. reflectómetro_n1 := n_intr_count_le & [ STEM < "reflectómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reflectómetro_n_rel" ] ]. reflejable_a1 := a_rel_nonprd_intr_le & [ STEM < "reflejable" >, SYNSEM.LKEYS.KEYREL.PRED "_reflejable_a_rel" ]. reflejar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "reflejar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_reflejar_v_rel" ] ] ]. reflejar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "reflejar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_reflejar_v_rel" ] ] ]. reflejar_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "reflejar" >, SYNSEM.LKEYS.KEYREL.PRED "_reflejar_v_rel" ]. reflejar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "reflejar" >, SYNSEM.LKEYS.KEYREL.PRED "_reflejar_v_rel" ]. reflejar_v5 := v_trans_cp_prop_fin_le & [ STEM < "reflejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_reflejar_v_rel" ] ]. reflejar_v6 := v_trans_np_caus_le & [ STEM < "reflejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_reflejar_v_rel" ] ]. reflejo_a1 := a_rel_nonprd_intr_le & [ STEM < "reflejo" >, SYNSEM.LKEYS.KEYREL.PRED "_reflejo_a_rel" ]. reflejo_n1 := n_intr_count_le & [ STEM < "reflejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_reflejo_n_rel" ] ]. reflexionar_v1 := v_intr_mrkd_np_le & [ STEM < "reflexionar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_reflexionar_v_rel" ] ]. reflexionar_v2 := v_trans_cp_prop_fin_le & [ STEM < "reflexionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reflexionar_v_rel" ] ]. reflexionar_v3 := v_trans_np_le & [ STEM < "reflexionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reflexionar_v_rel" ] ]. reflexivamente_x1 := av_i_spr_le & [ STEM < "reflexivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reflexivamente_x_rel" ]. reflexividad_n1 := n_intr_mass_le & [ STEM < "reflexividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reflexividad_n_rel" ] ]. reflexivo_a1 := a_qual_intr_ser_le & [ STEM < "reflexivo" >, SYNSEM.LKEYS.KEYREL.PRED "_reflexivo_a_rel" ]. reflexión_n1 := n_result_intr_ppcomp_le & [ STEM < "reflexión" >, SYNSEM.LKEYS [ --OCOMPKEY _sobre_p_sel_rel, KEYREL.PRED "_reflexión_n_rel" ] ]. reflexología_n1 := n_intr_uncount_le & [ STEM < "reflexología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reflexología_n_rel" ] ]. reforestación_n1 := n_trans_le & [ STEM < "reforestación" >, SYNSEM.LKEYS.KEYREL.PRED "_reforestación_n_rel" ]. reforma_n1 := n_trans_le & [ STEM < "reforma" >, SYNSEM.LKEYS.KEYREL.PRED "_reforma_n_rel" ]. reformación_n1 := n_trans_le & [ STEM < "reformación" >, SYNSEM.LKEYS.KEYREL.PRED "_reformación_n_rel" ]. reformador_n1 := n_intr_count_le & [ STEM < "reformador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reformador_n_rel" ] ]. reformamiento_n1 := n_trans_le & [ STEM < "reformamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reformamiento_n_rel" ]. reformar_v := v_trans_np_le & [ STEM < "reformar" >, SYNSEM.LKEYS.KEYREL.PRED "_reformar_v_rel" ]. reformateado_n1 := n_trans_le & [ STEM < "reformateado" >, SYNSEM.LKEYS.KEYREL.PRED "_reformateado_n_rel" ]. reformateador_n1 := n_intr_count_le & [ STEM < "reformateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_reformateador_n_rel" ] ]. reformatear_v := v_trans_np_le & [ STEM < "reformatear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_pro, PRED "_reformatear_v_rel" ] ]. reformateo_n1 := n_trans_le & [ STEM < "reformateo" >, SYNSEM.LKEYS.KEYREL.PRED "_reformateo_n_rel" ]. reformatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "reformatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_reformatorio_a_rel" ]. reformatorio_n1 := n_intr_count_le & [ STEM < "reformatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_reformatorio_n_rel" ] ]. reformismo_n1 := n_intr_uncount_le & [ STEM < "reformismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reformismo_n_rel" ] ]. reformista_a1 := a_qual_intr_ser_le & [ STEM < "reformista" >, SYNSEM.LKEYS.KEYREL.PRED "_reformista_a_rel" ]. reformista_n1 := n_intr_count_le & [ STEM < "reformista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reformista_n_rel" ] ]. reforzadamente_x1 := av_i_spr_le & [ STEM < "reforzadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzadamente_x_rel" ]. reforzador_a1 := a_rel_nonprd_intr_le & [ STEM < "reforzador" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzador_a_rel" ]. reforzador_n1 := n_intr_count_le & [ STEM < "reforzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reforzador_n_rel" ] ]. reforzamiento_n1 := n_trans_le & [ STEM < "reforzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzamiento_n_rel" ]. reforzante_a1 := a_rel_prd_le & [ STEM < "reforzante" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzante_a_rel" ]. reforzar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "reforzar" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzar_v_rel" ]. reforzar_v2 := v_trans_np_le & [ STEM < "reforzar" >, SYNSEM.LKEYS.KEYREL.PRED "_reforzar_v_rel" ]. refracción_n1 := n_trans_le & [ STEM < "refracción" >, SYNSEM.LKEYS.KEYREL.PRED "_refracción_n_rel" ]. refractar_v1 := v_trans_np_le & [ STEM < "refractar" >, SYNSEM.LKEYS.KEYREL.PRED "_refractar_v_rel" ]. refractar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "refractar" >, SYNSEM.LKEYS.KEYREL.PRED "_refractar_v_rel" ]. refractariamente_x1 := av_i_spr_le & [ STEM < "refractariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_refractariamente_x_rel" ]. refractario_a1 := a_rel_nonprd_intr_le & [ STEM < "refractario" >, SYNSEM.LKEYS.KEYREL.PRED "_refractario_a_rel" ]. refractario_n1 := n_intr_mass-or-count_le & [ STEM < "refractario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_refractario_n_rel" ] ]. refractivamente_x1 := av_i_spr_le & [ STEM < "refractivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_refractivamente_x_rel" ]. refractivo_a1 := a_rel_nonprd_intr_le & [ STEM < "refractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_refractivo_a_rel" ]. refractométricamente_x1 := av_i_spr_le & [ STEM < "refractométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_refractométricamente_x_rel" ]. refractométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "refractométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_refractométrico_a_rel" ]. refractor_n1 := n_intr_count_le & [ STEM < "refractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refractor_n_rel" ] ]. refractómetro_n1 := n_intr_count_le & [ STEM < "refractómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refractómetro_n_rel" ] ]. refranero_n1 := n_intr_coll_le & [ STEM < "refranero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_refranero_n_rel" ] ]. refrangible_a1 := a_rel_nonprd_intr_le & [ STEM < "refrangible" >, SYNSEM.LKEYS.KEYREL.PRED "_refrangible_a_rel" ]. refrangiblemente_x1 := av_i_spr_le & [ STEM < "refrangiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_refrangiblemente_x_rel" ]. refrenar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "refrenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_refrenar_v_rel" ] ]. refrenar_v2 := v_trans_np_le & [ STEM < "refrenar" >, SYNSEM.LKEYS.KEYREL.PRED "_refrenar_v_rel" ]. refrendar_v := v_trans_np_le & [ STEM < "refrendar" >, SYNSEM.LKEYS.KEYREL.PRED "_refrendar_v_rel" ]. refrentadamente_x1 := av_i_spr_le & [ STEM < "refrentadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_refrentadamente_x_rel" ]. refrescante_a1 := a_qual_intr_ser_le & [ STEM < "refrescante" >, SYNSEM.LKEYS.KEYREL.PRED "_refrescante_a_rel" ]. refrescar_v1 := v_impers_strict_intr_le & [ STEM < "refrescar" >, SYNSEM.LKEYS.KEYREL.PRED "_refrescar_v_rel" ]. refrescar_v2 := v_trans_np_le & [ STEM < "refrescar" >, SYNSEM.LKEYS.KEYREL.PRED "_refrescar_v_rel" ]. refresco_n1 := n_intr_count_le & [ STEM < "refresco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refresco_n_rel" ] ]. refrigerable_a1 := a_rel_prd_le & [ STEM < "refrigerable" >, SYNSEM.LKEYS.KEYREL.PRED "_refrigerable_a_rel" ]. refrigeración_n1 := n_trans_le & [ STEM < "refrigeración" >, SYNSEM.LKEYS.KEYREL.PRED "_refrigeración_n_rel" ]. refrigerador_n1 := n_intr_count_le & [ STEM < "refrigerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refrigerador_n_rel" ] ]. refrigeradoramente_x1 := av_i_spr_le & [ STEM < "refrigeradoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_refrigeradoramente_x_rel" ]. refrigerante_a1 := a_rel_nonprd_intr_le & [ STEM < "refrigerante" >, SYNSEM.LKEYS.KEYREL.PRED "_refrigerante_a_rel" ]. refrigerante_n1 := n_intr_mass_le & [ STEM < "refrigerante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refrigerante_n_rel" ] ]. refrigerar_v := v_trans_np_le & [ STEM < "refrigerar" >, SYNSEM.LKEYS.KEYREL.PRED "_refrigerar_v_rel" ]. refrigerio_n1 := n_intr_count_le & [ STEM < "refrigerio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refrigerio_n_rel" ] ]. refrito_n1 := n_intr_count_le & [ STEM < "refrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_refrito_n_rel" ] ]. refrán_n1 := n_intr_count_le & [ STEM < "refrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_refrán_n_rel" ] ]. refugiado_n1 := n_intr_count_le & [ STEM < "refugiado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_refugiado_n_rel" ] ]. refugiar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "refugiar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_refugiar_v_rel" ] ] ]. refugiar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "refugiar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_refugiar_v_rel" ] ] ]. refugiar_v3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "refugiar" >, SYNSEM.LKEYS.KEYREL.PRED "_refugiar_v_rel" ]. refugiar_v4 := v_trans_np_le & [ STEM < "refugiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_loc_soc, ARG2.SORT hum_soc, PRED "_refugiar_v_rel" ] ]. refugio_n1 := n_intr_count_le & [ STEM < "refugio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_refugio_n_rel" ] ]. refulgencia_n1 := n_intr_uncount_le & [ STEM < "refulgencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_refulgencia_n_rel" ] ]. refulgente_a1 := a_qual_intr_ser_le & [ STEM < "refulgente" >, SYNSEM.LKEYS.KEYREL.PRED "_refulgente_a_rel" ]. refundición_n1 := n_trans_le & [ STEM < "refundición" >, SYNSEM.LKEYS.KEYREL.PRED "_refundición_n_rel" ]. refundido_n1 := n_trans_le & [ STEM < "refundido" >, SYNSEM.LKEYS.KEYREL.PRED "_refundido_n_rel" ]. refundir_v := v_trans_np_le & [ STEM < "refundir" >, SYNSEM.LKEYS.KEYREL.PRED "_refundir_v_rel" ]. refunfuñar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "refunfuñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_refunfuñar_v_rel" ] ]. refunfuñar_v2 := v_ditrans*_le & [ STEM < "refunfuñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_refunfuñar_v_rel" ] ]. refunfuñar_v3 := v_intr_le & [ STEM < "refunfuñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_refunfuñar_v_rel" ] ]. refutable_a1 := a_qual_intr_scopal_le & [ STEM < "refutable" >, SYNSEM.LKEYS.KEYREL.PRED "_refutable_a_rel" ]. refutacionismo_n1 := n_intr_uncount_le & [ STEM < "refutacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_refutacionismo_n_rel" ] ]. refutación_n1 := n_result_intr_le & [ STEM < "refutación" >, SYNSEM.LKEYS.KEYREL.PRED "_refutación_n_rel" ]. refutar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "refutar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_refutar_v_rel" ] ]. refutar_v2 := v_ditrans*_le & [ STEM < "refutar" >, SYNSEM.LKEYS.KEYREL.PRED "_refutar_v_rel" ]. regable_a1 := a_rel_prd_le & [ STEM < "regable" >, SYNSEM.LKEYS.KEYREL.PRED "_regable_a_rel" ]. regadera_n1 := n_intr_count_le & [ STEM < "regadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regadera_n_rel" ] ]. regadora_n1 := n_intr_count_le & [ STEM < "regadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_regadora_n_rel" ] ]. regadío_n1 := n_intr_count_le & [ STEM < "regadío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regadío_n_rel" ] ]. regajo_n1 := n_intr_count_le & [ STEM < "regajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_regajo_n_rel" ] ]. regalar_v := v_ditrans*_le & [ STEM < "regalar" >, SYNSEM.LKEYS.KEYREL.PRED "_regalar_v_rel" ]. regalicia_n1 := n_intr_count_le & [ STEM < "regalicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regalicia_n_rel" ] ]. regalismo_n1 := n_intr_uncount_le & [ STEM < "regalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regalismo_n_rel" ] ]. regaliz_n1 := n_intr_mass_le & [ STEM < "regaliz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regaliz_n_rel" ] ]. regaliza_n1 := n_intr_mass_le & [ STEM < "regaliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regaliza_n_rel" ] ]. regalo_n1 := n_intr_count_le & [ STEM < "regalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regalo_n_rel" ] ]. regalía_n1 := n_intr_uncount_pl_le & [ STEM < "regalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regalía_n_rel" ] ]. regante_n1 := n_intr_count_le & [ STEM < "regante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regante_n_rel" ] ]. regar_v := v_trans_np_le & [ STEM < "regar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, ARG2.SORT ani_cnc_loc, PRED "_regar_v_rel" ] ]. regasificación_n1 := n_trans_le & [ STEM < "regasificación" >, SYNSEM.LKEYS.KEYREL.PRED "_regasificación_n_rel" ]. regata_n1 := n_intr_count_le & [ STEM < "regata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_regata_n_rel" ] ]. regate_n1 := n_result_intr_le & [ STEM < "regate" >, SYNSEM.LKEYS.KEYREL.PRED "_regate_n_rel" ]. regateador_n1 := n_subj-nom_le & [ STEM < "regateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regateador_n_rel" ] ]. regatear_v := v_trans_np_le & [ STEM < "regatear" >, SYNSEM.LKEYS.KEYREL.PRED "_regatear_v_rel" ]. regateo_n1 := n_trans_le & [ STEM < "regateo" >, SYNSEM.LKEYS.KEYREL.PRED "_regateo_n_rel" ]. regatista_n1 := n_intr_count_le & [ STEM < "regatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regatista_n_rel" ] ]. regato_n1 := n_intr_count_le & [ STEM < "regato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regato_n_rel" ] ]. regatón_n1 := n_intr_count_le & [ STEM < "regatón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regatón_n_rel" ] ]. regazo_n1 := n_intr_count_le & [ STEM < "regazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regazo_n_rel" ] ]. regañar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "regañar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_regañar_v_rel" ] ]. regañar_v2 := v_ditrans*_le & [ STEM < "regañar" >, SYNSEM.LKEYS.KEYREL.PRED "_regañar_v_rel" ]. regañón_a1 := a_qual_intr_ser_le & [ STEM < "regañón" >, SYNSEM.LKEYS.KEYREL.PRED "_regañón_a_rel" ]. regencia_n1 := n_trans_le & [ STEM < "regencia" >, SYNSEM.LKEYS.KEYREL.PRED "_regencia_n_rel" ]. regeneracionismo_n1 := n_intr_uncount_le & [ STEM < "regeneracionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regeneracionismo_n_rel" ] ]. regeneracionista_n1 := n_intr_count_le & [ STEM < "regeneracionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regeneracionista_n_rel" ] ]. regeneración_n1 := n_trans_le & [ STEM < "regeneración" >, SYNSEM.LKEYS.KEYREL.PRED "_regeneración_n_rel" ]. regenerador_a1 := a_rel_nonprd_intr_le & [ STEM < "regenerador" >, SYNSEM.LKEYS.KEYREL.PRED "_regenerador_a_rel" ]. regenerador_n1 := n_intr_count_le & [ STEM < "regenerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regenerador_n_rel" ] ]. regeneradoramente_x1 := av_i_spr_le & [ STEM < "regeneradoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_regeneradoramente_x_rel" ]. regenerar_v := v_trans_np_caus_le & [ STEM < "regenerar" >, SYNSEM.LKEYS.KEYREL.PRED "_regenerar_v_rel" ]. regenerativamente_x1 := av_i_spr_le & [ STEM < "regenerativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_regenerativamente_x_rel" ]. regenerativo_a1 := a_rel_nonprd_intr_le & [ STEM < "regenerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_regenerativo_a_rel" ]. regentar_v := v_trans_np_le & [ STEM < "regentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_regentar_v_rel" ] ]. regente_a1 := a_rel_nonprd_intr_le & [ STEM < "regente" >, SYNSEM.LKEYS.KEYREL.PRED "_regente_a_rel" ]. regente_n1 := n_intr_count_le & [ STEM < "regente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regente_n_rel" ] ]. regidor_n1 := n_subj-nom_le & [ STEM < "regidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regidor_n_rel" ] ]. regimental_a1 := a_rel_nonprd_intr_le & [ STEM < "regimental" >, SYNSEM.LKEYS.KEYREL.PRED "_regimental_a_rel" ]. regimiento_n1 := n_intr_coll_le & [ STEM < "regimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_regimiento_n_rel" ] ]. regio_a1 := a_rel_nonprd_intr_le & [ STEM < "regio" >, SYNSEM.LKEYS.KEYREL.PRED "_regio_a_rel" ]. regional_a1 := a_rel_nonprd_intr_le & [ STEM < "regional" >, SYNSEM.LKEYS.KEYREL.PRED "_regional_a_rel" ]. regionalidad_n1 := n_intr_uncount_le & [ STEM < "regionalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regionalidad_n_rel" ] ]. regionalismo_n1 := n_intr_mass-or-count_le & [ STEM < "regionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regionalismo_n_rel" ] ]. regionalista_a1 := a_rel_nonprd_intr_le & [ STEM < "regionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_regionalista_a_rel" ]. regionalista_n1 := n_intr_count_le & [ STEM < "regionalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_regionalista_n_rel" ] ]. regionalización_n1 := n_trans_le & [ STEM < "regionalización" >, SYNSEM.LKEYS.KEYREL.PRED "_regionalización_n_rel" ]. regionalmente_x1 := av_i_spr_le & [ STEM < "regionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_regionalmente_x_rel" ]. regir_v := v_trans_np*_le & [ STEM < "regir" >, SYNSEM.LKEYS.KEYREL.PRED "_regir_v_rel" ]. registrable_a1 := a_rel_nonprd_intr_le & [ STEM < "registrable" >, SYNSEM.LKEYS.KEYREL.PRED "_registrable_a_rel" ]. registrador_a1 := a_rel_nonprd_intr_le & [ STEM < "registrador" >, SYNSEM.LKEYS.KEYREL.PRED "_registrador_a_rel" ]. registrador_n1 := n_intr_count_le & [ STEM < "registrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_registrador_n_rel" ] ]. registrador_n2 := n_subj-nom_le & [ STEM < "registrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_registrador_n_rel" ] ]. registral_a1 := a_rel_nonprd_intr_le & [ STEM < "registral" >, SYNSEM.LKEYS.KEYREL.PRED "_registral_a_rel" ]. registrante_n1 := n_intr_count_le & [ STEM < "registrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_registrante_n_rel" ] ]. registro_n1 := n_intr_count_le & [ STEM < "registro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_registro_n_rel" ] ]. región_n1 := n_intr_count_le & [ STEM < "región" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_región_n_rel" ] ]. regla_n1 := n_intr_count_le & [ STEM < "regla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_regla_n_rel" ] ]. reglable_a1 := a_rel_nonprd_intr_le & [ STEM < "reglable" >, SYNSEM.LKEYS.KEYREL.PRED "_reglable_a_rel" ]. reglaje_n1 := n_trans_le & [ STEM < "reglaje" >, SYNSEM.LKEYS.KEYREL.PRED "_reglaje_n_rel" ]. reglamentación_n1 := n_trans_le & [ STEM < "reglamentación" >, SYNSEM.LKEYS.KEYREL.PRED "_reglamentación_n_rel" ]. reglamentariamente_x1 := av_i_spr_le & [ STEM < "reglamentariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reglamentariamente_x_rel" ]. reglamentario_a1 := a_rel_nonprd_intr_le & [ STEM < "reglamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_reglamentario_a_rel" ]. reglamento_n1 := n_intr_count_le & [ STEM < "reglamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_reglamento_n_rel" ] ]. regleta_n1 := n_intr_count_le & [ STEM < "regleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regleta_n_rel" ] ]. regocijar_v1 := v_intr_io*_le & [ STEM < "regocijar" >, SYNSEM.LKEYS.KEYREL.PRED "_regocijar_v_rel" ]. regocijar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "regocijar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_regocijar_v_rel" ] ] ]. regocijar_v3 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "regocijar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_regocijar_v_rel" ] ] ]. regocijar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "regocijar" >, SYNSEM.LKEYS.KEYREL.PRED "_regocijar_v_rel" ]. regodear_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "regodear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_regodear_v_rel" ] ] ]. regodear_v2 := v_pron_intr_mrkd_np_le & [ STEM < "regodear" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_regodear_v_rel" ] ] ]. regoldo_n1 := n_intr_count_le & [ STEM < "regoldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_regoldo_n_rel" ] ]. regolfo_n1 := n_intr_mass_le & [ STEM < "regolfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_regolfo_n_rel" ] ]. regolita_n1 := n_intr_mass_le & [ STEM < "regolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_regolita_n_rel" ] ]. regolito_n1 := n_intr_count_le & [ STEM < "regolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_regolito_n_rel" ] ]. regordete_a1 := a_qual_intr_scopal_le & [ STEM < "regordete" >, SYNSEM.LKEYS.KEYREL.PRED "_regordete_a_rel" ]. regosol_n1 := n_intr_count_le & [ STEM < "regosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_regosol_n_rel" ] ]. regosuelo_n1 := n_intr_mass_le & [ STEM < "regosuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_regosuelo_n_rel" ] ]. regrabación_n1 := n_trans_le & [ STEM < "regrabación" >, SYNSEM.LKEYS.KEYREL.PRED "_regrabación_n_rel" ]. regresar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "regresar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_regresar_v_rel" ] ] ]. regresar_v2 := v_intr_mrkd_np_le & [ STEM < "regresar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_regresar_v_rel" ] ] ]. regresar_v3 := v_unacc_lcomp_dir*_le & [ STEM < "regresar" >, SYNSEM.LKEYS.KEYREL.PRED "_regresar_v_rel" ]. regresividad_n1 := n_intr_uncount_le & [ STEM < "regresividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regresividad_n_rel" ] ]. regresivo_a1 := a_rel_nonprd_intr_le & [ STEM < "regresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_regresivo_a_rel" ]. regresión_n1 := n_trans_le & [ STEM < "regresión" >, SYNSEM.LKEYS.KEYREL.PRED "_regresión_n_rel" ]. regreso_n1 := n_event-result_intr_le & [ STEM < "regreso" >, SYNSEM.LKEYS.KEYREL.PRED "_regreso_n_rel" ]. reguera_n1 := n_intr_count_le & [ STEM < "reguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reguera_n_rel" ] ]. reguero_n1 := n_intr_count_le & [ STEM < "reguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reguero_n_rel" ] ]. regulable_a1 := a_rel_prd_le & [ STEM < "regulable" >, SYNSEM.LKEYS.KEYREL.PRED "_regulable_a_rel" ]. regulación_n1 := n_trans_le & [ STEM < "regulación" >, SYNSEM.LKEYS.KEYREL.PRED "_regulación_n_rel" ]. regulador_a1 := a_rel_nonprd_intr_le & [ STEM < "regulador" >, SYNSEM.LKEYS.KEYREL.PRED "_regulador_a_rel" ]. regulador_n1 := n_intr_count_le & [ STEM < "regulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_regulador_n_rel" ] ]. regular_a1 := a_qual_intr_ser_le & [ STEM < "regular" >, SYNSEM.LKEYS.KEYREL.PRED "_regular_a_rel" ]. regular_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "regular" >, SYNSEM.LKEYS.KEYREL.PRED "_regular_v_rel" ]. regular_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "regular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_regular_v_rel" ] ]. regular_v3 := v_trans_np_caus_le & [ STEM < "regular" >, SYNSEM.LKEYS.KEYREL.PRED "_regular_v_rel" ]. regularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "regularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regularidad_n_rel" ] ]. regularización_n1 := n_trans_le & [ STEM < "regularización" >, SYNSEM.LKEYS.KEYREL.PRED "_regularización_n_rel" ]. regularizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "regularizar" >, SYNSEM.LKEYS.KEYREL.PRED "_regularizar_v_rel" ]. regularizar_v2 := v_trans_np_le & [ STEM < "regularizar" >, SYNSEM.LKEYS.KEYREL.PRED "_regularizar_v_rel" ]. regularmente_x1 := av_i_spr_le & [ STEM < "regularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_regularmente_x_rel" ]. regularímetro_n1 := n_intr_count_le & [ STEM < "regularímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_regularímetro_n_rel" ] ]. regurgitación_n1 := n_event-result_intr_le & [ STEM < "regurgitación" >, SYNSEM.LKEYS.KEYREL.PRED "_regurgitación_n_rel" ]. regurgitar_v := v_trans_np_le & [ STEM < "regurgitar" >, SYNSEM.LKEYS.KEYREL.PRED "_regurgitar_v_rel" ]. rehabilitación_n1 := n_trans_le & [ STEM < "rehabilitación" >, SYNSEM.LKEYS.KEYREL.PRED "_rehabilitación_n_rel" ]. rehabilitar_v := v_trans_np_le & [ STEM < "rehabilitar" >, SYNSEM.LKEYS.KEYREL.PRED "_rehabilitar_v_rel" ]. rehidratación_n1 := n_trans_le & [ STEM < "rehidratación" >, SYNSEM.LKEYS.KEYREL.PRED "_rehidratación_n_rel" ]. rehuir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "rehuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rehuir_v_rel" ] ]. rehuir_v2 := v_trans_np_le & [ STEM < "rehuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rehuir_v_rel" ] ]. rehusar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "rehusar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_rehusar_v_rel" ] ]. rehusar_v2 := v_intr_mrkd_np_le & [ STEM < "rehusar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_rehusar_v_rel" ] ]. rehusar_v3 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "rehusar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rehusar_v_rel" ] ]. rehusar_v4 := v_ditrans*_le & [ STEM < "rehusar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rehusar_v_rel" ] ]. rehén_n1 := n_intr_count_le & [ STEM < "rehén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rehén_n_rel" ] ]. reificación_n1 := n_trans_le & [ STEM < "reificación" >, SYNSEM.LKEYS.KEYREL.PRED "_reificación_n_rel" ]. reimantación_n1 := n_trans_le & [ STEM < "reimantación" >, SYNSEM.LKEYS.KEYREL.PRED "_reimantación_n_rel" ]. reimplantación_n1 := n_trans_le & [ STEM < "reimplantación" >, SYNSEM.LKEYS.KEYREL.PRED "_reimplantación_n_rel" ]. reimplementación_n1 := n_trans_le & [ STEM < "reimplementación" >, SYNSEM.LKEYS.KEYREL.PRED "_reimplementación_n_rel" ]. reimportación_n1 := n_trans_le & [ STEM < "reimportación" >, SYNSEM.LKEYS.KEYREL.PRED "_reimportación_n_rel" ]. reimpresión_n1 := n_intr_count_le & [ STEM < "reimpresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_reimpresión_n_rel" ] ]. reimprimir_v := v_trans_np_le & [ STEM < "reimprimir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_reimprimir_v_rel" ] ]. reina_n1 := n_intr_count_le & [ STEM < "reina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reina_n_rel" ] ]. reinado_n1 := n_intr_count_le & [ STEM < "reinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reinado_n_rel" ] ]. reinante_a1 := a_rel_nonprd_intr_le & [ STEM < "reinante" >, SYNSEM.LKEYS.KEYREL.PRED "_reinante_a_rel" ]. reincidencia_n1 := n_intr_count_le & [ STEM < "reincidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reincidencia_n_rel" ] ]. reincidente_a1 := a_rel_nonprd_intr_le & [ STEM < "reincidente" >, SYNSEM.LKEYS.KEYREL.PRED "_reincidente_a_rel" ]. reincidente_n1 := n_intr_count_le & [ STEM < "reincidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reincidente_n_rel" ] ]. reingeniería_n1 := n_intr_uncount_le & [ STEM < "reingeniería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reingeniería_n_rel" ] ]. reinicialización_n1 := n_trans_le & [ STEM < "reinicialización" >, SYNSEM.LKEYS.KEYREL.PRED "_reinicialización_n_rel" ]. reinicializar_v := v_trans_np_le & [ STEM < "reinicializar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_pro_soc, PRED "_reinicializar_v_rel" ] ]. reinicio_n1 := n_trans_le & [ STEM < "reinicio" >, SYNSEM.LKEYS.KEYREL.PRED "_reinicio_n_rel" ]. reinmunización_n1 := n_trans_le & [ STEM < "reinmunización" >, SYNSEM.LKEYS.KEYREL.PRED "_reinmunización_n_rel" ]. reino_n1 := n_intr_count_le & [ STEM < "reino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_reino_n_rel" ] ]. reinserción_n1 := n_trans_le & [ STEM < "reinserción" >, SYNSEM.LKEYS.KEYREL.PRED "_reinserción_n_rel" ]. reinstalación_n1 := n_trans_le & [ STEM < "reinstalación" >, SYNSEM.LKEYS.KEYREL.PRED "_reinstalación_n_rel" ]. reinstauración_n1 := n_trans_le & [ STEM < "reinstauración" >, SYNSEM.LKEYS.KEYREL.PRED "_reinstauración_n_rel" ]. reintegrable_a1 := a_rel_nonprd_intr_le & [ STEM < "reintegrable" >, SYNSEM.LKEYS.KEYREL.PRED "_reintegrable_a_rel" ]. reintegración_n1 := n_trans_le & [ STEM < "reintegración" >, SYNSEM.LKEYS.KEYREL.PRED "_reintegración_n_rel" ]. reinterpretación_n1 := n_trans_le & [ STEM < "reinterpretación" >, SYNSEM.LKEYS.KEYREL.PRED "_reinterpretación_n_rel" ]. reinventar_v := v_trans_np_le & [ STEM < "reinventar" >, SYNSEM.LKEYS.KEYREL.PRED "_reinventar_v_rel" ]. reinversión_n1 := n_result_intr_ppcomp_le & [ STEM < "reinversión" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_reinversión_n_rel" ] ]. reiteración_n1 := n_trans_le & [ STEM < "reiteración" >, SYNSEM.LKEYS.KEYREL.PRED "_reiteración_n_rel" ]. reiteradamente_x1 := av_i_spr_le & [ STEM < "reiteradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reiteradamente_x_rel" ]. reiterar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "reiterar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reiterar_v_rel" ] ]. reiterar_v2 := v_ditrans*_le & [ STEM < "reiterar" >, SYNSEM.LKEYS.KEYREL.PRED "_reiterar_v_rel" ]. reiterativo_a1 := a_qual_intr_ser_le & [ STEM < "reiterativo" >, SYNSEM.LKEYS.KEYREL.PRED "_reiterativo_a_rel" ]. reivindicable_a1 := a_rel_prd_le & [ STEM < "reivindicable" >, SYNSEM.LKEYS.KEYREL.PRED "_reivindicable_a_rel" ]. reivindicación_n1 := n_trans_le & [ STEM < "reivindicación" >, SYNSEM.LKEYS.KEYREL.PRED "_reivindicación_n_rel" ]. reivindicar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "reivindicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reivindicar_v_rel" ] ]. reivindicar_v2 := v_trans_np_le & [ STEM < "reivindicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_reivindicar_v_rel" ] ]. reivindicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "reivindicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_reivindicativo_a_rel" ]. reja_n1 := n_intr_count_le & [ STEM < "reja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reja_n_rel" ] ]. rejilla_n1 := n_intr_count_le & [ STEM < "rejilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_rejilla_n_rel" ] ]. rejuvenecer_v1 := v_intr_io*_le & [ STEM < "rejuvenecer" >, SYNSEM.LKEYS.KEYREL.PRED "_rejuvenecer_v_rel" ]. rejuvenecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "rejuvenecer" >, SYNSEM.LKEYS.KEYREL.PRED "_rejuvenecer_v_rel" ]. rejuvenecimiento_n1 := n_trans_le & [ STEM < "rejuvenecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rejuvenecimiento_n_rel" ]. rejón_n1 := n_intr_count_le & [ STEM < "rejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rejón_n_rel" ] ]. relacional_a1 := a_rel_nonprd_intr_le & [ STEM < "relacional" >, SYNSEM.LKEYS.KEYREL.PRED "_relacional_a_rel" ]. relacionalmente_x1 := av_i_spr_le & [ STEM < "relacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_relacionalmente_x_rel" ]. relacionar_v1 := v_intr_mrkd_np_le & [ STEM < "relacionar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_relacionar_v_rel" ] ]. relacionar_v2 := v_pron_intr_mrkd_cp_prop_fin_ind_le & [ STEM < "relacionar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_relacionar_v_rel" ] ]. relacionar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "relacionar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_relacionar_v_rel" ] ]. relacionar_v4 := v_trans_np_mrkd_np_sym_le & [ STEM < "relacionar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_relacionar_v_rel" ] ]. relación_n1 := n_intr_count_le & [ STEM < "relación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relación_n_rel" ] ]. relajación_n1 := n_trans_le & [ STEM < "relajación" >, SYNSEM.LKEYS.KEYREL.PRED "_relajación_n_rel" ]. relajamiento_n1 := n_trans_le & [ STEM < "relajamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_relajamiento_n_rel" ]. relajante_a1 := a_qual_intr_ser_le & [ STEM < "relajante" >, SYNSEM.LKEYS.KEYREL.PRED "_relajante_a_rel" ]. relajar_v1 := v_intr_io*_le & [ STEM < "relajar" >, SYNSEM.LKEYS.KEYREL.PRED "_relajar_v_rel" ]. relajar_v2 := v_pron_intr_le & [ STEM < "relajar" >, SYNSEM.LKEYS.KEYREL.PRED "_relajar_v_rel" ]. relajar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "relajar" >, SYNSEM.LKEYS.KEYREL.PRED "_relajar_v_rel" ]. relampagueante_a1 := a_qual_intr_ser_le & [ STEM < "relampagueante" >, SYNSEM.LKEYS.KEYREL.PRED "_relampagueante_a_rel" ]. relampaguear_v := v_impers_strict_intr_le & [ STEM < "relampaguear" >, SYNSEM.LKEYS.KEYREL.PRED "_relampaguear_v_rel" ]. relanzamiento_n1 := n_trans_le & [ STEM < "relanzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_relanzamiento_n_rel" ]. relata_réfero_x1 := av_i_le & [ STEM < "relata_réfero" >, SYNSEM.LKEYS.KEYREL.PRED "_relata_réfero_x_rel" ]. relatar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "relatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_relatar_v_rel" ] ]. relatar_v2 := v_ditrans*_le & [ STEM < "relatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT abs_pro_sem, PRED "_relatar_v_rel" ] ]. relativamente_x1 := av_deg_le & [ STEM < "relativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_relativamente_x_rel" ]. relatividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "relatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relatividad_n_rel" ] ]. relativismo_n1 := n_intr_uncount_le & [ STEM < "relativismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relativismo_n_rel" ] ]. relativista_a1 := a_qual_intr_ser_le & [ STEM < "relativista" >, SYNSEM.LKEYS.KEYREL.PRED "_relativista_a_rel" ]. relativización_n1 := n_trans_le & [ STEM < "relativización" >, SYNSEM.LKEYS.KEYREL.PRED "_relativización_n_rel" ]. relativizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "relativizar" >, SYNSEM.LKEYS.KEYREL.PRED "_relativizar_v_rel" ]. relativizar_v2 := v_trans_np_le & [ STEM < "relativizar" >, SYNSEM.LKEYS.KEYREL.PRED "_relativizar_v_rel" ]. relativo_a1 := a_qual_trans*_ser_le & [ STEM < "relativo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_relativo_a_rel" ] ]. relato_n1 := n_intr_count_le & [ STEM < "relato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_relato_n_rel" ] ]. relator_n1 := n_subj-nom_le & [ STEM < "relator" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_relator_n_rel" ] ]. release_n1 := n_intr_count_le & [ STEM < "release" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_release_n_rel" ] ]. releer_v := v_trans_np*_le & [ STEM < "releer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_sem_soc, ARG2.SORT abs_pro_sem, PRED "_releer_v_rel" ] ]. relegación_n1 := n_trans_le & [ STEM < "relegación" >, SYNSEM.LKEYS.KEYREL.PRED "_relegación_n_rel" ]. relegar_v := v_trans_np_le & [ STEM < "relegar" >, SYNSEM.LKEYS.KEYREL.PRED "_relegar_v_rel" ]. relevación_n1 := n_trans_le & [ STEM < "relevación" >, SYNSEM.LKEYS.KEYREL.PRED "_relevación_n_rel" ]. relevador_n1 := n_intr_count_le & [ STEM < "relevador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_relevador_n_rel" ] ]. relevancia_n1 := n_intr_mass_le & [ STEM < "relevancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relevancia_n_rel" ] ]. relevante_a1 := a_qual_intr_ser_le & [ STEM < "relevante" >, SYNSEM.LKEYS.KEYREL.PRED "_relevante_a_rel" ]. relevista_n1 := n_intr_count_le & [ STEM < "relevista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_relevista_n_rel" ] ]. relevo_n1 := n_trans_le & [ STEM < "relevo" >, SYNSEM.LKEYS.KEYREL.PRED "_relevo_n_rel" ]. relicto_a1 := a_rel_nonprd_intr_le & [ STEM < "relicto" >, SYNSEM.LKEYS.KEYREL.PRED "_relicto_a_rel" ]. relieve_n1 := n_intr_mass_le & [ STEM < "relieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_relieve_n_rel" ] ]. religiosamente_x1 := av_i_spr_le & [ STEM < "religiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_religiosamente_x_rel" ]. religiosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "religiosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_religiosidad_n_rel" ] ]. religioso_a1 := a_qual_intr_ser_le & [ STEM < "religioso" >, SYNSEM.LKEYS.KEYREL.PRED "_religioso_a_rel" ]. religioso_n1 := n_intr_count_le & [ STEM < "religioso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_religioso_n_rel" ] ]. religión_n1 := n_intr_count_le & [ STEM < "religión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_religión_n_rel" ] ]. relinchar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "relinchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_relinchar_v_rel" ] ]. relinchar_v2 := v_ditrans*_le & [ STEM < "relinchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_relinchar_v_rel" ] ]. relinchar_v3 := v_intr_le & [ STEM < "relinchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_relinchar_v_rel" ] ]. relinga_n1 := n_intr_count_le & [ STEM < "relinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_relinga_n_rel" ] ]. reliquia_n1 := n_intr_count_le & [ STEM < "reliquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reliquia_n_rel" ] ]. rellamada_n1 := n_trans_le & [ STEM < "rellamada" >, SYNSEM.LKEYS.KEYREL.PRED "_rellamada_n_rel" ]. rellenable_a1 := a_rel_prd_le & [ STEM < "rellenable" >, SYNSEM.LKEYS.KEYREL.PRED "_rellenable_a_rel" ]. rellenado_n1 := n_trans_le & [ STEM < "rellenado" >, SYNSEM.LKEYS.KEYREL.PRED "_rellenado_n_rel" ]. rellenador_n1 := n_intr_count_le & [ STEM < "rellenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rellenador_n_rel" ] ]. relleno_a1 := a_qual_trans*_estar_le & [ STEM < "relleno" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_relleno_a_rel" ] ]. relleno_n1 := n_intr_count_le & [ STEM < "relleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_relleno_n_rel" ] ]. relocalizable_a1 := a_rel_nonprd_intr_le & [ STEM < "relocalizable" >, SYNSEM.LKEYS.KEYREL.PRED "_relocalizable_a_rel" ]. relocalización_n1 := n_trans_le & [ STEM < "relocalización" >, SYNSEM.LKEYS.KEYREL.PRED "_relocalización_n_rel" ]. reloj_n1 := n_intr_count_le & [ STEM < "reloj" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_reloj_n_rel" ] ]. relojero_n1 := n_intr_count_le & [ STEM < "relojero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_relojero_n_rel" ] ]. relojería_n1 := n_intr_count_le & [ STEM < "relojería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relojería_n_rel" ] ]. reluciente_a1 := a_qual_intr_scopal_le & [ STEM < "reluciente" >, SYNSEM.LKEYS.KEYREL.PRED "_reluciente_a_rel" ]. relucir_v := v_intr_le & [ STEM < "relucir" >, SYNSEM.LKEYS.KEYREL.PRED "_relucir_v_rel" ]. reluctancia_n1 := n_intr_uncount_le & [ STEM < "reluctancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reluctancia_n_rel" ] ]. reluctividad_n1 := n_intr_mass_le & [ STEM < "reluctividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reluctividad_n_rel" ] ]. relámpago_n1 := n_intr_count_le & [ STEM < "relámpago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_relámpago_n_rel" ] ]. relé_n1 := n_intr_count_le & [ STEM < "relé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_relé_n_rel" ] ]. remachado_n1 := n_trans_le & [ STEM < "remachado" >, SYNSEM.LKEYS.KEYREL.PRED "_remachado_n_rel" ]. remachador_a1 := a_rel_nonprd_intr_le & [ STEM < "remachador" >, SYNSEM.LKEYS.KEYREL.PRED "_remachador_a_rel" ]. remachador_n1 := n_intr_count_le & [ STEM < "remachador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_remachador_n_rel" ] ]. remachadora_n1 := n_intr_count_le & [ STEM < "remachadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remachadora_n_rel" ] ]. remachar_v := v_trans_np_le & [ STEM < "remachar" >, SYNSEM.LKEYS.KEYREL.PRED "_remachar_v_rel" ]. remache_n1 := n_intr_count_le & [ STEM < "remache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remache_n_rel" ] ]. remador_n1 := n_subj-nom_le & [ STEM < "remador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_remador_n_rel" ] ]. remagnetización_n1 := n_trans_le & [ STEM < "remagnetización" >, SYNSEM.LKEYS.KEYREL.PRED "_remagnetización_n_rel" ]. remanencia_n1 := n_intr_uncount_le & [ STEM < "remanencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remanencia_n_rel" ] ]. remanente_a1 := a_rel_nonprd_intr_le & [ STEM < "remanente" >, SYNSEM.LKEYS.KEYREL.PRED "_remanente_a_rel" ]. remanentemente_x1 := av_i_spr_le & [ STEM < "remanentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_remanentemente_x_rel" ]. remar_v := v_trans_np*_le & [ STEM < "remar" >, SYNSEM.LKEYS.KEYREL.PRED "_remar_v_rel" ]. remarcable_a1 := a_qual_intr_ser_le & [ STEM < "remarcable" >, SYNSEM.LKEYS.KEYREL.PRED "_remarcable_a_rel" ]. remarcar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "remarcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_remarcar_v_rel" ] ]. remarcar_v2 := v_trans_np_le & [ STEM < "remarcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_remarcar_v_rel" ] ]. rematador_n1 := n_subj-nom_le & [ STEM < "rematador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rematador_n_rel" ] ]. rematar_v := v_trans_np_le & [ STEM < "rematar" >, SYNSEM.LKEYS.KEYREL.PRED "_rematar_v_rel" ]. remediable_a1 := a_rel_nonprd_intr_le & [ STEM < "remediable" >, SYNSEM.LKEYS.KEYREL.PRED "_remediable_a_rel" ]. remediar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "remediar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_remediar_v_rel" ] ]. remediar_v2 := v_intr_mrkd_np_le & [ STEM < "remediar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_remediar_v_rel" ] ]. remediar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "remediar" >, SYNSEM.LKEYS.KEYREL.PRED "_remediar_v_rel" ]. remediar_v4 := v_trans_np_le & [ STEM < "remediar" >, SYNSEM.LKEYS.KEYREL.PRED "_remediar_v_rel" ]. rememoración_n1 := n_trans_le & [ STEM < "rememoración" >, SYNSEM.LKEYS.KEYREL.PRED "_rememoración_n_rel" ]. rememorar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "rememorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rememorar_v_rel" ] ]. rememorar_v2 := v_trans_np_le & [ STEM < "rememorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rememorar_v_rel" ] ]. remendar_v := v_trans_np_le & [ STEM < "remendar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, PRED "_remendar_v_rel" ] ]. remero_n1 := n_intr_count_le & [ STEM < "remero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_remero_n_rel" ] ]. remesa_n1 := n_intr_coll_le & [ STEM < "remesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remesa_n_rel" ] ]. remiendo_n1 := n_trans_le & [ STEM < "remiendo" >, SYNSEM.LKEYS.KEYREL.PRED "_remiendo_n_rel" ]. remilgadamente_x1 := av_i_spr_le & [ STEM < "remilgadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_remilgadamente_x_rel" ]. remineralización_n1 := n_trans_le & [ STEM < "remineralización" >, SYNSEM.LKEYS.KEYREL.PRED "_remineralización_n_rel" ]. reminiscencia_n1 := n_intr_count_le & [ STEM < "reminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reminiscencia_n_rel" ] ]. remirar_v1 := v_trans_np*_le & [ STEM < "remirar" >, SYNSEM.LKEYS.KEYREL.PRED "_remirar_v_rel" ]. remirar_v2 := v_unacc_lcomp_dir_le & [ STEM < "remirar" >, SYNSEM.LKEYS.KEYREL.PRED "_remirar_v_rel" ]. remisión_n1 := n_trans_le & [ STEM < "remisión" >, SYNSEM.LKEYS.KEYREL.PRED "_remisión_n_rel" ]. remiso_a1 := a_qual_intr_ser_le & [ STEM < "remiso" >, SYNSEM.LKEYS.KEYREL.PRED "_remiso_a_rel" ]. remitente_a1 := a_rel_nonprd_intr_le & [ STEM < "remitente" >, SYNSEM.LKEYS.KEYREL.PRED "_remitente_a_rel" ]. remitente_n1 := n_intr_count_le & [ STEM < "remitente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_remitente_n_rel" ] ]. remitir_v1 := v_ditrans*_le & [ STEM < "remitir" >, SYNSEM.LKEYS.KEYREL.PRED "_remitir_v_rel" ]. remitir_v2 := v_intr_le & [ STEM < "remitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_remitir_v_rel" ] ]. remitir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "remitir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_remitir_v_rel" ] ]. remo_n1 := n_intr_count_le & [ STEM < "remo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remo_n_rel" ] ]. remoción_n1 := n_trans_le & [ STEM < "remoción" >, SYNSEM.LKEYS.KEYREL.PRED "_remoción_n_rel" ]. remodelación_n1 := n_trans_le & [ STEM < "remodelación" >, SYNSEM.LKEYS.KEYREL.PRED "_remodelación_n_rel" ]. remodelado_n1 := n_trans_le & [ STEM < "remodelado" >, SYNSEM.LKEYS.KEYREL.PRED "_remodelado_n_rel" ]. remodelar_v := v_trans_np_le & [ STEM < "remodelar" >, SYNSEM.LKEYS.KEYREL.PRED "_remodelar_v_rel" ]. remodulador_a1 := a_rel_nonprd_intr_le & [ STEM < "remodulador" >, SYNSEM.LKEYS.KEYREL.PRED "_remodulador_a_rel" ]. remolacha_n1 := n_intr_mass-or-count_le & [ STEM < "remolacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_remolacha_n_rel" ] ]. remolcable_a1 := a_rel_nonprd_intr_le & [ STEM < "remolcable" >, SYNSEM.LKEYS.KEYREL.PRED "_remolcable_a_rel" ]. remolcador_a1 := a_rel_nonprd_intr_le & [ STEM < "remolcador" >, SYNSEM.LKEYS.KEYREL.PRED "_remolcador_a_rel" ]. remolcador_n1 := n_intr_count_le & [ STEM < "remolcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remolcador_n_rel" ] ]. remolcar_v := v_trans_np_le & [ STEM < "remolcar" >, SYNSEM.LKEYS.KEYREL.PRED "_remolcar_v_rel" ]. remoldeado_n1 := n_intr_mass_le & [ STEM < "remoldeado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remoldeado_n_rel" ] ]. remolque_n1 := n_intr_count_le & [ STEM < "remolque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remolque_n_rel" ] ]. remolón_a1 := a_qual_intr_ser_le & [ STEM < "remolón" >, SYNSEM.LKEYS.KEYREL.PRED "_remolón_a_rel" ]. remonetización_n1 := n_trans_le & [ STEM < "remonetización" >, SYNSEM.LKEYS.KEYREL.PRED "_remonetización_n_rel" ]. remontador_n1 := n_intr_count_le & [ STEM < "remontador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_remontador_n_rel" ] ]. remontaje_n1 := n_intr_count_le & [ STEM < "remontaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remontaje_n_rel" ] ]. remontamiento_n1 := n_trans_le & [ STEM < "remontamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_remontamiento_n_rel" ]. remontante_a1 := a_rel_nonprd_intr_le & [ STEM < "remontante" >, SYNSEM.LKEYS.KEYREL.PRED "_remontante_a_rel" ]. remontar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "remontar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_remontar_v_rel" ] ]. remontar_v2 := v_trans_np_le & [ STEM < "remontar" >, SYNSEM.LKEYS.KEYREL.PRED "_remontar_v_rel" ]. remonte_n1 := n_intr_count_le & [ STEM < "remonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_remonte_n_rel" ] ]. remordimiento_n1 := n_intr_mass_le & [ STEM < "remordimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remordimiento_n_rel" ] ]. remotamente_x1 := av_i_spr_le & [ STEM < "remotamente" >, SYNSEM.LKEYS.KEYREL.PRED "_remotamente_x_rel" ]. remoto_a1 := a_qual_intr_ser_le & [ STEM < "remoto" >, SYNSEM.LKEYS.KEYREL.PRED "_remoto_a_rel" ]. remover_v := v_trans_np_le & [ STEM < "remover" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot_soc, PRED "_remover_v_rel" ] ]. removible_a1 := a_rel_nonprd_intr_le & [ STEM < "removible" >, SYNSEM.LKEYS.KEYREL.PRED "_removible_a_rel" ]. remozar_v := v_trans_np_le & [ STEM < "remozar" >, SYNSEM.LKEYS.KEYREL.PRED "_remozar_v_rel" ]. remuneración_n1 := n_trans_le & [ STEM < "remuneración" >, SYNSEM.LKEYS.KEYREL.PRED "_remuneración_n_rel" ]. remunerador_a1 := a_rel_nonprd_intr_le & [ STEM < "remunerador" >, SYNSEM.LKEYS.KEYREL.PRED "_remunerador_a_rel" ]. remunerar_v := v_ditrans*_le & [ STEM < "remunerar" >, SYNSEM.LKEYS.KEYREL.PRED "_remunerar_v_rel" ]. remunerativo_a1 := a_rel_nonprd_intr_le & [ STEM < "remunerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_remunerativo_a_rel" ]. remuneratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "remuneratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_remuneratorio_a_rel" ]. renacentista_a1 := a_rel_nonprd_intr_le & [ STEM < "renacentista" >, SYNSEM.LKEYS.KEYREL.PRED "_renacentista_a_rel" ]. renacer_v := v_intr_le & [ STEM < "renacer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum_soc, PRED "_renacer_v_rel" ] ]. renaciente_a1 := a_rel_nonprd_intr_le & [ STEM < "renaciente" >, SYNSEM.LKEYS.KEYREL.PRED "_renaciente_a_rel" ]. renacimiento_n1 := n_event-result_intr_le & [ STEM < "renacimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_renacimiento_n_rel" ]. renacuajo_n1 := n_intr_count_le & [ STEM < "renacuajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_renacuajo_n_rel" ] ]. renal_a1 := a_rel_nonprd_intr_le & [ STEM < "renal" >, SYNSEM.LKEYS.KEYREL.PRED "_renal_a_rel" ]. renano_a1 := a_rel_nonprd_intr_le & [ STEM < "renano" >, SYNSEM.LKEYS.KEYREL.PRED "_renano_a_rel" ]. renano_n1 := n_intr_count_le & [ STEM < "renano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_renano_n_rel" ] ]. rencor_n1 := n_intr_mass-or-count_le & [ STEM < "rencor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rencor_n_rel" ] ]. rencorosamente_x1 := av_i_spr_le & [ STEM < "rencorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rencorosamente_x_rel" ]. rencoroso_a1 := a_qual_intr_ser_le & [ STEM < "rencoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_rencoroso_a_rel" ]. rendición_n1 := n_trans_le & [ STEM < "rendición" >, SYNSEM.LKEYS.KEYREL.PRED "_rendición_n_rel" ]. rendija_n1 := n_intr_count_le & [ STEM < "rendija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rendija_n_rel" ] ]. rendimiento_n1 := n_intr_mass-or-count_le & [ STEM < "rendimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rendimiento_n_rel" ] ]. rendsina_n1 := n_intr_mass_le & [ STEM < "rendsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rendsina_n_rel" ] ]. rendzina_n1 := n_intr_mass_le & [ STEM < "rendzina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rendzina_n_rel" ] ]. renegado_n1 := n_intr_count_le & [ STEM < "renegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_renegado_n_rel" ] ]. renegar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "renegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_renegar_v_rel" ] ]. renegar_v2 := v_ditrans*_le & [ STEM < "renegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_renegar_v_rel" ] ]. renegar_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "renegar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_renegar_v_rel" ] ]. renegar_v4 := v_intr_mrkd_np*_le & [ STEM < "renegar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_renegar_v_rel" ] ]. reniforme_a1 := a_rel_prd_le & [ STEM < "reniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_reniforme_a_rel" ]. reniformemente_x1 := av_i_spr_le & [ STEM < "reniformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reniformemente_x_rel" ]. renio_n1 := n_intr_mass_le & [ STEM < "renio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_renio_n_rel" ] ]. reno_n1 := n_intr_count_le & [ STEM < "reno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_reno_n_rel" ] ]. renombramiento_n1 := n_trans_le & [ STEM < "renombramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_renombramiento_n_rel" ]. renovable_a1 := a_rel_prd_le & [ STEM < "renovable" >, SYNSEM.LKEYS.KEYREL.PRED "_renovable_a_rel" ]. renovación_n1 := n_trans_le & [ STEM < "renovación" >, SYNSEM.LKEYS.KEYREL.PRED "_renovación_n_rel" ]. renovador_a1 := a_qual_intr_ser_le & [ STEM < "renovador" >, SYNSEM.LKEYS.KEYREL.PRED "_renovador_a_rel" ]. renovar_v := v_trans_np_caus_le & [ STEM < "renovar" >, SYNSEM.LKEYS.KEYREL.PRED "_renovar_v_rel" ]. renqueante_a1 := a_qual_intr_estar_le & [ STEM < "renqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_renqueante_a_rel" ]. rentabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rentabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rentabilidad_n_rel" ] ]. rentabilización_n1 := n_trans_le & [ STEM < "rentabilización" >, SYNSEM.LKEYS.KEYREL.PRED "_rentabilización_n_rel" ]. rentabilizar_v := v_trans_np_le & [ STEM < "rentabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_rentabilizar_v_rel" ]. rentable_a1 := a_qual_intr_ser_le & [ STEM < "rentable" >, SYNSEM.LKEYS.KEYREL.PRED "_rentable_a_rel" ]. rentar_v := v_trans_np*_le & [ STEM < "rentar" >, SYNSEM.LKEYS.KEYREL.PRED "_rentar_v_rel" ]. rentista_n1 := n_intr_count_le & [ STEM < "rentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rentista_n_rel" ] ]. renuncia_n1 := n_intr_count_le & [ STEM < "renuncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_renuncia_n_rel" ] ]. renuncia_n2 := n_trans_le & [ STEM < "renuncia" >, SYNSEM.LKEYS.KEYREL.PRED "_renuncia_n_rel" ]. renunciación_n1 := n_trans_le & [ STEM < "renunciación" >, SYNSEM.LKEYS.KEYREL.PRED "_renunciación_n_rel" ]. renunciar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "renunciar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_renunciar_v_rel" ] ]. renunciar_v2 := v_intr_mrkd_np*_le & [ STEM < "renunciar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_renunciar_v_rel" ] ]. renvalso_n1 := n_intr_count_le & [ STEM < "renvalso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_renvalso_n_rel" ] ]. reo_n1 := n_intr_count_le & [ STEM < "reo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reo_n_rel" ] ]. reográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "reográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_reográfico_a_rel" ]. reología_n1 := n_intr_uncount_le & [ STEM < "reología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reología_n_rel" ] ]. reológico_a1 := a_rel_nonprd_intr_le & [ STEM < "reológico" >, SYNSEM.LKEYS.KEYREL.PRED "_reológico_a_rel" ]. reopéctico_a1 := a_rel_nonprd_intr_le & [ STEM < "reopéctico" >, SYNSEM.LKEYS.KEYREL.PRED "_reopéctico_a_rel" ]. reordenación_n1 := n_trans_le & [ STEM < "reordenación" >, SYNSEM.LKEYS.KEYREL.PRED "_reordenación_n_rel" ]. reordenamiento_n1 := n_trans_le & [ STEM < "reordenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reordenamiento_n_rel" ]. reordenar_v := v_trans_np_le & [ STEM < "reordenar" >, SYNSEM.LKEYS.KEYREL.PRED "_reordenar_v_rel" ]. reorganización_n1 := n_trans_le & [ STEM < "reorganización" >, SYNSEM.LKEYS.KEYREL.PRED "_reorganización_n_rel" ]. reorganizar_v := v_trans_np_caus_le & [ STEM < "reorganizar" >, SYNSEM.LKEYS.KEYREL.PRED "_reorganizar_v_rel" ]. reorientación_n1 := n_trans_le & [ STEM < "reorientación" >, SYNSEM.LKEYS.KEYREL.PRED "_reorientación_n_rel" ]. reostato_n1 := n_intr_count_le & [ STEM < "reostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reostato_n_rel" ] ]. reostáticamente_x1 := av_i_spr_le & [ STEM < "reostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reostáticamente_x_rel" ]. reostático_a1 := a_rel_nonprd_intr_le & [ STEM < "reostático" >, SYNSEM.LKEYS.KEYREL.PRED "_reostático_a_rel" ]. reoxidación_n1 := n_trans_le & [ STEM < "reoxidación" >, SYNSEM.LKEYS.KEYREL.PRED "_reoxidación_n_rel" ]. repante_n1 := n_intr_count_le & [ STEM < "repante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_repante_n_rel" ] ]. reparable_a1 := a_rel_nonprd_intr_le & [ STEM < "reparable" >, SYNSEM.LKEYS.KEYREL.PRED "_reparable_a_rel" ]. reparación_n1 := n_trans_le & [ STEM < "reparación" >, SYNSEM.LKEYS.KEYREL.PRED "_reparación_n_rel" ]. reparador_a1 := a_qual_intr_scopal_le & [ STEM < "reparador" >, SYNSEM.LKEYS.KEYREL.PRED "_reparador_a_rel" ]. reparar_v1 := v_intr_mrkd_np_le & [ STEM < "reparar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_reparar_v_rel" ] ] ]. reparar_v2 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "reparar" >, SYNSEM.LKEYS [ --COMPKEY en_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_reparar_v_rel" ] ] ]. reparar_v3 := v_trans_np_le & [ STEM < "reparar" >, SYNSEM.LKEYS.KEYREL.PRED "_reparar_v_rel" ]. reparativo_a1 := a_rel_nonprd_intr_le & [ STEM < "reparativo" >, SYNSEM.LKEYS.KEYREL.PRED "_reparativo_a_rel" ]. reparatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "reparatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_reparatorio_a_rel" ]. repartición_n1 := n_trans_le & [ STEM < "repartición" >, SYNSEM.LKEYS.KEYREL.PRED "_repartición_n_rel" ]. repartidor_n1 := n_intr_count_le & [ STEM < "repartidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_repartidor_n_rel" ] ]. repartidor_n2 := n_subj-nom_le & [ STEM < "repartidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_repartidor_n_rel" ] ]. repartimiento_n1 := n_trans_le & [ STEM < "repartimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_repartimiento_n_rel" ]. repartir_v := v_trans_np_lcomp_loc*_le & [ STEM < "repartir" >, SYNSEM.LKEYS.KEYREL.PRED "_repartir_v_rel" ]. repartir_v1 := v_ditrans_le & [ STEM < "repartir" >, SYNSEM.LKEYS.KEYREL.PRED "_repartir_v_rel" ]. repartir_v2 := v_pron_trans_np_le & [ STEM < "repartir" >, SYNSEM.LKEYS.KEYREL.PRED "_repartir_v_rel" ]. repasador_a1 := a_rel_nonprd_intr_le & [ STEM < "repasador" >, SYNSEM.LKEYS.KEYREL.PRED "_repasador_a_rel" ]. repasadora_n1 := n_intr_count_le & [ STEM < "repasadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_repasadora_n_rel" ] ]. repasar_v := v_trans_np_le & [ STEM < "repasar" >, SYNSEM.LKEYS.KEYREL.PRED "_repasar_v_rel" ]. repatear_v1 := v_intr_io*_le & [ STEM < "repatear" >, SYNSEM.LKEYS.KEYREL.PRED "_repatear_v_rel" ]. repatear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "repatear" >, SYNSEM.LKEYS.KEYREL.PRED "_repatear_v_rel" ]. repatriación_n1 := n_trans_le & [ STEM < "repatriación" >, SYNSEM.LKEYS.KEYREL.PRED "_repatriación_n_rel" ]. repecho_n1 := n_intr_count_le & [ STEM < "repecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_repecho_n_rel" ] ]. repelente_a1 := a_qual_intr_ser_le & [ STEM < "repelente" >, SYNSEM.LKEYS.KEYREL.PRED "_repelente_a_rel" ]. repelente_n1 := n_intr_mass-or-count_le & [ STEM < "repelente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_repelente_n_rel" ] ]. repelentemente_x1 := av_i_spr_le & [ STEM < "repelentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_repelentemente_x_rel" ]. repeler_v1 := v_intr_io*_le & [ STEM < "repeler" >, SYNSEM.LKEYS.KEYREL.PRED "_repeler_v_rel" ]. repeler_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "repeler" >, SYNSEM.LKEYS.KEYREL.PRED "_repeler_v_rel" ]. repeler_v3 := v_trans_np_le & [ STEM < "repeler" >, SYNSEM.LKEYS.KEYREL.PRED "_repeler_v_rel" ]. repelón_n1 := n_intr_count_le & [ STEM < "repelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_repelón_n_rel" ] ]. repentinamente_x1 := av_i_spr_le & [ STEM < "repentinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_repentinamente_x_rel" ]. repentino_a1 := a_qual_intr_ser_le & [ STEM < "repentino" >, SYNSEM.LKEYS.KEYREL.PRED "_repentino_a_rel" ]. repercusión_n1 := n_result_intr_le & [ STEM < "repercusión" >, SYNSEM.LKEYS.KEYREL.PRED "_repercusión_n_rel" ]. repercutible_a1 := a_rel_nonprd_intr_le & [ STEM < "repercutible" >, SYNSEM.LKEYS.KEYREL.PRED "_repercutible_a_rel" ]. repercutir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "repercutir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_repercutir_v_rel" ] ] ]. repercutir_v2 := v_intr_mrkd_np_le & [ STEM < "repercutir" >, SYNSEM.LKEYS [ --COMPKEY en_or_sobre_p_sel_rel, KEYREL [ ARG1.SORT abs_cnc_pro, PRED "_repercutir_v_rel" ] ] ]. repercutir_v3 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "repercutir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_repercutir_v_rel" ] ]. repercutir_v4 := v_unacc_lcomp_loc_le & [ STEM < "repercutir" >, SYNSEM.LKEYS.KEYREL.PRED "_repercutir_v_rel" ]. reperforación_n1 := n_trans_le & [ STEM < "reperforación" >, SYNSEM.LKEYS.KEYREL.PRED "_reperforación_n_rel" ]. repetibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "repetibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_repetibilidad_n_rel" ] ]. repetición_n1 := n_trans_le & [ STEM < "repetición" >, SYNSEM.LKEYS.KEYREL.PRED "_repetición_n_rel" ]. repetidamente_x1 := av_i_spr_le & [ STEM < "repetidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_repetidamente_x_rel" ]. repetidor_a1 := a_rel_nonprd_intr_le & [ STEM < "repetidor" >, SYNSEM.LKEYS.KEYREL.PRED "_repetidor_a_rel" ]. repetidor_n1 := n_subj-nom_le & [ STEM < "repetidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_repetidor_n_rel" ] ]. repetir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "repetir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_repetir_v_rel" ] ]. repetir_v2 := v_ditrans_cp_ques_le & [ STEM < "repetir" >, SYNSEM.LKEYS.KEYREL.PRED "_repetir_v_rel" ]. repetir_v3 := v_ditrans*_le & [ STEM < "repetir" >, SYNSEM.LKEYS.KEYREL.PRED "_repetir_v_rel" ]. repetir_v4 := v_pron_intr_le & [ STEM < "repetir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_repetir_v_rel" ] ]. repetitivamente_x1 := av_i_spr_le & [ STEM < "repetitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_repetitivamente_x_rel" ]. repetitividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "repetitividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_repetitividad_n_rel" ] ]. repetitivo_a1 := a_qual_intr_ser_le & [ STEM < "repetitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_repetitivo_a_rel" ]. repiquetear_v1 := v_pron_intr_le & [ STEM < "repiquetear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_repiquetear_v_rel" ] ]. repiquetear_v2 := v_trans_np_le & [ STEM < "repiquetear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, ARG2.SORT cnc, PRED "_repiquetear_v_rel" ] ]. repiqueteo_n1 := n_result_intr_le & [ STEM < "repiqueteo" >, SYNSEM.LKEYS.KEYREL.PRED "_repiqueteo_n_rel" ]. repisa_n1 := n_intr_count_le & [ STEM < "repisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_repisa_n_rel" ] ]. replanificación_n1 := n_trans_le & [ STEM < "replanificación" >, SYNSEM.LKEYS.KEYREL.PRED "_replanificación_n_rel" ]. replantación_n1 := n_trans_le & [ STEM < "replantación" >, SYNSEM.LKEYS.KEYREL.PRED "_replantación_n_rel" ]. replantar_v := v_trans_np_le & [ STEM < "replantar" >, SYNSEM.LKEYS.KEYREL.PRED "_replantar_v_rel" ]. replanteamiento_n1 := n_trans_le & [ STEM < "replanteamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_replanteamiento_n_rel" ]. replanteo_n1 := n_trans_le & [ STEM < "replanteo" >, SYNSEM.LKEYS.KEYREL.PRED "_replanteo_n_rel" ]. replegar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "replegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_replegar_v_rel" ] ] ]. replegar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "replegar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_replegar_v_rel" ] ] ]. replegar_v3 := v_trans_np_caus_le & [ STEM < "replegar" >, SYNSEM.LKEYS.KEYREL.PRED "_replegar_v_rel" ]. repleto_a1 := a_qual_trans*_estar_le & [ STEM < "repleto" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_repleto_a_rel" ] ]. replicación_n1 := n_result_intr_le & [ STEM < "replicación" >, SYNSEM.LKEYS.KEYREL.PRED "_replicación_n_rel" ]. replicante_n1 := n_intr_count_le & [ STEM < "replicante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_replicante_n_rel" ] ]. replicar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "replicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_replicar_v_rel" ] ]. replicar_v2 := v_ditrans*_le & [ STEM < "replicar" >, SYNSEM.LKEYS.KEYREL.PRED "_replicar_v_rel" ]. repoblación_n1 := n_trans_le & [ STEM < "repoblación" >, SYNSEM.LKEYS.KEYREL.PRED "_repoblación_n_rel" ]. repollo_n1 := n_intr_mass_le & [ STEM < "repollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_repollo_n_rel" ] ]. reportaje_n1 := n_intr_count_le & [ STEM < "reportaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_reportaje_n_rel" ] ]. reportar_v1 := v_ditrans*_le & [ STEM < "reportar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_reportar_v_rel" ] ]. reportar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "reportar" >, SYNSEM.LKEYS.KEYREL.PRED "_reportar_v_rel" ]. reportar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "reportar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_reportar_v_rel" ] ] ]. reportar_v4 := v_trans_np_mrkd_np_le & [ STEM < "reportar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_reportar_v_rel" ] ] ]. reportero_n1 := n_intr_count_le & [ STEM < "reportero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reportero_n_rel" ] ]. reposaflechas_n1 := n_intr_count_le & [ STEM < "reposaflechas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reposaflechas_n_rel" ] ]. reposapiés_n1 := n_intr_count_le & [ STEM < "reposapiés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reposapiés_n_rel" ] ]. reposarodillas_n1 := n_intr_count_le & [ STEM < "reposarodillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reposarodillas_n_rel" ] ]. reposicionamiento_n1 := n_trans_le & [ STEM < "reposicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reposicionamiento_n_rel" ]. reposición_n1 := n_trans_le & [ STEM < "reposición" >, SYNSEM.LKEYS.KEYREL.PRED "_reposición_n_rel" ]. repositorio_n1 := n_intr_count_le & [ STEM < "repositorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_repositorio_n_rel" ] ]. reposo_n1 := n_result_intr_le & [ STEM < "reposo" >, SYNSEM.LKEYS.KEYREL.PRED "_reposo_n_rel" ]. repostería_n1 := n_intr_uncount_pl_le & [ STEM < "repostería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_repostería_n_rel" ] ]. reprehender_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "reprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprehender_v_rel" ] ]. reprehender_v2 := v_ditrans*_le & [ STEM < "reprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprehender_v_rel" ] ]. reprender_v1 := v_trans_np_le & [ STEM < "reprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT ani_hum_soc, PRED "_reprender_v_rel" ] ]. reprensible_a1 := a_rel_prd_le & [ STEM < "reprensible" >, SYNSEM.LKEYS.KEYREL.PRED "_reprensible_a_rel" ]. reprensión_n1 := n_trans_le & [ STEM < "reprensión" >, SYNSEM.LKEYS.KEYREL.PRED "_reprensión_n_rel" ]. represa_n1 := n_intr_count_le & [ STEM < "represa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_represa_n_rel" ] ]. represar_v := v_trans_np_le & [ STEM < "represar" >, SYNSEM.LKEYS.KEYREL.PRED "_represar_v_rel" ]. representable_a1 := a_rel_nonprd_intr_le & [ STEM < "representable" >, SYNSEM.LKEYS.KEYREL.PRED "_representable_a_rel" ]. representación_n1 := n_trans_le & [ STEM < "representación" >, SYNSEM.LKEYS.KEYREL.PRED "_representación_n_rel" ]. representante_a1 := a_rel_nonprd_intr_le & [ STEM < "representante" >, SYNSEM.LKEYS.KEYREL.PRED "_representante_a_rel" ]. representante_n1 := n_intr_count_le & [ STEM < "representante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_representante_n_rel" ] ]. representar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "representar" >, SYNSEM.LKEYS.KEYREL.PRED "_representar_v_rel" ]. representar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "representar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_representar_v_rel" ] ]. representar_v3 := v_trans_np_le & [ STEM < "representar" >, SYNSEM.LKEYS.KEYREL.PRED "_representar_v_rel" ]. representar_v4 := v_trans_np_mrkd_np_le & [ STEM < "representar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_representar_v_rel" ] ]. representativamente_x1 := av_i_spr_le & [ STEM < "representativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_representativamente_x_rel" ]. representatividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "representatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_representatividad_n_rel" ] ]. representativo_a1 := a_qual_intr_ser_le & [ STEM < "representativo" >, SYNSEM.LKEYS.KEYREL.PRED "_representativo_a_rel" ]. represivamente_x1 := av_i_spr_le & [ STEM < "represivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_represivamente_x_rel" ]. represivo_a1 := a_qual_intr_ser_le & [ STEM < "represivo" >, SYNSEM.LKEYS.KEYREL.PRED "_represivo_a_rel" ]. represión_n1 := n_event-result_intr_le & [ STEM < "represión" >, SYNSEM.LKEYS.KEYREL.PRED "_represión_n_rel" ]. represor_a1 := a_qual_intr_ser_le & [ STEM < "represor" >, SYNSEM.LKEYS.KEYREL.PRED "_represor_a_rel" ]. reprivatización_n1 := n_trans_le & [ STEM < "reprivatización" >, SYNSEM.LKEYS.KEYREL.PRED "_reprivatización_n_rel" ]. reprobable_a1 := a_qual_intr_ser_le & [ STEM < "reprobable" >, SYNSEM.LKEYS.KEYREL.PRED "_reprobable_a_rel" ]. reprobación_n1 := n_trans_le & [ STEM < "reprobación" >, SYNSEM.LKEYS.KEYREL.PRED "_reprobación_n_rel" ]. reprobador_a1 := a_rel_nonprd_intr_le & [ STEM < "reprobador" >, SYNSEM.LKEYS.KEYREL.PRED "_reprobador_a_rel" ]. reprobar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "reprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprobar_v_rel" ] ]. reprobar_v2 := v_trans_np_le & [ STEM < "reprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprobar_v_rel" ] ]. reprocesamiento_n1 := n_trans_le & [ STEM < "reprocesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_reprocesamiento_n_rel" ]. reprocesar_v := v_trans_np*_le & [ STEM < "reprocesar" >, SYNSEM.LKEYS.KEYREL.PRED "_reprocesar_v_rel" ]. reproceso_n1 := n_trans_le & [ STEM < "reproceso" >, SYNSEM.LKEYS.KEYREL.PRED "_reproceso_n_rel" ]. reprochabilidad_n1 := n_intr_uncount_le & [ STEM < "reprochabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reprochabilidad_n_rel" ] ]. reprochable_a1 := a_qual_intr_ser_le & [ STEM < "reprochable" >, SYNSEM.LKEYS.KEYREL.PRED "_reprochable_a_rel" ]. reprochar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "reprochar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprochar_v_rel" ] ]. reprochar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "reprochar" >, SYNSEM.LKEYS.KEYREL.PRED "_reprochar_v_rel" ]. reprochar_v3 := v_ditrans*_le & [ STEM < "reprochar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reprochar_v_rel" ] ]. reproducción_n1 := n_trans_le & [ STEM < "reproducción" >, SYNSEM.LKEYS.KEYREL.PRED "_reproducción_n_rel" ]. reproducibilidad_n1 := n_intr_mass-or-count_le & [ STEM < "reproducibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reproducibilidad_n_rel" ] ]. reproducible_a1 := a_rel_nonprd_intr_le & [ STEM < "reproducible" >, SYNSEM.LKEYS.KEYREL.PRED "_reproducible_a_rel" ]. reproducir_v1 := v_pron_intr_le & [ STEM < "reproducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum, PRED "_reproducir_v_rel" ] ]. reproducir_v2 := v_trans_np_le & [ STEM < "reproducir" >, SYNSEM.LKEYS.KEYREL.PRED "_reproducir_v_rel" ]. reproductibilidad_n1 := n_intr_mass_le & [ STEM < "reproductibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reproductibilidad_n_rel" ] ]. reproductivo_a1 := a_qual_intr_ser_le & [ STEM < "reproductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_reproductivo_a_rel" ]. reproductor_a1 := a_rel_nonprd_intr_le & [ STEM < "reproductor" >, SYNSEM.LKEYS.KEYREL.PRED "_reproductor_a_rel" ]. reproductor_n1 := n_intr_count_le & [ STEM < "reproductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reproductor_n_rel" ] ]. reproductora_n1 := n_intr_count_le & [ STEM < "reproductora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reproductora_n_rel" ] ]. reprografía_n1 := n_intr_uncount_pl_le & [ STEM < "reprografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reprografía_n_rel" ] ]. reprogramable_a1 := a_rel_prd_le & [ STEM < "reprogramable" >, SYNSEM.LKEYS.KEYREL.PRED "_reprogramable_a_rel" ]. reprogramación_n1 := n_trans_le & [ STEM < "reprogramación" >, SYNSEM.LKEYS.KEYREL.PRED "_reprogramación_n_rel" ]. reptación_n1 := n_result_intr_le & [ STEM < "reptación" >, SYNSEM.LKEYS.KEYREL.PRED "_reptación_n_rel" ]. reptante_a1 := a_rel_nonprd_intr_le & [ STEM < "reptante" >, SYNSEM.LKEYS.KEYREL.PRED "_reptante_a_rel" ]. reptar_v := v_intr_le & [ STEM < "reptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reptar_v_rel" ] ]. reptil_n1 := n_intr_count_le & [ STEM < "reptil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_reptil_n_rel" ] ]. republicanismo_n1 := n_ppcomp_uncount_le & [ STEM < "republicanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_republicanismo_n_rel" ] ]. republicano_a1 := a_rel_nonprd_intr_le & [ STEM < "republicano" >, SYNSEM.LKEYS.KEYREL.PRED "_republicano_a_rel" ]. republicano_n1 := n_intr_count_le & [ STEM < "republicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_republicano_n_rel" ] ]. repudiación_n1 := n_trans_le & [ STEM < "repudiación" >, SYNSEM.LKEYS.KEYREL.PRED "_repudiación_n_rel" ]. repudiar_v := v_trans_np_le & [ STEM < "repudiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_repudiar_v_rel" ] ]. repudrir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "repudrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_repudrir_v_rel" ] ]. repudrir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "repudrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_repudrir_v_rel" ] ]. repuesto_n1 := n_intr_count_le & [ STEM < "repuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_repuesto_n_rel" ] ]. repugnancia_n1 := n_intr_mass_le & [ STEM < "repugnancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_repugnancia_n_rel" ] ]. repugnante_a1 := a_qual_intr_ser_le & [ STEM < "repugnante" >, SYNSEM.LKEYS.KEYREL.PRED "_repugnante_a_rel" ]. repugnar_v1 := v_intr_io*_le & [ STEM < "repugnar" >, SYNSEM.LKEYS.KEYREL.PRED "_repugnar_v_rel" ]. repugnar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "repugnar" >, SYNSEM.LKEYS.KEYREL.PRED "_repugnar_v_rel" ]. repujar_v := v_trans_np_le & [ STEM < "repujar" >, SYNSEM.LKEYS.KEYREL.PRED "_repujar_v_rel" ]. repulsivamente_x1 := av_i_spr_le & [ STEM < "repulsivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_repulsivamente_x_rel" ]. repulsivo_a1 := a_qual_intr_ser_le & [ STEM < "repulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_repulsivo_a_rel" ]. repulsión_n1 := n_trans_le & [ STEM < "repulsión" >, SYNSEM.LKEYS.KEYREL.PRED "_repulsión_n_rel" ]. reputación_n1 := n_intr_mass_le & [ STEM < "reputación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reputación_n_rel" ] ]. república_n1 := n_intr_count_le & [ STEM < "república" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_república_n_rel" ] ]. requebradura_n1 := n_intr_count_le & [ STEM < "requebradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requebradura_n_rel" ] ]. requerimiento_n1 := n_trans_le & [ STEM < "requerimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_requerimiento_n_rel" ]. requerir_v1 := v_intr_mrkd_np_le & [ STEM < "requerir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_requerir_v_rel" ] ]. requerir_v2 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "requerir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_requerir_v_rel" ] ]. requerir_v3 := v_ditrans*_le & [ STEM < "requerir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_requerir_v_rel" ] ]. requerir_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "requerir" >, SYNSEM.LKEYS.KEYREL.PRED "_requerir_v_rel" ]. requerir_v5 := v_trans_np_mrkd_np*_le & [ STEM < "requerir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_requerir_v_rel" ] ]. requesón_n1 := n_intr_mass_le & [ STEM < "requesón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_requesón_n_rel" ] ]. requirente_a1 := a_rel_nonprd_intr_le & [ STEM < "requirente" >, SYNSEM.LKEYS.KEYREL.PRED "_requirente_a_rel" ]. requirente_n1 := n_intr_count_le & [ STEM < "requirente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_requirente_n_rel" ] ]. requisar_v := v_ditrans*_le & [ STEM < "requisar" >, SYNSEM.LKEYS.KEYREL.PRED "_requisar_v_rel" ]. requisición_n1 := n_intr_uncount_le & [ STEM < "requisición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requisición_n_rel" ] ]. reradiación_n1 := n_intr_uncount_le & [ STEM < "reradiación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reradiación_n_rel" ] ]. res_n1 := n_intr_count_le & [ STEM < "res" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_res_n_rel" ] ]. resaltar_v := v_trans_np_caus_int_le & [ STEM < "resaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_resaltar_v_rel" ]. resalte_n1 := n_intr_count_le & [ STEM < "resalte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_resalte_n_rel" ] ]. resalto_n1 := n_trans_le & [ STEM < "resalto" >, SYNSEM.LKEYS.KEYREL.PRED "_resalto_n_rel" ]. resalvo_n1 := n_intr_count_le & [ STEM < "resalvo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resalvo_n_rel" ] ]. resarcimiento_n1 := n_trans_le & [ STEM < "resarcimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_resarcimiento_n_rel" ]. resbaladera_n1 := n_intr_count_le & [ STEM < "resbaladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resbaladera_n_rel" ] ]. resbaladizo_a1 := a_qual_intr_scopal_le & [ STEM < "resbaladizo" >, SYNSEM.LKEYS.KEYREL.PRED "_resbaladizo_a_rel" ]. resbalar_v := v_unacc_lcomp_dir*_le & [ STEM < "resbalar" >, SYNSEM.LKEYS.KEYREL.PRED "_resbalar_v_rel" ]. rescatador_n1 := n_subj-nom_le & [ STEM < "rescatador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rescatador_n_rel" ] ]. rescate_n1 := n_trans_le & [ STEM < "rescate" >, SYNSEM.LKEYS.KEYREL.PRED "_rescate_n_rel" ]. rescinamina_n1 := n_intr_count_le & [ STEM < "rescinamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rescinamina_n_rel" ] ]. rescindir_v := v_trans_np_le & [ STEM < "rescindir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_sem, PRED "_rescindir_v_rel" ] ]. rescisión_n1 := n_trans_le & [ STEM < "rescisión" >, SYNSEM.LKEYS.KEYREL.PRED "_rescisión_n_rel" ]. rescisorio_a1 := a_rel_nonprd_intr_le & [ STEM < "rescisorio" >, SYNSEM.LKEYS.KEYREL.PRED "_rescisorio_a_rel" ]. rescoldo_n1 := n_intr_count_le & [ STEM < "rescoldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rescoldo_n_rel" ] ]. rescribir_v := v_trans_np_le & [ STEM < "rescribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_rescribir_v_rel" ] ]. resección_n1 := n_intr_count_le & [ STEM < "resección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resección_n_rel" ] ]. reseco_a1 := a_qual_intr_ser_le & [ STEM < "reseco" >, SYNSEM.LKEYS.KEYREL.PRED "_reseco_a_rel" ]. resecuencia_n1 := n_intr_uncount_le & [ STEM < "resecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resecuencia_n_rel" ] ]. resedimentación_n1 := n_trans_le & [ STEM < "resedimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_resedimentación_n_rel" ]. resembrado_n1 := n_trans_le & [ STEM < "resembrado" >, SYNSEM.LKEYS.KEYREL.PRED "_resembrado_n_rel" ]. resentimiento_n1 := n_result_intr_le & [ STEM < "resentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_resentimiento_n_rel" ]. resentir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "resentir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_resentir_v_rel" ] ] ]. resentir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "resentir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_resentir_v_rel" ] ] ]. reserpina_n1 := n_intr_count_le & [ STEM < "reserpina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_reserpina_n_rel" ] ]. reserva_n1 := n_trans_le & [ STEM < "reserva" >, SYNSEM.LKEYS.KEYREL.PRED "_reserva_n_rel" ]. reservable_a1 := a_rel_prd_le & [ STEM < "reservable" >, SYNSEM.LKEYS.KEYREL.PRED "_reservable_a_rel" ]. reservadamente_x1 := av_s_spr_le & [ STEM < "reservadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reservadamente_x_rel" ]. reservar_v1 := v_ditrans*_le & [ STEM < "reservar" >, SYNSEM.LKEYS.KEYREL.PRED "_reservar_v_rel" ]. reservar_v2 := v_pron_trans_np_le & [ STEM < "reservar" >, SYNSEM.LKEYS.KEYREL.PRED "_reservar_v_rel" ]. reservativo_a1 := a_rel_nonprd_intr_le & [ STEM < "reservativo" >, SYNSEM.LKEYS.KEYREL.PRED "_reservativo_a_rel" ]. reservista_n1 := n_intr_count_le & [ STEM < "reservista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reservista_n_rel" ] ]. reseñable_a1 := a_rel_prd_le & [ STEM < "reseñable" >, SYNSEM.LKEYS.KEYREL.PRED "_reseñable_a_rel" ]. reseñar_v := v_trans_np_le & [ STEM < "reseñar" >, SYNSEM.LKEYS.KEYREL.PRED "_reseñar_v_rel" ]. resfriado_n1 := n_intr_count_le & [ STEM < "resfriado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resfriado_n_rel" ] ]. resfriar_v := v_pron_intr_le & [ STEM < "resfriar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_resfriar_v_rel" ] ]. resguardo_n1 := n_intr_count_le & [ STEM < "resguardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resguardo_n_rel" ] ]. residencia_n1 := n_intr_count_le & [ STEM < "residencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_residencia_n_rel" ] ]. residencial_a1 := a_rel_nonprd_intr_le & [ STEM < "residencial" >, SYNSEM.LKEYS.KEYREL.PRED "_residencial_a_rel" ]. residente_a1 := a_rel_nonprd_trans_le & [ STEM < "residente" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_residente_a_rel" ] ]. residir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "residir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_residir_v_rel" ] ] ]. residir_v2 := v_intr_mrkd_np_le & [ STEM < "residir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, ARG2.SORT abs_pro, PRED "_residir_v_rel" ] ] ]. residir_v3 := v_unacc_lcomp_loc_le & [ STEM < "residir" >, SYNSEM.LKEYS.KEYREL.PRED "_residir_v_rel" ]. residual_a1 := a_rel_nonprd_intr_le & [ STEM < "residual" >, SYNSEM.LKEYS.KEYREL.PRED "_residual_a_rel" ]. residuario_a1 := a_rel_nonprd_intr_le & [ STEM < "residuario" >, SYNSEM.LKEYS.KEYREL.PRED "_residuario_a_rel" ]. residuo_n1 := n_intr_count_le & [ STEM < "residuo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_residuo_n_rel" ] ]. resignación_n1 := n_intr_mass_le & [ STEM < "resignación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resignación_n_rel" ] ]. resignar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "resignar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_resignar_v_rel" ] ]. resignar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "resignar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_resignar_v_rel" ] ]. resignar_v3 := v_trans_np_le & [ STEM < "resignar" >, SYNSEM.LKEYS.KEYREL.PRED "_resignar_v_rel" ]. resiliencia_n1 := n_intr_uncount_le & [ STEM < "resiliencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resiliencia_n_rel" ] ]. resina_n1 := n_intr_mass_le & [ STEM < "resina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resina_n_rel" ] ]. resinación_n1 := n_trans_le & [ STEM < "resinación" >, SYNSEM.LKEYS.KEYREL.PRED "_resinación_n_rel" ]. resinato_n1 := n_intr_count_le & [ STEM < "resinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resinato_n_rel" ] ]. resincronización_n1 := n_trans_le & [ STEM < "resincronización" >, SYNSEM.LKEYS.KEYREL.PRED "_resincronización_n_rel" ]. resinificar_v := v_trans_np_le & [ STEM < "resinificar" >, SYNSEM.LKEYS.KEYREL.PRED "_resinificar_v_rel" ]. resinol_n1 := n_intr_count_le & [ STEM < "resinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resinol_n_rel" ] ]. resinosamente_x1 := av_i_spr_le & [ STEM < "resinosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_resinosamente_x_rel" ]. resinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "resinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_resinoso_a_rel" ]. resintonización_n1 := n_trans_le & [ STEM < "resintonización" >, SYNSEM.LKEYS.KEYREL.PRED "_resintonización_n_rel" ]. resiníferamente_x1 := av_i_spr_le & [ STEM < "resiníferamente" >, SYNSEM.LKEYS.KEYREL.PRED "_resiníferamente_x_rel" ]. resinífero_a1 := a_rel_nonprd_intr_le & [ STEM < "resinífero" >, SYNSEM.LKEYS.KEYREL.PRED "_resinífero_a_rel" ]. resistencia_n1 := n_intr_count_le & [ STEM < "resistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mea, PRED "_resistencia_n_rel" ] ]. resistencia_n2 := n_ppde_ppcomp_mass_le & [ STEM < "resistencia" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_contra_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_resistencia_n_rel" ] ] ]. resistencialismo_n1 := n_intr_uncount_le & [ STEM < "resistencialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resistencialismo_n_rel" ] ]. resistencialista_a1 := a_rel_nonprd_intr_le & [ STEM < "resistencialista" >, SYNSEM.LKEYS.KEYREL.PRED "_resistencialista_a_rel" ]. resistencialista_n1 := n_intr_count_le & [ STEM < "resistencialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_resistencialista_n_rel" ] ]. resistente_a1 := a_qual_trans*_ser_le & [ STEM < "resistente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistente_a_rel" ] ]. resistente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "resistente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistente_a_rel" ] ]. resistente_a3 := a_qual_cp_ques_ser_le & [ STEM < "resistente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistente_a_rel" ] ]. resistente_a4 := a_sctrl_ser_le & [ STEM < "resistente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistente_a_rel" ] ]. resistir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "resistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistir_v_rel" ] ]. resistir_v2 := v_intr_mrkd_np_le & [ STEM < "resistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistir_v_rel" ] ]. resistir_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "resistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistir_v_rel" ] ]. resistir_v4 := v_pron_intr_mrkd_np_le & [ STEM < "resistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_resistir_v_rel" ] ]. resistir_v5 := v_trans_np*_le & [ STEM < "resistir" >, SYNSEM.LKEYS.KEYREL.PRED "_resistir_v_rel" ]. resistivamente_x1 := av_i_spr_le & [ STEM < "resistivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_resistivamente_x_rel" ]. resistividad_n1 := n_intr_uncount_le & [ STEM < "resistividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resistividad_n_rel" ] ]. resistivo_a1 := a_qual_intr_ser_le & [ STEM < "resistivo" >, SYNSEM.LKEYS.KEYREL.PRED "_resistivo_a_rel" ]. resistivímetro_n1 := n_intr_count_le & [ STEM < "resistivímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resistivímetro_n_rel" ] ]. resistor_n1 := n_intr_count_le & [ STEM < "resistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resistor_n_rel" ] ]. resita_n1 := n_intr_count_le & [ STEM < "resita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resita_n_rel" ] ]. resitol_n1 := n_intr_count_le & [ STEM < "resitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resitol_n_rel" ] ]. resol_n1 := n_intr_count_le & [ STEM < "resol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_resol_n_rel" ] ]. resolidificación_n1 := n_trans_le & [ STEM < "resolidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_resolidificación_n_rel" ]. resolubilidad_n1 := n_intr_uncount_le & [ STEM < "resolubilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resolubilidad_n_rel" ] ]. resolución_n1 := n_trans_le & [ STEM < "resolución" >, SYNSEM.LKEYS.KEYREL.PRED "_resolución_n_rel" ]. resolutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "resolutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_resolutivo_a_rel" ]. resoluto_a1 := a_qual_intr_ser_le & [ STEM < "resoluto" >, SYNSEM.LKEYS.KEYREL.PRED "_resoluto_a_rel" ]. resolutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "resolutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_resolutorio_a_rel" ]. resolvente_n1 := n_intr_count_le & [ STEM < "resolvente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_resolvente_n_rel" ] ]. resolver_v1 := v_ditrans*_le & [ STEM < "resolver" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_resolver_v_rel" ] ]. resolver_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "resolver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_resolver_v_rel" ] ] ]. resolver_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "resolver" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_resolver_v_rel" ] ] ]. resolver_v4 := v_pron_intr_mrkd_np_le & [ STEM < "resolver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_resolver_v_rel" ] ] ]. resolver_v5 := v_pron_intr_mrkd_np_le & [ STEM < "resolver" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_resolver_v_rel" ] ] ]. resolver_v6 := v_subj_cp_prop_ditrans*_le & [ STEM < "resolver" >, SYNSEM.LKEYS.KEYREL.PRED "_resolver_v_rel" ]. resolver_v7 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "resolver" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_resolver_v_rel" ] ] ]. resolver_v8 := v_trans_cp_prop_fin_sub_le & [ STEM < "resolver" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_resolver_v_rel" ] ]. resolver_v9 := v_trans_cp_semi_ques_le & [ STEM < "resolver" >, SYNSEM.LKEYS.KEYREL.PRED "_resolver_v_rel" ]. resonador_n1 := n_intr_count_le & [ STEM < "resonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resonador_n_rel" ] ]. resonancia_n1 := n_intr_mass_le & [ STEM < "resonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resonancia_n_rel" ] ]. resonante_a1 := a_qual_intr_ser_le & [ STEM < "resonante" >, SYNSEM.LKEYS.KEYREL.PRED "_resonante_a_rel" ]. resonantemente_x1 := av_i_spr_le & [ STEM < "resonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_resonantemente_x_rel" ]. resonar_v := v_intr_le & [ STEM < "resonar" >, SYNSEM.LKEYS.KEYREL.PRED "_resonar_v_rel" ]. resoplar_v := v_intr_le & [ STEM < "resoplar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_resoplar_v_rel" ] ]. resoplido_n1 := n_result_intr_le & [ STEM < "resoplido" >, SYNSEM.LKEYS.KEYREL.PRED "_resoplido_n_rel" ]. resorcina_n1 := n_intr_mass-or-count_le & [ STEM < "resorcina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_resorcina_n_rel" ] ]. resorción_n1 := n_trans_le & [ STEM < "resorción" >, SYNSEM.LKEYS.KEYREL.PRED "_resorción_n_rel" ]. resorcílico_a1 := a_rel_nonprd_intr_le & [ STEM < "resorcílico" >, SYNSEM.LKEYS.KEYREL.PRED "_resorcílico_a_rel" ]. resorte_n1 := n_intr_count_le & [ STEM < "resorte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resorte_n_rel" ] ]. respaldar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "respaldar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_respaldar_v_rel" ] ] ]. respaldar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "respaldar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_respaldar_v_rel" ] ] ]. respaldar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "respaldar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT abs_hum_pro_sem_soc, PRED "_respaldar_v_rel" ] ] ]. respaldar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "respaldar" >, SYNSEM.LKEYS.KEYREL.PRED "_respaldar_v_rel" ]. respaldar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "respaldar" >, SYNSEM.LKEYS.KEYREL.PRED "_respaldar_v_rel" ]. respaldar_v6 := v_trans_cp_prop_fin_sub_le & [ STEM < "respaldar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_respaldar_v_rel" ] ]. respaldar_v7 := v_trans_np_le & [ STEM < "respaldar" >, SYNSEM.LKEYS.KEYREL.PRED "_respaldar_v_rel" ]. respaldo_n1 := n_result_intr_ppcomp_le & [ STEM < "respaldo" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_respaldo_n_rel" ] ]. respaldo_n2 := n_intr_count_le & [ STEM < "respaldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_respaldo_n_rel" ] ]. respecto_a_p_vmod := p_vmod_le & [ STEM < "respecto_a" >, SYNSEM.LKEYS.KEYREL.PRED _respecto_a_p_rel ]. respecto_de_p_vmod := p_vmod_le & [ STEM < "respecto_de" >, SYNSEM.LKEYS.KEYREL.PRED _respecto_de_p_rel ]. respectuosamente_x1 := av_i_spr_le & [ STEM < "respectuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_respectuosamente_x_rel" ]. respetabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "respetabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_respetabilidad_n_rel" ] ]. respetable_a1 := a_qual_intr_ser_le & [ STEM < "respetable" >, SYNSEM.LKEYS.KEYREL.PRED "_respetable_a_rel" ]. respetar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "respetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_respetar_v_rel" ] ]. respetar_v2 := v_trans_np_le & [ STEM < "respetar" >, SYNSEM.LKEYS.KEYREL.PRED "_respetar_v_rel" ]. respetuosamente_x1 := av_i_spr_le & [ STEM < "respetuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_respetuosamente_x_rel" ]. respetuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "respetuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_respetuosidad_n_rel" ] ]. respetuoso_a1 := a_qual_intr_ser_le & [ STEM < "respetuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_respetuoso_a_rel" ]. respingón_a1 := a_rel_nonprd_intr_le & [ STEM < "respingón" >, SYNSEM.LKEYS.KEYREL.PRED "_respingón_a_rel" ]. respirable_a1 := a_rel_prd_le & [ STEM < "respirable" >, SYNSEM.LKEYS.KEYREL.PRED "_respirable_a_rel" ]. respiración_n1 := n_result_intr_le & [ STEM < "respiración" >, SYNSEM.LKEYS.KEYREL.PRED "_respiración_n_rel" ]. respiradero_n1 := n_intr_count_le & [ STEM < "respiradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_respiradero_n_rel" ] ]. respirador_a1 := a_rel_nonprd_intr_le & [ STEM < "respirador" >, SYNSEM.LKEYS.KEYREL.PRED "_respirador_a_rel" ]. respirar_v := v_trans_np*_le & [ STEM < "respirar" >, SYNSEM.LKEYS.KEYREL.PRED "_respirar_v_rel" ]. respiratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "respiratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_respiratorio_a_rel" ]. resplandecer_v := v_intr_le & [ STEM < "resplandecer" >, SYNSEM.LKEYS.KEYREL.PRED "_resplandecer_v_rel" ]. resplandeciente_a1 := a_qual_intr_estar_le & [ STEM < "resplandeciente" >, SYNSEM.LKEYS.KEYREL.PRED "_resplandeciente_a_rel" ]. resplandor_n1 := n_intr_mass-or-count_le & [ STEM < "resplandor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resplandor_n_rel" ] ]. responder_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "responder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_responder_v_rel" ] ]. responder_v2 := v_ditrans_cp_ques_le & [ STEM < "responder" >, SYNSEM.LKEYS.KEYREL.PRED "_responder_v_rel" ]. responder_v3 := v_ditrans*_le & [ STEM < "responder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_responder_v_rel" ] ]. responder_v4 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "responder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_responder_v_rel" ] ]. responder_v5 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "responder" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responder_v_rel" ] ]. responder_v6 := v_intr_mrkd_np_le & [ STEM < "responder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_pro_sem, PRED "_responder_v_rel" ] ] ]. responder_v7 := v_intr_mrkd_np_le & [ STEM < "responder" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responder_v_rel" ] ]. responsabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "responsabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_responsabilidad_n_rel" ] ]. responsabilización_n1 := n_trans_le & [ STEM < "responsabilización" >, SYNSEM.LKEYS.KEYREL.PRED "_responsabilización_n_rel" ]. responsabilizar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "responsabilizar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_responsabilizar_v_rel" ] ] ]. responsabilizar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "responsabilizar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_responsabilizar_v_rel" ] ] ]. responsabilizar_v3 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "responsabilizar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_responsabilizar_v_rel" ] ] ]. responsabilizar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "responsabilizar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_responsabilizar_v_rel" ] ] ]. responsable_a1 := a_qual_trans*_ser_le & [ STEM < "responsable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responsable_a_rel" ] ]. responsable_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "responsable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responsable_a_rel" ] ]. responsable_a3 := a_qual_cp_ques_ser_le & [ STEM < "responsable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responsable_a_rel" ] ]. responsable_a4 := a_sctrl_ser_le & [ STEM < "responsable" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_responsable_a_rel" ] ]. responsable_n1 := n_intr_count_le & [ STEM < "responsable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_responsable_n_rel" ] ]. responsablemente_x1 := av_i_spr_le & [ STEM < "responsablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_responsablemente_x_rel" ]. resquebrajadura_n1 := n_intr_count_le & [ STEM < "resquebrajadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_resquebrajadura_n_rel" ] ]. resquebrajar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "resquebrajar" >, SYNSEM.LKEYS.KEYREL.PRED "_resquebrajar_v_rel" ]. resquebrajar_v2 := v_trans_np_caus_le & [ STEM < "resquebrajar" >, SYNSEM.LKEYS.KEYREL.PRED "_resquebrajar_v_rel" ]. resquemor_n1 := n_intr_mass-or-count_le & [ STEM < "resquemor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resquemor_n_rel" ] ]. restablecimiento_n1 := n_trans_le & [ STEM < "restablecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_restablecimiento_n_rel" ]. restador_a1 := a_rel_nonprd_intr_le & [ STEM < "restador" >, SYNSEM.LKEYS.KEYREL.PRED "_restador_a_rel" ]. restadoramente_x1 := av_i_spr_le & [ STEM < "restadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_restadoramente_x_rel" ]. restallar_v := v_intr_le & [ STEM < "restallar" >, SYNSEM.LKEYS.KEYREL.PRED "_restallar_v_rel" ]. restauración_n1 := n_trans_le & [ STEM < "restauración" >, SYNSEM.LKEYS.KEYREL.PRED "_restauración_n_rel" ]. restaurador_a1 := a_rel_nonprd_intr_le & [ STEM < "restaurador" >, SYNSEM.LKEYS.KEYREL.PRED "_restaurador_a_rel" ]. restaurador_n1 := n_subj-nom_le & [ STEM < "restaurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_restaurador_n_rel" ] ]. restaurante_n1 := n_intr_count_le & [ STEM < "restaurante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_restaurante_n_rel" ] ]. restaurar_v := v_trans_np_le & [ STEM < "restaurar" >, SYNSEM.LKEYS.KEYREL.PRED "_restaurar_v_rel" ]. restañar_v := v_trans_np_caus_le & [ STEM < "restañar" >, SYNSEM.LKEYS.KEYREL.PRED "_restañar_v_rel" ]. restitución_n1 := n_trans_le & [ STEM < "restitución" >, SYNSEM.LKEYS.KEYREL.PRED "_restitución_n_rel" ]. restituir_v1 := v_ditrans*_le & [ STEM < "restituir" >, SYNSEM.LKEYS.KEYREL.PRED "_restituir_v_rel" ]. restituir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "restituir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_restituir_v_rel" ] ] ]. restituir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "restituir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_restituir_v_rel" ] ] ]. restituir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "restituir" >, SYNSEM.LKEYS.KEYREL.PRED "_restituir_v_rel" ]. restituir_v5 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "restituir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_restituir_v_rel" ] ] ]. restituir_v6 := v_trans_np_mrkd_np_le & [ STEM < "restituir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_restituir_v_rel" ] ] ]. restitutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "restitutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_restitutorio_a_rel" ]. resto_n1 := n_part_le & [ STEM < "resto" >, SYNSEM.LKEYS.KEYREL.PRED "_resto_n_rel" ]. restregar_v := v_trans_np_caus_le & [ STEM < "restregar" >, SYNSEM.LKEYS.KEYREL.PRED "_restregar_v_rel" ]. restricción_n1 := n_trans_le & [ STEM < "restricción" >, SYNSEM.LKEYS.KEYREL.PRED "_restricción_n_rel" ]. restrictivamente_x1 := av_i_spr_le & [ STEM < "restrictivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_restrictivamente_x_rel" ]. restrictivo_a1 := a_qual_intr_ser_le & [ STEM < "restrictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_restrictivo_a_rel" ]. restringidamente_x1 := av_i_spr_le & [ STEM < "restringidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_restringidamente_x_rel" ]. restructuración_n1 := n_trans_le & [ STEM < "restructuración" >, SYNSEM.LKEYS.KEYREL.PRED "_restructuración_n_rel" ]. restructurar_v := v_trans_np_le & [ STEM < "restructurar" >, SYNSEM.LKEYS.KEYREL.PRED "_restructurar_v_rel" ]. resucitación_n1 := n_intr_uncount_le & [ STEM < "resucitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resucitación_n_rel" ] ]. resucitar_v := v_trans_np_caus_int_le & [ STEM < "resucitar" >, SYNSEM.LKEYS.KEYREL.PRED "_resucitar_v_rel" ]. resultado_n1 := n_event-result_intr_le & [ STEM < "resultado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resultado_n_rel" ] ]. resultante_a1 := a_qual_trans*_ser_le & [ STEM < "resultante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_resultante_a_rel" ] ]. resultante_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "resultante" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_resultante_a_rel" ] ]. resultativo_a1 := a_rel_nonprd_intr_le & [ STEM < "resultativo" >, SYNSEM.LKEYS.KEYREL.PRED "_resultativo_a_rel" ]. resumen_n1 := n_trans_le & [ STEM < "resumen" >, SYNSEM.LKEYS.KEYREL.PRED "_resumen_n_rel" ]. resumidamente_x1 := av_s_spr_le & [ STEM < "resumidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_resumidamente_x_rel" ]. resurgencia_n1 := n_event-result_intr_le & [ STEM < "resurgencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resurgencia_n_rel" ] ]. resurgimiento_n1 := n_event-result_intr_le & [ STEM < "resurgimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_resurgimiento_n_rel" ]. resurgir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "resurgir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_resurgir_v_rel" ] ] ]. resurgir_v2 := v_intr_mrkd_np_le & [ STEM < "resurgir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_resurgir_v_rel" ] ] ]. resurgir_v3 := v_unacc_lcomp_loc*_perf_le & [ STEM < "resurgir" >, SYNSEM.LKEYS.KEYREL.PRED "_resurgir_v_rel" ]. resurrección_n1 := n_intr_uncount_le & [ STEM < "resurrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resurrección_n_rel" ] ]. retablo_n1 := n_intr_count_le & [ STEM < "retablo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retablo_n_rel" ] ]. retaguardia_n1 := n_intr_count_le & [ STEM < "retaguardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_retaguardia_n_rel" ] ]. retal_n1 := n_intr_count_le & [ STEM < "retal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retal_n_rel" ] ]. retama_n1 := n_intr_mass_le & [ STEM < "retama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_retama_n_rel" ] ]. retar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "retar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_retar_v_rel" ] ] ]. retar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "retar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_retar_v_rel" ] ] ]. retar_v3 := v_trans_np*_mrkd_np_le & [ STEM < "retar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_retar_v_rel" ] ] ]. retardadamente_x1 := av_i_spr_le & [ STEM < "retardadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retardadamente_x_rel" ]. retardador_a1 := a_rel_nonprd_intr_le & [ STEM < "retardador" >, SYNSEM.LKEYS.KEYREL.PRED "_retardador_a_rel" ]. retardador_n1 := n_intr_count_le & [ STEM < "retardador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retardador_n_rel" ] ]. retardante_a1 := a_rel_nonprd_intr_le & [ STEM < "retardante" >, SYNSEM.LKEYS.KEYREL.PRED "_retardante_a_rel" ]. retardar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "retardar" >, SYNSEM.LKEYS.KEYREL.PRED "_retardar_v_rel" ]. retardar_v2 := v_trans_np_caus_le & [ STEM < "retardar" >, SYNSEM.LKEYS.KEYREL.PRED "_retardar_v_rel" ]. retasación_n1 := n_trans_le & [ STEM < "retasación" >, SYNSEM.LKEYS.KEYREL.PRED "_retasación_n_rel" ]. retazo_n1 := n_intr_count_le & [ STEM < "retazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retazo_n_rel" ] ]. retecleado_n1 := n_trans_le & [ STEM < "retecleado" >, SYNSEM.LKEYS.KEYREL.PRED "_retecleado_n_rel" ]. retención_n1 := n_trans_le & [ STEM < "retención" >, SYNSEM.LKEYS.KEYREL.PRED "_retención_n_rel" ]. retenedor_a1 := a_rel_nonprd_intr_le & [ STEM < "retenedor" >, SYNSEM.LKEYS.KEYREL.PRED "_retenedor_a_rel" ]. retenedor_n1 := n_intr_count_le & [ STEM < "retenedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_retenedor_n_rel" ] ]. retener_v := v_trans_np_le & [ STEM < "retener" >, SYNSEM.LKEYS.KEYREL.PRED "_retener_v_rel" ]. retentivo_a1 := a_rel_nonprd_intr_le & [ STEM < "retentivo" >, SYNSEM.LKEYS.KEYREL.PRED "_retentivo_a_rel" ]. reticencia_n1 := n_ppcomp_mass_le & [ STEM < "reticencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reticencia_n_rel" ] ]. reticente_a1 := a_qual_cp_prop_fin_ser_le & [ STEM < "reticente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reticente_a_rel" ] ]. reticente_a2 := a_qual_trans*_ser_le & [ STEM < "reticente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reticente_a_rel" ] ]. reticular_a1 := a_rel_nonprd_intr_le & [ STEM < "reticular" >, SYNSEM.LKEYS.KEYREL.PRED "_reticular_a_rel" ]. reticulina_n1 := n_intr_mass_le & [ STEM < "reticulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_reticulina_n_rel" ] ]. reticulocito_n1 := n_intr_count_le & [ STEM < "reticulocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reticulocito_n_rel" ] ]. reticuloendotelial_a1 := a_rel_nonprd_intr_le & [ STEM < "reticuloendotelial" >, SYNSEM.LKEYS.KEYREL.PRED "_reticuloendotelial_a_rel" ]. retina_n1 := n_intr_count_le & [ STEM < "retina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retina_n_rel" ] ]. retiniano_a1 := a_rel_nonprd_intr_le & [ STEM < "retiniano" >, SYNSEM.LKEYS.KEYREL.PRED "_retiniano_a_rel" ]. retinoblastoma_n1 := n_intr_count_le & [ STEM < "retinoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retinoblastoma_n_rel" ] ]. retinocoroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "retinocoroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_retinocoroideo_a_rel" ]. retinografía_n1 := n_intr_count_le & [ STEM < "retinografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retinografía_n_rel" ] ]. retinol_n1 := n_intr_count_le & [ STEM < "retinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_retinol_n_rel" ] ]. retinomalacia_n1 := n_intr_uncount_le & [ STEM < "retinomalacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinomalacia_n_rel" ] ]. retinopatía_n1 := n_intr_uncount_pl_le & [ STEM < "retinopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinopatía_n_rel" ] ]. retinoscopio_n1 := n_intr_count_le & [ STEM < "retinoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retinoscopio_n_rel" ] ]. retirada_n1 := n_event-result_intr_le & [ STEM < "retirada" >, SYNSEM.LKEYS.KEYREL.PRED "_retirada_n_rel" ]. retirar_v1 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "retirar" >, SYNSEM.LKEYS.KEYREL.PRED "_retirar_v_rel" ]. retirar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "retirar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_retirar_v_rel" ] ] ]. retiro_n1 := n_intr_count_le & [ STEM < "retiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_retiro_n_rel" ] ]. retocado_n1 := n_trans_le & [ STEM < "retocado" >, SYNSEM.LKEYS.KEYREL.PRED "_retocado_n_rel" ]. retocador_n1 := n_subj-nom_le & [ STEM < "retocador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_retocador_n_rel" ] ]. retocar_v := v_trans_np_le & [ STEM < "retocar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_retocar_v_rel" ] ]. retoque_n1 := n_trans_le & [ STEM < "retoque" >, SYNSEM.LKEYS.KEYREL.PRED "_retoque_n_rel" ]. retorcer_v := v_trans_np_caus_le & [ STEM < "retorcer" >, SYNSEM.LKEYS.KEYREL.PRED "_retorcer_v_rel" ]. retorcimiento_n1 := n_trans_le & [ STEM < "retorcimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_retorcimiento_n_rel" ]. retornable_a1 := a_rel_prd_le & [ STEM < "retornable" >, SYNSEM.LKEYS.KEYREL.PRED "_retornable_a_rel" ]. retornar_v1 := v_trans_np_le & [ STEM < "retornar" >, SYNSEM.LKEYS.KEYREL.PRED "_retornar_v_rel" ]. retornar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "retornar" >, SYNSEM.LKEYS.KEYREL.PRED "_retornar_v_rel" ]. retorno_n1 := n_event-result_intr_le & [ STEM < "retorno" >, SYNSEM.LKEYS.KEYREL.PRED "_retorno_n_rel" ]. retorsión_n1 := n_trans_le & [ STEM < "retorsión" >, SYNSEM.LKEYS.KEYREL.PRED "_retorsión_n_rel" ]. retorta_n1 := n_intr_count_le & [ STEM < "retorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retorta_n_rel" ] ]. retozón_a1 := a_qual_intr_scopal_le & [ STEM < "retozón" >, SYNSEM.LKEYS.KEYREL.PRED "_retozón_a_rel" ]. retoño_n1 := n_intr_count_le & [ STEM < "retoño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retoño_n_rel" ] ]. retracción_n1 := n_trans_le & [ STEM < "retracción" >, SYNSEM.LKEYS.KEYREL.PRED "_retracción_n_rel" ]. retractable_a1 := a_rel_nonprd_intr_le & [ STEM < "retractable" >, SYNSEM.LKEYS.KEYREL.PRED "_retractable_a_rel" ]. retractación_n1 := n_trans_le & [ STEM < "retractación" >, SYNSEM.LKEYS.KEYREL.PRED "_retractación_n_rel" ]. retracto_n1 := n_intr_count_le & [ STEM < "retracto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retracto_n_rel" ] ]. retractor_n1 := n_intr_count_le & [ STEM < "retractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retractor_n_rel" ] ]. retraer_v1 := v_ditrans_le & [ STEM < "retraer" >, SYNSEM.LKEYS.KEYREL.PRED "_retraer_v_rel" ]. retraer_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "retraer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_retraer_v_rel" ] ] ]. retraer_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "retraer" >, SYNSEM.LKEYS.KEYREL.PRED "_retraer_v_rel" ]. retraimiento_n1 := n_trans_le & [ STEM < "retraimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_retraimiento_n_rel" ]. retranqueo_n1 := n_trans_le & [ STEM < "retranqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_retranqueo_n_rel" ]. retransmisión_n1 := n_trans_le & [ STEM < "retransmisión" >, SYNSEM.LKEYS.KEYREL.PRED "_retransmisión_n_rel" ]. retransmisor_n1 := n_intr_count_le & [ STEM < "retransmisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retransmisor_n_rel" ] ]. retransmitir_v := v_trans_np_le & [ STEM < "retransmitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_soc, ARG2.SORT abs_pro, PRED "_retransmitir_v_rel" ] ]. retrasar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "retrasar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_retrasar_v_rel" ] ]. retrasar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "retrasar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_retrasar_v_rel" ] ]. retrasar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "retrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_retrasar_v_rel" ]. retrasar_v4 := v_trans_np_caus_le & [ STEM < "retrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_retrasar_v_rel" ]. retratar_v := v_trans_np_le & [ STEM < "retratar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_sem_soc, PRED "_retratar_v_rel" ] ]. retratista_n1 := n_intr_count_le & [ STEM < "retratista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_retratista_n_rel" ] ]. retrato_n1 := n_intr_count_le & [ STEM < "retrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retrato_n_rel" ] ]. retrete_n1 := n_intr_count_le & [ STEM < "retrete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_retrete_n_rel" ] ]. retribución_n1 := n_intr_count_le & [ STEM < "retribución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retribución_n_rel" ] ]. retribuir_v := v_trans_np_le & [ STEM < "retribuir" >, SYNSEM.LKEYS.KEYREL.PRED "_retribuir_v_rel" ]. retributivo_a1 := a_rel_nonprd_intr_le & [ STEM < "retributivo" >, SYNSEM.LKEYS.KEYREL.PRED "_retributivo_a_rel" ]. retroacción_n1 := n_intr_uncount_le & [ STEM < "retroacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retroacción_n_rel" ] ]. retroactivamente_x1 := av_i_spr_le & [ STEM < "retroactivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retroactivamente_x_rel" ]. retroactividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "retroactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retroactividad_n_rel" ] ]. retroactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "retroactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_retroactivo_a_rel" ]. retroalimentación_n1 := n_trans_le & [ STEM < "retroalimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_retroalimentación_n_rel" ]. retroalimentar_v := v_trans_np_caus_le & [ STEM < "retroalimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_retroalimentar_v_rel" ]. retroaural_a1 := a_rel_nonprd_intr_le & [ STEM < "retroaural" >, SYNSEM.LKEYS.KEYREL.PRED "_retroaural_a_rel" ]. retroauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "retroauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_retroauricular_a_rel" ]. retrobucal_a1 := a_rel_nonprd_intr_le & [ STEM < "retrobucal" >, SYNSEM.LKEYS.KEYREL.PRED "_retrobucal_a_rel" ]. retrobulbar_a1 := a_rel_nonprd_intr_le & [ STEM < "retrobulbar" >, SYNSEM.LKEYS.KEYREL.PRED "_retrobulbar_a_rel" ]. retrocargador_n1 := n_intr_count_le & [ STEM < "retrocargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retrocargador_n_rel" ] ]. retrocatadióptricamente_x1 := av_i_spr_le & [ STEM < "retrocatadióptricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retrocatadióptricamente_x_rel" ]. retrocatadióptrico_a1 := a_rel_nonprd_intr_le & [ STEM < "retrocatadióptrico" >, SYNSEM.LKEYS.KEYREL.PRED "_retrocatadióptrico_a_rel" ]. retrocecal_a1 := a_rel_nonprd_intr_le & [ STEM < "retrocecal" >, SYNSEM.LKEYS.KEYREL.PRED "_retrocecal_a_rel" ]. retroceder_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "retroceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_retroceder_v_rel" ] ] ]. retroceder_v2 := v_intr_mrkd_np_le & [ STEM < "retroceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_retroceder_v_rel" ] ]. retroceder_v3 := v_unacc_perf_le & [ STEM < "retroceder" >, SYNSEM.LKEYS.KEYREL.PRED "_retroceder_v_rel" ]. retrocesión_n1 := n_event-result_intr_le & [ STEM < "retrocesión" >, SYNSEM.LKEYS.KEYREL.PRED "_retrocesión_n_rel" ]. retroceso_n1 := n_event-result_intr_le & [ STEM < "retroceso" >, SYNSEM.LKEYS.KEYREL.PRED "_retroceso_n_rel" ]. retrococlear_a1 := a_rel_nonprd_intr_le & [ STEM < "retrococlear" >, SYNSEM.LKEYS.KEYREL.PRED "_retrococlear_a_rel" ]. retroconversión_n1 := n_intr_uncount_le & [ STEM < "retroconversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retroconversión_n_rel" ] ]. retrodifusión_n1 := n_trans_le & [ STEM < "retrodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_retrodifusión_n_rel" ]. retroduodenal_a1 := a_rel_nonprd_intr_le & [ STEM < "retroduodenal" >, SYNSEM.LKEYS.KEYREL.PRED "_retroduodenal_a_rel" ]. retroensamblador_n1 := n_intr_count_le & [ STEM < "retroensamblador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retroensamblador_n_rel" ] ]. retroexcavadora_n1 := n_intr_count_le & [ STEM < "retroexcavadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retroexcavadora_n_rel" ] ]. retrofaringe_n1 := n_ppcomp_count_le & [ STEM < "retrofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_retrofaringe_n_rel" ] ]. retrofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "retrofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_retrofaríngeo_a_rel" ]. retroflejo_a1 := a_rel_nonprd_intr_le & [ STEM < "retroflejo" >, SYNSEM.LKEYS.KEYREL.PRED "_retroflejo_a_rel" ]. retrofocal_a1 := a_rel_nonprd_intr_le & [ STEM < "retrofocal" >, SYNSEM.LKEYS.KEYREL.PRED "_retrofocal_a_rel" ]. retrognático_a1 := a_rel_nonprd_intr_le & [ STEM < "retrognático" >, SYNSEM.LKEYS.KEYREL.PRED "_retrognático_a_rel" ]. retrogradación_n1 := n_event-result_intr_le & [ STEM < "retrogradación" >, SYNSEM.LKEYS.KEYREL.PRED "_retrogradación_n_rel" ]. retrogresión_n1 := n_trans_le & [ STEM < "retrogresión" >, SYNSEM.LKEYS.KEYREL.PRED "_retrogresión_n_rel" ]. retrohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "retrohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_retrohioideo_a_rel" ]. retroincisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "retroincisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_retroincisivo_a_rel" ]. retrolectura_n1 := n_intr_uncount_le & [ STEM < "retrolectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retrolectura_n_rel" ] ]. retrolenticular_a1 := a_rel_nonprd_intr_le & [ STEM < "retrolenticular" >, SYNSEM.LKEYS.KEYREL.PRED "_retrolenticular_a_rel" ]. retrolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "retrolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_retrolingual_a_rel" ]. retromandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "retromandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_retromandibular_a_rel" ]. retromaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "retromaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_retromaxilar_a_rel" ]. retromolar_a1 := a_rel_nonprd_intr_le & [ STEM < "retromolar" >, SYNSEM.LKEYS.KEYREL.PRED "_retromolar_a_rel" ]. retronasal_a1 := a_rel_nonprd_intr_le & [ STEM < "retronasal" >, SYNSEM.LKEYS.KEYREL.PRED "_retronasal_a_rel" ]. retroperitoneal_a1 := a_rel_nonprd_intr_le & [ STEM < "retroperitoneal" >, SYNSEM.LKEYS.KEYREL.PRED "_retroperitoneal_a_rel" ]. retroproyección_n1 := n_trans_le & [ STEM < "retroproyección" >, SYNSEM.LKEYS.KEYREL.PRED "_retroproyección_n_rel" ]. retroproyector_n1 := n_intr_count_le & [ STEM < "retroproyector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retroproyector_n_rel" ] ]. retropubiano_a1 := a_rel_nonprd_intr_le & [ STEM < "retropubiano" >, SYNSEM.LKEYS.KEYREL.PRED "_retropubiano_a_rel" ]. retropulsión_n1 := n_intr_uncount_le & [ STEM < "retropulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retropulsión_n_rel" ] ]. retrorreflector_a1 := a_rel_nonprd_intr_le & [ STEM < "retrorreflector" >, SYNSEM.LKEYS.KEYREL.PRED "_retrorreflector_a_rel" ]. retrorreflector_n1 := n_intr_count_le & [ STEM < "retrorreflector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retrorreflector_n_rel" ] ]. retrorreflectoramente_x1 := av_i_spr_le & [ STEM < "retrorreflectoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_retrorreflectoramente_x_rel" ]. retrorreflexión_n1 := n_intr_uncount_le & [ STEM < "retrorreflexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retrorreflexión_n_rel" ] ]. retrospección_n1 := n_intr_uncount_le & [ STEM < "retrospección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retrospección_n_rel" ] ]. retrospectivamente_x1 := av_i_spr_le & [ STEM < "retrospectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retrospectivamente_x_rel" ]. retrospectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "retrospectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_retrospectivo_a_rel" ]. retrotraer_v := v_trans_np_le & [ STEM < "retrotraer" >, SYNSEM.LKEYS.KEYREL.PRED "_retrotraer_v_rel" ]. retrotransmitir_v := v_trans_np_le & [ STEM < "retrotransmitir" >, SYNSEM.LKEYS.KEYREL.PRED "_retrotransmitir_v_rel" ]. retroversión_n1 := n_intr_count_le & [ STEM < "retroversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retroversión_n_rel" ] ]. retrovirus_n1 := n_intr_count_le & [ STEM < "retrovirus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_retrovirus_n_rel" ] ]. retrovisor_n1 := n_intr_count_le & [ STEM < "retrovisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retrovisor_n_rel" ] ]. retrovídeo_n1 := n_intr_mass_le & [ STEM < "retrovídeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retrovídeo_n_rel" ] ]. retráctil_a1 := a_rel_nonprd_intr_le & [ STEM < "retráctil" >, SYNSEM.LKEYS.KEYREL.PRED "_retráctil_a_rel" ]. retrógradamente_x1 := av_i_spr_le & [ STEM < "retrógradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retrógradamente_x_rel" ]. retrógrado_a1 := a_qual_intr_ser_le & [ STEM < "retrógrado" >, SYNSEM.LKEYS.KEYREL.PRED "_retrógrado_a_rel" ]. retumbar_v := v_intr_le & [ STEM < "retumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_retumbar_v_rel" ]. retén_n1 := n_intr_coll_le & [ STEM < "retén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_retén_n_rel" ] ]. retícula_n1 := n_intr_coll_le & [ STEM < "retícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_retícula_n_rel" ] ]. retículo_n1 := n_intr_mass-or-count_le & [ STEM < "retículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_retículo_n_rel" ] ]. retóricamente_x1 := av_i_spr_le & [ STEM < "retóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_retóricamente_x_rel" ]. retórico_a1 := a_rel_nonprd_intr_le & [ STEM < "retórico" >, SYNSEM.LKEYS.KEYREL.PRED "_retórico_a_rel" ]. retórico_n1 := n_intr_count_le & [ STEM < "retórico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_retórico_n_rel" ] ]. reubicabilidad_n1 := n_intr_uncount_le & [ STEM < "reubicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reubicabilidad_n_rel" ] ]. reubicable_a1 := a_rel_prd_le & [ STEM < "reubicable" >, SYNSEM.LKEYS.KEYREL.PRED "_reubicable_a_rel" ]. reubicación_n1 := n_intr_mass_le & [ STEM < "reubicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_reubicación_n_rel" ] ]. reubicar_v := v_trans_np_lcomp_loc*_le & [ STEM < "reubicar" >, SYNSEM.LKEYS.KEYREL.PRED "_reubicar_v_rel" ]. reumatismo_n1 := n_intr_uncount_le & [ STEM < "reumatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reumatismo_n_rel" ] ]. reumatoide_a1 := a_rel_nonprd_intr_le & [ STEM < "reumatoide" >, SYNSEM.LKEYS.KEYREL.PRED "_reumatoide_a_rel" ]. reumatoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "reumatoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_reumatoideo_a_rel" ]. reumatología_n1 := n_intr_uncount_le & [ STEM < "reumatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reumatología_n_rel" ] ]. reumático_a1 := a_rel_nonprd_intr_le & [ STEM < "reumático" >, SYNSEM.LKEYS.KEYREL.PRED "_reumático_a_rel" ]. reunidora_n1 := n_intr_count_le & [ STEM < "reunidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reunidora_n_rel" ] ]. reunificación_n1 := n_trans_le & [ STEM < "reunificación" >, SYNSEM.LKEYS.KEYREL.PRED "_reunificación_n_rel" ]. reunir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "reunir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_reunir_v_rel" ] ] ]. reunir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "reunir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_reunir_v_rel" ] ]. reunir_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "reunir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_reunir_v_rel" ] ]. reunir_v4 := v_pron_unacc_lcomp_loc*_le & [ STEM < "reunir" >, SYNSEM.LKEYS.KEYREL.PRED "_reunir_v_rel" ]. reunir_v5 := v_trans_np_le & [ STEM < "reunir" >, SYNSEM.LKEYS.KEYREL.PRED "_reunir_v_rel" ]. reunión_n1 := n_result_intr_le & [ STEM < "reunión" >, SYNSEM.LKEYS.KEYREL.PRED "_reunión_n_rel" ]. reusabilidad_n1 := n_intr_uncount_le & [ STEM < "reusabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reusabilidad_n_rel" ] ]. reusense_a1 := a_rel_prd_le & [ STEM < "reusense" >, SYNSEM.LKEYS.KEYREL.PRED "_reusense_a_rel" ]. reusense_n1 := n_intr_count_le & [ STEM < "reusense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reusense_n_rel" ] ]. reutilidad_n1 := n_intr_uncount_le & [ STEM < "reutilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reutilidad_n_rel" ] ]. reutilizable_a1 := a_rel_prd_le & [ STEM < "reutilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_reutilizable_a_rel" ]. reutilización_n1 := n_trans_le & [ STEM < "reutilización" >, SYNSEM.LKEYS.KEYREL.PRED "_reutilización_n_rel" ]. reutilizar_v := v_trans_np_le & [ STEM < "reutilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_reutilizar_v_rel" ]. revalidar_v := v_trans_np_le & [ STEM < "revalidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs, PRED "_revalidar_v_rel" ] ]. revalorización_n1 := n_trans_le & [ STEM < "revalorización" >, SYNSEM.LKEYS.KEYREL.PRED "_revalorización_n_rel" ]. revalorizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "revalorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_revalorizar_v_rel" ]. revalorizar_v2 := v_trans_np_le & [ STEM < "revalorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_revalorizar_v_rel" ]. revaluación_n1 := n_trans_le & [ STEM < "revaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_revaluación_n_rel" ]. revascularización_n1 := n_trans_le & [ STEM < "revascularización" >, SYNSEM.LKEYS.KEYREL.PRED "_revascularización_n_rel" ]. revectorización_n1 := n_trans_le & [ STEM < "revectorización" >, SYNSEM.LKEYS.KEYREL.PRED "_revectorización_n_rel" ]. revegetación_n1 := n_intr_count_le & [ STEM < "revegetación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_revegetación_n_rel" ] ]. revelación_n1 := n_trans_le & [ STEM < "revelación" >, SYNSEM.LKEYS.KEYREL.PRED "_revelación_n_rel" ]. revelado_n1 := n_trans_le & [ STEM < "revelado" >, SYNSEM.LKEYS.KEYREL.PRED "_revelado_n_rel" ]. revelador_n1 := n_intr_count_le & [ STEM < "revelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_revelador_n_rel" ] ]. reveladoramente_x1 := av_i_spr_le & [ STEM < "reveladoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_reveladoramente_x_rel" ]. revelar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "revelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_revelar_v_rel" ] ]. revelar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "revelar" >, SYNSEM.LKEYS.KEYREL.PRED "_revelar_v_rel" ]. revelar_v3 := v_ditrans*_le & [ STEM < "revelar" >, SYNSEM.LKEYS.KEYREL.PRED "_revelar_v_rel" ]. revendedor_n1 := n_subj-nom_le & [ STEM < "revendedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_revendedor_n_rel" ] ]. revender_v1 := v_ditrans*_le & [ STEM < "revender" >, SYNSEM.LKEYS.KEYREL.PRED "_revender_v_rel" ]. revender_v2 := v_intr_le & [ STEM < "revender" >, SYNSEM.LKEYS.KEYREL.PRED "_revender_v_rel" ]. revenible_a1 := a_rel_nonprd_intr_le & [ STEM < "revenible" >, SYNSEM.LKEYS.KEYREL.PRED "_revenible_a_rel" ]. reventar_v1 := v_intr_io*_le & [ STEM < "reventar" >, SYNSEM.LKEYS.KEYREL.PRED "_reventar_v_rel" ]. reventar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "reventar" >, SYNSEM.LKEYS.KEYREL.PRED "_reventar_v_rel" ]. reventar_v3 := v_trans_np_caus_int_le & [ STEM < "reventar" >, SYNSEM.LKEYS.KEYREL.PRED "_reventar_v_rel" ]. reverberación_n1 := n_event-result_intr_le & [ STEM < "reverberación" >, SYNSEM.LKEYS.KEYREL.PRED "_reverberación_n_rel" ]. reverberante_a1 := a_qual_intr_ser_le & [ STEM < "reverberante" >, SYNSEM.LKEYS.KEYREL.PRED "_reverberante_a_rel" ]. reverberantemente_x1 := av_i_spr_le & [ STEM < "reverberantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reverberantemente_x_rel" ]. reverberar_v := v_unacc_lcomp_loc*_le & [ STEM < "reverberar" >, SYNSEM.LKEYS.KEYREL.PRED "_reverberar_v_rel" ]. reverencia_n1 := n_intr_count_le & [ STEM < "reverencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reverencia_n_rel" ] ]. reverencial_a1 := a_rel_nonprd_intr_le & [ STEM < "reverencial" >, SYNSEM.LKEYS.KEYREL.PRED "_reverencial_a_rel" ]. reverenciar_v := v_trans_np_le & [ STEM < "reverenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_reverenciar_v_rel" ]. reverendo_n1 := n_intr_count_le & [ STEM < "reverendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reverendo_n_rel" ] ]. reverente_a1 := a_qual_intr_ser_le & [ STEM < "reverente" >, SYNSEM.LKEYS.KEYREL.PRED "_reverente_a_rel" ]. reversibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "reversibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reversibilidad_n_rel" ] ]. reversible_a1 := a_rel_prd_le & [ STEM < "reversible" >, SYNSEM.LKEYS.KEYREL.PRED "_reversible_a_rel" ]. reversiblemente_x1 := av_i_spr_le & [ STEM < "reversiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_reversiblemente_x_rel" ]. reversional_a1 := a_rel_nonprd_intr_le & [ STEM < "reversional" >, SYNSEM.LKEYS.KEYREL.PRED "_reversional_a_rel" ]. reversión_n1 := n_trans_le & [ STEM < "reversión" >, SYNSEM.LKEYS.KEYREL.PRED "_reversión_n_rel" ]. revertible_a1 := a_rel_nonprd_intr_le & [ STEM < "revertible" >, SYNSEM.LKEYS.KEYREL.PRED "_revertible_a_rel" ]. revertir_v1 := v_intr_mrkd_np_le & [ STEM < "revertir" >, SYNSEM.LKEYS [ --COMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_revertir_v_rel" ] ]. revertir_v2 := v_trans_np_le & [ STEM < "revertir" >, SYNSEM.LKEYS.KEYREL.PRED "_revertir_v_rel" ]. revestimiento_n1 := n_trans_le & [ STEM < "revestimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_revestimiento_n_rel" ]. revestir_v1 := v_intr_mrkd_np_le & [ STEM < "revestir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_cnc_pro, PRED "_revestir_v_rel" ] ] ]. revestir_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "revestir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_revestir_v_rel" ] ]. revestir_v3 := v_trans_np_mrkd_np*_le & [ STEM < "revestir" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL [ ARG1.SORT hum_mat_pot, ARG2.SORT cnc_loc_mat, ARG3.SORT cnc_mat, PRED "_revestir_v_rel" ] ] ]. revestir_v4 := v_trans_np_le & [ STEM < "revestir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs, ARG2.SORT abs, PRED "_revestir_v_rel" ] ]. reviradamente_x1 := av_i_spr_le & [ STEM < "reviradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_reviradamente_x_rel" ]. revisable_a1 := a_rel_prd_le & [ STEM < "revisable" >, SYNSEM.LKEYS.KEYREL.PRED "_revisable_a_rel" ]. revisionismo_n1 := n_intr_uncount_le & [ STEM < "revisionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revisionismo_n_rel" ] ]. revisionista_a1 := a_rel_nonprd_intr_le & [ STEM < "revisionista" >, SYNSEM.LKEYS.KEYREL.PRED "_revisionista_a_rel" ]. revisionista_n1 := n_intr_count_le & [ STEM < "revisionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_revisionista_n_rel" ] ]. revisión_n1 := n_trans_le & [ STEM < "revisión" >, SYNSEM.LKEYS.KEYREL.PRED "_revisión_n_rel" ]. revisor_n1 := n_subj-nom_le & [ STEM < "revisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_revisor_n_rel" ] ]. revista_n1 := n_intr_count_le & [ STEM < "revista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_revista_n_rel" ] ]. revistar_v := v_trans_np_le & [ STEM < "revistar" >, SYNSEM.LKEYS.KEYREL.PRED "_revistar_v_rel" ]. revitalización_n1 := n_trans_le & [ STEM < "revitalización" >, SYNSEM.LKEYS.KEYREL.PRED "_revitalización_n_rel" ]. revitalizador_n1 := n_intr_count_le & [ STEM < "revitalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revitalizador_n_rel" ] ]. revitalizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "revitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_revitalizar_v_rel" ]. revitalizar_v2 := v_trans_np_le & [ STEM < "revitalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_revitalizar_v_rel" ]. revivir_v1 := v_intr_le & [ STEM < "revivir" >, SYNSEM.LKEYS.KEYREL.PRED "_revivir_v_rel" ]. revivir_v2 := v_trans_np_le & [ STEM < "revivir" >, SYNSEM.LKEYS.KEYREL.PRED "_revivir_v_rel" ]. reviviscencia_n1 := n_intr_uncount_le & [ STEM < "reviviscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reviviscencia_n_rel" ] ]. revocabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "revocabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revocabilidad_n_rel" ] ]. revocable_a1 := a_rel_prd_le & [ STEM < "revocable" >, SYNSEM.LKEYS.KEYREL.PRED "_revocable_a_rel" ]. revocación_n1 := n_trans_le & [ STEM < "revocación" >, SYNSEM.LKEYS.KEYREL.PRED "_revocación_n_rel" ]. revocatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "revocatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_revocatorio_a_rel" ]. revoco_n1 := n_intr_count_le & [ STEM < "revoco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_revoco_n_rel" ] ]. revolcar_v := v_trans_np_lcomp_loc*_caus_le & [ STEM < "revolcar" >, SYNSEM.LKEYS.KEYREL.PRED "_revolcar_v_rel" ]. revolotear_v := v_unacc_lcomp_loc*_le & [ STEM < "revolotear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_revolotear_v_rel" ] ]. revoloteo_n1 := n_result_intr_le & [ STEM < "revoloteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revoloteo_n_rel" ] ]. revoltoso_a1 := a_qual_intr_ser_le & [ STEM < "revoltoso" >, SYNSEM.LKEYS.KEYREL.PRED "_revoltoso_a_rel" ]. revolucionar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "revolucionar" >, SYNSEM.LKEYS.KEYREL.PRED "_revolucionar_v_rel" ]. revolucionar_v2 := v_trans_np_caus_le & [ STEM < "revolucionar" >, SYNSEM.LKEYS.KEYREL.PRED "_revolucionar_v_rel" ]. revolucionar_v3 := v_trans_np_le & [ STEM < "revolucionar" >, SYNSEM.LKEYS.KEYREL.PRED "_revolucionar_v_rel" ]. revolucionariamente_x1 := av_i_spr_le & [ STEM < "revolucionariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_revolucionariamente_x_rel" ]. revolucionario_a1 := a_qual_intr_ser_le & [ STEM < "revolucionario" >, SYNSEM.LKEYS.KEYREL.PRED "_revolucionario_a_rel" ]. revolucionario_n1 := n_intr_count_le & [ STEM < "revolucionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_revolucionario_n_rel" ] ]. revolución_n1 := n_trans_le & [ STEM < "revolución" >, SYNSEM.LKEYS.KEYREL.PRED "_revolución_n_rel" ]. revolutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "revolutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_revolutivo_a_rel" ]. revolver_v1 := v_intr_io*_le & [ STEM < "revolver" >, SYNSEM.LKEYS.KEYREL.PRED "_revolver_v_rel" ]. revolver_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "revolver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_revolver_v_rel" ] ] ]. revolver_v3 := v_pron_intr_mrkd_np_le & [ STEM < "revolver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_revolver_v_rel" ] ]. revolver_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "revolver" >, SYNSEM.LKEYS.KEYREL.PRED "_revolver_v_rel" ]. revolver_v5 := v_trans_np_caus_le & [ STEM < "revolver" >, SYNSEM.LKEYS.KEYREL.PRED "_revolver_v_rel" ]. revoque_n1 := n_trans_le & [ STEM < "revoque" >, SYNSEM.LKEYS.KEYREL.PRED "_revoque_n_rel" ]. revuelta_n1 := n_intr_count_le & [ STEM < "revuelta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revuelta_n_rel" ] ]. revulsivo_a1 := a_qual_intr_ser_le & [ STEM < "revulsivo" >, SYNSEM.LKEYS.KEYREL.PRED "_revulsivo_a_rel" ]. revólver_n1 := n_intr_count_le & [ STEM < "revólver" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_revólver_n_rel" ] ]. rey_n1 := n_intr_count_le & [ STEM < "rey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rey_n_rel" ] ]. reyerta_n1 := n_intr_count_le & [ STEM < "reyerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reyerta_n_rel" ] ]. reyezuelo_n1 := n_intr_count_le & [ STEM < "reyezuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_reyezuelo_n_rel" ] ]. rezagar_v := v_trans_np_caus_le & [ STEM < "rezagar" >, SYNSEM.LKEYS.KEYREL.PRED "_rezagar_v_rel" ]. rezar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "rezar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_rezar_v_rel" ] ] ]. rezar_v2 := v_intr_mrkd_np_le & [ STEM < "rezar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_rezar_v_rel" ] ] ]. rezongar_v := v_intr_le & [ STEM < "rezongar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rezongar_v_rel" ] ]. rezongar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "rezongar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rezongar_v_rel" ] ]. rezongar_v2 := v_ditrans*_le & [ STEM < "rezongar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rezongar_v_rel" ] ]. rezumamiento_n1 := n_intr_uncount_le & [ STEM < "rezumamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rezumamiento_n_rel" ] ]. rezón_n1 := n_intr_count_le & [ STEM < "rezón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rezón_n_rel" ] ]. reã­r_v1 := v_intr_le & [ STEM < "reír" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_reír_v_rel" ] ]. reã­r_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "reír" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_reír_v_rel" ] ] ]. reã­r_v3 := v_pron_intr_mrkd_np_le & [ STEM < "reír" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_reír_v_rel" ] ]. reñir_v1 := v_intr_mrkd_np*_le & [ STEM < "reñir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_reñir_v_rel" ] ]. reñir_v2 := v_trans_np_le & [ STEM < "reñir" >, SYNSEM.LKEYS.KEYREL.PRED "_reñir_v_rel" ]. reómetro_n1 := n_intr_count_le & [ STEM < "reómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reómetro_n_rel" ] ]. reóstato_n1 := n_intr_count_le & [ STEM < "reóstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_reóstato_n_rel" ] ]. riada_n1 := n_intr_count_le & [ STEM < "riada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_riada_n_rel" ] ]. ribazo_n1 := n_intr_count_le & [ STEM < "ribazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ribazo_n_rel" ] ]. ribera_n1 := n_intr_count_le & [ STEM < "ribera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ribera_n_rel" ] ]. ribereño_a1 := a_rel_prd_le & [ STEM < "ribereño" >, SYNSEM.LKEYS.KEYREL.PRED "_ribereño_a_rel" ]. ribete_n1 := n_intr_count_le & [ STEM < "ribete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ribete_n_rel" ] ]. ribetear_v := v_trans_np_le & [ STEM < "ribetear" >, SYNSEM.LKEYS.KEYREL.PRED "_ribetear_v_rel" ]. riboflavina_n1 := n_intr_count_le & [ STEM < "riboflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_riboflavina_n_rel" ] ]. riboforina_n1 := n_intr_mass_le & [ STEM < "riboforina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_riboforina_n_rel" ] ]. ribonucleasa_n1 := n_intr_count_le & [ STEM < "ribonucleasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ribonucleasa_n_rel" ] ]. ribonucleico_a1 := a_rel_nonprd_intr_le & [ STEM < "ribonucleico" >, SYNSEM.LKEYS.KEYREL.PRED "_ribonucleico_a_rel" ]. ribosa_n1 := n_intr_count_le & [ STEM < "ribosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ribosa_n_rel" ] ]. ribosoma_n1 := n_intr_count_le & [ STEM < "ribosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ribosoma_n_rel" ] ]. ribosomal_a1 := a_rel_nonprd_intr_le & [ STEM < "ribosomal" >, SYNSEM.LKEYS.KEYREL.PRED "_ribosomal_a_rel" ]. ribosómico_a1 := a_rel_nonprd_intr_le & [ STEM < "ribosómico" >, SYNSEM.LKEYS.KEYREL.PRED "_ribosómico_a_rel" ]. ricachón_n1 := n_intr_count_le & [ STEM < "ricachón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ricachón_n_rel" ] ]. ricamente_x1 := av_i_spr_le & [ STEM < "ricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ricamente_x_rel" ]. ricina_n1 := n_intr_count_le & [ STEM < "ricina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ricina_n_rel" ] ]. ricino_n1 := n_intr_mass_le & [ STEM < "ricino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ricino_n_rel" ] ]. ricinoleato_n1 := n_intr_count_le & [ STEM < "ricinoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ricinoleato_n_rel" ] ]. ricinoleico_a1 := a_rel_nonprd_intr_le & [ STEM < "ricinoleico" >, SYNSEM.LKEYS.KEYREL.PRED "_ricinoleico_a_rel" ]. rico_a1 := a_qual_intr_scopal_le & [ STEM < "rico" >, SYNSEM.LKEYS.KEYREL.PRED "_rico_a_rel" ]. ridiculez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ridiculez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ridiculez_n_rel" ] ]. ridiculizar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "ridiculizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ridiculizar_v_rel" ] ]. ridiculizar_v2 := v_trans_np_le & [ STEM < "ridiculizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pro_sem_soc, PRED "_ridiculizar_v_rel" ] ]. ridículamente_x1 := av_i_spr_le & [ STEM < "ridículamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ridículamente_x_rel" ]. ridículo_a1 := a_qual_intr_ser_le & [ STEM < "ridículo" >, SYNSEM.LKEYS.KEYREL.PRED "_ridículo_a_rel" ]. riebeckita_n1 := n_intr_count_le & [ STEM < "riebeckita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_riebeckita_n_rel" ] ]. riego_n1 := n_trans_le & [ STEM < "riego" >, SYNSEM.LKEYS.KEYREL.PRED "_riego_n_rel" ]. riel_n1 := n_intr_count_le & [ STEM < "riel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_riel_n_rel" ] ]. rienda_n1 := n_intr_count_le & [ STEM < "rienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rienda_n_rel" ] ]. riera_n1 := n_intr_count_le & [ STEM < "riera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_riera_n_rel" ] ]. rifle_n1 := n_intr_count_le & [ STEM < "rifle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rifle_n_rel" ] ]. rigidez_n1 := n_ppcomp_uncount_le & [ STEM < "rigidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rigidez_n_rel" ] ]. rigidizador_n1 := n_intr_count_le & [ STEM < "rigidizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rigidizador_n_rel" ] ]. rigola_n1 := n_intr_count_le & [ STEM < "rigola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_rigola_n_rel" ] ]. rigor_n1 := n_intr_mass-or-count_le & [ STEM < "rigor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rigor_n_rel" ] ]. rigorismo_n1 := n_intr_uncount_le & [ STEM < "rigorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rigorismo_n_rel" ] ]. rigorista_n1 := n_intr_count_le & [ STEM < "rigorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rigorista_n_rel" ] ]. rigurosamente_x1 := av_s_spr_le & [ STEM < "rigurosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rigurosamente_x_rel" ]. rigurosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rigurosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rigurosidad_n_rel" ] ]. riguroso_a1 := a_qual_intr_ser_le & [ STEM < "riguroso" >, SYNSEM.LKEYS.KEYREL.PRED "_riguroso_a_rel" ]. rimador_n1 := n_intr_count_le & [ STEM < "rimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rimador_n_rel" ] ]. rimar_v1 := v_intr_mrkd_np_le & [ STEM < "rimar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT abs_sem, PRED "_rimar_v_rel" ] ] ]. rimar_v2 := v_trans_np_le & [ STEM < "rimar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_sem, PRED "_rimar_v_rel" ] ]. rimaya_n1 := n_intr_count_le & [ STEM < "rimaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rimaya_n_rel" ] ]. rimbombancia_n1 := n_ppcomp_mass_le & [ STEM < "rimbombancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rimbombancia_n_rel" ] ]. rimbombante_a1 := a_qual_intr_ser_le & [ STEM < "rimbombante" >, SYNSEM.LKEYS.KEYREL.PRED "_rimbombante_a_rel" ]. rimel_n1 := n_intr_mass_le & [ STEM < "rimel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rimel_n_rel" ] ]. rimero_n1 := n_intr_count_le & [ STEM < "rimero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rimero_n_rel" ] ]. rimmel_n1 := n_intr_mass_le & [ STEM < "rimmel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rimmel_n_rel" ] ]. rinal_a1 := a_rel_nonprd_intr_le & [ STEM < "rinal" >, SYNSEM.LKEYS.KEYREL.PRED "_rinal_a_rel" ]. rinalgia_n1 := n_intr_count_le & [ STEM < "rinalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinalgia_n_rel" ] ]. rinconera_n1 := n_intr_count_le & [ STEM < "rinconera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinconera_n_rel" ] ]. rincón_n1 := n_intr_count_le & [ STEM < "rincón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rincón_n_rel" ] ]. rinencéfalo_n1 := n_ppcomp_count_le & [ STEM < "rinencéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rinencéfalo_n_rel" ] ]. ring_n1 := n_intr_count_le & [ STEM < "ring" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ring_n_rel" ] ]. rinoceronte_n1 := n_intr_count_le & [ STEM < "rinoceronte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rinoceronte_n_rel" ] ]. rinofaringe_n1 := n_ppcomp_count_le & [ STEM < "rinofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rinofaringe_n_rel" ] ]. rinofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "rinofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_rinofaríngeo_a_rel" ]. rinofonía_n1 := n_intr_uncount_pl_le & [ STEM < "rinofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinofonía_n_rel" ] ]. rinolito_n1 := n_intr_count_le & [ STEM < "rinolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinolito_n_rel" ] ]. rinología_n1 := n_intr_uncount_le & [ STEM < "rinología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinología_n_rel" ] ]. rinomanometría_n1 := n_intr_uncount_le & [ STEM < "rinomanometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinomanometría_n_rel" ] ]. rinomanómetro_n1 := n_intr_count_le & [ STEM < "rinomanómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinomanómetro_n_rel" ] ]. rinometría_n1 := n_intr_uncount_pl_le & [ STEM < "rinometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinometría_n_rel" ] ]. rinopatía_n1 := n_intr_uncount_pl_le & [ STEM < "rinopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinopatía_n_rel" ] ]. rinoscleroma_n1 := n_intr_count_le & [ STEM < "rinoscleroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinoscleroma_n_rel" ] ]. rinoscopio_n1 := n_intr_count_le & [ STEM < "rinoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinoscopio_n_rel" ] ]. rinotomía_n1 := n_intr_uncount_pl_le & [ STEM < "rinotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinotomía_n_rel" ] ]. rinólogo_n1 := n_intr_count_le & [ STEM < "rinólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rinólogo_n_rel" ] ]. rinómetro_n1 := n_intr_count_le & [ STEM < "rinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rinómetro_n_rel" ] ]. riojano_n1 := n_intr_count_le & [ STEM < "riojano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_riojano_n_rel" ] ]. riostra_n1 := n_intr_count_le & [ STEM < "riostra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_riostra_n_rel" ] ]. ripabilidad_n1 := n_intr_uncount_le & [ STEM < "ripabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ripabilidad_n_rel" ] ]. ripia_n := n_intr_count_le & [ STEM < "ripia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ripia_n_rel" ] ]. ripio_n1 := n_intr_count_le & [ STEM < "ripio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ripio_n_rel" ] ]. riqueza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "riqueza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_riqueza_n_rel" ] ]. risa_n1 := n_intr_count_le & [ STEM < "risa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_risa_n_rel" ] ]. risco_n1 := n_intr_count_le & [ STEM < "risco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_risco_n_rel" ] ]. risible_a1 := a_qual_intr_ser_le & [ STEM < "risible" >, SYNSEM.LKEYS.KEYREL.PRED "_risible_a_rel" ]. risorio_a1 := a_qual_intr_ser_le & [ STEM < "risorio" >, SYNSEM.LKEYS.KEYREL.PRED "_risorio_a_rel" ]. risotada_n1 := n_intr_count_le & [ STEM < "risotada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_risotada_n_rel" ] ]. risotto_n1 := n_intr_count_le & [ STEM < "risotto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_risotto_n_rel" ] ]. ristocetina_n1 := n_intr_count_le & [ STEM < "ristocetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ristocetina_n_rel" ] ]. ristra_n := n_group_le & [ STEM < "ristra" >, SYNSEM.LKEYS.KEYREL.PRED "_ristra_n_rel" ]. risueño_a1 := a_qual_intr_ser_le & [ STEM < "risueño" >, SYNSEM.LKEYS.KEYREL.PRED "_risueño_a_rel" ]. ritual_a1 := a_rel_nonprd_intr_le & [ STEM < "ritual" >, SYNSEM.LKEYS.KEYREL.PRED "_ritual_a_rel" ]. ritual_n1 := n_intr_count_le & [ STEM < "ritual" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ritual_n_rel" ] ]. ritualismo_n1 := n_intr_uncount_le & [ STEM < "ritualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ritualismo_n_rel" ] ]. ritualista_n1 := n_intr_count_le & [ STEM < "ritualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ritualista_n_rel" ] ]. ritualistamente_x1 := av_i_spr_le & [ STEM < "ritualistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ritualistamente_x_rel" ]. rival_a1 := a_rel_nonprd_intr_le & [ STEM < "rival" >, SYNSEM.LKEYS.KEYREL.PRED "_rival_a_rel" ]. rival_n1 := n_intr_count_le & [ STEM < "rival" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rival_n_rel" ] ]. rivalidad_n1 := n_intr_count_le & [ STEM < "rivalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rivalidad_n_rel" ] ]. rivalizar_v1 := v_intr_mrkd_np*_le & [ STEM < "rivalizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_rivalizar_v_rel" ] ]. rivalizar_v2 := v_intr_mrkd_np_le & [ STEM < "rivalizar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_rivalizar_v_rel" ] ]. rivanol_n1 := n_intr_count_le & [ STEM < "rivanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rivanol_n_rel" ] ]. rizador_a1 := a_rel_nonprd_intr_le & [ STEM < "rizador" >, SYNSEM.LKEYS.KEYREL.PRED "_rizador_a_rel" ]. rizadoramente_x1 := av_i_spr_le & [ STEM < "rizadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_rizadoramente_x_rel" ]. rizadura_n1 := n_intr_count_le & [ STEM < "rizadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rizadura_n_rel" ] ]. rizo_n1 := n_intr_count_le & [ STEM < "rizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rizo_n_rel" ] ]. rizobio_n1 := n_intr_count_le & [ STEM < "rizobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rizobio_n_rel" ] ]. rizoma_n1 := n_intr_count_le & [ STEM < "rizoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rizoma_n_rel" ] ]. rizosfera_n1 := n_intr_uncount_pl_le & [ STEM < "rizosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rizosfera_n_rel" ] ]. rizópodo_n1 := n_intr_count_le & [ STEM < "rizópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rizópodo_n_rel" ] ]. riñonera_n1 := n_intr_count_le & [ STEM < "riñonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_riñonera_n_rel" ] ]. riñón_n1 := n_intr_mass_le & [ STEM < "riñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_riñón_n_rel" ] ]. rna_n1 := n_intr_mass_le & [ STEM < "RNA" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rna_n_rel" ] ]. roano_a1 := a_rel_nonprd_intr_le & [ STEM < "roano" >, SYNSEM.LKEYS.KEYREL.PRED "_roano_a_rel" ]. robar_v1 := v_ditrans*_le & [ STEM < "robar" >, SYNSEM.LKEYS.KEYREL.PRED "_robar_v_rel" ]. robar_v2 := v_trans_np*_io_le & [ STEM < "robar" >, SYNSEM.LKEYS.KEYREL.PRED "_robar_v_rel" ]. robinetería_n1 := n_intr_count_le & [ STEM < "robinetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_robinetería_n_rel" ] ]. robinia_n1 := n_intr_count_le & [ STEM < "robinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_robinia_n_rel" ] ]. roble_n1 := n_intr_mass-or-count_le & [ STEM < "roble" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_roble_n_rel" ] ]. robledal_n1 := n_intr_count_le & [ STEM < "robledal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_robledal_n_rel" ] ]. robledar_n1 := n_intr_count_le & [ STEM < "robledar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_robledar_n_rel" ] ]. roblonadora_n1 := n_intr_count_le & [ STEM < "roblonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roblonadora_n_rel" ] ]. roblón_n1 := n_intr_count_le & [ STEM < "roblón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roblón_n_rel" ] ]. robot_n1 := n_intr_count_le & [ STEM < "robot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_robot_n_rel" ] ]. robotización_n1 := n_trans_le & [ STEM < "robotización" >, SYNSEM.LKEYS.KEYREL.PRED "_robotización_n_rel" ]. robustamente_x1 := av_i_spr_le & [ STEM < "robustamente" >, SYNSEM.LKEYS.KEYREL.PRED "_robustamente_x_rel" ]. robustecer_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "robustecer" >, SYNSEM.LKEYS.KEYREL.PRED "_robustecer_v_rel" ]. robustecer_v2 := v_trans_np_caus_le & [ STEM < "robustecer" >, SYNSEM.LKEYS.KEYREL.PRED "_robustecer_v_rel" ]. robustez_n1 := n_ppcomp_uncount_le & [ STEM < "robustez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_robustez_n_rel" ] ]. robusto_a1 := a_qual_intr_scopal_le & [ STEM < "robusto" >, SYNSEM.LKEYS.KEYREL.PRED "_robusto_a_rel" ]. robótico_a1 := a_rel_nonprd_intr_le & [ STEM < "robótico" >, SYNSEM.LKEYS.KEYREL.PRED "_robótico_a_rel" ]. roca_n1 := n_intr_mass_le & [ STEM < "roca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roca_n_rel" ] ]. rocalla_n1 := n_intr_mass-or-count_le & [ STEM < "rocalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_rocalla_n_rel" ] ]. rocalle_n1 := n_intr_coll_le & [ STEM < "rocalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_rocalle_n_rel" ] ]. rociador_n1 := n_intr_count_le & [ STEM < "rociador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rociador_n_rel" ] ]. rociadura_n1 := n_trans_le & [ STEM < "rociadura" >, SYNSEM.LKEYS.KEYREL.PRED "_rociadura_n_rel" ]. rociar_v1 := v_impers_strict_intr_le & [ STEM < "rociar" >, SYNSEM.LKEYS.KEYREL.PRED "_rociar_v_rel" ]. rociar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "rociar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_rociar_v_rel" ] ]. roción_n1 := n_intr_count_le & [ STEM < "roción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_roción_n_rel" ] ]. rockero_a1 := a_rel_nonprd_intr_le & [ STEM < "rockero" >, SYNSEM.LKEYS.KEYREL.PRED "_rockero_a_rel" ]. rococó_a1 := a_rel_nonprd_intr_le & [ STEM < "rococó" >, SYNSEM.LKEYS.KEYREL.PRED "_rococó_a_rel" ]. rocosamente_x1 := av_i_spr_le & [ STEM < "rocosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rocosamente_x_rel" ]. rocoso_a1 := a_qual_intr_ser_le & [ STEM < "rocoso" >, SYNSEM.LKEYS.KEYREL.PRED "_rocoso_a_rel" ]. rocín_n1 := n_intr_count_le & [ STEM < "rocín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rocín_n_rel" ] ]. rocío_n1 := n_intr_mass_le & [ STEM < "rocío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_rocío_n_rel" ] ]. rocódromo_n1 := n_intr_count_le & [ STEM < "rocódromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rocódromo_n_rel" ] ]. roda_n1 := n_intr_count_le & [ STEM < "roda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roda_n_rel" ] ]. rodaballo_n1 := n_intr_count_le & [ STEM < "rodaballo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rodaballo_n_rel" ] ]. rodador_a1 := a_qual_intr_ser_le & [ STEM < "rodador" >, SYNSEM.LKEYS.KEYREL.PRED "_rodador_a_rel" ]. rodador_a2 := a_rel_nonprd_intr_le & [ STEM < "rodador" >, SYNSEM.LKEYS.KEYREL.PRED "_rodador_a_rel" ]. rodadormente_x1 := av_i_spr_le & [ STEM < "rodadormente" >, SYNSEM.LKEYS.KEYREL.PRED "_rodadormente_x_rel" ]. rodadura_n1 := n_trans_le & [ STEM < "rodadura" >, SYNSEM.LKEYS.KEYREL.PRED "_rodadura_n_rel" ]. rodadura_n2 := n_event-result_intr_le & [ STEM < "rodadura" >, SYNSEM.LKEYS.KEYREL.PRED "_rodadura_n_rel" ]. rodaja_n1 := n_pseudo-part_le & [ STEM < "rodaja" >, SYNSEM.LKEYS.KEYREL.PRED "_rodaja_n_rel" ]. rodaje_n1 := n_intr_count_le & [ STEM < "rodaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodaje_n_rel" ] ]. rodal_n1 := n_intr_count_le & [ STEM < "rodal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodal_n_rel" ] ]. rodamiento_n1 := n_intr_count_le & [ STEM < "rodamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rodamiento_n_rel" ] ]. rodamina_n1 := n_intr_mass-or-count_le & [ STEM < "rodamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_rodamina_n_rel" ] ]. rodanina_n1 := n_intr_count_le & [ STEM < "rodanina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rodanina_n_rel" ] ]. rodante_a1 := a_rel_nonprd_intr_le & [ STEM < "rodante" >, SYNSEM.LKEYS.KEYREL.PRED "_rodante_a_rel" ]. rodar_v1 := v_trans_np_le & [ STEM < "rodar" >, SYNSEM.LKEYS.KEYREL.PRED "_rodar_v_rel" ]. rodar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "rodar" >, SYNSEM.LKEYS.KEYREL.PRED "_rodar_v_rel" ]. rodear_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "rodear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_rodear_v_rel" ] ]. rodear_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "rodear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_rodear_v_rel" ] ]. rodear_v3 := v_trans_np_mrkd_np*_le & [ STEM < "rodear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_rodear_v_rel" ] ]. rodeno_a1 := a_qual_intr_ser_le & [ STEM < "rodeno" >, SYNSEM.LKEYS.KEYREL.PRED "_rodeno_a_rel" ]. rodeo_n1 := n_intr_count_le & [ STEM < "rodeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodeo_n_rel" ] ]. rodera_n1 := n_intr_count_le & [ STEM < "rodera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodera_n_rel" ] ]. rodesiano_a1 := a_rel_prd_le & [ STEM < "rodesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_rodesiano_a_rel" ]. rodesiano_n1 := n_intr_count_le & [ STEM < "rodesiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rodesiano_n_rel" ] ]. rodesio_n1 := n_intr_count_le & [ STEM < "rodesio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rodesio_n_rel" ] ]. rodete_n1 := n_intr_count_le & [ STEM < "rodete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rodete_n_rel" ] ]. rodilla_n1 := n_ppcomp_count_le & [ STEM < "rodilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rodilla_n_rel" ] ]. rodillera_n1 := n_intr_count_le & [ STEM < "rodillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rodillera_n_rel" ] ]. rodillo_n1 := n_intr_count_le & [ STEM < "rodillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rodillo_n_rel" ] ]. rodinol_n1 := n_intr_count_le & [ STEM < "rodinol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rodinol_n_rel" ] ]. rodio_n1 := n_intr_mass_le & [ STEM < "rodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rodio_n_rel" ] ]. rodocrosita_n1 := n_intr_count_le & [ STEM < "rodocrosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rodocrosita_n_rel" ] ]. rododendro_n1 := n_intr_count_le & [ STEM < "rododendro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_rododendro_n_rel" ] ]. rodonita_n1 := n_intr_count_le & [ STEM < "rodonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rodonita_n_rel" ] ]. rodopsina_n1 := n_intr_count_le & [ STEM < "rodopsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rodopsina_n_rel" ] ]. roedor_a1 := a_rel_nonprd_intr_le & [ STEM < "roedor" >, SYNSEM.LKEYS.KEYREL.PRED "_roedor_a_rel" ]. roedor_n1 := n_intr_count_le & [ STEM < "roedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_roedor_n_rel" ] ]. roedoramente_x1 := av_i_spr_le & [ STEM < "roedoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_roedoramente_x_rel" ]. roel_n1 := n_intr_count_le & [ STEM < "roel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roel_n_rel" ] ]. roentgenográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "roentgenográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_roentgenográfico_a_rel" ]. roer_v := v_trans_np_le & [ STEM < "roer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pro, PRED "_roer_v_rel" ] ]. rogación_n1 := n_trans_le & [ STEM < "rogación" >, SYNSEM.LKEYS.KEYREL.PRED "_rogación_n_rel" ]. rogar_v1 := v_ditrans*_le & [ STEM < "rogar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rogar_v_rel" ] ]. rogar_v2 := v_ditrans_s_or_cp_prop_fin_sub_le & [ STEM < "rogar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rogar_v_rel" ] ]. rogatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "rogatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_rogatorio_a_rel" ]. rojez_n1 := n_ppcomp_uncount_le & [ STEM < "rojez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rojez_n_rel" ] ]. rojiblanco_a1 := a_qual_intr_ser_le & [ STEM < "rojiblanco" >, SYNSEM.LKEYS.KEYREL.PRED "_rojiblanco_a_rel" ]. rojizo_a1 := a_qual_intr_ser_le & [ STEM < "rojizo" >, SYNSEM.LKEYS.KEYREL.PRED "_rojizo_a_rel" ]. rojo_a1 := a_qual_intr_ser_le & [ STEM < "rojo" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_a_rel" ]. rojo_cereza_a1 := a_qual_intr_ser_le & [ STEM < "rojo_cereza" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_cereza_a_rel" ]. rojo_encendido_a1 := a_qual_intr_ser_le & [ STEM < "rojo_encendido" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_encendido_a_rel" ]. rojo_oscuro_a1 := a_qual_intr_ser_le & [ STEM < "rojo_oscuro" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_oscuro_a_rel" ]. rojo_pálido_a1 := a_qual_intr_ser_le & [ STEM < "rojo_pálido" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_pálido_a_rel" ]. rojo_salmón_a1 := a_qual_intr_ser_le & [ STEM < "rojo_salmón" >, SYNSEM.LKEYS.KEYREL.PRED "_rojo_salmón_a_rel" ]. rolada_n1 := n_intr_count_le & [ STEM < "rolada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rolada_n_rel" ] ]. rolar_v := v_intr_le & [ STEM < "rolar" >, SYNSEM.LKEYS.KEYREL.PRED "_rolar_v_rel" ]. roldana_n1 := n_intr_count_le & [ STEM < "roldana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roldana_n_rel" ] ]. rollizamente_x1 := av_i_spr_le & [ STEM < "rollizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rollizamente_x_rel" ]. rollizo_a1 := a_qual_intr_ser_le & [ STEM < "rollizo" >, SYNSEM.LKEYS.KEYREL.PRED "_rollizo_a_rel" ]. rollo_n1 := n_intr_count_le & [ STEM < "rollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rollo_n_rel" ] ]. romanato_n1 := n_intr_count_le & [ STEM < "romanato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_romanato_n_rel" ] ]. romance_n1 := n_intr_count_le & [ STEM < "romance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_romance_n_rel" ] ]. romancero_n1 := n_intr_count_le & [ STEM < "romancero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_romancero_n_rel" ] ]. romanista_n1 := n_intr_count_le & [ STEM < "romanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_romanista_n_rel" ] ]. romanización_n1 := n_trans_le & [ STEM < "romanización" >, SYNSEM.LKEYS.KEYREL.PRED "_romanización_n_rel" ]. romano_a1 := a_rel_prd_le & [ STEM < "romano" >, SYNSEM.LKEYS.KEYREL.PRED "_romano_a_rel" ]. romano_n1 := n_intr_count_le & [ STEM < "romano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_romano_n_rel" ] ]. romanticismo_n1 := n_intr_mass_le & [ STEM < "romanticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_tmp, PRED "_romanticismo_n_rel" ] ]. rombal_a1 := a_qual_intr_ser_le & [ STEM < "rombal" >, SYNSEM.LKEYS.KEYREL.PRED "_rombal_a_rel" ]. rombalmente_x1 := av_i_spr_le & [ STEM < "rombalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_rombalmente_x_rel" ]. rombencéfalo_n1 := n_ppcomp_count_le & [ STEM < "rombencéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rombencéfalo_n_rel" ] ]. rombo_n1 := n_intr_count_le & [ STEM < "rombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rombo_n_rel" ] ]. romboedro_n1 := n_intr_count_le & [ STEM < "romboedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_romboedro_n_rel" ] ]. romboidal_a1 := a_qual_intr_ser_le & [ STEM < "romboidal" >, SYNSEM.LKEYS.KEYREL.PRED "_romboidal_a_rel" ]. romboidalmente_x1 := av_i_spr_le & [ STEM < "romboidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_romboidalmente_x_rel" ]. romboide_a1 := a_qual_intr_ser_le & [ STEM < "romboide" >, SYNSEM.LKEYS.KEYREL.PRED "_romboide_a_rel" ]. romboideo_a1 := a_qual_intr_ser_le & [ STEM < "romboideo" >, SYNSEM.LKEYS.KEYREL.PRED "_romboideo_a_rel" ]. romboédrico_a1 := a_qual_intr_ser_le & [ STEM < "romboédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_romboédrico_a_rel" ]. romerillo_n1 := n_intr_count_le & [ STEM < "romerillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_romerillo_n_rel" ] ]. romero_n1 := n_intr_mass_le & [ STEM < "romero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_romero_n_rel" ] ]. romería_n1 := n_intr_count_le & [ STEM < "romería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_romería_n_rel" ] ]. rompecorazones_n1 := n_intr_count_le & [ STEM < "rompecorazones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rompecorazones_n_rel" ] ]. rompedor_a1 := a_rel_nonprd_intr_le & [ STEM < "rompedor" >, SYNSEM.LKEYS.KEYREL.PRED "_rompedor_a_rel" ]. rompehielos_n1 := n_intr_count_le & [ STEM < "rompehielos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_rompehielos_n_rel" ] ]. rompehuelgas_n1 := n_intr_count_le & [ STEM < "rompehuelgas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rompehuelgas_n_rel" ] ]. rompeolas_n1 := n_intr_count_le & [ STEM < "rompeolas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rompeolas_n_rel" ] ]. romper_v := v_trans_np_mrkd_np_le & [ STEM < "romper" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_romper_v_rel" ] ]. romper_v1 := v_intr_mrkd_np_le & [ STEM < "romper" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_romper_v_rel" ] ]. romper_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "romper" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_romper_v_rel" ] ]. romper_v3 := v_trans_np_caus_le & [ STEM < "romper" >, SYNSEM.LKEYS.KEYREL.PRED "_romper_v_rel" ]. romper_v4 := v_intr_mrkd_vp_ssr_le & [ STEM < "romper" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_romper_v_rel" ] ]. rompevirutas_n1 := n_intr_count_le & [ STEM < "rompevirutas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rompevirutas_n_rel" ] ]. rompimiento_n1 := n_trans_le & [ STEM < "rompimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rompimiento_n_rel" ]. románico_a1 := a_rel_nonprd_intr_le & [ STEM < "románico" >, SYNSEM.LKEYS.KEYREL.PRED "_románico_a_rel" ]. románticamente_x1 := av_i_spr_le & [ STEM < "románticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_románticamente_x_rel" ]. romántico_a1 := a_qual_intr_ser_le & [ STEM < "romántico" >, SYNSEM.LKEYS.KEYREL.PRED "_romántico_a_rel" ]. ron_n1 := n_intr_mass_le & [ STEM < "ron" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ron_n_rel" ] ]. roncamente_x1 := av_i_spr_le & [ STEM < "roncamente" >, SYNSEM.LKEYS.KEYREL.PRED "_roncamente_x_rel" ]. roncar_v := v_intr_le & [ STEM < "roncar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_roncar_v_rel" ] ]. roncha_n1 := n_intr_count_le & [ STEM < "roncha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roncha_n_rel" ] ]. ronco_a1 := a_qual_intr_ser_le & [ STEM < "ronco" >, SYNSEM.LKEYS.KEYREL.PRED "_ronco_a_rel" ]. roncón_n1 := n_intr_count_le & [ STEM < "roncón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roncón_n_rel" ] ]. rondada_n1 := n_intr_count_le & [ STEM < "rondada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rondada_n_rel" ] ]. rondalla_n1 := n_intr_count_le & [ STEM < "rondalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_rondalla_n_rel" ] ]. rondeño_n1 := n_intr_count_le & [ STEM < "rondeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rondeño_n_rel" ] ]. ronquera_n1 := n_intr_uncount_pl_le & [ STEM < "ronquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ronquera_n_rel" ] ]. ronquido_n1 := n_intr_count_le & [ STEM < "ronquido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ronquido_n_rel" ] ]. ronronear_v := v_intr_le & [ STEM < "ronronear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_ronronear_v_rel" ] ]. ronroneo_n1 := n_result_intr_le & [ STEM < "ronroneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ronroneo_n_rel" ] ]. ronzal_n1 := n_intr_count_le & [ STEM < "ronzal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ronzal_n_rel" ] ]. ropa_n1 := n_intr_coll_le & [ STEM < "ropa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ropa_n_rel" ] ]. ropaje_n1 := n_intr_mass_le & [ STEM < "ropaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ropaje_n_rel" ] ]. ropero_n1 := n_intr_count_le & [ STEM < "ropero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ropero_n_rel" ] ]. roque_n1 := n_intr_count_le & [ STEM < "roque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roque_n_rel" ] ]. roqueda_n1 := n_intr_count_le & [ STEM < "roqueda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roqueda_n_rel" ] ]. roquefort_n1 := n_intr_mass_le & [ STEM < "roquefort" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roquefort_n_rel" ] ]. roquete_n1 := n_intr_count_le & [ STEM < "roquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roquete_n_rel" ] ]. rosa_a1 := a_qual_intr_ser_le & [ STEM < "rosa" >, SYNSEM.LKEYS.KEYREL.PRED "_rosa_a_rel" ]. rosa_n1 := n_intr_mass-or-count_le & [ STEM < "rosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_rosa_n_rel" ] ]. rosada_n1 := n_intr_mass-or-count_le & [ STEM < "rosada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rosada_n_rel" ] ]. rosal_n1 := n_intr_count_le & [ STEM < "rosal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_rosal_n_rel" ] ]. rosaleda_n1 := n_intr_count_le & [ STEM < "rosaleda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rosaleda_n_rel" ] ]. rosario_n1 := n_intr_count_le & [ STEM < "rosario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_rosario_n_rel" ] ]. rosbif_n1 := n_intr_count_le & [ STEM < "rosbif" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rosbif_n_rel" ] ]. rosca_n1 := n_intr_count_le & [ STEM < "rosca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rosca_n_rel" ] ]. roscadora_n1 := n_intr_count_le & [ STEM < "roscadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roscadora_n_rel" ] ]. roscar_v := v_trans_np_le & [ STEM < "roscar" >, SYNSEM.LKEYS.KEYREL.PRED "_roscar_v_rel" ]. roscoelita_n1 := n_intr_count_le & [ STEM < "roscoelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_roscoelita_n_rel" ] ]. roscón_n1 := n_intr_count_le & [ STEM < "roscón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roscón_n_rel" ] ]. roseta_n1 := n_intr_count_le & [ STEM < "roseta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roseta_n_rel" ] ]. rosetón_n1 := n_intr_count_le & [ STEM < "rosetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rosetón_n_rel" ] ]. rosquilla_n1 := n_intr_count_le & [ STEM < "rosquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rosquilla_n_rel" ] ]. rosticería_n1 := n_intr_count_le & [ STEM < "rosticería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_rosticería_n_rel" ] ]. rostral_a1 := a_rel_nonprd_intr_le & [ STEM < "rostral" >, SYNSEM.LKEYS.KEYREL.PRED "_rostral_a_rel" ]. rostro_n1 := n_intr_count_le & [ STEM < "rostro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rostro_n_rel" ] ]. rosáceamente_x1 := av_i_spr_le & [ STEM < "rosáceamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rosáceamente_x_rel" ]. rosáceo_a1 := a_qual_intr_ser_le & [ STEM < "rosáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_rosáceo_a_rel" ]. rotabilidad_n1 := n_intr_uncount_le & [ STEM < "rotabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rotabilidad_n_rel" ] ]. rotacional_a1 := a_rel_nonprd_intr_le & [ STEM < "rotacional" >, SYNSEM.LKEYS.KEYREL.PRED "_rotacional_a_rel" ]. rotacionalmente_x1 := av_i_spr_le & [ STEM < "rotacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_rotacionalmente_x_rel" ]. rotacismo_n1 := n_intr_uncount_le & [ STEM < "rotacismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rotacismo_n_rel" ] ]. rotación_n1 := n_trans_le & [ STEM < "rotación" >, SYNSEM.LKEYS.KEYREL.PRED "_rotación_n_rel" ]. rotador_a1 := a_rel_nonprd_intr_le & [ STEM < "rotador" >, SYNSEM.LKEYS.KEYREL.PRED "_rotador_a_rel" ]. rotador_n1 := n_intr_count_le & [ STEM < "rotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotador_n_rel" ] ]. rotante_a1 := a_rel_nonprd_intr_le & [ STEM < "rotante" >, SYNSEM.LKEYS.KEYREL.PRED "_rotante_a_rel" ]. rotantemente_x1 := av_i_spr_le & [ STEM < "rotantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_rotantemente_x_rel" ]. rotar_v := v_unacc_lcomp_dir*_le & [ STEM < "rotar" >, SYNSEM.LKEYS.KEYREL.PRED "_rotar_v_rel" ]. rotativamente_x1 := av_i_spr_le & [ STEM < "rotativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rotativamente_x_rel" ]. rotativo_a1 := a_rel_nonprd_intr_le & [ STEM < "rotativo" >, SYNSEM.LKEYS.KEYREL.PRED "_rotativo_a_rel" ]. rotativo_n1 := n_intr_count_le & [ STEM < "rotativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotativo_n_rel" ] ]. rotatoriamente_x1 := av_i_spr_le & [ STEM < "rotatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rotatoriamente_x_rel" ]. rotatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "rotatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_rotatorio_a_rel" ]. rotenona_n1 := n_intr_mass-or-count_le & [ STEM < "rotenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_rotenona_n_rel" ] ]. roterde_n1 := n_intr_mass_le & [ STEM < "roterde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_roterde_n_rel" ] ]. rotlehm_n1 := n_intr_mass_le & [ STEM < "rotlehm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rotlehm_n_rel" ] ]. roto_a1 := a_qual_intr_estar_le & [ STEM < "roto" >, SYNSEM.LKEYS.KEYREL.PRED "_roto_a_rel" ]. rotoarado_n1 := n_intr_count_le & [ STEM < "rotoarado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotoarado_n_rel" ] ]. rotocultivador_n1 := n_intr_count_le & [ STEM < "rotocultivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rotocultivador_n_rel" ] ]. rotocultor_n1 := n_intr_count_le & [ STEM < "rotocultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_rotocultor_n_rel" ] ]. rotoempacadora_n1 := n_intr_count_le & [ STEM < "rotoempacadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotoempacadora_n_rel" ] ]. rotonda_n1 := n_intr_count_le & [ STEM < "rotonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_rotonda_n_rel" ] ]. rotor_n1 := n_intr_count_le & [ STEM < "rotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotor_n_rel" ] ]. rotrograbado_n1 := n_trans_le & [ STEM < "rotrograbado" >, SYNSEM.LKEYS.KEYREL.PRED "_rotrograbado_n_rel" ]. rotulación_n1 := n_trans_le & [ STEM < "rotulación" >, SYNSEM.LKEYS.KEYREL.PRED "_rotulación_n_rel" ]. rotulado_n1 := n_intr_count_le & [ STEM < "rotulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_rotulado_n_rel" ] ]. rotulador_n1 := n_intr_count_le & [ STEM < "rotulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotulador_n_rel" ] ]. rotular_a1 := a_rel_nonprd_intr_le & [ STEM < "rotular" >, SYNSEM.LKEYS.KEYREL.PRED "_rotular_a_rel" ]. rotular_v := v_trans_np_le & [ STEM < "rotular" >, SYNSEM.LKEYS.KEYREL.PRED "_rotular_v_rel" ]. rotuliano_a1 := a_rel_nonprd_intr_le & [ STEM < "rotuliano" >, SYNSEM.LKEYS.KEYREL.PRED "_rotuliano_a_rel" ]. rotulista_n1 := n_intr_count_le & [ STEM < "rotulista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rotulista_n_rel" ] ]. rotundamente_x1 := av_i_spr_le & [ STEM < "rotundamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rotundamente_x_rel" ]. rotundidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rotundidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rotundidad_n_rel" ] ]. rotundo_a1 := a_qual_intr_scopal_le & [ STEM < "rotundo" >, SYNSEM.LKEYS.KEYREL.PRED "_rotundo_a_rel" ]. rotura_n1 := n_trans_le & [ STEM < "rotura" >, SYNSEM.LKEYS.KEYREL.PRED "_rotura_n_rel" ]. roturación_n1 := n_trans_le & [ STEM < "roturación" >, SYNSEM.LKEYS.KEYREL.PRED "_roturación_n_rel" ]. roturadora_n1 := n_intr_count_le & [ STEM < "roturadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_roturadora_n_rel" ] ]. rotámetro_n1 := n_intr_count_le & [ STEM < "rotámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rotámetro_n_rel" ] ]. rotífero_n1 := n_intr_count_le & [ STEM < "rotífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rotífero_n_rel" ] ]. rotórico_a1 := a_rel_nonprd_intr_le & [ STEM < "rotórico" >, SYNSEM.LKEYS.KEYREL.PRED "_rotórico_a_rel" ]. roulotte_n1 := n_intr_count_le & [ STEM < "roulotte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_roulotte_n_rel" ] ]. royo_a1 := a_rel_nonprd_intr_le & [ STEM < "royo" >, SYNSEM.LKEYS.KEYREL.PRED "_royo_a_rel" ]. rozadura_n1 := n_trans_le & [ STEM < "rozadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rozadura_n_rel" ] ]. rozamiento_n1 := n_trans_le & [ STEM < "rozamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_rozamiento_n_rel" ]. rozar_v1 := v_intr_mrkd_np_le & [ STEM < "rozar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_rozar_v_rel" ] ]. rozar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "rozar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_rozar_v_rel" ] ]. rozar_v3 := v_trans_np_le & [ STEM < "rozar" >, SYNSEM.LKEYS.KEYREL.PRED "_rozar_v_rel" ]. rubefacción_n1 := n_intr_uncount_le & [ STEM < "rubefacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rubefacción_n_rel" ] ]. rubelita_n1 := n_intr_count_le & [ STEM < "rubelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rubelita_n_rel" ] ]. rubeánico_a1 := a_qual_intr_ser_le & [ STEM < "rubeánico" >, SYNSEM.LKEYS.KEYREL.PRED "_rubeánico_a_rel" ]. rubial_a1 := a_qual_intr_ser_le & [ STEM < "rubial" >, SYNSEM.LKEYS.KEYREL.PRED "_rubial_a_rel" ]. rubicela_n1 := n_intr_mass_le & [ STEM < "rubicela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rubicela_n_rel" ] ]. rubicundo_a1 := a_qual_intr_ser_le & [ STEM < "rubicundo" >, SYNSEM.LKEYS.KEYREL.PRED "_rubicundo_a_rel" ]. rubidio_n1 := n_intr_mass_le & [ STEM < "rubidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rubidio_n_rel" ] ]. rubio_a1 := a_qual_intr_ser_le & [ STEM < "rubio" >, SYNSEM.LKEYS.KEYREL.PRED "_rubio_a_rel" ]. rublo_n1 := n_intr_count_le & [ STEM < "rublo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rublo_n_rel" ] ]. rubor_n1 := n_intr_mass_le & [ STEM < "rubor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rubor_n_rel" ] ]. ruborizar_v1 := v_intr_io*_le & [ STEM < "ruborizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ruborizar_v_rel" ]. ruborizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ruborizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ruborizar_v_rel" ]. ruborizar_v3 := v_trans_np_caus_le & [ STEM < "ruborizar" >, SYNSEM.LKEYS.KEYREL.PRED "_ruborizar_v_rel" ]. rubricar_v := v_trans_np_le & [ STEM < "rubricar" >, SYNSEM.LKEYS.KEYREL.PRED "_rubricar_v_rel" ]. rubro_n1 := n_intr_count_le & [ STEM < "rubro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rubro_n_rel" ] ]. rubí_n1 := n_intr_mass_le & [ STEM < "rubí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rubí_n_rel" ] ]. rudamente_x1 := av_i_spr_le & [ STEM < "rudamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rudamente_x_rel" ]. ruderal_a1 := a_rel_nonprd_intr_le & [ STEM < "ruderal" >, SYNSEM.LKEYS.KEYREL.PRED "_ruderal_a_rel" ]. rudimentariamente_x1 := av_i_spr_le & [ STEM < "rudimentariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rudimentariamente_x_rel" ]. rudimentario_a1 := a_qual_intr_ser_le & [ STEM < "rudimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_rudimentario_a_rel" ]. rudimento_n1 := n_intr_count_le & [ STEM < "rudimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rudimento_n_rel" ] ]. rudo_a1 := a_qual_intr_ser_le & [ STEM < "rudo" >, SYNSEM.LKEYS.KEYREL.PRED "_rudo_a_rel" ]. rueca_n1 := n_intr_count_le & [ STEM < "rueca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rueca_n_rel" ] ]. rueda_n1 := n_intr_count_le & [ STEM < "rueda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rueda_n_rel" ] ]. ruedecilla_n1 := n_intr_count_le & [ STEM < "ruedecilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ruedecilla_n_rel" ] ]. ruedo_n1 := n_intr_count_le & [ STEM < "ruedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ruedo_n_rel" ] ]. ruego_n1 := n_result_intr_ppcomp_le & [ STEM < "ruego" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_ruego_n_rel" ] ]. rufianismo_n1 := n_intr_uncount_le & [ STEM < "rufianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rufianismo_n_rel" ] ]. rufián_n1 := n_intr_count_le & [ STEM < "rufián" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rufián_n_rel" ] ]. rugido_n1 := n_result_intr_le & [ STEM < "rugido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rugido_n_rel" ] ]. rugiente_a1 := a_qual_intr_ser_le & [ STEM < "rugiente" >, SYNSEM.LKEYS.KEYREL.PRED "_rugiente_a_rel" ]. rugir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "rugir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rugir_v_rel" ] ]. rugir_v2 := v_ditrans*_le & [ STEM < "rugir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_rugir_v_rel" ] ]. rugir_v3 := v_unacc_le & [ STEM < "rugir" >, SYNSEM.LKEYS.KEYREL.PRED "_rugir_v_rel" ]. rugosamente_x1 := av_i_spr_le & [ STEM < "rugosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rugosamente_x_rel" ]. rugosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rugosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rugosidad_n_rel" ] ]. rugoso_a1 := a_qual_intr_scopal_le & [ STEM < "rugoso" >, SYNSEM.LKEYS.KEYREL.PRED "_rugoso_a_rel" ]. rugosímetro_n1 := n_intr_count_le & [ STEM < "rugosímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rugosímetro_n_rel" ] ]. rugómetro_n1 := n_intr_count_le & [ STEM < "rugómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rugómetro_n_rel" ] ]. ruibarbo_n1 := n_intr_mass_le & [ STEM < "ruibarbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ruibarbo_n_rel" ] ]. ruido_n1 := n_intr_count_le & [ STEM < "ruido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ruido_n_rel" ] ]. ruidosamente_x1 := av_i_spr_le & [ STEM < "ruidosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ruidosamente_x_rel" ]. ruidoso_a1 := a_qual_intr_ser_le & [ STEM < "ruidoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ruidoso_a_rel" ]. ruin_a1 := a_qual_intr_ser_le & [ STEM < "ruin" >, SYNSEM.LKEYS.KEYREL.PRED "_ruin_a_rel" ]. ruina_n1 := n_intr_count_le & [ STEM < "ruina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ruina_n_rel" ] ]. ruindad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ruindad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ruindad_n_rel" ] ]. ruinmente_x1 := av_i_spr_le & [ STEM < "ruinmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ruinmente_x_rel" ]. ruinoso_a1 := a_qual_intr_scopal_le & [ STEM < "ruinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ruinoso_a_rel" ]. ruiseñor_n1 := n_intr_count_le & [ STEM < "ruiseñor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ruiseñor_n_rel" ] ]. ruleta_n1 := n_intr_count_le & [ STEM < "ruleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ruleta_n_rel" ] ]. rulo_n1 := n_intr_count_le & [ STEM < "rulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rulo_n_rel" ] ]. rulot_n1 := n_intr_count_le & [ STEM < "rulot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_rulot_n_rel" ] ]. rumanita_n1 := n_intr_count_le & [ STEM < "rumanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rumanita_n_rel" ] ]. rumano_a1 := a_rel_prd_le & [ STEM < "rumano" >, SYNSEM.LKEYS.KEYREL.PRED "_rumano_a_rel" ]. rumano_n1 := n_intr_count_le & [ STEM < "rumano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rumano_n_rel" ] ]. rumiante_n1 := n_intr_count_le & [ STEM < "rumiante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rumiante_n_rel" ] ]. rumiar_v := v_trans_np*_le & [ STEM < "rumiar" >, SYNSEM.LKEYS.KEYREL.PRED "_rumiar_v_rel" ]. rumor_n1 := n_intr_count_le & [ STEM < "rumor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rumor_n_rel" ] ]. rumorear_v1 := v_trans_cp_prop_fin_le & [ STEM < "rumorear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_rumorear_v_rel" ] ]. rumorear_v2 := v_trans_np_le & [ STEM < "rumorear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT sem, PRED "_rumorear_v_rel" ] ]. rumoreo_n1 := n_result_intr_le & [ STEM < "rumoreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rumoreo_n_rel" ] ]. runa_n1 := n_intr_count_le & [ STEM < "runa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_runa_n_rel" ] ]. rupestre_a1 := a_qual_intr_ser_le & [ STEM < "rupestre" >, SYNSEM.LKEYS.KEYREL.PRED "_rupestre_a_rel" ]. rupia_n1 := n_intr_count_le & [ STEM < "rupia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rupia_n_rel" ] ]. ruptor_n1 := n_intr_count_le & [ STEM < "ruptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ruptor_n_rel" ] ]. ruptura_n1 := n_trans_le & [ STEM < "ruptura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ruptura_n_rel" ] ]. rural_a1 := a_rel_nonprd_intr_le & [ STEM < "rural" >, SYNSEM.LKEYS.KEYREL.PRED "_rural_a_rel" ]. ruralización_n1 := n_trans_le & [ STEM < "ruralización" >, SYNSEM.LKEYS.KEYREL.PRED "_ruralización_n_rel" ]. ruso_a1 := a_rel_prd_le & [ STEM < "ruso" >, SYNSEM.LKEYS.KEYREL.PRED "_ruso_a_rel" ]. ruso_n1 := n_intr_count_le & [ STEM < "ruso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ruso_n_rel" ] ]. rusticidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "rusticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rusticidad_n_rel" ] ]. ruta_n1 := n_intr_count_le & [ STEM < "ruta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ruta_n_rel" ] ]. rutenio_n1 := n_intr_mass_le & [ STEM < "rutenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_rutenio_n_rel" ] ]. rutilante_a1 := a_qual_intr_scopal_le & [ STEM < "rutilante" >, SYNSEM.LKEYS.KEYREL.PRED "_rutilante_a_rel" ]. rutilo_n1 := n_intr_mass-or-count_le & [ STEM < "rutilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_rutilo_n_rel" ] ]. rutinariamente_x1 := av_i_spr_le & [ STEM < "rutinariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rutinariamente_x_rel" ]. rutinario_a1 := a_qual_intr_ser_le & [ STEM < "rutinario" >, SYNSEM.LKEYS.KEYREL.PRED "_rutinario_a_rel" ]. rutinización_n1 := n_trans_le & [ STEM < "rutinización" >, SYNSEM.LKEYS.KEYREL.PRED "_rutinización_n_rel" ]. rábano_n1 := n_intr_mass_le & [ STEM < "rábano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rábano_n_rel" ] ]. rácano_a1 := a_qual_intr_ser_le & [ STEM < "rácano" >, SYNSEM.LKEYS.KEYREL.PRED "_rácano_a_rel" ]. rápidamente_x1 := av_i_spr_le & [ STEM < "rápidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rápidamente_x_rel" ]. rápido_a1 := a_qual_intr_ser_le & [ STEM < "rápido" >, SYNSEM.LKEYS.KEYREL.PRED "_rápido_a_rel" ]. rápido_n1 := n_intr_count_le & [ STEM < "rápido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_rápido_n_rel" ] ]. rápido_x1 := av_i_spr_le & [ STEM < "rápido" >, SYNSEM.LKEYS.KEYREL.PRED "_rápido_x_rel" ]. régimen_n1 := n_intr_count_le & [ STEM < "régimen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_régimen_n_rel" ] ]. régimen_jurídico_n1 := n_intr_count_le & [ STEM < "régimen_jurídico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_régimen_jurídico_n_rel" ] ]. rémol_n1 := n_intr_count_le & [ STEM < "rémol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_rémol_n_rel" ] ]. réprobo_n1 := n_intr_count_le & [ STEM < "réprobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_réprobo_n_rel" ] ]. rético_n1 := n_intr_count_le & [ STEM < "rético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_rético_n_rel" ] ]. ría_n1 := n_intr_count_le & [ STEM < "ría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ría_n_rel" ] ]. rígidamente_x1 := av_i_spr_le & [ STEM < "rígidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_rígidamente_x_rel" ]. rígido_a1 := a_qual_intr_scopal_le & [ STEM < "rígido" >, SYNSEM.LKEYS.KEYREL.PRED "_rígido_a_rel" ]. rímel_n1 := n_intr_count_le & [ STEM < "rímel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rímel_n_rel" ] ]. rímmel_n1 := n_intr_count_le & [ STEM < "rímmel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rímmel_n_rel" ] ]. río_abajo_x1 := av_i_le & [ STEM < "río_abajo" >, SYNSEM.LKEYS.KEYREL.PRED "_río_abajo_x_rel" ]. río_arriba_x1 := av_i_le & [ STEM < "río_arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_río_arriba_x_rel" ]. río_n1 := n_intr_count_le & [ STEM < "río" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_río_n_rel" ] ]. rítmico_a1 := a_qual_intr_ser_le & [ STEM < "rítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_rítmico_a_rel" ]. rómbico_a1 := a_qual_intr_ser_le & [ STEM < "rómbico" >, SYNSEM.LKEYS.KEYREL.PRED "_rómbico_a_rel" ]. róseo_a1 := a_qual_intr_ser_le & [ STEM < "róseo" >, SYNSEM.LKEYS.KEYREL.PRED "_róseo_a_rel" ]. rótula_n1 := n_ppcomp_count_le & [ STEM < "rótula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_rótula_n_rel" ] ]. rótulo_n1 := n_intr_count_le & [ STEM < "rótulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_rótulo_n_rel" ] ]. rústico_a1 := a_qual_intr_ser_le & [ STEM < "rústico" >, SYNSEM.LKEYS.KEYREL.PRED "_rústico_a_rel" ]. sabadellense_a1 := a_rel_prd_le & [ STEM < "sabadellense" >, SYNSEM.LKEYS.KEYREL.PRED "_sabadellense_a_rel" ]. sabadellense_n1 := n_intr_count_le & [ STEM < "sabadellense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sabadellense_n_rel" ] ]. sabadilla_n1 := n_intr_count_le & [ STEM < "sabadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sabadilla_n_rel" ] ]. sabana_n1 := n_intr_count_le & [ STEM < "sabana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sabana_n_rel" ] ]. sabbath_n1 := n_intr_count_le & [ STEM < "sabbath" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_sabbath_n_rel" ] ]. sabelotodo_n1 := n_intr_count_le & [ STEM < "sabelotodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sabelotodo_n_rel" ] ]. saber_v1 := v_intr_mrkd_np_le & [ STEM < "saber" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_saber_v_rel" ] ]. saber_v2 := v_intr_mrkd_np_le & [ STEM < "saber" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_saber_v_rel" ] ]. saber_v3 := v_pron_trans_np_le & [ STEM < "saber" >, SYNSEM.LKEYS.KEYREL.PRED "_saber_v_rel" ]. saber_v4 := v_trans_cp_prop_fin_ind_le & [ STEM < "saber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_saber_v_rel" ] ]. saber_v5 := v_trans_cp_semi_ques_le & [ STEM < "saber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, PRED "_saber_v_rel" ] ]. saber_v6 := v_trans_np_le & [ STEM < "saber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_pot_soc, ARG2.SORT abs_pro_sem, PRED "_saber_v_rel" ] ]. sabiamente_x1 := av_i_spr_le & [ STEM < "sabiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sabiamente_x_rel" ]. sabiamentelúcidamente_x1 := av_s_spr_le & [ STEM < "sabiamentelúcidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sabiamentelúcidamente_x_rel" ]. sabiamentelúcidamente_x2 := av_i_psthd_spr_le & [ STEM < "sabiamentelúcidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sabiamentelúcidamente_x_rel" ]. sabiduría_n1 := n_intr_mass_le & [ STEM < "sabiduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sabiduría_n_rel" ] ]. sabihondo_n1 := n_intr_count_le & [ STEM < "sabihondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sabihondo_n_rel" ] ]. sabino_n1 := n_intr_count_le & [ STEM < "sabino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sabino_n_rel" ] ]. sabio_a1 := a_qual_intr_ser_le & [ STEM < "sabio" >, SYNSEM.LKEYS.KEYREL.PRED "_sabio_a_rel" ]. sabio_n1 := n_intr_count_le & [ STEM < "sabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sabio_n_rel" ] ]. sable_n1 := n_intr_count_le & [ STEM < "sable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sable_n_rel" ] ]. sablista_n1 := n_intr_count_le & [ STEM < "sablista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sablista_n_rel" ] ]. saboga_n1 := n_intr_count_le & [ STEM < "saboga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_saboga_n_rel" ] ]. sabor_n1 := n_intr_mass-or-count_le & [ STEM < "sabor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sabor_n_rel" ] ]. saborear_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "saborear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_saborear_v_rel" ] ]. saborear_v2 := v_trans_np_le & [ STEM < "saborear" >, SYNSEM.LKEYS.KEYREL.PRED "_saborear_v_rel" ]. sabotaje_n1 := n_trans_le & [ STEM < "sabotaje" >, SYNSEM.LKEYS.KEYREL.PRED "_sabotaje_n_rel" ]. saboteador_n1 := n_subj-nom_le & [ STEM < "saboteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saboteador_n_rel" ] ]. sabotear_v := v_trans_np_le & [ STEM < "sabotear" >, SYNSEM.LKEYS.KEYREL.PRED "_sabotear_v_rel" ]. sabroso_a1 := a_qual_intr_scopal_le & [ STEM < "sabroso" >, SYNSEM.LKEYS.KEYREL.PRED "_sabroso_a_rel" ]. sabueso_a1 := a_rel_nonprd_intr_le & [ STEM < "sabueso" >, SYNSEM.LKEYS.KEYREL.PRED "_sabueso_a_rel" ]. sabueso_n1 := n_intr_count_le & [ STEM < "sabueso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sabueso_n_rel" ] ]. saburra_n1 := n_intr_mass_le & [ STEM < "saburra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saburra_n_rel" ] ]. saburral_a1 := a_rel_nonprd_intr_le & [ STEM < "saburral" >, SYNSEM.LKEYS.KEYREL.PRED "_saburral_a_rel" ]. sabático_a1 := a_rel_nonprd_intr_le & [ STEM < "sabático" >, SYNSEM.LKEYS.KEYREL.PRED "_sabático_a_rel" ]. saca_n1 := n_intr_count_le & [ STEM < "saca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saca_n_rel" ] ]. sacabocados_n1 := n_intr_count_le & [ STEM < "sacabocados" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacabocados_n_rel" ] ]. sacabuche_n1 := n_intr_count_le & [ STEM < "sacabuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacabuche_n_rel" ] ]. sacaclavos_n1 := n_intr_count_le & [ STEM < "sacaclavos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacaclavos_n_rel" ] ]. sacacorchos_n1 := n_intr_count_le & [ STEM < "sacacorchos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacacorchos_n_rel" ] ]. sacada_n1 := n_intr_count_le & [ STEM < "sacada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacada_n_rel" ] ]. sacador_n1 := n_subj-nom_le & [ STEM < "sacador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sacador_n_rel" ] ]. sacamuelas_n1 := n_intr_count_le & [ STEM < "sacamuelas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sacamuelas_n_rel" ] ]. sacamuestras_n1 := n_intr_count_le & [ STEM < "sacamuestras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacamuestras_n_rel" ] ]. sacapuntas_n1 := n_intr_count_le & [ STEM < "sacapuntas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacapuntas_n_rel" ] ]. sacar_v := v_trans_np_mrkd_np*_le & [ STEM < "sacar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_sacar_v_rel" ] ]. sacar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "sacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sacar_v_rel" ] ]. sacar_v2 := v_ditrans_le & [ STEM < "sacar" >, SYNSEM.LKEYS.KEYREL.PRED "_sacar_v_rel" ]. sacar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "sacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_sacar_v_rel" ] ] ]. sacar_v4 := v_trans_np*_mrkd_np_le & [ STEM < "sacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_sacar_v_rel" ] ]. sacarificación_n1 := n_trans_le & [ STEM < "sacarificación" >, SYNSEM.LKEYS.KEYREL.PRED "_sacarificación_n_rel" ]. sacarimetría_n1 := n_intr_uncount_le & [ STEM < "sacarimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacarimetría_n_rel" ] ]. sacarina_n1 := n_intr_mass_le & [ STEM < "sacarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacarina_n_rel" ] ]. sacarímetro_n1 := n_intr_count_le & [ STEM < "sacarímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacarímetro_n_rel" ] ]. sacatuercas_n1 := n_intr_count_le & [ STEM < "sacatuercas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacatuercas_n_rel" ] ]. sacciforme_a1 := a_rel_nonprd_intr_le & [ STEM < "sacciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_sacciforme_a_rel" ]. sacerdotal_a1 := a_rel_nonprd_intr_le & [ STEM < "sacerdotal" >, SYNSEM.LKEYS.KEYREL.PRED "_sacerdotal_a_rel" ]. sacerdote_n1 := n_intr_count_le & [ STEM < "sacerdote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sacerdote_n_rel" ] ]. sacerdotisa_n1 := n_intr_count_le & [ STEM < "sacerdotisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sacerdotisa_n_rel" ] ]. saciar_v1 := v_intr_io*_le & [ STEM < "saciar" >, SYNSEM.LKEYS.KEYREL.PRED "_saciar_v_rel" ]. saciar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "saciar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_saciar_v_rel" ] ] ]. saciar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "saciar" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_saciar_v_rel" ] ]. saciar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "saciar" >, SYNSEM.LKEYS.KEYREL.PRED "_saciar_v_rel" ]. saciar_v5 := v_trans_np_le & [ STEM < "saciar" >, SYNSEM.LKEYS.KEYREL.PRED "_saciar_v_rel" ]. saciedad_n1 := n_intr_mass-or-count_le & [ STEM < "saciedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saciedad_n_rel" ] ]. saco_n1 := n_intr_count_le & [ STEM < "saco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saco_n_rel" ] ]. sacral_a1 := a_rel_nonprd_intr_le & [ STEM < "sacral" >, SYNSEM.LKEYS.KEYREL.PRED "_sacral_a_rel" ]. sacralización_n1 := n_trans_le & [ STEM < "sacralización" >, SYNSEM.LKEYS.KEYREL.PRED "_sacralización_n_rel" ]. sacramental_a1 := a_rel_nonprd_intr_le & [ STEM < "sacramental" >, SYNSEM.LKEYS.KEYREL.PRED "_sacramental_a_rel" ]. sacramentalmente_x1 := av_i_spr_le & [ STEM < "sacramentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sacramentalmente_x_rel" ]. sacramente_x1 := av_i_spr_le & [ STEM < "sacramente" >, SYNSEM.LKEYS.KEYREL.PRED "_sacramente_x_rel" ]. sacramento_n1 := n_intr_count_le & [ STEM < "sacramento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_sacramento_n_rel" ] ]. sacrificar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "sacrificar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_sacrificar_v_rel" ] ]. sacrificar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "sacrificar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_sacrificar_v_rel" ] ]. sacrificar_v3 := v_trans_np_le & [ STEM < "sacrificar" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrificar_v_rel" ]. sacristán_n1 := n_intr_count_le & [ STEM < "sacristán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sacristán_n_rel" ] ]. sacristía_n1 := n_intr_count_le & [ STEM < "sacristía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sacristía_n_rel" ] ]. sacro_a1 := a_rel_nonprd_intr_le & [ STEM < "sacro" >, SYNSEM.LKEYS.KEYREL.PRED "_sacro_a_rel" ]. sacro_n1 := n_intr_count_le & [ STEM < "sacro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacro_n_rel" ] ]. sacrociático_a1 := a_rel_nonprd_intr_le & [ STEM < "sacrociático" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrociático_a_rel" ]. sacrococcígeo_a1 := a_rel_nonprd_intr_le & [ STEM < "sacrococcígeo" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrococcígeo_a_rel" ]. sacroespinal_a1 := a_rel_nonprd_intr_le & [ STEM < "sacroespinal" >, SYNSEM.LKEYS.KEYREL.PRED "_sacroespinal_a_rel" ]. sacroespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "sacroespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sacroespinoso_a_rel" ]. sacroilíaco_a1 := a_rel_nonprd_intr_le & [ STEM < "sacroilíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_sacroilíaco_a_rel" ]. sacrosanto_a1 := a_rel_nonprd_intr_le & [ STEM < "sacrosanto" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrosanto_a_rel" ]. sacrotuberoso_a1 := a_rel_nonprd_intr_le & [ STEM < "sacrotuberoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrotuberoso_a_rel" ]. sacrílegamente_x1 := av_i_spr_le & [ STEM < "sacrílegamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrílegamente_x_rel" ]. sacrílego_a1 := a_rel_nonprd_intr_le & [ STEM < "sacrílego" >, SYNSEM.LKEYS.KEYREL.PRED "_sacrílego_a_rel" ]. sacudida_n1 := n_trans_le & [ STEM < "sacudida" >, SYNSEM.LKEYS.KEYREL.PRED "_sacudida_n_rel" ]. sacudidor_a1 := a_rel_nonprd_intr_le & [ STEM < "sacudidor" >, SYNSEM.LKEYS.KEYREL.PRED "_sacudidor_a_rel" ]. sacudidor_n1 := n_intr_count_le & [ STEM < "sacudidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sacudidor_n_rel" ] ]. sacudir_v1 := v_pron_trans_np_le & [ STEM < "sacudir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_sacudir_v_rel" ] ]. sacudir_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "sacudir" >, SYNSEM.LKEYS.KEYREL.PRED "_sacudir_v_rel" ]. sacudir_v3 := v_trans_np_le & [ STEM < "sacudir" >, SYNSEM.LKEYS.KEYREL.PRED "_sacudir_v_rel" ]. sacádico_a1 := a_rel_nonprd_intr_le & [ STEM < "sacádico" >, SYNSEM.LKEYS.KEYREL.PRED "_sacádico_a_rel" ]. sacárido_n1 := n_intr_count_le & [ STEM < "sacárido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sacárido_n_rel" ] ]. sadismo_n1 := n_intr_uncount_le & [ STEM < "sadismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sadismo_n_rel" ] ]. sadomasoquismo_n1 := n_intr_uncount_le & [ STEM < "sadomasoquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sadomasoquismo_n_rel" ] ]. sadomasoquista_a1 := a_rel_nonprd_intr_le & [ STEM < "sadomasoquista" >, SYNSEM.LKEYS.KEYREL.PRED "_sadomasoquista_a_rel" ]. saeta_n1 := n_intr_count_le & [ STEM < "saeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saeta_n_rel" ] ]. saetera_n1 := n_intr_count_le & [ STEM < "saetera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saetera_n_rel" ] ]. saetín_n1 := n_intr_count_le & [ STEM < "saetín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saetín_n_rel" ] ]. safari_n1 := n_intr_count_le & [ STEM < "safari" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_safari_n_rel" ] ]. safranina_n1 := n_intr_count_le & [ STEM < "safranina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_safranina_n_rel" ] ]. safrol_n1 := n_intr_count_le & [ STEM < "safrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_safrol_n_rel" ] ]. sagacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sagacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sagacidad_n_rel" ] ]. sagaz_a1 := a_qual_intr_ser_le & [ STEM < "sagaz" >, SYNSEM.LKEYS.KEYREL.PRED "_sagaz_a_rel" ]. sagazmente_x1 := av_s_spr_le & [ STEM < "sagazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sagazmente_x_rel" ]. sagazmente_x2 := av_i_psthd_spr_le & [ STEM < "sagazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sagazmente_x_rel" ]. sagital_a1 := a_rel_nonprd_intr_le & [ STEM < "sagital" >, SYNSEM.LKEYS.KEYREL.PRED "_sagital_a_rel" ]. sagitario_n1 := n_intr_count_le & [ STEM < "sagitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_ani, PRED "_sagitario_n_rel" ] ]. sagrado_a1 := a_qual_intr_ser_le & [ STEM < "sagrado" >, SYNSEM.LKEYS.KEYREL.PRED "_sagrado_a_rel" ]. saguntino_a1 := a_rel_prd_le & [ STEM < "saguntino" >, SYNSEM.LKEYS.KEYREL.PRED "_saguntino_a_rel" ]. saguntino_n1 := n_intr_count_le & [ STEM < "saguntino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saguntino_n_rel" ] ]. saharaui_a1 := a_rel_prd_le & [ STEM < "saharaui" >, SYNSEM.LKEYS.KEYREL.PRED "_saharaui_a_rel" ]. saharaui_n1 := n_intr_count_le & [ STEM < "saharaui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saharaui_n_rel" ] ]. sahariano_a1 := a_rel_prd_le & [ STEM < "sahariano" >, SYNSEM.LKEYS.KEYREL.PRED "_sahariano_a_rel" ]. sahariano_n1 := n_intr_count_le & [ STEM < "sahariano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sahariano_n_rel" ] ]. sainete_n1 := n_intr_count_le & [ STEM < "sainete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_sainete_n_rel" ] ]. saintsimoniano_a1 := a_rel_prd_le & [ STEM < "saintsimoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_saintsimoniano_a_rel" ]. sajón_a1 := a_rel_nonprd_intr_le & [ STEM < "sajón" >, SYNSEM.LKEYS.KEYREL.PRED "_sajón_a_rel" ]. sajón_n1 := n_intr_count_le & [ STEM < "sajón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sajón_n_rel" ] ]. sal_n1 := n_intr_mass_le & [ STEM < "sal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sal_n_rel" ] ]. sala_n1 := n_intr_count_le & [ STEM < "sala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sala_n_rel" ] ]. saladar_n1 := n_intr_count_le & [ STEM < "saladar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_saladar_n_rel" ] ]. salamandra_n1 := n_intr_count_le & [ STEM < "salamandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salamandra_n_rel" ] ]. salamanquesa_n1 := n_intr_count_le & [ STEM < "salamanquesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salamanquesa_n_rel" ] ]. salami_n1 := n_intr_mass_le & [ STEM < "salami" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salami_n_rel" ] ]. salar_n1 := n_intr_count_le & [ STEM < "salar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_salar_n_rel" ] ]. salar_v := v_trans_np_le & [ STEM < "salar" >, SYNSEM.LKEYS.KEYREL.PRED "_salar_v_rel" ]. salarial_a1 := a_rel_nonprd_intr_le & [ STEM < "salarial" >, SYNSEM.LKEYS.KEYREL.PRED "_salarial_a_rel" ]. salce_n1 := n_intr_count_le & [ STEM < "salce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salce_n_rel" ] ]. salchicha_n1 := n_intr_mass_le & [ STEM < "salchicha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salchicha_n_rel" ] ]. salchichón_n1 := n_intr_mass_le & [ STEM < "salchichón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salchichón_n_rel" ] ]. saldar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "saldar" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_saldar_v_rel" ] ]. saldar_v2 := v_trans_np_le & [ STEM < "saldar" >, SYNSEM.LKEYS.KEYREL.PRED "_saldar_v_rel" ]. saledizo_a1 := a_rel_nonprd_intr_le & [ STEM < "saledizo" >, SYNSEM.LKEYS.KEYREL.PRED "_saledizo_a_rel" ]. salero_n1 := n_intr_count_le & [ STEM < "salero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salero_n_rel" ] ]. salga_lo_que_salga_x1 := av_i_le & [ STEM < "salga_lo_que_salga" >, SYNSEM.LKEYS.KEYREL.PRED "_salga_lo_que_salga_x_rel" ]. salga_n1 := n_intr_count_le & [ STEM < "salga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salga_n_rel" ] ]. salgareño_a1 := a_rel_nonprd_intr_le & [ STEM < "salgareño" >, SYNSEM.LKEYS.KEYREL.PRED "_salgareño_a_rel" ]. salguera_n1 := n_intr_count_le & [ STEM < "salguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salguera_n_rel" ] ]. salguero_n1 := n_intr_count_le & [ STEM < "salguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salguero_n_rel" ] ]. salicilaldehído_n1 := n_intr_mass_le & [ STEM < "salicilaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicilaldehído_n_rel" ] ]. salicilamida_n1 := n_intr_count_le & [ STEM < "salicilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicilamida_n_rel" ] ]. salicilanilida_n1 := n_intr_count_le & [ STEM < "salicilanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicilanilida_n_rel" ] ]. salicilato_n1 := n_intr_count_le & [ STEM < "salicilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicilato_n_rel" ] ]. salicilazosulfapiridina_n1 := n_intr_count_le & [ STEM < "salicilazosulfapiridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicilazosulfapiridina_n_rel" ] ]. salicina_n1 := n_intr_count_le & [ STEM < "salicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salicina_n_rel" ] ]. salicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "salicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_salicílico_a_rel" ]. salida_n1 := n_intr_count_le & [ STEM < "salida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_salida_n_rel" ] ]. salida_n2 := n_event-result_intr_le & [ STEM < "salida" >, SYNSEM.LKEYS.KEYREL.PRED "_salida_n_rel" ]. saliente_a1 := a_rel_nonprd_intr_le & [ STEM < "saliente" >, SYNSEM.LKEYS.KEYREL.PRED "_saliente_a_rel" ]. saliente_n1 := n_intr_count_le & [ STEM < "saliente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saliente_n_rel" ] ]. salificación_n1 := n_trans_le & [ STEM < "salificación" >, SYNSEM.LKEYS.KEYREL.PRED "_salificación_n_rel" ]. salina_n1 := n_intr_count_le & [ STEM < "salina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_salina_n_rel" ] ]. salinidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "salinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salinidad_n_rel" ] ]. salinización_n1 := n_intr_mass_le & [ STEM < "salinización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salinización_n_rel" ] ]. salinizar_v := v_trans_np_le & [ STEM < "salinizar" >, SYNSEM.LKEYS.KEYREL.PRED "_salinizar_v_rel" ]. salino_a1 := a_rel_nonprd_intr_le & [ STEM < "salino" >, SYNSEM.LKEYS.KEYREL.PRED "_salino_a_rel" ]. salinómetro_n1 := n_intr_count_le & [ STEM < "salinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salinómetro_n_rel" ] ]. salio_n1 := n_intr_count_le & [ STEM < "salio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salio_n_rel" ] ]. salitre_n1 := n_intr_mass_le & [ STEM < "salitre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salitre_n_rel" ] ]. saliva_n1 := n_intr_mass_le & [ STEM < "saliva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saliva_n_rel" ] ]. salivación_n1 := n_result_intr_le & [ STEM < "salivación" >, SYNSEM.LKEYS.KEYREL.PRED "_salivación_n_rel" ]. salival_a1 := a_rel_nonprd_intr_le & [ STEM < "salival" >, SYNSEM.LKEYS.KEYREL.PRED "_salival_a_rel" ]. salivar_a1 := a_rel_nonprd_intr_le & [ STEM < "salivar" >, SYNSEM.LKEYS.KEYREL.PRED "_salivar_a_rel" ]. salivar_v := v_intr_le & [ STEM < "salivar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_salivar_v_rel" ] ]. salivatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "salivatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_salivatorio_a_rel" ]. salivina_n1 := n_intr_count_le & [ STEM < "salivina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salivina_n_rel" ] ]. salmantino_n1 := n_intr_count_le & [ STEM < "salmantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salmantino_n_rel" ] ]. salmo_n1 := n_intr_count_le & [ STEM < "salmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_salmo_n_rel" ] ]. salmonelosis_n1 := n_intr_uncount_le & [ STEM < "salmonelosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salmonelosis_n_rel" ] ]. salmonete_n1 := n_intr_count_le & [ STEM < "salmonete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salmonete_n_rel" ] ]. salmonicultura_n1 := n_intr_count_le & [ STEM < "salmonicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salmonicultura_n_rel" ] ]. salmuera_n1 := n_intr_mass_le & [ STEM < "salmuera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salmuera_n_rel" ] ]. salmón_n1 := n_intr_count_le & [ STEM < "salmón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salmón_n_rel" ] ]. salmónido_n1 := n_intr_count_le & [ STEM < "salmónido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salmónido_n_rel" ] ]. salobral_n1 := n_intr_count_le & [ STEM < "salobral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_salobral_n_rel" ] ]. salobre_a1 := a_rel_nonprd_intr_le & [ STEM < "salobre" >, SYNSEM.LKEYS.KEYREL.PRED "_salobre_a_rel" ]. salobremente_x1 := av_i_spr_le & [ STEM < "salobremente" >, SYNSEM.LKEYS.KEYREL.PRED "_salobremente_x_rel" ]. salol_n1 := n_intr_count_le & [ STEM < "salol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_salol_n_rel" ] ]. salomónico_a1 := a_rel_nonprd_intr_le & [ STEM < "salomónico" >, SYNSEM.LKEYS.KEYREL.PRED "_salomónico_a_rel" ]. salpicadero_n1 := n_intr_count_le & [ STEM < "salpicadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salpicadero_n_rel" ] ]. salpicadura_n1 := n_intr_count_le & [ STEM < "salpicadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salpicadura_n_rel" ] ]. salpicar_v := v_trans_np_caus_le & [ STEM < "salpicar" >, SYNSEM.LKEYS.KEYREL.PRED "_salpicar_v_rel" ]. salpicón_n1 := n_intr_count_le & [ STEM < "salpicón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salpicón_n_rel" ] ]. salpingofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "salpingofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_salpingofaríngeo_a_rel" ]. salpingopalatino_a1 := a_rel_nonprd_intr_le & [ STEM < "salpingopalatino" >, SYNSEM.LKEYS.KEYREL.PRED "_salpingopalatino_a_rel" ]. salpullido_n1 := n_intr_mass_le & [ STEM < "salpullido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salpullido_n_rel" ] ]. salsa_n1 := n_intr_mass_le & [ STEM < "salsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salsa_n_rel" ] ]. salsera_n1 := n_intr_count_le & [ STEM < "salsera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salsera_n_rel" ] ]. salsichón_n1 := n_intr_count_le & [ STEM < "salsichón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salsichón_n_rel" ] ]. salsifí_n1 := n_intr_count_le & [ STEM < "salsifí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salsifí_n_rel" ] ]. saltacaballo_n1 := n_intr_count_le & [ STEM < "saltacaballo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saltacaballo_n_rel" ] ]. saltadero_n1 := n_intr_count_le & [ STEM < "saltadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saltadero_n_rel" ] ]. saltador_a1 := a_rel_nonprd_intr_le & [ STEM < "saltador" >, SYNSEM.LKEYS.KEYREL.PRED "_saltador_a_rel" ]. saltador_n1 := n_subj-nom_le & [ STEM < "saltador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saltador_n_rel" ] ]. saltamontes_n1 := n_intr_count_le & [ STEM < "saltamontes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_saltamontes_n_rel" ] ]. saltante_a1 := a_rel_nonprd_intr_le & [ STEM < "saltante" >, SYNSEM.LKEYS.KEYREL.PRED "_saltante_a_rel" ]. saltar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "saltar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_saltar_v_rel" ] ] ]. saltar_v2 := v_intr_mrkd_np_le & [ STEM < "saltar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_saltar_v_rel" ] ] ]. saltar_v3 := v_pron_trans_np_le & [ STEM < "saltar" >, SYNSEM.LKEYS.KEYREL.PRED "_saltar_v_rel" ]. saltar_v4 := v_trans_np*_le & [ STEM < "saltar" >, SYNSEM.LKEYS.KEYREL.PRED "_saltar_v_rel" ]. saltarregla_n1 := n_intr_count_le & [ STEM < "saltarregla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saltarregla_n_rel" ] ]. saltarín_a1 := a_rel_nonprd_intr_le & [ STEM < "saltarín" >, SYNSEM.LKEYS.KEYREL.PRED "_saltarín_a_rel" ]. salteador_n1 := n_subj-nom_le & [ STEM < "salteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salteador_n_rel" ] ]. saltear_v := v_trans_np_le & [ STEM < "saltear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_plant_pot_soc, PRED "_saltear_v_rel" ] ]. salterio_n1 := n_intr_count_le & [ STEM < "salterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_salterio_n_rel" ] ]. salto_n1 := n_event-result_intr_le & [ STEM < "salto" >, SYNSEM.LKEYS.KEYREL.PRED "_salto_n_rel" ]. saltómetro_n1 := n_intr_count_le & [ STEM < "saltómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saltómetro_n_rel" ] ]. saltón_a1 := a_qual_intr_ser_le & [ STEM < "saltón" >, SYNSEM.LKEYS.KEYREL.PRED "_saltón_a_rel" ]. salubre_a1 := a_qual_intr_ser_le & [ STEM < "salubre" >, SYNSEM.LKEYS.KEYREL.PRED "_salubre_a_rel" ]. salubridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "salubridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salubridad_n_rel" ] ]. saludable_a1 := a_qual_intr_ser_le & [ STEM < "saludable" >, SYNSEM.LKEYS.KEYREL.PRED "_saludable_a_rel" ]. saludablmente_x1 := av_i_spr_le & [ STEM < "saludablmente" >, SYNSEM.LKEYS.KEYREL.PRED "_saludablmente_x_rel" ]. saludar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "saludar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_saludar_v_rel" ] ]. saludar_v2 := v_trans_np*_le & [ STEM < "saludar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_saludar_v_rel" ] ]. salutación_n1 := n_trans_le & [ STEM < "salutación" >, SYNSEM.LKEYS.KEYREL.PRED "_salutación_n_rel" ]. salvación_n1 := n_trans_le & [ STEM < "salvación" >, SYNSEM.LKEYS.KEYREL.PRED "_salvación_n_rel" ]. salvado_n1 := n_intr_mass-or-count_le & [ STEM < "salvado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_salvado_n_rel" ] ]. salvador_a1 := a_rel_nonprd_intr_le & [ STEM < "salvador" >, SYNSEM.LKEYS.KEYREL.PRED "_salvador_a_rel" ]. salvador_n1 := n_subj-nom_le & [ STEM < "salvador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salvador_n_rel" ] ]. salvadoreño_a1 := a_rel_prd_le & [ STEM < "salvadoreño" >, SYNSEM.LKEYS.KEYREL.PRED "_salvadoreño_a_rel" ]. salvadoreño_n1 := n_intr_count_le & [ STEM < "salvadoreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salvadoreño_n_rel" ] ]. salvaguardar_v := v_trans_np_le & [ STEM < "salvaguardar" >, SYNSEM.LKEYS.KEYREL.PRED "_salvaguardar_v_rel" ]. salvajada_n1 := n_intr_count_le & [ STEM < "salvajada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salvajada_n_rel" ] ]. salvaje_a1 := a_qual_intr_ser_le & [ STEM < "salvaje" >, SYNSEM.LKEYS.KEYREL.PRED "_salvaje_a_rel" ]. salvaje_n1 := n_intr_mass_le & [ STEM < "salvaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_salvaje_n_rel" ] ]. salvajemente_x1 := av_i_spr_le & [ STEM < "salvajemente" >, SYNSEM.LKEYS.KEYREL.PRED "_salvajemente_x_rel" ]. salvajismo_n1 := n_ppcomp_uncount_le & [ STEM < "salvajismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salvajismo_n_rel" ] ]. salvamanteles_n1 := n_intr_count_le & [ STEM < "salvamanteles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salvamanteles_n_rel" ] ]. salvamedias_n1 := n_intr_count_le & [ STEM < "salvamedias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salvamedias_n_rel" ] ]. salvamento_n1 := n_trans_le & [ STEM < "salvamento" >, SYNSEM.LKEYS.KEYREL.PRED "_salvamento_n_rel" ]. salvar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "salvar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_salvar_v_rel" ] ]. salvar_v2 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "salvar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_salvar_v_rel" ] ]. salvar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "salvar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_salvar_v_rel" ] ]. salvariego_n1 := n_intr_count_le & [ STEM < "salvariego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_salvariego_n_rel" ] ]. salvavidas_n1 := n_intr_count_le & [ STEM < "salvavidas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salvavidas_n_rel" ] ]. salvedad_n1 := n_intr_count_le & [ STEM < "salvedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salvedad_n_rel" ] ]. salvia_n1 := n_intr_mass_le & [ STEM < "salvia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_salvia_n_rel" ] ]. salvo_p_nmod := p_nmod_le & [ STEM < "salvo" >, SYNSEM.LKEYS.KEYREL.PRED _salvo_p_rel ]. salvoconducto_n1 := n_intr_count_le & [ STEM < "salvoconducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_salvoconducto_n_rel" ] ]. salífero_a1 := a_rel_nonprd_intr_le & [ STEM < "salífero" >, SYNSEM.LKEYS.KEYREL.PRED "_salífero_a_rel" ]. salón_n1 := n_intr_count_le & [ STEM < "salón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_salón_n_rel" ] ]. samario_n1 := n_intr_mass_le & [ STEM < "samario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_samario_n_rel" ] ]. samaritano_n1 := n_intr_count_le & [ STEM < "samaritano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_samaritano_n_rel" ] ]. samarskita_n1 := n_intr_count_le & [ STEM < "samarskita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_samarskita_n_rel" ] ]. samoano_a1 := a_rel_prd_le & [ STEM < "samoano" >, SYNSEM.LKEYS.KEYREL.PRED "_samoano_a_rel" ]. samovar_n1 := n_intr_count_le & [ STEM < "samovar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_samovar_n_rel" ] ]. samurai_n1 := n_intr_count_le & [ STEM < "samurai" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_samurai_n_rel" ] ]. sanable_a1 := a_rel_prd_le & [ STEM < "sanable" >, SYNSEM.LKEYS.KEYREL.PRED "_sanable_a_rel" ]. sanamente_x1 := av_i_spr_le & [ STEM < "sanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sanamente_x_rel" ]. sanatorio_n1 := n_intr_count_le & [ STEM < "sanatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_sanatorio_n_rel" ] ]. sancionable_a1 := a_rel_prd_le & [ STEM < "sancionable" >, SYNSEM.LKEYS.KEYREL.PRED "_sancionable_a_rel" ]. sancionador_a1 := a_rel_nonprd_intr_le & [ STEM < "sancionador" >, SYNSEM.LKEYS.KEYREL.PRED "_sancionador_a_rel" ]. sancionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "sancionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sancionar_v_rel" ] ]. sancionar_v2 := v_trans_np_le & [ STEM < "sancionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro_sem_soc, PRED "_sancionar_v_rel" ] ]. sancionatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sancionatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sancionatorio_a_rel" ]. sanción_n1 := n_intr_count_le & [ STEM < "sanción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sanción_n_rel" ] ]. sandalia_n1 := n_intr_count_le & [ STEM < "sandalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sandalia_n_rel" ] ]. sandez_n1 := n_ppcomp_uncount_le & [ STEM < "sandez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sandez_n_rel" ] ]. sandez_n2 := n_ppcomp_count_le & [ STEM < "sandez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sandez_n_rel" ] ]. sandinista_n1 := n_intr_count_le & [ STEM < "sandinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sandinista_n_rel" ] ]. sandwich_n1 := n_intr_count_le & [ STEM < "sandwich" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sandwich_n_rel" ] ]. sandwichería_n1 := n_intr_count_le & [ STEM < "sandwichería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sandwichería_n_rel" ] ]. sandáraca_n1 := n_intr_count_le & [ STEM < "sandáraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sandáraca_n_rel" ] ]. sandáraco_n1 := n_intr_count_le & [ STEM < "sandáraco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sandáraco_n_rel" ] ]. sandía_n1 := n_intr_mass_le & [ STEM < "sandía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sandía_n_rel" ] ]. saneamiento_n1 := n_trans_le & [ STEM < "saneamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_saneamiento_n_rel" ]. saner_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "saner" >, SYNSEM.LKEYS.KEYREL.PRED "_saner_v_rel" ]. saner_v2 := v_trans_np_le & [ STEM < "saner" >, SYNSEM.LKEYS.KEYREL.PRED "_saner_v_rel" ]. sangrado_n1 := n_event-result_intr_le & [ STEM < "sangrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sangrado_n_rel" ] ]. sangrante_a1 := a_rel_nonprd_intr_le & [ STEM < "sangrante" >, SYNSEM.LKEYS.KEYREL.PRED "_sangrante_a_rel" ]. sangre_n1 := n_intr_mass_le & [ STEM < "sangre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sangre_n_rel" ] ]. sangrientamente_x1 := av_i_spr_le & [ STEM < "sangrientamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sangrientamente_x_rel" ]. sangriento_a1 := a_qual_intr_ser_le & [ STEM < "sangriento" >, SYNSEM.LKEYS.KEYREL.PRED "_sangriento_a_rel" ]. sangría_n1 := n_intr_mass-or-count_le & [ STEM < "sangría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sangría_n_rel" ] ]. sanguijuela_n1 := n_intr_count_le & [ STEM < "sanguijuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sanguijuela_n_rel" ] ]. sanguinario_a1 := a_qual_intr_ser_le & [ STEM < "sanguinario" >, SYNSEM.LKEYS.KEYREL.PRED "_sanguinario_a_rel" ]. sanguinolento_a1 := a_rel_nonprd_intr_le & [ STEM < "sanguinolento" >, SYNSEM.LKEYS.KEYREL.PRED "_sanguinolento_a_rel" ]. sanguisorba_n1 := n_intr_count_le & [ STEM < "sanguisorba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sanguisorba_n_rel" ] ]. sanguíneo_a1 := a_rel_nonprd_intr_le & [ STEM < "sanguíneo" >, SYNSEM.LKEYS.KEYREL.PRED "_sanguíneo_a_rel" ]. sanidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sanidad_n_rel" ] ]. sanidina_n1 := n_intr_count_le & [ STEM < "sanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sanidina_n_rel" ] ]. sanitariamente_x1 := av_i_spr_le & [ STEM < "sanitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sanitariamente_x_rel" ]. sanitario_a1 := a_rel_nonprd_intr_le & [ STEM < "sanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_sanitario_a_rel" ]. zoosanitario_a1 := a_rel_nonprd_intr_le & [ STEM < "zoosanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_zoosanitario_a_rel" ]. sano_a1 := a_qual_intr_ser_le & [ STEM < "sano" >, SYNSEM.LKEYS.KEYREL.PRED "_sano_a_rel" ]. santalol_n1 := n_intr_count_le & [ STEM < "santalol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_santalol_n_rel" ] ]. santamente_x1 := av_i_spr_le & [ STEM < "santamente" >, SYNSEM.LKEYS.KEYREL.PRED "_santamente_x_rel" ]. santanderino_a1 := a_rel_prd_le & [ STEM < "santanderino" >, SYNSEM.LKEYS.KEYREL.PRED "_santanderino_a_rel" ]. santanderino_n1 := n_intr_count_le & [ STEM < "santanderino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_santanderino_n_rel" ] ]. santería_n1 := n_intr_count_le & [ STEM < "santería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_santería_n_rel" ] ]. santiaguero_n1 := n_intr_count_le & [ STEM < "santiaguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_santiaguero_n_rel" ] ]. santiagueño_a1 := a_rel_prd_le & [ STEM < "santiagueño" >, SYNSEM.LKEYS.KEYREL.PRED "_santiagueño_a_rel" ]. santiaguino_a1 := a_rel_prd_le & [ STEM < "santiaguino" >, SYNSEM.LKEYS.KEYREL.PRED "_santiaguino_a_rel" ]. santiaguino_n1 := n_intr_count_le & [ STEM < "santiaguino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_santiaguino_n_rel" ] ]. santiagués_n1 := n_intr_count_le & [ STEM < "santiagués" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_santiagués_n_rel" ] ]. santidad_n1 := n_intr_mass_le & [ STEM < "santidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_santidad_n_rel" ] ]. santificación_n1 := n_trans_le & [ STEM < "santificación" >, SYNSEM.LKEYS.KEYREL.PRED "_santificación_n_rel" ]. santificar_v := v_trans_np*_le & [ STEM < "santificar" >, SYNSEM.LKEYS.KEYREL.PRED "_santificar_v_rel" ]. santo_n1 := n_intr_count_le & [ STEM < "santo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_santo_n_rel" ] ]. santonina_n1 := n_intr_count_le & [ STEM < "santonina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_santonina_n_rel" ] ]. santuario_n1 := n_intr_count_le & [ STEM < "santuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_santuario_n_rel" ] ]. sapelli_n1 := n_intr_count_le & [ STEM < "sapelli" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sapelli_n_rel" ] ]. sapo_n1 := n_intr_count_le & [ STEM < "sapo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sapo_n_rel" ] ]. saponificable_a1 := a_rel_prd_le & [ STEM < "saponificable" >, SYNSEM.LKEYS.KEYREL.PRED "_saponificable_a_rel" ]. saponificación_n1 := n_trans_le & [ STEM < "saponificación" >, SYNSEM.LKEYS.KEYREL.PRED "_saponificación_n_rel" ]. saponificar_v := v_trans_np_le & [ STEM < "saponificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mat, PRED "_saponificar_v_rel" ] ]. saponina_n1 := n_intr_count_le & [ STEM < "saponina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saponina_n_rel" ] ]. saponita_n1 := n_intr_count_le & [ STEM < "saponita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saponita_n_rel" ] ]. saponáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "saponáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_saponáceo_a_rel" ]. saprobio_n1 := n_intr_count_le & [ STEM < "saprobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saprobio_n_rel" ] ]. saprolita_n1 := n_intr_count_le & [ STEM < "saprolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saprolita_n_rel" ] ]. sapropel_n1 := n_intr_count_le & [ STEM < "sapropel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sapropel_n_rel" ] ]. saprófito_n1 := n_intr_count_le & [ STEM < "saprófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_saprófito_n_rel" ] ]. saqueador_n1 := n_subj-nom_le & [ STEM < "saqueador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saqueador_n_rel" ] ]. saquear_v := v_trans_np_le & [ STEM < "saquear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum_loc_soc, PRED "_saquear_v_rel" ] ]. saqueo_n1 := n_trans_le & [ STEM < "saqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_saqueo_n_rel" ]. sarajevita_a1 := a_rel_prd_le & [ STEM < "sarajevita" >, SYNSEM.LKEYS.KEYREL.PRED "_sarajevita_a_rel" ]. sarampión_n1 := n_intr_uncount_le & [ STEM < "sarampión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarampión_n_rel" ] ]. sarcocarpio_n1 := n_intr_count_le & [ STEM < "sarcocarpio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcocarpio_n_rel" ] ]. sarcolema_n1 := n_intr_count_le & [ STEM < "sarcolema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcolema_n_rel" ] ]. sarcoma_n1 := n_ppcomp_count_le & [ STEM < "sarcoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_sarcoma_n_rel" ] ]. sarcoplasma_n1 := n_intr_count_le & [ STEM < "sarcoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcoplasma_n_rel" ] ]. sarcoplasmático_a1 := a_rel_nonprd_intr_le & [ STEM < "sarcoplasmático" >, SYNSEM.LKEYS.KEYREL.PRED "_sarcoplasmático_a_rel" ]. sarcoplásmico_a1 := a_rel_nonprd_intr_le & [ STEM < "sarcoplásmico" >, SYNSEM.LKEYS.KEYREL.PRED "_sarcoplásmico_a_rel" ]. sarcosina_n1 := n_intr_count_le & [ STEM < "sarcosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sarcosina_n_rel" ] ]. sarcosinato_n1 := n_intr_count_le & [ STEM < "sarcosinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sarcosinato_n_rel" ] ]. sarcosoma_n1 := n_intr_count_le & [ STEM < "sarcosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcosoma_n_rel" ] ]. sarcásticamente_x1 := av_i_spr_le & [ STEM < "sarcásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sarcásticamente_x_rel" ]. sarcástico_a1 := a_qual_intr_ser_le & [ STEM < "sarcástico" >, SYNSEM.LKEYS.KEYREL.PRED "_sarcástico_a_rel" ]. sarcófago_n1 := n_intr_count_le & [ STEM < "sarcófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcófago_n_rel" ] ]. sarcómero_n1 := n_intr_count_le & [ STEM < "sarcómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sarcómero_n_rel" ] ]. sardanista_n1 := n_intr_count_le & [ STEM < "sardanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sardanista_n_rel" ] ]. sardina_n1 := n_intr_count_le & [ STEM < "sardina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sardina_n_rel" ] ]. sardo_a1 := a_rel_nonprd_intr_le & [ STEM < "sardo" >, SYNSEM.LKEYS.KEYREL.PRED "_sardo_a_rel" ]. sardo_n1 := n_intr_count_le & [ STEM < "sardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sardo_n_rel" ] ]. sardonix_n1 := n_intr_count_le & [ STEM < "sardonix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sardonix_n_rel" ] ]. sardón_n1 := n_intr_count_le & [ STEM < "sardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sardón_n_rel" ] ]. sardónice_n1 := n_intr_count_le & [ STEM < "sardónice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sardónice_n_rel" ] ]. sardónico_a1 := a_qual_intr_ser_le & [ STEM < "sardónico" >, SYNSEM.LKEYS.KEYREL.PRED "_sardónico_a_rel" ]. sargento_n1 := n_intr_count_le & [ STEM < "sargento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sargento_n_rel" ] ]. sargo_n1 := n_intr_count_le & [ STEM < "sargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sargo_n_rel" ] ]. sari_n1 := n_intr_count_le & [ STEM < "sari" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sari_n_rel" ] ]. sarista_n1 := n_intr_count_le & [ STEM < "sarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sarista_n_rel" ] ]. sarnoso_a1 := a_qual_intr_ser_le & [ STEM < "sarnoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sarnoso_a_rel" ]. sarpullido_n1 := n_intr_mass_le & [ STEM < "sarpullido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarpullido_n_rel" ] ]. sarraceno_a1 := a_rel_prd_le & [ STEM < "sarraceno" >, SYNSEM.LKEYS.KEYREL.PRED "_sarraceno_a_rel" ]. sarrillo_n1 := n_intr_count_le & [ STEM < "sarrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sarrillo_n_rel" ] ]. sarro_n1 := n_intr_mass-or-count_le & [ STEM < "sarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_sarro_n_rel" ] ]. sartorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sartorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sartorio_a_rel" ]. sartén_n1 := n_intr_count_le & [ STEM < "sartén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sartén_n_rel" ] ]. sarín_n1 := n_intr_mass_le & [ STEM < "sarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sarín_n_rel" ] ]. sasolita_n1 := n_intr_count_le & [ STEM < "sasolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sasolita_n_rel" ] ]. sastre_n1 := n_intr_count_le & [ STEM < "sastre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sastre_n_rel" ] ]. sastrería_n1 := n_intr_mass-or-count_le & [ STEM < "sastrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sastrería_n_rel" ] ]. satanismo_n1 := n_intr_uncount_le & [ STEM < "satanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_satanismo_n_rel" ] ]. satanista_n1 := n_intr_count_le & [ STEM < "satanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_satanista_n_rel" ] ]. satinado_n1 := n_trans_le & [ STEM < "satinado" >, SYNSEM.LKEYS.KEYREL.PRED "_satinado_n_rel" ]. satinar_v := v_trans_np_le & [ STEM < "satinar" >, SYNSEM.LKEYS.KEYREL.PRED "_satinar_v_rel" ]. satisfacción_n1 := n_trans_le & [ STEM < "satisfacción" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfacción_n_rel" ]. satisfacer_v1 := v_intr_io*_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfacer_v_rel" ]. satisfacer_v2 := v_intr_mrkd_np_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_satisfacer_v_rel" ] ]. satisfacer_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_satisfacer_v_rel" ] ] ]. satisfacer_v4 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS [ --COMPKEY con_sel_or_indp_rel, KEYREL.PRED "_satisfacer_v_rel" ] ]. satisfacer_v5 := v_pron_intr_mrkd_np_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_satisfacer_v_rel" ] ] ]. satisfacer_v6 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "satisfacer" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfacer_v_rel" ]. satisfactoriamente_x1 := av_i_spr_le & [ STEM < "satisfactoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfactoriamente_x_rel" ]. satisfactorio_a1 := a_qual_intr_ser_le & [ STEM < "satisfactorio" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfactorio_a_rel" ]. satisfascer_v := v_trans_np_le & [ STEM < "satisfascer" >, SYNSEM.LKEYS.KEYREL.PRED "_satisfascer_v_rel" ]. saturable_a1 := a_rel_nonprd_intr_le & [ STEM < "saturable" >, SYNSEM.LKEYS.KEYREL.PRED "_saturable_a_rel" ]. saturablemente_x1 := av_i_spr_le & [ STEM < "saturablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_saturablemente_x_rel" ]. saturación_n1 := n_trans_le & [ STEM < "saturación" >, SYNSEM.LKEYS.KEYREL.PRED "_saturación_n_rel" ]. saturador_n1 := n_intr_count_le & [ STEM < "saturador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_saturador_n_rel" ] ]. saturante_a1 := a_rel_nonprd_intr_le & [ STEM < "saturante" >, SYNSEM.LKEYS.KEYREL.PRED "_saturante_a_rel" ]. saturantemente_x1 := av_i_spr_le & [ STEM < "saturantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_saturantemente_x_rel" ]. saturar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "saturar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_saturar_v_rel" ] ]. saturar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "saturar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_saturar_v_rel" ] ]. saturnino_a1 := a_rel_nonprd_intr_le & [ STEM < "saturnino" >, SYNSEM.LKEYS.KEYREL.PRED "_saturnino_a_rel" ]. saturnismo_n1 := n_intr_uncount_le & [ STEM < "saturnismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saturnismo_n_rel" ] ]. satánico_a1 := a_qual_intr_ser_le & [ STEM < "satánico" >, SYNSEM.LKEYS.KEYREL.PRED "_satánico_a_rel" ]. satélite_a1 := a_rel_nonprd_intr_le & [ STEM < "satélite" >, SYNSEM.LKEYS.KEYREL.PRED "_satélite_a_rel" ]. satélite_n1 := n_intr_count_le & [ STEM < "satélite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_satélite_n_rel" ] ]. satén_n1 := n_intr_mass_le & [ STEM < "satén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_satén_n_rel" ] ]. satíricamente_x1 := av_i_spr_le & [ STEM < "satíricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_satíricamente_x_rel" ]. satírico_a1 := a_qual_intr_ser_le & [ STEM < "satírico" >, SYNSEM.LKEYS.KEYREL.PRED "_satírico_a_rel" ]. satírico_n1 := n_intr_count_le & [ STEM < "satírico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_satírico_n_rel" ] ]. sauce_n1 := n_intr_count_le & [ STEM < "sauce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sauce_n_rel" ] ]. saudita_a1 := a_rel_prd_le & [ STEM < "saudita" >, SYNSEM.LKEYS.KEYREL.PRED "_saudita_a_rel" ]. saudí_a1 := a_rel_prd_le & [ STEM < "saudí" >, SYNSEM.LKEYS.KEYREL.PRED "_saudí_a_rel" ]. saudí_n1 := n_intr_count_le & [ STEM < "saudí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saudí_n_rel" ] ]. sauna_n1 := n_intr_count_le & [ STEM < "sauna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sauna_n_rel" ] ]. saurel_n1 := n_intr_count_le & [ STEM < "saurel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_saurel_n_rel" ] ]. saurio_a1 := a_rel_nonprd_intr_le & [ STEM < "saurio" >, SYNSEM.LKEYS.KEYREL.PRED "_saurio_a_rel" ]. saurio_n1 := n_intr_count_le & [ STEM < "saurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_saurio_n_rel" ] ]. saussurita_n1 := n_intr_count_le & [ STEM < "saussurita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_saussurita_n_rel" ] ]. sauz_n1 := n_intr_count_le & [ STEM < "sauz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sauz_n_rel" ] ]. saxofonista_n1 := n_intr_count_le & [ STEM < "saxofonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_saxofonista_n_rel" ] ]. saxofón_n1 := n_intr_count_le & [ STEM < "saxofón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saxofón_n_rel" ] ]. saxícolo_a1 := a_rel_nonprd_intr_le & [ STEM < "saxícolo" >, SYNSEM.LKEYS.KEYREL.PRED "_saxícolo_a_rel" ]. saxófono_n1 := n_intr_count_le & [ STEM < "saxófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_saxófono_n_rel" ] ]. saz_n1 := n_intr_count_le & [ STEM < "saz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_saz_n_rel" ] ]. sazonar_v := v_trans_np_le & [ STEM < "sazonar" >, SYNSEM.LKEYS.KEYREL.PRED "_sazonar_v_rel" ]. saúco_n1 := n_intr_count_le & [ STEM < "saúco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_saúco_n_rel" ] ]. scandio_n1 := n_intr_count_le & [ STEM < "scandio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_scandio_n_rel" ] ]. scanner_n1 := n_intr_count_le & [ STEM < "scanner" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_scanner_n_rel" ] ]. scheduler_n1 := n_intr_count_le & [ STEM < "scheduler" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_scheduler_n_rel" ] ]. scheelita_n1 := n_intr_count_le & [ STEM < "scheelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_scheelita_n_rel" ] ]. schoepita_n1 := n_intr_count_le & [ STEM < "schoepita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_schoepita_n_rel" ] ]. schroeckingerita_n1 := n_intr_count_le & [ STEM < "schroeckingerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_schroeckingerita_n_rel" ] ]. scoparius_n1 := n_intr_count_le & [ STEM < "scoparius" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_scoparius_n_rel" ] ]. se_p2 := af_dat_or_rflx_le & [ STEM < "se" > ]. sea_cc1 := cc_distr_sea_le & [ STEM < "sea" > ]. sea_cc2 := cc_distr_sea-sea_le & [ STEM < "sea" > ]. sea_cc3 := cc_distr_osea-sea_le & [ STEM < "o_sea" > ]. sea_cual_fuere_x1 := av_i_le & [ STEM < "sea_cual_fuere" >, SYNSEM.LKEYS.KEYREL.PRED "_sea_cual_fuere_x_rel" ]. sea_lo_que_fuere_x1 := av_i_le & [ STEM < "sea_lo_que_fuere" >, SYNSEM.LKEYS.KEYREL.PRED "_sea_lo_que_fuere_x_rel" ]. sea_sc := sc_prop_fin_le & [ STEM < "sea" >, SYNSEM.LKEYS.KEYREL.PRED "_sea_x_subord_rel" ]. sebacato_n1 := n_intr_count_le & [ STEM < "sebacato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sebacato_n_rel" ] ]. sebaconitrilo_n1 := n_intr_count_le & [ STEM < "sebaconitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sebaconitrilo_n_rel" ] ]. sebo_n1 := n_intr_mass_le & [ STEM < "sebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sebo_n_rel" ] ]. seboso_a1 := a_qual_intr_scopal_le & [ STEM < "seboso" >, SYNSEM.LKEYS.KEYREL.PRED "_seboso_a_rel" ]. sebáceo_a1 := a_rel_nonprd_intr_le & [ STEM < "sebáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_sebáceo_a_rel" ]. sebácico_a1 := a_rel_nonprd_intr_le & [ STEM < "sebácico" >, SYNSEM.LKEYS.KEYREL.PRED "_sebácico_a_rel" ]. secadal_n1 := n_intr_count_le & [ STEM < "secadal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_secadal_n_rel" ] ]. secadero_n1 := n_intr_count_le & [ STEM < "secadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_secadero_n_rel" ] ]. secado_n1 := n_trans_le & [ STEM < "secado" >, SYNSEM.LKEYS.KEYREL.PRED "_secado_n_rel" ]. secador_a1 := a_rel_nonprd_intr_le & [ STEM < "secador" >, SYNSEM.LKEYS.KEYREL.PRED "_secador_a_rel" ]. secador_n1 := n_intr_count_le & [ STEM < "secador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_secador_n_rel" ] ]. secadora_n1 := n_intr_count_le & [ STEM < "secadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_secadora_n_rel" ] ]. secamente_x1 := av_i_spr_le & [ STEM < "secamente" >, SYNSEM.LKEYS.KEYREL.PRED "_secamente_x_rel" ]. secamiento_n1 := n_trans_le & [ STEM < "secamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_secamiento_n_rel" ]. secante_a1 := a_rel_nonprd_intr_le & [ STEM < "secante" >, SYNSEM.LKEYS.KEYREL.PRED "_secante_a_rel" ]. secar_v := v_trans_np_caus_le & [ STEM < "secar" >, SYNSEM.LKEYS.KEYREL.PRED "_secar_v_rel" ]. seccionador_a1 := a_rel_nonprd_intr_le & [ STEM < "seccionador" >, SYNSEM.LKEYS.KEYREL.PRED "_seccionador_a_rel" ]. seccionador_n1 := n_intr_count_le & [ STEM < "seccionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_seccionador_n_rel" ] ]. seccional_a1 := a_rel_nonprd_intr_le & [ STEM < "seccional" >, SYNSEM.LKEYS.KEYREL.PRED "_seccional_a_rel" ]. seccionar_v := v_trans_np_le & [ STEM < "seccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_seccionar_v_rel" ]. sección_n1 := n_intr_count_le & [ STEM < "sección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_sección_n_rel" ] ]. secesionismo_n1 := n_intr_uncount_le & [ STEM < "secesionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secesionismo_n_rel" ] ]. secesionista_a1 := a_rel_nonprd_intr_le & [ STEM < "secesionista" >, SYNSEM.LKEYS.KEYREL.PRED "_secesionista_a_rel" ]. secesionista_n1 := n_intr_count_le & [ STEM < "secesionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_secesionista_n_rel" ] ]. secesión_n1 := n_intr_uncount_le & [ STEM < "secesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secesión_n_rel" ] ]. seco_a1 := a_qual_intr_estar_le & [ STEM < "seco" >, SYNSEM.LKEYS.KEYREL.PRED "_seco_a_rel" ]. secobarbital_a1 := a_rel_nonprd_intr_le & [ STEM < "secobarbital" >, SYNSEM.LKEYS.KEYREL.PRED "_secobarbital_a_rel" ]. secoya_n1 := n_intr_count_le & [ STEM < "secoya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_secoya_n_rel" ] ]. secreción_n1 := n_intr_mass_le & [ STEM < "secreción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_secreción_n_rel" ] ]. secretamente_x1 := av_i_spr_le & [ STEM < "secretamente" >, SYNSEM.LKEYS.KEYREL.PRED "_secretamente_x_rel" ]. secretariado_n1 := n_intr_count_le & [ STEM < "secretariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_secretariado_n_rel" ] ]. secretario_n1 := n_intr_count_le & [ STEM < "secretario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_secretario_n_rel" ] ]. secretaría_n1 := n_intr_count_le & [ STEM < "secretaría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secretaría_n_rel" ] ]. secretismo_n1 := n_intr_uncount_le & [ STEM < "secretismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secretismo_n_rel" ] ]. secreto_a1 := a_qual_intr_ser_le & [ STEM < "secreto" >, SYNSEM.LKEYS.KEYREL.PRED "_secreto_a_rel" ]. secretor_a1 := a_rel_nonprd_intr_le & [ STEM < "secretor" >, SYNSEM.LKEYS.KEYREL.PRED "_secretor_a_rel" ]. secta_n1 := n_intr_coll_le & [ STEM < "secta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_secta_n_rel" ] ]. sectario_a1 := a_rel_nonprd_intr_le & [ STEM < "sectario" >, SYNSEM.LKEYS.KEYREL.PRED "_sectario_a_rel" ]. sectarismo_n1 := n_intr_uncount_le & [ STEM < "sectarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sectarismo_n_rel" ] ]. sectil_a1 := a_rel_nonprd_intr_le & [ STEM < "sectil" >, SYNSEM.LKEYS.KEYREL.PRED "_sectil_a_rel" ]. sector_n1 := n_intr_count_le & [ STEM < "sector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_sector_n_rel" ] ]. sector_agrícola_n1 := n_intr_count_le & [ STEM < "sector_agrícola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sector_agrícola_n_rel" ] ]. sectorial_a1 := a_rel_nonprd_intr_le & [ STEM < "sectorial" >, SYNSEM.LKEYS.KEYREL.PRED "_sectorial_a_rel" ]. sectorialmente_x1 := av_i_spr_le & [ STEM < "sectorialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sectorialmente_x_rel" ]. sectorización_n1 := n_trans_le & [ STEM < "sectorización" >, SYNSEM.LKEYS.KEYREL.PRED "_sectorización_n_rel" ]. secuaz_n1 := n_intr_count_le & [ STEM < "secuaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_secuaz_n_rel" ] ]. secuencia_n1 := n_intr_count_le & [ STEM < "secuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secuencia_n_rel" ] ]. secuenciación_n1 := n_trans_le & [ STEM < "secuenciación" >, SYNSEM.LKEYS.KEYREL.PRED "_secuenciación_n_rel" ]. secuenciador_n1 := n_intr_count_le & [ STEM < "secuenciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_secuenciador_n_rel" ] ]. secuencial_a1 := a_rel_nonprd_intr_le & [ STEM < "secuencial" >, SYNSEM.LKEYS.KEYREL.PRED "_secuencial_a_rel" ]. secuencialización_n1 := n_trans_le & [ STEM < "secuencialización" >, SYNSEM.LKEYS.KEYREL.PRED "_secuencialización_n_rel" ]. secuencialmente_x1 := av_i_spr_le & [ STEM < "secuencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_secuencialmente_x_rel" ]. secuenciar_v := v_trans_np_le & [ STEM < "secuenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_secuenciar_v_rel" ]. secuestración_n1 := n_trans_le & [ STEM < "secuestración" >, SYNSEM.LKEYS.KEYREL.PRED "_secuestración_n_rel" ]. secuestrador_n1 := n_subj-nom_le & [ STEM < "secuestrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_secuestrador_n_rel" ] ]. secuestrar_v := v_trans_np_le & [ STEM < "secuestrar" >, SYNSEM.LKEYS.KEYREL.PRED "_secuestrar_v_rel" ]. secuestro_n1 := n_trans_le & [ STEM < "secuestro" >, SYNSEM.LKEYS.KEYREL.PRED "_secuestro_n_rel" ]. secular_a1 := a_rel_nonprd_intr_le & [ STEM < "secular" >, SYNSEM.LKEYS.KEYREL.PRED "_secular_a_rel" ]. secularización_n1 := n_trans_le & [ STEM < "secularización" >, SYNSEM.LKEYS.KEYREL.PRED "_secularización_n_rel" ]. secularmente_x1 := av_i_spr_le & [ STEM < "secularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_secularmente_x_rel" ]. secundar_v := v_trans_np_le & [ STEM < "secundar" >, SYNSEM.LKEYS.KEYREL.PRED "_secundar_v_rel" ]. secundariamente_x1 := av_i_spr_le & [ STEM < "secundariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_secundariamente_x_rel" ]. secundario_a1 := a_qual_intr_ser_le & [ STEM < "secundario" >, SYNSEM.LKEYS.KEYREL.PRED "_secundario_a_rel" ]. secuoya_n1 := n_intr_count_le & [ STEM < "secuoya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_secuoya_n_rel" ] ]. seda_n1 := n_intr_mass_le & [ STEM < "seda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_seda_n_rel" ] ]. sedación_n1 := n_trans_le & [ STEM < "sedación" >, SYNSEM.LKEYS.KEYREL.PRED "_sedación_n_rel" ]. sedal_n1 := n_intr_count_le & [ STEM < "sedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sedal_n_rel" ] ]. sedalina_n1 := n_intr_mass_le & [ STEM < "sedalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sedalina_n_rel" ] ]. sedante_a1 := a_rel_nonprd_intr_le & [ STEM < "sedante" >, SYNSEM.LKEYS.KEYREL.PRED "_sedante_a_rel" ]. sedar_v := v_trans_np_le & [ STEM < "sedar" >, SYNSEM.LKEYS.KEYREL.PRED "_sedar_v_rel" ]. sedativo_a1 := a_rel_nonprd_intr_le & [ STEM < "sedativo" >, SYNSEM.LKEYS.KEYREL.PRED "_sedativo_a_rel" ]. sede_n1 := n_intr_count_le & [ STEM < "sede" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sede_n_rel" ] ]. sedentario_a1 := a_qual_intr_ser_le & [ STEM < "sedentario" >, SYNSEM.LKEYS.KEYREL.PRED "_sedentario_a_rel" ]. sedentarismo_n1 := n_intr_uncount_le & [ STEM < "sedentarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sedentarismo_n_rel" ] ]. sedero_n1 := n_intr_count_le & [ STEM < "sedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sedero_n_rel" ] ]. sedería_n1 := n_intr_count_le & [ STEM < "sedería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sedería_n_rel" ] ]. sedicioso_a1 := a_qual_intr_ser_le & [ STEM < "sedicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_sedicioso_a_rel" ]. sedición_n1 := n_intr_uncount_le & [ STEM < "sedición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sedición_n_rel" ] ]. sediento_a1 := a_qual_intr_estar_le & [ STEM < "sediento" >, SYNSEM.LKEYS.KEYREL.PRED "_sediento_a_rel" ]. sedimentable_a1 := a_rel_nonprd_intr_le & [ STEM < "sedimentable" >, SYNSEM.LKEYS.KEYREL.PRED "_sedimentable_a_rel" ]. sedimentablemente_x1 := av_i_spr_le & [ STEM < "sedimentablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sedimentablemente_x_rel" ]. sedimentación_n1 := n_trans_le & [ STEM < "sedimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_sedimentación_n_rel" ]. sedimentar_v1 := v_intr_le & [ STEM < "sedimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, PRED "_sedimentar_v_rel" ] ]. sedimentar_v2 := v_pron_intr_le & [ STEM < "sedimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, PRED "_sedimentar_v_rel" ] ]. sedimentario_a1 := a_rel_nonprd_intr_le & [ STEM < "sedimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_sedimentario_a_rel" ]. sedimento_n1 := n_intr_count_le & [ STEM < "sedimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sedimento_n_rel" ] ]. sedimentología_n1 := n_intr_uncount_le & [ STEM < "sedimentología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sedimentología_n_rel" ] ]. sedoso_a1 := a_qual_intr_scopal_le & [ STEM < "sedoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sedoso_a_rel" ]. seducción_n1 := n_trans_le & [ STEM < "seducción" >, SYNSEM.LKEYS.KEYREL.PRED "_seducción_n_rel" ]. seducible_a1 := a_qual_intr_ser_le & [ STEM < "seducible" >, SYNSEM.LKEYS.KEYREL.PRED "_seducible_a_rel" ]. seducir_v1 := v_intr_io*_le & [ STEM < "seducir" >, SYNSEM.LKEYS.KEYREL.PRED "_seducir_v_rel" ]. seducir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "seducir" >, SYNSEM.LKEYS.KEYREL.PRED "_seducir_v_rel" ]. seducir_v3 := v_trans_np_le & [ STEM < "seducir" >, SYNSEM.LKEYS.KEYREL.PRED "_seducir_v_rel" ]. seductivo_a1 := a_qual_intr_ser_le & [ STEM < "seductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_seductivo_a_rel" ]. seductor_a1 := a_qual_intr_ser_le & [ STEM < "seductor" >, SYNSEM.LKEYS.KEYREL.PRED "_seductor_a_rel" ]. seductor_n1 := n_subj-nom_le & [ STEM < "seductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seductor_n_rel" ] ]. sedán_n1 := n_intr_count_le & [ STEM < "sedán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sedán_n_rel" ] ]. sefardí_a1 := a_rel_prd_le & [ STEM < "sefardí" >, SYNSEM.LKEYS.KEYREL.PRED "_sefardí_a_rel" ]. segador_a1 := a_rel_nonprd_intr_le & [ STEM < "segador" >, SYNSEM.LKEYS.KEYREL.PRED "_segador_a_rel" ]. segador_n1 := n_subj-nom_le & [ STEM < "segador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_segador_n_rel" ] ]. segadora_n1 := n_intr_count_le & [ STEM < "segadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT pot, PRED "_segadora_n_rel" ] ]. segar_v := v_trans_np_le & [ STEM < "segar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pot, ARG2.SORT abs_cnc_loc_plant, PRED "_segar_v_rel" ] ]. seglar_a1 := a_rel_nonprd_intr_le & [ STEM < "seglar" >, SYNSEM.LKEYS.KEYREL.PRED "_seglar_a_rel" ]. seglarmente_x1 := av_i_spr_le & [ STEM < "seglarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_seglarmente_x_rel" ]. segmentación_n1 := n_trans_le & [ STEM < "segmentación" >, SYNSEM.LKEYS.KEYREL.PRED "_segmentación_n_rel" ]. segmental_a1 := a_rel_nonprd_intr_le & [ STEM < "segmental" >, SYNSEM.LKEYS.KEYREL.PRED "_segmental_a_rel" ]. segmentalmente_x1 := av_i_spr_le & [ STEM < "segmentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_segmentalmente_x_rel" ]. segmentar_v := v_trans_np_le & [ STEM < "segmentar" >, SYNSEM.LKEYS.KEYREL.PRED "_segmentar_v_rel" ]. segmentariamente_x1 := av_i_spr_le & [ STEM < "segmentariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_segmentariamente_x_rel" ]. segmentario_a1 := a_rel_nonprd_intr_le & [ STEM < "segmentario" >, SYNSEM.LKEYS.KEYREL.PRED "_segmentario_a_rel" ]. segmento_n := n_intr_count_le & [ STEM < "segmento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_segmento_n_rel" ] ]. segoviano_n1 := n_intr_count_le & [ STEM < "segoviano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_segoviano_n_rel" ] ]. segregacionismo_n1 := n_intr_uncount_le & [ STEM < "segregacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_segregacionismo_n_rel" ] ]. segregacionista_n1 := n_intr_count_le & [ STEM < "segregacionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_segregacionista_n_rel" ] ]. segregación_n1 := n_trans_le & [ STEM < "segregación" >, SYNSEM.LKEYS.KEYREL.PRED "_segregación_n_rel" ]. segregador_a1 := a_rel_nonprd_intr_le & [ STEM < "segregador" >, SYNSEM.LKEYS.KEYREL.PRED "_segregador_a_rel" ]. segregante_a1 := a_rel_nonprd_intr_le & [ STEM < "segregante" >, SYNSEM.LKEYS.KEYREL.PRED "_segregante_a_rel" ]. segueta_n1 := n_intr_count_le & [ STEM < "segueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_segueta_n_rel" ] ]. seguidamente_x1 := av_i_spr_le & [ STEM < "seguidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_seguidamente_x_rel" ]. seguidismo_n1 := n_intr_uncount_le & [ STEM < "seguidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seguidismo_n_rel" ] ]. seguidor_n1 := n_subj-nom_le & [ STEM < "seguidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seguidor_n_rel" ] ]. seguimiento_n1 := n_trans_le & [ STEM < "seguimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_seguimiento_n_rel" ]. segundo_n1 := n_pseudo-part_temp_le & [ STEM < "segundo" >, SYNSEM.LKEYS.KEYREL.PRED "_segundo_n_rel" ]. segundo_n2 := n_intr_temp_le & [ STEM < "segundo" > ]. segundón_n1 := n_intr_count_le & [ STEM < "segundón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_segundón_n_rel" ] ]. seguradora_n1 := n_intr_count_le & [ STEM < "seguradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_seguradora_n_rel" ] ]. seguramente_x1 := av_s_prhd_spr_le & [ STEM < "seguramente" >, SYNSEM.LKEYS.KEYREL.PRED "_seguramente_x_rel" ]. seguridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "seguridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seguridad_n_rel" ] ]. seguro_a1 := a_adv_int_le & [ STEM < "seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_seguro_a_rel" ]. seguro_a2 := a_qual_intr_scopal_le & [ STEM < "seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_seguro_a_rel" ]. seguro_a3 := a_qual_trans*_estar_le & [ STEM < "seguro" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_seguro_a_rel" ] ]. seguro_a4 := a_qual_cp_prop_fin_estar_le & [ STEM < "seguro" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_seguro_a_rel" ] ]. seguro_a5 := a_qual_cp_ques_estar_le & [ STEM < "seguro" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_seguro_a_rel" ] ]. seguro_a6 := a_sctrl_estar_le & [ STEM < "seguro" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_seguro_a_rel" ] ]. seguro_n1 := n_intr_count_le & [ STEM < "seguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_seguro_n_rel" ] ]. seguro_x1 := av_i_le & [ STEM < "seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_seguro_x_rel" ]. según_como_x1 := av_i_le & [ STEM < "según_como" >, SYNSEM.LKEYS.KEYREL.PRED "_según_como_x_rel" ]. según_el_decir_de_p_vmod := p_vmod_le & [ STEM < "según_el_decir_de" >, SYNSEM.LKEYS.KEYREL.PRED _según_el_decir_de_p_rel ]. según_p_vmod := p_vmod_le & [ STEM < "según" >, SYNSEM.LKEYS.KEYREL.PRED _según_p_rel ]. según_que_sc := sc_prop_fin_le & [ STEM < "según_que" >, SYNSEM.LKEYS.KEYREL.PRED "_según_que_x_subord_rel" ]. según_sc := sc_prop_fin_le & [ STEM < "según" >, SYNSEM.LKEYS.KEYREL.PRED "_según_x_subord_rel" ]. seleccionable_a1 := a_rel_nonprd_intr_le & [ STEM < "seleccionable" >, SYNSEM.LKEYS.KEYREL.PRED "_seleccionable_a_rel" ]. seleccionador_n1 := n_subj-nom_le & [ STEM < "seleccionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seleccionador_n_rel" ] ]. selección_n1 := n_intr_count_le & [ STEM < "selección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_selección_n_rel" ] ]. selección_n2 := n_trans_le & [ STEM < "selección" >, SYNSEM.LKEYS.KEYREL.PRED "_selección_n_rel" ]. selectina_n1 := n_intr_count_le & [ STEM < "selectina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_selectina_n_rel" ] ]. selectivamente_x1 := av_i_spr_le & [ STEM < "selectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_selectivamente_x_rel" ]. selectividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "selectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_selectividad_n_rel" ] ]. selectivo_a1 := a_qual_intr_ser_le & [ STEM < "selectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_selectivo_a_rel" ]. selecto_a1 := a_qual_intr_ser_le & [ STEM < "selecto" >, SYNSEM.LKEYS.KEYREL.PRED "_selecto_a_rel" ]. selector_n1 := n_intr_count_le & [ STEM < "selector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_selector_n_rel" ] ]. seleniato_n1 := n_intr_count_le & [ STEM < "seleniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_seleniato_n_rel" ] ]. selenio_n1 := n_intr_mass_le & [ STEM < "selenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_selenio_n_rel" ] ]. seleniuro_n1 := n_intr_mass_le & [ STEM < "seleniuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_seleniuro_n_rel" ] ]. selfactina_n1 := n_intr_mass-or-count_le & [ STEM < "selfactina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_selfactina_n_rel" ] ]. sellado_n1 := n_trans_le & [ STEM < "sellado" >, SYNSEM.LKEYS.KEYREL.PRED "_sellado_n_rel" ]. sellador_a1 := a_rel_nonprd_intr_le & [ STEM < "sellador" >, SYNSEM.LKEYS.KEYREL.PRED "_sellador_a_rel" ]. sellador_n1 := n_intr_count_le & [ STEM < "sellador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sellador_n_rel" ] ]. sellar_v := v_trans_np_le & [ STEM < "sellar" >, SYNSEM.LKEYS.KEYREL.PRED "_sellar_v_rel" ]. sello_n1 := n_intr_count_le & [ STEM < "sello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sello_n_rel" ] ]. selsol_n1 := n_intr_count_le & [ STEM < "selsol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_selsol_n_rel" ] ]. selva_n1 := n_intr_mass-or-count_le & [ STEM < "selva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_selva_n_rel" ] ]. selvicultura_n1 := n_intr_count_le & [ STEM < "selvicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_selvicultura_n_rel" ] ]. selvático_a1 := a_rel_nonprd_intr_le & [ STEM < "selvático" >, SYNSEM.LKEYS.KEYREL.PRED "_selvático_a_rel" ]. semafórico_a1 := a_rel_nonprd_intr_le & [ STEM < "semafórico" >, SYNSEM.LKEYS.KEYREL.PRED "_semafórico_a_rel" ]. semana_n1 := n_pseudo-part_temp_le & [ STEM < "semana" >, SYNSEM.LKEYS.KEYREL.PRED "_semana_n_rel" ]. semana_n2 := n_intr_temp_le & [ STEM < "semana" > ]. semanal_a1 := a_rel_prd_le & [ STEM < "semanal" >, SYNSEM.LKEYS.KEYREL.PRED "_semanal_a_rel" ]. semanalmente_x1 := av_s_prhd_le & [ STEM < "semanalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semanalmente_x_rel" ]. semanalmente_x2 := av_i_psthd_le & [ STEM < "semanalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semanalmente_x_rel" ]. semanario_n1 := n_intr_count_le & [ STEM < "semanario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_semanario_n_rel" ] ]. semantista_n1 := n_intr_count_le & [ STEM < "semantista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semantista_n_rel" ] ]. semasiología_n1 := n_intr_uncount_le & [ STEM < "semasiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semasiología_n_rel" ] ]. semasiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "semasiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_semasiológico_a_rel" ]. semblanza_n1 := n_intr_mass_le & [ STEM < "semblanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semblanza_n_rel" ] ]. sembrado_n1 := n_intr_mass-or-count_le & [ STEM < "sembrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sembrado_n_rel" ] ]. sembrador_n1 := n_subj-nom_le & [ STEM < "sembrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sembrador_n_rel" ] ]. sembradora_n1 := n_intr_count_le & [ STEM < "sembradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sembradora_n_rel" ] ]. sembrar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "sembrar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_sembrar_v_rel" ] ]. sembrar_v2 := v_trans_np*_le & [ STEM < "sembrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, PRED "_sembrar_v_rel" ] ]. sembrar_v3 := v_trans_np_mrkd_np_le & [ STEM < "sembrar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_sembrar_v_rel" ] ]. semejante_a1 := a_adv_event_le & [ STEM < "semejante" >, SYNSEM.LKEYS.KEYREL.PRED "_semejante_a_rel" ]. semejante_a2 := a_qual_trans*_ser_le & [ STEM < "semejante" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_semejante_a_rel" ] ]. semejante_d := d_dem_semej_le & [ STEM < "semejante" > ]. semejante_n1 := n_intr_count_le & [ STEM < "semejante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semejante_n_rel" ] ]. semejantemente_x1 := av_i_spr_le & [ STEM < "semejantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_semejantemente_x_rel" ]. semejanza_n1 := n_intr_mass_le & [ STEM < "semejanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semejanza_n_rel" ] ]. semejar_v1 := v_impers_cp_prop_fin_ind_le & [ STEM < "semejar" >, SYNSEM.LKEYS.KEYREL.PRED "_semejar_v_rel" ]. semejar_v2 := v_ssr_le & [ STEM < "semejar" >, SYNSEM.LKEYS.KEYREL.PRED "_semejar_v_rel" ]. semen_n1 := n_intr_mass_le & [ STEM < "semen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_semen_n_rel" ] ]. semental_n1 := n_intr_count_le & [ STEM < "semental" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_semental_n_rel" ] ]. semestral_a1 := a_rel_nonprd_intr_le & [ STEM < "semestral" >, SYNSEM.LKEYS.KEYREL.PRED "_semestral_a_rel" ]. semestralmente_x1 := av_s_prhd_le & [ STEM < "semestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semestralmente_x_rel" ]. semestralmente_x2 := av_i_psthd_le & [ STEM < "semestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semestralmente_x_rel" ]. semestre_n1 := n_pseudo-part_temp_le & [ STEM < "semestre" >, SYNSEM.LKEYS.KEYREL.PRED "_semestre_n_rel" ]. semestre_n2 := n_intr_temp_le & [ STEM < "semestre" > ]. semi-invertido_a1 := a_qual_intr_estar_le & [ STEM < "semi-invertido" >, SYNSEM.LKEYS.KEYREL.PRED "_semi-invertido_a_rel" ]. semiabierto_a1 := a_qual_intr_estar_le & [ STEM < "semiabierto" >, SYNSEM.LKEYS.KEYREL.PRED "_semiabierto_a_rel" ]. semiacero_n1 := n_intr_count_le & [ STEM < "semiacero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_semiacero_n_rel" ] ]. semiajustable_a1 := a_rel_nonprd_intr_le & [ STEM < "semiajustable" >, SYNSEM.LKEYS.KEYREL.PRED "_semiajustable_a_rel" ]. semiajustablemente_x1 := av_i_spr_le & [ STEM < "semiajustablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_semiajustablemente_x_rel" ]. semialto_a1 := a_rel_prd_le & [ STEM < "semialto" >, SYNSEM.LKEYS.KEYREL.PRED "_semialto_a_rel" ]. semianticadencia_n1 := n_intr_uncount_le & [ STEM < "semianticadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semianticadencia_n_rel" ] ]. semianual_a1 := a_rel_prd_le & [ STEM < "semianual" >, SYNSEM.LKEYS.KEYREL.PRED "_semianual_a_rel" ]. semiautomáticamente_x1 := av_i_spr_le & [ STEM < "semiautomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semiautomáticamente_x_rel" ]. semiautomático_a1 := a_rel_nonprd_intr_le & [ STEM < "semiautomático" >, SYNSEM.LKEYS.KEYREL.PRED "_semiautomático_a_rel" ]. semiautómata_n1 := n_intr_count_le & [ STEM < "semiautómata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_semiautómata_n_rel" ] ]. semibatería_n1 := n_intr_count_le & [ STEM < "semibatería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semibatería_n_rel" ] ]. semicadencia_n1 := n_intr_uncount_le & [ STEM < "semicadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicadencia_n_rel" ] ]. semicaja_n1 := n_intr_count_le & [ STEM < "semicaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semicaja_n_rel" ] ]. semicerradamente_x1 := av_i_spr_le & [ STEM < "semicerradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semicerradamente_x_rel" ]. semicilíndricamente_x1 := av_i_spr_le & [ STEM < "semicilíndricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semicilíndricamente_x_rel" ]. semicilíndrico_a1 := a_rel_nonprd_intr_le & [ STEM < "semicilíndrico" >, SYNSEM.LKEYS.KEYREL.PRED "_semicilíndrico_a_rel" ]. semicircular_a1 := a_rel_nonprd_intr_le & [ STEM < "semicircular" >, SYNSEM.LKEYS.KEYREL.PRED "_semicircular_a_rel" ]. semicircularmente_x1 := av_i_spr_le & [ STEM < "semicircularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semicircularmente_x_rel" ]. semicircunferencia_n1 := n_intr_count_le & [ STEM < "semicircunferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicircunferencia_n_rel" ] ]. semiclaro_a1 := a_rel_nonprd_intr_le & [ STEM < "semiclaro" >, SYNSEM.LKEYS.KEYREL.PRED "_semiclaro_a_rel" ]. semicol_punct := pnct_fx_le & [ STEM < "fx" > ]. semiconductividad_n1 := n_intr_uncount_le & [ STEM < "semiconductividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiconductividad_n_rel" ] ]. semiconductor_a1 := a_rel_nonprd_intr_le & [ STEM < "semiconductor" >, SYNSEM.LKEYS.KEYREL.PRED "_semiconductor_a_rel" ]. semiconductor_n1 := n_intr_count_le & [ STEM < "semiconductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semiconductor_n_rel" ] ]. semiconsonántico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiconsonántico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiconsonántico_a_rel" ]. semicontinuidad_n1 := n_intr_uncount_le & [ STEM < "semicontinuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicontinuidad_n_rel" ] ]. semicontinuo_a1 := a_rel_nonprd_intr_le & [ STEM < "semicontinuo" >, SYNSEM.LKEYS.KEYREL.PRED "_semicontinuo_a_rel" ]. semicoque_n1 := n_intr_count_le & [ STEM < "semicoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semicoque_n_rel" ] ]. semicristalinamente_x1 := av_i_spr_le & [ STEM < "semicristalinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semicristalinamente_x_rel" ]. semicristalino_a1 := a_rel_nonprd_intr_le & [ STEM < "semicristalino" >, SYNSEM.LKEYS.KEYREL.PRED "_semicristalino_a_rel" ]. semicultismo_n1 := n_intr_uncount_le & [ STEM < "semicultismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicultismo_n_rel" ] ]. semicúbicamente_x1 := av_i_spr_le & [ STEM < "semicúbicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semicúbicamente_x_rel" ]. semicúbico_a1 := a_rel_nonprd_intr_le & [ STEM < "semicúbico" >, SYNSEM.LKEYS.KEYREL.PRED "_semicúbico_a_rel" ]. semidesconocido_a1 := a_rel_nonprd_intr_le & [ STEM < "semidesconocido" >, SYNSEM.LKEYS.KEYREL.PRED "_semidesconocido_a_rel" ]. semidesierto_n1 := n_intr_count_le & [ STEM < "semidesierto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_semidesierto_n_rel" ] ]. semidiesel_n1 := n_intr_count_le & [ STEM < "semidiesel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semidiesel_n_rel" ] ]. semidirecto_a1 := a_rel_nonprd_intr_le & [ STEM < "semidirecto" >, SYNSEM.LKEYS.KEYREL.PRED "_semidirecto_a_rel" ]. semidiurno_a1 := a_rel_nonprd_intr_le & [ STEM < "semidiurno" >, SYNSEM.LKEYS.KEYREL.PRED "_semidiurno_a_rel" ]. semidiós_n1 := n_intr_count_le & [ STEM < "semidiós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semidiós_n_rel" ] ]. semiduro_a1 := a_rel_nonprd_intr_le & [ STEM < "semiduro" >, SYNSEM.LKEYS.KEYREL.PRED "_semiduro_a_rel" ]. semieje_n1 := n_intr_count_le & [ STEM < "semieje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semieje_n_rel" ] ]. semielemento_n1 := n_intr_count_le & [ STEM < "semielemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semielemento_n_rel" ] ]. semielípticamente_x1 := av_i_spr_le & [ STEM < "semielípticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semielípticamente_x_rel" ]. semielíptico_a1 := a_rel_nonprd_intr_le & [ STEM < "semielíptico" >, SYNSEM.LKEYS.KEYREL.PRED "_semielíptico_a_rel" ]. semiempírico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiempírico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiempírico_a_rel" ]. semiesfera_n1 := n_intr_count_le & [ STEM < "semiesfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_semiesfera_n_rel" ] ]. semiesférico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiesférico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiesférico_a_rel" ]. semiespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "semiespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_semiespinoso_a_rel" ]. semiestatal_a1 := a_rel_nonprd_intr_le & [ STEM < "semiestatal" >, SYNSEM.LKEYS.KEYREL.PRED "_semiestatal_a_rel" ]. semifijamente_x1 := av_i_spr_le & [ STEM < "semifijamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semifijamente_x_rel" ]. semifijo_a1 := a_rel_nonprd_intr_le & [ STEM < "semifijo" >, SYNSEM.LKEYS.KEYREL.PRED "_semifijo_a_rel" ]. semifinal_n1 := n_intr_count_le & [ STEM < "semifinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semifinal_n_rel" ] ]. semifinalista_n1 := n_intr_count_le & [ STEM < "semifinalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semifinalista_n_rel" ] ]. semifosforoso_a1 := a_rel_nonprd_intr_le & [ STEM < "semifosforoso" >, SYNSEM.LKEYS.KEYREL.PRED "_semifosforoso_a_rel" ]. semigraso_a1 := a_rel_nonprd_intr_le & [ STEM < "semigraso" >, SYNSEM.LKEYS.KEYREL.PRED "_semigraso_a_rel" ]. semigrupo_n1 := n_group_le & [ STEM < "semigrupo" >, SYNSEM.LKEYS.KEYREL.PRED "_semigrupo_n_rel" ]. semiheterotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiheterotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiheterotípico_a_rel" ]. semihidrato_n1 := n_intr_count_le & [ STEM < "semihidrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_semihidrato_n_rel" ] ]. semiindirectamente_x1 := av_i_spr_le & [ STEM < "semiindirectamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semiindirectamente_x_rel" ]. semiindirecto_a1 := a_rel_nonprd_intr_le & [ STEM < "semiindirecto" >, SYNSEM.LKEYS.KEYREL.PRED "_semiindirecto_a_rel" ]. semiinscrito_a1 := a_rel_nonprd_intr_le & [ STEM < "semiinscrito" >, SYNSEM.LKEYS.KEYREL.PRED "_semiinscrito_a_rel" ]. semiletal_a1 := a_rel_nonprd_intr_le & [ STEM < "semiletal" >, SYNSEM.LKEYS.KEYREL.PRED "_semiletal_a_rel" ]. semilibertad_n1 := n_intr_uncount_le & [ STEM < "semilibertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semilibertad_n_rel" ] ]. semilibertad_n2 := n_intr_count_le & [ STEM < "semilibertad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semilibertad_n_rel" ] ]. semilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "semilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_semilineal_a_rel" ]. semilla_n1 := n_intr_count_le & [ STEM < "semilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semilla_n_rel" ] ]. semillero_n1 := n_intr_count_le & [ STEM < "semillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_semillero_n_rel" ] ]. semilogarítmico_a1 := a_rel_nonprd_intr_le & [ STEM < "semilogarítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_semilogarítmico_a_rel" ]. semilunar_a1 := a_rel_nonprd_intr_le & [ STEM < "semilunar" >, SYNSEM.LKEYS.KEYREL.PRED "_semilunar_a_rel" ]. semimagnéticamente_x1 := av_i_spr_le & [ STEM < "semimagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semimagnéticamente_x_rel" ]. semimagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "semimagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_semimagnético_a_rel" ]. semimembranoso_a1 := a_rel_nonprd_intr_le & [ STEM < "semimembranoso" >, SYNSEM.LKEYS.KEYREL.PRED "_semimembranoso_a_rel" ]. semimetal_n1 := n_intr_count_le & [ STEM < "semimetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_semimetal_n_rel" ] ]. semimundo_n1 := n_intr_count_le & [ STEM < "semimundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semimundo_n_rel" ] ]. seminal_a1 := a_rel_nonprd_intr_le & [ STEM < "seminal" >, SYNSEM.LKEYS.KEYREL.PRED "_seminal_a_rel" ]. seminario_n1 := n_intr_count_le & [ STEM < "seminario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seminario_n_rel" ] ]. seminarista_n1 := n_intr_count_le & [ STEM < "seminarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seminarista_n_rel" ] ]. seminomadismo_n1 := n_intr_uncount_le & [ STEM < "seminomadismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seminomadismo_n_rel" ] ]. seminómada_n1 := n_intr_count_le & [ STEM < "seminómada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seminómada_n_rel" ] ]. semiobstruido_a1 := a_qual_intr_estar_le & [ STEM < "semiobstruido" >, SYNSEM.LKEYS.KEYREL.PRED "_semiobstruido_a_rel" ]. semiocteto_n := n_intr_count_le & [ STEM < "semiocteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_semiocteto_n_rel" ] ]. semioficial_a1 := a_rel_nonprd_intr_le & [ STEM < "semioficial" >, SYNSEM.LKEYS.KEYREL.PRED "_semioficial_a_rel" ]. semiología_n1 := n_intr_uncount_le & [ STEM < "semiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiología_n_rel" ] ]. semiológico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiológico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiológico_a_rel" ]. semioval_a1 := a_rel_nonprd_intr_le & [ STEM < "semioval" >, SYNSEM.LKEYS.KEYREL.PRED "_semioval_a_rel" ]. semiparada_n1 := n_intr_count_le & [ STEM < "semiparada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiparada_n_rel" ] ]. semiparásito_n1 := n_intr_count_le & [ STEM < "semiparásito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_semiparásito_n_rel" ] ]. semipatinador_a1 := a_rel_nonprd_intr_le & [ STEM < "semipatinador" >, SYNSEM.LKEYS.KEYREL.PRED "_semipatinador_a_rel" ]. semipermanente_a1 := a_rel_prd_le & [ STEM < "semipermanente" >, SYNSEM.LKEYS.KEYREL.PRED "_semipermanente_a_rel" ]. semipermanentemente_x1 := av_i_spr_le & [ STEM < "semipermanentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_semipermanentemente_x_rel" ]. semipermeable_a1 := a_rel_prd_le & [ STEM < "semipermeable" >, SYNSEM.LKEYS.KEYREL.PRED "_semipermeable_a_rel" ]. semipesado_a1 := a_rel_prd_le & [ STEM < "semipesado" >, SYNSEM.LKEYS.KEYREL.PRED "_semipesado_a_rel" ]. semiportátil_a1 := a_rel_prd_le & [ STEM < "semiportátil" >, SYNSEM.LKEYS.KEYREL.PRED "_semiportátil_a_rel" ]. semiportátilmente_x1 := av_i_spr_le & [ STEM < "semiportátilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_semiportátilmente_x_rel" ]. semipulso_n := n_intr_count_le & [ STEM < "semipulso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mea, PRED "_semipulso_n_rel" ] ]. semiquímico_a1 := a_rel_prd_le & [ STEM < "semiquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiquímico_a_rel" ]. semirredondo_a1 := a_rel_prd_le & [ STEM < "semirredondo" >, SYNSEM.LKEYS.KEYREL.PRED "_semirredondo_a_rel" ]. semirremolque_n1 := n_intr_count_le & [ STEM < "semirremolque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semirremolque_n_rel" ] ]. semirrápido_a1 := a_rel_prd_le & [ STEM < "semirrápido" >, SYNSEM.LKEYS.KEYREL.PRED "_semirrápido_a_rel" ]. semirrígido_a1 := a_rel_nonprd_intr_le & [ STEM < "semirrígido" >, SYNSEM.LKEYS.KEYREL.PRED "_semirrígido_a_rel" ]. semiseco_a1 := a_rel_nonprd_intr_le & [ STEM < "semiseco" >, SYNSEM.LKEYS.KEYREL.PRED "_semiseco_a_rel" ]. semisimple_a1 := a_rel_nonprd_intr_le & [ STEM < "semisimple" >, SYNSEM.LKEYS.KEYREL.PRED "_semisimple_a_rel" ]. semisólido_a1 := a_rel_prd_le & [ STEM < "semisólido" >, SYNSEM.LKEYS.KEYREL.PRED "_semisólido_a_rel" ]. semisótano_n1 := n_intr_count_le & [ STEM < "semisótano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_semisótano_n_rel" ] ]. semita_n1 := n_intr_count_le & [ STEM < "semita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semita_n_rel" ] ]. semitismo_n1 := n_intr_uncount_le & [ STEM < "semitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semitismo_n_rel" ] ]. semiunivalente_a1 := a_rel_nonprd_intr_le & [ STEM < "semiunivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_semiunivalente_a_rel" ]. semivocal_n1 := n_intr_count_le & [ STEM < "semivocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semivocal_n_rel" ] ]. semivocálico_a1 := a_rel_nonprd_intr_le & [ STEM < "semivocálico" >, SYNSEM.LKEYS.KEYREL.PRED "_semivocálico_a_rel" ]. semiólogo_n1 := n_intr_count_le & [ STEM < "semiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_semiólogo_n_rel" ] ]. semióticamente_x1 := av_i_spr_le & [ STEM < "semióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semióticamente_x_rel" ]. semiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "semiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_semiótico_a_rel" ]. semoviente_a1 := a_rel_nonprd_intr_le & [ STEM < "semoviente" >, SYNSEM.LKEYS.KEYREL.PRED "_semoviente_a_rel" ]. semáforo_n1 := n_intr_count_le & [ STEM < "semáforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_semáforo_n_rel" ] ]. semánticamente_x1 := av_i_spr_le & [ STEM < "semánticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_semánticamente_x_rel" ]. semántico_a1 := a_rel_nonprd_intr_le & [ STEM < "semántico" >, SYNSEM.LKEYS.KEYREL.PRED "_semántico_a_rel" ]. senado_n1 := n_intr_count_le & [ STEM < "senado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_senado_n_rel" ] ]. senador_n1 := n_intr_count_le & [ STEM < "senador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_senador_n_rel" ] ]. senara_n1 := n_intr_count_le & [ STEM < "senara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_senara_n_rel" ] ]. senarmontita_n1 := n_intr_count_le & [ STEM < "senarmontita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_senarmontita_n_rel" ] ]. senatorial_a1 := a_rel_nonprd_intr_le & [ STEM < "senatorial" >, SYNSEM.LKEYS.KEYREL.PRED "_senatorial_a_rel" ]. sencillamente_x1 := av_i_foc_le & [ STEM < "sencillamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sencillamente_x_rel" ]. sencillamente_x2 := av_s_cp_prop_le & [ STEM < "sencillamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sencillamente_x_rel" ]. sencillamente_x3 := av_i_np-foc_le & [ STEM < "sencillamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sencillamente_x_rel" ]. sencillez_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sencillez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sencillez_n_rel" ] ]. sencillo_a1 := a_qual_intr_ser_le & [ STEM < "sencillo" >, SYNSEM.LKEYS.KEYREL.PRED "_sencillo_a_rel" ]. senda_n1 := n_intr_count_le & [ STEM < "senda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_senda_n_rel" ] ]. senderismo_n1 := n_intr_uncount_le & [ STEM < "senderismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_senderismo_n_rel" ] ]. sendero_n1 := n_intr_count_le & [ STEM < "sendero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sendero_n_rel" ] ]. sendos_d := d_qnt-df_sendos_le & [ STEM < "sendos" > ]. senectud_n1 := n_intr_uncount_le & [ STEM < "senectud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_senectud_n_rel" ] ]. senega_n1 := n_intr_count_le & [ STEM < "senega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_senega_n_rel" ] ]. senegalés_a1 := a_rel_prd_le & [ STEM < "senegalés" >, SYNSEM.LKEYS.KEYREL.PRED "_senegalés_a_rel" ]. senegalés_n1 := n_intr_count_le & [ STEM < "senegalés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_senegalés_n_rel" ] ]. senequista_a1 := a_rel_nonprd_intr_le & [ STEM < "senequista" >, SYNSEM.LKEYS.KEYREL.PRED "_senequista_a_rel" ]. senescal_n1 := n_intr_count_le & [ STEM < "senescal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_senescal_n_rel" ] ]. senil_a1 := a_qual_intr_ser_le & [ STEM < "senil" >, SYNSEM.LKEYS.KEYREL.PRED "_senil_a_rel" ]. senilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "senilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_senilidad_n_rel" ] ]. senior_n1 := n_intr_count_le & [ STEM < "senior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_senior_n_rel" ] ]. seno_n1 := n_intr_count_le & [ STEM < "seno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_seno_n_rel" ] ]. senoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "senoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_senoidal_a_rel" ]. senoidalmente_x1 := av_i_spr_le & [ STEM < "senoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_senoidalmente_x_rel" ]. sensacional_a1 := a_qual_intr_scopal_le & [ STEM < "sensacional" >, SYNSEM.LKEYS.KEYREL.PRED "_sensacional_a_rel" ]. sensacionalismo_n1 := n_ppcomp_mass_le & [ STEM < "sensacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensacionalismo_n_rel" ] ]. sensacionalista_a1 := a_qual_intr_ser_le & [ STEM < "sensacionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_sensacionalista_a_rel" ]. sensación_n1 := n_intr_mass-or-count_le & [ STEM < "sensación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensación_n_rel" ] ]. sensatamente_x1 := av_i_spr_le & [ STEM < "sensatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sensatamente_x_rel" ]. sensatez_n1 := n_ppcomp_uncount_le & [ STEM < "sensatez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensatez_n_rel" ] ]. sensato_a1 := a_qual_intr_ser_le & [ STEM < "sensato" >, SYNSEM.LKEYS.KEYREL.PRED "_sensato_a_rel" ]. sensibilidad_n1 := n_intr_mass-or-count_le & [ STEM < "sensibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensibilidad_n_rel" ] ]. sensibilización_n1 := n_trans_le & [ STEM < "sensibilización" >, SYNSEM.LKEYS.KEYREL.PRED "_sensibilización_n_rel" ]. sensibilizador_n1 := n_intr_count_le & [ STEM < "sensibilizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sensibilizador_n_rel" ] ]. sensibilizar_v := v_trans_np_caus_le & [ STEM < "sensibilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sensibilizar_v_rel" ]. sensible_a1 := a_qual_trans*_ser_le & [ STEM < "sensible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sensible_a_rel" ] ]. sensiblemente_x1 := av_deg_le & [ STEM < "sensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sensiblemente_x_rel" ]. sensiblero_a1 := a_qual_intr_ser_le & [ STEM < "sensiblero" >, SYNSEM.LKEYS.KEYREL.PRED "_sensiblero_a_rel" ]. sensitivo_a1 := a_qual_intr_ser_le & [ STEM < "sensitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sensitivo_a_rel" ]. sensor_n1 := n_intr_count_le & [ STEM < "sensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sensor_n_rel" ] ]. sensorial_a1 := a_rel_nonprd_intr_le & [ STEM < "sensorial" >, SYNSEM.LKEYS.KEYREL.PRED "_sensorial_a_rel" ]. sensorialmente_x1 := av_i_spr_le & [ STEM < "sensorialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sensorialmente_x_rel" ]. sensoriamente_x1 := av_i_spr_le & [ STEM < "sensoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sensoriamente_x_rel" ]. sensorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sensorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sensorio_a_rel" ]. sensu_lato_x1 := av_i_le & [ STEM < "sensu_lato" >, SYNSEM.LKEYS.KEYREL.PRED "_sensu_lato_x_rel" ]. sensu_stricto_x1 := av_i_le & [ STEM < "sensu_stricto" >, SYNSEM.LKEYS.KEYREL.PRED "_sensu_stricto_x_rel" ]. sensual_a1 := a_qual_intr_ser_le & [ STEM < "sensual" >, SYNSEM.LKEYS.KEYREL.PRED "_sensual_a_rel" ]. sensualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sensualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensualidad_n_rel" ] ]. sensualismo_n1 := n_ppcomp_uncount_le & [ STEM < "sensualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sensualismo_n_rel" ] ]. sensualista_n1 := n_intr_count_le & [ STEM < "sensualista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sensualista_n_rel" ] ]. sentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "sentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_sentar_v_rel" ] ] ]. sentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "sentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_sentar_v_rel" ] ] ]. sentar_v3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "sentar" >, SYNSEM.LKEYS.KEYREL.PRED "_sentar_v_rel" ]. sentar_v4 := v_trans_cp_prop_fin_le & [ STEM < "sentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sentar_v_rel" ] ]. sentar_v5 := v_trans_np_le & [ STEM < "sentar" >, SYNSEM.LKEYS.KEYREL.PRED "_sentar_v_rel" ]. sentencia_n1 := n_intr_count_le & [ STEM < "sentencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sentencia_n_rel" ] ]. sentenciador_n1 := n_subj-nom_le & [ STEM < "sentenciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sentenciador_n_rel" ] ]. sentenciar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "sentenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_sentenciar_v_rel" ] ]. sentenciar_v2 := v_trans_np_le & [ STEM < "sentenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_sentenciar_v_rel" ] ]. sentenciar_v3 := v_trans_np_mrkd_cp_prop_fin_sub_le & [ STEM < "sentenciar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_sentenciar_v_rel" ] ] ]. sentenciar_v4 := v_trans_np_mrkd_np_le & [ STEM < "sentenciar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_sentenciar_v_rel" ] ] ]. sentencioso_a1 := a_rel_nonprd_intr_le & [ STEM < "sentencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_sentencioso_a_rel" ]. sentido_n1 := n_intr_count_le & [ STEM < "sentido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sentido_n_rel" ] ]. sentimental_a1 := a_qual_intr_ser_le & [ STEM < "sentimental" >, SYNSEM.LKEYS.KEYREL.PRED "_sentimental_a_rel" ]. sentimentalismo_n1 := n_ppcomp_uncount_le & [ STEM < "sentimentalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sentimentalismo_n_rel" ] ]. sentimentalmente_x1 := av_i_spr_le & [ STEM < "sentimentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sentimentalmente_x_rel" ]. sentimiento_n1 := n_trans_le & [ STEM < "sentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sentimiento_n_rel" ]. sentimiento_n2 := n_intr_count_le & [ STEM < "sentimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sentimiento_n_rel" ] ]. sentina_n1 := n_intr_count_le & [ STEM < "sentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sentina_n_rel" ] ]. separabilidad_n1 := n_trans_le & [ STEM < "separabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_separabilidad_n_rel" ]. separable_a1 := a_rel_prd_le & [ STEM < "separable" >, SYNSEM.LKEYS.KEYREL.PRED "_separable_a_rel" ]. separación_n1 := n_trans_le & [ STEM < "separación" >, SYNSEM.LKEYS.KEYREL.PRED "_separación_n_rel" ]. separadamente_x1 := av_i_spr_le & [ STEM < "separadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_separadamente_x_rel" ]. separador_a1 := a_rel_nonprd_intr_le & [ STEM < "separador" >, SYNSEM.LKEYS.KEYREL.PRED "_separador_a_rel" ]. separador_n1 := n_intr_count_le & [ STEM < "separador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_separador_n_rel" ] ]. separar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "separar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_separar_v_rel" ] ]. separar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "separar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_separar_v_rel" ] ]. separar_v3 := v_trans_np_mrkd_np_le & [ STEM < "separar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_separar_v_rel" ] ]. separata_n1 := n_intr_count_le & [ STEM < "separata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_separata_n_rel" ] ]. separatismo_n1 := n_intr_uncount_le & [ STEM < "separatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_separatismo_n_rel" ] ]. separatista_a1 := a_rel_nonprd_intr_le & [ STEM < "separatista" >, SYNSEM.LKEYS.KEYREL.PRED "_separatista_a_rel" ]. sepia_n1 := n_intr_count_le & [ STEM < "sepia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sepia_n_rel" ] ]. sepiola_n1 := n_intr_count_le & [ STEM < "sepiola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sepiola_n_rel" ] ]. sepiolita_n1 := n_intr_count_le & [ STEM < "sepiolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sepiolita_n_rel" ] ]. septenato_n1 := n_pseudo-part_temp_le & [ STEM < "septenato" >, SYNSEM.LKEYS.KEYREL.PRED "_septenato_n_rel" ]. septenato_n2 := n_intr_temp_le & [ STEM < "septenato" > ]. septentrional_a1 := a_rel_nonprd_intr_le & [ STEM < "septentrional" >, SYNSEM.LKEYS.KEYREL.PRED "_septentrional_a_rel" ]. septiembre_n1 := n_intr_count_le & [ STEM < "septiembre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_septiembre_n_rel" ] ]. septisómico_a1 := a_rel_nonprd_intr_le & [ STEM < "septisómico" >, SYNSEM.LKEYS.KEYREL.PRED "_septisómico_a_rel" ]. septuagenario_a1 := a_rel_nonprd_intr_le & [ STEM < "septuagenario" >, SYNSEM.LKEYS.KEYREL.PRED "_septuagenario_a_rel" ]. sepulcral_a1 := a_rel_nonprd_intr_le & [ STEM < "sepulcral" >, SYNSEM.LKEYS.KEYREL.PRED "_sepulcral_a_rel" ]. sepulcralmente_x1 := av_i_spr_le & [ STEM < "sepulcralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sepulcralmente_x_rel" ]. sepulcro_n1 := n_intr_count_le & [ STEM < "sepulcro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sepulcro_n_rel" ] ]. sepultar_v := v_trans_np_le & [ STEM < "sepultar" >, SYNSEM.LKEYS.KEYREL.PRED "_sepultar_v_rel" ]. sepultura_n1 := n_trans_le & [ STEM < "sepultura" >, SYNSEM.LKEYS.KEYREL.PRED "_sepultura_n_rel" ]. sepultura_n2 := n_intr_count_le & [ STEM < "sepultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sepultura_n_rel" ] ]. sepulturero_n1 := n_intr_count_le & [ STEM < "sepulturero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sepulturero_n_rel" ] ]. sequedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sequedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sequedad_n_rel" ] ]. sequía_n1 := n_intr_mass_le & [ STEM < "sequía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sequía_n_rel" ] ]. ser_n1 := n_intr_count_le & [ STEM < "ser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ser_n_rel" ] ]. ser_v1 := v_cop_prd_ser_le & [ STEM < "ser" > ]. ser_v2 := v_cop_id_ser_le & [ STEM < "ser" > ]. #| ser_v3 := v_ser_subj_cp_prop_inf_le & [ STEM < "ser" > ]. ser_v4 := v_ser_subj_cp_prop_fin_le & [ STEM < "ser" > ]. ser_v5 := v_ser_subj_cp_prop_fin_mrkd_vp_le & [ STEM < "ser" > ]. |# serafín_n1 := n_intr_count_le & [ STEM < "serafín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_serafín_n_rel" ] ]. serasoide_a1 := a_rel_nonprd_intr_le & [ STEM < "serasoide" >, SYNSEM.LKEYS.KEYREL.PRED "_serasoide_a_rel" ]. serasoidemente_x1 := av_i_spr_le & [ STEM < "serasoidemente" >, SYNSEM.LKEYS.KEYREL.PRED "_serasoidemente_x_rel" ]. serba_n1 := n_intr_count_le & [ STEM < "serba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_serba_n_rel" ] ]. serbio_a1 := a_rel_prd_le & [ STEM < "serbio" >, SYNSEM.LKEYS.KEYREL.PRED "_serbio_a_rel" ]. serbio_n1 := n_intr_count_le & [ STEM < "serbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_serbio_n_rel" ] ]. serbobosnio_a1 := a_rel_prd_le & [ STEM < "serbobosnio" >, SYNSEM.LKEYS.KEYREL.PRED "_serbobosnio_a_rel" ]. serbobosnio_n1 := n_intr_count_le & [ STEM < "serbobosnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_serbobosnio_n_rel" ] ]. serbocroata_a1 := a_rel_prd_le & [ STEM < "serbocroata" >, SYNSEM.LKEYS.KEYREL.PRED "_serbocroata_a_rel" ]. serbocroata_n1 := n_intr_count_le & [ STEM < "serbocroata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_serbocroata_n_rel" ] ]. serenar_v1 := v_intr_io*_le & [ STEM < "serenar" >, SYNSEM.LKEYS.KEYREL.PRED "_serenar_v_rel" ]. serenar_v2 := v_pron_intr_le & [ STEM < "serenar" >, SYNSEM.LKEYS.KEYREL.PRED "_serenar_v_rel" ]. serenar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "serenar" >, SYNSEM.LKEYS.KEYREL.PRED "_serenar_v_rel" ]. serenidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "serenidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serenidad_n_rel" ] ]. serenmente_x1 := av_i_spr_le & [ STEM < "serenmente" >, SYNSEM.LKEYS.KEYREL.PRED "_serenmente_x_rel" ]. sereno_a1 := a_qual_intr_estar_le & [ STEM < "sereno" >, SYNSEM.LKEYS.KEYREL.PRED "_sereno_a_rel" ]. serial_a1 := a_rel_nonprd_intr_le & [ STEM < "serial" >, SYNSEM.LKEYS.KEYREL.PRED "_serial_a_rel" ]. serial_n1 := n_intr_count_le & [ STEM < "serial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serial_n_rel" ] ]. serialización_n1 := n_trans_le & [ STEM < "serialización" >, SYNSEM.LKEYS.KEYREL.PRED "_serialización_n_rel" ]. seriamente_x1 := av_i_spr_le & [ STEM < "seriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_seriamente_x_rel" ]. sericultura_n1 := n_intr_count_le & [ STEM < "sericultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sericultura_n_rel" ] ]. serie_n1 := n_group_le & [ STEM < "serie" >, SYNSEM.LKEYS.KEYREL.PRED "_serie_n_rel" ]. serie_n2 := n_intr_count_le & [ STEM < "serie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serie_n_rel" ] ]. seriedad_n1 := n_ppcomp_mass_le & [ STEM < "seriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seriedad_n_rel" ] ]. serigrafía_n1 := n_intr_uncount_pl_le & [ STEM < "serigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serigrafía_n_rel" ] ]. serigráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "serigráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_serigráfico_a_rel" ]. serina_n1 := n_intr_count_le & [ STEM < "serina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_serina_n_rel" ] ]. serio_a1 := a_qual_intr_ser_le & [ STEM < "serio" >, SYNSEM.LKEYS.KEYREL.PRED "_serio_a_rel" ]. sermoneo_n1 := n_result_intr_le & [ STEM < "sermoneo" >, SYNSEM.LKEYS.KEYREL.PRED "_sermoneo_n_rel" ]. sermón_n1 := n_intr_count_le & [ STEM < "sermón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_sermón_n_rel" ] ]. seroalbúmina_n1 := n_intr_mass-or-count_le & [ STEM < "seroalbúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_seroalbúmina_n_rel" ] ]. serología_n1 := n_intr_uncount_le & [ STEM < "serología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serología_n_rel" ] ]. serológico_a1 := a_rel_nonprd_intr_le & [ STEM < "serológico" >, SYNSEM.LKEYS.KEYREL.PRED "_serológico_a_rel" ]. seromucoso_a1 := a_rel_nonprd_intr_le & [ STEM < "seromucoso" >, SYNSEM.LKEYS.KEYREL.PRED "_seromucoso_a_rel" ]. seropositivo_a1 := a_rel_nonprd_intr_le & [ STEM < "seropositivo" >, SYNSEM.LKEYS.KEYREL.PRED "_seropositivo_a_rel" ]. seropositivo_n1 := n_intr_count_le & [ STEM < "seropositivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_seropositivo_n_rel" ] ]. serosa_n1 := n_intr_count_le & [ STEM < "serosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serosa_n_rel" ] ]. serosidad_n1 := n_intr_mass_le & [ STEM < "serosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serosidad_n_rel" ] ]. seroso_a1 := a_rel_nonprd_intr_le & [ STEM < "seroso" >, SYNSEM.LKEYS.KEYREL.PRED "_seroso_a_rel" ]. serotonina_n1 := n_intr_count_le & [ STEM < "serotonina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_serotonina_n_rel" ] ]. serpenteante_a1 := a_rel_nonprd_intr_le & [ STEM < "serpenteante" >, SYNSEM.LKEYS.KEYREL.PRED "_serpenteante_a_rel" ]. serpentear_v := v_intr_le & [ STEM < "serpentear" >, SYNSEM.LKEYS.KEYREL.PRED "_serpentear_v_rel" ]. serpenteo_n1 := n_result_intr_le & [ STEM < "serpenteo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serpenteo_n_rel" ] ]. serpentina_n1 := n_intr_count_le & [ STEM < "serpentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serpentina_n_rel" ] ]. serpentín_n1 := n_intr_count_le & [ STEM < "serpentín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serpentín_n_rel" ] ]. serpiente_n1 := n_intr_count_le & [ STEM < "serpiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_serpiente_n_rel" ] ]. serpina_n1 := n_intr_count_le & [ STEM < "serpina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serpina_n_rel" ] ]. serradora_n1 := n_intr_count_le & [ STEM < "serradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serradora_n_rel" ] ]. serrandel_n1 := n_intr_count_le & [ STEM < "serrandel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_serrandel_n_rel" ] ]. serrano_a1 := a_rel_nonprd_intr_le & [ STEM < "serrano" >, SYNSEM.LKEYS.KEYREL.PRED "_serrano_a_rel" ]. serranía_n1 := n_intr_count_le & [ STEM < "serranía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_serranía_n_rel" ] ]. serrar_v := v_trans_np*_le & [ STEM < "serrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_serrar_v_rel" ] ]. serrata_n1 := n_intr_count_le & [ STEM < "serrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_serrata_n_rel" ] ]. serrería_n1 := n_intr_count_le & [ STEM < "serrería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_serrería_n_rel" ] ]. serrucho_n1 := n_intr_count_le & [ STEM < "serrucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serrucho_n_rel" ] ]. serrín_n1 := n_intr_mass_le & [ STEM < "serrín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serrín_n_rel" ] ]. serrón_n1 := n_intr_count_le & [ STEM < "serrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_serrón_n_rel" ] ]. serval_n1 := n_intr_count_le & [ STEM < "serval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_serval_n_rel" ] ]. servible_a1 := a_qual_intr_scopal_le & [ STEM < "servible" >, SYNSEM.LKEYS.KEYREL.PRED "_servible_a_rel" ]. servicial_a1 := a_qual_intr_ser_le & [ STEM < "servicial" >, SYNSEM.LKEYS.KEYREL.PRED "_servicial_a_rel" ]. servicialmente_x1 := av_i_spr_le & [ STEM < "servicialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_servicialmente_x_rel" ]. servicio_n1 := n_intr_count_le & [ STEM < "servicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_servicio_n_rel" ] ]. servidor_n1 := n_intr_count_le & [ STEM < "servidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_pot, PRED "_servidor_n_rel" ] ]. servidumbre_n1 := n_intr_coll_le & [ STEM < "servidumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_servidumbre_n_rel" ] ]. servil_a1 := a_qual_intr_ser_le & [ STEM < "servil" >, SYNSEM.LKEYS.KEYREL.PRED "_servil_a_rel" ]. servilismo_n1 := n_ppcomp_uncount_le & [ STEM < "servilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_servilismo_n_rel" ] ]. servilleta_n1 := n_intr_count_le & [ STEM < "servilleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servilleta_n_rel" ] ]. servilletero_n1 := n_intr_count_le & [ STEM < "servilletero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servilletero_n_rel" ] ]. servilmente_x1 := av_i_spr_le & [ STEM < "servilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_servilmente_x_rel" ]. servitud_n1 := n_intr_uncount_le & [ STEM < "servitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_servitud_n_rel" ] ]. servo_n1 := n_intr_count_le & [ STEM < "servo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_servo_n_rel" ] ]. servocontrol_n1 := n_intr_count_le & [ STEM < "servocontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servocontrol_n_rel" ] ]. servocroata_a1 := a_rel_prd_le & [ STEM < "servocroata" >, SYNSEM.LKEYS.KEYREL.PRED "_servocroata_a_rel" ]. servocroata_n1 := n_intr_count_le & [ STEM < "servocroata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_servocroata_n_rel" ] ]. servodirección_n1 := n_intr_uncount_le & [ STEM < "servodirección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_servodirección_n_rel" ] ]. servofreno_n1 := n_intr_count_le & [ STEM < "servofreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servofreno_n_rel" ] ]. servomando_n1 := n_intr_count_le & [ STEM < "servomando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servomando_n_rel" ] ]. servomecanismo_n1 := n_intr_count_le & [ STEM < "servomecanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servomecanismo_n_rel" ] ]. servomotor_n1 := n_intr_count_le & [ STEM < "servomotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servomotor_n_rel" ] ]. servopista_n1 := n_intr_count_le & [ STEM < "servopista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servopista_n_rel" ] ]. servosistema_n1 := n_intr_count_le & [ STEM < "servosistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_servosistema_n_rel" ] ]. servoválvula_n1 := n_intr_count_le & [ STEM < "servoválvula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_servoválvula_n_rel" ] ]. servozona_n1 := n_intr_count_le & [ STEM < "servozona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_servozona_n_rel" ] ]. sesamoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "sesamoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_sesamoideo_a_rel" ]. sesamolina_n1 := n_intr_count_le & [ STEM < "sesamolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sesamolina_n_rel" ] ]. seseo_n1 := n_result_intr_le & [ STEM < "seseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seseo_n_rel" ] ]. sesgar_v := v_trans_np_le & [ STEM < "sesgar" >, SYNSEM.LKEYS.KEYREL.PRED "_sesgar_v_rel" ]. sesión_n1 := n_intr_count_le & [ STEM < "sesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sesión_n_rel" ] ]. seso_n1 := n_ppcomp_count_le & [ STEM < "seso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_seso_n_rel" ] ]. sesquibromuro_n1 := n_intr_count_le & [ STEM < "sesquibromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sesquibromuro_n_rel" ] ]. sesquicarbonato_n1 := n_intr_count_le & [ STEM < "sesquicarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sesquicarbonato_n_rel" ] ]. sesquilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "sesquilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_sesquilineal_a_rel" ]. sesquisilicato_n1 := n_intr_count_le & [ STEM < "sesquisilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sesquisilicato_n_rel" ] ]. sesquisulfuro_n1 := n_intr_count_le & [ STEM < "sesquisulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sesquisulfuro_n_rel" ] ]. sesquióxido_n1 := n_intr_count_le & [ STEM < "sesquióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sesquióxido_n_rel" ] ]. sestercio_n := n_intr_count_le & [ STEM < "sestercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_sestercio_n_rel" ] ]. seta_n1 := n_intr_count_le & [ STEM < "seta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_seta_n_rel" ] ]. seto_n1 := n_intr_count_le & [ STEM < "seto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_seto_n_rel" ] ]. setter_n1 := n_intr_count_le & [ STEM < "setter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_setter_n_rel" ] ]. seudoanodoncia_n1 := n_intr_uncount_le & [ STEM < "seudoanodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seudoanodoncia_n_rel" ] ]. seudoartículo_n1 := n_intr_count_le & [ STEM < "seudoartículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_seudoartículo_n_rel" ] ]. seudobolsa_n1 := n_ppcomp_count_le & [ STEM < "seudobolsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_seudobolsa_n_rel" ] ]. seudocromosoma_n1 := n_intr_count_le & [ STEM < "seudocromosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_seudocromosoma_n_rel" ] ]. seudocrítico_a1 := a_qual_intr_ser_le & [ STEM < "seudocrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_seudocrítico_a_rel" ]. seudogley_n1 := n_intr_mass_le & [ STEM < "seudogley" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_seudogley_n_rel" ] ]. seudoglobulina_n1 := n_intr_count_le & [ STEM < "seudoglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_seudoglobulina_n_rel" ] ]. seudopasividad_n1 := n_intr_uncount_le & [ STEM < "seudopasividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seudopasividad_n_rel" ] ]. seudoplasticidad_n1 := n_intr_uncount_le & [ STEM < "seudoplasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seudoplasticidad_n_rel" ] ]. seudoscópico_a1 := a_rel_nonprd_intr_le & [ STEM < "seudoscópico" >, SYNSEM.LKEYS.KEYREL.PRED "_seudoscópico_a_rel" ]. seudónimo_n1 := n_intr_count_le & [ STEM < "seudónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seudónimo_n_rel" ] ]. severamente_x1 := av_i_spr_le & [ STEM < "severamente" >, SYNSEM.LKEYS.KEYREL.PRED "_severamente_x_rel" ]. severidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "severidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_severidad_n_rel" ] ]. severo_a1 := a_qual_intr_ser_le & [ STEM < "severo" >, SYNSEM.LKEYS.KEYREL.PRED "_severo_a_rel" ]. sevicia_n1 := n_intr_uncount_pl_le & [ STEM < "sevicia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sevicia_n_rel" ] ]. sevillano_a1 := a_rel_prd_le & [ STEM < "sevillano" >, SYNSEM.LKEYS.KEYREL.PRED "_sevillano_a_rel" ]. sevillano_n1 := n_intr_count_le & [ STEM < "sevillano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sevillano_n_rel" ] ]. sevillista_a1 := a_rel_prd_le & [ STEM < "sevillista" >, SYNSEM.LKEYS.KEYREL.PRED "_sevillista_a_rel" ]. sevillista_n1 := n_intr_count_le & [ STEM < "sevillista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sevillista_n_rel" ] ]. sexador_a1 := a_rel_nonprd_intr_le & [ STEM < "sexador" >, SYNSEM.LKEYS.KEYREL.PRED "_sexador_a_rel" ]. sexagenario_a1 := a_rel_nonprd_intr_le & [ STEM < "sexagenario" >, SYNSEM.LKEYS.KEYREL.PRED "_sexagenario_a_rel" ]. sexagesimalmente_x1 := av_i_spr_le & [ STEM < "sexagesimalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sexagesimalmente_x_rel" ]. sexagonal_a1 := a_rel_nonprd_intr_le & [ STEM < "sexagonal" >, SYNSEM.LKEYS.KEYREL.PRED "_sexagonal_a_rel" ]. sexagonalmente_x1 := av_i_spr_le & [ STEM < "sexagonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sexagonalmente_x_rel" ]. sexaje_n1 := n_intr_uncount_le & [ STEM < "sexaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexaje_n_rel" ] ]. sexismo_n1 := n_intr_uncount_le & [ STEM < "sexismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexismo_n_rel" ] ]. sexista_a1 := a_qual_intr_ser_le & [ STEM < "sexista" >, SYNSEM.LKEYS.KEYREL.PRED "_sexista_a_rel" ]. sexista_n1 := n_intr_count_le & [ STEM < "sexista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sexista_n_rel" ] ]. sexo_n1 := n_intr_count_le & [ STEM < "sexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sexo_n_rel" ] ]. sexología_n1 := n_intr_uncount_le & [ STEM < "sexología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexología_n_rel" ] ]. sextante_n1 := n_intr_count_le & [ STEM < "sextante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sextante_n_rel" ] ]. sexual_a1 := a_rel_nonprd_intr_le & [ STEM < "sexual" >, SYNSEM.LKEYS.KEYREL.PRED "_sexual_a_rel" ]. sexualidad_n1 := n_ppcomp_uncount_le & [ STEM < "sexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexualidad_n_rel" ] ]. sexualidad_n2 := n_ppcomp_count_le & [ STEM < "sexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexualidad_n_rel" ] ]. sexualmente_x1 := av_i_spr_le & [ STEM < "sexualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sexualmente_x_rel" ]. sexólogo_n1 := n_intr_count_le & [ STEM < "sexólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sexólogo_n_rel" ] ]. seña_n1 := n_intr_count_le & [ STEM < "seña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seña_n_rel" ] ]. señal_n1 := n_intr_count_le & [ STEM < "señal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_señal_n_rel" ] ]. señalamiento_n1 := n_trans_le & [ STEM < "señalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_señalamiento_n_rel" ]. señalar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "señalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_señalar_v_rel" ] ]. señalar_v2 := v_ditrans*_le & [ STEM < "señalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_señalar_v_rel" ] ]. señalar_v3 := v_unacc_lcomp_dir_le & [ STEM < "señalar" >, SYNSEM.LKEYS.KEYREL.PRED "_señalar_v_rel" ]. señalización_n1 := n_intr_mass_le & [ STEM < "señalización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_señalización_n_rel" ] ]. señalizador_n1 := n_intr_count_le & [ STEM < "señalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_señalizador_n_rel" ] ]. señalizar_v := v_trans_np_le & [ STEM < "señalizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_señalizar_v_rel" ] ]. señor_n1 := n_intr_count_le & [ STEM < "señor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_señor_n_rel" ] ]. señoraje_n1 := n_intr_uncount_le & [ STEM < "señoraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_señoraje_n_rel" ] ]. señorial_a1 := a_rel_nonprd_intr_le & [ STEM < "señorial" >, SYNSEM.LKEYS.KEYREL.PRED "_señorial_a_rel" ]. señorito_n1 := n_intr_count_le & [ STEM < "señorito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_señorito_n_rel" ] ]. señoría_n1 := n_intr_count_le & [ STEM < "señoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_señoría_n_rel" ] ]. señorío_n1 := n_intr_uncount_pl_le & [ STEM < "señorío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_señorío_n_rel" ] ]. señuelo_n1 := n_intr_count_le & [ STEM < "señuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_señuelo_n_rel" ] ]. shekel_n := n_intr_count_le & [ STEM < "shekel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_shekel_n_rel" ] ]. sheriff_n1 := n_intr_count_le & [ STEM < "sheriff" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sheriff_n_rel" ] ]. sherpa_n1 := n_intr_count_le & [ STEM < "sherpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sherpa_n_rel" ] ]. shií_n1 := n_intr_count_le & [ STEM < "shií" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_shií_n_rel" ] ]. shona_n1 := n_intr_count_le & [ STEM < "shona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_shona_n_rel" ] ]. short_n1 := n_intr_count_le & [ STEM < "short" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_short_n_rel" ] ]. si_acaso_x1 := av_i_le & [ STEM < "si_acaso" >, SYNSEM.LKEYS.KEYREL.PRED "_si_acaso_x_rel" ]. si_bien_se_mira_x1 := av_i_le & [ STEM < "si_bien_se_mira" >, SYNSEM.LKEYS.KEYREL.PRED "_si_bien_se_mira_x_rel" ]. si_c1 := cmp_si_prop_fin_le & [ STEM < "si" > ]. si_c2 := cmp_si_vp-inf_le & [ STEM < "si" > ]. si_no_es_por_p_vmod := p_vmod_le & [ STEM < "si_no_es_por" >, SYNSEM.LKEYS.KEYREL.PRED _si_no_es_por_p_rel ]. si_sc := sc_prop_fin_le & [ STEM < "si" >, SYNSEM.LKEYS.KEYREL.PRED "_si_x_subord_rel" ]. sialagogo_n1 := n_intr_count_le & [ STEM < "sialagogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialagogo_n_rel" ] ]. sialita_n1 := n_intr_count_le & [ STEM < "sialita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sialita_n_rel" ] ]. sialoadenectomía_n1 := n_intr_uncount_le & [ STEM < "sialoadenectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialoadenectomía_n_rel" ] ]. sialoadenotomía_n1 := n_intr_uncount_le & [ STEM < "sialoadenotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialoadenotomía_n_rel" ] ]. sialoangiografía_n1 := n_intr_count_le & [ STEM < "sialoangiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialoangiografía_n_rel" ] ]. sialocele_n1 := n_intr_count_le & [ STEM < "sialocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialocele_n_rel" ] ]. sialografía_n1 := n_intr_count_le & [ STEM < "sialografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialografía_n_rel" ] ]. sialograma_n1 := n_intr_count_le & [ STEM < "sialograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialograma_n_rel" ] ]. sialolito_n1 := n_intr_count_le & [ STEM < "sialolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sialolito_n_rel" ] ]. sialorrea_n1 := n_intr_uncount_le & [ STEM < "sialorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialorrea_n_rel" ] ]. sialógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "sialógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_sialógeno_a_rel" ]. siamés_a1 := a_rel_prd_le & [ STEM < "siamés" >, SYNSEM.LKEYS.KEYREL.PRED "_siamés_a_rel" ]. siamés_n1 := n_intr_count_le & [ STEM < "siamés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siamés_n_rel" ] ]. sibarita_n1 := n_intr_count_le & [ STEM < "sibarita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sibarita_n_rel" ] ]. sibaritismo_n1 := n_intr_uncount_le & [ STEM < "sibaritismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sibaritismo_n_rel" ] ]. sibarítico_a1 := a_rel_nonprd_intr_le & [ STEM < "sibarítico" >, SYNSEM.LKEYS.KEYREL.PRED "_sibarítico_a_rel" ]. siberiano_a1 := a_rel_prd_le & [ STEM < "siberiano" >, SYNSEM.LKEYS.KEYREL.PRED "_siberiano_a_rel" ]. siberiano_n1 := n_intr_count_le & [ STEM < "siberiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siberiano_n_rel" ] ]. siberita_n1 := n_intr_count_le & [ STEM < "siberita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_siberita_n_rel" ] ]. sibilante_a1 := a_rel_nonprd_intr_le & [ STEM < "sibilante" >, SYNSEM.LKEYS.KEYREL.PRED "_sibilante_a_rel" ]. sibilino_a1 := a_rel_nonprd_intr_le & [ STEM < "sibilino" >, SYNSEM.LKEYS.KEYREL.PRED "_sibilino_a_rel" ]. siciliano_a1 := a_rel_prd_le & [ STEM < "siciliano" >, SYNSEM.LKEYS.KEYREL.PRED "_siciliano_a_rel" ]. siciliano_n1 := n_intr_count_le & [ STEM < "siciliano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siciliano_n_rel" ] ]. sicomoro_n1 := n_intr_count_le & [ STEM < "sicomoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sicomoro_n_rel" ] ]. sicósico_a1 := a_rel_nonprd_intr_le & [ STEM < "sicósico" >, SYNSEM.LKEYS.KEYREL.PRED "_sicósico_a_rel" ]. sidecar_n1 := n_intr_count_le & [ STEM < "sidecar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sidecar_n_rel" ] ]. siderita_n1 := n_intr_count_le & [ STEM < "siderita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_siderita_n_rel" ] ]. sideroblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "sideroblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_sideroblástico_a_rel" ]. siderocito_n1 := n_intr_count_le & [ STEM < "siderocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_siderocito_n_rel" ] ]. siderofilina_n1 := n_intr_count_le & [ STEM < "siderofilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_siderofilina_n_rel" ] ]. sideropénico_a1 := a_rel_nonprd_intr_le & [ STEM < "sideropénico" >, SYNSEM.LKEYS.KEYREL.PRED "_sideropénico_a_rel" ]. siderúrgico_a1 := a_rel_nonprd_intr_le & [ STEM < "siderúrgico" >, SYNSEM.LKEYS.KEYREL.PRED "_siderúrgico_a_rel" ]. sidra_n1 := n_intr_mass_le & [ STEM < "sidra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sidra_n_rel" ] ]. sidérico_a1 := a_rel_nonprd_intr_le & [ STEM < "sidérico" >, SYNSEM.LKEYS.KEYREL.PRED "_sidérico_a_rel" ]. siega_n1 := n_trans_le & [ STEM < "siega" >, SYNSEM.LKEYS.KEYREL.PRED "_siega_n_rel" ]. siembra_n1 := n_trans_le & [ STEM < "siembra" >, SYNSEM.LKEYS.KEYREL.PRED "_siembra_n_rel" ]. siempre_x1 := av_i_le & [ STEM < "siempre" >, SYNSEM.LKEYS.KEYREL.PRED "_siempre_x_rel" ]. siempre_y_cuando_x1 := av_i_le & [ STEM < "siempre_y_cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_siempre_y_cuando_x_rel" ]. siempreviva_n1 := n_intr_count_le & [ STEM < "siempreviva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_siempreviva_n_rel" ] ]. sien_n1 := n_ppcomp_count_le & [ STEM < "sien" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_sien_n_rel" ] ]. siendo_así_x1 := av_i_le & [ STEM < "siendo_así" >, SYNSEM.LKEYS.KEYREL.PRED "_siendo_así_x_rel" ]. sienita_n1 := n_intr_count_le & [ STEM < "sienita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sienita_n_rel" ] ]. sierpe_n1 := n_intr_count_le & [ STEM < "sierpe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sierpe_n_rel" ] ]. sierra_n1 := n_intr_count_le & [ STEM < "sierra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sierra_n_rel" ] ]. siervo_n1 := n_intr_count_le & [ STEM < "siervo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siervo_n_rel" ] ]. sietenrama_n1 := n_intr_count_le & [ STEM < "sietenrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sietenrama_n_rel" ] ]. sifilítico_a1 := a_rel_nonprd_intr_le & [ STEM < "sifilítico" >, SYNSEM.LKEYS.KEYREL.PRED "_sifilítico_a_rel" ]. sifonar_v := v_trans_np_le & [ STEM < "sifonar" >, SYNSEM.LKEYS.KEYREL.PRED "_sifonar_v_rel" ]. sifón_n1 := n_intr_mass_le & [ STEM < "sifón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sifón_n_rel" ] ]. sigilografía_n1 := n_intr_uncount_le & [ STEM < "sigilografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sigilografía_n_rel" ] ]. sigilosamente_x1 := av_i_spr_le & [ STEM < "sigilosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sigilosamente_x_rel" ]. sigiloso_a1 := a_qual_intr_ser_le & [ STEM < "sigiloso" >, SYNSEM.LKEYS.KEYREL.PRED "_sigiloso_a_rel" ]. sigla_n1 := n_intr_count_le & [ STEM < "sigla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sigla_n_rel" ] ]. siglo_n1 := n_pseudo-part_temp_le & [ STEM < "siglo" >, SYNSEM.LKEYS.KEYREL.PRED "_siglo_n_rel" ]. siglo_n2 := n_intr_temp_le & [ STEM < "siglo" > ]. sigmatismo_n1 := n_intr_uncount_le & [ STEM < "sigmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sigmatismo_n_rel" ] ]. sigmoide_a1 := a_rel_nonprd_intr_le & [ STEM < "sigmoide" >, SYNSEM.LKEYS.KEYREL.PRED "_sigmoide_a_rel" ]. sigmoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "sigmoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_sigmoideo_a_rel" ]. signatario_n1 := n_intr_count_le & [ STEM < "signatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_signatario_n_rel" ] ]. signatura_n1 := n_intr_count_le & [ STEM < "signatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_signatura_n_rel" ] ]. significación_n1 := n_trans_le & [ STEM < "significación" >, SYNSEM.LKEYS.KEYREL.PRED "_significación_n_rel" ]. significado_n1 := n_intr_count_le & [ STEM < "significado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_significado_n_rel" ] ]. significancia_n1 := n_intr_mass_le & [ STEM < "significancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_significancia_n_rel" ] ]. significante_a1 := a_qual_intr_ser_le & [ STEM < "significante" >, SYNSEM.LKEYS.KEYREL.PRED "_significante_a_rel" ]. significar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_significar_v_rel" ] ]. significar_v2 := v_ditrans*_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_significar_v_rel" ] ]. significar_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL.PRED "_significar_v_rel" ]. significar_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL.PRED "_significar_v_rel" ]. significar_v5 := v_trans_cp_prop_fin_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_significar_v_rel" ] ]. significar_v6 := v_trans_np_le & [ STEM < "significar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_significar_v_rel" ] ]. significativamente_x1 := av_i_spr_le & [ STEM < "significativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_significativamente_x_rel" ]. significativo_a1 := a_qual_intr_ser_le & [ STEM < "significativo" >, SYNSEM.LKEYS.KEYREL.PRED "_significativo_a_rel" ]. signo_n1 := n_intr_count_le & [ STEM < "signo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_signo_n_rel" ] ]. siguiente_a1 := a_adv_event_le & [ STEM < "siguiente" >, SYNSEM.LKEYS.KEYREL.PRED "_siguiente_a_rel" ]. silano_n1 := n_intr_mass-or-count_le & [ STEM < "silano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_silano_n_rel" ] ]. silbar_v := v_ditrans*_le & [ STEM < "silbar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_silbar_v_rel" ] ]. silbar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "silbar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_silbar_v_rel" ] ]. silbar_v2 := v_ditrans*_le & [ STEM < "silbar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_silbar_v_rel" ] ]. silbato_n1 := n_intr_count_le & [ STEM < "silbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_silbato_n_rel" ] ]. silbido_n1 := n_result_intr_le & [ STEM < "silbido" >, SYNSEM.LKEYS.KEYREL.PRED "_silbido_n_rel" ]. silbotear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "silbotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_silbotear_v_rel" ] ]. silbotear_v2 := v_ditrans*_le & [ STEM < "silbotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_silbotear_v_rel" ] ]. silenciador_n1 := n_intr_count_le & [ STEM < "silenciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_silenciador_n_rel" ] ]. silenciar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "silenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_silenciar_v_rel" ] ]. silenciar_v2 := v_trans_np_le & [ STEM < "silenciar" >, SYNSEM.LKEYS.KEYREL.PRED "_silenciar_v_rel" ]. silenciosamente_x1 := av_i_spr_le & [ STEM < "silenciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_silenciosamente_x_rel" ]. silencioso_a1 := a_qual_intr_scopal_le & [ STEM < "silencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_silencioso_a_rel" ]. silicato_n1 := n_intr_mass_le & [ STEM < "silicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silicato_n_rel" ] ]. silicio_n1 := n_intr_mass_le & [ STEM < "silicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silicio_n_rel" ] ]. silicoaluminato_n1 := n_intr_count_le & [ STEM < "silicoaluminato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silicoaluminato_n_rel" ] ]. silicona_n1 := n_intr_mass_le & [ STEM < "silicona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silicona_n_rel" ] ]. silicotúngstico_a1 := a_rel_nonprd_intr_le & [ STEM < "silicotúngstico" >, SYNSEM.LKEYS.KEYREL.PRED "_silicotúngstico_a_rel" ]. silicua_n := n_intr_count_le & [ STEM < "silicua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_silicua_n_rel" ] ]. silicuoso_a1 := a_rel_nonprd_intr_le & [ STEM < "silicuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_silicuoso_a_rel" ]. silicícola_a1 := a_rel_nonprd_intr_le & [ STEM < "silicícola" >, SYNSEM.LKEYS.KEYREL.PRED "_silicícola_a_rel" ]. silimanita_n1 := n_intr_count_le & [ STEM < "silimanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silimanita_n_rel" ] ]. silita_n1 := n_intr_mass_le & [ STEM < "silita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silita_n_rel" ] ]. silla_n1 := n_intr_count_le & [ STEM < "silla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_silla_n_rel" ] ]. sillar_n1 := n_intr_count_le & [ STEM < "sillar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sillar_n_rel" ] ]. sillería_n1 := n_intr_coll_le & [ STEM < "sillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sillería_n_rel" ] ]. sillimanita_n1 := n_intr_count_le & [ STEM < "sillimanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sillimanita_n_rel" ] ]. sillín_n1 := n_intr_count_le & [ STEM < "sillín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sillín_n_rel" ] ]. silo_n1 := n_intr_count_le & [ STEM < "silo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_silo_n_rel" ] ]. silogismo_n1 := n_intr_count_le & [ STEM < "silogismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silogismo_n_rel" ] ]. silogístico_a1 := a_rel_nonprd_intr_le & [ STEM < "silogístico" >, SYNSEM.LKEYS.KEYREL.PRED "_silogístico_a_rel" ]. siloxano_n1 := n_intr_count_le & [ STEM < "siloxano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_siloxano_n_rel" ] ]. silueta_n1 := n_intr_count_le & [ STEM < "silueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_silueta_n_rel" ] ]. siluro_n1 := n_intr_count_le & [ STEM < "siluro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_siluro_n_rel" ] ]. silva_n1 := n_intr_count_le & [ STEM < "silva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_silva_n_rel" ] ]. silvanita_n1 := n_intr_count_le & [ STEM < "silvanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silvanita_n_rel" ] ]. silvestre_a1 := a_qual_intr_ser_le & [ STEM < "silvestre" >, SYNSEM.LKEYS.KEYREL.PRED "_silvestre_a_rel" ]. silvicultor_n1 := n_intr_count_le & [ STEM < "silvicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silvicultor_n_rel" ] ]. silvicultura_n1 := n_intr_count_le & [ STEM < "silvicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silvicultura_n_rel" ] ]. silvinita_n1 := n_intr_count_le & [ STEM < "silvinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silvinita_n_rel" ] ]. silvita_n1 := n_intr_count_le & [ STEM < "silvita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_silvita_n_rel" ] ]. silábico_a1 := a_rel_nonprd_intr_le & [ STEM < "silábico" >, SYNSEM.LKEYS.KEYREL.PRED "_silábico_a_rel" ]. silíceo_a1 := a_rel_nonprd_intr_le & [ STEM < "silíceo" >, SYNSEM.LKEYS.KEYREL.PRED "_silíceo_a_rel" ]. silícico_a1 := a_rel_nonprd_intr_le & [ STEM < "silícico" >, SYNSEM.LKEYS.KEYREL.PRED "_silícico_a_rel" ]. sima_n1 := n_intr_count_le & [ STEM < "sima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sima_n_rel" ] ]. simaruba_n1 := n_intr_count_le & [ STEM < "simaruba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_simaruba_n_rel" ] ]. simbióticamente_x1 := av_i_spr_le & [ STEM < "simbióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simbióticamente_x_rel" ]. simbiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "simbiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_simbiótico_a_rel" ]. simbolismo_n1 := n_intr_uncount_le & [ STEM < "simbolismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simbolismo_n_rel" ] ]. simbolista_a1 := a_rel_nonprd_intr_le & [ STEM < "simbolista" >, SYNSEM.LKEYS.KEYREL.PRED "_simbolista_a_rel" ]. simbolización_n1 := n_trans_le & [ STEM < "simbolización" >, SYNSEM.LKEYS.KEYREL.PRED "_simbolización_n_rel" ]. simbolizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "simbolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_simbolizar_v_rel" ]. simbolizar_v2 := v_trans_cp_prop_fin_ind_le & [ STEM < "simbolizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_simbolizar_v_rel" ] ]. simbolizar_v3 := v_trans_cp_prop_fin_le & [ STEM < "simbolizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_simbolizar_v_rel" ] ]. simbolizar_v4 := v_trans_np_le & [ STEM < "simbolizar" >, SYNSEM.LKEYS.KEYREL.PRED "_simbolizar_v_rel" ]. simbología_n1 := n_intr_count_le & [ STEM < "simbología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simbología_n_rel" ] ]. simbólicamente_x1 := av_i_spr_le & [ STEM < "simbólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simbólicamente_x_rel" ]. simbólico_a1 := a_qual_intr_ser_le & [ STEM < "simbólico" >, SYNSEM.LKEYS.KEYREL.PRED "_simbólico_a_rel" ]. simetita_n1 := n_intr_count_le & [ STEM < "simetita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_simetita_n_rel" ] ]. simetría_n1 := n_intr_mass_le & [ STEM < "simetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simetría_n_rel" ] ]. simiente_n1 := n_intr_count_le & [ STEM < "simiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_simiente_n_rel" ] ]. similar_a1 := a_adv_event_le & [ STEM < "similar" >, SYNSEM.LKEYS.KEYREL.PRED "_similar_a_rel" ]. similar_a2 := a_qual_trans*_ser_le & [ STEM < "similar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_similar_a_rel" ] ]. similar_a3 := a_qual_cp_prop_fin_ser_le & [ STEM < "similar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_similar_a_rel" ] ]. similar_a4 := a_qual_cp_ques_ser_le & [ STEM < "similar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_similar_a_rel" ] ]. similarmente_x1 := av_i_spr_le & [ STEM < "similarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_similarmente_x_rel" ]. similitud_n1 := n_intr_count_le & [ STEM < "similitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_similitud_n_rel" ] ]. simio_n1 := n_intr_count_le & [ STEM < "simio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_simio_n_rel" ] ]. simonía_n1 := n_intr_uncount_pl_le & [ STEM < "simonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simonía_n_rel" ] ]. simpaticomiméticamente_x1 := av_i_spr_le & [ STEM < "simpaticomiméticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simpaticomiméticamente_x_rel" ]. simpaticomimético_a1 := a_rel_nonprd_intr_le & [ STEM < "simpaticomimético" >, SYNSEM.LKEYS.KEYREL.PRED "_simpaticomimético_a_rel" ]. simpatizante_n1 := n_intr_count_le & [ STEM < "simpatizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_simpatizante_n_rel" ] ]. simpatizar_v1 := v_intr_mrkd_np*_le & [ STEM < "simpatizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_simpatizar_v_rel" ] ]. simpatizar_v2 := v_intr_mrkd_np_sym_le & [ STEM < "simpatizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_simpatizar_v_rel" ] ]. simpatolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "simpatolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_simpatolítico_a_rel" ]. simpatía_n1 := n_intr_mass_le & [ STEM < "simpatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simpatía_n_rel" ] ]. simplasto_n1 := n_intr_count_le & [ STEM < "simplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_simplasto_n_rel" ] ]. simple_a1 := a_qual_intr_ser_le & [ STEM < "simple" >, SYNSEM.LKEYS.KEYREL.PRED "_simple_a_rel" ]. simplemente_x1 := av_i_foc_le & [ STEM < "simplemente" >, SYNSEM.LKEYS.KEYREL.PRED "_simplemente_x_rel" ]. simplemente_x2 := av_s_cp_prop_le & [ STEM < "simplemente" >, SYNSEM.LKEYS.KEYREL.PRED "_simplemente_x_rel" ]. simplemente_x3 := av_i_np-foc_le & [ STEM < "simplemente" >, SYNSEM.LKEYS.KEYREL.PRED "_simplemente_x_rel" ]. simpleza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "simpleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simpleza_n_rel" ] ]. simplicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "simplicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simplicidad_n_rel" ] ]. simplificable_a1 := a_rel_prd_le & [ STEM < "simplificable" >, SYNSEM.LKEYS.KEYREL.PRED "_simplificable_a_rel" ]. simplificación_n1 := n_trans_le & [ STEM < "simplificación" >, SYNSEM.LKEYS.KEYREL.PRED "_simplificación_n_rel" ]. simplificar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "simplificar" >, SYNSEM.LKEYS.KEYREL.PRED "_simplificar_v_rel" ]. simplificar_v2 := v_trans_np_caus_le & [ STEM < "simplificar" >, SYNSEM.LKEYS.KEYREL.PRED "_simplificar_v_rel" ]. simplista_a1 := a_qual_intr_ser_le & [ STEM < "simplista" >, SYNSEM.LKEYS.KEYREL.PRED "_simplista_a_rel" ]. simplón_n1 := n_intr_count_le & [ STEM < "simplón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_simplón_n_rel" ] ]. simpáticamente_x1 := av_i_spr_le & [ STEM < "simpáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simpáticamente_x_rel" ]. simpático_a1 := a_qual_intr_ser_le & [ STEM < "simpático" >, SYNSEM.LKEYS.KEYREL.PRED "_simpático_a_rel" ]. simulación_n1 := n_trans_le & [ STEM < "simulación" >, SYNSEM.LKEYS.KEYREL.PRED "_simulación_n_rel" ]. simulador_n1 := n_intr_count_le & [ STEM < "simulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_simulador_n_rel" ] ]. simular_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "simular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_simular_v_rel" ] ]. simular_v2 := v_trans_np_le & [ STEM < "simular" >, SYNSEM.LKEYS.KEYREL.PRED "_simular_v_rel" ]. simultanear_v := v_trans_np_mrkd_np*_le & [ STEM < "simultanear" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_simultanear_v_rel" ] ]. simultaneidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "simultaneidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simultaneidad_n_rel" ] ]. simultáneamente_x1 := av_i_spr_le & [ STEM < "simultáneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simultáneamente_x_rel" ]. simultáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "simultáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_simultáneo_a_rel" ]. simétricamente_x1 := av_i_spr_le & [ STEM < "simétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_simétricamente_x_rel" ]. simétrico_a1 := a_qual_intr_ser_le & [ STEM < "simétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_simétrico_a_rel" ]. sin_ambages_x1 := av_i_le & [ STEM < "sin_ambages" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_ambages_x_rel" ]. sin_chistar_ni_mistar_x1 := av_i_le & [ STEM < "sin_chistar_ni_mistar" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_chistar_ni_mistar_x_rel" ]. sin_comerlo_ni_beberlo_x1 := av_i_le & [ STEM < "sin_comerlo_ni_beberlo" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_comerlo_ni_beberlo_x_rel" ]. sin_contar_con_p_vmod := p_vmod_le & [ STEM < "sin_contar_con" >, SYNSEM.LKEYS.KEYREL.PRED _sin_contar_con_p_rel ]. sin_duda_alguna_x1 := av_i_le & [ STEM < "sin_duda_alguna" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_duda_alguna_x_rel" ]. sin_duda_x1 := av_s_cp_prop_le & [ STEM < "sin_duda" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_duda_x_rel" ]. sin_ir_más_lejos_x1 := av_i_le & [ STEM < "sin_ir_más_lejos" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_ir_más_lejos_x_rel" ]. sin_lugar_a_dudas_x1 := av_i_le & [ STEM < "sin_lugar_a_dudas" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_lugar_a_dudas_x_rel" ]. sin_más_ni_más_x1 := av_i_le & [ STEM < "sin_más_ni_más" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_más_ni_más_x_rel" ]. sin_necesidad_de_p_vmod := p_vmod_le & [ STEM < "sin_necesidad_de" >, SYNSEM.LKEYS.KEYREL.PRED _sin_necesidad_de_p_rel ]. sin_ninguna_duda_x1 := av_i_le & [ STEM < "sin_ninguna_duda" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_ninguna_duda_x_rel" ]. sin_p_nmod := p_nmod_le & [ STEM < "sin" >, SYNSEM.LKEYS.KEYREL.PRED _sin_p_rel ]. sin_p_vmod := p_vmod_le & [ STEM < "sin" >, SYNSEM.LKEYS.KEYREL.PRED _sin_p_rel ]. sin_p_vp-inf-slash_nmod := p_vp-inf-slash_nmod_le & [ STEM < "sin" >, SYNSEM.LKEYS.KEYREL.PRED _sin_p_rel ]. sin_pena_ni_gloria_x1 := av_i_le & [ STEM < "sin_pena_ni_gloria" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_pena_ni_gloria_x_rel" ]. sin_perjuicio_de_p_vmod := p_vmod_le & [ STEM < "sin_perjuicio_de" >, SYNSEM.LKEYS.KEYREL.PRED _sin_perjuicio_de_p_rel ]. sin_qué_ni_para_qué_x1 := av_i_le & [ STEM < "sin_qué_ni_para_qué" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_qué_ni_para_qué_x_rel" ]. sin_sc1 := p_cp_prop_fin_le & [ STEM < "sin" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_x_subord_rel" ]. sin_sc2 := p_vp_inf_le & [ STEM < "sin" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_x_subord_rel" ]. sin_ton_ni_son_x1 := av_i_le & [ STEM < "sin_ton_ni_son" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_ton_ni_son_x_rel" ]. sin_trastes_x1 := av_i_le & [ STEM < "sin_trastes" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_trastes_x_rel" ]. sin_venir_a_pelo_x1 := av_i_le & [ STEM < "sin_venir_a_pelo" >, SYNSEM.LKEYS.KEYREL.PRED "_sin_venir_a_pelo_x_rel" ]. sinagoga_n1 := n_intr_count_le & [ STEM < "sinagoga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sinagoga_n_rel" ] ]. sinalagmático_a1 := a_rel_nonprd_intr_le & [ STEM < "sinalagmático" >, SYNSEM.LKEYS.KEYREL.PRED "_sinalagmático_a_rel" ]. sinaptinémico_a1 := a_rel_nonprd_intr_le & [ STEM < "sinaptinémico" >, SYNSEM.LKEYS.KEYREL.PRED "_sinaptinémico_a_rel" ]. sincategoremático_a1 := a_rel_nonprd_intr_le & [ STEM < "sincategoremático" >, SYNSEM.LKEYS.KEYREL.PRED "_sincategoremático_a_rel" ]. sinceramente_x1 := av_s_spr_le & [ STEM < "sinceramente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinceramente_x_rel" ]. sincerar_v := v_pron_intr_mrkd_np*_le & [ STEM < "sincerar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_sincerar_v_rel" ] ]. sinceridad_n1 := n_intr_mass-or-count_le & [ STEM < "sinceridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinceridad_n_rel" ] ]. sincero_a1 := a_qual_trans*_ser_le & [ STEM < "sincero" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_sincero_a_rel" ] ]. sincitio_n1 := n_intr_count_le & [ STEM < "sincitio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sincitio_n_rel" ] ]. sinclinal_a1 := a_rel_nonprd_intr_le & [ STEM < "sinclinal" >, SYNSEM.LKEYS.KEYREL.PRED "_sinclinal_a_rel" ]. sinclinal_n1 := n_intr_count_le & [ STEM < "sinclinal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sinclinal_n_rel" ] ]. sincopar_v := v_trans_np_le & [ STEM < "sincopar" >, SYNSEM.LKEYS.KEYREL.PRED "_sincopar_v_rel" ]. sincorología_n1 := n_intr_uncount_le & [ STEM < "sincorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincorología_n_rel" ] ]. sincretismo_n1 := n_intr_uncount_le & [ STEM < "sincretismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincretismo_n_rel" ] ]. sincrogenerador_n1 := n_intr_count_le & [ STEM < "sincrogenerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sincrogenerador_n_rel" ] ]. sincronismo_n1 := n_intr_uncount_le & [ STEM < "sincronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincronismo_n_rel" ] ]. sincronización_n1 := n_trans_le & [ STEM < "sincronización" >, SYNSEM.LKEYS.KEYREL.PRED "_sincronización_n_rel" ]. sincronizador_n1 := n_intr_count_le & [ STEM < "sincronizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sincronizador_n_rel" ] ]. sincronoscopio_n1 := n_intr_count_le & [ STEM < "sincronoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sincronoscopio_n_rel" ] ]. sincronía_n1 := n_intr_mass_le & [ STEM < "sincronía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincronía_n_rel" ] ]. sincrotransmisor_n1 := n_intr_count_le & [ STEM < "sincrotransmisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sincrotransmisor_n_rel" ] ]. sincrónicamente_x1 := av_i_spr_le & [ STEM < "sincrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sincrónicamente_x_rel" ]. sincrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "sincrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_sincrónico_a_rel" ]. sindicación_n1 := n_intr_count_le & [ STEM < "sindicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_sindicación_n_rel" ] ]. sindical_a1 := a_rel_nonprd_intr_le & [ STEM < "sindical" >, SYNSEM.LKEYS.KEYREL.PRED "_sindical_a_rel" ]. sindicalismo_n1 := n_intr_uncount_le & [ STEM < "sindicalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sindicalismo_n_rel" ] ]. sindicalista_a1 := a_rel_nonprd_intr_le & [ STEM < "sindicalista" >, SYNSEM.LKEYS.KEYREL.PRED "_sindicalista_a_rel" ]. sindicalista_n1 := n_intr_count_le & [ STEM < "sindicalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sindicalista_n_rel" ] ]. sindicalmente_x1 := av_i_spr_le & [ STEM < "sindicalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sindicalmente_x_rel" ]. sindicar_v := v_trans_np_caus_le & [ STEM < "sindicar" >, SYNSEM.LKEYS.KEYREL.PRED "_sindicar_v_rel" ]. sindicato_n1 := n_intr_count_le & [ STEM < "sindicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_sindicato_n_rel" ] ]. sindicatura_n1 := n_intr_count_le & [ STEM < "sindicatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_sindicatura_n_rel" ] ]. sinecología_n1 := n_intr_uncount_le & [ STEM < "sinecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinecología_n_rel" ] ]. sinecura_n1 := n_intr_count_le & [ STEM < "sinecura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinecura_n_rel" ] ]. sinergéticamente_x1 := av_i_spr_le & [ STEM < "sinergéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinergéticamente_x_rel" ]. sinergético_a1 := a_rel_nonprd_intr_le & [ STEM < "sinergético" >, SYNSEM.LKEYS.KEYREL.PRED "_sinergético_a_rel" ]. sinfonismo_n1 := n_intr_uncount_le & [ STEM < "sinfonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinfonismo_n_rel" ] ]. sinfonista_n1 := n_intr_count_le & [ STEM < "sinfonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sinfonista_n_rel" ] ]. sinfonía_n1 := n_intr_count_le & [ STEM < "sinfonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinfonía_n_rel" ] ]. sinfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "sinfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_sinfónico_a_rel" ]. singapureño_n1 := n_intr_count_le & [ STEM < "singapureño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_singapureño_n_rel" ] ]. singladura_n1 := n_intr_count_le & [ STEM < "singladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_singladura_n_rel" ] ]. singular_a1 := a_qual_intr_ser_le & [ STEM < "singular" >, SYNSEM.LKEYS.KEYREL.PRED "_singular_a_rel" ]. singular_n1 := n_intr_count_le & [ STEM < "singular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_singular_n_rel" ] ]. singularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "singularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_singularidad_n_rel" ] ]. singularizar_v := v_pron_intr_mrkd_np*_le & [ STEM < "singularizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_singularizar_v_rel" ] ]. singularmente_x1 := av_i_spr_le & [ STEM < "singularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_singularmente_x_rel" ]. singénico_a1 := a_rel_nonprd_intr_le & [ STEM < "singénico" >, SYNSEM.LKEYS.KEYREL.PRED "_singénico_a_rel" ]. sinhalita_n1 := n_intr_count_le & [ STEM < "sinhalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sinhalita_n_rel" ] ]. siniestrado_a1 := a_rel_nonprd_intr_le & [ STEM < "siniestrado" >, SYNSEM.LKEYS.KEYREL.PRED "_siniestrado_a_rel" ]. siniestrado_n1 := n_intr_count_le & [ STEM < "siniestrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siniestrado_n_rel" ] ]. siniestralidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "siniestralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siniestralidad_n_rel" ] ]. siniestro_a1 := a_qual_intr_ser_le & [ STEM < "siniestro" >, SYNSEM.LKEYS.KEYREL.PRED "_siniestro_a_rel" ]. sinnúmero_n1 := n_intr_count_le & [ STEM < "sinnúmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinnúmero_n_rel" ] ]. sino_cc1 := cc_corr_sino-no+solo_le & [ STEM < "sino" > ]. sino_cc2 := cc_advers_sino_le & [ STEM < "sino" > ]. sino_que_cc := cc_advers_sino_que_le & [ STEM < "sino_que" > ]. sinoatrial_a1 := a_rel_nonprd_intr_le & [ STEM < "sinoatrial" >, SYNSEM.LKEYS.KEYREL.PRED "_sinoatrial_a_rel" ]. sinoauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "sinoauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_sinoauricular_a_rel" ]. sinoftalmía_n1 := n_intr_uncount_le & [ STEM < "sinoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinoftalmía_n_rel" ] ]. sinopsis_n1 := n_intr_count_le & [ STEM < "sinopsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_sinopsis_n_rel" ] ]. sinovia_n1 := n_intr_count_le & [ STEM < "sinovia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sinovia_n_rel" ] ]. sinovial_a1 := a_rel_nonprd_intr_le & [ STEM < "sinovial" >, SYNSEM.LKEYS.KEYREL.PRED "_sinovial_a_rel" ]. sinsabor_n1 := n_intr_count_le & [ STEM < "sinsabor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinsabor_n_rel" ] ]. sintagmático_a1 := a_rel_nonprd_intr_le & [ STEM < "sintagmático" >, SYNSEM.LKEYS.KEYREL.PRED "_sintagmático_a_rel" ]. sinterización_n1 := n_trans_le & [ STEM < "sinterización" >, SYNSEM.LKEYS.KEYREL.PRED "_sinterización_n_rel" ]. sinterizar_v1 := v_trans_np_le & [ STEM < "sinterizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sinterizar_v_rel" ]. sintetizador_n1 := n_intr_count_le & [ STEM < "sintetizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sintetizador_n_rel" ] ]. sintetizar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "sintetizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sintetizar_v_rel" ] ]. sintetizar_v2 := v_trans_np_le & [ STEM < "sintetizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sintetizar_v_rel" ]. sintomatología_n1 := n_intr_uncount_pl_le & [ STEM < "sintomatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintomatología_n_rel" ] ]. sintomáticamente_x1 := av_i_spr_le & [ STEM < "sintomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sintomáticamente_x_rel" ]. sintomático_a1 := a_qual_intr_ser_le & [ STEM < "sintomático" >, SYNSEM.LKEYS.KEYREL.PRED "_sintomático_a_rel" ]. sintonizabilidad_n1 := n_intr_uncount_le & [ STEM < "sintonizabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintonizabilidad_n_rel" ] ]. sintonizable_a1 := a_rel_prd_le & [ STEM < "sintonizable" >, SYNSEM.LKEYS.KEYREL.PRED "_sintonizable_a_rel" ]. sintonización_n1 := n_trans_le & [ STEM < "sintonización" >, SYNSEM.LKEYS.KEYREL.PRED "_sintonización_n_rel" ]. sintonizador_n1 := n_intr_count_le & [ STEM < "sintonizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sintonizador_n_rel" ] ]. sintonizar_v := v_trans_np_le & [ STEM < "sintonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sintonizar_v_rel" ]. sintonía_n1 := n_intr_mass_le & [ STEM < "sintonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintonía_n_rel" ] ]. sintácticamente_x1 := av_i_spr_le & [ STEM < "sintácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sintácticamente_x_rel" ]. sintáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "sintáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_sintáctico_a_rel" ]. sintéticamente_x1 := av_s_spr_le & [ STEM < "sintéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sintéticamente_x_rel" ]. sintético_a1 := a_rel_nonprd_intr_le & [ STEM < "sintético" >, SYNSEM.LKEYS.KEYREL.PRED "_sintético_a_rel" ]. sinuosamente_x1 := av_i_spr_le & [ STEM < "sinuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinuosamente_x_rel" ]. sinuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sinuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinuosidad_n_rel" ] ]. sinuoso_a1 := a_qual_intr_ser_le & [ STEM < "sinuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sinuoso_a_rel" ]. sinusoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "sinusoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_sinusoidal_a_rel" ]. sinusoide_a1 := a_rel_nonprd_intr_le & [ STEM < "sinusoide" >, SYNSEM.LKEYS.KEYREL.PRED "_sinusoide_a_rel" ]. sinvergüenza_n1 := n_intr_count_le & [ STEM < "sinvergüenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sinvergüenza_n_rel" ] ]. sinántropo_n1 := n_intr_count_le & [ STEM < "sinántropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sinántropo_n_rel" ] ]. sinápticamente_x1 := av_i_spr_le & [ STEM < "sinápticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinápticamente_x_rel" ]. sináptico_a1 := a_rel_nonprd_intr_le & [ STEM < "sináptico" >, SYNSEM.LKEYS.KEYREL.PRED "_sináptico_a_rel" ]. sinérgicamente_x1 := av_i_spr_le & [ STEM < "sinérgicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinérgicamente_x_rel" ]. sinérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "sinérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_sinérgico_a_rel" ]. sinónimamente_x1 := av_i_spr_le & [ STEM < "sinónimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sinónimamente_x_rel" ]. sinónimo_a1 := a_rel_nonprd_intr_le & [ STEM < "sinónimo" >, SYNSEM.LKEYS.KEYREL.PRED "_sinónimo_a_rel" ]. sinóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "sinóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_sinóptico_a_rel" ]. sionismo_n1 := n_intr_uncount_le & [ STEM < "sionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sionismo_n_rel" ] ]. sionista_a1 := a_rel_nonprd_intr_le & [ STEM < "sionista" >, SYNSEM.LKEYS.KEYREL.PRED "_sionista_a_rel" ]. sionista_n1 := n_intr_count_le & [ STEM < "sionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sionista_n_rel" ] ]. siquier_cc := cc_advers_siquier_le & [ STEM < "siquier" > ]. siquiera_cc1 := cc_advers_siquiera_le & [ STEM < "siquiera" > ]. siquiera_x1 := av_i_foc_psthd_le & [ STEM < "siquiera" >, SYNSEM.LKEYS.KEYREL.PRED "_siquiera_x_rel" ]. siquiera_x3 := av_i_np-foc_psthd_le & [ STEM < "siquiera" >, SYNSEM.LKEYS.KEYREL.PRED "_siquiera_x_rel" ]. siracusano_a1 := a_rel_prd_le & [ STEM < "siracusano" >, SYNSEM.LKEYS.KEYREL.PRED "_siracusano_a_rel" ]. siracusano_n1 := n_intr_count_le & [ STEM < "siracusano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siracusano_n_rel" ] ]. sirena_n1 := n_intr_count_le & [ STEM < "sirena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sirena_n_rel" ] ]. sirga_n1 := n_intr_count_le & [ STEM < "sirga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sirga_n_rel" ] ]. siriaco_n1 := n_intr_count_le & [ STEM < "siriaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_siriaco_n_rel" ] ]. siringa_n1 := n_intr_count_le & [ STEM < "siringa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_siringa_n_rel" ] ]. sirio_a1 := a_rel_prd_le & [ STEM < "sirio" >, SYNSEM.LKEYS.KEYREL.PRED "_sirio_a_rel" ]. sirio_n1 := n_intr_count_le & [ STEM < "sirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sirio_n_rel" ] ]. sirope_n1 := n_intr_mass_le & [ STEM < "sirope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sirope_n_rel" ] ]. sirosingopina_n1 := n_intr_count_le & [ STEM < "sirosingopina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sirosingopina_n_rel" ] ]. sirte_n1 := n_intr_count_le & [ STEM < "sirte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sirte_n_rel" ] ]. sirviente_n1 := n_intr_count_le & [ STEM < "sirviente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sirviente_n_rel" ] ]. sisa_n1 := n_intr_count_le & [ STEM < "sisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sisa_n_rel" ] ]. sisal_n1 := n_intr_count_le & [ STEM < "sisal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sisal_n_rel" ] ]. sismicidad_n1 := n_intr_uncount_le & [ STEM < "sismicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sismicidad_n_rel" ] ]. sismo_n1 := n_intr_count_le & [ STEM < "sismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sismo_n_rel" ] ]. sismografía_n1 := n_intr_uncount_pl_le & [ STEM < "sismografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sismografía_n_rel" ] ]. sismográficamente_x1 := av_i_spr_le & [ STEM < "sismográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sismográficamente_x_rel" ]. sismográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "sismográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_sismográfico_a_rel" ]. sismología_n1 := n_intr_uncount_le & [ STEM < "sismología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sismología_n_rel" ] ]. sismológico_a1 := a_rel_nonprd_intr_le & [ STEM < "sismológico" >, SYNSEM.LKEYS.KEYREL.PRED "_sismológico_a_rel" ]. sismoscopio_n1 := n_intr_count_le & [ STEM < "sismoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sismoscopio_n_rel" ] ]. sismógrafo_n1 := n_intr_count_le & [ STEM < "sismógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sismógrafo_n_rel" ] ]. sismólogo_n1 := n_intr_count_le & [ STEM < "sismólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sismólogo_n_rel" ] ]. sismómetro_n1 := n_intr_count_le & [ STEM < "sismómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sismómetro_n_rel" ] ]. sistema_n1 := n_intr_count_le & [ STEM < "sistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sistema_n_rel" ] ]. sistematización_n1 := n_trans_le & [ STEM < "sistematización" >, SYNSEM.LKEYS.KEYREL.PRED "_sistematización_n_rel" ]. sistematizar_v := v_trans_np_le & [ STEM < "sistematizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sistematizar_v_rel" ]. sistemáticamente_x1 := av_i_spr_le & [ STEM < "sistemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sistemáticamente_x_rel" ]. sistemático_a1 := a_qual_intr_ser_le & [ STEM < "sistemático" >, SYNSEM.LKEYS.KEYREL.PRED "_sistemático_a_rel" ]. sistémico_a1 := a_rel_nonprd_intr_le & [ STEM < "sistémico" >, SYNSEM.LKEYS.KEYREL.PRED "_sistémico_a_rel" ]. sistólico_a1 := a_rel_nonprd_intr_le & [ STEM < "sistólico" >, SYNSEM.LKEYS.KEYREL.PRED "_sistólico_a_rel" ]. sitar_n1 := n_intr_count_le & [ STEM < "sitar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sitar_n_rel" ] ]. sitiador_n1 := n_subj-nom_le & [ STEM < "sitiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sitiador_n_rel" ] ]. sitiar_v := v_trans_np_le & [ STEM < "sitiar" >, SYNSEM.LKEYS.KEYREL.PRED "_sitiar_v_rel" ]. sitio_n1 := n_intr_mass-or-count_le & [ STEM < "sitio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sitio_n_rel" ] ]. sitomanía_n1 := n_intr_uncount_le & [ STEM < "sitomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sitomanía_n_rel" ] ]. sitosterol_n1 := n_intr_count_le & [ STEM < "sitosterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sitosterol_n_rel" ] ]. situacional_a1 := a_rel_nonprd_intr_le & [ STEM < "situacional" >, SYNSEM.LKEYS.KEYREL.PRED "_situacional_a_rel" ]. situación_n1 := n_intr_count_le & [ STEM < "situación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_situación_n_rel" ] ]. situar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "situar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_situar_v_rel" ] ]. situar_v2 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "situar" >, SYNSEM.LKEYS.KEYREL.PRED "_situar_v_rel" ]. situar_v3 := v_trans_np_mrkd_np_le & [ STEM < "situar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_situar_v_rel" ] ]. siálico_a1 := a_rel_nonprd_intr_le & [ STEM < "siálico" >, SYNSEM.LKEYS.KEYREL.PRED "_siálico_a_rel" ]. skateboard_n1 := n_intr_count_le & [ STEM < "skateboard" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_skateboard_n_rel" ] ]. skiff_n1 := n_intr_count_le & [ STEM < "skiff" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_skiff_n_rel" ] ]. skiffista_n1 := n_intr_count_le & [ STEM < "skiffista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_skiffista_n_rel" ] ]. skin_n1 := n_intr_count_le & [ STEM < "skin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_skin_n_rel" ] ]. skip_n1 := n_intr_count_le & [ STEM < "skip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_skip_n_rel" ] ]. skuterudita_n1 := n_intr_count_le & [ STEM < "skuterudita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_skuterudita_n_rel" ] ]. slalom_n1 := n_intr_uncount_le & [ STEM < "slalom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_slalom_n_rel" ] ]. smithsonita_n1 := n_intr_count_le & [ STEM < "smithsonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_smithsonita_n_rel" ] ]. smoking_n1 := n_intr_count_le & [ STEM < "smoking" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_smoking_n_rel" ] ]. snob_n1 := n_intr_count_le & [ STEM < "snob" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_snob_n_rel" ] ]. so_p_vmod := p_vmod_le & [ STEM < "so" >, SYNSEM.LKEYS.KEYREL.PRED _so_p_rel ]. so_pena_de_p_vmod := p_vmod_le & [ STEM < "so_pena_de" >, SYNSEM.LKEYS.KEYREL.PRED _so_pena_de_p_rel ]. so_pena_que_sc := sc_prop_fin_le & [ STEM < "so_pena_que" >, SYNSEM.LKEYS.KEYREL.PRED "_so_pena_que_x_subord_rel" ]. sobaco_n1 := n_intr_count_le & [ STEM < "sobaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobaco_n_rel" ] ]. soberanamente_x1 := av_i_spr_le & [ STEM < "soberanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_soberanamente_x_rel" ]. soberano_a1 := a_rel_nonprd_intr_le & [ STEM < "soberano" >, SYNSEM.LKEYS.KEYREL.PRED "_soberano_a_rel" ]. soberano_n1 := n_intr_count_le & [ STEM < "soberano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soberano_n_rel" ] ]. soberanía_n1 := n_intr_uncount_pl_le & [ STEM < "soberanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soberanía_n_rel" ] ]. soberbiamente_x1 := av_i_spr_le & [ STEM < "soberbiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_soberbiamente_x_rel" ]. soberbio_a1 := a_qual_intr_ser_le & [ STEM < "soberbio" >, SYNSEM.LKEYS.KEYREL.PRED "_soberbio_a_rel" ]. sobordo_n1 := n_intr_count_le & [ STEM < "sobordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobordo_n_rel" ] ]. sobornable_a1 := a_rel_prd_le & [ STEM < "sobornable" >, SYNSEM.LKEYS.KEYREL.PRED "_sobornable_a_rel" ]. sobornador_n1 := n_subj-nom_le & [ STEM < "sobornador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sobornador_n_rel" ] ]. sobornar_v := v_trans_np_le & [ STEM < "sobornar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_sobornar_v_rel" ] ]. sobrante_a1 := a_rel_nonprd_intr_le & [ STEM < "sobrante" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrante_a_rel" ]. sobrar_v1 := v_intr_io*_le & [ STEM < "sobrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_sobrar_v_rel" ] ]. sobrar_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "sobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrar_v_rel" ]. sobrar_v3 := v_unacc_lcomp_loc*_le & [ STEM < "sobrar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrar_v_rel" ]. sobras_n1 := n_intr_count_le & [ STEM < "sobras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobras_n_rel" ] ]. sobrasada_n1 := n_intr_count_le & [ STEM < "sobrasada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrasada_n_rel" ] ]. sobre_manera_x1 := av_i_le & [ STEM < "sobre_manera" >, SYNSEM.LKEYS.KEYREL.PRED "_sobre_manera_x_rel" ]. sobre_mrk_np := p_mrk_np_le & [ STEM < "sobre" >, SYNSEM.LKEYS.KEYREL.PRED _sobre_p_sel_rel ]. sobre_n1 := n_intr_count_le & [ STEM < "sobre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobre_n_rel" ] ]. sobre_p_nmod := p_nmod_le & [ STEM < "sobre" >, SYNSEM.LKEYS.KEYREL.PRED _sobre_p_rel ]. sobre_p_temp_vmod := p_temp_vmod_le & [ STEM < "sobre" >, SYNSEM.LKEYS.KEYREL.PRED _sobre_p_temp_rel ]. sobre_p_vmod := p_vmod_le & [ STEM < "sobre" >, SYNSEM.LKEYS.KEYREL.PRED _sobre_p_rel ]. sobre_seguro_x1 := av_i_le & [ STEM < "sobre_seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_sobre_seguro_x_rel" ]. sobre_todo_x1 := av_i_foc_le & [ STEM < "sobre_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_sobre_todo_x_rel" ]. sobre_todo_x2 := av_s_cp_prop_le & [ STEM < "sobre_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_sobre_todo_x_rel" ]. sobre_todo_x3 := av_i_np-foc_le & [ STEM < "sobre_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_sobre_todo_x_rel" ]. sobrealimentación_n1 := n_trans_le & [ STEM < "sobrealimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrealimentación_n_rel" ]. sobrealimentador_n1 := n_intr_count_le & [ STEM < "sobrealimentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrealimentador_n_rel" ] ]. sobrealmacenamiento_n1 := n_intr_count_le & [ STEM < "sobrealmacenamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrealmacenamiento_n_rel" ] ]. sobreamortiguadamente_x1 := av_i_spr_le & [ STEM < "sobreamortiguadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreamortiguadamente_x_rel" ]. sobreaprendizaje_n1 := n_intr_uncount_le & [ STEM < "sobreaprendizaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreaprendizaje_n_rel" ] ]. sobrecalentador_n1 := n_intr_count_le & [ STEM < "sobrecalentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrecalentador_n_rel" ] ]. sobrecalentamiento_n1 := n_trans_le & [ STEM < "sobrecalentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecalentamiento_n_rel" ]. sobrecalentar_v := v_trans_np_caus_le & [ STEM < "sobrecalentar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecalentar_v_rel" ]. sobrecapitalización_n1 := n_intr_uncount_le & [ STEM < "sobrecapitalización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrecapitalización_n_rel" ] ]. sobrecargo_n1 := n_intr_count_le & [ STEM < "sobrecargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sobrecargo_n_rel" ] ]. sobrecincha_n1 := n_intr_count_le & [ STEM < "sobrecincha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrecincha_n_rel" ] ]. sobrecogedor_a1 := a_qual_intr_ser_le & [ STEM < "sobrecogedor" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecogedor_a_rel" ]. sobrecoger_v1 := v_intr_io*_le & [ STEM < "sobrecoger" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecoger_v_rel" ]. sobrecoger_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sobrecoger" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecoger_v_rel" ]. sobrecoger_v3 := v_trans_np_caus_le & [ STEM < "sobrecoger" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecoger_v_rel" ]. sobrecomisión_n1 := n_intr_count_le & [ STEM < "sobrecomisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrecomisión_n_rel" ] ]. sobrecompresión_n1 := n_trans_le & [ STEM < "sobrecompresión" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecompresión_n_rel" ]. sobrecontratación_n1 := n_trans_le & [ STEM < "sobrecontratación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrecontratación_n_rel" ]. sobrecubierta_n1 := n_intr_count_le & [ STEM < "sobrecubierta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrecubierta_n_rel" ] ]. sobredefinir_v := v_trans_np_le & [ STEM < "sobredefinir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobredefinir_v_rel" ]. sobredepreciación_n1 := n_trans_le & [ STEM < "sobredepreciación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobredepreciación_n_rel" ]. sobredeterminación_n1 := n_intr_uncount_le & [ STEM < "sobredeterminación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobredeterminación_n_rel" ] ]. sobredimensionamiento_n1 := n_trans_le & [ STEM < "sobredimensionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sobredimensionamiento_n_rel" ]. sobredosis_n1 := n_pseudo-part_le & [ STEM < "sobredosis" >, SYNSEM.LKEYS.KEYREL.PRED "_sobredosis_n_rel" ]. sobreelevación_n1 := n_intr_count_le & [ STEM < "sobreelevación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sobreelevación_n_rel" ] ]. sobreempeño_n1 := n_trans_le & [ STEM < "sobreempeño" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreempeño_n_rel" ]. sobreempleo_n1 := n_intr_uncount_pl_le & [ STEM < "sobreempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreempleo_n_rel" ] ]. sobreentender_v1 := v_trans_cp_prop_fin_le & [ STEM < "sobreentender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_sobreentender_v_rel" ] ]. sobreentender_v2 := v_trans_np_le & [ STEM < "sobreentender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_sobreentender_v_rel" ] ]. sobreentrenamiento_n1 := n_trans_le & [ STEM < "sobreentrenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreentrenamiento_n_rel" ]. sobreenvejecimiento_n1 := n_event-result_intr_le & [ STEM < "sobreenvejecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreenvejecimiento_n_rel" ]. sobreerupción_n1 := n_intr_count_le & [ STEM < "sobreerupción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreerupción_n_rel" ] ]. sobreescribible_a1 := a_rel_prd_le & [ STEM < "sobreescribible" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreescribible_a_rel" ]. sobreescribir_v := v_trans_np*_le & [ STEM < "sobreescribir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreescribir_v_rel" ]. sobreestimación_n1 := n_trans_le & [ STEM < "sobreestimación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreestimación_n_rel" ]. sobreestructura_n1 := n_intr_count_le & [ STEM < "sobreestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreestructura_n_rel" ] ]. sobreexcavación_n1 := n_trans_le & [ STEM < "sobreexcavación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreexcavación_n_rel" ]. sobreexcitación_n1 := n_trans_le & [ STEM < "sobreexcitación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreexcitación_n_rel" ]. sobreexpansión_n1 := n_trans_le & [ STEM < "sobreexpansión" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreexpansión_n_rel" ]. sobreexplotación_n1 := n_trans_le & [ STEM < "sobreexplotación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreexplotación_n_rel" ]. sobreexposición_n1 := n_result_intr_ppcomp_le & [ STEM < "sobreexposición" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_sobreexposición_n_rel" ] ]. sobrefacturación_n1 := n_trans_le & [ STEM < "sobrefacturación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrefacturación_n_rel" ]. sobrefusión_n1 := n_trans_le & [ STEM < "sobrefusión" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrefusión_n_rel" ]. sobregiro_n1 := n_intr_count_le & [ STEM < "sobregiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobregiro_n_rel" ] ]. sobrehumano_a1 := a_qual_intr_ser_le & [ STEM < "sobrehumano" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrehumano_a_rel" ]. sobreimposición_n1 := n_trans_le & [ STEM < "sobreimposición" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreimposición_n_rel" ]. sobreimpresión_n1 := n_trans_le & [ STEM < "sobreimpresión" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreimpresión_n_rel" ]. sobreinscripción_n1 := n_trans_le & [ STEM < "sobreinscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreinscripción_n_rel" ]. sobreintensidad_n1 := n_intr_uncount_le & [ STEM < "sobreintensidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreintensidad_n_rel" ] ]. sobreinterpretación_n1 := n_trans_le & [ STEM < "sobreinterpretación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreinterpretación_n_rel" ]. sobreinversión_n1 := n_result_intr_ppcomp_le & [ STEM < "sobreinversión" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_sobreinversión_n_rel" ] ]. sobrellevar_v := v_trans_np_le & [ STEM < "sobrellevar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrellevar_v_rel" ]. sobrelongitud_n1 := n_intr_uncount_pl_le & [ STEM < "sobrelongitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrelongitud_n_rel" ] ]. sobremedia_n1 := n_intr_count_le & [ STEM < "sobremedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobremedia_n_rel" ] ]. sobrenatural_a1 := a_qual_intr_ser_le & [ STEM < "sobrenatural" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrenatural_a_rel" ]. sobreocupación_n1 := n_intr_uncount_le & [ STEM < "sobreocupación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreocupación_n_rel" ] ]. sobrepasable_a1 := a_rel_nonprd_intr_le & [ STEM < "sobrepasable" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrepasable_a_rel" ]. sobrepasablemente_x1 := av_i_spr_le & [ STEM < "sobrepasablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrepasablemente_x_rel" ]. sobrepasar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "sobrepasar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrepasar_v_rel" ]. sobrepasar_v2 := v_trans_np_le & [ STEM < "sobrepasar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrepasar_v_rel" ]. sobrepelliz_n1 := n_intr_count_le & [ STEM < "sobrepelliz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobrepelliz_n_rel" ] ]. sobreperforación_n1 := n_trans_le & [ STEM < "sobreperforación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreperforación_n_rel" ]. sobreperforar_v := v_trans_np_le & [ STEM < "sobreperforar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreperforar_v_rel" ]. sobrepesca_n1 := n_intr_uncount_le & [ STEM < "sobrepesca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrepesca_n_rel" ] ]. sobrepotencia_n1 := n_intr_uncount_le & [ STEM < "sobrepotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrepotencia_n_rel" ] ]. sobrepresión_n1 := n_intr_mass_le & [ STEM < "sobrepresión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrepresión_n_rel" ] ]. sobreproducción_n1 := n_trans_le & [ STEM < "sobreproducción" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreproducción_n_rel" ]. sobreproporcionadamente_x1 := av_i_spr_le & [ STEM < "sobreproporcionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreproporcionadamente_x_rel" ]. sobrero_a1 := a_rel_nonprd_intr_le & [ STEM < "sobrero" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrero_a_rel" ]. sobresaliente_a1 := a_qual_intr_ser_le & [ STEM < "sobresaliente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaliente_a_rel" ]. sobresalir_v := v_unacc_lcomp_loc*_le & [ STEM < "sobresalir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresalir_v_rel" ]. sobresaltar_v1 := v_intr_io*_le & [ STEM < "sobresaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaltar_v_rel" ]. sobresaltar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "sobresaltar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_sobresaltar_v_rel" ] ] ]. sobresaltar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "sobresaltar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_sobresaltar_v_rel" ] ] ]. sobresaltar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sobresaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaltar_v_rel" ]. sobresaltar_v5 := v_trans_np_caus_le & [ STEM < "sobresaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaltar_v_rel" ]. sobresaturación_n1 := n_trans_le & [ STEM < "sobresaturación" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaturación_n_rel" ]. sobresaturadamente_x1 := av_i_spr_le & [ STEM < "sobresaturadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaturadamente_x_rel" ]. sobresaturar_v := v_trans_np_le & [ STEM < "sobresaturar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresaturar_v_rel" ]. sobrescritura_n1 := n_intr_count_le & [ STEM < "sobrescritura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrescritura_n_rel" ] ]. sobreseer_v := v_trans_np_le & [ STEM < "sobreseer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro_sem, PRED "_sobreseer_v_rel" ] ]. sobreseimiento_n1 := n_result_intr_le & [ STEM < "sobreseimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sobreseimiento_n_rel" ]. sobrestadía_n1 := n_intr_uncount_pl_le & [ STEM < "sobrestadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrestadía_n_rel" ] ]. sobrestante_n1 := n_intr_count_le & [ STEM < "sobrestante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sobrestante_n_rel" ] ]. sobresubvención_n1 := n_trans_le & [ STEM < "sobresubvención" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresubvención_n_rel" ]. sobresuscripción_n1 := n_trans_le & [ STEM < "sobresuscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresuscripción_n_rel" ]. sobretensión_n1 := n_intr_count_le & [ STEM < "sobretensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobretensión_n_rel" ] ]. sobretodo_n1 := n_intr_count_le & [ STEM < "sobretodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sobretodo_n_rel" ] ]. sobretorcer_v := v_trans_np_le & [ STEM < "sobretorcer" >, SYNSEM.LKEYS.KEYREL.PRED "_sobretorcer_v_rel" ]. sobrevalorar_v1 := v_pron_intr_le & [ STEM < "sobrevalorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_sobrevalorar_v_rel" ] ]. sobrevalorar_v2 := v_trans_cp_prop_fin_le & [ STEM < "sobrevalorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sobrevalorar_v_rel" ] ]. sobrevalorar_v3 := v_trans_np_le & [ STEM < "sobrevalorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_sobrevalorar_v_rel" ] ]. sobrevelocidad_n1 := n_intr_uncount_le & [ STEM < "sobrevelocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrevelocidad_n_rel" ] ]. sobrevenir_v1 := v_intr_io*_le & [ STEM < "sobrevenir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_sobrevenir_v_rel" ] ]. sobrevenir_v2 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "sobrevenir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrevenir_v_rel" ]. sobrevenir_v3 := v_unacc_perf_le & [ STEM < "sobrevenir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrevenir_v_rel" ]. sobreventa_n1 := n_intr_uncount_le & [ STEM < "sobreventa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreventa_n_rel" ] ]. sobrevivir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "sobrevivir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sobrevivir_v_rel" ] ]. sobrevivir_v2 := v_intr_mrkd_np_le & [ STEM < "sobrevivir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sobrevivir_v_rel" ] ]. sobrevivir_v3 := v_unacc_le & [ STEM < "sobrevivir" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrevivir_v_rel" ]. sobrevolar_v := v_trans_np_le & [ STEM < "sobrevolar" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrevolar_v_rel" ]. sobriamente_x1 := av_i_spr_le & [ STEM < "sobriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sobriamente_x_rel" ]. sobriedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sobriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobriedad_n_rel" ] ]. sobrino_a1 := a_adv_event_le & [ STEM < "sobrino" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrino_a_rel" ]. sobrino_n1 := n_intr_count_le & [ STEM < "sobrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sobrino_n_rel" ] ]. sobrio_a1 := a_qual_intr_ser_le & [ STEM < "sobrio" >, SYNSEM.LKEYS.KEYREL.PRED "_sobrio_a_rel" ]. socarrar_v := v_trans_np_caus_le & [ STEM < "socarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_socarrar_v_rel" ]. socarrena_n1 := n_intr_count_le & [ STEM < "socarrena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_socarrena_n_rel" ] ]. socarronamente_x1 := av_i_spr_le & [ STEM < "socarronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_socarronamente_x_rel" ]. socarronería_n1 := n_ppcomp_uncount_le & [ STEM < "socarronería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_socarronería_n_rel" ] ]. socarrón_a1 := a_rel_nonprd_intr_le & [ STEM < "socarrón" >, SYNSEM.LKEYS.KEYREL.PRED "_socarrón_a_rel" ]. socavación_n1 := n_trans_le & [ STEM < "socavación" >, SYNSEM.LKEYS.KEYREL.PRED "_socavación_n_rel" ]. socavar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "socavar" >, SYNSEM.LKEYS.KEYREL.PRED "_socavar_v_rel" ]. socavar_v2 := v_trans_np_le & [ STEM < "socavar" >, SYNSEM.LKEYS.KEYREL.PRED "_socavar_v_rel" ]. sociabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sociabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociabilidad_n_rel" ] ]. sociable_a1 := a_qual_intr_ser_le & [ STEM < "sociable" >, SYNSEM.LKEYS.KEYREL.PRED "_sociable_a_rel" ]. sociablemente_x1 := av_i_spr_le & [ STEM < "sociablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sociablemente_x_rel" ]. social_a1 := a_rel_nonprd_intr_le & [ STEM < "social" >, SYNSEM.LKEYS.KEYREL.PRED "_social_a_rel" ]. socialcristiano_n1 := n_intr_count_le & [ STEM < "socialcristiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_socialcristiano_n_rel" ] ]. socialdemocracia_n1 := n_intr_uncount_pl_le & [ STEM < "socialdemocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_socialdemocracia_n_rel" ] ]. socialdemocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "socialdemocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_socialdemocrático_a_rel" ]. socialdemócrata_a1 := a_rel_nonprd_intr_le & [ STEM < "socialdemócrata" >, SYNSEM.LKEYS.KEYREL.PRED "_socialdemócrata_a_rel" ]. socialdemócrata_n1 := n_intr_count_le & [ STEM < "socialdemócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_socialdemócrata_n_rel" ] ]. socialismo_n1 := n_intr_uncount_le & [ STEM < "socialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_socialismo_n_rel" ] ]. socialista_a1 := a_rel_nonprd_intr_le & [ STEM < "socialista" >, SYNSEM.LKEYS.KEYREL.PRED "_socialista_a_rel" ]. socialista_n1 := n_intr_count_le & [ STEM < "socialista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_socialista_n_rel" ] ]. socialización_n1 := n_trans_le & [ STEM < "socialización" >, SYNSEM.LKEYS.KEYREL.PRED "_socialización_n_rel" ]. socializante_a1 := a_rel_nonprd_intr_le & [ STEM < "socializante" >, SYNSEM.LKEYS.KEYREL.PRED "_socializante_a_rel" ]. socialmente_x1 := av_i_spr_le & [ STEM < "socialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_socialmente_x_rel" ]. sociedad_n1 := n_intr_count_le & [ STEM < "sociedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociedad_n_rel" ] ]. societario_a1 := a_rel_nonprd_intr_le & [ STEM < "societario" >, SYNSEM.LKEYS.KEYREL.PRED "_societario_a_rel" ]. socio-económico_a1 := a_rel_nonprd_intr_le & [ STEM < "socio-económico" >, SYNSEM.LKEYS.KEYREL.PRED "_socio-económico_a_rel" ]. socio_n1 := n_intr_count_le & [ STEM < "socio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_socio_n_rel" ] ]. sociobiología_n1 := n_intr_uncount_le & [ STEM < "sociobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociobiología_n_rel" ] ]. sociocultural_a1 := a_rel_nonprd_intr_le & [ STEM < "sociocultural" >, SYNSEM.LKEYS.KEYREL.PRED "_sociocultural_a_rel" ]. socioculturalmente_x1 := av_i_spr_le & [ STEM < "socioculturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_socioculturalmente_x_rel" ]. socioeconómico_a1 := a_rel_nonprd_intr_le & [ STEM < "socioeconómico" >, SYNSEM.LKEYS.KEYREL.PRED "_socioeconómico_a_rel" ]. sociografía_n1 := n_intr_uncount_le & [ STEM < "sociografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociografía_n_rel" ] ]. sociograma_n1 := n_intr_count_le & [ STEM < "sociograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sociograma_n_rel" ] ]. sociolaboral_a1 := a_rel_nonprd_intr_le & [ STEM < "sociolaboral" >, SYNSEM.LKEYS.KEYREL.PRED "_sociolaboral_a_rel" ]. sociolingã¼ístico_a1 := a_rel_nonprd_intr_le & [ STEM < "sociolingüístico" >, SYNSEM.LKEYS.KEYREL.PRED "_sociolingüístico_a_rel" ]. sociolingüista_n1 := n_intr_count_le & [ STEM < "sociolingüista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sociolingüista_n_rel" ] ]. sociolingüísticamente_x1 := av_i_spr_le & [ STEM < "sociolingüísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sociolingüísticamente_x_rel" ]. sociologismo_n1 := n_intr_uncount_le & [ STEM < "sociologismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociologismo_n_rel" ] ]. sociología_n1 := n_intr_uncount_le & [ STEM < "sociología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociología_n_rel" ] ]. sociológicamente_x1 := av_i_spr_le & [ STEM < "sociológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sociológicamente_x_rel" ]. sociológico_a1 := a_rel_nonprd_intr_le & [ STEM < "sociológico" >, SYNSEM.LKEYS.KEYREL.PRED "_sociológico_a_rel" ]. sociometría_n1 := n_intr_uncount_pl_le & [ STEM < "sociometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociometría_n_rel" ] ]. sociopolíticamente_x1 := av_i_spr_le & [ STEM < "sociopolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sociopolíticamente_x_rel" ]. sociopolítico_a1 := a_rel_nonprd_intr_le & [ STEM < "sociopolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_sociopolítico_a_rel" ]. sociopático_a1 := a_rel_nonprd_intr_le & [ STEM < "sociopático" >, SYNSEM.LKEYS.KEYREL.PRED "_sociopático_a_rel" ]. sociosanitario_a1 := a_rel_nonprd_intr_le & [ STEM < "sociosanitario" >, SYNSEM.LKEYS.KEYREL.PRED "_sociosanitario_a_rel" ]. sociólogo_n1 := n_intr_count_le & [ STEM < "sociólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sociólogo_n_rel" ] ]. socorrer_v := v_trans_np_le & [ STEM < "socorrer" >, SYNSEM.LKEYS.KEYREL.PRED "_socorrer_v_rel" ]. socorrismo_n1 := n_intr_uncount_le & [ STEM < "socorrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_socorrismo_n_rel" ] ]. socorrista_a1 := a_rel_nonprd_intr_le & [ STEM < "socorrista" >, SYNSEM.LKEYS.KEYREL.PRED "_socorrista_a_rel" ]. socorrista_n1 := n_intr_count_le & [ STEM < "socorrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_socorrista_n_rel" ] ]. socorro_n1 := n_intr_uncount_le & [ STEM < "socorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_socorro_n_rel" ] ]. soda_n1 := n_intr_mass_le & [ STEM < "soda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_soda_n_rel" ] ]. sodalita_n1 := n_intr_count_le & [ STEM < "sodalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sodalita_n_rel" ] ]. sodio_n1 := n_intr_mass_le & [ STEM < "sodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sodio_n_rel" ] ]. sodioacetato_n1 := n_intr_count_le & [ STEM < "sodioacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sodioacetato_n_rel" ] ]. sodomía_n1 := n_intr_uncount_le & [ STEM < "sodomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sodomía_n_rel" ] ]. soez_a1 := a_qual_intr_ser_le & [ STEM < "soez" >, SYNSEM.LKEYS.KEYREL.PRED "_soez_a_rel" ]. sofista_n1 := n_intr_count_le & [ STEM < "sofista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sofista_n_rel" ] ]. sofistería_n1 := n_intr_uncount_le & [ STEM < "sofistería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sofistería_n_rel" ] ]. sofisticación_n1 := n_trans_le & [ STEM < "sofisticación" >, SYNSEM.LKEYS.KEYREL.PRED "_sofisticación_n_rel" ]. sofisticadamente_x1 := av_i_spr_le & [ STEM < "sofisticadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sofisticadamente_x_rel" ]. sofito_n1 := n_intr_count_le & [ STEM < "sofito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sofito_n_rel" ] ]. sofocación_n1 := n_trans_le & [ STEM < "sofocación" >, SYNSEM.LKEYS.KEYREL.PRED "_sofocación_n_rel" ]. sofocante_a1 := a_qual_intr_ser_le & [ STEM < "sofocante" >, SYNSEM.LKEYS.KEYREL.PRED "_sofocante_a_rel" ]. sofocar_v1 := v_intr_io*_le & [ STEM < "sofocar" >, SYNSEM.LKEYS.KEYREL.PRED "_sofocar_v_rel" ]. sofocar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sofocar" >, SYNSEM.LKEYS.KEYREL.PRED "_sofocar_v_rel" ]. sofocar_v3 := v_trans_np_caus_le & [ STEM < "sofocar" >, SYNSEM.LKEYS.KEYREL.PRED "_sofocar_v_rel" ]. sofrito_n1 := n_intr_mass_le & [ STEM < "sofrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sofrito_n_rel" ] ]. software_n1 := n_intr_count_le & [ STEM < "software" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_software_n_rel" ] ]. sofá_n1 := n_intr_count_le & [ STEM < "sofá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sofá_n_rel" ] ]. sofístico_a1 := a_qual_intr_ser_le & [ STEM < "sofístico" >, SYNSEM.LKEYS.KEYREL.PRED "_sofístico_a_rel" ]. soga_n1 := n_intr_count_le & [ STEM < "soga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soga_n_rel" ] ]. soja_n1 := n_intr_mass_le & [ STEM < "soja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_soja_n_rel" ] ]. sol_n1 := n_intr_mass_le & [ STEM < "sol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sol_n_rel" ] ]. sol_n2 := n_intr_count_le & [ STEM < "sol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sol_n_rel" ] ]. solamente_x1 := av_i_foc_le & [ STEM < "solamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solamente_x_rel" ]. solamente_x2 := av_s_cp_prop_le & [ STEM < "solamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solamente_x_rel" ]. solamente_x3 := av_i_np-foc_le & [ STEM < "solamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solamente_x_rel" ]. solana_n1 := n_intr_count_le & [ STEM < "solana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_solana_n_rel" ] ]. solapa_n1 := n_intr_count_le & [ STEM < "solapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solapa_n_rel" ] ]. solapadamente_x1 := av_i_spr_le & [ STEM < "solapadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solapadamente_x_rel" ]. solapamiento_n1 := n_trans_le & [ STEM < "solapamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_solapamiento_n_rel" ]. solape_n1 := n_trans_le & [ STEM < "solape" >, SYNSEM.LKEYS.KEYREL.PRED "_solape_n_rel" ]. solapo_n1 := n_intr_count_le & [ STEM < "solapo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solapo_n_rel" ] ]. solar_a1 := a_rel_nonprd_intr_le & [ STEM < "solar" >, SYNSEM.LKEYS.KEYREL.PRED "_solar_a_rel" ]. solar_n1 := n_intr_count_le & [ STEM < "solar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_solar_n_rel" ] ]. solariego_a1 := a_rel_nonprd_intr_le & [ STEM < "solariego" >, SYNSEM.LKEYS.KEYREL.PRED "_solariego_a_rel" ]. solario_n1 := n_intr_count_le & [ STEM < "solario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_solario_n_rel" ] ]. solarium_n1 := n_intr_count_le & [ STEM < "solarium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_solarium_n_rel" ] ]. solazar_v1 := v_intr_io*_le & [ STEM < "solazar" >, SYNSEM.LKEYS.KEYREL.PRED "_solazar_v_rel" ]. solazar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "solazar" >, SYNSEM.LKEYS.KEYREL.PRED "_solazar_v_rel" ]. soldabilidad_n1 := n_intr_uncount_le & [ STEM < "soldabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soldabilidad_n_rel" ] ]. soldable_a1 := a_rel_nonprd_intr_le & [ STEM < "soldable" >, SYNSEM.LKEYS.KEYREL.PRED "_soldable_a_rel" ]. soldado_n1 := n_intr_count_le & [ STEM < "soldado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soldado_n_rel" ] ]. soldador_n1 := n_intr_count_le & [ STEM < "soldador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soldador_n_rel" ] ]. soldador_n2 := n_subj-nom_le & [ STEM < "soldador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soldador_n_rel" ] ]. soldadora_n1 := n_intr_count_le & [ STEM < "soldadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_soldadora_n_rel" ] ]. soldadura_n1 := n_trans_le & [ STEM < "soldadura" >, SYNSEM.LKEYS.KEYREL.PRED "_soldadura_n_rel" ]. soldeo_n1 := n_trans_le & [ STEM < "soldeo" >, SYNSEM.LKEYS.KEYREL.PRED "_soldeo_n_rel" ]. solecismo_n1 := n_intr_uncount_pl_le & [ STEM < "solecismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solecismo_n_rel" ] ]. soledad_n1 := n_intr_mass-or-count_le & [ STEM < "soledad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soledad_n_rel" ] ]. solemne_a1 := a_qual_intr_scopal_le & [ STEM < "solemne" >, SYNSEM.LKEYS.KEYREL.PRED "_solemne_a_rel" ]. solemnemente_x1 := av_i_spr_le & [ STEM < "solemnemente" >, SYNSEM.LKEYS.KEYREL.PRED "_solemnemente_x_rel" ]. solemnidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "solemnidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solemnidad_n_rel" ] ]. solemnizar_v := v_trans_np*_le & [ STEM < "solemnizar" >, SYNSEM.LKEYS.KEYREL.PRED "_solemnizar_v_rel" ]. solenoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "solenoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_solenoidal_a_rel" ]. solenoidalmente_x1 := av_i_spr_le & [ STEM < "solenoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_solenoidalmente_x_rel" ]. solenoide_n1 := n_intr_count_le & [ STEM < "solenoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solenoide_n_rel" ] ]. soler_v := v_ssr_le & [ STEM < "soler" >, SYNSEM.LKEYS.KEYREL.PRED "_soler_v_rel" ]. solera_n1 := n_intr_count_le & [ STEM < "solera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solera_n_rel" ] ]. solfeo_n1 := n_trans_le & [ STEM < "solfeo" >, SYNSEM.LKEYS.KEYREL.PRED "_solfeo_n_rel" ]. solicitación_n1 := n_trans_le & [ STEM < "solicitación" >, SYNSEM.LKEYS.KEYREL.PRED "_solicitación_n_rel" ]. solicitadamente_x1 := av_i_spr_le & [ STEM < "solicitadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solicitadamente_x_rel" ]. solicitante_n1 := n_intr_count_le & [ STEM < "solicitante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_solicitante_n_rel" ] ]. solicitar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "solicitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_solicitar_v_rel" ] ]. solicitar_v2 := v_ditrans*_le & [ STEM < "solicitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_solicitar_v_rel" ] ]. solicitar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "solicitar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_solicitar_v_rel" ] ]. solicitud_n1 := n_intr_count_le & [ STEM < "solicitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_solicitud_n_rel" ] ]. solidariamente_x1 := av_i_spr_le & [ STEM < "solidariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solidariamente_x_rel" ]. solidaridad_n1 := n_ppcomp_mass_le & [ STEM < "solidaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solidaridad_n_rel" ] ]. solidario_a1 := a_qual_intr_ser_le & [ STEM < "solidario" >, SYNSEM.LKEYS.KEYREL.PRED "_solidario_a_rel" ]. solidez_n1 := n_ppcomp_mass_le & [ STEM < "solidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solidez_n_rel" ] ]. solidificación_n1 := n_trans_le & [ STEM < "solidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_solidificación_n_rel" ]. solidificar_v := v_trans_np_caus_le & [ STEM < "solidificar" >, SYNSEM.LKEYS.KEYREL.PRED "_solidificar_v_rel" ]. solipsismo_n1 := n_intr_uncount_le & [ STEM < "solipsismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solipsismo_n_rel" ] ]. solista_n1 := n_intr_count_le & [ STEM < "solista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_solista_n_rel" ] ]. solitaria_n1 := n_intr_count_le & [ STEM < "solitaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_solitaria_n_rel" ] ]. solitariamente_x1 := av_i_spr_le & [ STEM < "solitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solitariamente_x_rel" ]. solitario_a1 := a_qual_intr_ser_le & [ STEM < "solitario" >, SYNSEM.LKEYS.KEYREL.PRED "_solitario_a_rel" ]. soliviantar_v1 := v_intr_io*_le & [ STEM < "soliviantar" >, SYNSEM.LKEYS.KEYREL.PRED "_soliviantar_v_rel" ]. soliviantar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "soliviantar" >, SYNSEM.LKEYS.KEYREL.PRED "_soliviantar_v_rel" ]. soliviantar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "soliviantar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_soc, PRED "_soliviantar_v_rel" ] ]. soliviantar_v4 := v_trans_np_le & [ STEM < "soliviantar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_soc, PRED "_soliviantar_v_rel" ] ]. sollado_n1 := n_intr_count_le & [ STEM < "sollado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sollado_n_rel" ] ]. solleta_n1 := n_intr_count_le & [ STEM < "solleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_solleta_n_rel" ] ]. sollozar_v := v_intr_le & [ STEM < "sollozar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_sollozar_v_rel" ] ]. sollozar_v1 := v_trans_cp_ques_le & [ STEM < "sollozar" >, SYNSEM.LKEYS.KEYREL.PRED "_sollozar_v_rel" ]. solo_a1 := a_qual_intr_estar_le & [ STEM < "solo" >, SYNSEM.LKEYS.KEYREL.PRED "_solo_a_rel" ]. solo_x1 := av_i_foc_le & [ STEM < "solo" >, SYNSEM.LKEYS.KEYREL.PRED "_solo_x_rel" ]. solo_x2 := av_s_cp_prop_le & [ STEM < "solo" >, SYNSEM.LKEYS.KEYREL.PRED "_solo_x_rel" ]. solo_x3 := av_i_np-foc_le & [ STEM < "solo" >, SYNSEM.LKEYS.KEYREL.PRED "_solo_x_rel" ]. solomillo_n1 := n_intr_mass_le & [ STEM < "solomillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solomillo_n_rel" ] ]. solsticio_n1 := n_intr_count_le & [ STEM < "solsticio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_solsticio_n_rel" ] ]. soltada_n1 := n_trans_le & [ STEM < "soltada" >, SYNSEM.LKEYS.KEYREL.PRED "_soltada_n_rel" ]. soltador_n1 := n_subj-nom_le & [ STEM < "soltador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soltador_n_rel" ] ]. soltar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "soltar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_soltar_v_rel" ] ]. soltar_v2 := v_ditrans*_le & [ STEM < "soltar" >, SYNSEM.LKEYS.KEYREL.PRED "_soltar_v_rel" ]. soltar_v3 := v_pron_intr_le & [ STEM < "soltar" >, SYNSEM.LKEYS.KEYREL.PRED "_soltar_v_rel" ]. soltero_a1 := a_qual_intr_ser_le & [ STEM < "soltero" >, SYNSEM.LKEYS.KEYREL.PRED "_soltero_a_rel" ]. soltero_n1 := n_intr_count_le & [ STEM < "soltero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soltero_n_rel" ] ]. soltería_n1 := n_intr_uncount_le & [ STEM < "soltería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soltería_n_rel" ] ]. solterón_n1 := n_intr_count_le & [ STEM < "solterón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_solterón_n_rel" ] ]. soltura_n1 := n_intr_uncount_le & [ STEM < "soltura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soltura_n_rel" ] ]. solubilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "solubilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solubilidad_n_rel" ] ]. solubilización_n1 := n_trans_le & [ STEM < "solubilización" >, SYNSEM.LKEYS.KEYREL.PRED "_solubilización_n_rel" ]. soluble_a1 := a_qual_intr_ser_le & [ STEM < "soluble" >, SYNSEM.LKEYS.KEYREL.PRED "_soluble_a_rel" ]. solucionable_a1 := a_rel_prd_le & [ STEM < "solucionable" >, SYNSEM.LKEYS.KEYREL.PRED "_solucionable_a_rel" ]. solucionar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "solucionar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_solucionar_v_rel" ] ]. solucionar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "solucionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_solucionar_v_rel" ] ] ]. solucionar_v3 := v_trans_np_mrkd_np_le & [ STEM < "solucionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_solucionar_v_rel" ] ]. solución_n1 := n_intr_count_le & [ STEM < "solución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_solución_n_rel" ] ]. solum_n1 := n_intr_count_le & [ STEM < "solum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_mat, PRED "_solum_n_rel" ] ]. soluto_n1 := n_intr_count_le & [ STEM < "soluto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_soluto_n_rel" ] ]. solvación_n1 := n_intr_uncount_le & [ STEM < "solvación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solvación_n_rel" ] ]. solvencia_n1 := n_ppcomp_mass_le & [ STEM < "solvencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solvencia_n_rel" ] ]. solventar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "solventar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_solventar_v_rel" ] ]. solventar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "solventar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_solventar_v_rel" ] ] ]. solventar_v3 := v_trans_np_mrkd_np_le & [ STEM < "solventar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_solventar_v_rel" ] ]. solvente_a1 := a_qual_intr_ser_le & [ STEM < "solvente" >, SYNSEM.LKEYS.KEYREL.PRED "_solvente_a_rel" ]. solvente_n1 := n_intr_count_le & [ STEM < "solvente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_solvente_n_rel" ] ]. solventemente_x1 := av_i_spr_le & [ STEM < "solventemente" >, SYNSEM.LKEYS.KEYREL.PRED "_solventemente_x_rel" ]. solárium_n1 := n_intr_count_le & [ STEM < "solárium" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_solárium_n_rel" ] ]. solícitamente_x1 := av_i_spr_le & [ STEM < "solícitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_solícitamente_x_rel" ]. solícito_a1 := a_qual_intr_ser_le & [ STEM < "solícito" >, SYNSEM.LKEYS.KEYREL.PRED "_solícito_a_rel" ]. solípedo_a1 := a_rel_nonprd_intr_le & [ STEM < "solípedo" >, SYNSEM.LKEYS.KEYREL.PRED "_solípedo_a_rel" ]. soma_n1 := n_intr_count_le & [ STEM < "soma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soma_n_rel" ] ]. somalí_a1 := a_rel_prd_le & [ STEM < "somalí" >, SYNSEM.LKEYS.KEYREL.PRED "_somalí_a_rel" ]. somalí_n1 := n_intr_count_le & [ STEM < "somalí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_somalí_n_rel" ] ]. somatización_n1 := n_trans_le & [ STEM < "somatización" >, SYNSEM.LKEYS.KEYREL.PRED "_somatización_n_rel" ]. somatometría_n1 := n_intr_uncount_pl_le & [ STEM < "somatometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_somatometría_n_rel" ] ]. somatoplástico_a1 := a_rel_nonprd_intr_le & [ STEM < "somatoplástico" >, SYNSEM.LKEYS.KEYREL.PRED "_somatoplástico_a_rel" ]. somatopsíquico_a1 := a_rel_nonprd_intr_le & [ STEM < "somatopsíquico" >, SYNSEM.LKEYS.KEYREL.PRED "_somatopsíquico_a_rel" ]. somatotropina_n1 := n_intr_count_le & [ STEM < "somatotropina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_somatotropina_n_rel" ] ]. sombra_n1 := n_intr_mass_le & [ STEM < "sombra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombra_n_rel" ] ]. sombreado_n1 := n_trans_le & [ STEM < "sombreado" >, SYNSEM.LKEYS.KEYREL.PRED "_sombreado_n_rel" ]. sombreador_n1 := n_intr_count_le & [ STEM < "sombreador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombreador_n_rel" ] ]. sombrera_n1 := n_intr_count_le & [ STEM < "sombrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombrera_n_rel" ] ]. sombrerera_n1 := n_intr_count_le & [ STEM < "sombrerera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombrerera_n_rel" ] ]. sombrerero_n1 := n_intr_count_le & [ STEM < "sombrerero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sombrerero_n_rel" ] ]. sombrerería_n1 := n_intr_count_le & [ STEM < "sombrerería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sombrerería_n_rel" ] ]. sombrero_n1 := n_intr_count_le & [ STEM < "sombrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombrero_n_rel" ] ]. sombrilla_n1 := n_intr_count_le & [ STEM < "sombrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sombrilla_n_rel" ] ]. sombríamente_x1 := av_i_spr_le & [ STEM < "sombríamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sombríamente_x_rel" ]. sombrío_a1 := a_qual_intr_ser_le & [ STEM < "sombrío" >, SYNSEM.LKEYS.KEYREL.PRED "_sombrío_a_rel" ]. someramente_x1 := av_i_spr_le & [ STEM < "someramente" >, SYNSEM.LKEYS.KEYREL.PRED "_someramente_x_rel" ]. somero_a1 := a_qual_intr_ser_le & [ STEM < "somero" >, SYNSEM.LKEYS.KEYREL.PRED "_somero_a_rel" ]. someter_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "someter" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_someter_v_rel" ] ]. someter_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "someter" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_someter_v_rel" ] ]. sometimiento_n1 := n_trans_le & [ STEM < "sometimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sometimiento_n_rel" ]. somier_n1 := n_intr_count_le & [ STEM < "somier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_somier_n_rel" ] ]. sommelier_n1 := n_intr_count_le & [ STEM < "sommelier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sommelier_n_rel" ] ]. somnambulismo_n1 := n_intr_uncount_le & [ STEM < "somnambulismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_somnambulismo_n_rel" ] ]. somnolencia_n1 := n_intr_mass_le & [ STEM < "somnolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_somnolencia_n_rel" ] ]. somnoliento_a1 := a_qual_intr_estar_le & [ STEM < "somnoliento" >, SYNSEM.LKEYS.KEYREL.PRED "_somnoliento_a_rel" ]. somnámbulo_n1 := n_intr_count_le & [ STEM < "somnámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_somnámbulo_n_rel" ] ]. somnífero_a1 := a_rel_nonprd_intr_le & [ STEM < "somnífero" >, SYNSEM.LKEYS.KEYREL.PRED "_somnífero_a_rel" ]. somormujo_n1 := n_intr_count_le & [ STEM < "somormujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_somormujo_n_rel" ] ]. somático_a1 := a_rel_nonprd_intr_le & [ STEM < "somático" >, SYNSEM.LKEYS.KEYREL.PRED "_somático_a_rel" ]. sonajero_n1 := n_intr_count_le & [ STEM < "sonajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonajero_n_rel" ] ]. sonambulismo_n1 := n_intr_uncount_le & [ STEM < "sonambulismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sonambulismo_n_rel" ] ]. sonante_n1 := n_intr_count_le & [ STEM < "sonante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonante_n_rel" ] ]. sonar_n1 := n_intr_count_le & [ STEM < "sonar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_sonar_n_rel" ] ]. sonda_n1 := n_intr_count_le & [ STEM < "sonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonda_n_rel" ] ]. sondador_n1 := n_intr_count_le & [ STEM < "sondador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sondador_n_rel" ] ]. sondaje_n1 := n_intr_count_le & [ STEM < "sondaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sondaje_n_rel" ] ]. sondar_v := v_trans_np_le & [ STEM < "sondar" >, SYNSEM.LKEYS.KEYREL.PRED "_sondar_v_rel" ]. sondeador_n1 := n_intr_count_le & [ STEM < "sondeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sondeador_n_rel" ] ]. sondear_v2 := v_trans_np_le & [ STEM < "sondear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_sondear_v_rel" ] ]. sondeo_n1 := n_trans_le & [ STEM < "sondeo" >, SYNSEM.LKEYS.KEYREL.PRED "_sondeo_n_rel" ]. sonetista_n1 := n_intr_count_le & [ STEM < "sonetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sonetista_n_rel" ] ]. sonido_n1 := n_intr_count_le & [ STEM < "sonido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonido_n_rel" ] ]. sonoramente_x1 := av_i_spr_le & [ STEM < "sonoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_sonoramente_x_rel" ]. sonoridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sonoridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sonoridad_n_rel" ] ]. sonorización_n1 := n_trans_le & [ STEM < "sonorización" >, SYNSEM.LKEYS.KEYREL.PRED "_sonorización_n_rel" ]. sonorizar_v := v_trans_np_le & [ STEM < "sonorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_sonorizar_v_rel" ]. sonoro_a1 := a_rel_nonprd_intr_le & [ STEM < "sonoro" >, SYNSEM.LKEYS.KEYREL.PRED "_sonoro_a_rel" ]. sonreã­r_v := v_intr_io*_le & [ STEM < "sonreír" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum, PRED "_sonreír_v_rel" ] ]. sonriente_a1 := a_qual_intr_ser_le & [ STEM < "sonriente" >, SYNSEM.LKEYS.KEYREL.PRED "_sonriente_a_rel" ]. sonrojar_v1 := v_intr_io*_le & [ STEM < "sonrojar" >, SYNSEM.LKEYS.KEYREL.PRED "_sonrojar_v_rel" ]. sonrojar_v2 := v_pron_intr_le & [ STEM < "sonrojar" >, SYNSEM.LKEYS.KEYREL.PRED "_sonrojar_v_rel" ]. sonrojar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sonrojar" >, SYNSEM.LKEYS.KEYREL.PRED "_sonrojar_v_rel" ]. sonsacar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "sonsacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sonsacar_v_rel" ] ]. sonsacar_v2 := v_ditrans*_le & [ STEM < "sonsacar" >, SYNSEM.LKEYS.KEYREL.PRED "_sonsacar_v_rel" ]. sonso_n1 := n_intr_count_le & [ STEM < "sonso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sonso_n_rel" ] ]. sonámbulo_n1 := n_intr_count_le & [ STEM < "sonámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sonámbulo_n_rel" ] ]. sonógrafo_n1 := n_intr_count_le & [ STEM < "sonógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonógrafo_n_rel" ] ]. sonómetro_n1 := n_intr_count_le & [ STEM < "sonómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sonómetro_n_rel" ] ]. sopa_n1 := n_intr_mass-or-count_le & [ STEM < "sopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sopa_n_rel" ] ]. sopera_n1 := n_intr_count_le & [ STEM < "sopera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sopera_n_rel" ] ]. sopero_a1 := a_rel_nonprd_intr_le & [ STEM < "sopero" >, SYNSEM.LKEYS.KEYREL.PRED "_sopero_a_rel" ]. sopesar_v := v_trans_np_le & [ STEM < "sopesar" >, SYNSEM.LKEYS.KEYREL.PRED "_sopesar_v_rel" ]. sopladero_n1 := n_intr_count_le & [ STEM < "sopladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sopladero_n_rel" ] ]. soplado_n1 := n_trans_le & [ STEM < "soplado" >, SYNSEM.LKEYS.KEYREL.PRED "_soplado_n_rel" ]. soplado_n2 := n_result_intr_le & [ STEM < "soplado" >, SYNSEM.LKEYS.KEYREL.PRED "_soplado_n_rel" ]. soplador_a1 := a_rel_nonprd_intr_le & [ STEM < "soplador" >, SYNSEM.LKEYS.KEYREL.PRED "_soplador_a_rel" ]. soplador_n1 := n_intr_count_le & [ STEM < "soplador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_soplador_n_rel" ] ]. sopladura_n1 := n_trans_le & [ STEM < "sopladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sopladura_n_rel" ] ]. soplante_n1 := n_intr_count_le & [ STEM < "soplante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soplante_n_rel" ] ]. soplar_v1 := v_intr_le & [ STEM < "soplar" >, SYNSEM.LKEYS.KEYREL.PRED "_soplar_v_rel" ]. soplar_v2 := v_trans_np*_le & [ STEM < "soplar" >, SYNSEM.LKEYS.KEYREL.PRED "_soplar_v_rel" ]. soplete_n1 := n_intr_count_le & [ STEM < "soplete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soplete_n_rel" ] ]. soplido_n1 := n_result_intr_le & [ STEM < "soplido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soplido_n_rel" ] ]. soplillo_n1 := n_intr_count_le & [ STEM < "soplillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soplillo_n_rel" ] ]. soplo_n1 := n_intr_count_le & [ STEM < "soplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soplo_n_rel" ] ]. soplón_n1 := n_intr_count_le & [ STEM < "soplón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soplón_n_rel" ] ]. sopor_n1 := n_intr_mass_le & [ STEM < "sopor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sopor_n_rel" ] ]. soportable_a1 := a_rel_prd_le & [ STEM < "soportable" >, SYNSEM.LKEYS.KEYREL.PRED "_soportable_a_rel" ]. soportal_n1 := n_intr_count_le & [ STEM < "soportal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_soportal_n_rel" ] ]. soportalibros_n1 := n_intr_count_le & [ STEM < "soportalibros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soportalibros_n_rel" ] ]. soportar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "soportar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_soportar_v_rel" ] ]. soportar_v2 := v_trans_np_le & [ STEM < "soportar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_soportar_v_rel" ] ]. soporte_n1 := n_result_intr_ppcomp_le & [ STEM < "soporte" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_soporte_n_rel" ] ]. soporífero_a1 := a_rel_nonprd_intr_le & [ STEM < "soporífero" >, SYNSEM.LKEYS.KEYREL.PRED "_soporífero_a_rel" ]. soprano_n1 := n_intr_count_le & [ STEM < "soprano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soprano_n_rel" ] ]. sorber_v := v_trans_np_le & [ STEM < "sorber" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_sorber_v_rel" ] ]. sorbita_n1 := n_intr_count_le & [ STEM < "sorbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sorbita_n_rel" ] ]. sorbitol_n1 := n_intr_count_le & [ STEM < "sorbitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sorbitol_n_rel" ] ]. sorbosa_n1 := n_intr_count_le & [ STEM < "sorbosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sorbosa_n_rel" ] ]. sorbítico_a1 := a_rel_nonprd_intr_le & [ STEM < "sorbítico" >, SYNSEM.LKEYS.KEYREL.PRED "_sorbítico_a_rel" ]. sordera_n1 := n_intr_uncount_pl_le & [ STEM < "sordera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sordera_n_rel" ] ]. sordez_n1 := n_ppcomp_uncount_le & [ STEM < "sordez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sordez_n_rel" ] ]. sordidez_n1 := n_ppcomp_uncount_le & [ STEM < "sordidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sordidez_n_rel" ] ]. sordina_n1 := n_intr_count_le & [ STEM < "sordina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sordina_n_rel" ] ]. sordo_a1 := a_qual_intr_ser_le & [ STEM < "sordo" >, SYNSEM.LKEYS.KEYREL.PRED "_sordo_a_rel" ]. sordo_n1 := n_intr_count_le & [ STEM < "sordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sordo_n_rel" ] ]. sordomudez_n1 := n_ppcomp_uncount_le & [ STEM < "sordomudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sordomudez_n_rel" ] ]. sordomudo_n1 := n_intr_count_le & [ STEM < "sordomudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sordomudo_n_rel" ] ]. sorgo_n1 := n_intr_count_le & [ STEM < "sorgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sorgo_n_rel" ] ]. soriano_a1 := a_rel_prd_le & [ STEM < "soriano" >, SYNSEM.LKEYS.KEYREL.PRED "_soriano_a_rel" ]. soriano_n1 := n_intr_count_le & [ STEM < "soriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soriano_n_rel" ] ]. sororal_a1 := a_rel_nonprd_intr_le & [ STEM < "sororal" >, SYNSEM.LKEYS.KEYREL.PRED "_sororal_a_rel" ]. sorosilicato_n1 := n_intr_count_le & [ STEM < "sorosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sorosilicato_n_rel" ] ]. sorprendente_a1 := a_qual_intr_ser_le & [ STEM < "sorprendente" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprendente_a_rel" ]. sorprendentemente_x1 := av_s_spr_le & [ STEM < "sorprendentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprendentemente_x_rel" ]. sorprender_v1 := v_intr_io*_le & [ STEM < "sorprender" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprender_v_rel" ]. sorprender_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sorprender" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprender_v_rel" ]. sorprender_v3 := v_trans_np_le & [ STEM < "sorprender" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprender_v_rel" ]. sorprender_v4 := v_osr_ger_le & [ STEM < "sorprender" >, SYNSEM.LKEYS.KEYREL.PRED "_sorprender_v_rel" ]. sorpresivo_a1 := a_qual_intr_ser_le & [ STEM < "sorpresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sorpresivo_a_rel" ]. sortear_v := v_trans_np_le & [ STEM < "sortear" >, SYNSEM.LKEYS.KEYREL.PRED "_sortear_v_rel" ]. sorteo_n1 := n_trans_le & [ STEM < "sorteo" >, SYNSEM.LKEYS.KEYREL.PRED "_sorteo_n_rel" ]. sortija_n1 := n_intr_count_le & [ STEM < "sortija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sortija_n_rel" ] ]. sosa_n1 := n_intr_mass_le & [ STEM < "sosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sosa_n_rel" ] ]. sosamente_x1 := av_i_spr_le & [ STEM < "sosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sosamente_x_rel" ]. sosegadamente_x1 := av_i_spr_le & [ STEM < "sosegadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sosegadamente_x_rel" ]. sosegar_v1 := v_intr_io*_le & [ STEM < "sosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_sosegar_v_rel" ]. sosegar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_sosegar_v_rel" ]. sosegar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "sosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_sosegar_v_rel" ]. sosegar_v4 := v_trans_np_caus_le & [ STEM < "sosegar" >, SYNSEM.LKEYS.KEYREL.PRED "_sosegar_v_rel" ]. soslayar_v := v_trans_np_le & [ STEM < "soslayar" >, SYNSEM.LKEYS.KEYREL.PRED "_soslayar_v_rel" ]. soso_a1 := a_qual_intr_ser_le & [ STEM < "soso" >, SYNSEM.LKEYS.KEYREL.PRED "_soso_a_rel" ]. sospechar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "sospechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_sospechar_v_rel" ] ] ]. sospechar_v2 := v_intr_mrkd_np_le & [ STEM < "sospechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_ani_soc, PRED "_sospechar_v_rel" ] ] ]. sospechar_v3 := v_trans_cp_prop_fin_le & [ STEM < "sospechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_sospechar_v_rel" ] ]. sospechar_v4 := v_trans_np*_le & [ STEM < "sospechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_sospechar_v_rel" ] ]. sospechosamente_x1 := av_i_spr_le & [ STEM < "sospechosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sospechosamente_x_rel" ]. sospechoso_a1 := a_qual_intr_ser_le & [ STEM < "sospechoso" >, SYNSEM.LKEYS.KEYREL.PRED "_sospechoso_a_rel" ]. sostener_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "sostener" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sostener_v_rel" ] ]. sostener_v2 := v_ditrans*_le & [ STEM < "sostener" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_sostener_v_rel" ] ]. sostener_v3 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "sostener" >, SYNSEM.LKEYS.KEYREL.PRED "_sostener_v_rel" ]. sostener_v4 := v_trans_np_le & [ STEM < "sostener" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_sostener_v_rel" ] ]. sostener_v5 := v_trans_np_le & [ STEM < "sostener" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, ARG2.SORT non-hum, PRED "_sostener_v_rel" ] ]. sostener_v6 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "sostener" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_sostener_v_rel" ] ] ]. sostener_v7 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "sostener" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_sostener_v_rel" ] ] ]. sostener_v8 := v_trans_np*_mrkd_np_le & [ STEM < "sostener" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, ARG3.SORT non-hum, PRED "_sostener_v_rel" ] ] ]. sostenibilidad_n1 := n_intr_uncount_le & [ STEM < "sostenibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sostenibilidad_n_rel" ] ]. sostenible_a1 := a_qual_intr_ser_le & [ STEM < "sostenible" >, SYNSEM.LKEYS.KEYREL.PRED "_sostenible_a_rel" ]. sostenido_n1 := n_intr_count_le & [ STEM < "sostenido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sostenido_n_rel" ] ]. sostenimiento_n1 := n_trans_le & [ STEM < "sostenimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sostenimiento_n_rel" ]. sostén_n1 := n_intr_count_le & [ STEM < "sostén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sostén_n_rel" ] ]. sota_n1 := n_intr_count_le & [ STEM < "sota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sota_n_rel" ] ]. sotabarba_n1 := n_ppcomp_count_le & [ STEM < "sotabarba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_sotabarba_n_rel" ] ]. sotabatán_n1 := n_intr_count_le & [ STEM < "sotabatán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sotabatán_n_rel" ] ]. sotacarda_n1 := n_intr_mass_le & [ STEM < "sotacarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sotacarda_n_rel" ] ]. sotalia_n1 := n_intr_count_le & [ STEM < "sotalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sotalia_n_rel" ] ]. sotana_n1 := n_intr_count_le & [ STEM < "sotana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sotana_n_rel" ] ]. sotavento_n1 := n_intr_count_le & [ STEM < "sotavento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sotavento_n_rel" ] ]. soterramiento_n1 := n_trans_le & [ STEM < "soterramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_soterramiento_n_rel" ]. soterrar_v := v_trans_np_le & [ STEM < "soterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_soterrar_v_rel" ]. sotomonte_n1 := n_intr_count_le & [ STEM < "sotomonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sotomonte_n_rel" ] ]. soufflé_n1 := n_intr_mass_le & [ STEM < "soufflé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_soufflé_n_rel" ] ]. soviético_a1 := a_rel_prd_le & [ STEM < "soviético" >, SYNSEM.LKEYS.KEYREL.PRED "_soviético_a_rel" ]. soviético_n1 := n_intr_count_le & [ STEM < "soviético" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soviético_n_rel" ] ]. sovjós_n1 := n_intr_count_le & [ STEM < "sovjós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_sovjós_n_rel" ] ]. soñador_a1 := a_qual_intr_ser_le & [ STEM < "soñador" >, SYNSEM.LKEYS.KEYREL.PRED "_soñador_a_rel" ]. soñador_n1 := n_subj-nom_le & [ STEM < "soñador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_soñador_n_rel" ] ]. soñar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "soñar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_soñar_v_rel" ] ] ]. soñar_v2 := v_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "soñar" >, SYNSEM.LKEYS [ --COMPKEY con_sel_or_indp_rel, KEYREL.PRED "_soñar_v_rel" ] ]. soñar_v3 := v_intr_mrkd_np_le & [ STEM < "soñar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_soñar_v_rel" ] ] ]. soñar_v4 := v_trans_np_le & [ STEM < "soñar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_soñar_v_rel" ] ]. spaghetti_n1 := n_intr_mass_le & [ STEM < "spaghetti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_spaghetti_n_rel" ] ]. speaker_n1 := n_intr_count_le & [ STEM < "speaker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_speaker_n_rel" ] ]. speos_n1 := n_intr_count_le & [ STEM < "speos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_speos_n_rel" ] ]. spinnaker_n1 := n_intr_count_le & [ STEM < "spinnaker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_spinnaker_n_rel" ] ]. sponsor_n1 := n_intr_count_le & [ STEM < "sponsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sponsor_n_rel" ] ]. spool_n1 := n_intr_count_le & [ STEM < "spool" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_spool_n_rel" ] ]. spot_n1 := n_intr_count_le & [ STEM < "spot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_spot_n_rel" ] ]. spray_n1 := n_intr_count_le & [ STEM < "spray" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_spray_n_rel" ] ]. sprinter_n1 := n_intr_count_le & [ STEM < "sprinter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sprinter_n_rel" ] ]. spí_n1 := n_intr_count_le & [ STEM < "spí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_spí_n_rel" ] ]. squash_n1 := n_intr_uncount_le & [ STEM < "squash" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_squash_n_rel" ] ]. squatter_n1 := n_intr_count_le & [ STEM < "squatter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_squatter_n_rel" ] ]. stand_n1 := n_intr_count_le & [ STEM < "stand" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_stand_n_rel" ] ]. starter_n1 := n_intr_count_le & [ STEM < "starter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_starter_n_rel" ] ]. stayer_n1 := n_intr_count_le & [ STEM < "stayer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_stayer_n_rel" ] ]. stichtita_n1 := n_intr_count_le & [ STEM < "stichtita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_stichtita_n_rel" ] ]. stick_n1 := n_intr_count_le & [ STEM < "stick" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_stick_n_rel" ] ]. stigmómetro_n1 := n_intr_count_le & [ STEM < "stigmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_stigmómetro_n_rel" ] ]. stilb_n := n_intr_count_le & [ STEM < "stilb" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_stilb_n_rel" ] ]. stock_n1 := n_intr_mass_le & [ STEM < "stock" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_stock_n_rel" ] ]. su_d := d_poss_su_le & [ STEM < "su" > ]. suabio_n1 := n_intr_count_le & [ STEM < "suabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suabio_n_rel" ] ]. suahili_a1 := a_rel_prd_le & [ STEM < "suahili" >, SYNSEM.LKEYS.KEYREL.PRED "_suahili_a_rel" ]. suahili_n1 := n_intr_count_le & [ STEM < "suahili" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_suahili_n_rel" ] ]. suave_a1 := a_qual_intr_ser_le & [ STEM < "suave" >, SYNSEM.LKEYS.KEYREL.PRED "_suave_a_rel" ]. suavemente_x1 := av_i_spr_le & [ STEM < "suavemente" >, SYNSEM.LKEYS.KEYREL.PRED "_suavemente_x_rel" ]. suavidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "suavidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suavidad_n_rel" ] ]. suavización_n1 := n_trans_le & [ STEM < "suavización" >, SYNSEM.LKEYS.KEYREL.PRED "_suavización_n_rel" ]. suavizador_a1 := a_rel_nonprd_intr_le & [ STEM < "suavizador" >, SYNSEM.LKEYS.KEYREL.PRED "_suavizador_a_rel" ]. suavizante_n1 := n_intr_count_le & [ STEM < "suavizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suavizante_n_rel" ] ]. suavizar_v := v_trans_np_le & [ STEM < "suavizar" >, SYNSEM.LKEYS.KEYREL.PRED "_suavizar_v_rel" ]. sub_voce_x1 := av_i_le & [ STEM < "sub_voce" >, SYNSEM.LKEYS.KEYREL.PRED "_sub_voce_x_rel" ]. subacromial_a1 := a_rel_nonprd_intr_le & [ STEM < "subacromial" >, SYNSEM.LKEYS.KEYREL.PRED "_subacromial_a_rel" ]. subacuático_a1 := a_rel_nonprd_intr_le & [ STEM < "subacuático" >, SYNSEM.LKEYS.KEYREL.PRED "_subacuático_a_rel" ]. subagente_n1 := n_intr_count_le & [ STEM < "subagente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subagente_n_rel" ] ]. subalina_n1 := n_intr_count_le & [ STEM < "subalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subalina_n_rel" ] ]. subalpino_a1 := a_rel_nonprd_intr_le & [ STEM < "subalpino" >, SYNSEM.LKEYS.KEYREL.PRED "_subalpino_a_rel" ]. subalterno_n1 := n_intr_count_le & [ STEM < "subalterno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subalterno_n_rel" ] ]. subanillo_n1 := n_intr_count_le & [ STEM < "subanillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_subanillo_n_rel" ] ]. subaracnoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "subaracnoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_subaracnoideo_a_rel" ]. subarmónicamente_x1 := av_i_spr_le & [ STEM < "subarmónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subarmónicamente_x_rel" ]. subarmónico_a1 := a_rel_nonprd_intr_le & [ STEM < "subarmónico" >, SYNSEM.LKEYS.KEYREL.PRED "_subarmónico_a_rel" ]. subarrendador_n1 := n_subj-nom_le & [ STEM < "subarrendador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subarrendador_n_rel" ] ]. subarrendamiento_n1 := n_trans_le & [ STEM < "subarrendamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_subarrendamiento_n_rel" ]. subarrendatario_n1 := n_intr_count_le & [ STEM < "subarrendatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subarrendatario_n_rel" ] ]. subasociación_n1 := n_intr_count_le & [ STEM < "subasociación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_subasociación_n_rel" ] ]. subasta_n1 := n_trans_le & [ STEM < "subasta" >, SYNSEM.LKEYS.KEYREL.PRED "_subasta_n_rel" ]. subastador_n1 := n_subj-nom_le & [ STEM < "subastador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subastador_n_rel" ] ]. subastar_v := v_trans_np_le & [ STEM < "subastar" >, SYNSEM.LKEYS.KEYREL.PRED "_subastar_v_rel" ]. subastragalino_a1 := a_rel_nonprd_intr_le & [ STEM < "subastragalino" >, SYNSEM.LKEYS.KEYREL.PRED "_subastragalino_a_rel" ]. subatmosféricamente_x1 := av_i_spr_le & [ STEM < "subatmosféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subatmosféricamente_x_rel" ]. subatmosférico_a1 := a_rel_nonprd_intr_le & [ STEM < "subatmosférico" >, SYNSEM.LKEYS.KEYREL.PRED "_subatmosférico_a_rel" ]. subatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "subatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_subatómico_a_rel" ]. subcadena_n1 := n_intr_count_le & [ STEM < "subcadena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_subcadena_n_rel" ] ]. subcalloso_a1 := a_rel_nonprd_intr_le & [ STEM < "subcalloso" >, SYNSEM.LKEYS.KEYREL.PRED "_subcalloso_a_rel" ]. subcampeón_n1 := n_intr_count_le & [ STEM < "subcampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subcampeón_n_rel" ] ]. subcampo_n1 := n_intr_count_le & [ STEM < "subcampo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subcampo_n_rel" ] ]. subcanal_n1 := n_intr_count_le & [ STEM < "subcanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subcanal_n_rel" ] ]. subcapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "subcapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_subcapilar_a_rel" ]. subcapsular_a1 := a_rel_nonprd_intr_le & [ STEM < "subcapsular" >, SYNSEM.LKEYS.KEYREL.PRED "_subcapsular_a_rel" ]. subcarbonato_n1 := n_intr_count_le & [ STEM < "subcarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_subcarbonato_n_rel" ] ]. subcategorización_n1 := n_trans_le & [ STEM < "subcategorización" >, SYNSEM.LKEYS.KEYREL.PRED "_subcategorización_n_rel" ]. subcategoría_n1 := n_intr_count_le & [ STEM < "subcategoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcategoría_n_rel" ] ]. subcatálogo_n1 := n_intr_count_le & [ STEM < "subcatálogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subcatálogo_n_rel" ] ]. subcero_n1 := n_intr_count_le & [ STEM < "subcero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcero_n_rel" ] ]. subclavio_a1 := a_rel_nonprd_intr_le & [ STEM < "subclavio" >, SYNSEM.LKEYS.KEYREL.PRED "_subclavio_a_rel" ]. subclán_n1 := n_intr_count_le & [ STEM < "subclán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_subclán_n_rel" ] ]. subcomando_n1 := n_intr_count_le & [ STEM < "subcomando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_subcomando_n_rel" ] ]. subcomisario_n1 := n_intr_count_le & [ STEM < "subcomisario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subcomisario_n_rel" ] ]. subcomisural_a1 := a_rel_nonprd_intr_le & [ STEM < "subcomisural" >, SYNSEM.LKEYS.KEYREL.PRED "_subcomisural_a_rel" ]. subcomité_n1 := n_intr_count_le & [ STEM < "subcomité" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_subcomité_n_rel" ] ]. subconciencia_n1 := n_intr_uncount_pl_le & [ STEM < "subconciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subconciencia_n_rel" ] ]. subcondición_n1 := n_intr_count_le & [ STEM < "subcondición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcondición_n_rel" ] ]. subcondíleo_a1 := a_rel_nonprd_intr_le & [ STEM < "subcondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_subcondíleo_a_rel" ]. subconjunto_n1 := n_group_le & [ STEM < "subconjunto" >, SYNSEM.LKEYS.KEYREL.PRED "_subconjunto_n_rel" ]. subconsciente_a1 := a_qual_trans*_estar_le & [ STEM < "subconsciente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_subconsciente_a_rel" ] ]. subconscientemente_x1 := av_i_spr_le & [ STEM < "subconscientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_subconscientemente_x_rel" ]. subconsola_n1 := n_intr_count_le & [ STEM < "subconsola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subconsola_n_rel" ] ]. subcontratación_n1 := n_trans_le & [ STEM < "subcontratación" >, SYNSEM.LKEYS.KEYREL.PRED "_subcontratación_n_rel" ]. subcontratar_v := v_trans_np_le & [ STEM < "subcontratar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc_hum_pro_soc, PRED "_subcontratar_v_rel" ] ]. subcontratista_n1 := n_intr_count_le & [ STEM < "subcontratista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subcontratista_n_rel" ] ]. subcontrato_n1 := n_intr_count_le & [ STEM < "subcontrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcontrato_n_rel" ] ]. subcostal_a1 := a_rel_nonprd_intr_le & [ STEM < "subcostal" >, SYNSEM.LKEYS.KEYREL.PRED "_subcostal_a_rel" ]. subcríticamente_x1 := av_i_spr_le & [ STEM < "subcríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subcríticamente_x_rel" ]. subcrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "subcrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_subcrítico_a_rel" ]. subcuerpo_n1 := n_intr_count_le & [ STEM < "subcuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_subcuerpo_n_rel" ] ]. subcultura_n1 := n_intr_count_le & [ STEM < "subcultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcultura_n_rel" ] ]. subcutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "subcutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_subcutáneo_a_rel" ]. subdelegado_n1 := n_intr_count_le & [ STEM < "subdelegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subdelegado_n_rel" ] ]. subdeltoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "subdeltoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_subdeltoideo_a_rel" ]. subdentario_a1 := a_rel_nonprd_intr_le & [ STEM < "subdentario" >, SYNSEM.LKEYS.KEYREL.PRED "_subdentario_a_rel" ]. subdesarrollado_a1 := a_rel_nonprd_intr_le & [ STEM < "subdesarrollado" >, SYNSEM.LKEYS.KEYREL.PRED "_subdesarrollado_a_rel" ]. subdesarrollo_n1 := n_trans_le & [ STEM < "subdesarrollo" >, SYNSEM.LKEYS.KEYREL.PRED "_subdesarrollo_n_rel" ]. subdesértico_a1 := a_rel_nonprd_intr_le & [ STEM < "subdesértico" >, SYNSEM.LKEYS.KEYREL.PRED "_subdesértico_a_rel" ]. subdirección_n1 := n_intr_count_le & [ STEM < "subdirección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_subdirección_n_rel" ] ]. subdirector_n1 := n_subj-nom_le & [ STEM < "subdirector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subdirector_n_rel" ] ]. subdirectorio_n1 := n_intr_count_le & [ STEM < "subdirectorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subdirectorio_n_rel" ] ]. subdivisión_n1 := n_trans_le & [ STEM < "subdivisión" >, SYNSEM.LKEYS.KEYREL.PRED "_subdivisión_n_rel" ]. subdominante_a1 := a_rel_nonprd_intr_le & [ STEM < "subdominante" >, SYNSEM.LKEYS.KEYREL.PRED "_subdominante_a_rel" ]. subducción_n1 := n_trans_le & [ STEM < "subducción" >, SYNSEM.LKEYS.KEYREL.PRED "_subducción_n_rel" ]. subdural_a1 := a_rel_nonprd_intr_le & [ STEM < "subdural" >, SYNSEM.LKEYS.KEYREL.PRED "_subdural_a_rel" ]. subejecución_n1 := n_trans_le & [ STEM < "subejecución" >, SYNSEM.LKEYS.KEYREL.PRED "_subejecución_n_rel" ]. subempleo_n1 := n_trans_le & [ STEM < "subempleo" >, SYNSEM.LKEYS.KEYREL.PRED "_subempleo_n_rel" ]. subenfiteusis_n1 := n_intr_count_le & [ STEM < "subenfiteusis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_subenfiteusis_n_rel" ] ]. suberificación_n1 := n_event-result_intr_le & [ STEM < "suberificación" >, SYNSEM.LKEYS.KEYREL.PRED "_suberificación_n_rel" ]. suberina_n1 := n_intr_count_le & [ STEM < "suberina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suberina_n_rel" ] ]. subescapular_a1 := a_rel_nonprd_intr_le & [ STEM < "subescapular" >, SYNSEM.LKEYS.KEYREL.PRED "_subescapular_a_rel" ]. subespacio_n1 := n_intr_count_le & [ STEM < "subespacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subespacio_n_rel" ] ]. subespinal_a1 := a_rel_nonprd_intr_le & [ STEM < "subespinal" >, SYNSEM.LKEYS.KEYREL.PRED "_subespinal_a_rel" ]. subestación_n1 := n_intr_count_le & [ STEM < "subestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subestación_n_rel" ] ]. subestimación_n1 := n_trans_le & [ STEM < "subestimación" >, SYNSEM.LKEYS.KEYREL.PRED "_subestimación_n_rel" ]. subestimar_v := v_trans_np_le & [ STEM < "subestimar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_subestimar_v_rel" ] ]. subexposición_n1 := n_trans_le & [ STEM < "subexposición" >, SYNSEM.LKEYS.KEYREL.PRED "_subexposición_n_rel" ]. subfacturación_n1 := n_trans_le & [ STEM < "subfacturación" >, SYNSEM.LKEYS.KEYREL.PRED "_subfacturación_n_rel" ]. subfamilia_n1 := n_intr_count_le & [ STEM < "subfamilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_subfamilia_n_rel" ] ]. subfibra_n1 := n_intr_count_le & [ STEM < "subfibra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subfibra_n_rel" ] ]. subfletador_n1 := n_intr_count_le & [ STEM < "subfletador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_subfletador_n_rel" ] ]. subfletamiento_n1 := n_trans_le & [ STEM < "subfletamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_subfletamiento_n_rel" ]. subfrénico_a1 := a_rel_nonprd_intr_le & [ STEM < "subfrénico" >, SYNSEM.LKEYS.KEYREL.PRED "_subfrénico_a_rel" ]. subfunción_n1 := n_intr_count_le & [ STEM < "subfunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subfunción_n_rel" ] ]. subfundir_v := v_trans_np_le & [ STEM < "subfundir" >, SYNSEM.LKEYS.KEYREL.PRED "_subfundir_v_rel" ]. subfusil_n1 := n_intr_count_le & [ STEM < "subfusil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subfusil_n_rel" ] ]. subfusión_n1 := n_trans_le & [ STEM < "subfusión" >, SYNSEM.LKEYS.KEYREL.PRED "_subfusión_n_rel" ]. subfósil_a1 := a_rel_nonprd_intr_le & [ STEM < "subfósil" >, SYNSEM.LKEYS.KEYREL.PRED "_subfósil_a_rel" ]. subgalato_n1 := n_intr_count_le & [ STEM < "subgalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_subgalato_n_rel" ] ]. subgarante_n1 := n_intr_count_le & [ STEM < "subgarante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subgarante_n_rel" ] ]. subgingival_a1 := a_rel_nonprd_intr_le & [ STEM < "subgingival" >, SYNSEM.LKEYS.KEYREL.PRED "_subgingival_a_rel" ]. subglotis_n1 := n_ppcomp_count_le & [ STEM < "subglotis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_subglotis_n_rel" ] ]. subglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "subglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_subglótico_a_rel" ]. subgrano_n1 := n_intr_count_le & [ STEM < "subgrano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subgrano_n_rel" ] ]. subgrupo_n1 := n_group_le & [ STEM < "subgrupo" >, SYNSEM.LKEYS.KEYREL.PRED "_subgrupo_n_rel" ]. subhepático_a1 := a_rel_nonprd_intr_le & [ STEM < "subhepático" >, SYNSEM.LKEYS.KEYREL.PRED "_subhepático_a_rel" ]. subida_n1 := n_intr_count_le & [ STEM < "subida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_subida_n_rel" ] ]. subida_n2 := n_event-result_intr_le & [ STEM < "subida" >, SYNSEM.LKEYS.KEYREL.PRED "_subida_n_rel" ]. subidentificación_n1 := n_trans_le & [ STEM < "subidentificación" >, SYNSEM.LKEYS.KEYREL.PRED "_subidentificación_n_rel" ]. subilarc_n1 := n_intr_count_le & [ STEM < "subilarc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subilarc_n_rel" ] ]. subincisión_n1 := n_intr_count_le & [ STEM < "subincisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subincisión_n_rel" ] ]. subinquilino_n1 := n_intr_count_le & [ STEM < "subinquilino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subinquilino_n_rel" ] ]. subinspector_n1 := n_subj-nom_le & [ STEM < "subinspector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subinspector_n_rel" ] ]. subinversión_n1 := n_result_intr_ppcomp_le & [ STEM < "subinversión" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_subinversión_n_rel" ] ]. subir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "subir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_subir_v_rel" ] ] ]. subir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "subir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_subir_v_rel" ] ] ]. subir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "subir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_subir_v_rel" ] ]. subir_v4 := v_unacc_lcomp_dir*_perf_le & [ STEM < "subir" >, SYNSEM.LKEYS.KEYREL.PRED "_subir_v_rel" ]. subirrigación_n1 := n_trans_le & [ STEM < "subirrigación" >, SYNSEM.LKEYS.KEYREL.PRED "_subirrigación_n_rel" ]. subjefe_n1 := n_intr_count_le & [ STEM < "subjefe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subjefe_n_rel" ] ]. subjetivamente_x1 := av_i_spr_le & [ STEM < "subjetivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subjetivamente_x_rel" ]. subjetividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "subjetividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subjetividad_n_rel" ] ]. subjetivismo_n1 := n_intr_uncount_le & [ STEM < "subjetivismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subjetivismo_n_rel" ] ]. subjetivo_a1 := a_qual_intr_ser_le & [ STEM < "subjetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_subjetivo_a_rel" ]. subjunción_n1 := n_intr_count_le & [ STEM < "subjunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subjunción_n_rel" ] ]. subjunta_n1 := n_intr_count_le & [ STEM < "subjunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subjunta_n_rel" ] ]. subjuntivo_a1 := a_rel_nonprd_intr_le & [ STEM < "subjuntivo" >, SYNSEM.LKEYS.KEYREL.PRED "_subjuntivo_a_rel" ]. sublegado_n1 := n_intr_count_le & [ STEM < "sublegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sublegado_n_rel" ] ]. sublevación_n1 := n_trans_le & [ STEM < "sublevación" >, SYNSEM.LKEYS.KEYREL.PRED "_sublevación_n_rel" ]. sublevar_v1 := v_intr_io*_le & [ STEM < "sublevar" >, SYNSEM.LKEYS.KEYREL.PRED "_sublevar_v_rel" ]. sublevar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "sublevar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_sublevar_v_rel" ] ]. sublevar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sublevar" >, SYNSEM.LKEYS.KEYREL.PRED "_sublevar_v_rel" ]. sublicencia_n1 := n_intr_count_le & [ STEM < "sublicencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sublicencia_n_rel" ] ]. sublimación_n1 := n_trans_le & [ STEM < "sublimación" >, SYNSEM.LKEYS.KEYREL.PRED "_sublimación_n_rel" ]. sublimado_n1 := n_intr_count_le & [ STEM < "sublimado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sublimado_n_rel" ] ]. sublimar_v := v_trans_np_le & [ STEM < "sublimar" >, SYNSEM.LKEYS.KEYREL.PRED "_sublimar_v_rel" ]. sublime_a1 := a_qual_intr_ser_le & [ STEM < "sublime" >, SYNSEM.LKEYS.KEYREL.PRED "_sublime_a_rel" ]. sublimemente_x1 := av_i_spr_le & [ STEM < "sublimemente" >, SYNSEM.LKEYS.KEYREL.PRED "_sublimemente_x_rel" ]. sublimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sublimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sublimidad_n_rel" ] ]. subliminal_a1 := a_rel_nonprd_intr_le & [ STEM < "subliminal" >, SYNSEM.LKEYS.KEYREL.PRED "_subliminal_a_rel" ]. sublingual_a1 := a_rel_nonprd_intr_le & [ STEM < "sublingual" >, SYNSEM.LKEYS.KEYREL.PRED "_sublingual_a_rel" ]. sublista_n1 := n_intr_count_le & [ STEM < "sublista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_sublista_n_rel" ] ]. subluxación_n1 := n_intr_uncount_le & [ STEM < "subluxación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subluxación_n_rel" ] ]. submandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "submandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_submandibular_a_rel" ]. submarinismo_n1 := n_intr_uncount_le & [ STEM < "submarinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submarinismo_n_rel" ] ]. submarinista_n1 := n_intr_count_le & [ STEM < "submarinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_submarinista_n_rel" ] ]. submarino_a1 := a_rel_nonprd_intr_le & [ STEM < "submarino" >, SYNSEM.LKEYS.KEYREL.PRED "_submarino_a_rel" ]. submarino_n1 := n_intr_count_le & [ STEM < "submarino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_submarino_n_rel" ] ]. submaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "submaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_submaxilar_a_rel" ]. submensaje_n1 := n_intr_count_le & [ STEM < "submensaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submensaje_n_rel" ] ]. submentoniano_a1 := a_rel_nonprd_intr_le & [ STEM < "submentoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_submentoniano_a_rel" ]. submenú_n1 := n_intr_count_le & [ STEM < "submenú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_submenú_n_rel" ] ]. submetacéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "submetacéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_submetacéntrico_a_rel" ]. submicroestructura_n1 := n_intr_count_le & [ STEM < "submicroestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submicroestructura_n_rel" ] ]. submicrosoma_n1 := n_intr_count_le & [ STEM < "submicrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_submicrosoma_n_rel" ] ]. submicrón_n := n_intr_count_le & [ STEM < "submicrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_submicrón_n_rel" ] ]. submucoso_a1 := a_rel_nonprd_intr_le & [ STEM < "submucoso" >, SYNSEM.LKEYS.KEYREL.PRED "_submucoso_a_rel" ]. submódulo_n1 := n_intr_count_le & [ STEM < "submódulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_submódulo_n_rel" ] ]. subnasal_a1 := a_rel_nonprd_intr_le & [ STEM < "subnasal" >, SYNSEM.LKEYS.KEYREL.PRED "_subnasal_a_rel" ]. subnitrato_n1 := n_intr_count_le & [ STEM < "subnitrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_subnitrato_n_rel" ] ]. subnormal_a1 := a_qual_intr_ser_le & [ STEM < "subnormal" >, SYNSEM.LKEYS.KEYREL.PRED "_subnormal_a_rel" ]. subnormal_n1 := n_intr_count_le & [ STEM < "subnormal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subnormal_n_rel" ] ]. subnúmero_n1 := n_intr_count_le & [ STEM < "subnúmero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subnúmero_n_rel" ] ]. suboccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "suboccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_suboccipital_a_rel" ]. subocupación_n1 := n_trans_le & [ STEM < "subocupación" >, SYNSEM.LKEYS.KEYREL.PRED "_subocupación_n_rel" ]. suboficial_n1 := n_intr_count_le & [ STEM < "suboficial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suboficial_n_rel" ] ]. suboptimización_n1 := n_trans_le & [ STEM < "suboptimización" >, SYNSEM.LKEYS.KEYREL.PRED "_suboptimización_n_rel" ]. suborbitario_a1 := a_rel_nonprd_intr_le & [ STEM < "suborbitario" >, SYNSEM.LKEYS.KEYREL.PRED "_suborbitario_a_rel" ]. subordinación_n1 := n_intr_mass_le & [ STEM < "subordinación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subordinación_n_rel" ] ]. subordinadamente_x1 := av_i_spr_le & [ STEM < "subordinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subordinadamente_x_rel" ]. subordinado_n1 := n_intr_count_le & [ STEM < "subordinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subordinado_n_rel" ] ]. subordinante_a1 := a_rel_nonprd_intr_le & [ STEM < "subordinante" >, SYNSEM.LKEYS.KEYREL.PRED "_subordinante_a_rel" ]. subparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "subparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_subparietal_a_rel" ]. subperforación_n1 := n_trans_le & [ STEM < "subperforación" >, SYNSEM.LKEYS.KEYREL.PRED "_subperforación_n_rel" ]. subperitoneal_a1 := a_rel_nonprd_intr_le & [ STEM < "subperitoneal" >, SYNSEM.LKEYS.KEYREL.PRED "_subperitoneal_a_rel" ]. subperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "subperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_subperióstico_a_rel" ]. subpilórico_a1 := a_rel_nonprd_intr_le & [ STEM < "subpilórico" >, SYNSEM.LKEYS.KEYREL.PRED "_subpilórico_a_rel" ]. subpoblación_n1 := n_trans_le & [ STEM < "subpoblación" >, SYNSEM.LKEYS.KEYREL.PRED "_subpoblación_n_rel" ]. subpolar_a1 := a_rel_nonprd_intr_le & [ STEM < "subpolar" >, SYNSEM.LKEYS.KEYREL.PRED "_subpolar_a_rel" ]. subpoplíteo_a1 := a_rel_nonprd_intr_le & [ STEM < "subpoplíteo" >, SYNSEM.LKEYS.KEYREL.PRED "_subpoplíteo_a_rel" ]. subportadora_n1 := n_intr_count_le & [ STEM < "subportadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subportadora_n_rel" ] ]. subposición_n1 := n_intr_count_le & [ STEM < "subposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subposición_n_rel" ] ]. subpresión_n1 := n_trans_le & [ STEM < "subpresión" >, SYNSEM.LKEYS.KEYREL.PRED "_subpresión_n_rel" ]. subprestatario_n1 := n_intr_count_le & [ STEM < "subprestatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subprestatario_n_rel" ] ]. subproducto_n1 := n_intr_count_le & [ STEM < "subproducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subproducto_n_rel" ] ]. subpubiano_a1 := a_rel_nonprd_intr_le & [ STEM < "subpubiano" >, SYNSEM.LKEYS.KEYREL.PRED "_subpubiano_a_rel" ]. subrayado_n1 := n_trans_le & [ STEM < "subrayado" >, SYNSEM.LKEYS.KEYREL.PRED "_subrayado_n_rel" ]. subrayar_v1 := v_trans_cp_prop_fin_le & [ STEM < "subrayar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_subrayar_v_rel" ] ]. subrayar_v2 := v_trans_np_le & [ STEM < "subrayar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_subrayar_v_rel" ] ]. subrayar_v3 := v_trans_np_le & [ STEM < "subrayar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, ARG2.SORT abs_cnc_sem, PRED "_subrayar_v_rel" ] ]. subred_n1 := n_intr_count_le & [ STEM < "subred" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subred_n_rel" ] ]. subregión_n1 := n_intr_count_le & [ STEM < "subregión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subregión_n_rel" ] ]. subrepción_n1 := n_intr_uncount_le & [ STEM < "subrepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subrepción_n_rel" ] ]. subrepticio_a1 := a_qual_intr_ser_le & [ STEM < "subrepticio" >, SYNSEM.LKEYS.KEYREL.PRED "_subrepticio_a_rel" ]. subrogación_n1 := n_trans_le & [ STEM < "subrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_subrogación_n_rel" ]. subrogar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "subrogar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_por_p_sel_rel, KEYREL.PRED "_subrogar_v_rel" ] ]. subrubro_n1 := n_intr_count_le & [ STEM < "subrubro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subrubro_n_rel" ] ]. subrutina_n1 := n_intr_count_le & [ STEM < "subrutina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subrutina_n_rel" ] ]. subsanable_a1 := a_rel_prd_le & [ STEM < "subsanable" >, SYNSEM.LKEYS.KEYREL.PRED "_subsanable_a_rel" ]. subsanación_n1 := n_trans_le & [ STEM < "subsanación" >, SYNSEM.LKEYS.KEYREL.PRED "_subsanación_n_rel" ]. subsanar_v := v_trans_np_le & [ STEM < "subsanar" >, SYNSEM.LKEYS.KEYREL.PRED "_subsanar_v_rel" ]. subscripción_n1 := n_trans_le & [ STEM < "subscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_subscripción_n_rel" ]. subsección_n1 := n_intr_count_le & [ STEM < "subsección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsección_n_rel" ] ]. subsecretario_n1 := n_intr_count_le & [ STEM < "subsecretario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subsecretario_n_rel" ] ]. subsecuente_a1 := a_rel_nonprd_intr_le & [ STEM < "subsecuente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsecuente_a_rel" ]. subsecuentemente_x1 := av_i_spr_le & [ STEM < "subsecuentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsecuentemente_x_rel" ]. subserosa_n1 := n_intr_count_le & [ STEM < "subserosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subserosa_n_rel" ] ]. subseroso_a1 := a_rel_nonprd_intr_le & [ STEM < "subseroso" >, SYNSEM.LKEYS.KEYREL.PRED "_subseroso_a_rel" ]. subsidencia_n1 := n_intr_uncount_pl_le & [ STEM < "subsidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsidencia_n_rel" ] ]. subsidiar_v := v_trans_np_le & [ STEM < "subsidiar" >, SYNSEM.LKEYS.KEYREL.PRED "_subsidiar_v_rel" ]. subsidiariedad_n1 := n_ppcomp_uncount_le & [ STEM < "subsidiariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsidiariedad_n_rel" ] ]. subsidiario_a1 := a_rel_nonprd_intr_le & [ STEM < "subsidiario" >, SYNSEM.LKEYS.KEYREL.PRED "_subsidiario_a_rel" ]. subsiguiente_a1 := a_adv_event_le & [ STEM < "subsiguiente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsiguiente_a_rel" ]. subsistencia_n1 := n_intr_uncount_le & [ STEM < "subsistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsistencia_n_rel" ] ]. subsistente_a1 := a_rel_nonprd_intr_le & [ STEM < "subsistente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsistente_a_rel" ]. subsistir_v := v_unacc_le & [ STEM < "subsistir" >, SYNSEM.LKEYS.KEYREL.PRED "_subsistir_v_rel" ]. subsolador_n1 := n_intr_count_le & [ STEM < "subsolador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subsolador_n_rel" ] ]. substancia_n1 := n_intr_mass_le & [ STEM < "substancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_substancia_n_rel" ] ]. substanciación_n1 := n_trans_le & [ STEM < "substanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_substanciación_n_rel" ]. substancial_a1 := a_qual_intr_ser_le & [ STEM < "substancial" >, SYNSEM.LKEYS.KEYREL.PRED "_substancial_a_rel" ]. substancialidad_n1 := n_intr_uncount_le & [ STEM < "substancialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_substancialidad_n_rel" ] ]. substanciar_v := v_trans_np_le & [ STEM < "substanciar" >, SYNSEM.LKEYS.KEYREL.PRED "_substanciar_v_rel" ]. substantivo_a1 := a_rel_nonprd_intr_le & [ STEM < "substantivo" >, SYNSEM.LKEYS.KEYREL.PRED "_substantivo_a_rel" ]. substitución_n1 := n_result_intr_ppcomp_le & [ STEM < "substitución" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_substitución_n_rel" ] ]. substituir_v := v_trans_np_mrkd_np*_le & [ STEM < "substituir" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_substituir_v_rel" ] ]. substitutivamente_x1 := av_i_spr_le & [ STEM < "substitutivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_substitutivamente_x_rel" ]. substitutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "substitutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_substitutivo_a_rel" ]. substituto_n1 := n_intr_count_le & [ STEM < "substituto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_substituto_n_rel" ] ]. substitutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "substitutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_substitutorio_a_rel" ]. substracción_n1 := n_trans_le & [ STEM < "substracción" >, SYNSEM.LKEYS.KEYREL.PRED "_substracción_n_rel" ]. substractivamente_x1 := av_i_spr_le & [ STEM < "substractivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_substractivamente_x_rel" ]. substractivo_a1 := a_rel_nonprd_intr_le & [ STEM < "substractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_substractivo_a_rel" ]. substrato_n1 := n_intr_mass-or-count_le & [ STEM < "substrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_substrato_n_rel" ] ]. subsucesión_n1 := n_trans_le & [ STEM < "subsucesión" >, SYNSEM.LKEYS.KEYREL.PRED "_subsucesión_n_rel" ]. subsunción_n1 := n_trans_le & [ STEM < "subsunción" >, SYNSEM.LKEYS.KEYREL.PRED "_subsunción_n_rel" ]. subsuperficial_a1 := a_rel_nonprd_intr_le & [ STEM < "subsuperficial" >, SYNSEM.LKEYS.KEYREL.PRED "_subsuperficial_a_rel" ]. subsíncronamente_x1 := av_i_spr_le & [ STEM < "subsíncronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsíncronamente_x_rel" ]. subsíncrono_a1 := a_rel_nonprd_intr_le & [ STEM < "subsíncrono" >, SYNSEM.LKEYS.KEYREL.PRED "_subsíncrono_a_rel" ]. subsónicamente_x1 := av_i_spr_le & [ STEM < "subsónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subsónicamente_x_rel" ]. subsónico_a1 := a_rel_nonprd_intr_le & [ STEM < "subsónico" >, SYNSEM.LKEYS.KEYREL.PRED "_subsónico_a_rel" ]. subtalámico_a1 := a_rel_nonprd_intr_le & [ STEM < "subtalámico" >, SYNSEM.LKEYS.KEYREL.PRED "_subtalámico_a_rel" ]. subtechumbre_n1 := n_intr_count_le & [ STEM < "subtechumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_subtechumbre_n_rel" ] ]. subtender_v := v_trans_np_le & [ STEM < "subtender" >, SYNSEM.LKEYS.KEYREL.PRED "_subtender_v_rel" ]. subtendinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "subtendinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_subtendinoso_a_rel" ]. subtensión_n1 := n_intr_count_le & [ STEM < "subtensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtensión_n_rel" ] ]. subteoría_n1 := n_intr_count_le & [ STEM < "subteoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subteoría_n_rel" ] ]. subterráneamente_x1 := av_i_le & [ STEM < "subterráneamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subterráneamente_x_rel" ]. subterráneo_a1 := a_rel_nonprd_intr_le & [ STEM < "subterráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_subterráneo_a_rel" ]. subtilina_n1 := n_intr_count_le & [ STEM < "subtilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_subtilina_n_rel" ] ]. subtitular_n1 := n_intr_count_le & [ STEM < "subtitular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_subtitular_n_rel" ] ]. subtitular_v := v_trans_np_le & [ STEM < "subtitular" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot_sem, PRED "_subtitular_v_rel" ] ]. subtotal_n1 := n_intr_count_le & [ STEM < "subtotal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtotal_n_rel" ] ]. subtractor_n1 := n_intr_count_le & [ STEM < "subtractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_subtractor_n_rel" ] ]. subtransitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "subtransitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_subtransitorio_a_rel" ]. subtropical_a1 := a_rel_nonprd_intr_le & [ STEM < "subtropical" >, SYNSEM.LKEYS.KEYREL.PRED "_subtropical_a_rel" ]. subtroquiniano_a1 := a_rel_nonprd_intr_le & [ STEM < "subtroquiniano" >, SYNSEM.LKEYS.KEYREL.PRED "_subtroquiniano_a_rel" ]. subtroquiteriano_a1 := a_rel_nonprd_intr_le & [ STEM < "subtroquiteriano" >, SYNSEM.LKEYS.KEYREL.PRED "_subtroquiteriano_a_rel" ]. subunidad_n1 := n_intr_count_le & [ STEM < "subunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subunidad_n_rel" ] ]. suburbano_a1 := a_rel_nonprd_intr_le & [ STEM < "suburbano" >, SYNSEM.LKEYS.KEYREL.PRED "_suburbano_a_rel" ]. suburbial_a1 := a_rel_nonprd_intr_le & [ STEM < "suburbial" >, SYNSEM.LKEYS.KEYREL.PRED "_suburbial_a_rel" ]. suburbio_n1 := n_intr_count_le & [ STEM < "suburbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_suburbio_n_rel" ] ]. subvariedad_n1 := n_intr_count_le & [ STEM < "subvariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subvariedad_n_rel" ] ]. subvencionable_a1 := a_rel_prd_le & [ STEM < "subvencionable" >, SYNSEM.LKEYS.KEYREL.PRED "_subvencionable_a_rel" ]. subvencionar_v := v_trans_np_le & [ STEM < "subvencionar" >, SYNSEM.LKEYS.KEYREL.PRED "_subvencionar_v_rel" ]. subvención_n1 := n_trans_le & [ STEM < "subvención" >, SYNSEM.LKEYS.KEYREL.PRED "_subvención_n_rel" ]. subventana_n1 := n_intr_count_le & [ STEM < "subventana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subventana_n_rel" ] ]. subversivo_a1 := a_qual_intr_ser_le & [ STEM < "subversivo" >, SYNSEM.LKEYS.KEYREL.PRED "_subversivo_a_rel" ]. subversión_n1 := n_trans_le & [ STEM < "subversión" >, SYNSEM.LKEYS.KEYREL.PRED "_subversión_n_rel" ]. subvertir_v := v_trans_np_le & [ STEM < "subvertir" >, SYNSEM.LKEYS.KEYREL.PRED "_subvertir_v_rel" ]. subvoltaje_n1 := n_intr_mass_le & [ STEM < "subvoltaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_subvoltaje_n_rel" ] ]. subyacente_a1 := a_qual_intr_scopal_le & [ STEM < "subyacente" >, SYNSEM.LKEYS.KEYREL.PRED "_subyacente_a_rel" ]. subyugación_n1 := n_trans_le & [ STEM < "subyugación" >, SYNSEM.LKEYS.KEYREL.PRED "_subyugación_n_rel" ]. subyugador_a1 := a_rel_nonprd_intr_le & [ STEM < "subyugador" >, SYNSEM.LKEYS.KEYREL.PRED "_subyugador_a_rel" ]. subárea_n1 := n_intr_count_le & [ STEM < "subárea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_subárea_n_rel" ] ]. subóptimamente_x1 := av_i_spr_le & [ STEM < "subóptimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_subóptimamente_x_rel" ]. subóptimo_a1 := a_rel_prd_le & [ STEM < "subóptimo" >, SYNSEM.LKEYS.KEYREL.PRED "_subóptimo_a_rel" ]. subóxido_n1 := n_intr_mass_le & [ STEM < "subóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_subóxido_n_rel" ] ]. suca_n1 := n_intr_count_le & [ STEM < "suca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suca_n_rel" ] ]. succinato_n1 := n_intr_count_le & [ STEM < "succinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_succinato_n_rel" ] ]. succinilsulfatiazol_n1 := n_intr_count_le & [ STEM < "succinilsulfatiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_succinilsulfatiazol_n_rel" ] ]. succinimida_n1 := n_intr_count_le & [ STEM < "succinimida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_succinimida_n_rel" ] ]. succinita_n1 := n_intr_count_le & [ STEM < "succinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_succinita_n_rel" ] ]. succión_n1 := n_trans_le & [ STEM < "succión" >, SYNSEM.LKEYS.KEYREL.PRED "_succión_n_rel" ]. succínico_a1 := a_rel_nonprd_intr_le & [ STEM < "succínico" >, SYNSEM.LKEYS.KEYREL.PRED "_succínico_a_rel" ]. suceder_v1 := v_intr_io*_le & [ STEM < "suceder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_suceder_v_rel" ] ]. suceder_v2 := v_intr_io_mrkd_np*_le & [ STEM < "suceder" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_suceder_v_rel" ] ] ]. suceder_v3 := v_pron_intr_le & [ STEM < "suceder" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_suceder_v_rel" ] ]. suceder_v4 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "suceder" >, SYNSEM.LKEYS.KEYREL.PRED "_suceder_v_rel" ]. sucedáneo_n1 := n_intr_mass-or-count_le & [ STEM < "sucedáneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_sucedáneo_n_rel" ] ]. sucesional_a1 := a_rel_nonprd_intr_le & [ STEM < "sucesional" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesional_a_rel" ]. sucesivamente_x1 := av_i_spr_le & [ STEM < "sucesivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesivamente_x_rel" ]. sucesivo_a1 := a_adv_event_le & [ STEM < "sucesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesivo_a_rel" ]. sucesión_n1 := n_event-result_intr_le & [ STEM < "sucesión" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesión_n_rel" ]. sucesor_a1 := a_rel_nonprd_intr_le & [ STEM < "sucesor" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesor_a_rel" ]. sucesor_n1 := n_subj-nom_le & [ STEM < "sucesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sucesor_n_rel" ] ]. sucesoriamente_x1 := av_i_spr_le & [ STEM < "sucesoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesoriamente_x_rel" ]. sucesorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sucesorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sucesorio_a_rel" ]. suciamente_x1 := av_i_spr_le & [ STEM < "suciamente" >, SYNSEM.LKEYS.KEYREL.PRED "_suciamente_x_rel" ]. suciedad_n1 := n_intr_mass-or-count_le & [ STEM < "suciedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suciedad_n_rel" ] ]. sucintamente_x1 := av_i_spr_le & [ STEM < "sucintamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sucintamente_x_rel" ]. sucinto_a1 := a_qual_intr_ser_le & [ STEM < "sucinto" >, SYNSEM.LKEYS.KEYREL.PRED "_sucinto_a_rel" ]. sucio_a1 := a_qual_intr_scopal_le & [ STEM < "sucio" >, SYNSEM.LKEYS.KEYREL.PRED "_sucio_a_rel" ]. suculencia_n1 := n_ppcomp_mass_le & [ STEM < "suculencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suculencia_n_rel" ] ]. suculentamente_x1 := av_i_spr_le & [ STEM < "suculentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_suculentamente_x_rel" ]. suculento_a1 := a_qual_intr_scopal_le & [ STEM < "suculento" >, SYNSEM.LKEYS.KEYREL.PRED "_suculento_a_rel" ]. sucumbir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "sucumbir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sucumbir_v_rel" ] ]. sucumbir_v2 := v_intr_mrkd_np*_le & [ STEM < "sucumbir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sucumbir_v_rel" ] ]. sucursal_n1 := n_intr_count_le & [ STEM < "sucursal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_sucursal_n_rel" ] ]. sucursalista_a1 := a_rel_nonprd_intr_le & [ STEM < "sucursalista" >, SYNSEM.LKEYS.KEYREL.PRED "_sucursalista_a_rel" ]. sucursalización_n1 := n_trans_le & [ STEM < "sucursalización" >, SYNSEM.LKEYS.KEYREL.PRED "_sucursalización_n_rel" ]. sucusión_n1 := n_intr_uncount_le & [ STEM < "sucusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sucusión_n_rel" ] ]. sudadera_n1 := n_intr_count_le & [ STEM < "sudadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sudadera_n_rel" ] ]. sudafricano_a1 := a_rel_prd_le & [ STEM < "sudafricano" >, SYNSEM.LKEYS.KEYREL.PRED "_sudafricano_a_rel" ]. sudafricano_n1 := n_intr_count_le & [ STEM < "sudafricano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sudafricano_n_rel" ] ]. sudamericano_a1 := a_rel_prd_le & [ STEM < "sudamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_sudamericano_a_rel" ]. sudamericano_n1 := n_intr_count_le & [ STEM < "sudamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sudamericano_n_rel" ] ]. sudanés_a1 := a_rel_prd_le & [ STEM < "sudanés" >, SYNSEM.LKEYS.KEYREL.PRED "_sudanés_a_rel" ]. sudanés_n1 := n_intr_count_le & [ STEM < "sudanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sudanés_n_rel" ] ]. sudar_v := v_trans_np_le & [ STEM < "sudar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mat, PRED "_sudar_v_rel" ] ]. sudista_n1 := n_intr_count_le & [ STEM < "sudista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sudista_n_rel" ] ]. sudoccidental_a1 := a_rel_prd_le & [ STEM < "sudoccidental" >, SYNSEM.LKEYS.KEYREL.PRED "_sudoccidental_a_rel" ]. sudor_n1 := n_intr_mass_le & [ STEM < "sudor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sudor_n_rel" ] ]. sudoración_n1 := n_intr_mass_le & [ STEM < "sudoración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sudoración_n_rel" ] ]. sudoriental_a1 := a_rel_prd_le & [ STEM < "sudoriental" >, SYNSEM.LKEYS.KEYREL.PRED "_sudoriental_a_rel" ]. sudoroso_a1 := a_qual_intr_estar_le & [ STEM < "sudoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_sudoroso_a_rel" ]. sudoríparo_a1 := a_rel_nonprd_intr_le & [ STEM < "sudoríparo" >, SYNSEM.LKEYS.KEYREL.PRED "_sudoríparo_a_rel" ]. sueco_a1 := a_rel_prd_le & [ STEM < "sueco" >, SYNSEM.LKEYS.KEYREL.PRED "_sueco_a_rel" ]. sueco_n1 := n_intr_count_le & [ STEM < "sueco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sueco_n_rel" ] ]. suegro_n1 := n_ppcomp_count_le & [ STEM < "suegro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suegro_n_rel" ] ]. suela_n1 := n_intr_count_le & [ STEM < "suela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suela_n_rel" ] ]. suelo_n1 := n_intr_count_le & [ STEM < "suelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_suelo_n_rel" ] ]. sueltamente_x1 := av_i_spr_le & [ STEM < "sueltamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sueltamente_x_rel" ]. suelto_a1 := a_qual_intr_estar_le & [ STEM < "suelto" >, SYNSEM.LKEYS.KEYREL.PRED "_suelto_a_rel" ]. suero_n1 := n_intr_mass_le & [ STEM < "suero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suero_n_rel" ] ]. suficiencia_n1 := n_intr_mass_le & [ STEM < "suficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suficiencia_n_rel" ] ]. suficiente_a1 := a_rel_prd_le & [ STEM < "suficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_suficiente_x_rel" ]. suficientemente_x1 := av_deg_le & [ STEM < "suficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_suficientemente_x_rel" ]. sufijación_n1 := n_intr_uncount_le & [ STEM < "sufijación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sufijación_n_rel" ] ]. sufijal_a1 := a_rel_nonprd_intr_le & [ STEM < "sufijal" >, SYNSEM.LKEYS.KEYREL.PRED "_sufijal_a_rel" ]. sufijar_v := v_trans_np*_le & [ STEM < "sufijar" >, SYNSEM.LKEYS.KEYREL.PRED "_sufijar_v_rel" ]. sufijo_a1 := a_rel_nonprd_intr_le & [ STEM < "sufijo" >, SYNSEM.LKEYS.KEYREL.PRED "_sufijo_a_rel" ]. sufijo_n1 := n_intr_count_le & [ STEM < "sufijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sufijo_n_rel" ] ]. sufismo_n1 := n_intr_uncount_le & [ STEM < "sufismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sufismo_n_rel" ] ]. sufragar_v := v_trans_np_le & [ STEM < "sufragar" >, SYNSEM.LKEYS.KEYREL.PRED "_sufragar_v_rel" ]. sufragista_n1 := n_intr_count_le & [ STEM < "sufragista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sufragista_n_rel" ] ]. sufrible_a1 := a_qual_intr_ser_le & [ STEM < "sufrible" >, SYNSEM.LKEYS.KEYREL.PRED "_sufrible_a_rel" ]. sufridera_n1 := n_intr_count_le & [ STEM < "sufridera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sufridera_n_rel" ] ]. sufridor_a1 := a_rel_nonprd_intr_le & [ STEM < "sufridor" >, SYNSEM.LKEYS.KEYREL.PRED "_sufridor_a_rel" ]. sufridoramente_x1 := av_i_spr_le & [ STEM < "sufridoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_sufridoramente_x_rel" ]. sufrimiento_n1 := n_trans_le & [ STEM < "sufrimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sufrimiento_n_rel" ]. sufrir_v1 := v_intr_mrkd_np*_le & [ STEM < "sufrir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT abs_pro, PRED "_sufrir_v_rel" ] ] ]. sufrir_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "sufrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sufrir_v_rel" ] ]. sufrir_v3 := v_trans_np_le & [ STEM < "sufrir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_sufrir_v_rel" ] ]. sufusión_n1 := n_intr_uncount_le & [ STEM < "sufusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sufusión_n_rel" ] ]. sugerencia_n1 := n_intr_count_le & [ STEM < "sugerencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sugerencia_n_rel" ] ]. sugerente_a1 := a_qual_intr_ser_le & [ STEM < "sugerente" >, SYNSEM.LKEYS.KEYREL.PRED "_sugerente_a_rel" ]. sugerir_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "sugerir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sugerir_v_rel" ] ]. sugerir_v2 := v_ditrans*_le & [ STEM < "sugerir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_sugerir_v_rel" ] ]. sugerir_v3 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "sugerir" >, SYNSEM.LKEYS.KEYREL.PRED "_sugerir_v_rel" ]. sugerir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "sugerir" >, SYNSEM.LKEYS.KEYREL.PRED "_sugerir_v_rel" ]. sugestibilidad_n1 := n_intr_uncount_le & [ STEM < "sugestibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sugestibilidad_n_rel" ] ]. sugestionable_a1 := a_qual_intr_ser_le & [ STEM < "sugestionable" >, SYNSEM.LKEYS.KEYREL.PRED "_sugestionable_a_rel" ]. sugestionar_v := v_trans_np_le & [ STEM < "sugestionar" >, SYNSEM.LKEYS.KEYREL.PRED "_sugestionar_v_rel" ]. sugestivo_a1 := a_qual_intr_ser_le & [ STEM < "sugestivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sugestivo_a_rel" ]. sugestión_n1 := n_trans_le & [ STEM < "sugestión" >, SYNSEM.LKEYS.KEYREL.PRED "_sugestión_n_rel" ]. suicida_a1 := a_qual_intr_ser_le & [ STEM < "suicida" >, SYNSEM.LKEYS.KEYREL.PRED "_suicida_a_rel" ]. suicida_n1 := n_intr_count_le & [ STEM < "suicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suicida_n_rel" ] ]. suicidar_v1 := v_pron_intr_le & [ STEM < "suicidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_suicidar_v_rel" ] ]. suite_n1 := n_intr_count_le & [ STEM < "suite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_suite_n_rel" ] ]. suizo_a1 := a_rel_prd_le & [ STEM < "suizo" >, SYNSEM.LKEYS.KEYREL.PRED "_suizo_a_rel" ]. suizo_n1 := n_intr_count_le & [ STEM < "suizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suizo_n_rel" ] ]. sujeción_n1 := n_trans_le & [ STEM < "sujeción" >, SYNSEM.LKEYS.KEYREL.PRED "_sujeción_n_rel" ]. sujetador_n1 := n_intr_count_le & [ STEM < "sujetador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sujetador_n_rel" ] ]. sujetalibros_n1 := n_intr_count_le & [ STEM < "sujetalibros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sujetalibros_n_rel" ] ]. sujetapapeles_n1 := n_intr_count_le & [ STEM < "sujetapapeles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sujetapapeles_n_rel" ] ]. sujetar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "sujetar" >, SYNSEM.LKEYS.KEYREL.PRED "_sujetar_v_rel" ]. sujetar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "sujetar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_sujetar_v_rel" ] ] ]. sujetar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "sujetar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_sujetar_v_rel" ] ]. sujeto_a1 := a_qual_cp_prop_fin_estar_le & [ STEM < "sujeto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sujeto_a_rel" ] ]. sujeto_a2 := a_qual_cp_ques_estar_le & [ STEM < "sujeto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sujeto_a_rel" ] ]. sujeto_a3 := a_qual_trans*_estar_le & [ STEM < "sujeto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sujeto_a_rel" ] ]. sujeto_n1 := n_intr_count_le & [ STEM < "sujeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sujeto_n_rel" ] ]. sulciforme_a1 := a_rel_nonprd_intr_le & [ STEM < "sulciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_sulciforme_a_rel" ]. sulfacetamida_n1 := n_intr_count_le & [ STEM < "sulfacetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfacetamida_n_rel" ] ]. sulfadiacina_n1 := n_intr_count_le & [ STEM < "sulfadiacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfadiacina_n_rel" ] ]. sulfadimetoxina_n1 := n_intr_count_le & [ STEM < "sulfadimetoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfadimetoxina_n_rel" ] ]. sulfaguanidina_n1 := n_intr_count_le & [ STEM < "sulfaguanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfaguanidina_n_rel" ] ]. sulfamato_n1 := n_intr_count_le & [ STEM < "sulfamato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfamato_n_rel" ] ]. sulfameracina_n1 := n_intr_count_le & [ STEM < "sulfameracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfameracina_n_rel" ] ]. sulfametacina_n1 := n_intr_count_le & [ STEM < "sulfametacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfametacina_n_rel" ] ]. sulfametiazol_n1 := n_intr_count_le & [ STEM < "sulfametiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfametiazol_n_rel" ] ]. sulfametoxipiridacina_n1 := n_intr_count_le & [ STEM < "sulfametoxipiridacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfametoxipiridacina_n_rel" ] ]. sulfanilamida_n1 := n_intr_count_le & [ STEM < "sulfanilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfanilamida_n_rel" ] ]. sulfanilato_n1 := n_intr_count_le & [ STEM < "sulfanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfanilato_n_rel" ] ]. sulfanílico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfanílico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfanílico_a_rel" ]. sulfapiridina_n1 := n_intr_count_le & [ STEM < "sulfapiridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfapiridina_n_rel" ] ]. sulfaquinoxalina_n1 := n_intr_count_le & [ STEM < "sulfaquinoxalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfaquinoxalina_n_rel" ] ]. sulfarsfenamina_n1 := n_intr_count_le & [ STEM < "sulfarsfenamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfarsfenamina_n_rel" ] ]. sulfatación_n1 := n_trans_le & [ STEM < "sulfatación" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfatación_n_rel" ]. sulfatadora_n1 := n_intr_count_le & [ STEM < "sulfatadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sulfatadora_n_rel" ] ]. sulfatar_v := v_trans_np_caus_le & [ STEM < "sulfatar" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfatar_v_rel" ]. sulfatiazol_n1 := n_intr_count_le & [ STEM < "sulfatiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfatiazol_n_rel" ] ]. sulfato_n1 := n_intr_mass_le & [ STEM < "sulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfato_n_rel" ] ]. sulfinpirazona_n1 := n_intr_count_le & [ STEM < "sulfinpirazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfinpirazona_n_rel" ] ]. sulfito_n1 := n_intr_count_le & [ STEM < "sulfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfito_n_rel" ] ]. sulfobenzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfobenzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfobenzoico_a_rel" ]. sulfocarbonato_n1 := n_intr_count_le & [ STEM < "sulfocarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfocarbonato_n_rel" ] ]. sulfocianuro_n1 := n_intr_count_le & [ STEM < "sulfocianuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfocianuro_n_rel" ] ]. sulfoftálico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfoftálico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfoftálico_a_rel" ]. sulfonado_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfonado" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfonado_a_rel" ]. sulfonato_n1 := n_intr_count_le & [ STEM < "sulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfonato_n_rel" ] ]. sulfonetilmetano_n1 := n_intr_count_le & [ STEM < "sulfonetilmetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfonetilmetano_n_rel" ] ]. sulfonildianilina_n1 := n_intr_count_le & [ STEM < "sulfonildianilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfonildianilina_n_rel" ] ]. sulfonmetano_n1 := n_intr_count_le & [ STEM < "sulfonmetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfonmetano_n_rel" ] ]. sulforricinoleato_n1 := n_intr_count_le & [ STEM < "sulforricinoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulforricinoleato_n_rel" ] ]. sulfosalicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfosalicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfosalicílico_a_rel" ]. sulfurar_v1 := v_intr_io*_le & [ STEM < "sulfurar" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfurar_v_rel" ]. sulfurar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "sulfurar" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfurar_v_rel" ]. sulfurar_v3 := v_trans_np_caus_le & [ STEM < "sulfurar" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfurar_v_rel" ]. sulfuro_n1 := n_intr_mass_le & [ STEM < "sulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfuro_n_rel" ] ]. sulfuroso_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfuroso" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfuroso_a_rel" ]. sulfámico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfámico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfámico_a_rel" ]. sulfóxido_n1 := n_intr_count_le & [ STEM < "sulfóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sulfóxido_n_rel" ] ]. sulfúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "sulfúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_sulfúrico_a_rel" ]. sultanato_n1 := n_intr_count_le & [ STEM < "sultanato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sultanato_n_rel" ] ]. sultán_n1 := n_intr_count_le & [ STEM < "sultán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sultán_n_rel" ] ]. suma_n1 := n_trans_le & [ STEM < "suma" >, SYNSEM.LKEYS.KEYREL.PRED "_suma_n_rel" ]. sumable_a1 := a_rel_prd_le & [ STEM < "sumable" >, SYNSEM.LKEYS.KEYREL.PRED "_sumable_a_rel" ]. sumador_a1 := a_rel_nonprd_intr_le & [ STEM < "sumador" >, SYNSEM.LKEYS.KEYREL.PRED "_sumador_a_rel" ]. sumador_n1 := n_intr_count_le & [ STEM < "sumador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sumador_n_rel" ] ]. sumamente_x1 := av_qnt-deg_det_le & [ STEM < "sumamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sumamente_x_deg_rel" ]. sumar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "sumar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sumar_v_rel" ] ]. sumar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "sumar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sumar_v_rel" ] ]. sumar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "sumar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_sumar_v_rel" ] ]. sumarial_a1 := a_rel_nonprd_intr_le & [ STEM < "sumarial" >, SYNSEM.LKEYS.KEYREL.PRED "_sumarial_a_rel" ]. sumariamente_x1 := av_s_spr_le & [ STEM < "sumariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sumariamente_x_rel" ]. sumariedad_n1 := n_intr_uncount_le & [ STEM < "sumariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sumariedad_n_rel" ] ]. sumario_a1 := a_rel_nonprd_intr_le & [ STEM < "sumario" >, SYNSEM.LKEYS.KEYREL.PRED "_sumario_a_rel" ]. sumario_n1 := n_intr_count_le & [ STEM < "sumario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_sumario_n_rel" ] ]. sumativo_a1 := a_rel_nonprd_intr_le & [ STEM < "sumativo" >, SYNSEM.LKEYS.KEYREL.PRED "_sumativo_a_rel" ]. sumatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sumatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sumatorio_a_rel" ]. sumergible_a1 := a_rel_nonprd_intr_le & [ STEM < "sumergible" >, SYNSEM.LKEYS.KEYREL.PRED "_sumergible_a_rel" ]. sumergimiento_n1 := n_trans_le & [ STEM < "sumergimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_sumergimiento_n_rel" ]. sumergir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "sumergir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_sumergir_v_rel" ] ] ]. sumergir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "sumergir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sumergir_v_rel" ] ]. sumergir_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "sumergir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_sumergir_v_rel" ] ]. sumergir_v4 := v_trans_np_caus_le & [ STEM < "sumergir" >, SYNSEM.LKEYS.KEYREL.PRED "_sumergir_v_rel" ]. sumergir_v5 := v_trans_np_mrkd_np_le & [ STEM < "sumergir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_sumergir_v_rel" ] ]. sumerio_n1 := n_intr_count_le & [ STEM < "sumerio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sumerio_n_rel" ] ]. sumersión_n1 := n_trans_le & [ STEM < "sumersión" >, SYNSEM.LKEYS.KEYREL.PRED "_sumersión_n_rel" ]. sumidero_n1 := n_intr_count_le & [ STEM < "sumidero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sumidero_n_rel" ] ]. suministrador_a1 := a_rel_nonprd_intr_le & [ STEM < "suministrador" >, SYNSEM.LKEYS.KEYREL.PRED "_suministrador_a_rel" ]. suministrador_n1 := n_intr_count_le & [ STEM < "suministrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suministrador_n_rel" ] ]. suministrador_n2 := n_subj-nom_le & [ STEM < "suministrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suministrador_n_rel" ] ]. suministrar_v1 := v_ditrans*_le & [ STEM < "suministrar" >, SYNSEM.LKEYS.KEYREL.PRED "_suministrar_v_rel" ]. suministrar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "suministrar" >, SYNSEM.LKEYS.KEYREL.PRED "_suministrar_v_rel" ]. suministrar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "suministrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_suministrar_v_rel" ] ] ]. suministrar_v4 := v_trans_np_mrkd_np_le & [ STEM < "suministrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_suministrar_v_rel" ] ]. sumir_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "sumir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_sumir_v_rel" ] ] ]. sumir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "sumir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_sumir_v_rel" ] ]. sumir_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "sumir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_sumir_v_rel" ] ]. sumir_v4 := v_trans_np_mrkd_np_caus_le & [ STEM < "sumir" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_sumir_v_rel" ] ] ]. sumisamente_x1 := av_i_spr_le & [ STEM < "sumisamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sumisamente_x_rel" ]. sumisión_n1 := n_intr_mass_le & [ STEM < "sumisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sumisión_n_rel" ] ]. sumiso_a1 := a_qual_intr_ser_le & [ STEM < "sumiso" >, SYNSEM.LKEYS.KEYREL.PRED "_sumiso_a_rel" ]. suncho_n1 := n_intr_count_le & [ STEM < "suncho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suncho_n_rel" ] ]. suntuario_a1 := a_rel_nonprd_intr_le & [ STEM < "suntuario" >, SYNSEM.LKEYS.KEYREL.PRED "_suntuario_a_rel" ]. suntuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "suntuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suntuosidad_n_rel" ] ]. suntuoso_a1 := a_qual_intr_ser_le & [ STEM < "suntuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_suntuoso_a_rel" ]. suní_a1 := a_rel_prd_le & [ STEM < "suní" >, SYNSEM.LKEYS.KEYREL.PRED "_suní_a_rel" ]. suní_n1 := n_intr_count_le & [ STEM < "suní" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suní_n_rel" ] ]. supeditación_n1 := n_trans_le & [ STEM < "supeditación" >, SYNSEM.LKEYS.KEYREL.PRED "_supeditación_n_rel" ]. supeditar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "supeditar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_supeditar_v_rel" ] ] ]. supeditar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "supeditar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_supeditar_v_rel" ] ] ]. supeditar_v3 := v_trans_np*_mrkd_np_le & [ STEM < "supeditar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_supeditar_v_rel" ] ] ]. super_x1 := av_qnt-deg_le & [ STEM < "super" >, SYNSEM.LKEYS.KEYREL.PRED "_super_x_deg_rel" ]. superable_a1 := a_qual_intr_ser_le & [ STEM < "superable" >, SYNSEM.LKEYS.KEYREL.PRED "_superable_a_rel" ]. superabundancia_n1 := n_intr_uncount_le & [ STEM < "superabundancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superabundancia_n_rel" ] ]. superabundante_a1 := a_rel_prd_le & [ STEM < "superabundante" >, SYNSEM.LKEYS.KEYREL.PRED "_superabundante_a_rel" ]. superación_n1 := n_trans_le & [ STEM < "superación" >, SYNSEM.LKEYS.KEYREL.PRED "_superación_n_rel" ]. superactividad_n1 := n_intr_mass_le & [ STEM < "superactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superactividad_n_rel" ] ]. superantígeno_n1 := n_intr_count_le & [ STEM < "superantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superantígeno_n_rel" ] ]. superar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "superar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_superar_v_rel" ] ]. superar_v2 := v_trans_np_le & [ STEM < "superar" >, SYNSEM.LKEYS.KEYREL.PRED "_superar_v_rel" ]. superchip_n1 := n_intr_count_le & [ STEM < "superchip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superchip_n_rel" ] ]. superciliar_a1 := a_rel_nonprd_intr_le & [ STEM < "superciliar" >, SYNSEM.LKEYS.KEYREL.PRED "_superciliar_a_rel" ]. superconducción_n1 := n_intr_uncount_le & [ STEM < "superconducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superconducción_n_rel" ] ]. superconducente_a1 := a_rel_nonprd_intr_le & [ STEM < "superconducente" >, SYNSEM.LKEYS.KEYREL.PRED "_superconducente_a_rel" ]. superconducentemente_x1 := av_i_spr_le & [ STEM < "superconducentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_superconducentemente_x_rel" ]. superconductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "superconductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_superconductivo_a_rel" ]. superconductor_a1 := a_rel_nonprd_intr_le & [ STEM < "superconductor" >, SYNSEM.LKEYS.KEYREL.PRED "_superconductor_a_rel" ]. superconductor_n1 := n_intr_count_le & [ STEM < "superconductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superconductor_n_rel" ] ]. supercríticamente_x1 := av_i_spr_le & [ STEM < "supercríticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supercríticamente_x_rel" ]. supercrítico_a1 := a_rel_prd_le & [ STEM < "supercrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_supercrítico_a_rel" ]. superdotado_a1 := a_qual_intr_ser_le & [ STEM < "superdotado" >, SYNSEM.LKEYS.KEYREL.PRED "_superdotado_a_rel" ]. superdotado_n1 := n_intr_count_le & [ STEM < "superdotado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superdotado_n_rel" ] ]. supererogación_n1 := n_intr_uncount_le & [ STEM < "supererogación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supererogación_n_rel" ] ]. superestrato_n1 := n_intr_count_le & [ STEM < "superestrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superestrato_n_rel" ] ]. superestrella_n1 := n_intr_count_le & [ STEM < "superestrella" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superestrella_n_rel" ] ]. superestructura_n1 := n_intr_count_le & [ STEM < "superestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superestructura_n_rel" ] ]. superficial_a1 := a_qual_intr_ser_le & [ STEM < "superficial" >, SYNSEM.LKEYS.KEYREL.PRED "_superficial_a_rel" ]. superficialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "superficialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superficialidad_n_rel" ] ]. superficialmente_x1 := av_i_spr_le & [ STEM < "superficialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_superficialmente_x_rel" ]. superficie_n1 := n_intr_count_le & [ STEM < "superficie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_superficie_n_rel" ] ]. superfinamente_x1 := av_i_spr_le & [ STEM < "superfinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_superfinamente_x_rel" ]. superfino_a1 := a_rel_prd_le & [ STEM < "superfino" >, SYNSEM.LKEYS.KEYREL.PRED "_superfino_a_rel" ]. superfluamente_x1 := av_i_spr_le & [ STEM < "superfluamente" >, SYNSEM.LKEYS.KEYREL.PRED "_superfluamente_x_rel" ]. superfluidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "superfluidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superfluidad_n_rel" ] ]. superfluidez_n1 := n_intr_uncount_le & [ STEM < "superfluidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superfluidez_n_rel" ] ]. superfluido_a1 := a_rel_nonprd_intr_le & [ STEM < "superfluido" >, SYNSEM.LKEYS.KEYREL.PRED "_superfluido_a_rel" ]. superfluo_a1 := a_qual_intr_ser_le & [ STEM < "superfluo" >, SYNSEM.LKEYS.KEYREL.PRED "_superfluo_a_rel" ]. superfosfato_n1 := n_intr_count_le & [ STEM < "superfosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_superfosfato_n_rel" ] ]. superhombre_n1 := n_intr_count_le & [ STEM < "superhombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superhombre_n_rel" ] ]. superintendente_n1 := n_intr_count_le & [ STEM < "superintendente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superintendente_n_rel" ] ]. superior_a1 := a_compar_alt_le & [ STEM < "superior" >, SYNSEM.LKEYS.KEYREL.PRED "_superior_a_rel" ]. superior_n1 := n_intr_count_le & [ STEM < "superior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superior_n_rel" ] ]. superiora_n1 := n_intr_count_le & [ STEM < "superiora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superiora_n_rel" ] ]. superioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "superioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superioridad_n_rel" ] ]. superlativo_a1 := a_rel_nonprd_intr_le & [ STEM < "superlativo" >, SYNSEM.LKEYS.KEYREL.PRED "_superlativo_a_rel" ]. superlíquido_a1 := a_rel_nonprd_intr_le & [ STEM < "superlíquido" >, SYNSEM.LKEYS.KEYREL.PRED "_superlíquido_a_rel" ]. supermercado_n1 := n_intr_count_le & [ STEM < "supermercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_supermercado_n_rel" ] ]. supermicroordenador_n1 := n_intr_count_le & [ STEM < "supermicroordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_supermicroordenador_n_rel" ] ]. superminiordenador_n1 := n_intr_count_le & [ STEM < "superminiordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superminiordenador_n_rel" ] ]. supernova_n1 := n_intr_count_le & [ STEM < "supernova" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_supernova_n_rel" ] ]. supernumerario_a1 := a_rel_nonprd_intr_le & [ STEM < "supernumerario" >, SYNSEM.LKEYS.KEYREL.PRED "_supernumerario_a_rel" ]. superordenador_n1 := n_intr_count_le & [ STEM < "superordenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superordenador_n_rel" ] ]. superpesado_a1 := a_rel_nonprd_intr_le & [ STEM < "superpesado" >, SYNSEM.LKEYS.KEYREL.PRED "_superpesado_a_rel" ]. superpoblación_n1 := n_intr_count_le & [ STEM < "superpoblación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_superpoblación_n_rel" ] ]. superpoblar_v := v_trans_np_le & [ STEM < "superpoblar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc_soc, PRED "_superpoblar_v_rel" ] ]. superpolímero_n1 := n_intr_count_le & [ STEM < "superpolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_superpolímero_n_rel" ] ]. superponible_a1 := a_rel_nonprd_intr_le & [ STEM < "superponible" >, SYNSEM.LKEYS.KEYREL.PRED "_superponible_a_rel" ]. superponiblemente_x1 := av_i_spr_le & [ STEM < "superponiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_superponiblemente_x_rel" ]. superposición_n1 := n_trans_le & [ STEM < "superposición" >, SYNSEM.LKEYS.KEYREL.PRED "_superposición_n_rel" ]. superpotencia_n1 := n_intr_count_le & [ STEM < "superpotencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_superpotencia_n_rel" ] ]. superproducción_n1 := n_intr_count_le & [ STEM < "superproducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superproducción_n_rel" ] ]. superprofesional_a1 := a_rel_nonprd_intr_le & [ STEM < "superprofesional" >, SYNSEM.LKEYS.KEYREL.PRED "_superprofesional_a_rel" ]. supersaturación_n1 := n_intr_uncount_le & [ STEM < "supersaturación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supersaturación_n_rel" ] ]. supersensible_a1 := a_rel_prd_le & [ STEM < "supersensible" >, SYNSEM.LKEYS.KEYREL.PRED "_supersensible_a_rel" ]. supersensiblemente_x1 := av_i_spr_le & [ STEM < "supersensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_supersensiblemente_x_rel" ]. supersincrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "supersincrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_supersincrónico_a_rel" ]. supersticiosamente_x1 := av_i_spr_le & [ STEM < "supersticiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supersticiosamente_x_rel" ]. supersticioso_a1 := a_qual_intr_ser_le & [ STEM < "supersticioso" >, SYNSEM.LKEYS.KEYREL.PRED "_supersticioso_a_rel" ]. superstición_n1 := n_intr_count_le & [ STEM < "superstición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superstición_n_rel" ] ]. supersónicamente_x1 := av_i_spr_le & [ STEM < "supersónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supersónicamente_x_rel" ]. supersónico_a1 := a_rel_prd_le & [ STEM < "supersónico" >, SYNSEM.LKEYS.KEYREL.PRED "_supersónico_a_rel" ]. superusuario_n1 := n_intr_count_le & [ STEM < "superusuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superusuario_n_rel" ] ]. supervisión_n1 := n_trans_le & [ STEM < "supervisión" >, SYNSEM.LKEYS.KEYREL.PRED "_supervisión_n_rel" ]. supervisor_a1 := a_rel_nonprd_intr_le & [ STEM < "supervisor" >, SYNSEM.LKEYS.KEYREL.PRED "_supervisor_a_rel" ]. supervisor_n1 := n_subj-nom_le & [ STEM < "supervisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_supervisor_n_rel" ] ]. supervivencia_n1 := n_intr_uncount_le & [ STEM < "supervivencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supervivencia_n_rel" ] ]. superviviente_n1 := n_intr_count_le & [ STEM < "superviviente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_superviviente_n_rel" ] ]. superyacente_a1 := a_qual_intr_scopal_le & [ STEM < "superyacente" >, SYNSEM.LKEYS.KEYREL.PRED "_superyacente_a_rel" ]. superyacentemente_x1 := av_i_spr_le & [ STEM < "superyacentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_superyacentemente_x_rel" ]. superágil_a1 := a_rel_prd_le & [ STEM < "superágil" >, SYNSEM.LKEYS.KEYREL.PRED "_superágil_a_rel" ]. superágilmente_x1 := av_i_spr_le & [ STEM < "superágilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_superágilmente_x_rel" ]. superóhmico_a1 := a_rel_nonprd_intr_le & [ STEM < "superóhmico" >, SYNSEM.LKEYS.KEYREL.PRED "_superóhmico_a_rel" ]. superóxido_n1 := n_intr_mass-or-count_le & [ STEM < "superóxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_superóxido_n_rel" ] ]. suplantación_n1 := n_trans_le & [ STEM < "suplantación" >, SYNSEM.LKEYS.KEYREL.PRED "_suplantación_n_rel" ]. suplantar_v := v_trans_np_le & [ STEM < "suplantar" >, SYNSEM.LKEYS.KEYREL.PRED "_suplantar_v_rel" ]. supleción_n1 := n_trans_le & [ STEM < "supleción" >, SYNSEM.LKEYS.KEYREL.PRED "_supleción_n_rel" ]. suplemental_a1 := a_rel_nonprd_intr_le & [ STEM < "suplemental" >, SYNSEM.LKEYS.KEYREL.PRED "_suplemental_a_rel" ]. suplementariamente_x1 := av_i_spr_le & [ STEM < "suplementariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_suplementariamente_x_rel" ]. suplementario_a1 := a_rel_nonprd_intr_le & [ STEM < "suplementario" >, SYNSEM.LKEYS.KEYREL.PRED "_suplementario_a_rel" ]. suplemento_n1 := n_intr_count_le & [ STEM < "suplemento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_suplemento_n_rel" ] ]. suplencia_n1 := n_trans_le & [ STEM < "suplencia" >, SYNSEM.LKEYS.KEYREL.PRED "_suplencia_n_rel" ]. suplente_a1 := a_rel_nonprd_intr_le & [ STEM < "suplente" >, SYNSEM.LKEYS.KEYREL.PRED "_suplente_a_rel" ]. suplente_n1 := n_intr_count_le & [ STEM < "suplente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suplente_n_rel" ] ]. supletivo_a1 := a_rel_nonprd_intr_le & [ STEM < "supletivo" >, SYNSEM.LKEYS.KEYREL.PRED "_supletivo_a_rel" ]. supletoriamente_x1 := av_i_spr_le & [ STEM < "supletoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supletoriamente_x_rel" ]. supletorio_a1 := a_rel_nonprd_intr_le & [ STEM < "supletorio" >, SYNSEM.LKEYS.KEYREL.PRED "_supletorio_a_rel" ]. suplicación_n1 := n_trans_le & [ STEM < "suplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_suplicación_n_rel" ]. suplicante_a1 := a_rel_nonprd_intr_le & [ STEM < "suplicante" >, SYNSEM.LKEYS.KEYREL.PRED "_suplicante_a_rel" ]. suplicante_n1 := n_intr_count_le & [ STEM < "suplicante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suplicante_n_rel" ] ]. suplicar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "suplicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_suplicar_v_rel" ] ]. suplicar_v2 := v_ditrans*_le & [ STEM < "suplicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_suplicar_v_rel" ] ]. suplido_n1 := n_intr_count_le & [ STEM < "suplido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suplido_n_rel" ] ]. suponer_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "suponer" >, SYNSEM.LKEYS.KEYREL.PRED "_suponer_v_rel" ]. suponer_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "suponer" >, SYNSEM.LKEYS.KEYREL.PRED "_suponer_v_rel" ]. suponer_v3 := v_trans_cp_prop_fin_le & [ STEM < "suponer" >, SYNSEM.LKEYS.KEYREL.PRED "_suponer_v_rel" ]. suponer_v4 := v_trans_np_le & [ STEM < "suponer" >, SYNSEM.LKEYS.KEYREL.PRED "_suponer_v_rel" ]. suposición_n1 := n_trans_le & [ STEM < "suposición" >, SYNSEM.LKEYS.KEYREL.PRED "_suposición_n_rel" ]. supositorio_n1 := n_intr_count_le & [ STEM < "supositorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_supositorio_n_rel" ] ]. supraalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "supraalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_supraalveolar_a_rel" ]. supraamigdalino_a1 := a_rel_nonprd_intr_le & [ STEM < "supraamigdalino" >, SYNSEM.LKEYS.KEYREL.PRED "_supraamigdalino_a_rel" ]. supraaudible_a1 := a_rel_nonprd_intr_le & [ STEM < "supraaudible" >, SYNSEM.LKEYS.KEYREL.PRED "_supraaudible_a_rel" ]. supraaudiblemente_x1 := av_i_spr_le & [ STEM < "supraaudiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_supraaudiblemente_x_rel" ]. suprabucal_a1 := a_rel_nonprd_intr_le & [ STEM < "suprabucal" >, SYNSEM.LKEYS.KEYREL.PRED "_suprabucal_a_rel" ]. supracalloso_a1 := a_rel_nonprd_intr_le & [ STEM < "supracalloso" >, SYNSEM.LKEYS.KEYREL.PRED "_supracalloso_a_rel" ]. supraclaro_a1 := a_rel_nonprd_intr_le & [ STEM < "supraclaro" >, SYNSEM.LKEYS.KEYREL.PRED "_supraclaro_a_rel" ]. supraclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "supraclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_supraclavicular_a_rel" ]. supraconductividad_n1 := n_intr_mass_le & [ STEM < "supraconductividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supraconductividad_n_rel" ] ]. supraconductor_a1 := a_rel_nonprd_intr_le & [ STEM < "supraconductor" >, SYNSEM.LKEYS.KEYREL.PRED "_supraconductor_a_rel" ]. supracondíleo_a1 := a_rel_nonprd_intr_le & [ STEM < "supracondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_supracondíleo_a_rel" ]. supracoroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "supracoroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_supracoroideo_a_rel" ]. supraescapular_a1 := a_rel_nonprd_intr_le & [ STEM < "supraescapular" >, SYNSEM.LKEYS.KEYREL.PRED "_supraescapular_a_rel" ]. supraespinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "supraespinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_supraespinoso_a_rel" ]. supraesternal_a1 := a_rel_nonprd_intr_le & [ STEM < "supraesternal" >, SYNSEM.LKEYS.KEYREL.PRED "_supraesternal_a_rel" ]. supraglenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "supraglenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_supraglenoideo_a_rel" ]. supraglotis_n1 := n_ppcomp_count_le & [ STEM < "supraglotis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_supraglotis_n_rel" ] ]. supraglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "supraglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_supraglótico_a_rel" ]. suprahioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "suprahioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_suprahioideo_a_rel" ]. supralegalidad_n1 := n_intr_uncount_le & [ STEM < "supralegalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supralegalidad_n_rel" ] ]. supraliminar_a1 := a_rel_nonprd_intr_le & [ STEM < "supraliminar" >, SYNSEM.LKEYS.KEYREL.PRED "_supraliminar_a_rel" ]. supralíquido_a1 := a_rel_nonprd_intr_le & [ STEM < "supralíquido" >, SYNSEM.LKEYS.KEYREL.PRED "_supralíquido_a_rel" ]. supramandibular_a1 := a_rel_nonprd_intr_le & [ STEM < "supramandibular" >, SYNSEM.LKEYS.KEYREL.PRED "_supramandibular_a_rel" ]. supramarginal_a1 := a_rel_nonprd_intr_le & [ STEM < "supramarginal" >, SYNSEM.LKEYS.KEYREL.PRED "_supramarginal_a_rel" ]. supramastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "supramastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_supramastoideo_a_rel" ]. supramaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "supramaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_supramaxilar_a_rel" ]. suprameático_a1 := a_rel_nonprd_intr_le & [ STEM < "suprameático" >, SYNSEM.LKEYS.KEYREL.PRED "_suprameático_a_rel" ]. supranatural_a1 := a_rel_nonprd_intr_le & [ STEM < "supranatural" >, SYNSEM.LKEYS.KEYREL.PRED "_supranatural_a_rel" ]. supraorbitario_a1 := a_rel_nonprd_intr_le & [ STEM < "supraorbitario" >, SYNSEM.LKEYS.KEYREL.PRED "_supraorbitario_a_rel" ]. supraperióstico_a1 := a_rel_nonprd_intr_le & [ STEM < "supraperióstico" >, SYNSEM.LKEYS.KEYREL.PRED "_supraperióstico_a_rel" ]. suprapineal_a1 := a_rel_nonprd_intr_le & [ STEM < "suprapineal" >, SYNSEM.LKEYS.KEYREL.PRED "_suprapineal_a_rel" ]. suprapleural_a1 := a_rel_nonprd_intr_le & [ STEM < "suprapleural" >, SYNSEM.LKEYS.KEYREL.PRED "_suprapleural_a_rel" ]. suprarrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "suprarrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_suprarrenal_a_rel" ]. suprarrotuliano_a1 := a_rel_nonprd_intr_le & [ STEM < "suprarrotuliano" >, SYNSEM.LKEYS.KEYREL.PRED "_suprarrotuliano_a_rel" ]. suprasegmental_a1 := a_rel_nonprd_intr_le & [ STEM < "suprasegmental" >, SYNSEM.LKEYS.KEYREL.PRED "_suprasegmental_a_rel" ]. supratonsilar_a1 := a_rel_nonprd_intr_le & [ STEM < "supratonsilar" >, SYNSEM.LKEYS.KEYREL.PRED "_supratonsilar_a_rel" ]. supratroclear_a1 := a_rel_nonprd_intr_le & [ STEM < "supratroclear" >, SYNSEM.LKEYS.KEYREL.PRED "_supratroclear_a_rel" ]. supraventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "supraventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_supraventricular_a_rel" ]. supravesical_a1 := a_rel_nonprd_intr_le & [ STEM < "supravesical" >, SYNSEM.LKEYS.KEYREL.PRED "_supravesical_a_rel" ]. suprayacente_a1 := a_rel_nonprd_intr_le & [ STEM < "suprayacente" >, SYNSEM.LKEYS.KEYREL.PRED "_suprayacente_a_rel" ]. suprayectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "suprayectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_suprayectivo_a_rel" ]. supraóptico_a1 := a_rel_nonprd_intr_le & [ STEM < "supraóptico" >, SYNSEM.LKEYS.KEYREL.PRED "_supraóptico_a_rel" ]. supremacía_n1 := n_intr_uncount_pl_le & [ STEM < "supremacía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supremacía_n_rel" ] ]. supremamente_x1 := av_i_spr_le & [ STEM < "supremamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supremamente_x_rel" ]. supresible_a1 := a_rel_nonprd_intr_le & [ STEM < "supresible" >, SYNSEM.LKEYS.KEYREL.PRED "_supresible_a_rel" ]. supresión_n1 := n_trans_le & [ STEM < "supresión" >, SYNSEM.LKEYS.KEYREL.PRED "_supresión_n_rel" ]. supresor_a1 := a_rel_nonprd_intr_le & [ STEM < "supresor" >, SYNSEM.LKEYS.KEYREL.PRED "_supresor_a_rel" ]. supresor_n1 := n_subj-nom_le & [ STEM < "supresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_supresor_n_rel" ] ]. suprimir_v1 := v_ditrans*_le & [ STEM < "suprimir" >, SYNSEM.LKEYS.KEYREL.PRED "_suprimir_v_rel" ]. supuestamente_x1 := av_s_prhd_le & [ STEM < "supuestamente" >, SYNSEM.LKEYS.KEYREL.PRED "_supuestamente_x_rel" ]. supuesto_a1 := a_adv_int_le & [ STEM < "supuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_supuesto_a_rel" ]. supuesto_que_sc := sc_prop_fin_le & [ STEM < "supuesto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_supuesto_que_x_subord_rel" ]. supuración_n1 := n_event-result_intr_le & [ STEM < "supuración" >, SYNSEM.LKEYS.KEYREL.PRED "_supuración_n_rel" ]. supurativo_a1 := a_rel_nonprd_intr_le & [ STEM < "supurativo" >, SYNSEM.LKEYS.KEYREL.PRED "_supurativo_a_rel" ]. sur_n1 := n_intr_uncount_le & [ STEM < "sur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_sur_n_rel" ] ]. surafricano_a1 := a_rel_prd_le & [ STEM < "surafricano" >, SYNSEM.LKEYS.KEYREL.PRED "_surafricano_a_rel" ]. surafricano_n1 := n_intr_count_le & [ STEM < "surafricano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_surafricano_n_rel" ] ]. sural_a1 := a_rel_nonprd_intr_le & [ STEM < "sural" >, SYNSEM.LKEYS.KEYREL.PRED "_sural_a_rel" ]. suramericano_a1 := a_rel_prd_le & [ STEM < "suramericano" >, SYNSEM.LKEYS.KEYREL.PRED "_suramericano_a_rel" ]. suramericano_n1 := n_intr_count_le & [ STEM < "suramericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suramericano_n_rel" ] ]. surcar_v := v_trans_np_le & [ STEM < "surcar" >, SYNSEM.LKEYS.KEYREL.PRED "_surcar_v_rel" ]. surco_n1 := n_intr_count_le & [ STEM < "surco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_surco_n_rel" ] ]. surcoreano_a1 := a_rel_prd_le & [ STEM < "surcoreano" >, SYNSEM.LKEYS.KEYREL.PRED "_surcoreano_a_rel" ]. surcoreano_n1 := n_intr_count_le & [ STEM < "surcoreano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_surcoreano_n_rel" ] ]. sureño_n1 := n_intr_count_le & [ STEM < "sureño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sureño_n_rel" ] ]. surfero_n1 := n_intr_count_le & [ STEM < "surfero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_surfero_n_rel" ] ]. surfista_n1 := n_intr_count_le & [ STEM < "surfista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_surfista_n_rel" ] ]. surgente_a1 := a_rel_nonprd_intr_le & [ STEM < "surgente" >, SYNSEM.LKEYS.KEYREL.PRED "_surgente_a_rel" ]. surgimiento_n1 := n_event-result_intr_le & [ STEM < "surgimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_surgimiento_n_rel" ]. surgir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "surgir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_surgir_v_rel" ] ] ]. surgir_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "surgir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_surgir_v_rel" ] ] ]. surgir_v3 := v_intr_mrkd_np_le & [ STEM < "surgir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_surgir_v_rel" ] ]. surgir_v4 := v_intr_mrkd_np_le & [ STEM < "surgir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_surgir_v_rel" ] ] ]. surgir_v5 := v_unacc_lcomp_loc*_perf_le & [ STEM < "surgir" >, SYNSEM.LKEYS.KEYREL.PRED "_surgir_v_rel" ]. suricata_n1 := n_intr_count_le & [ STEM < "suricata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_suricata_n_rel" ] ]. suroccidental_a1 := a_rel_prd_le & [ STEM < "suroccidental" >, SYNSEM.LKEYS.KEYREL.PRED "_suroccidental_a_rel" ]. suroriental_a1 := a_rel_prd_le & [ STEM < "suroriental" >, SYNSEM.LKEYS.KEYREL.PRED "_suroriental_a_rel" ]. surrealismo_n1 := n_intr_uncount_le & [ STEM < "surrealismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_surrealismo_n_rel" ] ]. surrealista_a1 := a_qual_intr_ser_le & [ STEM < "surrealista" >, SYNSEM.LKEYS.KEYREL.PRED "_surrealista_a_rel" ]. surrealista_n1 := n_intr_count_le & [ STEM < "surrealista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_surrealista_n_rel" ] ]. surtido_n1 := n_intr_mass_le & [ STEM < "surtido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_surtido_n_rel" ] ]. surtidor_a1 := a_rel_nonprd_intr_le & [ STEM < "surtidor" >, SYNSEM.LKEYS.KEYREL.PRED "_surtidor_a_rel" ]. surtidor_n1 := n_intr_count_le & [ STEM < "surtidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_surtidor_n_rel" ] ]. surtidoramente_x1 := av_i_spr_le & [ STEM < "surtidoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_surtidoramente_x_rel" ]. susceptancia_n1 := n_intr_uncount_le & [ STEM < "susceptancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_susceptancia_n_rel" ] ]. susceptibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "susceptibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_susceptibilidad_n_rel" ] ]. susceptible_a1 := a_qual_trans*_ser_le & [ STEM < "susceptible" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_susceptible_a_rel" ] ]. susceptible_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "susceptible" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_susceptible_a_rel" ] ]. susceptiblemente_x1 := av_i_spr_le & [ STEM < "susceptiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_susceptiblemente_x_rel" ]. suscitar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "suscitar" >, SYNSEM.LKEYS.KEYREL.PRED "_suscitar_v_rel" ]. suscitar_v2 := v_trans_np_le & [ STEM < "suscitar" >, SYNSEM.LKEYS.KEYREL.PRED "_suscitar_v_rel" ]. suscribir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "suscribir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_suscribir_v_rel" ] ]. suscripción_n1 := n_trans_le & [ STEM < "suscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_suscripción_n_rel" ]. suscriptor_n1 := n_subj-nom_le & [ STEM < "suscriptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_suscriptor_n_rel" ] ]. susodicho_a1 := a_rel_nonprd_intr_le & [ STEM < "susodicho" >, SYNSEM.LKEYS.KEYREL.PRED "_susodicho_a_rel" ]. suspender_v := v_trans_np*_le & [ STEM < "suspender" >, SYNSEM.LKEYS.KEYREL.PRED "_suspender_v_rel" ]. suspensivo_a1 := a_rel_nonprd_intr_le & [ STEM < "suspensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_suspensivo_a_rel" ]. suspensión_n1 := n_trans_le & [ STEM < "suspensión" >, SYNSEM.LKEYS.KEYREL.PRED "_suspensión_n_rel" ]. suspenso_n1 := n_intr_count_le & [ STEM < "suspenso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_suspenso_n_rel" ] ]. suspensoide_n1 := n_intr_count_le & [ STEM < "suspensoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_suspensoide_n_rel" ] ]. suspensor_a1 := a_rel_nonprd_intr_le & [ STEM < "suspensor" >, SYNSEM.LKEYS.KEYREL.PRED "_suspensor_a_rel" ]. suspicacia_n1 := n_ppcomp_mass_le & [ STEM < "suspicacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suspicacia_n_rel" ] ]. suspicaz_a1 := a_qual_intr_ser_le & [ STEM < "suspicaz" >, SYNSEM.LKEYS.KEYREL.PRED "_suspicaz_a_rel" ]. suspicazmente_x1 := av_i_spr_le & [ STEM < "suspicazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_suspicazmente_x_rel" ]. suspirar_v1 := v_intr_le & [ STEM < "suspirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_suspirar_v_rel" ] ]. suspirar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "suspirar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_suspirar_v_rel" ] ] ]. suspirar_v3 := v_intr_mrkd_np_le & [ STEM < "suspirar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_suspirar_v_rel" ] ] ]. suspirar_v4 := v_trans_cp_ques_le & [ STEM < "suspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_suspirar_v_rel" ]. suspiro_n1 := n_result_intr_le & [ STEM < "suspiro" >, SYNSEM.LKEYS.KEYREL.PRED "_suspiro_n_rel" ]. sustancia_n1 := n_intr_mass_le & [ STEM < "sustancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sustancia_n_rel" ] ]. sustanciación_n1 := n_trans_le & [ STEM < "sustanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_sustanciación_n_rel" ]. sustancial_a1 := a_qual_intr_ser_le & [ STEM < "sustancial" >, SYNSEM.LKEYS.KEYREL.PRED "_sustancial_a_rel" ]. sustancialmente_x1 := av_i_spr_le & [ STEM < "sustancialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sustancialmente_x_rel" ]. sustanciar_v := v_trans_np_le & [ STEM < "sustanciar" >, SYNSEM.LKEYS.KEYREL.PRED "_sustanciar_v_rel" ]. sustancioso_a1 := a_qual_intr_ser_le & [ STEM < "sustancioso" >, SYNSEM.LKEYS.KEYREL.PRED "_sustancioso_a_rel" ]. sustantivación_n1 := n_trans_le & [ STEM < "sustantivación" >, SYNSEM.LKEYS.KEYREL.PRED "_sustantivación_n_rel" ]. sustantividad_n1 := n_intr_uncount_le & [ STEM < "sustantividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sustantividad_n_rel" ] ]. sustantivo_a1 := a_rel_nonprd_intr_le & [ STEM < "sustantivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sustantivo_a_rel" ]. sustentación_n1 := n_trans_le & [ STEM < "sustentación" >, SYNSEM.LKEYS.KEYREL.PRED "_sustentación_n_rel" ]. sustentar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "sustentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_sustentar_v_rel" ] ]. sustentar_v2 := v_ditrans*_le & [ STEM < "sustentar" >, SYNSEM.LKEYS.KEYREL.PRED "_sustentar_v_rel" ]. sustentar_v3 := v_trans_np_mrkd_np_le & [ STEM < "sustentar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_sustentar_v_rel" ] ]. sustitución_n1 := n_trans_le & [ STEM < "sustitución" >, SYNSEM.LKEYS.KEYREL.PRED "_sustitución_n_rel" ]. sustituible_a1 := a_rel_prd_le & [ STEM < "sustituible" >, SYNSEM.LKEYS.KEYREL.PRED "_sustituible_a_rel" ]. sustitutivamente_x1 := av_i_spr_le & [ STEM < "sustitutivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sustitutivamente_x_rel" ]. sustitutivo_a1 := a_rel_nonprd_intr_le & [ STEM < "sustitutivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sustitutivo_a_rel" ]. sustituto_a1 := a_rel_nonprd_intr_le & [ STEM < "sustituto" >, SYNSEM.LKEYS.KEYREL.PRED "_sustituto_a_rel" ]. sustituto_n1 := n_intr_count_le & [ STEM < "sustituto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sustituto_n_rel" ] ]. sustitutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "sustitutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_sustitutorio_a_rel" ]. sustracción_n1 := n_trans_le & [ STEM < "sustracción" >, SYNSEM.LKEYS.KEYREL.PRED "_sustracción_n_rel" ]. sustractivamente_x1 := av_i_spr_le & [ STEM < "sustractivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sustractivamente_x_rel" ]. sustractivo_a1 := a_rel_nonprd_intr_le & [ STEM < "sustractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_sustractivo_a_rel" ]. sustractor_n1 := n_intr_count_le & [ STEM < "sustractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_sustractor_n_rel" ] ]. sustraer_v := v_ditrans*_le & [ STEM < "sustraer" >, SYNSEM.LKEYS.KEYREL.PRED "_sustraer_v_rel" ]. sustrato_n1 := n_intr_mass-or-count_le & [ STEM < "sustrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sustrato_n_rel" ] ]. susurrante_a1 := a_qual_intr_ser_le & [ STEM < "susurrante" >, SYNSEM.LKEYS.KEYREL.PRED "_susurrante_a_rel" ]. susurrar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "susurrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_susurrar_v_rel" ] ]. susurrar_v2 := v_ditrans_cp_ques_le & [ STEM < "susurrar" >, SYNSEM.LKEYS.KEYREL.PRED "_susurrar_v_rel" ]. susurrar_v3 := v_ditrans*_le & [ STEM < "susurrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro_sem, PRED "_susurrar_v_rel" ] ]. sutil_a1 := a_qual_intr_ser_le & [ STEM < "sutil" >, SYNSEM.LKEYS.KEYREL.PRED "_sutil_a_rel" ]. sutileza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "sutileza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sutileza_n_rel" ] ]. sutilmente_x1 := av_i_spr_le & [ STEM < "sutilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_sutilmente_x_rel" ]. sutura_n1 := n_intr_count_le & [ STEM < "sutura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sutura_n_rel" ] ]. sutural_a1 := a_rel_nonprd_intr_le & [ STEM < "sutural" >, SYNSEM.LKEYS.KEYREL.PRED "_sutural_a_rel" ]. suyo_a := a_poss_le & [ STEM < "suyo" >, SYNSEM.LKEYS.KEYREL.PRED "_suyo_a_rel" ]. suéter_n1 := n_intr_count_le & [ STEM < "suéter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_suéter_n_rel" ] ]. sábalo_n1 := n_intr_count_le & [ STEM < "sábalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_sábalo_n_rel" ] ]. sábana_n1 := n_intr_count_le & [ STEM < "sábana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sábana_n_rel" ] ]. sáculo_n1 := n_intr_count_le & [ STEM < "sáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sáculo_n_rel" ] ]. sádico_a1 := a_rel_nonprd_intr_le & [ STEM < "sádico" >, SYNSEM.LKEYS.KEYREL.PRED "_sádico_a_rel" ]. sádico_n1 := n_intr_count_le & [ STEM < "sádico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sádico_n_rel" ] ]. sálico_a1 := a_rel_nonprd_intr_le & [ STEM < "sálico" >, SYNSEM.LKEYS.KEYREL.PRED "_sálico_a_rel" ]. sámago_n1 := n_intr_count_le & [ STEM < "sámago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sámago_n_rel" ] ]. sándalo_n1 := n_intr_mass_le & [ STEM < "sándalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sándalo_n_rel" ] ]. sátira_n1 := n_intr_mass_le & [ STEM < "sátira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_sátira_n_rel" ] ]. sátiro_n1 := n_intr_count_le & [ STEM < "sátiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sátiro_n_rel" ] ]. sátrapa_n1 := n_intr_count_le & [ STEM < "sátrapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sátrapa_n_rel" ] ]. sémola_n1 := n_intr_mass_le & [ STEM < "sémola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sémola_n_rel" ] ]. sénior_n1 := n_intr_count_le & [ STEM < "sénior" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_sénior_n_rel" ] ]. sépalo_n1 := n_intr_count_le & [ STEM < "sépalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_sépalo_n_rel" ] ]. séptico_a1 := a_rel_nonprd_intr_le & [ STEM < "séptico" >, SYNSEM.LKEYS.KEYREL.PRED "_séptico_a_rel" ]. séquito_n1 := n_intr_coll_le & [ STEM < "séquito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_séquito_n_rel" ] ]. sérico_a1 := a_rel_nonprd_intr_le & [ STEM < "sérico" >, SYNSEM.LKEYS.KEYREL.PRED "_sérico_a_rel" ]. sésamo_n1 := n_intr_mass_le & [ STEM < "sésamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_sésamo_n_rel" ] ]. sésil_a1 := a_rel_nonprd_intr_le & [ STEM < "sésil" >, SYNSEM.LKEYS.KEYREL.PRED "_sésil_a_rel" ]. sí_p := pr_pers_obl_le & [ STEM < "sí" > ]. sí_x1 := av_s_cp_prop_le & [ STEM < "sí" >, SYNSEM.LKEYS.KEYREL.PRED "_sí_x_rel" ]. sílex_n1 := n_intr_count_le & [ STEM < "sílex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sílex_n_rel" ] ]. sílice_n1 := n_intr_mass_le & [ STEM < "sílice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_sílice_n_rel" ] ]. símbolo_n1 := n_intr_count_le & [ STEM < "símbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_símbolo_n_rel" ] ]. síncito_n1 := n_intr_count_le & [ STEM < "síncito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_síncito_n_rel" ] ]. síncrono_a1 := a_rel_nonprd_intr_le & [ STEM < "síncrono" >, SYNSEM.LKEYS.KEYREL.PRED "_síncrono_a_rel" ]. síndico_n1 := n_intr_count_le & [ STEM < "síndico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_síndico_n_rel" ] ]. síntesis_n1 := n_intr_mass_le & [ STEM < "síntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_síntesis_n_rel" ] ]. síntesis_n2 := n_trans_le & [ STEM < "síntesis" >, SYNSEM.LKEYS.KEYREL.PRED "_síntesis_n_rel" ]. sísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "sísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_sísmico_a_rel" ]. sódicamente_x1 := av_i_spr_le & [ STEM < "sódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sódicamente_x_rel" ]. sódico_a1 := a_rel_nonprd_intr_le & [ STEM < "sódico" >, SYNSEM.LKEYS.KEYREL.PRED "_sódico_a_rel" ]. sóleo_a1 := a_rel_nonprd_intr_le & [ STEM < "sóleo" >, SYNSEM.LKEYS.KEYREL.PRED "_sóleo_a_rel" ]. sólidamente_x1 := av_i_spr_le & [ STEM < "sólidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sólidamente_x_rel" ]. sólido_a1 := a_qual_intr_ser_le & [ STEM < "sólido" >, SYNSEM.LKEYS.KEYREL.PRED "_sólido_a_rel" ]. sólido_n1 := n_intr_mass-or-count_le & [ STEM < "sólido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_sólido_n_rel" ] ]. sólo_x1 := av_i_foc_le & [ STEM < "sólo" >, SYNSEM.LKEYS.KEYREL.PRED "_sólo_x_rel" ]. sólo_x2 := av_s_cp_prop_le & [ STEM < "sólo" >, SYNSEM.LKEYS.KEYREL.PRED "_sólo_x_rel" ]. sólo_x3 := av_i_np-foc_le & [ STEM < "sólo" >, SYNSEM.LKEYS.KEYREL.PRED "_sólo_x_rel" ]. sónicamente_x1 := av_i_spr_le & [ STEM < "sónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sónicamente_x_rel" ]. sónico_a1 := a_rel_nonprd_intr_le & [ STEM < "sónico" >, SYNSEM.LKEYS.KEYREL.PRED "_sónico_a_rel" ]. sórbico_a1 := a_rel_nonprd_intr_le & [ STEM < "sórbico" >, SYNSEM.LKEYS.KEYREL.PRED "_sórbico_a_rel" ]. sórdidamente_x1 := av_i_spr_le & [ STEM < "sórdidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_sórdidamente_x_rel" ]. sórdido_a1 := a_qual_intr_ser_le & [ STEM < "sórdido" >, SYNSEM.LKEYS.KEYREL.PRED "_sórdido_a_rel" ]. sótano_n1 := n_intr_count_le & [ STEM < "sótano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_sótano_n_rel" ] ]. súbdito_n1 := n_intr_count_le & [ STEM < "súbdito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_súbdito_n_rel" ] ]. súbitamente_x1 := av_i_spr_le & [ STEM < "súbitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_súbitamente_x_rel" ]. súbito_a1 := a_adv_event_le & [ STEM < "súbito" >, SYNSEM.LKEYS.KEYREL.PRED "_súbito_a_rel" ]. taaffeita_n1 := n_intr_count_le & [ STEM < "taaffeita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_taaffeita_n_rel" ] ]. tabacalero_a1 := a_rel_nonprd_intr_le & [ STEM < "tabacalero" >, SYNSEM.LKEYS.KEYREL.PRED "_tabacalero_a_rel" ]. tabaco_n1 := n_intr_mass_le & [ STEM < "tabaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tabaco_n_rel" ] ]. tabaquera_n1 := n_intr_count_le & [ STEM < "tabaquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabaquera_n_rel" ] ]. tabardo_n1 := n_intr_count_le & [ STEM < "tabardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabardo_n_rel" ] ]. tabasco_n1 := n_intr_count_le & [ STEM < "tabasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabasco_n_rel" ] ]. taberna_n1 := n_intr_count_le & [ STEM < "taberna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taberna_n_rel" ] ]. tabernero_n1 := n_intr_count_le & [ STEM < "tabernero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tabernero_n_rel" ] ]. tabernáculo_n1 := n_intr_count_le & [ STEM < "tabernáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabernáculo_n_rel" ] ]. tabes_n1 := n_intr_mass_le & [ STEM < "tabes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabes_n_rel" ] ]. tabica_n1 := n_intr_count_le & [ STEM < "tabica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabica_n_rel" ] ]. tabicar_v := v_trans_np_le & [ STEM < "tabicar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_tabicar_v_rel" ] ]. tabique_n1 := n_intr_count_le & [ STEM < "tabique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabique_n_rel" ] ]. tabiquería_n1 := n_intr_count_le & [ STEM < "tabiquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tabiquería_n_rel" ] ]. tabla_n1 := n_intr_count_le & [ STEM < "tabla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tabla_n_rel" ] ]. tablado_n1 := n_intr_count_le & [ STEM < "tablado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tablado_n_rel" ] ]. tablazón_n1 := n_intr_count_le & [ STEM < "tablazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tablazón_n_rel" ] ]. tablear_v := v_trans_np_le & [ STEM < "tablear" >, SYNSEM.LKEYS.KEYREL.PRED "_tablear_v_rel" ]. tablero_n1 := n_intr_count_le & [ STEM < "tablero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tablero_n_rel" ] ]. tablestaca_n1 := n_intr_count_le & [ STEM < "tablestaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tablestaca_n_rel" ] ]. tablestacado_n1 := n_intr_count_le & [ STEM < "tablestacado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tablestacado_n_rel" ] ]. tableta_n1 := n_pseudo-part_le & [ STEM < "tableta" >, SYNSEM.LKEYS.KEYREL.PRED "_tableta_n_rel" ]. tablilla_n1 := n_intr_count_le & [ STEM < "tablilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tablilla_n_rel" ] ]. tabloide_n1 := n_intr_count_le & [ STEM < "tabloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_tabloide_n_rel" ] ]. tablón_n1 := n_intr_count_le & [ STEM < "tablón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tablón_n_rel" ] ]. tabulación_n1 := n_trans_le & [ STEM < "tabulación" >, SYNSEM.LKEYS.KEYREL.PRED "_tabulación_n_rel" ]. tabulador_n1 := n_intr_count_le & [ STEM < "tabulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabulador_n_rel" ] ]. tabuladora_n1 := n_intr_count_le & [ STEM < "tabuladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tabuladora_n_rel" ] ]. tabular_a1 := a_rel_nonprd_intr_le & [ STEM < "tabular" >, SYNSEM.LKEYS.KEYREL.PRED "_tabular_a_rel" ]. tabular_v := v_trans_np_le & [ STEM < "tabular" >, SYNSEM.LKEYS.KEYREL.PRED "_tabular_v_rel" ]. tabularmente_x1 := av_i_spr_le & [ STEM < "tabularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tabularmente_x_rel" ]. taburete_n1 := n_intr_count_le & [ STEM < "taburete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taburete_n_rel" ] ]. tabáquico_a1 := a_rel_nonprd_intr_le & [ STEM < "tabáquico" >, SYNSEM.LKEYS.KEYREL.PRED "_tabáquico_a_rel" ]. tacañería_n1 := n_intr_uncount_pl_le & [ STEM < "tacañería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tacañería_n_rel" ] ]. tacaño_a1 := a_qual_intr_ser_le & [ STEM < "tacaño" >, SYNSEM.LKEYS.KEYREL.PRED "_tacaño_a_rel" ]. tacaño_n1 := n_intr_count_le & [ STEM < "tacaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tacaño_n_rel" ] ]. tacha_n1 := n_intr_count_le & [ STEM < "tacha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tacha_n_rel" ] ]. tachadura_n1 := n_trans_le & [ STEM < "tachadura" >, SYNSEM.LKEYS.KEYREL.PRED "_tachadura_n_rel" ]. tachuela_n1 := n_intr_count_le & [ STEM < "tachuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tachuela_n_rel" ] ]. taciturno_a1 := a_qual_intr_ser_le & [ STEM < "taciturno" >, SYNSEM.LKEYS.KEYREL.PRED "_taciturno_a_rel" ]. taco_n1 := n_intr_count_le & [ STEM < "taco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taco_n_rel" ] ]. tacogenerador_n1 := n_intr_count_le & [ STEM < "tacogenerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tacogenerador_n_rel" ] ]. tacométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "tacométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tacométrico_a_rel" ]. taconazo_n1 := n_intr_count_le & [ STEM < "taconazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taconazo_n_rel" ] ]. taconear_v := v_intr_le & [ STEM < "taconear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_taconear_v_rel" ] ]. tacógrafo_n1 := n_intr_count_le & [ STEM < "tacógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tacógrafo_n_rel" ] ]. tacómetro_n1 := n_intr_count_le & [ STEM < "tacómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tacómetro_n_rel" ] ]. tacón_n1 := n_intr_count_le & [ STEM < "tacón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tacón_n_rel" ] ]. tadorna_n1 := n_intr_count_le & [ STEM < "tadorna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tadorna_n_rel" ] ]. taekwondista_n1 := n_intr_count_le & [ STEM < "taekwondista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taekwondista_n_rel" ] ]. tafetán_n1 := n_intr_mass-or-count_le & [ STEM < "tafetán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tafetán_n_rel" ] ]. tafilete_n1 := n_intr_count_le & [ STEM < "tafilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tafilete_n_rel" ] ]. tafonomía_n1 := n_intr_uncount_le & [ STEM < "tafonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tafonomía_n_rel" ] ]. tahalí_n1 := n_intr_count_le & [ STEM < "tahalí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tahalí_n_rel" ] ]. taiga_n1 := n_intr_count_le & [ STEM < "taiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_taiga_n_rel" ] ]. tailandés_a1 := a_rel_prd_le & [ STEM < "tailandés" >, SYNSEM.LKEYS.KEYREL.PRED "_tailandés_a_rel" ]. tailandés_n1 := n_intr_count_le & [ STEM < "tailandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tailandés_n_rel" ] ]. taira_n1 := n_intr_count_le & [ STEM < "taira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_taira_n_rel" ] ]. taiwanés_a1 := a_rel_prd_le & [ STEM < "taiwanés" >, SYNSEM.LKEYS.KEYREL.PRED "_taiwanés_a_rel" ]. tajada_n1 := n_pseudo-part_le & [ STEM < "tajada" >, SYNSEM.LKEYS.KEYREL.PRED "_tajada_n_rel" ]. tajadera_n1 := n_intr_count_le & [ STEM < "tajadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tajadera_n_rel" ] ]. tajadora_n1 := n_intr_count_le & [ STEM < "tajadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tajadora_n_rel" ] ]. tajamar_n1 := n_intr_count_le & [ STEM < "tajamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tajamar_n_rel" ] ]. tajante_a1 := a_qual_intr_ser_le & [ STEM < "tajante" >, SYNSEM.LKEYS.KEYREL.PRED "_tajante_a_rel" ]. tajantemente_x1 := av_i_spr_le & [ STEM < "tajantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_tajantemente_x_rel" ]. tajar_v := v_trans_np_le & [ STEM < "tajar" >, SYNSEM.LKEYS.KEYREL.PRED "_tajar_v_rel" ]. tal_cual_x1 := av_i_le & [ STEM < "tal_cual" >, SYNSEM.LKEYS.KEYREL.PRED "_tal_cual_x_rel" ]. tal_d := d_dem_tal_le & [ STEM < "tal" > ]. tal_vez_x1 := av_s_cp_prop_le & [ STEM < "tal_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_tal_vez_x_rel" ]. tal_y_como_sc := sc_prop_fin_le & [ STEM < "tal_y_como" >, SYNSEM.LKEYS.KEYREL.PRED "_tal_y_como_x_subord_rel" ]. talabarte_n1 := n_intr_count_le & [ STEM < "talabarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talabarte_n_rel" ] ]. talabartero_n1 := n_intr_count_le & [ STEM < "talabartero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_talabartero_n_rel" ] ]. taladradora_n1 := n_intr_count_le & [ STEM < "taladradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_taladradora_n_rel" ] ]. taladrar_v := v_trans_np_le & [ STEM < "taladrar" >, SYNSEM.LKEYS.KEYREL.PRED "_taladrar_v_rel" ]. taladro_n1 := n_intr_count_le & [ STEM < "taladro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_taladro_n_rel" ] ]. talar_v := v_trans_np_le & [ STEM < "talar" >, SYNSEM.LKEYS.KEYREL.PRED "_talar_v_rel" ]. talasocracia_n1 := n_intr_uncount_pl_le & [ STEM < "talasocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talasocracia_n_rel" ] ]. talato_n1 := n_intr_count_le & [ STEM < "talato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_talato_n_rel" ] ]. talayote_n1 := n_intr_count_le & [ STEM < "talayote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_talayote_n_rel" ] ]. talco_n1 := n_intr_mass-or-count_le & [ STEM < "talco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_talco_n_rel" ] ]. talentoso_a1 := a_qual_intr_ser_le & [ STEM < "talentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_talentoso_a_rel" ]. talina_n1 := n_intr_count_le & [ STEM < "talina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_talina_n_rel" ] ]. talio_n1 := n_intr_mass_le & [ STEM < "talio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_talio_n_rel" ] ]. talismán_n1 := n_intr_count_le & [ STEM < "talismán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talismán_n_rel" ] ]. talión_n1 := n_intr_uncount_le & [ STEM < "talión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talión_n_rel" ] ]. tallado_n1 := n_trans_le & [ STEM < "tallado" >, SYNSEM.LKEYS.KEYREL.PRED "_tallado_n_rel" ]. talladora_n1 := n_intr_count_le & [ STEM < "talladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talladora_n_rel" ] ]. tallaje_n1 := n_intr_count_le & [ STEM < "tallaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tallaje_n_rel" ] ]. tallar_v := v_trans_np_le & [ STEM < "tallar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mat, PRED "_tallar_v_rel" ] ]. tallarín_n1 := n_intr_count_le & [ STEM < "tallarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tallarín_n_rel" ] ]. talle_n1 := n_intr_count_le & [ STEM < "talle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talle_n_rel" ] ]. taller_n1 := n_intr_count_le & [ STEM < "taller" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_taller_n_rel" ] ]. tallerina_n1 := n_intr_count_le & [ STEM < "tallerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tallerina_n_rel" ] ]. tallo_n1 := n_intr_count_le & [ STEM < "tallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tallo_n_rel" ] ]. talo_n1 := n_intr_count_le & [ STEM < "talo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talo_n_rel" ] ]. talonario_n1 := n_intr_count_le & [ STEM < "talonario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talonario_n_rel" ] ]. talonear_v := v_intr_le & [ STEM < "talonear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_talonear_v_rel" ] ]. talonera_n1 := n_intr_count_le & [ STEM < "talonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talonera_n_rel" ] ]. talquera_n1 := n_intr_count_le & [ STEM < "talquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talquera_n_rel" ] ]. talud_n1 := n_intr_count_le & [ STEM < "talud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_talud_n_rel" ] ]. talámico_a1 := a_rel_nonprd_intr_le & [ STEM < "talámico" >, SYNSEM.LKEYS.KEYREL.PRED "_talámico_a_rel" ]. talón_n1 := n_intr_count_le & [ STEM < "talón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_talón_n_rel" ] ]. tamarigal_n1 := n_intr_count_le & [ STEM < "tamarigal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tamarigal_n_rel" ] ]. tamarindo_n1 := n_intr_count_le & [ STEM < "tamarindo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tamarindo_n_rel" ] ]. tamarisco_n1 := n_intr_count_le & [ STEM < "tamarisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tamarisco_n_rel" ] ]. tamaño_n1 := n_ppcomp_count_le & [ STEM < "tamaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tamaño_n_rel" ] ]. tambaleante_a1 := a_qual_intr_scopal_le & [ STEM < "tambaleante" >, SYNSEM.LKEYS.KEYREL.PRED "_tambaleante_a_rel" ]. tambalear_v := v_pron_intr_le & [ STEM < "tambalear" >, SYNSEM.LKEYS.KEYREL.PRED "_tambalear_v_rel" ]. tambaleo_n1 := n_event-result_intr_le & [ STEM < "tambaleo" >, SYNSEM.LKEYS.KEYREL.PRED "_tambaleo_n_rel" ]. tambanillo_n1 := n_intr_count_le & [ STEM < "tambanillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tambanillo_n_rel" ] ]. también_x1 := av_i_foc_prehd_le & [ STEM < "también" >, SYNSEM.LKEYS.KEYREL.PRED "_también_x_rel" ]. también_x2 := av_s_cp_prop_le & [ STEM < "también" >, SYNSEM.LKEYS.KEYREL.PRED "_también_x_rel" ]. también_x3 := av_i_np-foc_le & [ STEM < "también" >, SYNSEM.LKEYS.KEYREL.PRED "_también_x_rel" ]. tambor_n1 := n_intr_count_le & [ STEM < "tambor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tambor_n_rel" ] ]. tamborilear_v := v_intr_le & [ STEM < "tamborilear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart_hum_pot_soc, PRED "_tamborilear_v_rel" ] ]. tamil_a1 := a_rel_prd_le & [ STEM < "tamil" >, SYNSEM.LKEYS.KEYREL.PRED "_tamil_a_rel" ]. tamil_n1 := n_intr_count_le & [ STEM < "tamil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tamil_n_rel" ] ]. tamiz_n1 := n_intr_count_le & [ STEM < "tamiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tamiz_n_rel" ] ]. tamización_n1 := n_trans_le & [ STEM < "tamización" >, SYNSEM.LKEYS.KEYREL.PRED "_tamización_n_rel" ]. tamizador_a1 := a_rel_nonprd_intr_le & [ STEM < "tamizador" >, SYNSEM.LKEYS.KEYREL.PRED "_tamizador_a_rel" ]. tamizador_n1 := n_intr_count_le & [ STEM < "tamizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tamizador_n_rel" ] ]. tamizar_v := v_trans_np_le & [ STEM < "tamizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_tamizar_v_rel" ] ]. tamo_n1 := n_intr_mass_le & [ STEM < "tamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tamo_n_rel" ] ]. tampoco_x1 := av_i_foc_prehd_le & [ STEM < "tampoco" >, SYNSEM.LKEYS.KEYREL.PRED "_tampoco_x_rel" ]. tampoco_x2 := av_s_cp_prop_le & [ STEM < "tampoco" >, SYNSEM.LKEYS.KEYREL.PRED "_tampoco_x_rel" ]. tampoco_x3 := av_i_np-foc_le & [ STEM < "tampoco" >, SYNSEM.LKEYS.KEYREL.PRED "_tampoco_x_rel" ]. tamponar_v := v_trans_np_le & [ STEM < "tamponar" >, SYNSEM.LKEYS.KEYREL.PRED "_tamponar_v_rel" ]. tampón_n1 := n_intr_count_le & [ STEM < "tampón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tampón_n_rel" ] ]. tan_pronto_como_sc := sc_prop_fin_le & [ STEM < "tan_pronto_como" >, SYNSEM.LKEYS.KEYREL.PRED "_tan_pronto_como_x_subord_rel" ]. tan_siquiera_x1 := av_i_le & [ STEM < "tan_siquiera" >, SYNSEM.LKEYS.KEYREL.PRED "_tan_siquiera_x_rel" ]. tan_x2 := av_cmp-eq-deg_le & [ STEM < "tan" >, SYNSEM.LKEYS.KEYREL.PRED "_tan_x_deg_rel" ]. tanagra_n1 := n_intr_count_le & [ STEM < "tanagra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tanagra_n_rel" ] ]. tanatorio_n1 := n_intr_count_le & [ STEM < "tanatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tanatorio_n_rel" ] ]. tangencia_n1 := n_ppcomp_uncount_le & [ STEM < "tangencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tangencia_n_rel" ] ]. tangencial_a1 := a_qual_intr_ser_le & [ STEM < "tangencial" >, SYNSEM.LKEYS.KEYREL.PRED "_tangencial_a_rel" ]. tangencialmente_x1 := av_i_spr_le & [ STEM < "tangencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tangencialmente_x_rel" ]. tangente_a1 := a_rel_nonprd_intr_le & [ STEM < "tangente" >, SYNSEM.LKEYS.KEYREL.PRED "_tangente_a_rel" ]. tangerino_n1 := n_intr_count_le & [ STEM < "tangerino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tangerino_n_rel" ] ]. tangibilidad_n1 := n_intr_uncount_le & [ STEM < "tangibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tangibilidad_n_rel" ] ]. tangible_a1 := a_qual_intr_ser_le & [ STEM < "tangible" >, SYNSEM.LKEYS.KEYREL.PRED "_tangible_a_rel" ]. tango_n1 := n_intr_count_le & [ STEM < "tango" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tango_n_rel" ] ]. tangón_n1 := n_intr_count_le & [ STEM < "tangón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tangón_n_rel" ] ]. tanino_n1 := n_intr_count_le & [ STEM < "tanino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tanino_n_rel" ] ]. tanque_n1 := n_intr_count_le & [ STEM < "tanque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tanque_n_rel" ] ]. tanqueta_n1 := n_intr_count_le & [ STEM < "tanqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tanqueta_n_rel" ] ]. tantalio_n1 := n_intr_mass_le & [ STEM < "tantalio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tantalio_n_rel" ] ]. tantalita_n1 := n_intr_count_le & [ STEM < "tantalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tantalita_n_rel" ] ]. tanteador_n1 := n_intr_count_le & [ STEM < "tanteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tanteador_n_rel" ] ]. tanteo_n1 := n_trans_le & [ STEM < "tanteo" >, SYNSEM.LKEYS.KEYREL.PRED "_tanteo_n_rel" ]. tanto_cc := cc_corr_tanto_le & [ STEM < "tanto" > ]. tanto_menos_que_sc := sc_prop_fin_le & [ STEM < "tanto_menos_que" >, SYNSEM.LKEYS.KEYREL.PRED "_tanto_menos_que_x_subord_rel" ]. tanto_más_que_sc := sc_prop_fin_le & [ STEM < "tanto_más_que" >, SYNSEM.LKEYS.KEYREL.PRED "_tanto_más_que_x_subord_rel" ]. tanto_peor_x1 := av_i_le & [ STEM < "tanto_peor" >, SYNSEM.LKEYS.KEYREL.PRED "_tanto_peor_x_rel" ]. tanto_por_ciento_x1 := av_i_le & [ STEM < "tanto_por_ciento" >, SYNSEM.LKEYS.KEYREL.PRED "_tanto_por_ciento_x_rel" ]. tanto_por_tanto_x1 := av_i_le & [ STEM < "tanto_por_tanto" >, SYNSEM.LKEYS.KEYREL.PRED "_tanto_por_tanto_x_rel" ]. tanto_x2 := av_qnt-pron_tant_le & [ STEM < "tanto" > ]. tanto_x3 := d_cmp-eq_tanto_le & [ STEM < "tanto" > ]. tanzanita_n1 := n_intr_count_le & [ STEM < "tanzanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tanzanita_n_rel" ] ]. tanzano_n1 := n_intr_count_le & [ STEM < "tanzano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tanzano_n_rel" ] ]. taoismo_n1 := n_intr_uncount_le & [ STEM < "taoismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taoismo_n_rel" ] ]. tapa_n1 := n_intr_count_le & [ STEM < "tapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapa_n_rel" ] ]. tapacubos_n1 := n_intr_count_le & [ STEM < "tapacubos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapacubos_n_rel" ] ]. tapadera_n1 := n_intr_count_le & [ STEM < "tapadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapadera_n_rel" ] ]. tapajunta_n1 := n_intr_count_le & [ STEM < "tapajunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapajunta_n_rel" ] ]. tapar_v := v_trans_np_caus_le & [ STEM < "tapar" >, SYNSEM.LKEYS.KEYREL.PRED "_tapar_v_rel" ]. taparrabos_n1 := n_intr_count_le & [ STEM < "taparrabos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taparrabos_n_rel" ] ]. tapete_n1 := n_intr_count_le & [ STEM < "tapete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapete_n_rel" ] ]. tapetum_n1 := n_intr_count_le & [ STEM < "tapetum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapetum_n_rel" ] ]. tapia_n1 := n_intr_count_le & [ STEM < "tapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapia_n_rel" ] ]. tapial_n1 := n_intr_count_le & [ STEM < "tapial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tapial_n_rel" ] ]. tapiar_v := v_trans_np_le & [ STEM < "tapiar" >, SYNSEM.LKEYS.KEYREL.PRED "_tapiar_v_rel" ]. tapicería_n1 := n_intr_mass_le & [ STEM < "tapicería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapicería_n_rel" ] ]. tapinocráneo_a1 := a_rel_nonprd_intr_le & [ STEM < "tapinocráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_tapinocráneo_a_rel" ]. tapioca_n1 := n_intr_mass_le & [ STEM < "tapioca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapioca_n_rel" ] ]. tapir_n1 := n_intr_count_le & [ STEM < "tapir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tapir_n_rel" ] ]. tapiz_n1 := n_intr_count_le & [ STEM < "tapiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapiz_n_rel" ] ]. tapizante_a1 := a_rel_nonprd_intr_le & [ STEM < "tapizante" >, SYNSEM.LKEYS.KEYREL.PRED "_tapizante_a_rel" ]. tapizar_v := v_trans_np_le & [ STEM < "tapizar" >, SYNSEM.LKEYS.KEYREL.PRED "_tapizar_v_rel" ]. taponamiento_n1 := n_trans_le & [ STEM < "taponamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_taponamiento_n_rel" ]. taponar_v := v_trans_np_caus_le & [ STEM < "taponar" >, SYNSEM.LKEYS.KEYREL.PRED "_taponar_v_rel" ]. tapón_n1 := n_intr_count_le & [ STEM < "tapón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tapón_n_rel" ] ]. taquigrafiar_v := v_trans_np_le & [ STEM < "taquigrafiar" >, SYNSEM.LKEYS.KEYREL.PRED "_taquigrafiar_v_rel" ]. taquigrafía_n1 := n_intr_uncount_le & [ STEM < "taquigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taquigrafía_n_rel" ] ]. taquigráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "taquigráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_taquigráfico_a_rel" ]. taquilla_n1 := n_intr_count_le & [ STEM < "taquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_taquilla_n_rel" ] ]. taquillero_a1 := a_qual_intr_ser_le & [ STEM < "taquillero" >, SYNSEM.LKEYS.KEYREL.PRED "_taquillero_a_rel" ]. taquimecanógrafo_n1 := n_intr_count_le & [ STEM < "taquimecanógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taquimecanógrafo_n_rel" ] ]. taquimetría_n1 := n_intr_uncount_pl_le & [ STEM < "taquimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taquimetría_n_rel" ] ]. taquimétricamente_x1 := av_i_spr_le & [ STEM < "taquimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_taquimétricamente_x_rel" ]. taquimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "taquimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_taquimétrico_a_rel" ]. taquisterol_n1 := n_intr_count_le & [ STEM < "taquisterol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_taquisterol_n_rel" ] ]. taqué_n1 := n_intr_count_le & [ STEM < "taqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taqué_n_rel" ] ]. taquígrafo_n1 := n_intr_count_le & [ STEM < "taquígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taquígrafo_n_rel" ] ]. taquímetro_n1 := n_intr_count_le & [ STEM < "taquímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taquímetro_n_rel" ] ]. tara_n := n_intr_count_le & [ STEM < "tara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mea, PRED "_tara_n_rel" ] ]. tarar_v := v_trans_np_le & [ STEM < "tarar" >, SYNSEM.LKEYS.KEYREL.PRED "_tarar_v_rel" ]. tararear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "tararear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tararear_v_rel" ] ]. tararear_v2 := v_ditrans*_le & [ STEM < "tararear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tararear_v_rel" ] ]. taraxacón_n1 := n_intr_count_le & [ STEM < "taraxacón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_taraxacón_n_rel" ] ]. tarayal_n1 := n_intr_count_le & [ STEM < "tarayal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tarayal_n_rel" ] ]. tardanza_n1 := n_result_intr_le & [ STEM < "tardanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tardanza_n_rel" ] ]. tardar_v := v_intr_mrkd_vp_ssr_le & [ STEM < "tardar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_tardar_v_rel" ] ]. tarde_n1 := n_pseudo-part_temp_le & [ STEM < "tarde" >, SYNSEM.LKEYS.KEYREL.PRED "_tarde_n_rel" ]. tarde_n2 := n_intr_temp_le & [ STEM < "tarde" > ]. tarde_x1 := av_i_spr_le & [ STEM < "tarde" >, SYNSEM.LKEYS.KEYREL.PRED "_tarde_x_rel" ]. tardo_a1 := a_rel_nonprd_intr_le & [ STEM < "tardo" >, SYNSEM.LKEYS.KEYREL.PRED "_tardo_a_rel" ]. tardío_a1 := a_qual_intr_ser_le & [ STEM < "tardío" >, SYNSEM.LKEYS.KEYREL.PRED "_tardío_a_rel" ]. tarifa_n1 := n_intr_count_le & [ STEM < "tarifa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarifa_n_rel" ] ]. tarifación_n1 := n_trans_le & [ STEM < "tarifación" >, SYNSEM.LKEYS.KEYREL.PRED "_tarifación_n_rel" ]. tarifario_a1 := a_rel_nonprd_intr_le & [ STEM < "tarifario" >, SYNSEM.LKEYS.KEYREL.PRED "_tarifario_a_rel" ]. tarifeño_n1 := n_intr_count_le & [ STEM < "tarifeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tarifeño_n_rel" ] ]. tarificación_n1 := n_trans_le & [ STEM < "tarificación" >, SYNSEM.LKEYS.KEYREL.PRED "_tarificación_n_rel" ]. tarima_n1 := n_intr_count_le & [ STEM < "tarima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tarima_n_rel" ] ]. tarjeta_n1 := n_intr_count_le & [ STEM < "tarjeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarjeta_n_rel" ] ]. tarot_n1 := n_intr_mass_le & [ STEM < "tarot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarot_n_rel" ] ]. tarraconense_a1 := a_rel_prd_le & [ STEM < "tarraconense" >, SYNSEM.LKEYS.KEYREL.PRED "_tarraconense_a_rel" ]. tarraconense_n1 := n_intr_count_le & [ STEM < "tarraconense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tarraconense_n_rel" ] ]. tarro_n1 := n_intr_count_le & [ STEM < "tarro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarro_n_rel" ] ]. tarsal_a1 := a_rel_nonprd_intr_le & [ STEM < "tarsal" >, SYNSEM.LKEYS.KEYREL.PRED "_tarsal_a_rel" ]. tarsero_n1 := n_intr_count_le & [ STEM < "tarsero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tarsero_n_rel" ] ]. tarsiano_a1 := a_rel_nonprd_intr_le & [ STEM < "tarsiano" >, SYNSEM.LKEYS.KEYREL.PRED "_tarsiano_a_rel" ]. tarso_n1 := n_ppcomp_count_le & [ STEM < "tarso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tarso_n_rel" ] ]. tarsometatarsiano_a1 := a_rel_nonprd_intr_le & [ STEM < "tarsometatarsiano" >, SYNSEM.LKEYS.KEYREL.PRED "_tarsometatarsiano_a_rel" ]. tarsorrafía_n1 := n_intr_uncount_le & [ STEM < "tarsorrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tarsorrafía_n_rel" ] ]. tarta_n1 := n_intr_mass_le & [ STEM < "tarta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarta_n_rel" ] ]. tartaleta_n1 := n_intr_count_le & [ STEM < "tartaleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tartaleta_n_rel" ] ]. tartamudear_v1 := v_intr_le & [ STEM < "tartamudear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tartamudear_v_rel" ] ]. tartamudear_v2 := v_trans_cp_ques_le & [ STEM < "tartamudear" >, SYNSEM.LKEYS.KEYREL.PRED "_tartamudear_v_rel" ]. tartamudeo_n1 := n_result_intr_le & [ STEM < "tartamudeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tartamudeo_n_rel" ] ]. tartamudo_n1 := n_intr_count_le & [ STEM < "tartamudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tartamudo_n_rel" ] ]. tartana_n1 := n_intr_count_le & [ STEM < "tartana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tartana_n_rel" ] ]. tartán_n1 := n_intr_count_le & [ STEM < "tartán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tartán_n_rel" ] ]. tartárico_a1 := a_rel_nonprd_intr_le & [ STEM < "tartárico" >, SYNSEM.LKEYS.KEYREL.PRED "_tartárico_a_rel" ]. tarugo_n1 := n_intr_count_le & [ STEM < "tarugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tarugo_n_rel" ] ]. tarántula_n1 := n_intr_count_le & [ STEM < "tarántula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tarántula_n_rel" ] ]. tas_n1 := n_intr_count_le & [ STEM < "tas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tas_n_rel" ] ]. tasable_a1 := a_rel_prd_le & [ STEM < "tasable" >, SYNSEM.LKEYS.KEYREL.PRED "_tasable_a_rel" ]. tasación_n1 := n_trans_le & [ STEM < "tasación" >, SYNSEM.LKEYS.KEYREL.PRED "_tasación_n_rel" ]. tasador_a1 := a_rel_nonprd_intr_le & [ STEM < "tasador" >, SYNSEM.LKEYS.KEYREL.PRED "_tasador_a_rel" ]. tasador_n1 := n_subj-nom_le & [ STEM < "tasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tasador_n_rel" ] ]. tatami_n1 := n_intr_count_le & [ STEM < "tatami" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tatami_n_rel" ] ]. tatarabuelo_n1 := n_intr_count_le & [ STEM < "tatarabuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tatarabuelo_n_rel" ] ]. tataranieto_n1 := n_intr_count_le & [ STEM < "tataranieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tataranieto_n_rel" ] ]. tatuaje_n1 := n_intr_count_le & [ STEM < "tatuaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tatuaje_n_rel" ] ]. taurino_a1 := a_rel_nonprd_intr_le & [ STEM < "taurino" >, SYNSEM.LKEYS.KEYREL.PRED "_taurino_a_rel" ]. taurodontismo_n1 := n_intr_uncount_le & [ STEM < "taurodontismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taurodontismo_n_rel" ] ]. taurodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "taurodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_taurodonto_a_rel" ]. tautofonía_n1 := n_intr_uncount_le & [ STEM < "tautofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tautofonía_n_rel" ] ]. tautofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "tautofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_tautofónico_a_rel" ]. tautología_n1 := n_intr_count_le & [ STEM < "tautología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tautología_n_rel" ] ]. tautológico_a1 := a_rel_nonprd_intr_le & [ STEM < "tautológico" >, SYNSEM.LKEYS.KEYREL.PRED "_tautológico_a_rel" ]. tautomerismo_n1 := n_intr_uncount_le & [ STEM < "tautomerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tautomerismo_n_rel" ] ]. tautosilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "tautosilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_tautosilábico_a_rel" ]. taxativamente_x1 := av_i_spr_le & [ STEM < "taxativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_taxativamente_x_rel" ]. taxatividad_n1 := n_intr_uncount_le & [ STEM < "taxatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxatividad_n_rel" ] ]. taxativo_a1 := a_rel_prd_le & [ STEM < "taxativo" >, SYNSEM.LKEYS.KEYREL.PRED "_taxativo_a_rel" ]. taxi_n1 := n_intr_count_le & [ STEM < "taxi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_taxi_n_rel" ] ]. taxidermista_n1 := n_intr_count_le & [ STEM < "taxidermista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taxidermista_n_rel" ] ]. taxista_n1 := n_intr_count_le & [ STEM < "taxista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taxista_n_rel" ] ]. taxonomista_n1 := n_intr_count_le & [ STEM < "taxonomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taxonomista_n_rel" ] ]. taxonomía_n1 := n_intr_count_le & [ STEM < "taxonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxonomía_n_rel" ] ]. taxonómicamente_x1 := av_i_spr_le & [ STEM < "taxonómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_taxonómicamente_x_rel" ]. taxonómico_a1 := a_rel_nonprd_intr_le & [ STEM < "taxonómico" >, SYNSEM.LKEYS.KEYREL.PRED "_taxonómico_a_rel" ]. taxímetro_n1 := n_intr_count_le & [ STEM < "taxímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taxímetro_n_rel" ] ]. taxónomo_n1 := n_intr_count_le & [ STEM < "taxónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_taxónomo_n_rel" ] ]. taylorismo_n1 := n_intr_uncount_le & [ STEM < "taylorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taylorismo_n_rel" ] ]. taza_n1 := n_intr_count_le & [ STEM < "taza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_taza_n_rel" ] ]. tazón_n1 := n_intr_count_le & [ STEM < "tazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tazón_n_rel" ] ]. tañido_n1 := n_trans_le & [ STEM < "tañido" >, SYNSEM.LKEYS.KEYREL.PRED "_tañido_n_rel" ]. te_p := af_acc_or_rflx_or_dat_le & [ STEM < "te" > ]. tea_n1 := n_intr_count_le & [ STEM < "tea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tea_n_rel" ] ]. teatral_a1 := a_rel_nonprd_intr_le & [ STEM < "teatral" >, SYNSEM.LKEYS.KEYREL.PRED "_teatral_a_rel" ]. teatralidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "teatralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teatralidad_n_rel" ] ]. teatrino_n1 := n_intr_count_le & [ STEM < "teatrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teatrino_n_rel" ] ]. teatro_n1 := n_intr_count_le & [ STEM < "teatro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_teatro_n_rel" ] ]. tebaína_n1 := n_intr_count_le & [ STEM < "tebaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tebaína_n_rel" ] ]. tebeo_n1 := n_intr_count_le & [ STEM < "tebeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_tebeo_n_rel" ] ]. teca_n1 := n_intr_count_le & [ STEM < "teca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_teca_n_rel" ] ]. techar_v := v_trans_np_le & [ STEM < "techar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_mat, PRED "_techar_v_rel" ] ]. techo_n1 := n_intr_count_le & [ STEM < "techo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_techo_n_rel" ] ]. techumbre_n1 := n_intr_count_le & [ STEM < "techumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_techumbre_n_rel" ] ]. teckel_n1 := n_intr_count_le & [ STEM < "teckel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_teckel_n_rel" ] ]. tecla_n1 := n_intr_count_le & [ STEM < "tecla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tecla_n_rel" ] ]. teclado_n1 := n_intr_count_le & [ STEM < "teclado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teclado_n_rel" ] ]. teclear_v := v_trans_np*_le & [ STEM < "teclear" >, SYNSEM.LKEYS.KEYREL.PRED "_teclear_v_rel" ]. tecleo_n1 := n_trans_le & [ STEM < "tecleo" >, SYNSEM.LKEYS.KEYREL.PRED "_tecleo_n_rel" ]. teclista_n1 := n_intr_count_le & [ STEM < "teclista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teclista_n_rel" ] ]. tecnecio_n1 := n_intr_mass_le & [ STEM < "tecnecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tecnecio_n_rel" ] ]. tecnetio_n1 := n_intr_mass_le & [ STEM < "tecnetio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tecnetio_n_rel" ] ]. tecnicismo_n1 := n_intr_mass-or-count_le & [ STEM < "tecnicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tecnicismo_n_rel" ] ]. tecnoambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "tecnoambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_tecnoambiental_a_rel" ]. tecnocracia_n1 := n_intr_uncount_pl_le & [ STEM < "tecnocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tecnocracia_n_rel" ] ]. tecnoestructura_n1 := n_intr_count_le & [ STEM < "tecnoestructura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tecnoestructura_n_rel" ] ]. tecnología_n1 := n_intr_mass-or-count_le & [ STEM < "tecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tecnología_n_rel" ] ]. tecnológicamente_x1 := av_i_spr_le & [ STEM < "tecnológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tecnológicamente_x_rel" ]. tecnológico_a1 := a_rel_nonprd_intr_le & [ STEM < "tecnológico" >, SYNSEM.LKEYS.KEYREL.PRED "_tecnológico_a_rel" ]. tecnígrafo_n1 := n_intr_count_le & [ STEM < "tecnígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tecnígrafo_n_rel" ] ]. tecnócrata_n1 := n_intr_count_le & [ STEM < "tecnócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tecnócrata_n_rel" ] ]. tectita_n1 := n_intr_count_le & [ STEM < "tectita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tectita_n_rel" ] ]. tectolabial_a1 := a_rel_nonprd_intr_le & [ STEM < "tectolabial" >, SYNSEM.LKEYS.KEYREL.PRED "_tectolabial_a_rel" ]. tectorio_a1 := a_rel_nonprd_intr_le & [ STEM < "tectorio" >, SYNSEM.LKEYS.KEYREL.PRED "_tectorio_a_rel" ]. tectosfera_n1 := n_intr_uncount_le & [ STEM < "tectosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tectosfera_n_rel" ] ]. tectosilicato_n1 := n_intr_count_le & [ STEM < "tectosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tectosilicato_n_rel" ] ]. tectónicamente_x1 := av_i_spr_le & [ STEM < "tectónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tectónicamente_x_rel" ]. tectónico_a1 := a_rel_nonprd_intr_le & [ STEM < "tectónico" >, SYNSEM.LKEYS.KEYREL.PRED "_tectónico_a_rel" ]. tedioso_a1 := a_qual_intr_ser_le & [ STEM < "tedioso" >, SYNSEM.LKEYS.KEYREL.PRED "_tedioso_a_rel" ]. teflón_n1 := n_intr_count_le & [ STEM < "teflón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teflón_n_rel" ] ]. tegumento_n1 := n_intr_mass_le & [ STEM < "tegumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tegumento_n_rel" ] ]. teja_n1 := n_intr_count_le & [ STEM < "teja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teja_n_rel" ] ]. tejadillo_n1 := n_intr_count_le & [ STEM < "tejadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejadillo_n_rel" ] ]. tejado_n1 := n_intr_count_le & [ STEM < "tejado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejado_n_rel" ] ]. tejano_a1 := a_rel_prd_le & [ STEM < "tejano" >, SYNSEM.LKEYS.KEYREL.PRED "_tejano_a_rel" ]. tejano_n1 := n_intr_count_le & [ STEM < "tejano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_tejano_n_rel" ] ]. tejavana_n1 := n_intr_count_le & [ STEM < "tejavana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejavana_n_rel" ] ]. tejedor_n1 := n_intr_count_le & [ STEM < "tejedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_tejedor_n_rel" ] ]. tejer_v := v_trans_np*_le & [ STEM < "tejer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, PRED "_tejer_v_rel" ] ]. tejería_n1 := n_intr_count_le & [ STEM < "tejería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejería_n_rel" ] ]. tejible_a1 := a_rel_prd_le & [ STEM < "tejible" >, SYNSEM.LKEYS.KEYREL.PRED "_tejible_a_rel" ]. tejido_n1 := n_intr_mass_le & [ STEM < "tejido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejido_n_rel" ] ]. tejo_n1 := n_intr_count_le & [ STEM < "tejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tejo_n_rel" ] ]. tejón_n1 := n_intr_count_le & [ STEM < "tejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tejón_n_rel" ] ]. tela_n1 := n_intr_mass-or-count_le & [ STEM < "tela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tela_n_rel" ] ]. telar_n1 := n_intr_count_le & [ STEM < "telar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_telar_n_rel" ] ]. telaraña_n1 := n_intr_mass_le & [ STEM < "telaraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telaraña_n_rel" ] ]. tele_n1 := n_intr_mass-or-count_le & [ STEM < "tele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_tele_n_rel" ] ]. telealarma_n1 := n_intr_count_le & [ STEM < "telealarma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telealarma_n_rel" ] ]. teleapuntador_n1 := n_intr_count_le & [ STEM < "teleapuntador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teleapuntador_n_rel" ] ]. telearrastre_n1 := n_intr_count_le & [ STEM < "telearrastre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telearrastre_n_rel" ] ]. telebaby_n1 := n_intr_count_le & [ STEM < "telebaby" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telebaby_n_rel" ] ]. telecabina_n1 := n_intr_count_le & [ STEM < "telecabina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecabina_n_rel" ] ]. telecine_n1 := n_intr_count_le & [ STEM < "telecine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_telecine_n_rel" ] ]. telecinematógrafo_n1 := n_intr_count_le & [ STEM < "telecinematógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecinematógrafo_n_rel" ] ]. telecinta_n1 := n_intr_count_le & [ STEM < "telecinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecinta_n_rel" ] ]. telecomposición_n1 := n_intr_uncount_le & [ STEM < "telecomposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecomposición_n_rel" ] ]. telecomunicación_n1 := n_intr_count_le & [ STEM < "telecomunicación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecomunicación_n_rel" ] ]. teleconferencia_n1 := n_intr_count_le & [ STEM < "teleconferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleconferencia_n_rel" ] ]. teleconmutador_n1 := n_intr_count_le & [ STEM < "teleconmutador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teleconmutador_n_rel" ] ]. telecontrol_n1 := n_intr_count_le & [ STEM < "telecontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecontrol_n_rel" ] ]. telecontrolar_v := v_trans_np_le & [ STEM < "telecontrolar" >, SYNSEM.LKEYS.KEYREL.PRED "_telecontrolar_v_rel" ]. telecopia_n1 := n_intr_count_le & [ STEM < "telecopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecopia_n_rel" ] ]. telecopiador_n1 := n_intr_count_le & [ STEM < "telecopiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecopiador_n_rel" ] ]. telecopiadora_n1 := n_intr_count_le & [ STEM < "telecopiadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telecopiadora_n_rel" ] ]. telecopiar_v := v_ditrans*_le & [ STEM < "telecopiar" >, SYNSEM.LKEYS.KEYREL.PRED "_telecopiar_v_rel" ]. telecracia_n1 := n_intr_uncount_pl_le & [ STEM < "telecracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecracia_n_rel" ] ]. telecromómero_n1 := n_intr_count_le & [ STEM < "telecromómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telecromómero_n_rel" ] ]. teledetección_n1 := n_intr_uncount_le & [ STEM < "teledetección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teledetección_n_rel" ] ]. teledifusión_n1 := n_intr_uncount_le & [ STEM < "teledifusión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teledifusión_n_rel" ] ]. teledirigir_v := v_trans_np_le & [ STEM < "teledirigir" >, SYNSEM.LKEYS.KEYREL.PRED "_teledirigir_v_rel" ]. teleescritura_n1 := n_intr_uncount_le & [ STEM < "teleescritura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleescritura_n_rel" ] ]. telefax_n1 := n_intr_count_le & [ STEM < "telefax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_telefax_n_rel" ] ]. telefilm_n1 := n_intr_count_le & [ STEM < "telefilm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_telefilm_n_rel" ] ]. telefonazo_n1 := n_intr_count_le & [ STEM < "telefonazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telefonazo_n_rel" ] ]. telefonear_v := v_trans_np_le & [ STEM < "telefonear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_telefonear_v_rel" ] ]. telefonear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "telefonear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_telefonear_v_rel" ] ]. telefonear_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "telefonear" >, SYNSEM.LKEYS.KEYREL.PRED "_telefonear_v_rel" ]. telefonear_v3 := v_intr_le & [ STEM < "telefonear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_telefonear_v_rel" ] ]. telefonista_n1 := n_intr_count_le & [ STEM < "telefonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telefonista_n_rel" ] ]. telefonía_n1 := n_intr_uncount_pl_le & [ STEM < "telefonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telefonía_n_rel" ] ]. telefoto_n1 := n_intr_count_le & [ STEM < "telefoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_telefoto_n_rel" ] ]. telefotografía_n1 := n_intr_count_le & [ STEM < "telefotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_telefotografía_n_rel" ] ]. telefotógrafo_n1 := n_intr_count_le & [ STEM < "telefotógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telefotógrafo_n_rel" ] ]. teleférico_n1 := n_intr_count_le & [ STEM < "teleférico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teleférico_n_rel" ] ]. telefónicamente_x1 := av_i_le & [ STEM < "telefónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telefónicamente_x_rel" ]. telefónico_a1 := a_rel_nonprd_intr_le & [ STEM < "telefónico" >, SYNSEM.LKEYS.KEYREL.PRED "_telefónico_a_rel" ]. telegestión_n1 := n_trans_le & [ STEM < "telegestión" >, SYNSEM.LKEYS.KEYREL.PRED "_telegestión_n_rel" ]. telegrabación_n1 := n_trans_le & [ STEM < "telegrabación" >, SYNSEM.LKEYS.KEYREL.PRED "_telegrabación_n_rel" ]. telegrabar_v := v_trans_np*_le & [ STEM < "telegrabar" >, SYNSEM.LKEYS.KEYREL.PRED "_telegrabar_v_rel" ]. telegrafiar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "telegrafiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_telegrafiar_v_rel" ] ]. telegrafiar_v2 := v_trans_np*_io*_le & [ STEM < "telegrafiar" >, SYNSEM.LKEYS.KEYREL.PRED "_telegrafiar_v_rel" ]. telegrafista_n1 := n_intr_count_le & [ STEM < "telegrafista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telegrafista_n_rel" ] ]. telegrafía_n1 := n_intr_uncount_pl_le & [ STEM < "telegrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telegrafía_n_rel" ] ]. telegrama_n1 := n_intr_count_le & [ STEM < "telegrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_telegrama_n_rel" ] ]. telegráficamente_x1 := av_i_spr_le & [ STEM < "telegráficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telegráficamente_x_rel" ]. telegráfico_a1 := a_rel_nonprd_intr_le & [ STEM < "telegráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_telegráfico_a_rel" ]. teleguiadamente_x1 := av_i_spr_le & [ STEM < "teleguiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_teleguiadamente_x_rel" ]. teleguiaje_n1 := n_trans_le & [ STEM < "teleguiaje" >, SYNSEM.LKEYS.KEYREL.PRED "_teleguiaje_n_rel" ]. teleimpresión_n1 := n_trans_le & [ STEM < "teleimpresión" >, SYNSEM.LKEYS.KEYREL.PRED "_teleimpresión_n_rel" ]. teleimpresor_n1 := n_intr_count_le & [ STEM < "teleimpresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_teleimpresor_n_rel" ] ]. teleimpresora_n1 := n_intr_count_le & [ STEM < "teleimpresora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_teleimpresora_n_rel" ] ]. teleinformático_a1 := a_rel_nonprd_intr_le & [ STEM < "teleinformático" >, SYNSEM.LKEYS.KEYREL.PRED "_teleinformático_a_rel" ]. telelectura_n1 := n_intr_uncount_le & [ STEM < "telelectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telelectura_n_rel" ] ]. telemando_n1 := n_intr_count_le & [ STEM < "telemando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telemando_n_rel" ] ]. telemanipulador_n1 := n_intr_count_le & [ STEM < "telemanipulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telemanipulador_n_rel" ] ]. telemecánicamente_x1 := av_i_spr_le & [ STEM < "telemecánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telemecánicamente_x_rel" ]. telemecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "telemecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_telemecánico_a_rel" ]. telemedición_n1 := n_intr_count_le & [ STEM < "telemedición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telemedición_n_rel" ] ]. telemedir_v := v_trans_np_le & [ STEM < "telemedir" >, SYNSEM.LKEYS.KEYREL.PRED "_telemedir_v_rel" ]. telemetro_n1 := n_intr_count_le & [ STEM < "telemetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telemetro_n_rel" ] ]. telemetría_n1 := n_intr_uncount_pl_le & [ STEM < "telemetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telemetría_n_rel" ] ]. telemotor_n1 := n_intr_count_le & [ STEM < "telemotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telemotor_n_rel" ] ]. telemáticamente_x1 := av_i_spr_le & [ STEM < "telemáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telemáticamente_x_rel" ]. telemático_a1 := a_rel_nonprd_intr_le & [ STEM < "telemático" >, SYNSEM.LKEYS.KEYREL.PRED "_telemático_a_rel" ]. telemétricamente_x1 := av_i_spr_le & [ STEM < "telemétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telemétricamente_x_rel" ]. telemétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "telemétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_telemétrico_a_rel" ]. telencéfalo_n1 := n_ppcomp_count_le & [ STEM < "telencéfalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_telencéfalo_n_rel" ] ]. teleobjetivo_n1 := n_intr_count_le & [ STEM < "teleobjetivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teleobjetivo_n_rel" ] ]. teleología_n1 := n_intr_uncount_le & [ STEM < "teleología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleología_n_rel" ] ]. teleológicamente_x1 := av_i_spr_le & [ STEM < "teleológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_teleológicamente_x_rel" ]. teleológico_a1 := a_rel_nonprd_intr_le & [ STEM < "teleológico" >, SYNSEM.LKEYS.KEYREL.PRED "_teleológico_a_rel" ]. telepatía_n1 := n_intr_uncount_le & [ STEM < "telepatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telepatía_n_rel" ] ]. telepeaje_n1 := n_intr_uncount_le & [ STEM < "telepeaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telepeaje_n_rel" ] ]. telepeaje_n2 := n_intr_count_le & [ STEM < "telepeaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telepeaje_n_rel" ] ]. telepedido_n1 := n_intr_count_le & [ STEM < "telepedido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telepedido_n_rel" ] ]. teleprocesamiento_n1 := n_trans_le & [ STEM < "teleprocesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_teleprocesamiento_n_rel" ]. telepuerto_n1 := n_intr_count_le & [ STEM < "telepuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telepuerto_n_rel" ] ]. telepáticamente_x1 := av_i_spr_le & [ STEM < "telepáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telepáticamente_x_rel" ]. telepático_a1 := a_rel_nonprd_intr_le & [ STEM < "telepático" >, SYNSEM.LKEYS.KEYREL.PRED "_telepático_a_rel" ]. telequélico_a1 := a_rel_nonprd_intr_le & [ STEM < "telequélico" >, SYNSEM.LKEYS.KEYREL.PRED "_telequélico_a_rel" ]. telero_n1 := n_intr_count_le & [ STEM < "telero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telero_n_rel" ] ]. telerradiografía_n1 := n_intr_count_le & [ STEM < "telerradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telerradiografía_n_rel" ] ]. telerreunión_n1 := n_result_intr_ppcomp_le & [ STEM < "telerreunión" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_telerreunión_n_rel" ] ]. telescopio_n1 := n_intr_count_le & [ STEM < "telescopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telescopio_n_rel" ] ]. telescópicamente_x1 := av_i_spr_le & [ STEM < "telescópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telescópicamente_x_rel" ]. telescópico_a1 := a_rel_nonprd_intr_le & [ STEM < "telescópico" >, SYNSEM.LKEYS.KEYREL.PRED "_telescópico_a_rel" ]. teleseñalización_n1 := n_trans_le & [ STEM < "teleseñalización" >, SYNSEM.LKEYS.KEYREL.PRED "_teleseñalización_n_rel" ]. telesilla_n1 := n_intr_count_le & [ STEM < "telesilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telesilla_n_rel" ] ]. telespectador_n1 := n_intr_count_le & [ STEM < "telespectador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telespectador_n_rel" ] ]. telesquí_n1 := n_intr_count_le & [ STEM < "telesquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telesquí_n_rel" ] ]. telesupervisión_n1 := n_trans_le & [ STEM < "telesupervisión" >, SYNSEM.LKEYS.KEYREL.PRED "_telesupervisión_n_rel" ]. telesísmicamente_x1 := av_i_spr_le & [ STEM < "telesísmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telesísmicamente_x_rel" ]. telesísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "telesísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_telesísmico_a_rel" ]. teletex_n1 := n_intr_count_le & [ STEM < "teletex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_teletex_n_rel" ] ]. teletexto_n1 := n_intr_count_le & [ STEM < "teletexto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_teletexto_n_rel" ] ]. teletipo_n1 := n_intr_count_le & [ STEM < "teletipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_teletipo_n_rel" ] ]. teletrabajador_n1 := n_intr_count_le & [ STEM < "teletrabajador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teletrabajador_n_rel" ] ]. teletransmisión_n1 := n_trans_le & [ STEM < "teletransmisión" >, SYNSEM.LKEYS.KEYREL.PRED "_teletransmisión_n_rel" ]. teletratamiento_n1 := n_trans_le & [ STEM < "teletratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_teletratamiento_n_rel" ]. televidente_n1 := n_intr_count_le & [ STEM < "televidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_televidente_n_rel" ] ]. televisar_v := v_trans_np_le & [ STEM < "televisar" >, SYNSEM.LKEYS.KEYREL.PRED "_televisar_v_rel" ]. televisivo_a1 := a_rel_nonprd_intr_le & [ STEM < "televisivo" >, SYNSEM.LKEYS.KEYREL.PRED "_televisivo_a_rel" ]. televisión_n1 := n_intr_mass-or-count_le & [ STEM < "televisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_televisión_n_rel" ] ]. televisor_n1 := n_intr_count_le & [ STEM < "televisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_televisor_n_rel" ] ]. telex_n1 := n_intr_count_le & [ STEM < "telex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_telex_n_rel" ] ]. telf_n1 := n_intr_count_le & [ STEM < "telf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telf_n_rel" ] ]. telicarión_n1 := n_intr_count_le & [ STEM < "telicarión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telicarión_n_rel" ] ]. telnet_n1 := n_intr_count_le & [ STEM < "telnet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_telnet_n_rel" ] ]. telocéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "telocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_telocéntrico_a_rel" ]. telomerización_n1 := n_intr_count_le & [ STEM < "telomerización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telomerización_n_rel" ] ]. telonero_n1 := n_intr_count_le & [ STEM < "telonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_telonero_n_rel" ] ]. telosindético_a1 := a_rel_nonprd_intr_le & [ STEM < "telosindético" >, SYNSEM.LKEYS.KEYREL.PRED "_telosindético_a_rel" ]. telurio_n1 := n_intr_mass_le & [ STEM < "telurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_telurio_n_rel" ] ]. teluro_n1 := n_intr_count_le & [ STEM < "teluro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teluro_n_rel" ] ]. telurómetro_n1 := n_intr_count_le & [ STEM < "telurómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telurómetro_n_rel" ] ]. teléfono_n1 := n_intr_count_le & [ STEM < "teléfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teléfono_n_rel" ] ]. telégrafo_n1 := n_intr_count_le & [ STEM < "telégrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_telégrafo_n_rel" ] ]. telémetro_n1 := n_intr_count_le & [ STEM < "telémetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telémetro_n_rel" ] ]. telómero_n1 := n_intr_mass-or-count_le & [ STEM < "telómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_telómero_n_rel" ] ]. telón_n1 := n_intr_count_le & [ STEM < "telón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_telón_n_rel" ] ]. telúricamente_x1 := av_i_spr_le & [ STEM < "telúricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_telúricamente_x_rel" ]. telúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "telúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_telúrico_a_rel" ]. tematización_n1 := n_trans_le & [ STEM < "tematización" >, SYNSEM.LKEYS.KEYREL.PRED "_tematización_n_rel" ]. tembladera_n1 := n_intr_count_le & [ STEM < "tembladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tembladera_n_rel" ] ]. temblar_v := v_intr_mrkd_np*_le & [ STEM < "temblar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_temblar_v_rel" ] ]. temblor_n1 := n_result_intr_le & [ STEM < "temblor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temblor_n_rel" ] ]. tembloroso_a1 := a_qual_intr_ser_le & [ STEM < "tembloroso" >, SYNSEM.LKEYS.KEYREL.PRED "_tembloroso_a_rel" ]. temblón_a1 := a_qual_intr_ser_le & [ STEM < "temblón" >, SYNSEM.LKEYS.KEYREL.PRED "_temblón_a_rel" ]. temer_v1 := v_intr_mrkd_np_le & [ STEM < "temer" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_temer_v_rel" ] ]. temer_v2 := v_pron_trans_cp_prop_fin_ind_le & [ STEM < "temer" >, SYNSEM.LKEYS.KEYREL.PRED "_temer_v_rel" ]. temer_v3 := v_pron_trans_np_le & [ STEM < "temer" >, SYNSEM.LKEYS.KEYREL.PRED "_temer_v_rel" ]. temer_v4 := v_trans_np_le & [ STEM < "temer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_temer_v_rel" ] ]. temer_v5 := v_trans_s_or_cp_prop_fin_sub_le & [ STEM < "temer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_temer_v_rel" ] ]. temerariamente_x1 := av_i_spr_le & [ STEM < "temerariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_temerariamente_x_rel" ]. temerario_a1 := a_qual_intr_ser_le & [ STEM < "temerario" >, SYNSEM.LKEYS.KEYREL.PRED "_temerario_a_rel" ]. temeridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "temeridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temeridad_n_rel" ] ]. temerosamente_x1 := av_i_spr_le & [ STEM < "temerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_temerosamente_x_rel" ]. temeroso_a1 := a_qual_cp_prop_fin_estar_le & [ STEM < "temeroso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_temeroso_a_rel" ] ]. temeroso_a2 := a_qual_cp_ques_estar_le & [ STEM < "temeroso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_temeroso_a_rel" ] ]. temeroso_a3 := a_qual_trans*_ser_le & [ STEM < "temeroso" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_temeroso_a_rel" ] ]. temible_a1 := a_qual_intr_ser_le & [ STEM < "temible" >, SYNSEM.LKEYS.KEYREL.PRED "_temible_a_rel" ]. temor_n1 := n_ppde_ppcomp_count_le & [ STEM < "temor" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_temor_n_rel" ] ] ]. temperamental_a1 := a_qual_intr_ser_le & [ STEM < "temperamental" >, SYNSEM.LKEYS.KEYREL.PRED "_temperamental_a_rel" ]. temperamento_n1 := n_intr_mass_le & [ STEM < "temperamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temperamento_n_rel" ] ]. temperancia_n1 := n_intr_mass_le & [ STEM < "temperancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temperancia_n_rel" ] ]. temperatura_n1 := n_intr_mass_le & [ STEM < "temperatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_temperatura_n_rel" ] ]. tempero_n1 := n_intr_count_le & [ STEM < "tempero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tempero_n_rel" ] ]. tempestad_n1 := n_intr_count_le & [ STEM < "tempestad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_tempestad_n_rel" ] ]. tempestuosamente_x1 := av_i_spr_le & [ STEM < "tempestuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tempestuosamente_x_rel" ]. tempestuoso_a1 := a_qual_intr_ser_le & [ STEM < "tempestuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tempestuoso_a_rel" ]. templabilidad_n1 := n_intr_uncount_le & [ STEM < "templabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_templabilidad_n_rel" ] ]. templable_a1 := a_qual_intr_ser_le & [ STEM < "templable" >, SYNSEM.LKEYS.KEYREL.PRED "_templable_a_rel" ]. templanza_n1 := n_intr_mass_le & [ STEM < "templanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_templanza_n_rel" ] ]. templar_v := v_trans_np_le & [ STEM < "templar" >, SYNSEM.LKEYS.KEYREL.PRED "_templar_v_rel" ]. templario_n1 := n_intr_count_le & [ STEM < "templario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_templario_n_rel" ] ]. templete_n1 := n_intr_count_le & [ STEM < "templete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_templete_n_rel" ] ]. templo_n1 := n_intr_count_le & [ STEM < "templo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_templo_n_rel" ] ]. temporada_n1 := n_intr_count_le & [ STEM < "temporada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_temporada_n_rel" ] ]. temporal_a1 := a_rel_prd_le & [ STEM < "temporal" >, SYNSEM.LKEYS.KEYREL.PRED "_temporal_a_rel" ]. temporal_n1 := n_intr_count_le & [ STEM < "temporal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temporal_n_rel" ] ]. temporalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "temporalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temporalidad_n_rel" ] ]. temporalmente_x1 := av_i_spr_le & [ STEM < "temporalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_temporalmente_x_rel" ]. temporariamente_x1 := av_i_spr_le & [ STEM < "temporariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_temporariamente_x_rel" ]. temporero_n1 := n_intr_count_le & [ STEM < "temporero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_temporero_n_rel" ] ]. temporización_n1 := n_trans_le & [ STEM < "temporización" >, SYNSEM.LKEYS.KEYREL.PRED "_temporización_n_rel" ]. temporizador_n1 := n_intr_count_le & [ STEM < "temporizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_temporizador_n_rel" ] ]. temporizar_v1 := v_intr_le & [ STEM < "temporizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_temporizar_v_rel" ] ]. temporizar_v2 := v_trans_np_le & [ STEM < "temporizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc, PRED "_temporizar_v_rel" ] ]. temporoauricular_a1 := a_rel_nonprd_intr_le & [ STEM < "temporoauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_temporoauricular_a_rel" ]. temporofacial_a1 := a_rel_nonprd_intr_le & [ STEM < "temporofacial" >, SYNSEM.LKEYS.KEYREL.PRED "_temporofacial_a_rel" ]. temporofrontal_a1 := a_rel_nonprd_intr_le & [ STEM < "temporofrontal" >, SYNSEM.LKEYS.KEYREL.PRED "_temporofrontal_a_rel" ]. temporohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "temporohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_temporohioideo_a_rel" ]. temporomalar_a1 := a_rel_nonprd_intr_le & [ STEM < "temporomalar" >, SYNSEM.LKEYS.KEYREL.PRED "_temporomalar_a_rel" ]. temporomaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "temporomaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_temporomaxilar_a_rel" ]. temporooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "temporooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_temporooccipital_a_rel" ]. temporoparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "temporoparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_temporoparietal_a_rel" ]. temporopontino_a1 := a_rel_nonprd_intr_le & [ STEM < "temporopontino" >, SYNSEM.LKEYS.KEYREL.PRED "_temporopontino_a_rel" ]. tempranero_a1 := a_qual_intr_ser_le & [ STEM < "tempranero" >, SYNSEM.LKEYS.KEYREL.PRED "_tempranero_a_rel" ]. temprano_a1 := a_qual_intr_ser_le & [ STEM < "temprano" >, SYNSEM.LKEYS.KEYREL.PRED "_temprano_a_rel" ]. temprano_x1 := av_i_spr_le & [ STEM < "temprano" >, SYNSEM.LKEYS.KEYREL.PRED "_temprano_x_rel" ]. temáticmente_x1 := av_i_spr_le & [ STEM < "temáticmente" >, SYNSEM.LKEYS.KEYREL.PRED "_temáticmente_x_rel" ]. temático_a1 := a_rel_nonprd_intr_le & [ STEM < "temático" >, SYNSEM.LKEYS.KEYREL.PRED "_temático_a_rel" ]. tenacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tenacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenacidad_n_rel" ] ]. tenante_n1 := n_intr_count_le & [ STEM < "tenante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tenante_n_rel" ] ]. tenantita_n1 := n_intr_count_le & [ STEM < "tenantita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tenantita_n_rel" ] ]. tenardita_n1 := n_intr_count_le & [ STEM < "tenardita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tenardita_n_rel" ] ]. tenaz_a1 := a_qual_intr_ser_le & [ STEM < "tenaz" >, SYNSEM.LKEYS.KEYREL.PRED "_tenaz_a_rel" ]. tenaza_n1 := n_intr_count_le & [ STEM < "tenaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tenaza_n_rel" ] ]. tenazas_n1 := n_intr_count_le & [ STEM < "tenazas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tenazas_n_rel" ] ]. tenazmente_x1 := av_i_spr_le & [ STEM < "tenazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tenazmente_x_rel" ]. tenca_n1 := n_intr_count_le & [ STEM < "tenca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tenca_n_rel" ] ]. tendedero_n1 := n_intr_count_le & [ STEM < "tendedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tendedero_n_rel" ] ]. tendel_n1 := n_intr_count_le & [ STEM < "tendel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tendel_n_rel" ] ]. tendencia_n1 := n_intr_count_le & [ STEM < "tendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tendencia_n_rel" ] ]. tendencial_a1 := a_qual_intr_ser_le & [ STEM < "tendencial" >, SYNSEM.LKEYS.KEYREL.PRED "_tendencial_a_rel" ]. tendencioso_a1 := a_qual_intr_ser_le & [ STEM < "tendencioso" >, SYNSEM.LKEYS.KEYREL.PRED "_tendencioso_a_rel" ]. tendente_a1 := a_qual_trans*_ser_le & [ STEM < "tendente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tendente_a_rel" ] ]. tendente_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "tendente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tendente_a_rel" ] ]. tendente_a3 := a_sctrl_ser_le & [ STEM < "tendente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tendente_a_rel" ] ]. tender_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "tender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tender_v_rel" ] ]. tender_v2 := v_intr_mrkd_np_le & [ STEM < "tender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tender_v_rel" ] ]. tender_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "tender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_tender_v_rel" ] ] ]. tender_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "tender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tender_v_rel" ] ]. tender_v5 := v_trans_np_le & [ STEM < "tender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_tender_v_rel" ] ]. tenderete_n1 := n_intr_count_le & [ STEM < "tenderete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tenderete_n_rel" ] ]. tendero_n1 := n_intr_count_le & [ STEM < "tendero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tendero_n_rel" ] ]. tendido_n1 := n_intr_count_le & [ STEM < "tendido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tendido_n_rel" ] ]. tendinoso_a1 := a_rel_nonprd_intr_le & [ STEM < "tendinoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tendinoso_a_rel" ]. tendón_n1 := n_intr_count_le & [ STEM < "tendón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tendón_n_rel" ] ]. tenebrosamente_x1 := av_i_spr_le & [ STEM < "tenebrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tenebrosamente_x_rel" ]. tenebrosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tenebrosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenebrosidad_n_rel" ] ]. tenebroso_a1 := a_qual_intr_ser_le & [ STEM < "tenebroso" >, SYNSEM.LKEYS.KEYREL.PRED "_tenebroso_a_rel" ]. tenedor_n1 := n_intr_count_le & [ STEM < "tenedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tenedor_n_rel" ] ]. teneduría_n1 := n_intr_uncount_pl_le & [ STEM < "teneduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teneduría_n_rel" ] ]. tenencia_n1 := n_intr_uncount_le & [ STEM < "tenencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenencia_n_rel" ] ]. tener_lugar_v1 := v_intr_le & [ STEM < "tener_lugar" >, SYNSEM.LKEYS.KEYREL.PRED "_tener_lugar_v_rel" ]. tener_v1 := v_non_pass_np_le & [ STEM < "tener" >, SYNSEM.LKEYS.KEYREL.PRED "_tener_v_rel" ]. tener_v2 := v_intr_mrkd_vp_ssr_le & [ STEM < "tener" >, SYNSEM.LKEYS [ --COMPKEY _que_p_sel_rel, KEYREL.PRED "_tener_v_rel" ] ]. tenerifeño_n1 := n_intr_count_le & [ STEM < "tenerifeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tenerifeño_n_rel" ] ]. tenia_n1 := n_intr_count_le & [ STEM < "tenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tenia_n_rel" ] ]. teniduría_n1 := n_intr_count_le & [ STEM < "teniduría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teniduría_n_rel" ] ]. teniente_n1 := n_intr_count_le & [ STEM < "teniente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teniente_n_rel" ] ]. tenis_n1 := n_intr_uncount_le & [ STEM < "tenis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenis_n_rel" ] ]. tenista_n1 := n_intr_count_le & [ STEM < "tenista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tenista_n_rel" ] ]. tenor_n1 := n_intr_count_le & [ STEM < "tenor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_tenor_n_rel" ] ]. tensamente_x1 := av_i_spr_le & [ STEM < "tensamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tensamente_x_rel" ]. tensar_v := v_trans_np_caus_le & [ STEM < "tensar" >, SYNSEM.LKEYS.KEYREL.PRED "_tensar_v_rel" ]. tensioactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "tensioactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_tensioactivo_a_rel" ]. tensioactivo_n1 := n_intr_count_le & [ STEM < "tensioactivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tensioactivo_n_rel" ] ]. tensional_a1 := a_rel_nonprd_intr_le & [ STEM < "tensional" >, SYNSEM.LKEYS.KEYREL.PRED "_tensional_a_rel" ]. tensiómetro_n1 := n_intr_count_le & [ STEM < "tensiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tensiómetro_n_rel" ] ]. tensión_n1 := n_intr_mass_le & [ STEM < "tensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_tensión_n_rel" ] ]. tenso_a1 := a_qual_intr_estar_le & [ STEM < "tenso" >, SYNSEM.LKEYS.KEYREL.PRED "_tenso_a_rel" ]. tensoactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "tensoactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_tensoactivo_a_rel" ]. tensor_a1 := a_rel_nonprd_intr_le & [ STEM < "tensor" >, SYNSEM.LKEYS.KEYREL.PRED "_tensor_a_rel" ]. tensor_n1 := n_intr_count_le & [ STEM < "tensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tensor_n_rel" ] ]. tensorial_a1 := a_rel_nonprd_intr_le & [ STEM < "tensorial" >, SYNSEM.LKEYS.KEYREL.PRED "_tensorial_a_rel" ]. tensómetro_n1 := n_intr_count_le & [ STEM < "tensómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tensómetro_n_rel" ] ]. tentación_n1 := n_intr_count_le & [ STEM < "tentación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tentación_n_rel" ] ]. tentador_a1 := a_qual_intr_ser_le & [ STEM < "tentador" >, SYNSEM.LKEYS.KEYREL.PRED "_tentador_a_rel" ]. tentadoramente_x1 := av_i_spr_le & [ STEM < "tentadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_tentadoramente_x_rel" ]. tentar_v1 := v_intr_io*_le & [ STEM < "tentar" >, SYNSEM.LKEYS.KEYREL.PRED "_tentar_v_rel" ]. tentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "tentar" >, SYNSEM.LKEYS.KEYREL.PRED "_tentar_v_rel" ]. tentar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "tentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_tentar_v_rel" ] ] ]. tentar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "tentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_tentar_v_rel" ] ] ]. tentar_v5 := v_trans_np_mrkd_np*_le & [ STEM < "tentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_tentar_v_rel" ] ] ]. tentemozo_n1 := n_intr_count_le & [ STEM < "tentemozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tentemozo_n_rel" ] ]. tentempié_n1 := n_intr_count_le & [ STEM < "tentempié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tentempié_n_rel" ] ]. tentáculo_n1 := n_intr_count_le & [ STEM < "tentáculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tentáculo_n_rel" ] ]. tenue_a1 := a_qual_intr_ser_le & [ STEM < "tenue" >, SYNSEM.LKEYS.KEYREL.PRED "_tenue_a_rel" ]. tenuidad_n1 := n_ppcomp_mass_le & [ STEM < "tenuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenuidad_n_rel" ] ]. tenutari_n1 := n_intr_count_le & [ STEM < "tenutari" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tenutari_n_rel" ] ]. tenutario_a1 := a_rel_nonprd_intr_le & [ STEM < "tenutario" >, SYNSEM.LKEYS.KEYREL.PRED "_tenutario_a_rel" ]. tenutario_n1 := n_intr_count_le & [ STEM < "tenutario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tenutario_n_rel" ] ]. tenífugo_n1 := n_intr_count_le & [ STEM < "tenífugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tenífugo_n_rel" ] ]. tenísticamente_x1 := av_i_spr_le & [ STEM < "tenísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tenísticamente_x_rel" ]. tenístico_a1 := a_rel_nonprd_intr_le & [ STEM < "tenístico" >, SYNSEM.LKEYS.KEYREL.PRED "_tenístico_a_rel" ]. teobromina_n1 := n_intr_count_le & [ STEM < "teobromina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teobromina_n_rel" ] ]. teocracia_n1 := n_intr_uncount_pl_le & [ STEM < "teocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teocracia_n_rel" ] ]. teocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "teocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_teocrático_a_rel" ]. teodolito_n1 := n_intr_count_le & [ STEM < "teodolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teodolito_n_rel" ] ]. teofilina_n1 := n_intr_count_le & [ STEM < "teofilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teofilina_n_rel" ] ]. teofilinametilglucamina_n1 := n_intr_count_le & [ STEM < "teofilinametilglucamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_teofilinametilglucamina_n_rel" ] ]. teologismo_n1 := n_intr_uncount_le & [ STEM < "teologismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teologismo_n_rel" ] ]. teología_n1 := n_intr_uncount_pl_le & [ STEM < "teología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teología_n_rel" ] ]. teológico_a1 := a_rel_nonprd_intr_le & [ STEM < "teológico" >, SYNSEM.LKEYS.KEYREL.PRED "_teológico_a_rel" ]. teorizante_a1 := a_rel_nonprd_intr_le & [ STEM < "teorizante" >, SYNSEM.LKEYS.KEYREL.PRED "_teorizante_a_rel" ]. teorizantemente_x1 := av_i_spr_le & [ STEM < "teorizantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_teorizantemente_x_rel" ]. teorizar_v := v_intr_mrkd_np_le & [ STEM < "teorizar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_teorizar_v_rel" ] ]. teoría_n1 := n_intr_count_le & [ STEM < "teoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teoría_n_rel" ] ]. teosofía_n1 := n_intr_uncount_le & [ STEM < "teosofía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teosofía_n_rel" ] ]. tepidario_n1 := n_intr_count_le & [ STEM < "tepidario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tepidario_n_rel" ] ]. tequila_n1 := n_intr_mass_le & [ STEM < "tequila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tequila_n_rel" ] ]. teraciclo_n := n_intr_count_le & [ STEM < "teraciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_teraciclo_n_rel" ] ]. terapeuta_n1 := n_intr_count_le & [ STEM < "terapeuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_terapeuta_n_rel" ] ]. terapéuticamente_x1 := av_i_spr_le & [ STEM < "terapéuticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_terapéuticamente_x_rel" ]. terapéutico_a1 := a_qual_intr_ser_le & [ STEM < "terapéutico" >, SYNSEM.LKEYS.KEYREL.PRED "_terapéutico_a_rel" ]. teratogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "teratogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_teratogénico_a_rel" ]. teratoma_n1 := n_intr_count_le & [ STEM < "teratoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teratoma_n_rel" ] ]. teratógeno_n1 := n_intr_count_le & [ STEM < "teratógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_teratógeno_n_rel" ] ]. terbio_n1 := n_intr_mass_le & [ STEM < "terbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terbio_n_rel" ] ]. tercamente_x1 := av_i_spr_le & [ STEM < "tercamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tercamente_x_rel" ]. tercelete_a1 := a_rel_nonprd_intr_le & [ STEM < "tercelete" >, SYNSEM.LKEYS.KEYREL.PRED "_tercelete_a_rel" ]. tercermundista_a1 := a_rel_nonprd_intr_le & [ STEM < "tercermundista" >, SYNSEM.LKEYS.KEYREL.PRED "_tercermundista_a_rel" ]. tercería_n1 := n_intr_uncount_pl_le & [ STEM < "tercería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tercería_n_rel" ] ]. tercia_n1 := n_intr_uncount_pl_le & [ STEM < "tercia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tercia_n_rel" ] ]. terciador_n1 := n_intr_count_le & [ STEM < "terciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terciador_n_rel" ] ]. terciana_n1 := n_intr_count_le & [ STEM < "terciana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terciana_n_rel" ] ]. terciar_v1 := v_intr_mrkd_np_le & [ STEM < "terciar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_terciar_v_rel" ] ]. terciar_v2 := v_intr_mrkd_np_le & [ STEM < "terciar" >, SYNSEM.LKEYS [ --COMPKEY _entre_p_sel_rel, KEYREL.PRED "_terciar_v_rel" ] ]. terciar_v3 := v_pron_intr_le & [ STEM < "terciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_terciar_v_rel" ] ]. terciar_v4 := v_trans_np_le & [ STEM < "terciar" >, SYNSEM.LKEYS.KEYREL.PRED "_terciar_v_rel" ]. terciario_a1 := a_rel_nonprd_intr_le & [ STEM < "terciario" >, SYNSEM.LKEYS.KEYREL.PRED "_terciario_a_rel" ]. tercio_n := n_intr_count_le & [ STEM < "tercio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_tercio_n_rel" ] ]. terciopelo_n1 := n_intr_mass_le & [ STEM < "terciopelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terciopelo_n_rel" ] ]. terco_a1 := a_qual_intr_ser_le & [ STEM < "terco" >, SYNSEM.LKEYS.KEYREL.PRED "_terco_a_rel" ]. terebeno_n1 := n_intr_count_le & [ STEM < "terebeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terebeno_n_rel" ] ]. tereftalato_n1 := n_intr_count_le & [ STEM < "tereftalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tereftalato_n_rel" ] ]. terfenilo_n1 := n_intr_count_le & [ STEM < "terfenilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terfenilo_n_rel" ] ]. tergiversación_n1 := n_trans_le & [ STEM < "tergiversación" >, SYNSEM.LKEYS.KEYREL.PRED "_tergiversación_n_rel" ]. tergiversar_v := v_trans_np_le & [ STEM < "tergiversar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT sem, PRED "_tergiversar_v_rel" ] ]. terma_n1 := n_intr_count_le & [ STEM < "terma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_terma_n_rel" ] ]. termal_a1 := a_rel_nonprd_intr_le & [ STEM < "termal" >, SYNSEM.LKEYS.KEYREL.PRED "_termal_a_rel" ]. termalismo_n1 := n_intr_uncount_le & [ STEM < "termalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termalismo_n_rel" ] ]. termia_n := n_intr_count_le & [ STEM < "termia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_termia_n_rel" ] ]. terminación_n1 := n_trans_le & [ STEM < "terminación" >, SYNSEM.LKEYS.KEYREL.PRED "_terminación_n_rel" ]. terminador_a1 := a_rel_nonprd_intr_le & [ STEM < "terminador" >, SYNSEM.LKEYS.KEYREL.PRED "_terminador_a_rel" ]. terminal_a1 := a_rel_nonprd_intr_le & [ STEM < "terminal" >, SYNSEM.LKEYS.KEYREL.PRED "_terminal_a_rel" ]. terminal_n1 := n_intr_count_le & [ STEM < "terminal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_pot, PRED "_terminal_n_rel" ] ]. terminante_a1 := a_rel_nonprd_intr_le & [ STEM < "terminante" >, SYNSEM.LKEYS.KEYREL.PRED "_terminante_a_rel" ]. terminantemente_x1 := av_i_spr_le & [ STEM < "terminantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_terminantemente_x_rel" ]. terminar_v1 := v_intr_mrkd_np_le & [ STEM < "terminar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_terminar_v_rel" ] ]. terminar_v2 := v_pron_trans_np_le & [ STEM < "terminar" >, SYNSEM.LKEYS.KEYREL.PRED "_terminar_v_rel" ]. terminar_v3 := v_trans_np_caus_perf_le & [ STEM < "terminar" >, SYNSEM.LKEYS.KEYREL.PRED "_terminar_v_rel" ]. terminar_v4 := v_intr_mrkd_vp_ssr_le & [ STEM < "terminar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_terminar_v_rel" ] ]. terminar_v5 := v_intr_mrkd_vp_ssr_le & [ STEM < "terminar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_terminar_v_rel" ] ]. terminismo_n1 := n_intr_uncount_le & [ STEM < "terminismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terminismo_n_rel" ] ]. terminología_n1 := n_intr_uncount_pl_le & [ STEM < "terminología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terminología_n_rel" ] ]. terminológico_a1 := a_rel_nonprd_intr_le & [ STEM < "terminológico" >, SYNSEM.LKEYS.KEYREL.PRED "_terminológico_a_rel" ]. terminólogo_n1 := n_intr_count_le & [ STEM < "terminólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_terminólogo_n_rel" ] ]. termistancia_n1 := n_intr_uncount_le & [ STEM < "termistancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termistancia_n_rel" ] ]. termistencia_n1 := n_intr_uncount_le & [ STEM < "termistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termistencia_n_rel" ] ]. termistor_n1 := n_intr_count_le & [ STEM < "termistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termistor_n_rel" ] ]. termita_n1 := n_intr_count_le & [ STEM < "termita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_termita_n_rel" ] ]. termitero_n1 := n_intr_count_le & [ STEM < "termitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_termitero_n_rel" ] ]. termiónicamente_x1 := av_i_spr_le & [ STEM < "termiónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termiónicamente_x_rel" ]. termiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "termiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_termiónico_a_rel" ]. termo_n1 := n_intr_count_le & [ STEM < "termo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termo_n_rel" ] ]. termobalanza_n1 := n_intr_count_le & [ STEM < "termobalanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termobalanza_n_rel" ] ]. termocatalíticamente_x1 := av_i_spr_le & [ STEM < "termocatalíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termocatalíticamente_x_rel" ]. termocatalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "termocatalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_termocatalítico_a_rel" ]. termocauterización_n1 := n_trans_le & [ STEM < "termocauterización" >, SYNSEM.LKEYS.KEYREL.PRED "_termocauterización_n_rel" ]. termocoagulación_n1 := n_trans_le & [ STEM < "termocoagulación" >, SYNSEM.LKEYS.KEYREL.PRED "_termocoagulación_n_rel" ]. termocompresión_n1 := n_trans_le & [ STEM < "termocompresión" >, SYNSEM.LKEYS.KEYREL.PRED "_termocompresión_n_rel" ]. termoconvector_n1 := n_intr_count_le & [ STEM < "termoconvector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termoconvector_n_rel" ] ]. termocáustico_a1 := a_rel_nonprd_intr_le & [ STEM < "termocáustico" >, SYNSEM.LKEYS.KEYREL.PRED "_termocáustico_a_rel" ]. termodifusión_n1 := n_trans_le & [ STEM < "termodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_termodifusión_n_rel" ]. termodilatometría_n1 := n_intr_uncount_le & [ STEM < "termodilatometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termodilatometría_n_rel" ] ]. termodinámicamente_x1 := av_i_spr_le & [ STEM < "termodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termodinámicamente_x_rel" ]. termodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "termodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_termodinámico_a_rel" ]. termoelasticidad_n1 := n_intr_uncount_le & [ STEM < "termoelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoelasticidad_n_rel" ] ]. termoelectricidad_n1 := n_intr_uncount_le & [ STEM < "termoelectricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoelectricidad_n_rel" ] ]. termoelectrónico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoelectrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoelectrónico_a_rel" ]. termoelásticamente_x1 := av_i_spr_le & [ STEM < "termoelásticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termoelásticamente_x_rel" ]. termoelástico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoelástico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoelástico_a_rel" ]. termoeléctricamente_x1 := av_i_spr_le & [ STEM < "termoeléctricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termoeléctricamente_x_rel" ]. termoeléctrico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoeléctrico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoeléctrico_a_rel" ]. termoendurecible_a1 := a_rel_nonprd_intr_le & [ STEM < "termoendurecible" >, SYNSEM.LKEYS.KEYREL.PRED "_termoendurecible_a_rel" ]. termoespectrometría_n1 := n_intr_uncount_le & [ STEM < "termoespectrometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoespectrometría_n_rel" ] ]. termoestable_a1 := a_rel_nonprd_intr_le & [ STEM < "termoestable" >, SYNSEM.LKEYS.KEYREL.PRED "_termoestable_a_rel" ]. termofusible_a1 := a_rel_nonprd_intr_le & [ STEM < "termofusible" >, SYNSEM.LKEYS.KEYREL.PRED "_termofusible_a_rel" ]. termografía_n1 := n_intr_count_le & [ STEM < "termografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termografía_n_rel" ] ]. termograma_n1 := n_intr_count_le & [ STEM < "termograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termograma_n_rel" ] ]. termogravimetría_n1 := n_intr_uncount_le & [ STEM < "termogravimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termogravimetría_n_rel" ] ]. termogénicamente_x1 := av_i_spr_le & [ STEM < "termogénicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termogénicamente_x_rel" ]. termogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "termogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_termogénico_a_rel" ]. termohalino_a1 := a_rel_nonprd_intr_le & [ STEM < "termohalino" >, SYNSEM.LKEYS.KEYREL.PRED "_termohalino_a_rel" ]. termoiónicamente_x1 := av_i_spr_le & [ STEM < "termoiónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termoiónicamente_x_rel" ]. termoiónico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoiónico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoiónico_a_rel" ]. termoluminiscencia_n1 := n_intr_uncount_le & [ STEM < "termoluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoluminiscencia_n_rel" ] ]. termoluminiscentemente_x1 := av_i_spr_le & [ STEM < "termoluminiscentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_termoluminiscentemente_x_rel" ]. termolábil_a1 := a_rel_nonprd_intr_le & [ STEM < "termolábil" >, SYNSEM.LKEYS.KEYREL.PRED "_termolábil_a_rel" ]. termolábilmente_x1 := av_i_spr_le & [ STEM < "termolábilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_termolábilmente_x_rel" ]. termomagnéticamente_x1 := av_i_spr_le & [ STEM < "termomagnéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termomagnéticamente_x_rel" ]. termomagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "termomagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_termomagnético_a_rel" ]. termomecánico_a1 := a_rel_nonprd_intr_le & [ STEM < "termomecánico" >, SYNSEM.LKEYS.KEYREL.PRED "_termomecánico_a_rel" ]. termométricamente_x1 := av_i_spr_le & [ STEM < "termométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termométricamente_x_rel" ]. termométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "termométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_termométrico_a_rel" ]. termonebulizador_n1 := n_intr_count_le & [ STEM < "termonebulizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termonebulizador_n_rel" ] ]. termonuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "termonuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_termonuclear_a_rel" ]. termopar_n1 := n_intr_count_le & [ STEM < "termopar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termopar_n_rel" ] ]. termopegable_a1 := a_rel_nonprd_intr_le & [ STEM < "termopegable" >, SYNSEM.LKEYS.KEYREL.PRED "_termopegable_a_rel" ]. termopila_n1 := n_intr_count_le & [ STEM < "termopila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termopila_n_rel" ] ]. termoplasticidad_n1 := n_intr_uncount_le & [ STEM < "termoplasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoplasticidad_n_rel" ] ]. termoplástico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoplástico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoplástico_a_rel" ]. termoplástico_n1 := n_intr_mass_le & [ STEM < "termoplástico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_termoplástico_n_rel" ] ]. termoquímicamente_x1 := av_i_spr_le & [ STEM < "termoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termoquímicamente_x_rel" ]. termoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "termoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_termoquímico_a_rel" ]. termorregeneración_n1 := n_trans_le & [ STEM < "termorregeneración" >, SYNSEM.LKEYS.KEYREL.PRED "_termorregeneración_n_rel" ]. termorregulador_n1 := n_intr_count_le & [ STEM < "termorregulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termorregulador_n_rel" ] ]. termosecuencia_n1 := n_intr_uncount_le & [ STEM < "termosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termosecuencia_n_rel" ] ]. termosellado_n1 := n_trans_le & [ STEM < "termosellado" >, SYNSEM.LKEYS.KEYREL.PRED "_termosellado_n_rel" ]. termosensible_a1 := a_rel_nonprd_intr_le & [ STEM < "termosensible" >, SYNSEM.LKEYS.KEYREL.PRED "_termosensible_a_rel" ]. termosfera_n1 := n_intr_count_le & [ STEM < "termosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termosfera_n_rel" ] ]. termosoldable_a1 := a_rel_nonprd_intr_le & [ STEM < "termosoldable" >, SYNSEM.LKEYS.KEYREL.PRED "_termosoldable_a_rel" ]. termostable_a1 := a_rel_nonprd_intr_le & [ STEM < "termostable" >, SYNSEM.LKEYS.KEYREL.PRED "_termostable_a_rel" ]. termostablemente_x1 := av_i_spr_le & [ STEM < "termostablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_termostablemente_x_rel" ]. termostato_n1 := n_intr_count_le & [ STEM < "termostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termostato_n_rel" ] ]. termostáticamente_x1 := av_i_spr_le & [ STEM < "termostáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termostáticamente_x_rel" ]. termostático_a1 := a_rel_nonprd_intr_le & [ STEM < "termostático" >, SYNSEM.LKEYS.KEYREL.PRED "_termostático_a_rel" ]. termoventilador_n1 := n_intr_count_le & [ STEM < "termoventilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termoventilador_n_rel" ] ]. termófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "termófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_termófilo_a_rel" ]. termógenamente_x1 := av_i_spr_le & [ STEM < "termógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_termógenamente_x_rel" ]. termógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "termógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_termógeno_a_rel" ]. termógrafo_n1 := n_intr_count_le & [ STEM < "termógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termógrafo_n_rel" ] ]. termómetro_n1 := n_intr_count_le & [ STEM < "termómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_termómetro_n_rel" ] ]. termóstato_n1 := n_intr_count_le & [ STEM < "termóstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_termóstato_n_rel" ] ]. ternariamente_x1 := av_i_spr_le & [ STEM < "ternariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ternariamente_x_rel" ]. ternario_a1 := a_rel_nonprd_intr_le & [ STEM < "ternario" >, SYNSEM.LKEYS.KEYREL.PRED "_ternario_a_rel" ]. ternero_n1 := n_intr_count_le & [ STEM < "ternero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ternero_n_rel" ] ]. ternura_n1 := n_ppcomp_mass_le & [ STEM < "ternura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ternura_n_rel" ] ]. terpeno_n1 := n_intr_count_le & [ STEM < "terpeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terpeno_n_rel" ] ]. terpineol_n1 := n_intr_count_le & [ STEM < "terpineol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terpineol_n_rel" ] ]. terpinoleno_n1 := n_intr_count_le & [ STEM < "terpinoleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terpinoleno_n_rel" ] ]. terpolímero_n1 := n_intr_count_le & [ STEM < "terpolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terpolímero_n_rel" ] ]. terquedad_n1 := n_ppcomp_mass_le & [ STEM < "terquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terquedad_n_rel" ] ]. terracota_n1 := n_intr_mass_le & [ STEM < "terracota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_terracota_n_rel" ] ]. terrado_n1 := n_intr_count_le & [ STEM < "terrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_terrado_n_rel" ] ]. terraja_n1 := n_intr_count_le & [ STEM < "terraja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terraja_n_rel" ] ]. terraje_n1 := n_intr_count_le & [ STEM < "terraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terraje_n_rel" ] ]. terral_n1 := n_intr_count_le & [ STEM < "terral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terral_n_rel" ] ]. terraplén_n1 := n_intr_count_le & [ STEM < "terraplén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terraplén_n_rel" ] ]. terrario_n1 := n_intr_count_le & [ STEM < "terrario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_terrario_n_rel" ] ]. terrateniente_n1 := n_intr_count_le & [ STEM < "terrateniente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terrateniente_n_rel" ] ]. terraza_n1 := n_intr_count_le & [ STEM < "terraza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_terraza_n_rel" ] ]. terrazo_n1 := n_intr_count_le & [ STEM < "terrazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_terrazo_n_rel" ] ]. terremoto_n1 := n_intr_count_le & [ STEM < "terremoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_terremoto_n_rel" ] ]. terrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "terrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_terrenal_a_rel" ]. terrenalmente_x1 := av_i_spr_le & [ STEM < "terrenalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_terrenalmente_x_rel" ]. terreno_n1 := n_intr_count_le & [ STEM < "terreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_terreno_n_rel" ] ]. terrestre_a := a_rel_nonprd_intr_le & [ STEM < "terrestre" >, SYNSEM.LKEYS.KEYREL.PRED "_terrestre_a_rel" ]. terrible_a1 := a_qual_intr_ser_le & [ STEM < "terrible" >, SYNSEM.LKEYS.KEYREL.PRED "_terrible_a_rel" ]. terriblemente_x1 := av_deg_le & [ STEM < "terriblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_terriblemente_x_rel" ]. territorial_a1 := a_rel_nonprd_intr_le & [ STEM < "territorial" >, SYNSEM.LKEYS.KEYREL.PRED "_territorial_a_rel" ]. territorialidad_n1 := n_ppcomp_uncount_le & [ STEM < "territorialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_territorialidad_n_rel" ] ]. territorialidad_n2 := n_ppcomp_count_le & [ STEM < "territorialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_territorialidad_n_rel" ] ]. territorialización_n1 := n_trans_le & [ STEM < "territorialización" >, SYNSEM.LKEYS.KEYREL.PRED "_territorialización_n_rel" ]. territorializar_v := v_trans_np_le & [ STEM < "territorializar" >, SYNSEM.LKEYS.KEYREL.PRED "_territorializar_v_rel" ]. territorialmente_x1 := av_i_spr_le & [ STEM < "territorialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_territorialmente_x_rel" ]. territorio_n1 := n_intr_count_le & [ STEM < "territorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_territorio_n_rel" ] ]. terror_n1 := n_intr_mass-or-count_le & [ STEM < "terror" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terror_n_rel" ] ]. terrorismo_n1 := n_intr_uncount_le & [ STEM < "terrorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terrorismo_n_rel" ] ]. terrorista_a1 := a_rel_nonprd_intr_le & [ STEM < "terrorista" >, SYNSEM.LKEYS.KEYREL.PRED "_terrorista_a_rel" ]. terrorista_n1 := n_intr_count_le & [ STEM < "terrorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_terrorista_n_rel" ] ]. terrorífico_a1 := a_qual_intr_ser_le & [ STEM < "terrorífico" >, SYNSEM.LKEYS.KEYREL.PRED "_terrorífico_a_rel" ]. terrosamente_x1 := av_i_spr_le & [ STEM < "terrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_terrosamente_x_rel" ]. terroso_a1 := a_rel_nonprd_intr_le & [ STEM < "terroso" >, SYNSEM.LKEYS.KEYREL.PRED "_terroso_a_rel" ]. terráqueo_a := a_rel_nonprd_intr_le & [ STEM < "terráqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_terráqueo_a_rel" ]. terrícola_a1 := a_rel_nonprd_intr_le & [ STEM < "terrícola" >, SYNSEM.LKEYS.KEYREL.PRED "_terrícola_a_rel" ]. terrífico_a1 := a_qual_intr_ser_le & [ STEM < "terrífico" >, SYNSEM.LKEYS.KEYREL.PRED "_terrífico_a_rel" ]. terrón_n1 := n_pseudo-part_le & [ STEM < "terrón" >, SYNSEM.LKEYS.KEYREL.PRED "_terrón_n_rel" ]. terso_a1 := a_qual_intr_scopal_le & [ STEM < "terso" >, SYNSEM.LKEYS.KEYREL.PRED "_terso_a_rel" ]. tersura_n1 := n_ppcomp_mass_le & [ STEM < "tersura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tersura_n_rel" ] ]. tertuliano_n1 := n_intr_count_le & [ STEM < "tertuliano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tertuliano_n_rel" ] ]. terófito_n1 := n_intr_count_le & [ STEM < "terófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_terófito_n_rel" ] ]. tesar_v := v_trans_np_le & [ STEM < "tesar" >, SYNSEM.LKEYS.KEYREL.PRED "_tesar_v_rel" ]. tesauro_n1 := n_intr_count_le & [ STEM < "tesauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_tesauro_n_rel" ] ]. tesela_n1 := n_intr_count_le & [ STEM < "tesela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tesela_n_rel" ] ]. tesis_n1 := n_intr_count_le & [ STEM < "tesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_tesis_n_rel" ] ]. tesitura_n1 := n_intr_count_le & [ STEM < "tesitura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tesitura_n_rel" ] ]. tesla_n := n_intr_count_le & [ STEM < "tesla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_tesla_n_rel" ] ]. teso_a1 := a_qual_intr_ser_le & [ STEM < "teso" >, SYNSEM.LKEYS.KEYREL.PRED "_teso_a_rel" ]. tesorero_n1 := n_intr_count_le & [ STEM < "tesorero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tesorero_n_rel" ] ]. tesorería_n1 := n_intr_count_le & [ STEM < "tesorería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tesorería_n_rel" ] ]. tesoro_n1 := n_intr_count_le & [ STEM < "tesoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tesoro_n_rel" ] ]. testador_n1 := n_intr_count_le & [ STEM < "testador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_testador_n_rel" ] ]. testaferro_n1 := n_intr_count_le & [ STEM < "testaferro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_testaferro_n_rel" ] ]. testamentario_a1 := a_rel_nonprd_intr_le & [ STEM < "testamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_testamentario_a_rel" ]. testamento_n1 := n_intr_count_le & [ STEM < "testamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_testamento_n_rel" ] ]. testar_v := v_intr_le & [ STEM < "testar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_testar_v_rel" ] ]. testarudamente_x1 := av_i_spr_le & [ STEM < "testarudamente" >, SYNSEM.LKEYS.KEYREL.PRED "_testarudamente_x_rel" ]. testarudez_n1 := n_ppcomp_mass_le & [ STEM < "testarudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_testarudez_n_rel" ] ]. testarudo_a1 := a_qual_intr_ser_le & [ STEM < "testarudo" >, SYNSEM.LKEYS.KEYREL.PRED "_testarudo_a_rel" ]. testeo_n1 := n_trans_le & [ STEM < "testeo" >, SYNSEM.LKEYS.KEYREL.PRED "_testeo_n_rel" ]. testera_n1 := n_intr_count_le & [ STEM < "testera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_testera_n_rel" ] ]. testero_n1 := n_intr_count_le & [ STEM < "testero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_testero_n_rel" ] ]. testicular_a1 := a_rel_nonprd_intr_le & [ STEM < "testicular" >, SYNSEM.LKEYS.KEYREL.PRED "_testicular_a_rel" ]. testificación_n1 := n_trans_le & [ STEM < "testificación" >, SYNSEM.LKEYS.KEYREL.PRED "_testificación_n_rel" ]. testificador_n1 := n_subj-nom_le & [ STEM < "testificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_testificador_n_rel" ] ]. testifical_a1 := a_rel_nonprd_intr_le & [ STEM < "testifical" >, SYNSEM.LKEYS.KEYREL.PRED "_testifical_a_rel" ]. testificante_n1 := n_intr_count_le & [ STEM < "testificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_testificante_n_rel" ] ]. testificar_v1 := v_trans_cp_prop_fin_le & [ STEM < "testificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_testificar_v_rel" ] ]. testificar_v2 := v_trans_np_le & [ STEM < "testificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_testificar_v_rel" ] ]. testigo_n1 := n_intr_count_le & [ STEM < "testigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_testigo_n_rel" ] ]. testimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "testimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_testimonial_a_rel" ]. testimonio_n1 := n_intr_count_le & [ STEM < "testimonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_testimonio_n_rel" ] ]. testosterona_n1 := n_intr_mass_le & [ STEM < "testosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_testosterona_n_rel" ] ]. testuz_n1 := n_intr_count_le & [ STEM < "testuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_testuz_n_rel" ] ]. testículo_n1 := n_ppcomp_count_le & [ STEM < "testículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_testículo_n_rel" ] ]. tetartoedría_n1 := n_intr_uncount_le & [ STEM < "tetartoedría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetartoedría_n_rel" ] ]. tetartoédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetartoédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetartoédrico_a_rel" ]. tetartóidico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetartóidico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetartóidico_a_rel" ]. tetera_n1 := n_intr_count_le & [ STEM < "tetera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetera_n_rel" ] ]. tetilla_n1 := n_ppcomp_count_le & [ STEM < "tetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tetilla_n_rel" ] ]. tetraacetato_n1 := n_intr_count_le & [ STEM < "tetraacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraacetato_n_rel" ] ]. tetraacetilacetonato_n1 := n_intr_count_le & [ STEM < "tetraacetilacetonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraacetilacetonato_n_rel" ] ]. tetraborato_n1 := n_intr_count_le & [ STEM < "tetraborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraborato_n_rel" ] ]. tetrabromoetileno_n1 := n_intr_count_le & [ STEM < "tetrabromoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrabromoetileno_n_rel" ] ]. tetrabromuro_n1 := n_intr_count_le & [ STEM < "tetrabromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrabromuro_n_rel" ] ]. tetrabutilestaño_n1 := n_intr_count_le & [ STEM < "tetrabutilestaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrabutilestaño_n_rel" ] ]. tetracampeón_n1 := n_intr_count_le & [ STEM < "tetracampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tetracampeón_n_rel" ] ]. tetracarboxibutano_n1 := n_intr_count_le & [ STEM < "tetracarboxibutano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetracarboxibutano_n_rel" ] ]. tetraceno_n1 := n_intr_count_le & [ STEM < "tetraceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraceno_n_rel" ] ]. tetracianoetileno_n1 := n_intr_count_le & [ STEM < "tetracianoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetracianoetileno_n_rel" ] ]. tetraciclina_n1 := n_intr_count_le & [ STEM < "tetraciclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraciclina_n_rel" ] ]. tetraclorobenceno_n1 := n_intr_count_le & [ STEM < "tetraclorobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraclorobenceno_n_rel" ] ]. tetraclorodifluoetano_n1 := n_intr_count_le & [ STEM < "tetraclorodifluoetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraclorodifluoetano_n_rel" ] ]. tetracloroetano_n1 := n_intr_count_le & [ STEM < "tetracloroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetracloroetano_n_rel" ] ]. tetraclorofenato_n1 := n_intr_count_le & [ STEM < "tetraclorofenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraclorofenato_n_rel" ] ]. tetraclorofenol_n1 := n_intr_count_le & [ STEM < "tetraclorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraclorofenol_n_rel" ] ]. tetracloroftálico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetracloroftálico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetracloroftálico_a_rel" ]. tetracloruro_n1 := n_intr_mass_le & [ STEM < "tetracloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetracloruro_n_rel" ] ]. tetracosano_n1 := n_intr_count_le & [ STEM < "tetracosano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetracosano_n_rel" ] ]. tetracúspide_a1 := a_rel_nonprd_intr_le & [ STEM < "tetracúspide" >, SYNSEM.LKEYS.KEYREL.PRED "_tetracúspide_a_rel" ]. tetrada_n1 := n_intr_count_le & [ STEM < "tetrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetrada_n_rel" ] ]. tetradecano_n1 := n_intr_count_le & [ STEM < "tetradecano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetradecano_n_rel" ] ]. tetradeceno_n1 := n_intr_count_le & [ STEM < "tetradeceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetradeceno_n_rel" ] ]. tetradecilamina_n1 := n_intr_count_le & [ STEM < "tetradecilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetradecilamina_n_rel" ] ]. tetradimita_n1 := n_intr_count_le & [ STEM < "tetradimita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetradimita_n_rel" ] ]. tetradracma_n := n_intr_count_le & [ STEM < "tetradracma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_tetradracma_n_rel" ] ]. tetraetilenpentamina_n1 := n_intr_count_le & [ STEM < "tetraetilenpentamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraetilenpentamina_n_rel" ] ]. tetraetilo_n1 := n_intr_count_le & [ STEM < "tetraetilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraetilo_n_rel" ] ]. tetraetilplomo_n1 := n_intr_count_le & [ STEM < "tetraetilplomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetraetilplomo_n_rel" ] ]. tetrafenilestaño_n1 := n_intr_count_le & [ STEM < "tetrafenilestaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafenilestaño_n_rel" ] ]. tetrafenilsilano_n1 := n_intr_count_le & [ STEM < "tetrafenilsilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafenilsilano_n_rel" ] ]. tetrafilar_a1 := a_rel_nonprd_intr_le & [ STEM < "tetrafilar" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrafilar_a_rel" ]. tetrafilarmente_x1 := av_i_spr_le & [ STEM < "tetrafilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrafilarmente_x_rel" ]. tetrafluoetileno_n1 := n_intr_count_le & [ STEM < "tetrafluoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafluoetileno_n_rel" ] ]. tetrafluometano_n1 := n_intr_count_le & [ STEM < "tetrafluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafluometano_n_rel" ] ]. tetrafluorhidracina_n1 := n_intr_count_le & [ STEM < "tetrafluorhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafluorhidracina_n_rel" ] ]. tetrafluoruro_n1 := n_intr_count_le & [ STEM < "tetrafluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafluoruro_n_rel" ] ]. tetrafosfato_n1 := n_intr_count_le & [ STEM < "tetrafosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrafosfato_n_rel" ] ]. tetrafásicamente_x1 := av_i_spr_le & [ STEM < "tetrafásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrafásicamente_x_rel" ]. tetrafásico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetrafásico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrafásico_a_rel" ]. tetragonal_a1 := a_rel_nonprd_intr_le & [ STEM < "tetragonal" >, SYNSEM.LKEYS.KEYREL.PRED "_tetragonal_a_rel" ]. tetragonalmente_x1 := av_i_spr_le & [ STEM < "tetragonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetragonalmente_x_rel" ]. tetrahedrita_n1 := n_intr_count_le & [ STEM < "tetrahedrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahedrita_n_rel" ] ]. tetrahidroftálico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetrahidroftálico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrahidroftálico_a_rel" ]. tetrahidrofurano_n1 := n_intr_count_le & [ STEM < "tetrahidrofurano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidrofurano_n_rel" ] ]. tetrahidronaftaleno_n1 := n_intr_count_le & [ STEM < "tetrahidronaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidronaftaleno_n_rel" ] ]. tetrahidropiranmetanol_n1 := n_intr_count_le & [ STEM < "tetrahidropiranmetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidropiranmetanol_n_rel" ] ]. tetrahidropiridina_n1 := n_intr_count_le & [ STEM < "tetrahidropiridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidropiridina_n_rel" ] ]. tetrahidrotiofeno_n1 := n_intr_count_le & [ STEM < "tetrahidrotiofeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidrotiofeno_n_rel" ] ]. tetrahidroxietiletilendiamina_n1 := n_intr_count_le & [ STEM < "tetrahidroxietiletilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrahidroxietiletilendiamina_n_rel" ] ]. tetralita_n1 := n_intr_mass_le & [ STEM < "tetralita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetralita_n_rel" ] ]. tetramero_n1 := n_intr_mass-or-count_le & [ STEM < "tetramero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tetramero_n_rel" ] ]. tetrametilbutandiamina_n1 := n_intr_count_le & [ STEM < "tetrametilbutandiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametilbutandiamina_n_rel" ] ]. tetrametildiaminobenzhidrol_n1 := n_intr_count_le & [ STEM < "tetrametildiaminobenzhidrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametildiaminobenzhidrol_n_rel" ] ]. tetrametildiaminobenzofenona_n1 := n_intr_count_le & [ STEM < "tetrametildiaminobenzofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametildiaminobenzofenona_n_rel" ] ]. tetrametildiaminodifenilmetano_n1 := n_intr_count_le & [ STEM < "tetrametildiaminodifenilmetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametildiaminodifenilmetano_n_rel" ] ]. tetrametildiaminodifenilsulfona_n1 := n_intr_count_le & [ STEM < "tetrametildiaminodifenilsulfona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametildiaminodifenilsulfona_n_rel" ] ]. tetrametilendiamina_n1 := n_intr_count_le & [ STEM < "tetrametilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametilendiamina_n_rel" ] ]. tetrametiletilendiamina_n1 := n_intr_count_le & [ STEM < "tetrametiletilendiamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrametiletilendiamina_n_rel" ] ]. tetramorfo_a1 := a_rel_nonprd_intr_le & [ STEM < "tetramorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_tetramorfo_a_rel" ]. tetranitrato_n1 := n_intr_count_le & [ STEM < "tetranitrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetranitrato_n_rel" ] ]. tetranitroanilina_n1 := n_intr_count_le & [ STEM < "tetranitroanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetranitroanilina_n_rel" ] ]. tetranitrometano_n1 := n_intr_count_le & [ STEM < "tetranitrometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetranitrometano_n_rel" ] ]. tetrapléjico_n1 := n_intr_count_le & [ STEM < "tetrapléjico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tetrapléjico_n_rel" ] ]. tetrapolar_a1 := a_rel_nonprd_intr_le & [ STEM < "tetrapolar" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrapolar_a_rel" ]. tetrapolarmente_x1 := av_i_spr_le & [ STEM < "tetrapolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrapolarmente_x_rel" ]. tetrapolo_n1 := n_intr_count_le & [ STEM < "tetrapolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetrapolo_n_rel" ] ]. tetrapropileno_n1 := n_intr_count_le & [ STEM < "tetrapropileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrapropileno_n_rel" ] ]. tetrarca_n1 := n_intr_count_le & [ STEM < "tetrarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tetrarca_n_rel" ] ]. tetrarquía_n1 := n_intr_uncount_le & [ STEM < "tetrarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetrarquía_n_rel" ] ]. tetrasulfuro_n1 := n_intr_count_le & [ STEM < "tetrasulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrasulfuro_n_rel" ] ]. tetravalente_a1 := a_rel_prd_le & [ STEM < "tetravalente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetravalente_a_rel" ]. tetrayodoetileno_n1 := n_intr_count_le & [ STEM < "tetrayodoetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrayodoetileno_n_rel" ] ]. tetraédricamente_x1 := av_i_spr_le & [ STEM < "tetraédricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tetraédricamente_x_rel" ]. tetraédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "tetraédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tetraédrico_a_rel" ]. tetril_n1 := n_intr_mass-or-count_le & [ STEM < "tetril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tetril_n_rel" ] ]. tetrilo_n1 := n_intr_count_le & [ STEM < "tetrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetrilo_n_rel" ] ]. tetrodo_n1 := n_intr_count_le & [ STEM < "tetrodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetrodo_n_rel" ] ]. tetrápodo_n1 := n_intr_count_le & [ STEM < "tetrápodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tetrápodo_n_rel" ] ]. tetrástilo_a1 := a_rel_nonprd_intr_le & [ STEM < "tetrástilo" >, SYNSEM.LKEYS.KEYREL.PRED "_tetrástilo_a_rel" ]. tetróxido_n1 := n_intr_count_le & [ STEM < "tetróxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tetróxido_n_rel" ] ]. tetón_n1 := n_intr_count_le & [ STEM < "tetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tetón_n_rel" ] ]. teutón_a1 := a_rel_prd_le & [ STEM < "teutón" >, SYNSEM.LKEYS.KEYREL.PRED "_teutón_a_rel" ]. teutón_n1 := n_intr_count_le & [ STEM < "teutón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teutón_n_rel" ] ]. textil_a1 := a_rel_nonprd_intr_le & [ STEM < "textil" >, SYNSEM.LKEYS.KEYREL.PRED "_textil_a_rel" ]. textilmente_x1 := av_i_spr_le & [ STEM < "textilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_textilmente_x_rel" ]. texto_n1 := n_intr_count_le & [ STEM < "texto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_texto_n_rel" ] ]. textual_a1 := a_rel_nonprd_intr_le & [ STEM < "textual" >, SYNSEM.LKEYS.KEYREL.PRED "_textual_a_rel" ]. textualmente_x1 := av_s_spr_le & [ STEM < "textualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_textualmente_x_rel" ]. textura_n1 := n_intr_count_le & [ STEM < "textura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_textura_n_rel" ] ]. tez_n1 := n_intr_mass_le & [ STEM < "tez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tez_n_rel" ] ]. teísta_a1 := a_qual_intr_ser_le & [ STEM < "teísta" >, SYNSEM.LKEYS.KEYREL.PRED "_teísta_a_rel" ]. teísta_n1 := n_intr_count_le & [ STEM < "teísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teísta_n_rel" ] ]. teñir_v := v_trans_np_le & [ STEM < "teñir" >, SYNSEM.LKEYS.KEYREL.PRED "_teñir_v_rel" ]. teólogo_n1 := n_intr_count_le & [ STEM < "teólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teólogo_n_rel" ] ]. teóricamente_x1 := av_s_le & [ STEM < "teóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_teóricamente_x_rel" ]. teórico_a1 := a_qual_intr_ser_le & [ STEM < "teórico" >, SYNSEM.LKEYS.KEYREL.PRED "_teórico_a_rel" ]. teórico_n1 := n_intr_count_le & [ STEM < "teórico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_teórico_n_rel" ] ]. thai_n1 := n_intr_count_le & [ STEM < "thai" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_thai_n_rel" ] ]. thesaurus_n1 := n_intr_count_le & [ STEM < "thesaurus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_thesaurus_n_rel" ] ]. tholos_n1 := n_intr_count_le & [ STEM < "tholos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tholos_n_rel" ] ]. thomsonita_n1 := n_intr_count_le & [ STEM < "thomsonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_thomsonita_n_rel" ] ]. thulita_n1 := n_intr_count_le & [ STEM < "thulita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_thulita_n_rel" ] ]. ti_p := pr_pers_obl_le & [ STEM < "ti" > ]. tiacina_n1 := n_intr_count_le & [ STEM < "tiacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiacina_n_rel" ] ]. tiazol_n1 := n_intr_count_le & [ STEM < "tiazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiazol_n_rel" ] ]. tiazosulfona_n1 := n_intr_count_le & [ STEM < "tiazosulfona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiazosulfona_n_rel" ] ]. tibetano_a1 := a_rel_prd_le & [ STEM < "tibetano" >, SYNSEM.LKEYS.KEYREL.PRED "_tibetano_a_rel" ]. tibetano_n1 := n_intr_count_le & [ STEM < "tibetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tibetano_n_rel" ] ]. tibia_n1 := n_intr_count_le & [ STEM < "tibia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tibia_n_rel" ] ]. tibial_a1 := a_rel_nonprd_intr_le & [ STEM < "tibial" >, SYNSEM.LKEYS.KEYREL.PRED "_tibial_a_rel" ]. tibiez_n1 := n_ppcomp_uncount_le & [ STEM < "tibiez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tibiez_n_rel" ] ]. tibio_a1 := a_qual_intr_scopal_le & [ STEM < "tibio" >, SYNSEM.LKEYS.KEYREL.PRED "_tibio_a_rel" ]. tibioperoneal_a1 := a_rel_nonprd_intr_le & [ STEM < "tibioperoneal" >, SYNSEM.LKEYS.KEYREL.PRED "_tibioperoneal_a_rel" ]. tibioperoneo_a1 := a_rel_nonprd_intr_le & [ STEM < "tibioperoneo" >, SYNSEM.LKEYS.KEYREL.PRED "_tibioperoneo_a_rel" ]. tiburón_n1 := n_intr_count_le & [ STEM < "tiburón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tiburón_n_rel" ] ]. tiempo_n1 := n_intr_mass-or-count_le & [ STEM < "tiempo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_tiempo_n_rel" ] ]. tienda_n1 := n_intr_count_le & [ STEM < "tienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tienda_n_rel" ] ]. tiernamente_x1 := av_i_spr_le & [ STEM < "tiernamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tiernamente_x_rel" ]. tierno_a1 := a_adv_event_le & [ STEM < "tierno" >, SYNSEM.LKEYS.KEYREL.PRED "_tierno_a_rel" ]. tierno_a2 := a_qual_intr_scopal_le & [ STEM < "tierno" >, SYNSEM.LKEYS.KEYREL.PRED "_tierno_a_rel" ]. tierra_adentro_x1 := av_i_le & [ STEM < "tierra_adentro" >, SYNSEM.LKEYS.KEYREL.PRED "_tierra_adentro_x_rel" ]. tierra_n1 := n_intr_mass-or-count_le & [ STEM < "tierra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_mat, PRED "_tierra_n_rel" ] ]. tieso_a1 := a_qual_intr_scopal_le & [ STEM < "tieso" >, SYNSEM.LKEYS.KEYREL.PRED "_tieso_a_rel" ]. tiesto_n1 := n_intr_count_le & [ STEM < "tiesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiesto_n_rel" ] ]. tifoide_a1 := a_rel_nonprd_intr_le & [ STEM < "tifoide" >, SYNSEM.LKEYS.KEYREL.PRED "_tifoide_a_rel" ]. tifón_n1 := n_intr_count_le & [ STEM < "tifón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_tifón_n_rel" ] ]. tigre_n1 := n_intr_count_le & [ STEM < "tigre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tigre_n_rel" ] ]. tigresa_n1 := n_intr_count_le & [ STEM < "tigresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tigresa_n_rel" ] ]. tigrillo_n1 := n_intr_count_le & [ STEM < "tigrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tigrillo_n_rel" ] ]. tigroide_a1 := a_rel_nonprd_intr_le & [ STEM < "tigroide" >, SYNSEM.LKEYS.KEYREL.PRED "_tigroide_a_rel" ]. tija_n1 := n_intr_count_le & [ STEM < "tija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tija_n_rel" ] ]. tijera_n1 := n_intr_count_le & [ STEM < "tijera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tijera_n_rel" ] ]. tijeretazo_n1 := n_intr_count_le & [ STEM < "tijeretazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tijeretazo_n_rel" ] ]. tijerilla_n1 := n_intr_count_le & [ STEM < "tijerilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tijerilla_n_rel" ] ]. tila_n1 := n_intr_mass_le & [ STEM < "tila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_tila_n_rel" ] ]. tilacoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "tilacoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_tilacoidal_a_rel" ]. tilde_n1 := n_intr_count_le & [ STEM < "tilde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tilde_n_rel" ] ]. tilo_n1 := n_intr_count_le & [ STEM < "tilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tilo_n_rel" ] ]. timador_n1 := n_subj-nom_le & [ STEM < "timador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_timador_n_rel" ] ]. timar_v := v_trans_np_le & [ STEM < "timar" >, SYNSEM.LKEYS.KEYREL.PRED "_timar_v_rel" ]. timbal_n1 := n_intr_count_le & [ STEM < "timbal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timbal_n_rel" ] ]. timbrar_v := v_trans_np_le & [ STEM < "timbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_timbrar_v_rel" ]. timbre_n1 := n_intr_count_le & [ STEM < "timbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_timbre_n_rel" ] ]. timectomía_n1 := n_intr_uncount_pl_le & [ STEM < "timectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timectomía_n_rel" ] ]. timidez_n1 := n_ppcomp_mass_le & [ STEM < "timidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timidez_n_rel" ] ]. timo_n1 := n_intr_count_le & [ STEM < "timo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timo_n_rel" ] ]. timo_n2 := n_ppcomp_count_le & [ STEM < "timo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_timo_n_rel" ] ]. timocito_n1 := n_intr_count_le & [ STEM < "timocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timocito_n_rel" ] ]. timodependiente_a1 := a_rel_nonprd_intr_le & [ STEM < "timodependiente" >, SYNSEM.LKEYS.KEYREL.PRED "_timodependiente_a_rel" ]. timoftaleína_n1 := n_intr_count_le & [ STEM < "timoftaleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_timoftaleína_n_rel" ] ]. timoindependiente_a1 := a_rel_nonprd_intr_le & [ STEM < "timoindependiente" >, SYNSEM.LKEYS.KEYREL.PRED "_timoindependiente_a_rel" ]. timol_n1 := n_intr_mass-or-count_le & [ STEM < "timol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_timol_n_rel" ] ]. timonear_v := v_trans_np*_le & [ STEM < "timonear" >, SYNSEM.LKEYS.KEYREL.PRED "_timonear_v_rel" ]. timonel_n1 := n_intr_count_le & [ STEM < "timonel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_timonel_n_rel" ] ]. timonera_n1 := n_intr_count_le & [ STEM < "timonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timonera_n_rel" ] ]. timonero_n1 := n_intr_count_le & [ STEM < "timonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_timonero_n_rel" ] ]. timonería_n1 := n_intr_uncount_le & [ STEM < "timonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timonería_n_rel" ] ]. timoquinona_n1 := n_intr_count_le & [ STEM < "timoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_timoquinona_n_rel" ] ]. timorato_a1 := a_qual_intr_ser_le & [ STEM < "timorato" >, SYNSEM.LKEYS.KEYREL.PRED "_timorato_a_rel" ]. timorés_n1 := n_intr_count_le & [ STEM < "timorés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_timorés_n_rel" ] ]. timosina_n1 := n_intr_count_le & [ STEM < "timosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timosina_n_rel" ] ]. timpanoescamoso_a1 := a_rel_nonprd_intr_le & [ STEM < "timpanoescamoso" >, SYNSEM.LKEYS.KEYREL.PRED "_timpanoescamoso_a_rel" ]. timpanoestapedio_a1 := a_rel_nonprd_intr_le & [ STEM < "timpanoestapedio" >, SYNSEM.LKEYS.KEYREL.PRED "_timpanoestapedio_a_rel" ]. timpanograma_n1 := n_intr_count_le & [ STEM < "timpanograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timpanograma_n_rel" ] ]. timpanomalear_a1 := a_rel_nonprd_intr_le & [ STEM < "timpanomalear" >, SYNSEM.LKEYS.KEYREL.PRED "_timpanomalear_a_rel" ]. timpanomastoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "timpanomastoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_timpanomastoideo_a_rel" ]. timpanometría_n1 := n_intr_uncount_pl_le & [ STEM < "timpanometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timpanometría_n_rel" ] ]. timpanoosicular_a1 := a_rel_nonprd_intr_le & [ STEM < "timpanoosicular" >, SYNSEM.LKEYS.KEYREL.PRED "_timpanoosicular_a_rel" ]. timpanotomía_n1 := n_intr_uncount_pl_le & [ STEM < "timpanotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timpanotomía_n_rel" ] ]. timpánico_a := a_rel_nonprd_intr_le & [ STEM < "timpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_timpánico_a_rel" ]. timón_n1 := n_intr_count_le & [ STEM < "timón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_timón_n_rel" ] ]. tina_n1 := n_intr_count_le & [ STEM < "tina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tina_n_rel" ] ]. tinaja_n1 := n_intr_count_le & [ STEM < "tinaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tinaja_n_rel" ] ]. tinción_n1 := n_trans_le & [ STEM < "tinción" >, SYNSEM.LKEYS.KEYREL.PRED "_tinción_n_rel" ]. tinerfeño_a1 := a_rel_prd_le & [ STEM < "tinerfeño" >, SYNSEM.LKEYS.KEYREL.PRED "_tinerfeño_a_rel" ]. tinerfeño_n1 := n_intr_count_le & [ STEM < "tinerfeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tinerfeño_n_rel" ] ]. tinglado_n1 := n_intr_count_le & [ STEM < "tinglado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tinglado_n_rel" ] ]. tinta_n1 := n_intr_mass_le & [ STEM < "tinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tinta_n_rel" ] ]. tinte_n1 := n_intr_mass_le & [ STEM < "tinte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tinte_n_rel" ] ]. tintero_n1 := n_intr_count_le & [ STEM < "tintero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tintero_n_rel" ] ]. tintinear_v := v_intr_le & [ STEM < "tintinear" >, SYNSEM.LKEYS.KEYREL.PRED "_tintinear_v_rel" ]. tintineo_n1 := n_result_intr_le & [ STEM < "tintineo" >, SYNSEM.LKEYS.KEYREL.PRED "_tintineo_n_rel" ]. tinto_a1 := a_rel_nonprd_intr_le & [ STEM < "tinto" >, SYNSEM.LKEYS.KEYREL.PRED "_tinto_a_rel" ]. tintorera_n1 := n_intr_count_le & [ STEM < "tintorera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tintorera_n_rel" ] ]. tintorero_n1 := n_intr_count_le & [ STEM < "tintorero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tintorero_n_rel" ] ]. tintorería_n1 := n_intr_count_le & [ STEM < "tintorería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tintorería_n_rel" ] ]. tintura_n1 := n_intr_mass_le & [ STEM < "tintura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tintura_n_rel" ] ]. tintómetro_n1 := n_intr_count_le & [ STEM < "tintómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tintómetro_n_rel" ] ]. tintóreo_a1 := a_qual_intr_ser_le & [ STEM < "tintóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_tintóreo_a_rel" ]. tioacético_a1 := a_rel_nonprd_intr_le & [ STEM < "tioacético" >, SYNSEM.LKEYS.KEYREL.PRED "_tioacético_a_rel" ]. tiobenzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "tiobenzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiobenzoico_a_rel" ]. tiocarbanilida_n1 := n_intr_count_le & [ STEM < "tiocarbanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiocarbanilida_n_rel" ] ]. tiocianoacetato_n1 := n_intr_count_le & [ STEM < "tiocianoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiocianoacetato_n_rel" ] ]. tiociánico_a1 := a_rel_nonprd_intr_le & [ STEM < "tiociánico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiociánico_a_rel" ]. tiodiglicol_n1 := n_intr_count_le & [ STEM < "tiodiglicol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiodiglicol_n_rel" ] ]. tiodiglicólico_a1 := a_rel_nonprd_intr_le & [ STEM < "tiodiglicólico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiodiglicólico_a_rel" ]. tiodipropionato_n1 := n_intr_count_le & [ STEM < "tiodipropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiodipropionato_n_rel" ] ]. tiofeno_n1 := n_intr_count_le & [ STEM < "tiofeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiofeno_n_rel" ] ]. tiofenol_n1 := n_intr_count_le & [ STEM < "tiofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiofenol_n_rel" ] ]. tiofosgeno_n1 := n_intr_mass-or-count_le & [ STEM < "tiofosgeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tiofosgeno_n_rel" ] ]. tioglicerina_n1 := n_intr_count_le & [ STEM < "tioglicerina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tioglicerina_n_rel" ] ]. tioglicolato_n1 := n_intr_count_le & [ STEM < "tioglicolato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tioglicolato_n_rel" ] ]. tioglicólico_a1 := a_rel_nonprd_intr_le & [ STEM < "tioglicólico" >, SYNSEM.LKEYS.KEYREL.PRED "_tioglicólico_a_rel" ]. tiohidantoína_n1 := n_intr_count_le & [ STEM < "tiohidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiohidantoína_n_rel" ] ]. tiosalicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "tiosalicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiosalicílico_a_rel" ]. tiosemicarbacida_n1 := n_intr_count_le & [ STEM < "tiosemicarbacida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiosemicarbacida_n_rel" ] ]. tiosemicarbazona_n1 := n_intr_count_le & [ STEM < "tiosemicarbazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiosemicarbazona_n_rel" ] ]. tiosulfato_n1 := n_intr_count_le & [ STEM < "tiosulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiosulfato_n_rel" ] ]. tiouracilo_n1 := n_intr_count_le & [ STEM < "tiouracilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiouracilo_n_rel" ] ]. tiouramilo_n1 := n_intr_count_le & [ STEM < "tiouramilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiouramilo_n_rel" ] ]. tiourea_n1 := n_intr_count_le & [ STEM < "tiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiourea_n_rel" ] ]. tiovivo_n1 := n_intr_count_le & [ STEM < "tiovivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiovivo_n_rel" ] ]. tioéter_n1 := n_intr_count_le & [ STEM < "tioéter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tioéter_n_rel" ] ]. tipicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tipicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tipicidad_n_rel" ] ]. tipificación_n1 := n_trans_le & [ STEM < "tipificación" >, SYNSEM.LKEYS.KEYREL.PRED "_tipificación_n_rel" ]. tipificador_a1 := a_qual_intr_ser_le & [ STEM < "tipificador" >, SYNSEM.LKEYS.KEYREL.PRED "_tipificador_a_rel" ]. tipificar_v := v_trans_np_le & [ STEM < "tipificar" >, SYNSEM.LKEYS.KEYREL.PRED "_tipificar_v_rel" ]. tipista_n1 := n_intr_count_le & [ STEM < "tipista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tipista_n_rel" ] ]. tiple_n1 := n_intr_count_le & [ STEM < "tiple" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_tiple_n_rel" ] ]. tipo_n1 := n_ppcomp_count_le & [ STEM < "tipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tipo_n_rel" ] ]. tipografía_n1 := n_intr_uncount_pl_le & [ STEM < "tipografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tipografía_n_rel" ] ]. tipográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "tipográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_tipográfico_a_rel" ]. tipología_n1 := n_intr_count_le & [ STEM < "tipología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tipología_n_rel" ] ]. tipológicamente_x1 := av_i_spr_le & [ STEM < "tipológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tipológicamente_x_rel" ]. tipológico_a1 := a_rel_nonprd_intr_le & [ STEM < "tipológico" >, SYNSEM.LKEYS.KEYREL.PRED "_tipológico_a_rel" ]. tipógrafo_n1 := n_intr_count_le & [ STEM < "tipógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tipógrafo_n_rel" ] ]. tipómetro_n1 := n_intr_count_le & [ STEM < "tipómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tipómetro_n_rel" ] ]. tira_n1 := n_intr_count_le & [ STEM < "tira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tira_n_rel" ] ]. tirabuzón_n1 := n_intr_count_le & [ STEM < "tirabuzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirabuzón_n_rel" ] ]. tirachinas_n1 := n_intr_count_le & [ STEM < "tirachinas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirachinas_n_rel" ] ]. tirada_n1 := n_trans_le & [ STEM < "tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_tirada_n_rel" ]. tirador_n1 := n_intr_count_le & [ STEM < "tirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirador_n_rel" ] ]. tirador_n2 := n_subj-nom_le & [ STEM < "tirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tirador_n_rel" ] ]. tirafondo_n1 := n_intr_count_le & [ STEM < "tirafondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirafondo_n_rel" ] ]. tiraje_n1 := n_intr_uncount_le & [ STEM < "tiraje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tiraje_n_rel" ] ]. tiralíneas_n1 := n_intr_count_le & [ STEM < "tiralíneas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiralíneas_n_rel" ] ]. tiramina_n1 := n_intr_count_le & [ STEM < "tiramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiramina_n_rel" ] ]. tirano_n1 := n_intr_count_le & [ STEM < "tirano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tirano_n_rel" ] ]. tirante_a1 := a_qual_intr_scopal_le & [ STEM < "tirante" >, SYNSEM.LKEYS.KEYREL.PRED "_tirante_a_rel" ]. tirante_n1 := n_intr_count_le & [ STEM < "tirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirante_n_rel" ] ]. tirantez_n1 := n_ppcomp_uncount_le & [ STEM < "tirantez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tirantez_n_rel" ] ]. tiranía_n1 := n_intr_mass-or-count_le & [ STEM < "tiranía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tiranía_n_rel" ] ]. tirar_v := v_unacc_lcomp_dir*_le & [ STEM < "tirar" >, SYNSEM.LKEYS.KEYREL.PRED "_tirar_v_rel" ]. tirar_v1 := v_ditrans*_le & [ STEM < "tirar" >, SYNSEM.LKEYS.KEYREL.PRED "_tirar_v_rel" ]. tirar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tirar_v_rel" ] ]. tirar_v3 := v_intr_mrkd_np_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --COMPKEY _sobre_p_sel_rel, KEYREL [ ARG1.SORT hum_soc, PRED "_tirar_v_rel" ] ] ]. tirar_v4 := v_intr_mrkd_np_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tirar_v_rel" ] ]. tirar_v5 := v_intr_mrkd_np_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_tirar_v_rel" ] ]. tirar_v6 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tirar_v_rel" ] ]. tirar_v8 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "tirar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_tirar_v_rel" ] ] ]. tiratrón_n1 := n_intr_count_le & [ STEM < "tiratrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiratrón_n_rel" ] ]. tiristor_n1 := n_intr_mass-or-count_le & [ STEM < "tiristor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tiristor_n_rel" ] ]. tirita_n1 := n_intr_count_le & [ STEM < "tirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tirita_n_rel" ] ]. tiro_n1 := n_trans_le & [ STEM < "tiro" >, SYNSEM.LKEYS.KEYREL.PRED "_tiro_n_rel" ]. tiroaritenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "tiroaritenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_tiroaritenoideo_a_rel" ]. tirocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "tirocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_tirocervical_a_rel" ]. tirocidina_n1 := n_intr_count_le & [ STEM < "tirocidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tirocidina_n_rel" ] ]. tiroepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "tiroepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiroepiglótico_a_rel" ]. tirogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "tirogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_tirogloso_a_rel" ]. tirohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "tirohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_tirohioideo_a_rel" ]. tiroideo_a1 := a_rel_nonprd_intr_le & [ STEM < "tiroideo" >, SYNSEM.LKEYS.KEYREL.PRED "_tiroideo_a_rel" ]. tiroides_n1 := n_intr_count_le & [ STEM < "tiroides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiroides_n_rel" ] ]. tirolés_a1 := a_rel_prd_le & [ STEM < "tirolés" >, SYNSEM.LKEYS.KEYREL.PRED "_tirolés_a_rel" ]. tirolés_n1 := n_intr_count_le & [ STEM < "tirolés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tirolés_n_rel" ] ]. tirosina_n1 := n_intr_count_le & [ STEM < "tirosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tirosina_n_rel" ] ]. tirotear_v := v_trans_np*_le & [ STEM < "tirotear" >, SYNSEM.LKEYS.KEYREL.PRED "_tirotear_v_rel" ]. tiroteo_n1 := n_trans_le & [ STEM < "tiroteo" >, SYNSEM.LKEYS.KEYREL.PRED "_tiroteo_n_rel" ]. tirotomía_n1 := n_intr_uncount_pl_le & [ STEM < "tirotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tirotomía_n_rel" ] ]. tirotricina_n1 := n_intr_count_le & [ STEM < "tirotricina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tirotricina_n_rel" ] ]. tiroxina_n1 := n_intr_count_le & [ STEM < "tiroxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tiroxina_n_rel" ] ]. tiránico_a1 := a_qual_intr_ser_le & [ STEM < "tiránico" >, SYNSEM.LKEYS.KEYREL.PRED "_tiránico_a_rel" ]. tirón_n1 := n_trans_le & [ STEM < "tirón" >, SYNSEM.LKEYS.KEYREL.PRED "_tirón_n_rel" ]. tisana_n1 := n_intr_mass_le & [ STEM < "tisana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tisana_n_rel" ] ]. tisular_a1 := a_rel_nonprd_intr_le & [ STEM < "tisular" >, SYNSEM.LKEYS.KEYREL.PRED "_tisular_a_rel" ]. titanato_n1 := n_intr_count_le & [ STEM < "titanato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_titanato_n_rel" ] ]. titanio_n1 := n_intr_mass_le & [ STEM < "titanio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_titanio_n_rel" ] ]. titanita_n1 := n_intr_count_le & [ STEM < "titanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_titanita_n_rel" ] ]. titanoso_a1 := a_rel_nonprd_intr_le & [ STEM < "titanoso" >, SYNSEM.LKEYS.KEYREL.PRED "_titanoso_a_rel" ]. titiritero_n1 := n_intr_count_le & [ STEM < "titiritero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_titiritero_n_rel" ] ]. titrar_v := v_trans_np_le & [ STEM < "titrar" >, SYNSEM.LKEYS.KEYREL.PRED "_titrar_v_rel" ]. titrimetría_n1 := n_intr_uncount_pl_le & [ STEM < "titrimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_titrimetría_n_rel" ] ]. titubeante_a1 := a_qual_intr_ser_le & [ STEM < "titubeante" >, SYNSEM.LKEYS.KEYREL.PRED "_titubeante_a_rel" ]. titubear_v := v_intr_le & [ STEM < "titubear" >, SYNSEM.LKEYS.KEYREL.PRED "_titubear_v_rel" ]. titubeo_n1 := n_result_intr_le & [ STEM < "titubeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_titubeo_n_rel" ] ]. titulación_n1 := n_trans_le & [ STEM < "titulación" >, SYNSEM.LKEYS.KEYREL.PRED "_titulación_n_rel" ]. titulado_n1 := n_intr_count_le & [ STEM < "titulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_titulado_n_rel" ] ]. titular_a1 := a_rel_nonprd_intr_le & [ STEM < "titular" >, SYNSEM.LKEYS.KEYREL.PRED "_titular_a_rel" ]. titular_n1 := n_intr_count_le & [ STEM < "titular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_titular_n_rel" ] ]. titularidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "titularidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_titularidad_n_rel" ] ]. titán_n1 := n_intr_count_le & [ STEM < "titán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_titán_n_rel" ] ]. titánico_a1 := a_rel_nonprd_intr_le & [ STEM < "titánico" >, SYNSEM.LKEYS.KEYREL.PRED "_titánico_a_rel" ]. tití_n1 := n_intr_count_le & [ STEM < "tití" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tití_n_rel" ] ]. titímalo_n1 := n_intr_mass_le & [ STEM < "titímalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_titímalo_n_rel" ] ]. tixotropo_n1 := n_intr_count_le & [ STEM < "tixotropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tixotropo_n_rel" ] ]. tixotropía_n1 := n_intr_uncount_le & [ STEM < "tixotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tixotropía_n_rel" ] ]. tiza_n1 := n_intr_mass_le & [ STEM < "tiza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tiza_n_rel" ] ]. tizo_n1 := n_intr_count_le & [ STEM < "tizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tizo_n_rel" ] ]. tizón_n1 := n_intr_count_le & [ STEM < "tizón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tizón_n_rel" ] ]. toalla_n1 := n_intr_count_le & [ STEM < "toalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toalla_n_rel" ] ]. toallero_n1 := n_intr_count_le & [ STEM < "toallero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toallero_n_rel" ] ]. toallita_n1 := n_intr_count_le & [ STEM < "toallita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toallita_n_rel" ] ]. toba_n1 := n_intr_count_le & [ STEM < "toba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toba_n_rel" ] ]. tobera_n1 := n_intr_count_le & [ STEM < "tobera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tobera_n_rel" ] ]. tobillera_n1 := n_intr_count_le & [ STEM < "tobillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tobillera_n_rel" ] ]. tobillo_n1 := n_ppcomp_count_le & [ STEM < "tobillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tobillo_n_rel" ] ]. tobogán_n1 := n_intr_count_le & [ STEM < "tobogán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tobogán_n_rel" ] ]. toboso_a1 := a_rel_nonprd_intr_le & [ STEM < "toboso" >, SYNSEM.LKEYS.KEYREL.PRED "_toboso_a_rel" ]. tocadiscos_n1 := n_intr_count_le & [ STEM < "tocadiscos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tocadiscos_n_rel" ] ]. tocador_n1 := n_intr_count_le & [ STEM < "tocador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tocador_n_rel" ] ]. tocamiento_n1 := n_trans_le & [ STEM < "tocamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_tocamiento_n_rel" ]. tocar_v1 := v_intr_io*_le & [ STEM < "tocar" >, SYNSEM.LKEYS.KEYREL.PRED "_tocar_v_rel" ]. tocar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "tocar" >, SYNSEM.LKEYS.KEYREL.PRED "_tocar_v_rel" ]. tocar_v3 := v_trans_np_le & [ STEM < "tocar" >, SYNSEM.LKEYS.KEYREL.PRED "_tocar_v_rel" ]. tocayo_n1 := n_intr_count_le & [ STEM < "tocayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tocayo_n_rel" ] ]. tocho_n1 := n_intr_count_le & [ STEM < "tocho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tocho_n_rel" ] ]. tocino_n1 := n_intr_count_le & [ STEM < "tocino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tocino_n_rel" ] ]. tocoferol_n1 := n_intr_count_le & [ STEM < "tocoferol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tocoferol_n_rel" ] ]. tocólogo_n1 := n_intr_count_le & [ STEM < "tocólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tocólogo_n_rel" ] ]. tocón_n1 := n_intr_count_le & [ STEM < "tocón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tocón_n_rel" ] ]. todavía_x1 := av_i_le & [ STEM < "todavía" >, SYNSEM.LKEYS.KEYREL.PRED "_todavía_x_rel" ]. todo_d1 := d_qnt-df_todo_le & [ STEM < "todo" >, SYNSEM.LKEYS.KEYREL.PRED _todo_q_rel ]. todo_d2 := d_qnt-indf_todo_le & [ STEM < "todo" >, SYNSEM.LKEYS.KEYREL.PRED _todo_q_rel ]. todo_lo_contrario_x1 := av_i_le & [ STEM < "todo_lo_contrario" >, SYNSEM.LKEYS.KEYREL.PRED "_todo_lo_contrario_x_rel" ]. todo_p := pr_indf_todo_le & [ STEM < "todo" > ]. todopoderoso_a1 := a_rel_prd_le & [ STEM < "todopoderoso" >, SYNSEM.LKEYS.KEYREL.PRED "_todopoderoso_a_rel" ]. todopoderoso_a2 := a_adv_event_le & [ STEM < "todopoderoso" >, SYNSEM.LKEYS.KEYREL.PRED "_todopoderoso_a_rel" ]. todoterreno_n1 := n_intr_count_le & [ STEM < "todoterreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_todoterreno_n_rel" ] ]. toffee_n1 := n_intr_count_le & [ STEM < "toffee" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toffee_n_rel" ] ]. toga_n1 := n_intr_count_le & [ STEM < "toga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toga_n_rel" ] ]. togado_n1 := n_intr_count_le & [ STEM < "togado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_togado_n_rel" ] ]. tolano_n1 := n_intr_count_le & [ STEM < "tolano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tolano_n_rel" ] ]. toldeano_n1 := n_intr_count_le & [ STEM < "toldeano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_toldeano_n_rel" ] ]. toldo_n1 := n_intr_count_le & [ STEM < "toldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_toldo_n_rel" ] ]. toledano_a1 := a_rel_prd_le & [ STEM < "toledano" >, SYNSEM.LKEYS.KEYREL.PRED "_toledano_a_rel" ]. toledano_n1 := n_intr_count_le & [ STEM < "toledano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_toledano_n_rel" ] ]. tolerable_a1 := a_qual_intr_ser_le & [ STEM < "tolerable" >, SYNSEM.LKEYS.KEYREL.PRED "_tolerable_a_rel" ]. tolerancia_n1 := n_trans_le & [ STEM < "tolerancia" >, SYNSEM.LKEYS.KEYREL.PRED "_tolerancia_n_rel" ]. tolerante_a1 := a_qual_intr_ser_le & [ STEM < "tolerante" >, SYNSEM.LKEYS.KEYREL.PRED "_tolerante_a_rel" ]. tolerar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "tolerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tolerar_v_rel" ] ]. tolerar_v2 := v_trans_np_le & [ STEM < "tolerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_tolerar_v_rel" ] ]. tolerogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "tolerogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_tolerogénico_a_rel" ]. tolerógeno_n1 := n_intr_count_le & [ STEM < "tolerógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tolerógeno_n_rel" ] ]. tolete_n1 := n_intr_count_le & [ STEM < "tolete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tolete_n_rel" ] ]. tolidina_n1 := n_intr_count_le & [ STEM < "tolidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tolidina_n_rel" ] ]. tolilaldehído_n1 := n_intr_mass_le & [ STEM < "tolilaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tolilaldehído_n_rel" ] ]. tolildietanolamina_n1 := n_intr_count_le & [ STEM < "tolildietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tolildietanolamina_n_rel" ] ]. toliletanolamina_n1 := n_intr_count_le & [ STEM < "toliletanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toliletanolamina_n_rel" ] ]. tolmetina_n1 := n_intr_count_le & [ STEM < "tolmetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tolmetina_n_rel" ] ]. tolteca_n1 := n_intr_count_le & [ STEM < "tolteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tolteca_n_rel" ] ]. tolueno_n1 := n_intr_count_le & [ STEM < "tolueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tolueno_n_rel" ] ]. toluensulfanilida_n1 := n_intr_count_le & [ STEM < "toluensulfanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluensulfanilida_n_rel" ] ]. toluensulfonamida_n1 := n_intr_count_le & [ STEM < "toluensulfonamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluensulfonamida_n_rel" ] ]. toluensulfonato_n1 := n_intr_count_le & [ STEM < "toluensulfonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluensulfonato_n_rel" ] ]. toluhidroquinona_n1 := n_intr_count_le & [ STEM < "toluhidroquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluhidroquinona_n_rel" ] ]. toluico_a1 := a_rel_nonprd_intr_le & [ STEM < "toluico" >, SYNSEM.LKEYS.KEYREL.PRED "_toluico_a_rel" ]. toluidina_n1 := n_intr_count_le & [ STEM < "toluidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluidina_n_rel" ] ]. toluquinona_n1 := n_intr_count_le & [ STEM < "toluquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toluquinona_n_rel" ] ]. tolva_n1 := n_intr_count_le & [ STEM < "tolva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tolva_n_rel" ] ]. toma_n1 := n_trans_le & [ STEM < "toma" >, SYNSEM.LKEYS.KEYREL.PRED "_toma_n_rel" ]. tomacorriente_n1 := n_intr_count_le & [ STEM < "tomacorriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomacorriente_n_rel" ] ]. tomador_n1 := n_intr_count_le & [ STEM < "tomador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomador_n_rel" ] ]. tomador_n2 := n_subj-nom_le & [ STEM < "tomador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tomador_n_rel" ] ]. tomadura_n1 := n_trans_le & [ STEM < "tomadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tomadura_n_rel" ] ]. tomamuestras_n1 := n_intr_count_le & [ STEM < "tomamuestras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomamuestras_n_rel" ] ]. tomate_n1 := n_intr_mass_le & [ STEM < "tomate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomate_n_rel" ] ]. tomatera_n1 := n_intr_count_le & [ STEM < "tomatera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tomatera_n_rel" ] ]. tomillar_n1 := n_intr_count_le & [ STEM < "tomillar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tomillar_n_rel" ] ]. tomillo_n1 := n_intr_mass_le & [ STEM < "tomillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomillo_n_rel" ] ]. tomismo_n1 := n_intr_uncount_le & [ STEM < "tomismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tomismo_n_rel" ] ]. tomista_n1 := n_intr_count_le & [ STEM < "tomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tomista_n_rel" ] ]. tomo_n1 := n_intr_count_le & [ STEM < "tomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomo_n_rel" ] ]. tomografía_n1 := n_intr_count_le & [ STEM < "tomografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tomografía_n_rel" ] ]. tomsonita_n1 := n_intr_count_le & [ STEM < "tomsonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tomsonita_n_rel" ] ]. tonal_a1 := a_rel_nonprd_intr_le & [ STEM < "tonal" >, SYNSEM.LKEYS.KEYREL.PRED "_tonal_a_rel" ]. tonalidad_n1 := n_intr_count_le & [ STEM < "tonalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonalidad_n_rel" ] ]. tondo_n1 := n_intr_count_le & [ STEM < "tondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tondo_n_rel" ] ]. tonel_n1 := n_intr_count_le & [ STEM < "tonel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tonel_n_rel" ] ]. tonelada_métrica_n1 := n_pseudo-part_le & [ STEM < "tonelada_métrica" >, SYNSEM.LKEYS.KEYREL.PRED "_tonelada_métrica_n_rel" ]. tonelada_n1 := n_pseudo-part_le & [ STEM < "tonelada" >, SYNSEM.LKEYS.KEYREL.PRED "_tonelada_n_rel" ]. tonelaje_n1 := n_intr_uncount_le & [ STEM < "tonelaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonelaje_n_rel" ] ]. tonelero_n1 := n_intr_count_le & [ STEM < "tonelero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tonelero_n_rel" ] ]. tonelería_n1 := n_intr_uncount_le & [ STEM < "tonelería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonelería_n_rel" ] ]. tonicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tonicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonicidad_n_rel" ] ]. tonificante_a1 := a_qual_intr_ser_le & [ STEM < "tonificante" >, SYNSEM.LKEYS.KEYREL.PRED "_tonificante_a_rel" ]. tonificar_v := v_trans_np*_caus_le & [ STEM < "tonificar" >, SYNSEM.LKEYS.KEYREL.PRED "_tonificar_v_rel" ]. tonofilamento_n1 := n_intr_count_le & [ STEM < "tonofilamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tonofilamento_n_rel" ] ]. tonografía_n1 := n_intr_count_le & [ STEM < "tonografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tonografía_n_rel" ] ]. tonometría_n1 := n_intr_uncount_pl_le & [ STEM < "tonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonometría_n_rel" ] ]. tonsila_n1 := n_ppcomp_count_le & [ STEM < "tonsila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tonsila_n_rel" ] ]. tonsilar_a1 := a_rel_nonprd_intr_le & [ STEM < "tonsilar" >, SYNSEM.LKEYS.KEYREL.PRED "_tonsilar_a_rel" ]. tonsilectomía_n1 := n_intr_uncount_pl_le & [ STEM < "tonsilectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonsilectomía_n_rel" ] ]. tonsilotomía_n1 := n_intr_uncount_pl_le & [ STEM < "tonsilotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonsilotomía_n_rel" ] ]. tonsura_n1 := n_intr_count_le & [ STEM < "tonsura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tonsura_n_rel" ] ]. tonsura_n2 := n_ppcomp_count_le & [ STEM < "tonsura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tonsura_n_rel" ] ]. tontamente_x1 := av_s_spr_le & [ STEM < "tontamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tontamente_x_rel" ]. tontamente_x2 := av_i_psthd_spr_le & [ STEM < "tontamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tontamente_x_rel" ]. tontería_n1 := n_intr_count_le & [ STEM < "tontería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tontería_n_rel" ] ]. tonto_a1 := a_qual_intr_ser_le & [ STEM < "tonto" >, SYNSEM.LKEYS.KEYREL.PRED "_tonto_a_rel" ]. tonto_n1 := n_intr_count_le & [ STEM < "tonto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tonto_n_rel" ] ]. tonómetro_n1 := n_intr_count_le & [ STEM < "tonómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tonómetro_n_rel" ] ]. topacio_n1 := n_intr_mass-or-count_le & [ STEM < "topacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_topacio_n_rel" ] ]. topar_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "topar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_topar_v_rel" ] ]. topar_v2 := v_intr_mrkd_np*_sym_le & [ STEM < "topar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_topar_v_rel" ] ]. topazolita_n1 := n_intr_count_le & [ STEM < "topazolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_topazolita_n_rel" ] ]. tope_n1 := n_intr_count_le & [ STEM < "tope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tope_n_rel" ] ]. topera_n1 := n_intr_count_le & [ STEM < "topera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_topera_n_rel" ] ]. topetazo_n1 := n_intr_count_le & [ STEM < "topetazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topetazo_n_rel" ] ]. topo_n1 := n_intr_count_le & [ STEM < "topo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_topo_n_rel" ] ]. topografía_n1 := n_intr_uncount_pl_le & [ STEM < "topografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topografía_n_rel" ] ]. topográficamente_x1 := av_i_spr_le & [ STEM < "topográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_topográficamente_x_rel" ]. topográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "topográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_topográfico_a_rel" ]. topología_n1 := n_intr_count_le & [ STEM < "topología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topología_n_rel" ] ]. topológicamente_x1 := av_i_spr_le & [ STEM < "topológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_topológicamente_x_rel" ]. topológico_a1 := a_rel_nonprd_intr_le & [ STEM < "topológico" >, SYNSEM.LKEYS.KEYREL.PRED "_topológico_a_rel" ]. toponímicamente_x1 := av_i_spr_le & [ STEM < "toponímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_toponímicamente_x_rel" ]. toponímico_a1 := a_rel_nonprd_intr_le & [ STEM < "toponímico" >, SYNSEM.LKEYS.KEYREL.PRED "_toponímico_a_rel" ]. toposecuencia_n1 := n_intr_count_le & [ STEM < "toposecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toposecuencia_n_rel" ] ]. topotáctico_a1 := a_rel_nonprd_intr_le & [ STEM < "topotáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_topotáctico_a_rel" ]. topógrafo_n1 := n_intr_count_le & [ STEM < "topógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_topógrafo_n_rel" ] ]. toracoacromial_a1 := a_rel_nonprd_intr_le & [ STEM < "toracoacromial" >, SYNSEM.LKEYS.KEYREL.PRED "_toracoacromial_a_rel" ]. toracodorsal_a1 := a_rel_nonprd_intr_le & [ STEM < "toracodorsal" >, SYNSEM.LKEYS.KEYREL.PRED "_toracodorsal_a_rel" ]. toracoepigástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "toracoepigástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_toracoepigástrico_a_rel" ]. torbanita_n1 := n_intr_count_le & [ STEM < "torbanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_torbanita_n_rel" ] ]. torbellino_n1 := n_intr_count_le & [ STEM < "torbellino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_torbellino_n_rel" ] ]. torbenita_n1 := n_intr_count_le & [ STEM < "torbenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_torbenita_n_rel" ] ]. torca_n1 := n_intr_count_le & [ STEM < "torca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torca_n_rel" ] ]. torcaz_a1 := a_rel_nonprd_intr_le & [ STEM < "torcaz" >, SYNSEM.LKEYS.KEYREL.PRED "_torcaz_a_rel" ]. torcedor_a1 := a_rel_nonprd_intr_le & [ STEM < "torcedor" >, SYNSEM.LKEYS.KEYREL.PRED "_torcedor_a_rel" ]. torcedura_n1 := n_trans_le & [ STEM < "torcedura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_torcedura_n_rel" ] ]. tordo_n1 := n_intr_count_le & [ STEM < "tordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tordo_n_rel" ] ]. torear_v := v_trans_np*_le & [ STEM < "torear" >, SYNSEM.LKEYS.KEYREL.PRED "_torear_v_rel" ]. toreo_n1 := n_result_intr_le & [ STEM < "toreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toreo_n_rel" ] ]. toreo_n2 := n_trans_le & [ STEM < "toreo" >, SYNSEM.LKEYS.KEYREL.PRED "_toreo_n_rel" ]. torero_n1 := n_intr_count_le & [ STEM < "torero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_torero_n_rel" ] ]. torillo_n1 := n_intr_count_le & [ STEM < "torillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_torillo_n_rel" ] ]. torio_n1 := n_intr_mass_le & [ STEM < "torio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_torio_n_rel" ] ]. torita_n1 := n_intr_count_le & [ STEM < "torita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_torita_n_rel" ] ]. tormenta_n1 := n_intr_count_le & [ STEM < "tormenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_tormenta_n_rel" ] ]. tormento_n1 := n_intr_count_le & [ STEM < "tormento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tormento_n_rel" ] ]. tormentoso_a1 := a_qual_intr_ser_le & [ STEM < "tormentoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tormentoso_a_rel" ]. tornado_n1 := n_intr_count_le & [ STEM < "tornado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tornado_n_rel" ] ]. tornapunta_n1 := n_intr_count_le & [ STEM < "tornapunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tornapunta_n_rel" ] ]. tornasol_a1 := a_rel_nonprd_intr_le & [ STEM < "tornasol" >, SYNSEM.LKEYS.KEYREL.PRED "_tornasol_a_rel" ]. tornasol_n1 := n_intr_count_le & [ STEM < "tornasol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_tornasol_n_rel" ] ]. tornear_v := v_trans_np_le & [ STEM < "tornear" >, SYNSEM.LKEYS.KEYREL.PRED "_tornear_v_rel" ]. torneo_n1 := n_intr_count_le & [ STEM < "torneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_torneo_n_rel" ] ]. tornero_n1 := n_intr_count_le & [ STEM < "tornero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tornero_n_rel" ] ]. tornería_n1 := n_intr_count_le & [ STEM < "tornería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_tornería_n_rel" ] ]. tornillería_n1 := n_intr_count_le & [ STEM < "tornillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tornillería_n_rel" ] ]. tornillo_n1 := n_intr_count_le & [ STEM < "tornillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tornillo_n_rel" ] ]. torniquete_n1 := n_intr_count_le & [ STEM < "torniquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_torniquete_n_rel" ] ]. torno_n1 := n_intr_count_le & [ STEM < "torno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torno_n_rel" ] ]. toro_n1 := n_intr_count_le & [ STEM < "toro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_toro_n_rel" ] ]. toroidal_a1 := a_rel_nonprd_intr_le & [ STEM < "toroidal" >, SYNSEM.LKEYS.KEYREL.PRED "_toroidal_a_rel" ]. toroidalmente_x1 := av_i_spr_le & [ STEM < "toroidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_toroidalmente_x_rel" ]. torpe_a1 := a_qual_intr_ser_le & [ STEM < "torpe" >, SYNSEM.LKEYS.KEYREL.PRED "_torpe_a_rel" ]. torpedear_v := v_trans_np_le & [ STEM < "torpedear" >, SYNSEM.LKEYS.KEYREL.PRED "_torpedear_v_rel" ]. torpedero_a1 := a_rel_nonprd_intr_le & [ STEM < "torpedero" >, SYNSEM.LKEYS.KEYREL.PRED "_torpedero_a_rel" ]. torpedero_n1 := n_intr_count_le & [ STEM < "torpedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_torpedero_n_rel" ] ]. torpedo_n1 := n_intr_count_le & [ STEM < "torpedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_torpedo_n_rel" ] ]. torpemente_x1 := av_s_spr_le & [ STEM < "torpemente" >, SYNSEM.LKEYS.KEYREL.PRED "_torpemente_x_rel" ]. torpemente_x2 := av_i_psthd_spr_le & [ STEM < "torpemente" >, SYNSEM.LKEYS.KEYREL.PRED "_torpemente_x_rel" ]. torpeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "torpeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_torpeza_n_rel" ] ]. torre_n1 := n_intr_count_le & [ STEM < "torre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torre_n_rel" ] ]. torrefacción_n1 := n_intr_uncount_le & [ STEM < "torrefacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_torrefacción_n_rel" ] ]. torrefactamente_x1 := av_i_spr_le & [ STEM < "torrefactamente" >, SYNSEM.LKEYS.KEYREL.PRED "_torrefactamente_x_rel" ]. torrefacto_a1 := a_rel_nonprd_intr_le & [ STEM < "torrefacto" >, SYNSEM.LKEYS.KEYREL.PRED "_torrefacto_a_rel" ]. torrencial_a1 := a_qual_intr_ser_le & [ STEM < "torrencial" >, SYNSEM.LKEYS.KEYREL.PRED "_torrencial_a_rel" ]. torrencialidad_n1 := n_intr_uncount_le & [ STEM < "torrencialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_torrencialidad_n_rel" ] ]. torrencialmente_x1 := av_i_spr_le & [ STEM < "torrencialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_torrencialmente_x_rel" ]. torrente_n1 := n_intr_count_le & [ STEM < "torrente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_torrente_n_rel" ] ]. torrentera_n1 := n_intr_count_le & [ STEM < "torrentera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_torrentera_n_rel" ] ]. torrero_n1 := n_intr_count_le & [ STEM < "torrero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_torrero_n_rel" ] ]. torreta_n1 := n_intr_count_le & [ STEM < "torreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_torreta_n_rel" ] ]. torrija_n1 := n_intr_count_le & [ STEM < "torrija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torrija_n_rel" ] ]. torsiómetro_n1 := n_intr_count_le & [ STEM < "torsiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torsiómetro_n_rel" ] ]. torsión_n1 := n_trans_le & [ STEM < "torsión" >, SYNSEM.LKEYS.KEYREL.PRED "_torsión_n_rel" ]. torso_n1 := n_intr_count_le & [ STEM < "torso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torso_n_rel" ] ]. torta_n1 := n_intr_mass_le & [ STEM < "torta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torta_n_rel" ] ]. tortilla_n1 := n_intr_mass_le & [ STEM < "tortilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tortilla_n_rel" ] ]. tortita_n1 := n_intr_count_le & [ STEM < "tortita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tortita_n_rel" ] ]. tortosino_a1 := a_rel_prd_le & [ STEM < "tortosino" >, SYNSEM.LKEYS.KEYREL.PRED "_tortosino_a_rel" ]. tortosino_n1 := n_intr_count_le & [ STEM < "tortosino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tortosino_n_rel" ] ]. tortuga_n1 := n_intr_count_le & [ STEM < "tortuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tortuga_n_rel" ] ]. tortuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tortuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tortuosidad_n_rel" ] ]. tortuoso_a1 := a_qual_intr_ser_le & [ STEM < "tortuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tortuoso_a_rel" ]. tortura_n1 := n_intr_count_le & [ STEM < "tortura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tortura_n_rel" ] ]. torturador_a1 := a_rel_nonprd_intr_le & [ STEM < "torturador" >, SYNSEM.LKEYS.KEYREL.PRED "_torturador_a_rel" ]. torturador_n1 := n_subj-nom_le & [ STEM < "torturador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_torturador_n_rel" ] ]. torturadoramente_x1 := av_i_spr_le & [ STEM < "torturadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_torturadoramente_x_rel" ]. torturar_v1 := v_intr_io*_le & [ STEM < "torturar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_torturar_v_rel" ] ]. torturar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "torturar" >, SYNSEM.LKEYS.KEYREL.PRED "_torturar_v_rel" ]. torturar_v3 := v_trans_np_le & [ STEM < "torturar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_torturar_v_rel" ] ]. torunda_n1 := n_intr_count_le & [ STEM < "torunda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torunda_n_rel" ] ]. torzal_n1 := n_intr_count_le & [ STEM < "torzal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torzal_n_rel" ] ]. torácico_a1 := a_rel_nonprd_intr_le & [ STEM < "torácico" >, SYNSEM.LKEYS.KEYREL.PRED "_torácico_a_rel" ]. torón_n1 := n_intr_count_le & [ STEM < "torón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_torón_n_rel" ] ]. tos_n1 := n_intr_mass_le & [ STEM < "tos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tos_n_rel" ] ]. toscamente_x1 := av_i_spr_le & [ STEM < "toscamente" >, SYNSEM.LKEYS.KEYREL.PRED "_toscamente_x_rel" ]. toscano_a1 := a_rel_prd_le & [ STEM < "toscano" >, SYNSEM.LKEYS.KEYREL.PRED "_toscano_a_rel" ]. toscano_n1 := n_intr_count_le & [ STEM < "toscano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_toscano_n_rel" ] ]. tosco_a1 := a_qual_intr_ser_le & [ STEM < "tosco" >, SYNSEM.LKEYS.KEYREL.PRED "_tosco_a_rel" ]. toser_v := v_intr_le & [ STEM < "toser" >, SYNSEM.LKEYS.KEYREL.PRED "_toser_v_rel" ]. tosquedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tosquedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tosquedad_n_rel" ] ]. tostación_n1 := n_trans_le & [ STEM < "tostación" >, SYNSEM.LKEYS.KEYREL.PRED "_tostación_n_rel" ]. tostada_n1 := n_intr_mass_le & [ STEM < "tostada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tostada_n_rel" ] ]. tostadero_n1 := n_intr_count_le & [ STEM < "tostadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tostadero_n_rel" ] ]. tostador_a1 := a_rel_nonprd_intr_le & [ STEM < "tostador" >, SYNSEM.LKEYS.KEYREL.PRED "_tostador_a_rel" ]. tostador_n1 := n_intr_count_le & [ STEM < "tostador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tostador_n_rel" ] ]. tostar_v := v_trans_np_caus_le & [ STEM < "tostar" >, SYNSEM.LKEYS.KEYREL.PRED "_tostar_v_rel" ]. total_n1 := n_intr_count_le & [ STEM < "total" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_total_n_rel" ] ]. totalidad_n1 := n_ppcomp_uncount_le & [ STEM < "totalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_totalidad_n_rel" ] ]. totalidad_n2 := n_ppcomp_count_le & [ STEM < "totalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_totalidad_n_rel" ] ]. totalitariamente_x1 := av_i_spr_le & [ STEM < "totalitariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_totalitariamente_x_rel" ]. totalitario_a1 := a_rel_nonprd_intr_le & [ STEM < "totalitario" >, SYNSEM.LKEYS.KEYREL.PRED "_totalitario_a_rel" ]. totalitarismo_n1 := n_intr_uncount_le & [ STEM < "totalitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_totalitarismo_n_rel" ] ]. totalización_n1 := n_trans_le & [ STEM < "totalización" >, SYNSEM.LKEYS.KEYREL.PRED "_totalización_n_rel" ]. totalizador_a1 := a_rel_nonprd_intr_le & [ STEM < "totalizador" >, SYNSEM.LKEYS.KEYREL.PRED "_totalizador_a_rel" ]. totalmente_x1 := av_i_le & [ STEM < "totalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_totalmente_x_rel" ]. totemismo_n1 := n_intr_uncount_le & [ STEM < "totemismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_totemismo_n_rel" ] ]. totémico_a1 := a_rel_nonprd_intr_le & [ STEM < "totémico" >, SYNSEM.LKEYS.KEYREL.PRED "_totémico_a_rel" ]. tour_n1 := n_intr_count_le & [ STEM < "tour" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tour_n_rel" ] ]. toxafeno_n1 := n_intr_count_le & [ STEM < "toxafeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toxafeno_n_rel" ] ]. toxicidad_n1 := n_intr_mass_le & [ STEM < "toxicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toxicidad_n_rel" ] ]. toxicología_n1 := n_intr_uncount_le & [ STEM < "toxicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toxicología_n_rel" ] ]. toxicológico_a1 := a_rel_nonprd_intr_le & [ STEM < "toxicológico" >, SYNSEM.LKEYS.KEYREL.PRED "_toxicológico_a_rel" ]. toxicomanía_n1 := n_intr_uncount_pl_le & [ STEM < "toxicomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toxicomanía_n_rel" ] ]. toxicógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "toxicógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_toxicógeno_a_rel" ]. toxicólogo_n1 := n_intr_count_le & [ STEM < "toxicólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_toxicólogo_n_rel" ] ]. toxicómano_n1 := n_intr_count_le & [ STEM < "toxicómano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_toxicómano_n_rel" ] ]. toxina_n1 := n_intr_mass_le & [ STEM < "toxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toxina_n_rel" ] ]. toxoide_n1 := n_intr_count_le & [ STEM < "toxoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_toxoide_n_rel" ] ]. toyotismo_n1 := n_intr_uncount_le & [ STEM < "toyotismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toyotismo_n_rel" ] ]. tozudez_n1 := n_ppcomp_mass_le & [ STEM < "tozudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tozudez_n_rel" ] ]. tozudo_a1 := a_qual_intr_ser_le & [ STEM < "tozudo" >, SYNSEM.LKEYS.KEYREL.PRED "_tozudo_a_rel" ]. traba_n1 := n_intr_count_le & [ STEM < "traba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_traba_n_rel" ] ]. trabadamente_x1 := av_i_spr_le & [ STEM < "trabadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trabadamente_x_rel" ]. trabadero_n1 := n_intr_count_le & [ STEM < "trabadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trabadero_n_rel" ] ]. trabadura_n1 := n_trans_le & [ STEM < "trabadura" >, SYNSEM.LKEYS.KEYREL.PRED "_trabadura_n_rel" ]. trabajador_a1 := a_qual_intr_ser_le & [ STEM < "trabajador" >, SYNSEM.LKEYS.KEYREL.PRED "_trabajador_a_rel" ]. trabajador_n1 := n_intr_count_le & [ STEM < "trabajador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trabajador_n_rel" ] ]. trabajo_n1 := n_result_intr_le & [ STEM < "trabajo" >, SYNSEM.LKEYS.KEYREL.PRED "_trabajo_n_rel" ]. trabajosamente_x1 := av_i_spr_le & [ STEM < "trabajosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trabajosamente_x_rel" ]. trabajoso_a1 := a_qual_intr_ser_le & [ STEM < "trabajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_trabajoso_a_rel" ]. trabalenguas_n1 := n_intr_count_le & [ STEM < "trabalenguas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_trabalenguas_n_rel" ] ]. trabar_v1 := v_trans_np_caus_le & [ STEM < "trabar" >, SYNSEM.LKEYS.KEYREL.PRED "_trabar_v_rel" ]. trabar_v2 := v_trans_np_mrkd_np_sym_le & [ STEM < "trabar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_trabar_v_rel" ] ]. trabilla_n1 := n_intr_count_le & [ STEM < "trabilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trabilla_n_rel" ] ]. trabécula_n1 := n_intr_count_le & [ STEM < "trabécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trabécula_n_rel" ] ]. tracción_n1 := n_trans_le & [ STEM < "tracción" >, SYNSEM.LKEYS.KEYREL.PRED "_tracción_n_rel" ]. tracción_n2 := n_intr_mass_le & [ STEM < "tracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tracción_n_rel" ] ]. traceado_n1 := n_trans_le & [ STEM < "traceado" >, SYNSEM.LKEYS.KEYREL.PRED "_traceado_n_rel" ]. tracear_v := v_trans_np_le & [ STEM < "tracear" >, SYNSEM.LKEYS.KEYREL.PRED "_tracear_v_rel" ]. traciano_a1 := a_rel_prd_le & [ STEM < "traciano" >, SYNSEM.LKEYS.KEYREL.PRED "_traciano_a_rel" ]. traciano_n1 := n_intr_count_le & [ STEM < "traciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_traciano_n_rel" ] ]. tractivamente_x1 := av_i_spr_le & [ STEM < "tractivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tractivamente_x_rel" ]. tracto_n1 := n_intr_count_le & [ STEM < "tracto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tracto_n_rel" ] ]. tracto_n2 := n_ppcomp_count_le & [ STEM < "tracto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tracto_n_rel" ] ]. tractocamión_n1 := n_intr_count_le & [ STEM < "tractocamión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tractocamión_n_rel" ] ]. tractor_n1 := n_intr_count_le & [ STEM < "tractor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tractor_n_rel" ] ]. tractorista_n1 := n_intr_count_le & [ STEM < "tractorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tractorista_n_rel" ] ]. tradicional_a1 := a_qual_intr_ser_le & [ STEM < "tradicional" >, SYNSEM.LKEYS.KEYREL.PRED "_tradicional_a_rel" ]. tradicionalismo_n1 := n_ppcomp_uncount_le & [ STEM < "tradicionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tradicionalismo_n_rel" ] ]. tradicionalista_a1 := a_qual_intr_ser_le & [ STEM < "tradicionalista" >, SYNSEM.LKEYS.KEYREL.PRED "_tradicionalista_a_rel" ]. tradicionalista_n1 := n_intr_count_le & [ STEM < "tradicionalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tradicionalista_n_rel" ] ]. tradicionalmente_x1 := av_i_spr_le & [ STEM < "tradicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tradicionalmente_x_rel" ]. tradición_n1 := n_intr_count_le & [ STEM < "tradición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tradición_n_rel" ] ]. traducción_n1 := n_trans_le & [ STEM < "traducción" >, SYNSEM.LKEYS.KEYREL.PRED "_traducción_n_rel" ]. traducible_a1 := a_rel_prd_le & [ STEM < "traducible" >, SYNSEM.LKEYS.KEYREL.PRED "_traducible_a_rel" ]. traducir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "traducir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_traducir_v_rel" ] ] ]. traducir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "traducir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, ARG2.SORT abs_pro, PRED "_traducir_v_rel" ] ] ]. traducir_v3 := v_trans_np*_mrkd_np_le & [ STEM < "traducir" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_en_p_sel_rel, KEYREL [ ARG1.SORT hum_pot_pro_sem_soc, PRED "_traducir_v_rel" ] ] ]. traductor_n1 := n_subj-nom_le & [ STEM < "traductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_traductor_n_rel" ] ]. traer_v1 := v_ditrans*_le & [ STEM < "traer" >, SYNSEM.LKEYS.KEYREL.PRED "_traer_v_rel" ]. traer_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "traer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_traer_v_rel" ] ]. traer_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "traer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_traer_v_rel" ] ] ]. traer_v4 := v_trans_np_lcomp_dir_le & [ STEM < "traer" >, SYNSEM.LKEYS.KEYREL.PRED "_traer_v_rel" ]. traer_v5 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "traer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_traer_v_rel" ] ] ]. traficante_n1 := n_intr_count_le & [ STEM < "traficante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_traficante_n_rel" ] ]. traficar_v := v_intr_mrkd_np*_le & [ STEM < "traficar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_traficar_v_rel" ] ]. tragacanto_n1 := n_intr_count_le & [ STEM < "tragacanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tragacanto_n_rel" ] ]. tragaluz_n1 := n_intr_count_le & [ STEM < "tragaluz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tragaluz_n_rel" ] ]. tragamillas_n1 := n_intr_count_le & [ STEM < "tragamillas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tragamillas_n_rel" ] ]. tragar_v1 := v_pron_trans_np_le & [ STEM < "tragar" >, SYNSEM.LKEYS.KEYREL.PRED "_tragar_v_rel" ]. tragar_v2 := v_trans_np*_le & [ STEM < "tragar" >, SYNSEM.LKEYS.KEYREL.PRED "_tragar_v_rel" ]. tragedia_n1 := n_intr_count_le & [ STEM < "tragedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_tragedia_n_rel" ] ]. tragicómico_a1 := a_rel_nonprd_intr_le & [ STEM < "tragicómico" >, SYNSEM.LKEYS.KEYREL.PRED "_tragicómico_a_rel" ]. trago_n1 := n_pseudo-part_le & [ STEM < "trago" >, SYNSEM.LKEYS.KEYREL.PRED "_trago_n_rel" ]. tragón_n1 := n_intr_count_le & [ STEM < "tragón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tragón_n_rel" ] ]. traicionar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "traicionar" >, SYNSEM.LKEYS.KEYREL.PRED "_traicionar_v_rel" ]. traicionar_v2 := v_trans_np_le & [ STEM < "traicionar" >, SYNSEM.LKEYS.KEYREL.PRED "_traicionar_v_rel" ]. traicionero_a1 := a_qual_intr_ser_le & [ STEM < "traicionero" >, SYNSEM.LKEYS.KEYREL.PRED "_traicionero_a_rel" ]. traición_n1 := n_intr_count_le & [ STEM < "traición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traición_n_rel" ] ]. traidor_a1 := a_qual_intr_ser_le & [ STEM < "traidor" >, SYNSEM.LKEYS.KEYREL.PRED "_traidor_a_rel" ]. traidor_n1 := n_intr_count_le & [ STEM < "traidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_traidor_n_rel" ] ]. trailer_n1 := n_intr_count_le & [ STEM < "trailer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_trailer_n_rel" ] ]. trainera_n1 := n_intr_count_le & [ STEM < "trainera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trainera_n_rel" ] ]. trainerilla_n1 := n_intr_count_le & [ STEM < "trainerilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trainerilla_n_rel" ] ]. traje_n1 := n_intr_count_le & [ STEM < "traje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_traje_n_rel" ] ]. trajecito_n1 := n_intr_count_le & [ STEM < "trajecito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trajecito_n_rel" ] ]. trajinar_v := v_trans_np_lcomp_dir*_le & [ STEM < "trajinar" >, SYNSEM.LKEYS.KEYREL.PRED "_trajinar_v_rel" ]. trallazo_n1 := n_intr_count_le & [ STEM < "trallazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trallazo_n_rel" ] ]. trama_n1 := n_intr_count_le & [ STEM < "trama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_trama_n_rel" ] ]. tramado_n1 := n_trans_le & [ STEM < "tramado" >, SYNSEM.LKEYS.KEYREL.PRED "_tramado_n_rel" ]. tramar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "tramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tramar_v_rel" ] ]. tramar_v2 := v_trans_np_le & [ STEM < "tramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_tramar_v_rel" ] ]. tramificación_n1 := n_intr_uncount_le & [ STEM < "tramificación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tramificación_n_rel" ] ]. tramitación_n1 := n_trans_le & [ STEM < "tramitación" >, SYNSEM.LKEYS.KEYREL.PRED "_tramitación_n_rel" ]. tramitar_v1 := v_ditrans*_le & [ STEM < "tramitar" >, SYNSEM.LKEYS.KEYREL.PRED "_tramitar_v_rel" ]. tramitar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "tramitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_tramitar_v_rel" ] ]. tramoya_n1 := n_intr_count_le & [ STEM < "tramoya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tramoya_n_rel" ] ]. trampa_n1 := n_intr_count_le & [ STEM < "trampa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_trampa_n_rel" ] ]. trampilla_n1 := n_intr_count_le & [ STEM < "trampilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trampilla_n_rel" ] ]. trampolín_n1 := n_intr_count_le & [ STEM < "trampolín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trampolín_n_rel" ] ]. tramposo_a1 := a_qual_intr_ser_le & [ STEM < "tramposo" >, SYNSEM.LKEYS.KEYREL.PRED "_tramposo_a_rel" ]. tramposo_n1 := n_intr_count_le & [ STEM < "tramposo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tramposo_n_rel" ] ]. tranquilamente_x1 := av_i_spr_le & [ STEM < "tranquilamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilamente_x_rel" ]. tranquilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tranquilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tranquilidad_n_rel" ] ]. tranquilizador_a1 := a_qual_intr_ser_le & [ STEM < "tranquilizador" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizador_a_rel" ]. tranquilizante_a1 := a_qual_intr_ser_le & [ STEM < "tranquilizante" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizante_a_rel" ]. tranquilizante_n1 := n_intr_count_le & [ STEM < "tranquilizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tranquilizante_n_rel" ] ]. tranquilizar_v1 := v_intr_io*_le & [ STEM < "tranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizar_v_rel" ]. tranquilizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "tranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizar_v_rel" ]. tranquilizar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "tranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizar_v_rel" ]. tranquilizar_v4 := v_trans_np_caus_le & [ STEM < "tranquilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilizar_v_rel" ]. tranquilo_a1 := a_qual_intr_ser_le & [ STEM < "tranquilo" >, SYNSEM.LKEYS.KEYREL.PRED "_tranquilo_a_rel" ]. transaccional_a1 := a_rel_nonprd_intr_le & [ STEM < "transaccional" >, SYNSEM.LKEYS.KEYREL.PRED "_transaccional_a_rel" ]. transacción_n1 := n_result_intr_le & [ STEM < "transacción" >, SYNSEM.LKEYS.KEYREL.PRED "_transacción_n_rel" ]. transalpino_a1 := a_rel_nonprd_intr_le & [ STEM < "transalpino" >, SYNSEM.LKEYS.KEYREL.PRED "_transalpino_a_rel" ]. transalquilación_n1 := n_trans_le & [ STEM < "transalquilación" >, SYNSEM.LKEYS.KEYREL.PRED "_transalquilación_n_rel" ]. transaminasa_n1 := n_intr_count_le & [ STEM < "transaminasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transaminasa_n_rel" ] ]. transatlántico_a1 := a_rel_nonprd_intr_le & [ STEM < "transatlántico" >, SYNSEM.LKEYS.KEYREL.PRED "_transatlántico_a_rel" ]. transatlántico_n1 := n_intr_count_le & [ STEM < "transatlántico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_transatlántico_n_rel" ] ]. transbordador_a1 := a_rel_prd_le & [ STEM < "transbordador" >, SYNSEM.LKEYS.KEYREL.PRED "_transbordador_a_rel" ]. transbordador_n1 := n_intr_count_le & [ STEM < "transbordador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_transbordador_n_rel" ] ]. transbordar_v := v_trans_np*_le & [ STEM < "transbordar" >, SYNSEM.LKEYS.KEYREL.PRED "_transbordar_v_rel" ]. transbordo_n1 := n_trans_le & [ STEM < "transbordo" >, SYNSEM.LKEYS.KEYREL.PRED "_transbordo_n_rel" ]. transcategorización_n1 := n_intr_uncount_le & [ STEM < "transcategorización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transcategorización_n_rel" ] ]. transcaucasiano_a1 := a_rel_nonprd_intr_le & [ STEM < "transcaucasiano" >, SYNSEM.LKEYS.KEYREL.PRED "_transcaucasiano_a_rel" ]. transcaucasiano_n1 := n_intr_count_le & [ STEM < "transcaucasiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transcaucasiano_n_rel" ] ]. transcaucasioano_n1 := n_intr_count_le & [ STEM < "transcaucasioano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transcaucasioano_n_rel" ] ]. transcelular_a1 := a_rel_nonprd_intr_le & [ STEM < "transcelular" >, SYNSEM.LKEYS.KEYREL.PRED "_transcelular_a_rel" ]. transceptor_n1 := n_intr_count_le & [ STEM < "transceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transceptor_n_rel" ] ]. transcodificación_n1 := n_trans_le & [ STEM < "transcodificación" >, SYNSEM.LKEYS.KEYREL.PRED "_transcodificación_n_rel" ]. transcodificador_n1 := n_intr_count_le & [ STEM < "transcodificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transcodificador_n_rel" ] ]. transconductancia_n1 := n_intr_uncount_le & [ STEM < "transconductancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transconductancia_n_rel" ] ]. transconector_n1 := n_intr_count_le & [ STEM < "transconector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transconector_n_rel" ] ]. transconexión_n1 := n_intr_mass_le & [ STEM < "transconexión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transconexión_n_rel" ] ]. transcribir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "transcribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_transcribir_v_rel" ] ]. transcribir_v2 := v_ditrans*_le & [ STEM < "transcribir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_transcribir_v_rel" ] ]. transcripción_n1 := n_trans_le & [ STEM < "transcripción" >, SYNSEM.LKEYS.KEYREL.PRED "_transcripción_n_rel" ]. transcriptor_n1 := n_intr_count_le & [ STEM < "transcriptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transcriptor_n_rel" ] ]. transcultural_a1 := a_rel_nonprd_intr_le & [ STEM < "transcultural" >, SYNSEM.LKEYS.KEYREL.PRED "_transcultural_a_rel" ]. transcurrente_a1 := a_rel_nonprd_intr_le & [ STEM < "transcurrente" >, SYNSEM.LKEYS.KEYREL.PRED "_transcurrente_a_rel" ]. transcurso_n1 := n_intr_count_le & [ STEM < "transcurso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_transcurso_n_rel" ] ]. transdeterminación_n1 := n_trans_le & [ STEM < "transdeterminación" >, SYNSEM.LKEYS.KEYREL.PRED "_transdeterminación_n_rel" ]. transdiodo_n1 := n_intr_count_le & [ STEM < "transdiodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transdiodo_n_rel" ] ]. transducción_n1 := n_intr_count_le & [ STEM < "transducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transducción_n_rel" ] ]. transductor_n1 := n_intr_count_le & [ STEM < "transductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_transductor_n_rel" ] ]. transelevador_n1 := n_intr_count_le & [ STEM < "transelevador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transelevador_n_rel" ] ]. transepitelial_a1 := a_rel_nonprd_intr_le & [ STEM < "transepitelial" >, SYNSEM.LKEYS.KEYREL.PRED "_transepitelial_a_rel" ]. transeptal_a1 := a_rel_nonprd_intr_le & [ STEM < "transeptal" >, SYNSEM.LKEYS.KEYREL.PRED "_transeptal_a_rel" ]. transepto_n1 := n_intr_count_le & [ STEM < "transepto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_transepto_n_rel" ] ]. transespecífico_a1 := a_rel_nonprd_intr_le & [ STEM < "transespecífico" >, SYNSEM.LKEYS.KEYREL.PRED "_transespecífico_a_rel" ]. transeúnte_n1 := n_intr_count_le & [ STEM < "transeúnte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transeúnte_n_rel" ] ]. transfección_n1 := n_intr_count_le & [ STEM < "transfección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transfección_n_rel" ] ]. transferasa_n1 := n_intr_count_le & [ STEM < "transferasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transferasa_n_rel" ] ]. transferencia_n1 := n_trans_le & [ STEM < "transferencia" >, SYNSEM.LKEYS.KEYREL.PRED "_transferencia_n_rel" ]. transferente_a1 := a_rel_nonprd_intr_le & [ STEM < "transferente" >, SYNSEM.LKEYS.KEYREL.PRED "_transferente_a_rel" ]. transferibilidad_n1 := n_trans_le & [ STEM < "transferibilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_transferibilidad_n_rel" ]. transferible_a1 := a_rel_prd_le & [ STEM < "transferible" >, SYNSEM.LKEYS.KEYREL.PRED "_transferible_a_rel" ]. transferidor_n1 := n_intr_count_le & [ STEM < "transferidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transferidor_n_rel" ] ]. transferir_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "transferir" >, SYNSEM.LKEYS.KEYREL.PRED "_transferir_v_rel" ]. transferir_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "transferir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_transferir_v_rel" ] ] ]. transferir_v3 := v_trans_np_lcomp_dir*_le & [ STEM < "transferir" >, SYNSEM.LKEYS.KEYREL.PRED "_transferir_v_rel" ]. transferrina_n1 := n_intr_mass_le & [ STEM < "transferrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_transferrina_n_rel" ] ]. transfiguración_n1 := n_trans_le & [ STEM < "transfiguración" >, SYNSEM.LKEYS.KEYREL.PRED "_transfiguración_n_rel" ]. transfigurar_v1 := v_trans_np_caus_le & [ STEM < "transfigurar" >, SYNSEM.LKEYS.KEYREL.PRED "_transfigurar_v_rel" ]. transfinitamente_x1 := av_i_spr_le & [ STEM < "transfinitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_transfinitamente_x_rel" ]. transfinito_a1 := a_rel_nonprd_intr_le & [ STEM < "transfinito" >, SYNSEM.LKEYS.KEYREL.PRED "_transfinito_a_rel" ]. transfluxor_n1 := n_intr_count_le & [ STEM < "transfluxor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transfluxor_n_rel" ] ]. transfonologización_n1 := n_intr_uncount_le & [ STEM < "transfonologización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transfonologización_n_rel" ] ]. transformacional_a1 := a_rel_nonprd_intr_le & [ STEM < "transformacional" >, SYNSEM.LKEYS.KEYREL.PRED "_transformacional_a_rel" ]. transformacionalismo_n1 := n_ppcomp_uncount_le & [ STEM < "transformacionalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transformacionalismo_n_rel" ] ]. transformación_n1 := n_trans_le & [ STEM < "transformación" >, SYNSEM.LKEYS.KEYREL.PRED "_transformación_n_rel" ]. transformador_a1 := a_rel_nonprd_intr_le & [ STEM < "transformador" >, SYNSEM.LKEYS.KEYREL.PRED "_transformador_a_rel" ]. transformador_n1 := n_intr_count_le & [ STEM < "transformador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transformador_n_rel" ] ]. transformar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "transformar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_transformar_v_rel" ] ]. transformar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "transformar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_transformar_v_rel" ] ]. transformismo_n1 := n_trans_le & [ STEM < "transformismo" >, SYNSEM.LKEYS.KEYREL.PRED "_transformismo_n_rel" ]. transfusional_a1 := a_rel_nonprd_intr_le & [ STEM < "transfusional" >, SYNSEM.LKEYS.KEYREL.PRED "_transfusional_a_rel" ]. transfusión_n1 := n_trans_le & [ STEM < "transfusión" >, SYNSEM.LKEYS.KEYREL.PRED "_transfusión_n_rel" ]. transgredir_v := v_trans_np_le & [ STEM < "transgredir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_sem, PRED "_transgredir_v_rel" ] ]. transgresivamente_x1 := av_i_spr_le & [ STEM < "transgresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_transgresivamente_x_rel" ]. transgresivo_a1 := a_qual_intr_ser_le & [ STEM < "transgresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_transgresivo_a_rel" ]. transgresión_n1 := n_trans_le & [ STEM < "transgresión" >, SYNSEM.LKEYS.KEYREL.PRED "_transgresión_n_rel" ]. transgresor_a1 := a_qual_intr_ser_le & [ STEM < "transgresor" >, SYNSEM.LKEYS.KEYREL.PRED "_transgresor_a_rel" ]. transgénico_a1 := a_rel_nonprd_intr_le & [ STEM < "transgénico" >, SYNSEM.LKEYS.KEYREL.PRED "_transgénico_a_rel" ]. transicional_a1 := a_rel_nonprd_intr_le & [ STEM < "transicional" >, SYNSEM.LKEYS.KEYREL.PRED "_transicional_a_rel" ]. transicionalmente_x1 := av_i_spr_le & [ STEM < "transicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_transicionalmente_x_rel" ]. transición_n1 := n_result_intr_ppcomp_le & [ STEM < "transición" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_transición_n_rel" ] ]. transigente_a1 := a_rel_nonprd_intr_le & [ STEM < "transigente" >, SYNSEM.LKEYS.KEYREL.PRED "_transigente_a_rel" ]. transigir_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "transigir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_transigir_v_rel" ] ]. transigir_v2 := v_intr_mrkd_np*_le & [ STEM < "transigir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_transigir_v_rel" ] ]. transilvano_a1 := a_rel_nonprd_intr_le & [ STEM < "transilvano" >, SYNSEM.LKEYS.KEYREL.PRED "_transilvano_a_rel" ]. transilvano_n1 := n_intr_count_le & [ STEM < "transilvano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transilvano_n_rel" ] ]. transistar_v := v_trans_np_le & [ STEM < "transistar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot_soc, PRED "_transistar_v_rel" ] ]. transistor_n1 := n_intr_count_le & [ STEM < "transistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transistor_n_rel" ] ]. transistorar_v := v_trans_np_le & [ STEM < "transistorar" >, SYNSEM.LKEYS.KEYREL.PRED "_transistorar_v_rel" ]. transistorizar_v := v_trans_np_le & [ STEM < "transistorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_transistorizar_v_rel" ]. transitabilidad_n1 := n_intr_uncount_le & [ STEM < "transitabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transitabilidad_n_rel" ] ]. transitable_a1 := a_qual_intr_scopal_le & [ STEM < "transitable" >, SYNSEM.LKEYS.KEYREL.PRED "_transitable_a_rel" ]. transitar_v := v_unacc_lcomp_loc*_le & [ STEM < "transitar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot, PRED "_transitar_v_rel" ] ]. transitario_a1 := a_rel_nonprd_intr_le & [ STEM < "transitario" >, SYNSEM.LKEYS.KEYREL.PRED "_transitario_a_rel" ]. transitario_n1 := n_intr_count_le & [ STEM < "transitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transitario_n_rel" ] ]. transitivamente_x1 := av_i_spr_le & [ STEM < "transitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_transitivamente_x_rel" ]. transitividad_n1 := n_intr_mass_le & [ STEM < "transitividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transitividad_n_rel" ] ]. transitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "transitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_transitivo_a_rel" ]. transitoriamente_x1 := av_i_spr_le & [ STEM < "transitoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_transitoriamente_x_rel" ]. transitoriedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "transitoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transitoriedad_n_rel" ] ]. transitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "transitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_transitorio_a_rel" ]. translación_n1 := n_trans_le & [ STEM < "translación" >, SYNSEM.LKEYS.KEYREL.PRED "_translación_n_rel" ]. translativo_a1 := a_rel_nonprd_intr_le & [ STEM < "translativo" >, SYNSEM.LKEYS.KEYREL.PRED "_translativo_a_rel" ]. transliteración_n1 := n_trans_le & [ STEM < "transliteración" >, SYNSEM.LKEYS.KEYREL.PRED "_transliteración_n_rel" ]. transliterar_v := v_trans_np_le & [ STEM < "transliterar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_pro_sem_soc, PRED "_transliterar_v_rel" ] ]. translocación_n1 := n_trans_le & [ STEM < "translocación" >, SYNSEM.LKEYS.KEYREL.PRED "_translocación_n_rel" ]. translucidez_n1 := n_ppcomp_mass_le & [ STEM < "translucidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_translucidez_n_rel" ] ]. translucir_v := v_trans_np_caus_le & [ STEM < "translucir" >, SYNSEM.LKEYS.KEYREL.PRED "_translucir_v_rel" ]. translúcidamente_x1 := av_i_spr_le & [ STEM < "translúcidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_translúcidamente_x_rel" ]. translúcido_a1 := a_rel_nonprd_intr_le & [ STEM < "translúcido" >, SYNSEM.LKEYS.KEYREL.PRED "_translúcido_a_rel" ]. transmediterráneo_a1 := a_rel_nonprd_intr_le & [ STEM < "transmediterráneo" >, SYNSEM.LKEYS.KEYREL.PRED "_transmediterráneo_a_rel" ]. transmisibilidad_n1 := n_intr_uncount_le & [ STEM < "transmisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transmisibilidad_n_rel" ] ]. transmisiblemente_x1 := av_i_spr_le & [ STEM < "transmisiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_transmisiblemente_x_rel" ]. transmisión_n1 := n_trans_le & [ STEM < "transmisión" >, SYNSEM.LKEYS.KEYREL.PRED "_transmisión_n_rel" ]. transmisor_a1 := a_rel_nonprd_intr_le & [ STEM < "transmisor" >, SYNSEM.LKEYS.KEYREL.PRED "_transmisor_a_rel" ]. transmisor_n1 := n_intr_count_le & [ STEM < "transmisor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_transmisor_n_rel" ] ]. transmitancia_n1 := n_intr_uncount_le & [ STEM < "transmitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transmitancia_n_rel" ] ]. transmitir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "transmitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_transmitir_v_rel" ] ]. transmitir_v2 := v_ditrans*_le & [ STEM < "transmitir" >, SYNSEM.LKEYS.KEYREL.PRED "_transmitir_v_rel" ]. transmitir_v3 := v_intr_le & [ STEM < "transmitir" >, SYNSEM.LKEYS.KEYREL.PRED "_transmitir_v_rel" ]. transmitir_v4 := v_trans_np_lcomp_dir_le & [ STEM < "transmitir" >, SYNSEM.LKEYS.KEYREL.PRED "_transmitir_v_rel" ]. transmultiplexador_n1 := n_intr_count_le & [ STEM < "transmultiplexador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transmultiplexador_n_rel" ] ]. transmutación_n1 := n_trans_le & [ STEM < "transmutación" >, SYNSEM.LKEYS.KEYREL.PRED "_transmutación_n_rel" ]. transmutancia_n1 := n_intr_uncount_le & [ STEM < "transmutancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transmutancia_n_rel" ] ]. transnacional_a1 := a_rel_nonprd_intr_le & [ STEM < "transnacional" >, SYNSEM.LKEYS.KEYREL.PRED "_transnacional_a_rel" ]. transnacionalmente_x1 := av_i_spr_le & [ STEM < "transnacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_transnacionalmente_x_rel" ]. transpacífico_a1 := a_rel_nonprd_intr_le & [ STEM < "transpacífico" >, SYNSEM.LKEYS.KEYREL.PRED "_transpacífico_a_rel" ]. transpalatal_a1 := a_rel_nonprd_intr_le & [ STEM < "transpalatal" >, SYNSEM.LKEYS.KEYREL.PRED "_transpalatal_a_rel" ]. transparencia_n1 := n_intr_count_le & [ STEM < "transparencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_transparencia_n_rel" ] ]. transparentar_v1 := v_pron_trans_np_le & [ STEM < "transparentar" >, SYNSEM.LKEYS.KEYREL.PRED "_transparentar_v_rel" ]. transparentar_v2 := v_trans_np*_le & [ STEM < "transparentar" >, SYNSEM.LKEYS.KEYREL.PRED "_transparentar_v_rel" ]. transparente_a1 := a_qual_intr_ser_le & [ STEM < "transparente" >, SYNSEM.LKEYS.KEYREL.PRED "_transparente_a_rel" ]. transparietal_a1 := a_rel_nonprd_intr_le & [ STEM < "transparietal" >, SYNSEM.LKEYS.KEYREL.PRED "_transparietal_a_rel" ]. transpilórico_a1 := a_rel_nonprd_intr_le & [ STEM < "transpilórico" >, SYNSEM.LKEYS.KEYREL.PRED "_transpilórico_a_rel" ]. transpirabilidad_n1 := n_intr_uncount_le & [ STEM < "transpirabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transpirabilidad_n_rel" ] ]. transpirable_a1 := a_rel_nonprd_intr_le & [ STEM < "transpirable" >, SYNSEM.LKEYS.KEYREL.PRED "_transpirable_a_rel" ]. transpiración_n1 := n_result_intr_le & [ STEM < "transpiración" >, SYNSEM.LKEYS.KEYREL.PRED "_transpiración_n_rel" ]. transpirante_a1 := a_rel_nonprd_intr_le & [ STEM < "transpirante" >, SYNSEM.LKEYS.KEYREL.PRED "_transpirante_a_rel" ]. transpirar_v := v_intr_le & [ STEM < "transpirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_bpart_hum, PRED "_transpirar_v_rel" ] ]. transplante_n1 := n_trans_le & [ STEM < "transplante" >, SYNSEM.LKEYS.KEYREL.PRED "_transplante_n_rel" ]. transponer_v1 := v_pron_intr_le & [ STEM < "transponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_loc, PRED "_transponer_v_rel" ] ]. transponer_v2 := v_trans_np_lcomp_dir*_le & [ STEM < "transponer" >, SYNSEM.LKEYS.KEYREL.PRED "_transponer_v_rel" ]. transportabilidad_n1 := n_trans_le & [ STEM < "transportabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_transportabilidad_n_rel" ]. transportable_a1 := a_qual_intr_scopal_le & [ STEM < "transportable" >, SYNSEM.LKEYS.KEYREL.PRED "_transportable_a_rel" ]. transportablemente_x1 := av_i_spr_le & [ STEM < "transportablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_transportablemente_x_rel" ]. transportador_a1 := a_rel_nonprd_intr_le & [ STEM < "transportador" >, SYNSEM.LKEYS.KEYREL.PRED "_transportador_a_rel" ]. transportador_n1 := n_intr_count_le & [ STEM < "transportador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_transportador_n_rel" ] ]. transportar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "transportar" >, SYNSEM.LKEYS.KEYREL.PRED "_transportar_v_rel" ]. transportar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "transportar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_transportar_v_rel" ] ] ]. transportar_v3 := v_trans_np_lcomp_dir*_le & [ STEM < "transportar" >, SYNSEM.LKEYS.KEYREL.PRED "_transportar_v_rel" ]. transportar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "transportar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_transportar_v_rel" ] ] ]. transporte_n1 := n_trans_le & [ STEM < "transporte" >, SYNSEM.LKEYS.KEYREL.PRED "_transporte_n_rel" ]. transportista_n1 := n_intr_count_le & [ STEM < "transportista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_soc, PRED "_transportista_n_rel" ] ]. transposición_n1 := n_trans_le & [ STEM < "transposición" >, SYNSEM.LKEYS.KEYREL.PRED "_transposición_n_rel" ]. transposón_n1 := n_intr_count_le & [ STEM < "transposón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_transposón_n_rel" ] ]. transtimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "transtimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_transtimpánico_a_rel" ]. transuranio_n1 := n_intr_count_le & [ STEM < "transuranio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_transuranio_n_rel" ] ]. transuránico_a1 := a_rel_nonprd_intr_le & [ STEM < "transuránico" >, SYNSEM.LKEYS.KEYREL.PRED "_transuránico_a_rel" ]. transvase_n1 := n_trans_le & [ STEM < "transvase" >, SYNSEM.LKEYS.KEYREL.PRED "_transvase_n_rel" ]. transversal_a1 := a_rel_nonprd_intr_le & [ STEM < "transversal" >, SYNSEM.LKEYS.KEYREL.PRED "_transversal_a_rel" ]. transversalmente_x1 := av_i_spr_le & [ STEM < "transversalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_transversalmente_x_rel" ]. transverso_a1 := a_rel_nonprd_intr_le & [ STEM < "transverso" >, SYNSEM.LKEYS.KEYREL.PRED "_transverso_a_rel" ]. transvestido_n1 := n_intr_count_le & [ STEM < "transvestido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_transvestido_n_rel" ] ]. transvestismo_n1 := n_intr_uncount_le & [ STEM < "transvestismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transvestismo_n_rel" ] ]. transónicamente_x1 := av_i_spr_le & [ STEM < "transónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_transónicamente_x_rel" ]. transónico_a1 := a_rel_nonprd_intr_le & [ STEM < "transónico" >, SYNSEM.LKEYS.KEYREL.PRED "_transónico_a_rel" ]. transóseo_a1 := a_rel_nonprd_intr_le & [ STEM < "transóseo" >, SYNSEM.LKEYS.KEYREL.PRED "_transóseo_a_rel" ]. tranvía_n1 := n_intr_count_le & [ STEM < "tranvía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tranvía_n_rel" ] ]. trapecial_a1 := a_rel_nonprd_intr_le & [ STEM < "trapecial" >, SYNSEM.LKEYS.KEYREL.PRED "_trapecial_a_rel" ]. trapecio_n1 := n_intr_count_le & [ STEM < "trapecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_trapecio_n_rel" ] ]. trapecista_n1 := n_intr_count_le & [ STEM < "trapecista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trapecista_n_rel" ] ]. trapero_n1 := n_intr_count_le & [ STEM < "trapero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trapero_n_rel" ] ]. trapezoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "trapezoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_trapezoidal_a_rel" ]. trapezoidalmente_x1 := av_i_spr_le & [ STEM < "trapezoidalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trapezoidalmente_x_rel" ]. trapezoide_a1 := a_rel_nonprd_intr_le & [ STEM < "trapezoide" >, SYNSEM.LKEYS.KEYREL.PRED "_trapezoide_a_rel" ]. trapezoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "trapezoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_trapezoideo_a_rel" ]. trapezoédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "trapezoédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_trapezoédrico_a_rel" ]. trapicheo_n1 := n_result_intr_le & [ STEM < "trapicheo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trapicheo_n_rel" ] ]. trapo_n1 := n_intr_count_le & [ STEM < "trapo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trapo_n_rel" ] ]. traqueal_a1 := a_rel_nonprd_intr_le & [ STEM < "traqueal" >, SYNSEM.LKEYS.KEYREL.PRED "_traqueal_a_rel" ]. traqueobronquial_a1 := a_rel_nonprd_intr_le & [ STEM < "traqueobronquial" >, SYNSEM.LKEYS.KEYREL.PRED "_traqueobronquial_a_rel" ]. traqueostomía_n1 := n_intr_uncount_pl_le & [ STEM < "traqueostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traqueostomía_n_rel" ] ]. traqueotomía_n1 := n_intr_uncount_pl_le & [ STEM < "traqueotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traqueotomía_n_rel" ] ]. traquetear_v := v_intr_le & [ STEM < "traquetear" >, SYNSEM.LKEYS.KEYREL.PRED "_traquetear_v_rel" ]. traqueteo_n1 := n_trans_le & [ STEM < "traqueteo" >, SYNSEM.LKEYS.KEYREL.PRED "_traqueteo_n_rel" ]. tras_p_nmod := p_nmod_le & [ STEM < "tras" >, SYNSEM.LKEYS.KEYREL.PRED _tras_p_rel ]. tras_p_temp_vmod := p_temp_vmod_le & [ STEM < "tras" >, SYNSEM.LKEYS.KEYREL.PRED _tras_p_temp_rel ]. tras_p_vmod := p_vmod_le & [ STEM < "tras" >, SYNSEM.LKEYS.KEYREL.PRED _tras_p_rel ]. tras_sc := p_vp_inf_le & [ STEM < "tras" >, SYNSEM.LKEYS.KEYREL.PRED "_tras_x_subord_rel" ]. trasbordador_n1 := n_intr_count_le & [ STEM < "trasbordador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trasbordador_n_rel" ] ]. trasbordo_n1 := n_trans_le & [ STEM < "trasbordo" >, SYNSEM.LKEYS.KEYREL.PRED "_trasbordo_n_rel" ]. trascendencia_n1 := n_intr_mass_le & [ STEM < "trascendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trascendencia_n_rel" ] ]. trascendental_a1 := a_qual_intr_ser_le & [ STEM < "trascendental" >, SYNSEM.LKEYS.KEYREL.PRED "_trascendental_a_rel" ]. trascendentalismo_n1 := n_intr_uncount_le & [ STEM < "trascendentalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trascendentalismo_n_rel" ] ]. trascendentalmente_x1 := av_i_spr_le & [ STEM < "trascendentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trascendentalmente_x_rel" ]. trascendente_a1 := a_qual_intr_ser_le & [ STEM < "trascendente" >, SYNSEM.LKEYS.KEYREL.PRED "_trascendente_a_rel" ]. trasdós_n1 := n_intr_count_le & [ STEM < "trasdós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trasdós_n_rel" ] ]. trasegar_v := v_trans_np_lcomp_dir*_le & [ STEM < "trasegar" >, SYNSEM.LKEYS.KEYREL.PRED "_trasegar_v_rel" ]. trasero_a1 := a_rel_nonprd_intr_le & [ STEM < "trasero" >, SYNSEM.LKEYS.KEYREL.PRED "_trasero_a_rel" ]. trasero_n1 := n_intr_count_le & [ STEM < "trasero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trasero_n_rel" ] ]. trasformar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "trasformar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_trasformar_v_rel" ] ]. trashumancia_n1 := n_event-result_intr_le & [ STEM < "trashumancia" >, SYNSEM.LKEYS.KEYREL.PRED "_trashumancia_n_rel" ]. trashumante_a1 := a_rel_nonprd_intr_le & [ STEM < "trashumante" >, SYNSEM.LKEYS.KEYREL.PRED "_trashumante_a_rel" ]. trasiego_n1 := n_trans_le & [ STEM < "trasiego" >, SYNSEM.LKEYS.KEYREL.PRED "_trasiego_n_rel" ]. traslacional_a1 := a_rel_nonprd_intr_le & [ STEM < "traslacional" >, SYNSEM.LKEYS.KEYREL.PRED "_traslacional_a_rel" ]. traslacionalmente_x1 := av_i_spr_le & [ STEM < "traslacionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_traslacionalmente_x_rel" ]. traslación_n1 := n_event-result_intr_le & [ STEM < "traslación" >, SYNSEM.LKEYS.KEYREL.PRED "_traslación_n_rel" ]. trasladar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "trasladar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_trasladar_v_rel" ] ] ]. trasladar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "trasladar" >, SYNSEM.LKEYS.KEYREL.PRED "_trasladar_v_rel" ]. traslado_n1 := n_event-result_intr_le & [ STEM < "traslado" >, SYNSEM.LKEYS.KEYREL.PRED "_traslado_n_rel" ]. traslativo_a1 := a_rel_nonprd_intr_le & [ STEM < "traslativo" >, SYNSEM.LKEYS.KEYREL.PRED "_traslativo_a_rel" ]. trasluchada_n1 := n_intr_count_le & [ STEM < "trasluchada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trasluchada_n_rel" ] ]. traslucir_v1 := v_pron_intr_mrkd_np_le & [ STEM < "traslucir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_traslucir_v_rel" ] ]. traslucir_v2 := v_pron_subj_cp_prop_intr_mrkd_np_le & [ STEM < "traslucir" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_traslucir_v_rel" ] ]. traslucir_v3 := v_trans_np_caus_le & [ STEM < "traslucir" >, SYNSEM.LKEYS.KEYREL.PRED "_traslucir_v_rel" ]. traslúcido_a1 := a_qual_intr_ser_le & [ STEM < "traslúcido" >, SYNSEM.LKEYS.KEYREL.PRED "_traslúcido_a_rel" ]. traspapelar_v := v_trans_np_caus_le & [ STEM < "traspapelar" >, SYNSEM.LKEYS.KEYREL.PRED "_traspapelar_v_rel" ]. trasparencia_n1 := n_ppcomp_mass_le & [ STEM < "trasparencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trasparencia_n_rel" ] ]. traspasable_a1 := a_rel_prd_le & [ STEM < "traspasable" >, SYNSEM.LKEYS.KEYREL.PRED "_traspasable_a_rel" ]. trasplantadora_n1 := n_intr_count_le & [ STEM < "trasplantadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trasplantadora_n_rel" ] ]. trasplaya_n1 := n_intr_count_le & [ STEM < "trasplaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_trasplaya_n_rel" ] ]. trasponer_v1 := v_pron_intr_le & [ STEM < "trasponer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_loc, PRED "_trasponer_v_rel" ] ]. trasponer_v2 := v_trans_np_le & [ STEM < "trasponer" >, SYNSEM.LKEYS.KEYREL.PRED "_trasponer_v_rel" ]. trasquiladura_n1 := n_trans_le & [ STEM < "trasquiladura" >, SYNSEM.LKEYS.KEYREL.PRED "_trasquiladura_n_rel" ]. trasquilar_v := v_trans_np_le & [ STEM < "trasquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani, PRED "_trasquilar_v_rel" ] ]. traste_n1 := n_intr_count_le & [ STEM < "traste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traste_n_rel" ] ]. trastienda_n1 := n_intr_count_le & [ STEM < "trastienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_trastienda_n_rel" ] ]. trasto_n1 := n_intr_count_le & [ STEM < "trasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trasto_n_rel" ] ]. trastocar_v1 := v_intr_io*_le & [ STEM < "trastocar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastocar_v_rel" ]. trastocar_v2 := v_pron_intr_le & [ STEM < "trastocar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastocar_v_rel" ]. trastocar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "trastocar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastocar_v_rel" ]. trastornar_v1 := v_intr_io*_le & [ STEM < "trastornar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastornar_v_rel" ]. trastornar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "trastornar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastornar_v_rel" ]. trastornar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "trastornar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastornar_v_rel" ]. trastornar_v4 := v_trans_np_caus_le & [ STEM < "trastornar" >, SYNSEM.LKEYS.KEYREL.PRED "_trastornar_v_rel" ]. trata_n1 := n_trans_le & [ STEM < "trata" >, SYNSEM.LKEYS.KEYREL.PRED "_trata_n_rel" ]. tratable_a1 := a_qual_intr_ser_le & [ STEM < "tratable" >, SYNSEM.LKEYS.KEYREL.PRED "_tratable_a_rel" ]. tratado-ley_n1 := n_intr_count_le & [ STEM < "tratado-ley" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_tratado-ley_n_rel" ] ]. tratado_de_paz_n1 := n_intr_count_le & [ STEM < "tratado_de_paz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tratado_de_paz_n_rel" ] ]. tratado_n1 := n_intr_count_le & [ STEM < "tratado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_tratado_n_rel" ] ]. tratamiento_n1 := n_trans_le & [ STEM < "tratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_tratamiento_n_rel" ]. tratante_a1 := a_rel_nonprd_intr_le & [ STEM < "tratante" >, SYNSEM.LKEYS.KEYREL.PRED "_tratante_a_rel" ]. tratante_n1 := n_intr_count_le & [ STEM < "tratante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tratante_n_rel" ] ]. tratar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_tratar_v_rel" ] ] ]. tratar_v2 := v_intr_mrkd_np_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_tratar_v_rel" ] ]. tratar_v3 := v_intr_mrkd_np_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tratar_v_rel" ] ]. tratar_v4 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_tratar_v_rel" ] ] ]. tratar_v5 := v_pron_intr_mrkd_np_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tratar_v_rel" ] ]. tratar_v6 := v_pron_intr_mrkd_np_le & [ STEM < "tratar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_tratar_v_rel" ] ]. tratar_v7 := v_trans_np_le & [ STEM < "tratar" >, SYNSEM.LKEYS.KEYREL.PRED "_tratar_v_rel" ]. trato_n1 := n_trans_le & [ STEM < "trato" >, SYNSEM.LKEYS.KEYREL.PRED "_trato_n_rel" ]. traumatismo_n1 := n_intr_uncount_le & [ STEM < "traumatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traumatismo_n_rel" ] ]. traumatizar_v1 := v_intr_io*_le & [ STEM < "traumatizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_traumatizar_v_rel" ] ]. traumatizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "traumatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_traumatizar_v_rel" ]. traumatizar_v3 := v_trans_np_caus_le & [ STEM < "traumatizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_traumatizar_v_rel" ] ]. traumatología_n1 := n_intr_uncount_le & [ STEM < "traumatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traumatología_n_rel" ] ]. traumatólogo_n1 := n_intr_count_le & [ STEM < "traumatólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_traumatólogo_n_rel" ] ]. traumáticamente_x1 := av_i_spr_le & [ STEM < "traumáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_traumáticamente_x_rel" ]. traumático_a1 := a_qual_intr_ser_le & [ STEM < "traumático" >, SYNSEM.LKEYS.KEYREL.PRED "_traumático_a_rel" ]. travelín_n1 := n_intr_count_le & [ STEM < "travelín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_travelín_n_rel" ] ]. traverso_n1 := n_intr_count_le & [ STEM < "traverso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_traverso_n_rel" ] ]. travesaño_n1 := n_intr_count_le & [ STEM < "travesaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_travesaño_n_rel" ] ]. travesero_n1 := n_intr_count_le & [ STEM < "travesero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_travesero_n_rel" ] ]. travestismo_n1 := n_intr_uncount_le & [ STEM < "travestismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_travestismo_n_rel" ] ]. travestí_n1 := n_intr_count_le & [ STEM < "travestí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_travestí_n_rel" ] ]. travesura_n1 := n_intr_count_le & [ STEM < "travesura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_travesura_n_rel" ] ]. travesía_n1 := n_intr_count_le & [ STEM < "travesía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_travesía_n_rel" ] ]. traviesa_n1 := n_intr_count_le & [ STEM < "traviesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_traviesa_n_rel" ] ]. traviesamente_x1 := av_i_spr_le & [ STEM < "traviesamente" >, SYNSEM.LKEYS.KEYREL.PRED "_traviesamente_x_rel" ]. travieso_a1 := a_qual_intr_ser_le & [ STEM < "travieso" >, SYNSEM.LKEYS.KEYREL.PRED "_travieso_a_rel" ]. traza_n1 := n_intr_count_le & [ STEM < "traza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_traza_n_rel" ] ]. trazabilidad_n1 := n_intr_uncount_le & [ STEM < "trazabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trazabilidad_n_rel" ] ]. trazado_n1 := n_intr_count_le & [ STEM < "trazado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trazado_n_rel" ] ]. trazador_a1 := a_rel_nonprd_intr_le & [ STEM < "trazador" >, SYNSEM.LKEYS.KEYREL.PRED "_trazador_a_rel" ]. trazador_n1 := n_intr_count_le & [ STEM < "trazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_trazador_n_rel" ] ]. trazadora_n1 := n_intr_count_le & [ STEM < "trazadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trazadora_n_rel" ] ]. trazar_v := v_trans_np_le & [ STEM < "trazar" >, SYNSEM.LKEYS.KEYREL.PRED "_trazar_v_rel" ]. trazo_n1 := n_intr_count_le & [ STEM < "trazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trazo_n_rel" ] ]. traílla_n1 := n_intr_count_le & [ STEM < "traílla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_traílla_n_rel" ] ]. trebolar_v := v_trans_np_le & [ STEM < "trebolar" >, SYNSEM.LKEYS.KEYREL.PRED "_trebolar_v_rel" ]. trechor_n1 := n_intr_count_le & [ STEM < "trechor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trechor_n_rel" ] ]. trefilado_n1 := n_trans_le & [ STEM < "trefilado" >, SYNSEM.LKEYS.KEYREL.PRED "_trefilado_n_rel" ]. trefiladora_n1 := n_intr_count_le & [ STEM < "trefiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trefiladora_n_rel" ] ]. trefilar_v := v_trans_np_le & [ STEM < "trefilar" >, SYNSEM.LKEYS.KEYREL.PRED "_trefilar_v_rel" ]. trefilería_n2 := n_trans_le & [ STEM < "trefilería" >, SYNSEM.LKEYS.KEYREL.PRED "_trefilería_n_rel" ]. tremebundo_a1 := a_qual_intr_ser_le & [ STEM < "tremebundo" >, SYNSEM.LKEYS.KEYREL.PRED "_tremebundo_a_rel" ]. tremendamente_x1 := av_i_spr_le & [ STEM < "tremendamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tremendamente_x_rel" ]. tremendo_a1 := a_qual_intr_ser_le & [ STEM < "tremendo" >, SYNSEM.LKEYS.KEYREL.PRED "_tremendo_a_rel" ]. trementina_n1 := n_intr_mass_le & [ STEM < "trementina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trementina_n_rel" ] ]. tremolita_n1 := n_intr_count_le & [ STEM < "tremolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tremolita_n_rel" ] ]. trempabilidad_n1 := n_intr_uncount_le & [ STEM < "trempabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trempabilidad_n_rel" ] ]. tren_n1 := n_intr_count_le & [ STEM < "tren" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tren_n_rel" ] ]. trencillo_n1 := n_intr_count_le & [ STEM < "trencillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trencillo_n_rel" ] ]. trenza_n1 := n_intr_count_le & [ STEM < "trenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trenza_n_rel" ] ]. trenza_n2 := n_ppcomp_count_le & [ STEM < "trenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_trenza_n_rel" ] ]. trenzado_n1 := n_trans_le & [ STEM < "trenzado" >, SYNSEM.LKEYS.KEYREL.PRED "_trenzado_n_rel" ]. trenzar_v := v_trans_np_le & [ STEM < "trenzar" >, SYNSEM.LKEYS.KEYREL.PRED "_trenzar_v_rel" ]. treonina_n1 := n_intr_count_le & [ STEM < "treonina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_treonina_n_rel" ] ]. trepador_a1 := a_rel_nonprd_intr_le & [ STEM < "trepador" >, SYNSEM.LKEYS.KEYREL.PRED "_trepador_a_rel" ]. trepador_n1 := n_subj-nom_le & [ STEM < "trepador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trepador_n_rel" ] ]. trepanación_n1 := n_trans_le & [ STEM < "trepanación" >, SYNSEM.LKEYS.KEYREL.PRED "_trepanación_n_rel" ]. trepar_v := v_unacc_lcomp_dir*_le & [ STEM < "trepar" >, SYNSEM.LKEYS.KEYREL.PRED "_trepar_v_rel" ]. trepidante_a1 := a_rel_nonprd_intr_le & [ STEM < "trepidante" >, SYNSEM.LKEYS.KEYREL.PRED "_trepidante_a_rel" ]. trepidantemente_x1 := av_i_spr_le & [ STEM < "trepidantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_trepidantemente_x_rel" ]. tresillo_n1 := n_intr_count_le & [ STEM < "tresillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tresillo_n_rel" ] ]. triacetato_n1 := n_intr_count_le & [ STEM < "triacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacetato_n_rel" ] ]. triacetiloleandomicina_n1 := n_intr_count_le & [ STEM < "triacetiloleandomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacetiloleandomicina_n_rel" ] ]. triacetilricinoleato_n1 := n_intr_count_le & [ STEM < "triacetilricinoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacetilricinoleato_n_rel" ] ]. triacetina_n1 := n_intr_count_le & [ STEM < "triacetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacetina_n_rel" ] ]. triacetoxiestearato_n1 := n_intr_count_le & [ STEM < "triacetoxiestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacetoxiestearato_n_rel" ] ]. triacilglicérido_n1 := n_intr_count_le & [ STEM < "triacilglicérido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triacilglicérido_n_rel" ] ]. trial_n1 := n_intr_count_le & [ STEM < "trial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trial_n_rel" ] ]. triamida_n1 := n_intr_count_le & [ STEM < "triamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triamida_n_rel" ] ]. triamilamina_n1 := n_intr_count_le & [ STEM < "triamilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triamilamina_n_rel" ] ]. triaminotrifenilmetano_n1 := n_intr_count_le & [ STEM < "triaminotrifenilmetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triaminotrifenilmetano_n_rel" ] ]. triangulación_n1 := n_trans_le & [ STEM < "triangulación" >, SYNSEM.LKEYS.KEYREL.PRED "_triangulación_n_rel" ]. trianguladamente_x1 := av_i_spr_le & [ STEM < "trianguladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trianguladamente_x_rel" ]. triangular_a1 := a_rel_nonprd_intr_le & [ STEM < "triangular" >, SYNSEM.LKEYS.KEYREL.PRED "_triangular_a_rel" ]. triangular_v := v_trans_np_le & [ STEM < "triangular" >, SYNSEM.LKEYS.KEYREL.PRED "_triangular_v_rel" ]. triangularmente_x1 := av_i_spr_le & [ STEM < "triangularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_triangularmente_x_rel" ]. triatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "triatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_triatómico_a_rel" ]. triaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "triaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_triaxial_a_rel" ]. tribal_a1 := a_rel_nonprd_intr_le & [ STEM < "tribal" >, SYNSEM.LKEYS.KEYREL.PRED "_tribal_a_rel" ]. tribalismo_n1 := n_intr_uncount_le & [ STEM < "tribalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tribalismo_n_rel" ] ]. triboluminiscencia_n1 := n_intr_uncount_le & [ STEM < "triboluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triboluminiscencia_n_rel" ] ]. tribopulimento_n1 := n_intr_uncount_le & [ STEM < "tribopulimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tribopulimento_n_rel" ] ]. tribromoacetaldehído_n1 := n_intr_mass_le & [ STEM < "tribromoacetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tribromoacetaldehído_n_rel" ] ]. tribromoacético_a1 := a_rel_nonprd_intr_le & [ STEM < "tribromoacético" >, SYNSEM.LKEYS.KEYREL.PRED "_tribromoacético_a_rel" ]. tribromoetanol_n1 := n_intr_count_le & [ STEM < "tribromoetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tribromoetanol_n_rel" ] ]. tribromuro_n1 := n_intr_count_le & [ STEM < "tribromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tribromuro_n_rel" ] ]. tribu_n1 := n_intr_coll_le & [ STEM < "tribu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tribu_n_rel" ] ]. tribulación_n1 := n_intr_mass-or-count_le & [ STEM < "tribulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tribulación_n_rel" ] ]. tribuna_n1 := n_intr_count_le & [ STEM < "tribuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tribuna_n_rel" ] ]. tribunal_n1 := n_intr_count_le & [ STEM < "tribunal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_tribunal_n_rel" ] ]. tribuno_n1 := n_intr_count_le & [ STEM < "tribuno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tribuno_n_rel" ] ]. tributación_n1 := n_trans_le & [ STEM < "tributación" >, SYNSEM.LKEYS.KEYREL.PRED "_tributación_n_rel" ]. tributante_n1 := n_intr_count_le & [ STEM < "tributante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tributante_n_rel" ] ]. tributario_a1 := a_rel_nonprd_intr_le & [ STEM < "tributario" >, SYNSEM.LKEYS.KEYREL.PRED "_tributario_a_rel" ]. tributario_n1 := n_intr_count_le & [ STEM < "tributario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tributario_n_rel" ] ]. tributilamina_n1 := n_intr_count_le & [ STEM < "tributilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tributilamina_n_rel" ] ]. tributirato_n1 := n_intr_count_le & [ STEM < "tributirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tributirato_n_rel" ] ]. tribásicamente_x1 := av_i_spr_le & [ STEM < "tribásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tribásicamente_x_rel" ]. tribásico_a1 := a_rel_nonprd_intr_le & [ STEM < "tribásico" >, SYNSEM.LKEYS.KEYREL.PRED "_tribásico_a_rel" ]. tribómetro_n1 := n_intr_count_le & [ STEM < "tribómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tribómetro_n_rel" ] ]. tricampeón_n1 := n_intr_count_le & [ STEM < "tricampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tricampeón_n_rel" ] ]. tricarbalilato_n1 := n_intr_count_le & [ STEM < "tricarbalilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricarbalilato_n_rel" ] ]. triclinio_n1 := n_intr_count_le & [ STEM < "triclinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_triclinio_n_rel" ] ]. tricloroacetato_n1 := n_intr_count_le & [ STEM < "tricloroacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloroacetato_n_rel" ] ]. tricloroacético_a1 := a_rel_nonprd_intr_le & [ STEM < "tricloroacético" >, SYNSEM.LKEYS.KEYREL.PRED "_tricloroacético_a_rel" ]. triclorobenceno_n1 := n_intr_count_le & [ STEM < "triclorobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triclorobenceno_n_rel" ] ]. tricloroborazol_n1 := n_intr_count_le & [ STEM < "tricloroborazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloroborazol_n_rel" ] ]. triclorocarbanilida_n1 := n_intr_count_le & [ STEM < "triclorocarbanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triclorocarbanilida_n_rel" ] ]. tricloroetano_n1 := n_intr_mass_le & [ STEM < "tricloroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloroetano_n_rel" ] ]. tricloroetanol_n1 := n_intr_count_le & [ STEM < "tricloroetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloroetanol_n_rel" ] ]. tricloroetileno_n1 := n_intr_count_le & [ STEM < "tricloroetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tricloroetileno_n_rel" ] ]. triclorofenol_n1 := n_intr_count_le & [ STEM < "triclorofenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triclorofenol_n_rel" ] ]. triclorofluometano_n1 := n_intr_count_le & [ STEM < "triclorofluometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triclorofluometano_n_rel" ] ]. tricloromelamina_n1 := n_intr_count_le & [ STEM < "tricloromelamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloromelamina_n_rel" ] ]. tricloronitrosometano_n1 := n_intr_count_le & [ STEM < "tricloronitrosometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloronitrosometano_n_rel" ] ]. tricloropropano_n1 := n_intr_count_le & [ STEM < "tricloropropano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tricloropropano_n_rel" ] ]. triclorosilano_n1 := n_intr_count_le & [ STEM < "triclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triclorosilano_n_rel" ] ]. tricloruro_n1 := n_intr_mass-or-count_le & [ STEM < "tricloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tricloruro_n_rel" ] ]. triclínico_a1 := a_rel_nonprd_intr_le & [ STEM < "triclínico" >, SYNSEM.LKEYS.KEYREL.PRED "_triclínico_a_rel" ]. tricolor_a1 := a_rel_nonprd_intr_le & [ STEM < "tricolor" >, SYNSEM.LKEYS.KEYREL.PRED "_tricolor_a_rel" ]. triconodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "triconodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_triconodonto_a_rel" ]. tricornio_n1 := n_intr_count_le & [ STEM < "tricornio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tricornio_n_rel" ] ]. tricosano_n1 := n_intr_mass-or-count_le & [ STEM < "tricosano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tricosano_n_rel" ] ]. tricotomía_n1 := n_intr_count_le & [ STEM < "tricotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tricotomía_n_rel" ] ]. tricroismo_n1 := n_intr_uncount_le & [ STEM < "tricroismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tricroismo_n_rel" ] ]. tricromáticamente_x1 := av_i_spr_le & [ STEM < "tricromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tricromáticamente_x_rel" ]. tricromático_a1 := a_rel_nonprd_intr_le & [ STEM < "tricromático" >, SYNSEM.LKEYS.KEYREL.PRED "_tricromático_a_rel" ]. tricromía_n1 := n_intr_count_le & [ STEM < "tricromía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tricromía_n_rel" ] ]. tricuspidado_a1 := a_rel_nonprd_intr_le & [ STEM < "tricuspidado" >, SYNSEM.LKEYS.KEYREL.PRED "_tricuspidado_a_rel" ]. tricálcicamente_x1 := av_i_spr_le & [ STEM < "tricálcicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tricálcicamente_x_rel" ]. tricálcico_a1 := a_rel_nonprd_intr_le & [ STEM < "tricálcico" >, SYNSEM.LKEYS.KEYREL.PRED "_tricálcico_a_rel" ]. tricéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "tricéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_tricéfalo_a_rel" ]. tricéntricamente_x1 := av_i_spr_le & [ STEM < "tricéntricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tricéntricamente_x_rel" ]. tricéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "tricéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tricéntrico_a_rel" ]. tricíclicamente_x1 := av_i_spr_le & [ STEM < "tricíclicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tricíclicamente_x_rel" ]. tricíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "tricíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_tricíclico_a_rel" ]. tridecano_n1 := n_intr_count_le & [ STEM < "tridecano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tridecano_n_rel" ] ]. tridecanoato_n1 := n_intr_count_le & [ STEM < "tridecanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tridecanoato_n_rel" ] ]. tridecilaluminio_n1 := n_intr_count_le & [ STEM < "tridecilaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tridecilaluminio_n_rel" ] ]. tridente_n1 := n_intr_count_le & [ STEM < "tridente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tridente_n_rel" ] ]. tridimensional_a1 := a_rel_prd_le & [ STEM < "tridimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_tridimensional_a_rel" ]. tridimensión_n1 := n_intr_uncount_le & [ STEM < "tridimensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tridimensión_n_rel" ] ]. tridireccional_a1 := a_rel_prd_le & [ STEM < "tridireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_tridireccional_a_rel" ]. trienal_a1 := a_rel_prd_le & [ STEM < "trienal" >, SYNSEM.LKEYS.KEYREL.PRED "_trienal_a_rel" ]. triente_n1 := n_intr_count_le & [ STEM < "triente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triente_n_rel" ] ]. triestable_a1 := a_rel_nonprd_intr_le & [ STEM < "triestable" >, SYNSEM.LKEYS.KEYREL.PRED "_triestable_a_rel" ]. trietanolamina_n1 := n_intr_count_le & [ STEM < "trietanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietanolamina_n_rel" ] ]. trietilamina_n1 := n_intr_count_le & [ STEM < "trietilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietilamina_n_rel" ] ]. trietilborano_n1 := n_intr_count_le & [ STEM < "trietilborano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietilborano_n_rel" ] ]. trietilenmelamina_n1 := n_intr_count_le & [ STEM < "trietilenmelamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietilenmelamina_n_rel" ] ]. trietilentetramina_n1 := n_intr_count_le & [ STEM < "trietilentetramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietilentetramina_n_rel" ] ]. trietoxihexano_n1 := n_intr_count_le & [ STEM < "trietoxihexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietoxihexano_n_rel" ] ]. trietoximetoxipropano_n1 := n_intr_count_le & [ STEM < "trietoximetoxipropano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trietoximetoxipropano_n_rel" ] ]. trifenilestibina_n1 := n_intr_count_le & [ STEM < "trifenilestibina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifenilestibina_n_rel" ] ]. trifenilguanidina_n1 := n_intr_count_le & [ STEM < "trifenilguanidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifenilguanidina_n_rel" ] ]. trifilarmente_x1 := av_i_spr_le & [ STEM < "trifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trifilarmente_x_rel" ]. trifluoacético_a1 := a_rel_nonprd_intr_le & [ STEM < "trifluoacético" >, SYNSEM.LKEYS.KEYREL.PRED "_trifluoacético_a_rel" ]. trifluonitrosometano_n1 := n_intr_count_le & [ STEM < "trifluonitrosometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifluonitrosometano_n_rel" ] ]. trifluoruro_n1 := n_intr_count_le & [ STEM < "trifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifluoruro_n_rel" ] ]. triforio_n1 := n_intr_count_le & [ STEM < "triforio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triforio_n_rel" ] ]. triformiato_n1 := n_intr_count_le & [ STEM < "triformiato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triformiato_n_rel" ] ]. trifosfato_n1 := n_intr_count_le & [ STEM < "trifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifosfato_n_rel" ] ]. trifurcación_n1 := n_event-result_intr_le & [ STEM < "trifurcación" >, SYNSEM.LKEYS.KEYREL.PRED "_trifurcación_n_rel" ]. trifásicamente_x1 := av_i_spr_le & [ STEM < "trifásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trifásicamente_x_rel" ]. trifásico_a1 := a_rel_nonprd_intr_le & [ STEM < "trifásico" >, SYNSEM.LKEYS.KEYREL.PRED "_trifásico_a_rel" ]. trifósforo_n1 := n_intr_mass_le & [ STEM < "trifósforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trifósforo_n_rel" ] ]. trigal_n1 := n_intr_count_le & [ STEM < "trigal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_trigal_n_rel" ] ]. trigeminal_a1 := a_rel_nonprd_intr_le & [ STEM < "trigeminal" >, SYNSEM.LKEYS.KEYREL.PRED "_trigeminal_a_rel" ]. triglicérido_n1 := n_intr_count_le & [ STEM < "triglicérido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triglicérido_n_rel" ] ]. triglifo_n1 := n_intr_count_le & [ STEM < "triglifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triglifo_n_rel" ] ]. trigo_n1 := n_intr_mass_le & [ STEM < "trigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trigo_n_rel" ] ]. trigonal_a1 := a_rel_nonprd_intr_le & [ STEM < "trigonal" >, SYNSEM.LKEYS.KEYREL.PRED "_trigonal_a_rel" ]. trigonalmente_x1 := av_i_spr_le & [ STEM < "trigonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trigonalmente_x_rel" ]. trigonelina_n1 := n_intr_count_le & [ STEM < "trigonelina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trigonelina_n_rel" ] ]. trigonometría_n1 := n_intr_uncount_le & [ STEM < "trigonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trigonometría_n_rel" ] ]. trigonométricamente_x1 := av_i_spr_le & [ STEM < "trigonométricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trigonométricamente_x_rel" ]. trigonométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "trigonométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_trigonométrico_a_rel" ]. triguero_a1 := a_rel_nonprd_intr_le & [ STEM < "triguero" >, SYNSEM.LKEYS.KEYREL.PRED "_triguero_a_rel" ]. trigémino_a1 := a_rel_nonprd_intr_le & [ STEM < "trigémino" >, SYNSEM.LKEYS.KEYREL.PRED "_trigémino_a_rel" ]. trihidrato_n1 := n_intr_count_le & [ STEM < "trihidrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trihidrato_n_rel" ] ]. trihidrocloruro_n1 := n_intr_count_le & [ STEM < "trihidrocloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trihidrocloruro_n_rel" ] ]. trihidroxiestearato_n1 := n_intr_count_le & [ STEM < "trihidroxiestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trihidroxiestearato_n_rel" ] ]. trihídricamente_x1 := av_i_spr_le & [ STEM < "trihídricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trihídricamente_x_rel" ]. trihídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "trihídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_trihídrico_a_rel" ]. triisobutilaluminio_n1 := n_intr_count_le & [ STEM < "triisobutilaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triisobutilaluminio_n_rel" ] ]. triisobutileno_n1 := n_intr_count_le & [ STEM < "triisobutileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triisobutileno_n_rel" ] ]. triisopropanolamina_n1 := n_intr_count_le & [ STEM < "triisopropanolamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triisopropanolamina_n_rel" ] ]. trilateración_n1 := n_intr_uncount_le & [ STEM < "trilateración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trilateración_n_rel" ] ]. trilingã¼e_a1 := a_rel_prd_le & [ STEM < "trilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_trilingüe_a_rel" ]. trilla_n1 := n_trans_le & [ STEM < "trilla" >, SYNSEM.LKEYS.KEYREL.PRED "_trilla_n_rel" ]. trillador_n1 := n_subj-nom_le & [ STEM < "trillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trillador_n_rel" ] ]. trilladora_n1 := n_intr_count_le & [ STEM < "trilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trilladora_n_rel" ] ]. trillar_v := v_trans_np*_le & [ STEM < "trillar" >, SYNSEM.LKEYS.KEYREL.PRED "_trillar_v_rel" ]. trillizo_n1 := n_intr_count_le & [ STEM < "trillizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trillizo_n_rel" ] ]. trillo_n1 := n_intr_count_le & [ STEM < "trillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trillo_n_rel" ] ]. trilogía_n1 := n_intr_count_le & [ STEM < "trilogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trilogía_n_rel" ] ]. trilátero_a1 := a_rel_nonprd_intr_le & [ STEM < "trilátero" >, SYNSEM.LKEYS.KEYREL.PRED "_trilátero_a_rel" ]. trimerización_n1 := n_trans_le & [ STEM < "trimerización" >, SYNSEM.LKEYS.KEYREL.PRED "_trimerización_n_rel" ]. trimero_n1 := n_intr_count_le & [ STEM < "trimero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trimero_n_rel" ] ]. trimería_n1 := n_intr_uncount_pl_le & [ STEM < "trimería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trimería_n_rel" ] ]. trimestral_a1 := a_rel_prd_le & [ STEM < "trimestral" >, SYNSEM.LKEYS.KEYREL.PRED "_trimestral_a_rel" ]. trimestralmente_x1 := av_s_prhd_le & [ STEM < "trimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trimestralmente_x_rel" ]. trimestralmente_x2 := av_i_psthd_le & [ STEM < "trimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trimestralmente_x_rel" ]. trimestre_n1 := n_pseudo-part_temp_le & [ STEM < "trimestre" >, SYNSEM.LKEYS.KEYREL.PRED "_trimestre_n_rel" ]. trimestre_n2 := n_intr_temp_le & [ STEM < "trimestre" > ]. trimetadiona_n1 := n_intr_count_le & [ STEM < "trimetadiona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetadiona_n_rel" ] ]. trimetilacético_a1 := a_rel_nonprd_intr_le & [ STEM < "trimetilacético" >, SYNSEM.LKEYS.KEYREL.PRED "_trimetilacético_a_rel" ]. trimetilaluminio_n1 := n_intr_count_le & [ STEM < "trimetilaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilaluminio_n_rel" ] ]. trimetilamina_n1 := n_intr_count_le & [ STEM < "trimetilamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilamina_n_rel" ] ]. trimetilbutano_n1 := n_intr_count_le & [ STEM < "trimetilbutano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilbutano_n_rel" ] ]. trimetilclorosilano_n1 := n_intr_count_le & [ STEM < "trimetilclorosilano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilclorosilano_n_rel" ] ]. trimetilhexano_n1 := n_intr_count_le & [ STEM < "trimetilhexano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilhexano_n_rel" ] ]. trimetilnonanona_n1 := n_intr_count_le & [ STEM < "trimetilnonanona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilnonanona_n_rel" ] ]. trimetiloletano_n1 := n_intr_count_le & [ STEM < "trimetiloletano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetiloletano_n_rel" ] ]. trimetilolpropano_n1 := n_intr_count_le & [ STEM < "trimetilolpropano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilolpropano_n_rel" ] ]. trimetilpentano_n1 := n_intr_count_le & [ STEM < "trimetilpentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilpentano_n_rel" ] ]. trimetilpenteno_n1 := n_intr_count_le & [ STEM < "trimetilpenteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilpenteno_n_rel" ] ]. trimetilpentilaluminio_n1 := n_intr_count_le & [ STEM < "trimetilpentilaluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trimetilpentilaluminio_n_rel" ] ]. trimetría_n1 := n_intr_uncount_pl_le & [ STEM < "trimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trimetría_n_rel" ] ]. trimielga_n1 := n_intr_count_le & [ STEM < "trimielga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trimielga_n_rel" ] ]. trimmer_n1 := n_intr_count_le & [ STEM < "trimmer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trimmer_n_rel" ] ]. trimolecular_a1 := a_rel_nonprd_intr_le & [ STEM < "trimolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_trimolecular_a_rel" ]. trimonoico_a1 := a_rel_nonprd_intr_le & [ STEM < "trimonoico" >, SYNSEM.LKEYS.KEYREL.PRED "_trimonoico_a_rel" ]. trimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "trimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_trimétrico_a_rel" ]. trinchante_n1 := n_intr_count_le & [ STEM < "trinchante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trinchante_n_rel" ] ]. trinchera_n1 := n_intr_count_le & [ STEM < "trinchera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_trinchera_n_rel" ] ]. trineo_n1 := n_intr_count_le & [ STEM < "trineo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trineo_n_rel" ] ]. trinitrobenceno_n1 := n_intr_count_le & [ STEM < "trinitrobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trinitrobenceno_n_rel" ] ]. trinitrobenzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "trinitrobenzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_trinitrobenzoico_a_rel" ]. trinitrorresorcinato_n1 := n_intr_count_le & [ STEM < "trinitrorresorcinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trinitrorresorcinato_n_rel" ] ]. trinitrotolueno_n1 := n_intr_count_le & [ STEM < "trinitrotolueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trinitrotolueno_n_rel" ] ]. trinquete_n1 := n_intr_count_le & [ STEM < "trinquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trinquete_n_rel" ] ]. trioctaédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "trioctaédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_trioctaédrico_a_rel" ]. triodo_n1 := n_intr_count_le & [ STEM < "triodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_triodo_n_rel" ] ]. triosa_n1 := n_intr_mass-or-count_le & [ STEM < "triosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_triosa_n_rel" ] ]. trioxano_n1 := n_intr_count_le & [ STEM < "trioxano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trioxano_n_rel" ] ]. tripa_n1 := n_intr_mass_le & [ STEM < "tripa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tripa_n_rel" ] ]. tripalmitina_n1 := n_intr_count_le & [ STEM < "tripalmitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tripalmitina_n_rel" ] ]. triparanol_n1 := n_intr_count_le & [ STEM < "triparanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triparanol_n_rel" ] ]. triparsamida_n1 := n_intr_count_le & [ STEM < "triparsamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triparsamida_n_rel" ] ]. tripartir_v := v_trans_np_le & [ STEM < "tripartir" >, SYNSEM.LKEYS.KEYREL.PRED "_tripartir_v_rel" ]. tripartito_a1 := a_rel_nonprd_intr_le & [ STEM < "tripartito" >, SYNSEM.LKEYS.KEYREL.PRED "_tripartito_a_rel" ]. triple_a := nu_mult-adj_le & [ STEM < "triple" >, SYNSEM.LKEYS.KEYREL.PRED "_triple_a_rel" ]. triple_n1 := nu_mult-part_le & [ STEM < "triple" > ]. triplete_n1 := n_intr_count_le & [ STEM < "triplete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triplete_n_rel" ] ]. triplicador_n1 := n_intr_count_le & [ STEM < "triplicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triplicador_n_rel" ] ]. triplicar_v := v_trans_np_caus_le & [ STEM < "triplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_triplicar_v_rel" ]. triplista_n1 := n_intr_count_le & [ STEM < "triplista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_triplista_n_rel" ] ]. triplo_n1 := nu_mult-part_le & [ STEM < "triplo" > ]. tripolar_a1 := a_rel_nonprd_intr_le & [ STEM < "tripolar" >, SYNSEM.LKEYS.KEYREL.PRED "_tripolar_a_rel" ]. tripolarmente_x1 := av_i_spr_le & [ STEM < "tripolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_tripolarmente_x_rel" ]. tripolifosfato_n1 := n_intr_count_le & [ STEM < "tripolifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tripolifosfato_n_rel" ] ]. tripolitano_a1 := a_rel_nonprd_intr_le & [ STEM < "tripolitano" >, SYNSEM.LKEYS.KEYREL.PRED "_tripolitano_a_rel" ]. tripolitano_n1 := n_intr_count_le & [ STEM < "tripolitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tripolitano_n_rel" ] ]. tripropileno_n1 := n_intr_count_le & [ STEM < "tripropileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tripropileno_n_rel" ] ]. tripropionato_n1 := n_intr_count_le & [ STEM < "tripropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tripropionato_n_rel" ] ]. tripsina_n1 := n_intr_count_le & [ STEM < "tripsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tripsina_n_rel" ] ]. tripsómetro_n1 := n_intr_count_le & [ STEM < "tripsómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tripsómetro_n_rel" ] ]. triptófano_n1 := n_intr_count_le & [ STEM < "triptófano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_triptófano_n_rel" ] ]. tripulación_n1 := n_intr_coll_le & [ STEM < "tripulación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tripulación_n_rel" ] ]. tripulante_n1 := n_intr_count_le & [ STEM < "tripulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tripulante_n_rel" ] ]. tripular_v := v_trans_np_le & [ STEM < "tripular" >, SYNSEM.LKEYS.KEYREL.PRED "_tripular_v_rel" ]. triquina_n1 := n_intr_count_le & [ STEM < "triquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_triquina_n_rel" ] ]. trirreme_n1 := n_intr_count_le & [ STEM < "trirreme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trirreme_n_rel" ] ]. trirricinoleato_n1 := n_intr_count_le & [ STEM < "trirricinoleato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trirricinoleato_n_rel" ] ]. triscador_n1 := n_intr_count_le & [ STEM < "triscador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triscador_n_rel" ] ]. triscar_v := v_trans_np_le & [ STEM < "triscar" >, SYNSEM.LKEYS.KEYREL.PRED "_triscar_v_rel" ]. trisección_n1 := n_trans_le & [ STEM < "trisección" >, SYNSEM.LKEYS.KEYREL.PRED "_trisección_n_rel" ]. trisilicato_n1 := n_intr_count_le & [ STEM < "trisilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trisilicato_n_rel" ] ]. trisistor_n1 := n_intr_count_le & [ STEM < "trisistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_trisistor_n_rel" ] ]. trismo_n1 := n_intr_uncount_le & [ STEM < "trismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trismo_n_rel" ] ]. trisquelión_n1 := n_intr_count_le & [ STEM < "trisquelión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trisquelión_n_rel" ] ]. triste_a1 := a_qual_intr_ser_le & [ STEM < "triste" >, SYNSEM.LKEYS.KEYREL.PRED "_triste_a_rel" ]. tristemente_x1 := av_i_spr_le & [ STEM < "tristemente" >, SYNSEM.LKEYS.KEYREL.PRED "_tristemente_x_rel" ]. tristeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "tristeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tristeza_n_rel" ] ]. trisulfuro_n1 := n_intr_count_le & [ STEM < "trisulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trisulfuro_n_rel" ] ]. trisómico_a1 := a_rel_nonprd_intr_le & [ STEM < "trisómico" >, SYNSEM.LKEYS.KEYREL.PRED "_trisómico_a_rel" ]. tritanomalopía_n1 := n_intr_uncount_le & [ STEM < "tritanomalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tritanomalopía_n_rel" ] ]. tritanomalía_n1 := n_intr_uncount_le & [ STEM < "tritanomalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tritanomalía_n_rel" ] ]. tritanopía_n1 := n_intr_uncount_le & [ STEM < "tritanopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tritanopía_n_rel" ] ]. tritio_n1 := n_intr_mass_le & [ STEM < "tritio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tritio_n_rel" ] ]. trituberculado_a1 := a_rel_nonprd_intr_le & [ STEM < "trituberculado" >, SYNSEM.LKEYS.KEYREL.PRED "_trituberculado_a_rel" ]. trituración_n1 := n_trans_le & [ STEM < "trituración" >, SYNSEM.LKEYS.KEYREL.PRED "_trituración_n_rel" ]. triturador_a1 := a_rel_nonprd_intr_le & [ STEM < "triturador" >, SYNSEM.LKEYS.KEYREL.PRED "_triturador_a_rel" ]. triturador_n1 := n_intr_count_le & [ STEM < "triturador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_triturador_n_rel" ] ]. trituradora_n1 := n_intr_count_le & [ STEM < "trituradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trituradora_n_rel" ] ]. triturante_a1 := a_rel_nonprd_intr_le & [ STEM < "triturante" >, SYNSEM.LKEYS.KEYREL.PRED "_triturante_a_rel" ]. triturar_v := v_trans_np_le & [ STEM < "triturar" >, SYNSEM.LKEYS.KEYREL.PRED "_triturar_v_rel" ]. tritíceo_a1 := a_rel_nonprd_intr_le & [ STEM < "tritíceo" >, SYNSEM.LKEYS.KEYREL.PRED "_tritíceo_a_rel" ]. tritón_n1 := n_intr_count_le & [ STEM < "tritón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tritón_n_rel" ] ]. triunfador_a1 := a_qual_intr_ser_le & [ STEM < "triunfador" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfador_a_rel" ]. triunfador_n1 := n_subj-nom_le & [ STEM < "triunfador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_triunfador_n_rel" ] ]. triunfal_a1 := a_qual_intr_ser_le & [ STEM < "triunfal" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfal_a_rel" ]. triunfalismo_n1 := n_ppcomp_uncount_le & [ STEM < "triunfalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triunfalismo_n_rel" ] ]. triunfalista_a1 := a_rel_nonprd_intr_le & [ STEM < "triunfalista" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfalista_a_rel" ]. triunfalmente_x1 := av_i_spr_le & [ STEM < "triunfalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfalmente_x_rel" ]. triunfante_a1 := a_qual_intr_ser_le & [ STEM < "triunfante" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfante_a_rel" ]. triunfar_v := v_unacc_le & [ STEM < "triunfar" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfar_v_rel" ]. triunvirato_n1 := n_intr_count_le & [ STEM < "triunvirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triunvirato_n_rel" ] ]. triunviro_n1 := n_intr_count_le & [ STEM < "triunviro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_triunviro_n_rel" ] ]. trivalente_a1 := a_rel_nonprd_intr_le & [ STEM < "trivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_trivalente_a_rel" ]. trivalentemente_x1 := av_i_spr_le & [ STEM < "trivalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_trivalentemente_x_rel" ]. trivial_a1 := a_qual_intr_ser_le & [ STEM < "trivial" >, SYNSEM.LKEYS.KEYREL.PRED "_trivial_a_rel" ]. trivialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "trivialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trivialidad_n_rel" ] ]. trivialmente_x1 := av_i_spr_le & [ STEM < "trivialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_trivialmente_x_rel" ]. triviariamente_x1 := av_i_spr_le & [ STEM < "triviariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_triviariamente_x_rel" ]. triza_n1 := n_intr_count_le & [ STEM < "triza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_triza_n_rel" ] ]. triácidamente_x1 := av_i_spr_le & [ STEM < "triácidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_triácidamente_x_rel" ]. triácido_a1 := a_rel_nonprd_intr_le & [ STEM < "triácido" >, SYNSEM.LKEYS.KEYREL.PRED "_triácido_a_rel" ]. triádico_a1 := a_rel_nonprd_intr_le & [ STEM < "triádico" >, SYNSEM.LKEYS.KEYREL.PRED "_triádico_a_rel" ]. triángulo_n1 := n_intr_count_le & [ STEM < "triángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_triángulo_n_rel" ] ]. triédricamente_x1 := av_i_spr_le & [ STEM < "triédricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_triédricamente_x_rel" ]. triédrico_a1 := a_rel_nonprd_intr_le & [ STEM < "triédrico" >, SYNSEM.LKEYS.KEYREL.PRED "_triédrico_a_rel" ]. trióxido_n1 := n_intr_count_le & [ STEM < "trióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trióxido_n_rel" ] ]. trocador_n1 := n_intr_count_le & [ STEM < "trocador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trocador_n_rel" ] ]. trocantérico_a1 := a_rel_nonprd_intr_le & [ STEM < "trocantérico" >, SYNSEM.LKEYS.KEYREL.PRED "_trocantérico_a_rel" ]. trocar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "trocar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_trocar_v_rel" ] ]. trocar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "trocar" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_trocar_v_rel" ] ]. troceador_n1 := n_intr_count_le & [ STEM < "troceador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_troceador_n_rel" ] ]. troceadora_n1 := n_intr_count_le & [ STEM < "troceadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_troceadora_n_rel" ] ]. trocear_v := v_trans_np_le & [ STEM < "trocear" >, SYNSEM.LKEYS.KEYREL.PRED "_trocear_v_rel" ]. trocito_n1 := n_intr_count_le & [ STEM < "trocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trocito_n_rel" ] ]. troclear_a1 := a_rel_nonprd_intr_le & [ STEM < "troclear" >, SYNSEM.LKEYS.KEYREL.PRED "_troclear_a_rel" ]. trocoidal_a1 := a_rel_nonprd_intr_le & [ STEM < "trocoidal" >, SYNSEM.LKEYS.KEYREL.PRED "_trocoidal_a_rel" ]. trocánter_n1 := n_intr_count_le & [ STEM < "trocánter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trocánter_n_rel" ] ]. trocánter_n2 := n_ppcomp_count_le & [ STEM < "trocánter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_trocánter_n_rel" ] ]. trofectodermo_n1 := n_intr_mass_le & [ STEM < "trofectodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trofectodermo_n_rel" ] ]. trofeo_n1 := n_intr_count_le & [ STEM < "trofeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_trofeo_n_rel" ] ]. troficidad_n1 := n_intr_uncount_le & [ STEM < "troficidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_troficidad_n_rel" ] ]. trofoblasto_n1 := n_intr_count_le & [ STEM < "trofoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trofoblasto_n_rel" ] ]. trofocito_n1 := n_intr_count_le & [ STEM < "trofocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trofocito_n_rel" ] ]. trofonúcleo_n1 := n_intr_mass_le & [ STEM < "trofonúcleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trofonúcleo_n_rel" ] ]. trofoplasma_n1 := n_intr_count_le & [ STEM < "trofoplasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trofoplasma_n_rel" ] ]. trofotropismo_n1 := n_intr_uncount_le & [ STEM < "trofotropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trofotropismo_n_rel" ] ]. troglodita_n1 := n_intr_count_le & [ STEM < "troglodita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_troglodita_n_rel" ] ]. troika_n1 := n_intr_count_le & [ STEM < "troika" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_troika_n_rel" ] ]. trole_n1 := n_intr_count_le & [ STEM < "trole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trole_n_rel" ] ]. trolebús_n1 := n_intr_count_le & [ STEM < "trolebús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trolebús_n_rel" ] ]. tromba_n1 := n_pseudo-part_le & [ STEM < "tromba" >, SYNSEM.LKEYS.KEYREL.PRED "_tromba_n_rel" ]. trombina_n1 := n_intr_count_le & [ STEM < "trombina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trombina_n_rel" ] ]. trombo_n1 := n_ppcomp_count_le & [ STEM < "trombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_trombo_n_rel" ] ]. tromboblasto_n1 := n_intr_count_le & [ STEM < "tromboblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tromboblasto_n_rel" ] ]. trombocito_n2 := n_ppcomp_count_le & [ STEM < "trombocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_trombocito_n_rel" ] ]. trombocitopatía_n1 := n_intr_uncount_le & [ STEM < "trombocitopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombocitopatía_n_rel" ] ]. tromboelastografía_n1 := n_intr_count_le & [ STEM < "tromboelastografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tromboelastografía_n_rel" ] ]. trombopatía_n1 := n_intr_uncount_pl_le & [ STEM < "trombopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombopatía_n_rel" ] ]. tromboplastina_n1 := n_intr_count_le & [ STEM < "tromboplastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tromboplastina_n_rel" ] ]. tromboxano_n1 := n_intr_mass_le & [ STEM < "tromboxano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tromboxano_n_rel" ] ]. trombón_n1 := n_intr_count_le & [ STEM < "trombón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trombón_n_rel" ] ]. trompa_n1 := n_intr_count_le & [ STEM < "trompa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trompa_n_rel" ] ]. trompeta_n1 := n_intr_count_le & [ STEM < "trompeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trompeta_n_rel" ] ]. trompetero_n1 := n_intr_count_le & [ STEM < "trompetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_trompetero_n_rel" ] ]. trompetería_n1 := n_intr_count_le & [ STEM < "trompetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_trompetería_n_rel" ] ]. trompetista_n1 := n_intr_count_le & [ STEM < "trompetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trompetista_n_rel" ] ]. trompo_n1 := n_intr_count_le & [ STEM < "trompo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trompo_n_rel" ] ]. trona_n1 := n_intr_count_le & [ STEM < "trona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trona_n_rel" ] ]. tronar_v1 := v_impers_strict_intr_le & [ STEM < "tronar" >, SYNSEM.LKEYS.KEYREL.PRED "_tronar_v_rel" ]. tronar_v2 := v_intr_le & [ STEM < "tronar" >, SYNSEM.LKEYS.KEYREL.PRED "_tronar_v_rel" ]. troncal_a1 := a_rel_nonprd_intr_le & [ STEM < "troncal" >, SYNSEM.LKEYS.KEYREL.PRED "_troncal_a_rel" ]. troncalidad_n1 := n_intr_uncount_le & [ STEM < "troncalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_troncalidad_n_rel" ] ]. troncalidad_n2 := n_intr_count_le & [ STEM < "troncalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_troncalidad_n_rel" ] ]. tronco_n1 := n_intr_count_le & [ STEM < "tronco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tronco_n_rel" ] ]. troncular_a1 := a_rel_nonprd_intr_le & [ STEM < "troncular" >, SYNSEM.LKEYS.KEYREL.PRED "_troncular_a_rel" ]. trono_n1 := n_intr_count_le & [ STEM < "trono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trono_n_rel" ] ]. tronzado_n1 := n_trans_le & [ STEM < "tronzado" >, SYNSEM.LKEYS.KEYREL.PRED "_tronzado_n_rel" ]. tropa_n1 := n_intr_coll_le & [ STEM < "tropa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_tropa_n_rel" ] ]. tropel_n := n_group_le & [ STEM < "tropel" >, SYNSEM.LKEYS.KEYREL.PRED "_tropel_n_rel" ]. tropelía_n1 := n_intr_count_le & [ STEM < "tropelía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropelía_n_rel" ] ]. tropezar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "tropezar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tropezar_v_rel" ] ]. tropezar_v2 := v_intr_mrkd_np*_sym_le & [ STEM < "tropezar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tropezar_v_rel" ] ]. tropezar_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "tropezar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tropezar_v_rel" ] ]. tropezar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "tropezar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_tropezar_v_rel" ] ]. tropical_a1 := a_rel_nonprd_intr_le & [ STEM < "tropical" >, SYNSEM.LKEYS.KEYREL.PRED "_tropical_a_rel" ]. tropismo_n1 := n_intr_uncount_le & [ STEM < "tropismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropismo_n_rel" ] ]. tropopausa_n1 := n_intr_count_le & [ STEM < "tropopausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tropopausa_n_rel" ] ]. troposfera_n1 := n_intr_count_le & [ STEM < "troposfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_troposfera_n_rel" ] ]. troposférico_a1 := a_rel_nonprd_intr_le & [ STEM < "troposférico" >, SYNSEM.LKEYS.KEYREL.PRED "_troposférico_a_rel" ]. tropía_n1 := n_intr_uncount_pl_le & [ STEM < "tropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropía_n_rel" ] ]. troquelado_n1 := n_trans_le & [ STEM < "troquelado" >, SYNSEM.LKEYS.KEYREL.PRED "_troquelado_n_rel" ]. troquelador_a1 := a_rel_nonprd_intr_le & [ STEM < "troquelador" >, SYNSEM.LKEYS.KEYREL.PRED "_troquelador_a_rel" ]. troquelar_v := v_trans_np_le & [ STEM < "troquelar" >, SYNSEM.LKEYS.KEYREL.PRED "_troquelar_v_rel" ]. troquelista_n1 := n_intr_count_le & [ STEM < "troquelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_troquelista_n_rel" ] ]. trotamundos_n1 := n_intr_count_le & [ STEM < "trotamundos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trotamundos_n_rel" ] ]. trotar_v := v_intr_le & [ STEM < "trotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_trotar_v_rel" ] ]. trote_n1 := n_event-result_intr_le & [ STEM < "trote" >, SYNSEM.LKEYS.KEYREL.PRED "_trote_n_rel" ]. trovador_n1 := n_intr_count_le & [ STEM < "trovador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_trovador_n_rel" ] ]. troyano_a1 := a_rel_prd_le & [ STEM < "troyano" >, SYNSEM.LKEYS.KEYREL.PRED "_troyano_a_rel" ]. troza_n1 := n_intr_count_le & [ STEM < "troza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_troza_n_rel" ] ]. trozo_n1 := n_pseudo-part_le & [ STEM < "trozo" >, SYNSEM.LKEYS.KEYREL.PRED "_trozo_n_rel" ]. trucaje_n1 := n_trans_le & [ STEM < "trucaje" >, SYNSEM.LKEYS.KEYREL.PRED "_trucaje_n_rel" ]. trucha_n1 := n_intr_count_le & [ STEM < "trucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_trucha_n_rel" ] ]. truchero_a1 := a_rel_nonprd_intr_le & [ STEM < "truchero" >, SYNSEM.LKEYS.KEYREL.PRED "_truchero_a_rel" ]. truculencia_n1 := n_ppcomp_mass_le & [ STEM < "truculencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_truculencia_n_rel" ] ]. truculento_a1 := a_qual_intr_ser_le & [ STEM < "truculento" >, SYNSEM.LKEYS.KEYREL.PRED "_truculento_a_rel" ]. trueno_n1 := n_intr_count_le & [ STEM < "trueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trueno_n_rel" ] ]. trufa_n1 := n_intr_mass_le & [ STEM < "trufa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_trufa_n_rel" ] ]. truncamiento_n1 := n_trans_le & [ STEM < "truncamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_truncamiento_n_rel" ]. truncar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "truncar" >, SYNSEM.LKEYS.KEYREL.PRED "_truncar_v_rel" ]. truncar_v2 := v_trans_np_le & [ STEM < "truncar" >, SYNSEM.LKEYS.KEYREL.PRED "_truncar_v_rel" ]. truticultura_n1 := n_intr_uncount_le & [ STEM < "truticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_truticultura_n_rel" ] ]. tráfago_n1 := n_intr_mass_le & [ STEM < "tráfago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tráfago_n_rel" ] ]. tráfico_n1 := n_trans_le & [ STEM < "tráfico" >, SYNSEM.LKEYS.KEYREL.PRED "_tráfico_n_rel" ]. trágicamente_x1 := av_i_spr_le & [ STEM < "trágicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_trágicamente_x_rel" ]. trágico_a1 := a_qual_intr_ser_le & [ STEM < "trágico" >, SYNSEM.LKEYS.KEYREL.PRED "_trágico_a_rel" ]. tráiler_n1 := n_intr_count_le & [ STEM < "tráiler" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_tráiler_n_rel" ] ]. trámite_n1 := n_trans_le & [ STEM < "trámite" >, SYNSEM.LKEYS.KEYREL.PRED "_trámite_n_rel" ]. tránsfuga_n1 := n_intr_count_le & [ STEM < "tránsfuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tránsfuga_n_rel" ] ]. tránsito_n1 := n_trans_le & [ STEM < "tránsito" >, SYNSEM.LKEYS.KEYREL.PRED "_tránsito_n_rel" ]. tránsito_n2 := n_intr_count_le & [ STEM < "tránsito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tránsito_n_rel" ] ]. tráquea_n1 := n_intr_count_le & [ STEM < "tráquea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tráquea_n_rel" ] ]. trébol_n1 := n_intr_count_le & [ STEM < "trébol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_trébol_n_rel" ] ]. trémulo_a1 := a_qual_intr_ser_le & [ STEM < "trémulo" >, SYNSEM.LKEYS.KEYREL.PRED "_trémulo_a_rel" ]. trépano_n1 := n_intr_count_le & [ STEM < "trépano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trépano_n_rel" ] ]. tríada_n1 := n_intr_count_le & [ STEM < "tríada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tríada_n_rel" ] ]. tríbulo_n1 := n_intr_count_le & [ STEM < "tríbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tríbulo_n_rel" ] ]. tríceps_n1 := n_ppcomp_count_le & [ STEM < "tríceps" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tríceps_n_rel" ] ]. trímero_n1 := n_intr_count_le & [ STEM < "trímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trímero_n_rel" ] ]. trío_n1 := n_intr_count_le & [ STEM < "trío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum_soc, PRED "_trío_n_rel" ] ]. tríplice_a1 := a_rel_nonprd_intr_le & [ STEM < "tríplice" >, SYNSEM.LKEYS.KEYREL.PRED "_tríplice_a_rel" ]. tríplicemente_x1 := av_i_spr_le & [ STEM < "tríplicemente" >, SYNSEM.LKEYS.KEYREL.PRED "_tríplicemente_x_rel" ]. trípode_n1 := n_intr_count_le & [ STEM < "trípode" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trípode_n_rel" ] ]. trípoli_n1 := n_intr_count_le & [ STEM < "trípoli" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_trípoli_n_rel" ] ]. tríptico_a1 := a_rel_nonprd_intr_le & [ STEM < "tríptico" >, SYNSEM.LKEYS.KEYREL.PRED "_tríptico_a_rel" ]. tríptico_n1 := n_intr_count_le & [ STEM < "tríptico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_tríptico_n_rel" ] ]. trócala_n1 := n_intr_count_le & [ STEM < "trócala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trócala_n_rel" ] ]. tróclea_n1 := n_ppcomp_count_le & [ STEM < "tróclea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tróclea_n_rel" ] ]. tróficamente_x1 := av_i_spr_le & [ STEM < "tróficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tróficamente_x_rel" ]. trófico_a1 := a_rel_nonprd_intr_le & [ STEM < "trófico" >, SYNSEM.LKEYS.KEYREL.PRED "_trófico_a_rel" ]. trómel_n1 := n_intr_count_le & [ STEM < "trómel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_trómel_n_rel" ] ]. trópico_n1 := n_intr_count_le & [ STEM < "trópico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_trópico_n_rel" ] ]. tsavorita_n1 := n_intr_count_le & [ STEM < "tsavorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tsavorita_n_rel" ] ]. tsetsé_n1 := n_intr_count_le & [ STEM < "tsetsé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tsetsé_n_rel" ] ]. tu_d := d_poss_tu_le & [ STEM < "tu" > ]. tuba_n1 := n_intr_count_le & [ STEM < "tuba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tuba_n_rel" ] ]. tuberal_a1 := a_rel_nonprd_intr_le & [ STEM < "tuberal" >, SYNSEM.LKEYS.KEYREL.PRED "_tuberal_a_rel" ]. tubercular_a1 := a_rel_nonprd_intr_le & [ STEM < "tubercular" >, SYNSEM.LKEYS.KEYREL.PRED "_tubercular_a_rel" ]. tuberculina_n1 := n_intr_count_le & [ STEM < "tuberculina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tuberculina_n_rel" ] ]. tuberculinismo_n1 := n_intr_uncount_le & [ STEM < "tuberculinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tuberculinismo_n_rel" ] ]. tuberculoso_a1 := a_rel_nonprd_intr_le & [ STEM < "tuberculoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tuberculoso_a_rel" ]. tuberculínico_a1 := a_rel_nonprd_intr_le & [ STEM < "tuberculínico" >, SYNSEM.LKEYS.KEYREL.PRED "_tuberculínico_a_rel" ]. tuberosidad_n1 := n_intr_count_le & [ STEM < "tuberosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tuberosidad_n_rel" ] ]. tuberoso_a1 := a_rel_nonprd_intr_le & [ STEM < "tuberoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tuberoso_a_rel" ]. tubería_n1 := n_intr_count_le & [ STEM < "tubería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tubería_n_rel" ] ]. tubo_n1 := n_intr_count_le & [ STEM < "tubo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tubo_n_rel" ] ]. tubular_a1 := a_rel_nonprd_intr_le & [ STEM < "tubular" >, SYNSEM.LKEYS.KEYREL.PRED "_tubular_a_rel" ]. tubérculo_n1 := n_intr_count_le & [ STEM < "tubérculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tubérculo_n_rel" ] ]. tucán_n1 := n_intr_count_le & [ STEM < "tucán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tucán_n_rel" ] ]. tudelano_n1 := n_intr_count_le & [ STEM < "tudelano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tudelano_n_rel" ] ]. tuerca_n1 := n_intr_count_le & [ STEM < "tuerca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tuerca_n_rel" ] ]. tuerto_a1 := a_qual_intr_ser_le & [ STEM < "tuerto" >, SYNSEM.LKEYS.KEYREL.PRED "_tuerto_a_rel" ]. tugtupita_n1 := n_intr_count_le & [ STEM < "tugtupita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tugtupita_n_rel" ] ]. tugurio_n1 := n_intr_count_le & [ STEM < "tugurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tugurio_n_rel" ] ]. tuición_n1 := n_intr_count_le & [ STEM < "tuición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tuición_n_rel" ] ]. tuistor_n1 := n_intr_count_le & [ STEM < "tuistor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tuistor_n_rel" ] ]. tuitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "tuitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_tuitivo_a_rel" ]. tul_n1 := n_intr_mass_le & [ STEM < "tul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tul_n_rel" ] ]. tulio_n1 := n_intr_mass_le & [ STEM < "tulio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tulio_n_rel" ] ]. tulipa_n1 := n_intr_count_le & [ STEM < "tulipa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tulipa_n_rel" ] ]. tulipanero_n1 := n_intr_count_le & [ STEM < "tulipanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tulipanero_n_rel" ] ]. tulipero_n1 := n_intr_count_le & [ STEM < "tulipero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tulipero_n_rel" ] ]. tulipán_n1 := n_intr_count_le & [ STEM < "tulipán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tulipán_n_rel" ] ]. tumba_n1 := n_intr_count_le & [ STEM < "tumba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tumba_n_rel" ] ]. tumbaga_n1 := n_intr_count_le & [ STEM < "tumbaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tumbaga_n_rel" ] ]. tumbar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "tumbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_tumbar_v_rel" ] ] ]. tumbar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "tumbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_tumbar_v_rel" ] ]. tumbar_v3 := v_trans_np_caus_le & [ STEM < "tumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_tumbar_v_rel" ]. tumbona_n1 := n_intr_count_le & [ STEM < "tumbona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tumbona_n_rel" ] ]. tumefacción_n1 := n_intr_count_le & [ STEM < "tumefacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tumefacción_n_rel" ] ]. tumescente_a1 := a_rel_nonprd_intr_le & [ STEM < "tumescente" >, SYNSEM.LKEYS.KEYREL.PRED "_tumescente_a_rel" ]. tumor_n1 := n_intr_count_le & [ STEM < "tumor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tumor_n_rel" ] ]. tumoral_a1 := a_rel_nonprd_intr_le & [ STEM < "tumoral" >, SYNSEM.LKEYS.KEYREL.PRED "_tumoral_a_rel" ]. tumulario_a1 := a_rel_nonprd_intr_le & [ STEM < "tumulario" >, SYNSEM.LKEYS.KEYREL.PRED "_tumulario_a_rel" ]. tumultuario_a1 := a_rel_nonprd_intr_le & [ STEM < "tumultuario" >, SYNSEM.LKEYS.KEYREL.PRED "_tumultuario_a_rel" ]. tumultuoso_a1 := a_qual_intr_ser_le & [ STEM < "tumultuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_tumultuoso_a_rel" ]. tuna_n1 := n_intr_count_le & [ STEM < "tuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_tuna_n_rel" ] ]. tunante_n1 := n_intr_count_le & [ STEM < "tunante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tunante_n_rel" ] ]. tundra_n1 := n_intr_count_le & [ STEM < "tundra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tundra_n_rel" ] ]. tunecino_a1 := a_rel_prd_le & [ STEM < "tunecino" >, SYNSEM.LKEYS.KEYREL.PRED "_tunecino_a_rel" ]. tunecino_n1 := n_intr_count_le & [ STEM < "tunecino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tunecino_n_rel" ] ]. tungstato_n1 := n_intr_count_le & [ STEM < "tungstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tungstato_n_rel" ] ]. tungsteno_n1 := n_intr_mass_le & [ STEM < "tungsteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tungsteno_n_rel" ] ]. tuplipero_n1 := n_intr_count_le & [ STEM < "tuplipero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tuplipero_n_rel" ] ]. tupé_n1 := n_intr_count_le & [ STEM < "tupé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tupé_n_rel" ] ]. turba_n1 := n_intr_mass_le & [ STEM < "turba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_turba_n_rel" ] ]. turbación_n1 := n_trans_le & [ STEM < "turbación" >, SYNSEM.LKEYS.KEYREL.PRED "_turbación_n_rel" ]. turbador_a1 := a_qual_intr_ser_le & [ STEM < "turbador" >, SYNSEM.LKEYS.KEYREL.PRED "_turbador_a_rel" ]. turbante_n1 := n_intr_count_le & [ STEM < "turbante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbante_n_rel" ] ]. turbar_v1 := v_intr_io*_le & [ STEM < "turbar" >, SYNSEM.LKEYS.KEYREL.PRED "_turbar_v_rel" ]. turbar_v2 := v_pron_intr_le & [ STEM < "turbar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_turbar_v_rel" ] ]. turbar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "turbar" >, SYNSEM.LKEYS.KEYREL.PRED "_turbar_v_rel" ]. turbera_n1 := n_intr_count_le & [ STEM < "turbera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_turbera_n_rel" ] ]. turbiamente_x1 := av_i_spr_le & [ STEM < "turbiamente" >, SYNSEM.LKEYS.KEYREL.PRED "_turbiamente_x_rel" ]. turbidez_n1 := n_ppcomp_mass_le & [ STEM < "turbidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_turbidez_n_rel" ] ]. turbidímetro_n1 := n_intr_count_le & [ STEM < "turbidímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbidímetro_n_rel" ] ]. turbiedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "turbiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_turbiedad_n_rel" ] ]. turbina_n1 := n_intr_count_le & [ STEM < "turbina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbina_n_rel" ] ]. turbinal_a1 := a_rel_nonprd_intr_le & [ STEM < "turbinal" >, SYNSEM.LKEYS.KEYREL.PRED "_turbinal_a_rel" ]. turbinar_v := v_trans_np_le & [ STEM < "turbinar" >, SYNSEM.LKEYS.KEYREL.PRED "_turbinar_v_rel" ]. turbio_a1 := a_qual_intr_scopal_le & [ STEM < "turbio" >, SYNSEM.LKEYS.KEYREL.PRED "_turbio_a_rel" ]. turbo_a1 := a_rel_nonprd_intr_le & [ STEM < "turbo" >, SYNSEM.LKEYS.KEYREL.PRED "_turbo_a_rel" ]. turbo_n1 := n_intr_mass-or-count_le & [ STEM < "turbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_turbo_n_rel" ] ]. turboalternador_n1 := n_intr_count_le & [ STEM < "turboalternador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_turboalternador_n_rel" ] ]. turbobomba_n1 := n_intr_count_le & [ STEM < "turbobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbobomba_n_rel" ] ]. turbocompresor_n1 := n_intr_count_le & [ STEM < "turbocompresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbocompresor_n_rel" ] ]. turbohélice_n1 := n_intr_count_le & [ STEM < "turbohélice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbohélice_n_rel" ] ]. turbomotor_n1 := n_intr_count_le & [ STEM < "turbomotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbomotor_n_rel" ] ]. turbomáquina_n1 := n_intr_count_le & [ STEM < "turbomáquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbomáquina_n_rel" ] ]. turbonave_n1 := n_intr_count_le & [ STEM < "turbonave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbonave_n_rel" ] ]. turbopropulsor_n1 := n_intr_count_le & [ STEM < "turbopropulsor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turbopropulsor_n_rel" ] ]. turborreactor_n1 := n_intr_count_le & [ STEM < "turborreactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turborreactor_n_rel" ] ]. turbulencia_n1 := n_intr_mass_le & [ STEM < "turbulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_turbulencia_n_rel" ] ]. turbulentamente_x1 := av_i_spr_le & [ STEM < "turbulentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_turbulentamente_x_rel" ]. turbulento_a1 := a_qual_intr_scopal_le & [ STEM < "turbulento" >, SYNSEM.LKEYS.KEYREL.PRED "_turbulento_a_rel" ]. turco_a1 := a_rel_prd_le & [ STEM < "turco" >, SYNSEM.LKEYS.KEYREL.PRED "_turco_a_rel" ]. turco_n1 := n_intr_count_le & [ STEM < "turco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_turco_n_rel" ] ]. turcoestadounidense_a1 := a_rel_prd_le & [ STEM < "turcoestadounidense" >, SYNSEM.LKEYS.KEYREL.PRED "_turcoestadounidense_a_rel" ]. turgencia_n1 := n_ppcomp_mass_le & [ STEM < "turgencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_turgencia_n_rel" ] ]. turgente_a1 := a_rel_nonprd_intr_le & [ STEM < "turgente" >, SYNSEM.LKEYS.KEYREL.PRED "_turgente_a_rel" ]. turgescencia_n1 := n_intr_uncount_le & [ STEM < "turgescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_turgescencia_n_rel" ] ]. turinense_n1 := n_intr_count_le & [ STEM < "turinense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_turinense_n_rel" ] ]. turinés_a1 := a_rel_prd_le & [ STEM < "turinés" >, SYNSEM.LKEYS.KEYREL.PRED "_turinés_a_rel" ]. turinés_n1 := n_intr_count_le & [ STEM < "turinés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_turinés_n_rel" ] ]. turismo_n1 := n_intr_count_le & [ STEM < "turismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_turismo_n_rel" ] ]. turista_n1 := n_intr_count_le & [ STEM < "turista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_turista_n_rel" ] ]. turmalina_n1 := n_intr_count_le & [ STEM < "turmalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turmalina_n_rel" ] ]. turnedó_n1 := n_intr_count_le & [ STEM < "turnedó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turnedó_n_rel" ] ]. turno_n1 := n_intr_count_le & [ STEM < "turno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_turno_n_rel" ] ]. turquesa_a1 := a_qual_intr_ser_le & [ STEM < "turquesa" >, SYNSEM.LKEYS.KEYREL.PRED "_turquesa_a_rel" ]. turquesa_n1 := n_intr_mass_le & [ STEM < "turquesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_turquesa_n_rel" ] ]. turrón_n1 := n_intr_mass_le & [ STEM < "turrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_turrón_n_rel" ] ]. turísticamente_x1 := av_i_spr_le & [ STEM < "turísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_turísticamente_x_rel" ]. turístico_a1 := a_qual_intr_ser_le & [ STEM < "turístico" >, SYNSEM.LKEYS.KEYREL.PRED "_turístico_a_rel" ]. turón_n1 := n_intr_count_le & [ STEM < "turón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_turón_n_rel" ] ]. tusilago_n1 := n_intr_count_le & [ STEM < "tusilago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_tusilago_n_rel" ] ]. tutear_v := v_trans_np_le & [ STEM < "tutear" >, SYNSEM.LKEYS.KEYREL.PRED "_tutear_v_rel" ]. tutelador_a1 := a_rel_nonprd_intr_le & [ STEM < "tutelador" >, SYNSEM.LKEYS.KEYREL.PRED "_tutelador_a_rel" ]. tutelaje_n1 := n_intr_uncount_le & [ STEM < "tutelaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tutelaje_n_rel" ] ]. tutelaje_n2 := n_intr_count_le & [ STEM < "tutelaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tutelaje_n_rel" ] ]. tutelar_a1 := a_rel_nonprd_intr_le & [ STEM < "tutelar" >, SYNSEM.LKEYS.KEYREL.PRED "_tutelar_a_rel" ]. tutelar_v := v_trans_np_le & [ STEM < "tutelar" >, SYNSEM.LKEYS.KEYREL.PRED "_tutelar_v_rel" ]. tutor_n1 := n_intr_count_le & [ STEM < "tutor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tutor_n_rel" ] ]. tutoría_n1 := n_intr_mass_le & [ STEM < "tutoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_tutoría_n_rel" ] ]. tutsi_n1 := n_intr_count_le & [ STEM < "tutsi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tutsi_n_rel" ] ]. tutti_quanti_x1 := av_i_le & [ STEM < "tutti_quanti" >, SYNSEM.LKEYS.KEYREL.PRED "_tutti_quanti_x_rel" ]. tuyo_a := a_poss_le & [ STEM < "tuyo" >, SYNSEM.LKEYS.KEYREL.PRED "_tuyo_a_rel" ]. tuyona_n1 := n_intr_mass-or-count_le & [ STEM < "tuyona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_tuyona_n_rel" ] ]. tuétano_n1 := n_ppcomp_count_le & [ STEM < "tuétano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tuétano_n_rel" ] ]. txistera_n1 := n_intr_count_le & [ STEM < "txistera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_txistera_n_rel" ] ]. tábano_n1 := n_intr_count_le & [ STEM < "tábano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tábano_n_rel" ] ]. tácitamente_x1 := av_i_spr_le & [ STEM < "tácitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tácitamente_x_rel" ]. tácito_a1 := a_rel_nonprd_intr_le & [ STEM < "tácito" >, SYNSEM.LKEYS.KEYREL.PRED "_tácito_a_rel" ]. tácticamente_x1 := av_i_spr_le & [ STEM < "tácticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tácticamente_x_rel" ]. táctico_a1 := a_rel_nonprd_intr_le & [ STEM < "táctico" >, SYNSEM.LKEYS.KEYREL.PRED "_táctico_a_rel" ]. táctil_a1 := a_rel_nonprd_intr_le & [ STEM < "táctil" >, SYNSEM.LKEYS.KEYREL.PRED "_táctil_a_rel" ]. tálamo_n1 := n_ppcomp_count_le & [ STEM < "tálamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tálamo_n_rel" ] ]. tándem_n1 := n_intr_count_le & [ STEM < "tándem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tándem_n_rel" ] ]. tánico_a1 := a_rel_nonprd_intr_le & [ STEM < "tánico" >, SYNSEM.LKEYS.KEYREL.PRED "_tánico_a_rel" ]. tántalo_n1 := n_intr_count_le & [ STEM < "tántalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tántalo_n_rel" ] ]. tártaro_a1 := a_rel_nonprd_intr_le & [ STEM < "tártaro" >, SYNSEM.LKEYS.KEYREL.PRED "_tártaro_a_rel" ]. tártaro_n1 := n_intr_count_le & [ STEM < "tártaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tártaro_n_rel" ] ]. té_n1 := n_intr_mass_le & [ STEM < "té" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_té_n_rel" ] ]. técnicamente_x1 := av_s_le & [ STEM < "técnicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_técnicamente_x_rel" ]. técnico_a1 := a_qual_intr_ser_le & [ STEM < "técnico" >, SYNSEM.LKEYS.KEYREL.PRED "_técnico_a_rel" ]. técnico_n1 := n_intr_count_le & [ STEM < "técnico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_técnico_n_rel" ] ]. témpano_n1 := n_intr_count_le & [ STEM < "témpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_témpano_n_rel" ] ]. térmicamente_x1 := av_i_spr_le & [ STEM < "térmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_térmicamente_x_rel" ]. térmico_a1 := a_rel_nonprd_intr_le & [ STEM < "térmico" >, SYNSEM.LKEYS.KEYREL.PRED "_térmico_a_rel" ]. término_n1 := n_intr_count_le & [ STEM < "término" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_término_n_rel" ] ]. térreamente_x1 := av_i_spr_le & [ STEM < "térreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_térreamente_x_rel" ]. térreo_a1 := a_rel_nonprd_intr_le & [ STEM < "térreo" >, SYNSEM.LKEYS.KEYREL.PRED "_térreo_a_rel" ]. térrico_a1 := a_rel_nonprd_intr_le & [ STEM < "térrico" >, SYNSEM.LKEYS.KEYREL.PRED "_térrico_a_rel" ]. tésera_n1 := n_intr_count_le & [ STEM < "tésera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tésera_n_rel" ] ]. tétrada_n1 := n_intr_count_le & [ STEM < "tétrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tétrada_n_rel" ] ]. tétrico_a1 := a_qual_intr_ser_le & [ STEM < "tétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tétrico_a_rel" ]. tíglico_a1 := a_rel_nonprd_intr_le & [ STEM < "tíglico" >, SYNSEM.LKEYS.KEYREL.PRED "_tíglico_a_rel" ]. tímbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "tímbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_tímbrico_a_rel" ]. tímidamente_x1 := av_i_spr_le & [ STEM < "tímidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tímidamente_x_rel" ]. tímido_a1 := a_qual_intr_ser_le & [ STEM < "tímido" >, SYNSEM.LKEYS.KEYREL.PRED "_tímido_a_rel" ]. tímpano_n1 := n_ppcomp_count_le & [ STEM < "tímpano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_tímpano_n_rel" ] ]. tío_n1 := n_ppcomp_count_le & [ STEM < "tío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_tío_n_rel" ] ]. típicamente_x1 := av_i_spr_le & [ STEM < "típicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_típicamente_x_rel" ]. típula_n1 := n_intr_count_le & [ STEM < "típula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_típula_n_rel" ] ]. tíquet_n1 := n_intr_count_le & [ STEM < "tíquet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tíquet_n_rel" ] ]. títere_n1 := n_intr_count_le & [ STEM < "títere" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_títere_n_rel" ] ]. título_n1 := n_intr_count_le & [ STEM < "título" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_título_n_rel" ] ]. tómbolo_n1 := n_intr_count_le & [ STEM < "tómbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_tómbolo_n_rel" ] ]. tóner_n1 := n_intr_count_le & [ STEM < "tóner" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tóner_n_rel" ] ]. tónico_a1 := a_rel_nonprd_intr_le & [ STEM < "tónico" >, SYNSEM.LKEYS.KEYREL.PRED "_tónico_a_rel" ]. tónico_n1 := n_intr_mass_le & [ STEM < "tónico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tónico_n_rel" ] ]. tópicamente_x1 := av_i_spr_le & [ STEM < "tópicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_tópicamente_x_rel" ]. tópico_a1 := a_rel_nonprd_intr_le & [ STEM < "tópico" >, SYNSEM.LKEYS.KEYREL.PRED "_tópico_a_rel" ]. tópico_n1 := n_intr_count_le & [ STEM < "tópico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tópico_n_rel" ] ]. tórax_n1 := n_intr_count_le & [ STEM < "tórax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_tórax_n_rel" ] ]. tórico_a1 := a_rel_nonprd_intr_le & [ STEM < "tórico" >, SYNSEM.LKEYS.KEYREL.PRED "_tórico_a_rel" ]. tórrido_a1 := a_qual_intr_ser_le & [ STEM < "tórrido" >, SYNSEM.LKEYS.KEYREL.PRED "_tórrido_a_rel" ]. tórtola_n1 := n_intr_count_le & [ STEM < "tórtola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_tórtola_n_rel" ] ]. tótem_n1 := n_intr_count_le & [ STEM < "tótem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_tótem_n_rel" ] ]. tóxico_a1 := a_qual_intr_ser_le & [ STEM < "tóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_tóxico_a_rel" ]. tóxico_n1 := n_intr_count_le & [ STEM < "tóxico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_tóxico_n_rel" ] ]. tú_p := pr_pers_nom_le & [ STEM < "tú" > ]. túbulo_n1 := n_intr_count_le & [ STEM < "túbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_túbulo_n_rel" ] ]. túmulo_n1 := n_intr_count_le & [ STEM < "túmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_túmulo_n_rel" ] ]. túnel_n1 := n_intr_count_le & [ STEM < "túnel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_túnel_n_rel" ] ]. túngsticamente_x1 := av_i_spr_le & [ STEM < "túngsticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_túngsticamente_x_rel" ]. túnica_n1 := n_intr_count_le & [ STEM < "túnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_túnica_n_rel" ] ]. túrbidamente_x1 := av_i_spr_le & [ STEM < "túrbidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_túrbidamente_x_rel" ]. túrbido_a1 := a_qual_intr_ser_le & [ STEM < "túrbido" >, SYNSEM.LKEYS.KEYREL.PRED "_túrbido_a_rel" ]. túrgido_a1 := a_qual_intr_ser_le & [ STEM < "túrgido" >, SYNSEM.LKEYS.KEYREL.PRED "_túrgido_a_rel" ]. u_cc1 := cc_disj_u_le & [ STEM < "u" > ]. u_cc3 := cc_exclsv-disj_u_le & [ STEM < "u" > ]. uabaína_n1 := n_intr_count_le & [ STEM < "uabaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uabaína_n_rel" ] ]. uapití_n1 := n_intr_count_le & [ STEM < "uapití" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_uapití_n_rel" ] ]. ubicación_n1 := n_trans_le & [ STEM < "ubicación" >, SYNSEM.LKEYS.KEYREL.PRED "_ubicación_n_rel" ]. ubicar_v := v_trans_np_lcomp_loc*_le & [ STEM < "ubicar" >, SYNSEM.LKEYS.KEYREL.PRED "_ubicar_v_rel" ]. ubicuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ubicuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ubicuidad_n_rel" ] ]. ubicuo_a1 := a_qual_intr_ser_le & [ STEM < "ubicuo" >, SYNSEM.LKEYS.KEYREL.PRED "_ubicuo_a_rel" ]. ubre_n1 := n_intr_count_le & [ STEM < "ubre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ubre_n_rel" ] ]. ucraniano_a1 := a_rel_prd_le & [ STEM < "ucraniano" >, SYNSEM.LKEYS.KEYREL.PRED "_ucraniano_a_rel" ]. ucraniano_n1 := n_intr_count_le & [ STEM < "ucraniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ucraniano_n_rel" ] ]. ucranio_a1 := a_rel_prd_le & [ STEM < "ucranio" >, SYNSEM.LKEYS.KEYREL.PRED "_ucranio_a_rel" ]. ucranio_n1 := n_intr_count_le & [ STEM < "ucranio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ucranio_n_rel" ] ]. ufanar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "ufanar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ufanar_v_rel" ] ] ]. ufanar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ufanar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_ufanar_v_rel" ] ]. ufano_a1 := a_qual_intr_ser_le & [ STEM < "ufano" >, SYNSEM.LKEYS.KEYREL.PRED "_ufano_a_rel" ]. ufología_n1 := n_intr_uncount_le & [ STEM < "ufología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ufología_n_rel" ] ]. ugandés_a1 := a_rel_prd_le & [ STEM < "ugandés" >, SYNSEM.LKEYS.KEYREL.PRED "_ugandés_a_rel" ]. ugandés_n1 := n_intr_count_le & [ STEM < "ugandés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ugandés_n_rel" ] ]. ujier_n1 := n_intr_count_le & [ STEM < "ujier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ujier_n_rel" ] ]. ukelele_n1 := n_intr_count_le & [ STEM < "ukelele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ukelele_n_rel" ] ]. ulceración_n1 := n_trans_le & [ STEM < "ulceración" >, SYNSEM.LKEYS.KEYREL.PRED "_ulceración_n_rel" ]. ulcerar_v := v_trans_np_caus_le & [ STEM < "ulcerar" >, SYNSEM.LKEYS.KEYREL.PRED "_ulcerar_v_rel" ]. ulcerativo_a1 := a_rel_prd_le & [ STEM < "ulcerativo" >, SYNSEM.LKEYS.KEYREL.PRED "_ulcerativo_a_rel" ]. ulceronecrótico_a1 := a_rel_nonprd_intr_le & [ STEM < "ulceronecrótico" >, SYNSEM.LKEYS.KEYREL.PRED "_ulceronecrótico_a_rel" ]. ulceroso_a1 := a_rel_nonprd_intr_le & [ STEM < "ulceroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ulceroso_a_rel" ]. ulcerógeno_a1 := a_rel_prd_le & [ STEM < "ulcerógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_ulcerógeno_a_rel" ]. ulexita_n1 := n_intr_count_le & [ STEM < "ulexita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ulexita_n_rel" ] ]. ulterior_a1 := a_compar_alt_le & [ STEM < "ulterior" >, SYNSEM.LKEYS.KEYREL.PRED "_ulterior_x_rel" ]. ulteriormente_x1 := av_i_spr_le & [ STEM < "ulteriormente" >, SYNSEM.LKEYS.KEYREL.PRED "_ulteriormente_x_rel" ]. ultimación_n1 := n_trans_le & [ STEM < "ultimación" >, SYNSEM.LKEYS.KEYREL.PRED "_ultimación_n_rel" ]. ultimar_v := v_trans_np_le & [ STEM < "ultimar" >, SYNSEM.LKEYS.KEYREL.PRED "_ultimar_v_rel" ]. ultimato_n1 := n_intr_count_le & [ STEM < "ultimato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ultimato_n_rel" ] ]. ultraacústicamente_x1 := av_i_spr_le & [ STEM < "ultraacústicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraacústicamente_x_rel" ]. ultraacústico_a1 := a_rel_nonprd_intr_le & [ STEM < "ultraacústico" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraacústico_a_rel" ]. ultraaltamente_x1 := av_i_spr_le & [ STEM < "ultraaltamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraaltamente_x_rel" ]. ultraalto_a1 := a_qual_intr_scopal_le & [ STEM < "ultraalto" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraalto_a_rel" ]. ultracentrífuga_n1 := n_intr_count_le & [ STEM < "ultracentrífuga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ultracentrífuga_n_rel" ] ]. ultracortamente_x1 := av_i_spr_le & [ STEM < "ultracortamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultracortamente_x_rel" ]. ultracorto_a1 := a_qual_intr_scopal_le & [ STEM < "ultracorto" >, SYNSEM.LKEYS.KEYREL.PRED "_ultracorto_a_rel" ]. ultradirectivo_a1 := a_rel_nonprd_intr_le & [ STEM < "ultradirectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_ultradirectivo_a_rel" ]. ultrafiltración_n1 := n_trans_le & [ STEM < "ultrafiltración" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrafiltración_n_rel" ]. ultrafino_a1 := a_rel_nonprd_intr_le & [ STEM < "ultrafino" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrafino_a_rel" ]. ultrajante_a1 := a_qual_intr_ser_le & [ STEM < "ultrajante" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrajante_a_rel" ]. ultraje_n1 := n_trans_le & [ STEM < "ultraje" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraje_n_rel" ]. ultrajoso_a1 := a_qual_intr_ser_le & [ STEM < "ultrajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrajoso_a_rel" ]. ultraligero_n1 := n_intr_count_le & [ STEM < "ultraligero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ultraligero_n_rel" ] ]. ultralineal_a1 := a_rel_nonprd_intr_le & [ STEM < "ultralineal" >, SYNSEM.LKEYS.KEYREL.PRED "_ultralineal_a_rel" ]. ultralinealmente_x1 := av_i_spr_le & [ STEM < "ultralinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultralinealmente_x_rel" ]. ultramar_n1 := n_intr_mass_le & [ STEM < "ultramar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ultramar_n_rel" ] ]. ultramarino_a1 := a_rel_nonprd_intr_le & [ STEM < "ultramarino" >, SYNSEM.LKEYS.KEYREL.PRED "_ultramarino_a_rel" ]. ultramente_x1 := av_i_spr_le & [ STEM < "ultramente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultramente_x_rel" ]. ultramontano_a1 := a_rel_nonprd_intr_le & [ STEM < "ultramontano" >, SYNSEM.LKEYS.KEYREL.PRED "_ultramontano_a_rel" ]. ultramétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "ultramétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_ultramétrico_a_rel" ]. ultrapuro_a1 := a_rel_nonprd_intr_le & [ STEM < "ultrapuro" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrapuro_a_rel" ]. ultrarrápidamente_x1 := av_i_spr_le & [ STEM < "ultrarrápidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrarrápidamente_x_rel" ]. ultrarrápido_a1 := a_rel_prd_le & [ STEM < "ultrarrápido" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrarrápido_a_rel" ]. ultras_n1 := n_intr_count_le & [ STEM < "ultras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ultras_n_rel" ] ]. ultrasonido_n1 := n_intr_uncount_le & [ STEM < "ultrasonido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ultrasonido_n_rel" ] ]. ultrasónico_a1 := a_rel_nonprd_intr_le & [ STEM < "ultrasónico" >, SYNSEM.LKEYS.KEYREL.PRED "_ultrasónico_a_rel" ]. ultraterrestre_a1 := a_rel_nonprd_intr_le & [ STEM < "ultraterrestre" >, SYNSEM.LKEYS.KEYREL.PRED "_ultraterrestre_a_rel" ]. ultravacío_n1 := n_intr_uncount_pl_le & [ STEM < "ultravacío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ultravacío_n_rel" ] ]. ultravioleta_a1 := a_rel_nonprd_intr_le & [ STEM < "ultravioleta" >, SYNSEM.LKEYS.KEYREL.PRED "_ultravioleta_a_rel" ]. ululato_n1 := n_intr_count_le & [ STEM < "ululato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ululato_n_rel" ] ]. umbela_n1 := n_intr_count_le & [ STEM < "umbela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_umbela_n_rel" ] ]. umbelífero_a1 := a_rel_nonprd_intr_le & [ STEM < "umbelífero" >, SYNSEM.LKEYS.KEYREL.PRED "_umbelífero_a_rel" ]. umbilical_a1 := a_rel_nonprd_intr_le & [ STEM < "umbilical" >, SYNSEM.LKEYS.KEYREL.PRED "_umbilical_a_rel" ]. umbral_n1 := n_intr_count_le & [ STEM < "umbral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_umbral_n_rel" ] ]. umbría_n1 := n_intr_count_le & [ STEM < "umbría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_umbría_n_rel" ] ]. umbrío_a1 := a_qual_intr_ser_le & [ STEM < "umbrío" >, SYNSEM.LKEYS.KEYREL.PRED "_umbrío_a_rel" ]. un_d := d_art-indf_le & [ STEM < "un" > ]. una_d := d_art-indf_le & [ STEM < "una" > ]. una_p := pr_part_uno_le & [ STEM < "una" > ]. un_día_u_otro_x1 := av_i_le & [ STEM < "un_día_u_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_un_día_u_otro_x_rel" ]. un_día_y_otro_x1 := av_i_le & [ STEM < "un_día_y_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_un_día_y_otro_x_rel" ]. un_poco_tarde_x1 := av_i_le & [ STEM < "un_poco_tarde" >, SYNSEM.LKEYS.KEYREL.PRED "_un_poco_tarde_x_rel" ]. un_poco_x1 := av_qnt-deg_le & [ STEM < "un_poco" >, SYNSEM.LKEYS.KEYREL.PRED "_un_poco_x_deg_rel" ]. un_tanto_x1 := av_qnt-deg_le & [ STEM < "un_tanto" >, SYNSEM.LKEYS.KEYREL.PRED "_un_tanto_x_deg_rel" ]. una_vez_que_sc := sc_prop_fin_le & [ STEM < "una_vez_que" >, SYNSEM.LKEYS.KEYREL.PRED "_una_vez_que_x_subord_rel" ]. una_y_no_más_x1 := av_i_le & [ STEM < "una_y_no_más" >, SYNSEM.LKEYS.KEYREL.PRED "_una_y_no_más_x_rel" ]. unakita_n1 := n_intr_count_le & [ STEM < "unakita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_unakita_n_rel" ] ]. unanimidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "unanimidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unanimidad_n_rel" ] ]. unario_a1 := a_rel_prd_le & [ STEM < "unario" >, SYNSEM.LKEYS.KEYREL.PRED "_unario_a_rel" ]. uncial_a1 := a_rel_nonprd_intr_le & [ STEM < "uncial" >, SYNSEM.LKEYS.KEYREL.PRED "_uncial_a_rel" ]. unciforme_a1 := a_rel_nonprd_intr_le & [ STEM < "unciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_unciforme_a_rel" ]. unción_n1 := n_trans_le & [ STEM < "unción" >, SYNSEM.LKEYS.KEYREL.PRED "_unción_n_rel" ]. undecanoato_n1 := n_intr_count_le & [ STEM < "undecanoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_undecanoato_n_rel" ] ]. undecanoico_a1 := a_rel_nonprd_intr_le & [ STEM < "undecanoico" >, SYNSEM.LKEYS.KEYREL.PRED "_undecanoico_a_rel" ]. undecanol_n1 := n_intr_count_le & [ STEM < "undecanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_undecanol_n_rel" ] ]. undecilenato_n1 := n_intr_count_le & [ STEM < "undecilenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_undecilenato_n_rel" ] ]. undecilénico_a1 := a_rel_nonprd_intr_le & [ STEM < "undecilénico" >, SYNSEM.LKEYS.KEYREL.PRED "_undecilénico_a_rel" ]. unduladamente_x1 := av_i_spr_le & [ STEM < "unduladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_unduladamente_x_rel" ]. undulante_a1 := a_qual_intr_scopal_le & [ STEM < "undulante" >, SYNSEM.LKEYS.KEYREL.PRED "_undulante_a_rel" ]. undulantemente_x1 := av_i_spr_le & [ STEM < "undulantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_undulantemente_x_rel" ]. unguis_n1 := n_ppcomp_count_le & [ STEM < "unguis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_unguis_n_rel" ] ]. ungulado_n1 := n_intr_count_le & [ STEM < "ungulado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ungulado_n_rel" ] ]. ungüento_n1 := n_intr_count_le & [ STEM < "ungüento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ungüento_n_rel" ] ]. uniaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "uniaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_uniaxial_a_rel" ]. uniaxialmente_x1 := av_i_spr_le & [ STEM < "uniaxialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_uniaxialmente_x_rel" ]. unicelular_a1 := a_rel_nonprd_intr_le & [ STEM < "unicelular" >, SYNSEM.LKEYS.KEYREL.PRED "_unicelular_a_rel" ]. unicidad_n1 := n_ppcomp_uncount_le & [ STEM < "unicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unicidad_n_rel" ] ]. unicidad_n2 := n_ppcomp_count_le & [ STEM < "unicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unicidad_n_rel" ] ]. unicismo_n1 := n_intr_uncount_le & [ STEM < "unicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unicismo_n_rel" ] ]. unicolor_a1 := a_rel_nonprd_intr_le & [ STEM < "unicolor" >, SYNSEM.LKEYS.KEYREL.PRED "_unicolor_a_rel" ]. unicornio_n1 := n_intr_count_le & [ STEM < "unicornio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_unicornio_n_rel" ] ]. unicursal_a1 := a_rel_nonprd_intr_le & [ STEM < "unicursal" >, SYNSEM.LKEYS.KEYREL.PRED "_unicursal_a_rel" ]. unidad_n1 := n_intr_count_le & [ STEM < "unidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_unidad_n_rel" ] ]. unidimensional_a1 := a_rel_nonprd_intr_le & [ STEM < "unidimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_unidimensional_a_rel" ]. unidimensionalmente_x1 := av_i_spr_le & [ STEM < "unidimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unidimensionalmente_x_rel" ]. unidireccional_a1 := a_rel_nonprd_intr_le & [ STEM < "unidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_unidireccional_a_rel" ]. uniestatal_a1 := a_rel_nonprd_intr_le & [ STEM < "uniestatal" >, SYNSEM.LKEYS.KEYREL.PRED "_uniestatal_a_rel" ]. unifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "unifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_unifacial_a_rel" ]. unifamiliar_a1 := a_rel_nonprd_intr_le & [ STEM < "unifamiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_unifamiliar_a_rel" ]. unificación_n1 := n_trans_le & [ STEM < "unificación" >, SYNSEM.LKEYS.KEYREL.PRED "_unificación_n_rel" ]. unificador_a1 := a_rel_nonprd_intr_le & [ STEM < "unificador" >, SYNSEM.LKEYS.KEYREL.PRED "_unificador_a_rel" ]. unificar_v := v_trans_np_caus_le & [ STEM < "unificar" >, SYNSEM.LKEYS.KEYREL.PRED "_unificar_v_rel" ]. unifilar_a1 := a_rel_nonprd_intr_le & [ STEM < "unifilar" >, SYNSEM.LKEYS.KEYREL.PRED "_unifilar_a_rel" ]. unifilarmente_x1 := av_i_spr_le & [ STEM < "unifilarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unifilarmente_x_rel" ]. uniformar_v := v_trans_np_le & [ STEM < "uniformar" >, SYNSEM.LKEYS.KEYREL.PRED "_uniformar_v_rel" ]. uniforme_a1 := a_qual_intr_scopal_le & [ STEM < "uniforme" >, SYNSEM.LKEYS.KEYREL.PRED "_uniforme_a_rel" ]. uniforme_n1 := n_intr_count_le & [ STEM < "uniforme" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uniforme_n_rel" ] ]. uniformemente_x1 := av_i_spr_le & [ STEM < "uniformemente" >, SYNSEM.LKEYS.KEYREL.PRED "_uniformemente_x_rel" ]. uniformidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "uniformidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uniformidad_n_rel" ] ]. uniformitarismo_n1 := n_intr_uncount_le & [ STEM < "uniformitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uniformitarismo_n_rel" ] ]. uniformizable_a1 := a_rel_nonprd_intr_le & [ STEM < "uniformizable" >, SYNSEM.LKEYS.KEYREL.PRED "_uniformizable_a_rel" ]. uniformización_n1 := n_trans_le & [ STEM < "uniformización" >, SYNSEM.LKEYS.KEYREL.PRED "_uniformización_n_rel" ]. uniformizador_a1 := a_rel_nonprd_intr_le & [ STEM < "uniformizador" >, SYNSEM.LKEYS.KEYREL.PRED "_uniformizador_a_rel" ]. unigénito_a1 := a_rel_nonprd_intr_le & [ STEM < "unigénito" >, SYNSEM.LKEYS.KEYREL.PRED "_unigénito_a_rel" ]. unilateral_a1 := a_rel_prd_le & [ STEM < "unilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_unilateral_a_rel" ]. unilateralismo_n1 := n_intr_uncount_le & [ STEM < "unilateralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unilateralismo_n_rel" ] ]. unilateralmente_x1 := av_i_spr_le & [ STEM < "unilateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unilateralmente_x_rel" ]. unilineal_a1 := a_rel_prd_le & [ STEM < "unilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_unilineal_a_rel" ]. unilinealidad_n1 := n_intr_uncount_le & [ STEM < "unilinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unilinealidad_n_rel" ] ]. unilinealmente_x1 := av_i_spr_le & [ STEM < "unilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unilinealmente_x_rel" ]. unimodal_a1 := a_rel_prd_le & [ STEM < "unimodal" >, SYNSEM.LKEYS.KEYREL.PRED "_unimodal_a_rel" ]. unimodular_a1 := a_rel_nonprd_intr_le & [ STEM < "unimodular" >, SYNSEM.LKEYS.KEYREL.PRED "_unimodular_a_rel" ]. unimolecular_a := a_rel_nonprd_intr_le & [ STEM < "unimolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_unimolecular_a_rel" ]. unimolecularmente_x1 := av_i_spr_le & [ STEM < "unimolecularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unimolecularmente_x_rel" ]. uniocular_a1 := a_rel_nonprd_intr_le & [ STEM < "uniocular" >, SYNSEM.LKEYS.KEYREL.PRED "_uniocular_a_rel" ]. unionista_a1 := a_rel_nonprd_intr_le & [ STEM < "unionista" >, SYNSEM.LKEYS.KEYREL.PRED "_unionista_a_rel" ]. unipersonal_a1 := a_rel_prd_le & [ STEM < "unipersonal" >, SYNSEM.LKEYS.KEYREL.PRED "_unipersonal_a_rel" ]. unipersonalidad_n1 := n_intr_uncount_le & [ STEM < "unipersonalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unipersonalidad_n_rel" ] ]. uniplanar_a1 := a_rel_nonprd_intr_le & [ STEM < "uniplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_uniplanar_a_rel" ]. unipolar_a1 := a_rel_nonprd_intr_le & [ STEM < "unipolar" >, SYNSEM.LKEYS.KEYREL.PRED "_unipolar_a_rel" ]. unipolarmente_x1 := av_i_spr_le & [ STEM < "unipolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_unipolarmente_x_rel" ]. unipotente_a1 := a_rel_nonprd_intr_le & [ STEM < "unipotente" >, SYNSEM.LKEYS.KEYREL.PRED "_unipotente_a_rel" ]. uniprocesador_n1 := n_intr_count_le & [ STEM < "uniprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uniprocesador_n_rel" ] ]. unir_v1 := v_intr_io_le & [ STEM < "unir" >, SYNSEM.LKEYS.KEYREL.PRED "_unir_v_rel" ]. unir_v2 := v_subj_cp_prop_trans_np_mrkd_np*_le & [ STEM < "unir" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_unir_v_rel" ] ]. unir_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "unir" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_unir_v_rel" ] ]. unirradicular_a1 := a_rel_nonprd_intr_le & [ STEM < "unirradicular" >, SYNSEM.LKEYS.KEYREL.PRED "_unirradicular_a_rel" ]. uniselector_n1 := n_intr_count_le & [ STEM < "uniselector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uniselector_n_rel" ] ]. unisex_a1 := a_rel_prd_le & [ STEM < "unisex" >, SYNSEM.LKEYS.KEYREL.PRED "_unisex_a_rel" ]. unisexual_a1 := a_rel_nonprd_intr_le & [ STEM < "unisexual" >, SYNSEM.LKEYS.KEYREL.PRED "_unisexual_a_rel" ]. unitario_a1 := a_rel_nonprd_intr_le & [ STEM < "unitario" >, SYNSEM.LKEYS.KEYREL.PRED "_unitario_a_rel" ]. unitarismo_n1 := n_intr_uncount_le & [ STEM < "unitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_unitarismo_n_rel" ] ]. univalente_a1 := a_rel_nonprd_intr_le & [ STEM < "univalente" >, SYNSEM.LKEYS.KEYREL.PRED "_univalente_a_rel" ]. univalentemente_x1 := av_i_spr_le & [ STEM < "univalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_univalentemente_x_rel" ]. univariable_a1 := a_rel_nonprd_intr_le & [ STEM < "univariable" >, SYNSEM.LKEYS.KEYREL.PRED "_univariable_a_rel" ]. univariante_a1 := a_rel_nonprd_intr_le & [ STEM < "univariante" >, SYNSEM.LKEYS.KEYREL.PRED "_univariante_a_rel" ]. univariantemente_x1 := av_i_spr_le & [ STEM < "univariantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_univariantemente_x_rel" ]. universal_a1 := a_rel_prd_le & [ STEM < "universal" >, SYNSEM.LKEYS.KEYREL.PRED "_universal_a_rel" ]. universalidad_n1 := n_ppcomp_uncount_le & [ STEM < "universalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_universalidad_n_rel" ] ]. universalidad_n2 := n_ppcomp_count_le & [ STEM < "universalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_universalidad_n_rel" ] ]. universalismo_n1 := n_intr_uncount_le & [ STEM < "universalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_universalismo_n_rel" ] ]. universalista_n1 := n_intr_count_le & [ STEM < "universalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_universalista_n_rel" ] ]. universalización_n1 := n_trans_le & [ STEM < "universalización" >, SYNSEM.LKEYS.KEYREL.PRED "_universalización_n_rel" ]. universalizar_v := v_trans_np_le & [ STEM < "universalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_universalizar_v_rel" ]. universalmente_x1 := av_i_spr_le & [ STEM < "universalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_universalmente_x_rel" ]. universidad_n1 := n_intr_count_le & [ STEM < "universidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_universidad_n_rel" ] ]. universitario_a1 := a_rel_nonprd_intr_le & [ STEM < "universitario" >, SYNSEM.LKEYS.KEYREL.PRED "_universitario_a_rel" ]. universitario_n1 := n_intr_count_le & [ STEM < "universitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_universitario_n_rel" ] ]. universo_n1 := n_intr_mass_le & [ STEM < "universo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_universo_n_rel" ] ]. univibrador_n1 := n_intr_count_le & [ STEM < "univibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_univibrador_n_rel" ] ]. univocidad_n1 := n_ppcomp_uncount_le & [ STEM < "univocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_univocidad_n_rel" ] ]. univocidad_n2 := n_ppcomp_count_le & [ STEM < "univocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_univocidad_n_rel" ] ]. uniáxicamente_x1 := av_i_spr_le & [ STEM < "uniáxicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_uniáxicamente_x_rel" ]. uniáxico_a1 := a_rel_nonprd_intr_le & [ STEM < "uniáxico" >, SYNSEM.LKEYS.KEYREL.PRED "_uniáxico_a_rel" ]. unión_n1 := n_trans_le & [ STEM < "unión" >, SYNSEM.LKEYS.KEYREL.PRED "_unión_n_rel" ]. unos_d := d_art-indf_le & [ STEM < "uno" > ]. unos_p := pr_part_uno_le & [ STEM < "uno" > ]. uno_por_uno_x1 := av_i_le & [ STEM < "uno_por_uno" >, SYNSEM.LKEYS.KEYREL.PRED "_uno_por_uno_x_rel" ]. untar_v := v_trans_np_le & [ STEM < "untar" >, SYNSEM.LKEYS.KEYREL.PRED "_untar_v_rel" ]. untuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "untuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_untuosidad_n_rel" ] ]. untuoso_a1 := a_qual_intr_ser_le & [ STEM < "untuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_untuoso_a_rel" ]. untura_n1 := n_trans_le & [ STEM < "untura" >, SYNSEM.LKEYS.KEYREL.PRED "_untura_n_rel" ]. unánime_a1 := a_rel_prd_le & [ STEM < "unánime" >, SYNSEM.LKEYS.KEYREL.PRED "_unánime_a_rel" ]. unánimemente_x1 := av_i_spr_le & [ STEM < "unánimemente" >, SYNSEM.LKEYS.KEYREL.PRED "_unánimemente_x_rel" ]. unísono_a1 := a_rel_nonprd_intr_le & [ STEM < "unísono" >, SYNSEM.LKEYS.KEYREL.PRED "_unísono_a_rel" ]. unívocamente_x1 := av_i_spr_le & [ STEM < "unívocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_unívocamente_x_rel" ]. unívoco_a1 := a_rel_prd_le & [ STEM < "unívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_unívoco_a_rel" ]. uracilo_n1 := n_intr_count_le & [ STEM < "uracilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uracilo_n_rel" ] ]. uranato_n1 := n_intr_count_le & [ STEM < "uranato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uranato_n_rel" ] ]. uranina_n1 := n_intr_count_le & [ STEM < "uranina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uranina_n_rel" ] ]. uranio_n1 := n_intr_mass_le & [ STEM < "uranio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uranio_n_rel" ] ]. uranocircita_n1 := n_intr_count_le & [ STEM < "uranocircita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uranocircita_n_rel" ] ]. urbanidad_n1 := n_intr_mass-or-count_le & [ STEM < "urbanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urbanidad_n_rel" ] ]. urbanismo_n1 := n_intr_uncount_le & [ STEM < "urbanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urbanismo_n_rel" ] ]. urbanista_a1 := a_rel_nonprd_intr_le & [ STEM < "urbanista" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanista_a_rel" ]. urbanista_n1 := n_intr_count_le & [ STEM < "urbanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_urbanista_n_rel" ] ]. urbanistamente_x1 := av_i_spr_le & [ STEM < "urbanistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanistamente_x_rel" ]. urbanizable_a1 := a_rel_prd_le & [ STEM < "urbanizable" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanizable_a_rel" ]. urbanización_n1 := n_trans_le & [ STEM < "urbanización" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanización_n_rel" ]. urbanización_n2 := n_intr_count_le & [ STEM < "urbanización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_urbanización_n_rel" ] ]. urbanizador_a1 := a_rel_nonprd_intr_le & [ STEM < "urbanizador" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanizador_a_rel" ]. urbano_a1 := a_rel_nonprd_intr_le & [ STEM < "urbano" >, SYNSEM.LKEYS.KEYREL.PRED "_urbano_a_rel" ]. urbanísticamente_x1 := av_i_spr_le & [ STEM < "urbanísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanísticamente_x_rel" ]. urbanístico_a1 := a_rel_nonprd_intr_le & [ STEM < "urbanístico" >, SYNSEM.LKEYS.KEYREL.PRED "_urbanístico_a_rel" ]. urbi_et_orbi_x1 := av_i_le & [ STEM < "urbi_et_orbi" >, SYNSEM.LKEYS.KEYREL.PRED "_urbi_et_orbi_x_rel" ]. urdimbre_n1 := n_intr_count_le & [ STEM < "urdimbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_urdimbre_n_rel" ] ]. urdir_v := v_trans_np_le & [ STEM < "urdir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT pro, PRED "_urdir_v_rel" ] ]. urea_n1 := n_ppcomp_count_le & [ STEM < "urea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_urea_n_rel" ] ]. ureasa_n1 := n_intr_count_le & [ STEM < "ureasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ureasa_n_rel" ] ]. uretano_n1 := n_intr_count_le & [ STEM < "uretano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uretano_n_rel" ] ]. uretra_n1 := n_ppcomp_count_le & [ STEM < "uretra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_uretra_n_rel" ] ]. uretral_a1 := a_rel_nonprd_intr_le & [ STEM < "uretral" >, SYNSEM.LKEYS.KEYREL.PRED "_uretral_a_rel" ]. uretroscopio_n1 := n_intr_count_le & [ STEM < "uretroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uretroscopio_n_rel" ] ]. uretérico_a1 := a_rel_nonprd_intr_le & [ STEM < "uretérico" >, SYNSEM.LKEYS.KEYREL.PRED "_uretérico_a_rel" ]. urgencia_n1 := n_ppcomp_mass_le & [ STEM < "urgencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urgencia_n_rel" ] ]. urgente_a1 := a_qual_intr_ser_le & [ STEM < "urgente" >, SYNSEM.LKEYS.KEYREL.PRED "_urgente_a_rel" ]. urgentemente_x1 := av_i_spr_le & [ STEM < "urgentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_urgentemente_x_rel" ]. urgir_v1 := v_intr_io*_le & [ STEM < "urgir" >, SYNSEM.LKEYS.KEYREL.PRED "_urgir_v_rel" ]. urgir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "urgir" >, SYNSEM.LKEYS.KEYREL.PRED "_urgir_v_rel" ]. urgir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "urgir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_urgir_v_rel" ] ] ]. urgir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "urgir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_urgir_v_rel" ] ] ]. urgir_v5 := v_trans_np*_mrkd_np_le & [ STEM < "urgir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_urgir_v_rel" ] ] ]. uridina_n1 := n_intr_count_le & [ STEM < "uridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uridina_n_rel" ] ]. urinario_a1 := a_rel_nonprd_intr_le & [ STEM < "urinario" >, SYNSEM.LKEYS.KEYREL.PRED "_urinario_a_rel" ]. urinario_n1 := n_intr_count_le & [ STEM < "urinario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_urinario_n_rel" ] ]. urna_n1 := n_intr_count_le & [ STEM < "urna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_urna_n_rel" ] ]. uro_n1 := n_intr_count_le & [ STEM < "uro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_uro_n_rel" ] ]. urobilinógeno_n1 := n_intr_count_le & [ STEM < "urobilinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_urobilinógeno_n_rel" ] ]. urodelo_n1 := n_intr_count_le & [ STEM < "urodelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_urodelo_n_rel" ] ]. urogallo_n1 := n_intr_count_le & [ STEM < "urogallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_urogallo_n_rel" ] ]. urogenital_a1 := a_rel_nonprd_intr_le & [ STEM < "urogenital" >, SYNSEM.LKEYS.KEYREL.PRED "_urogenital_a_rel" ]. urología_n1 := n_intr_uncount_le & [ STEM < "urología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urología_n_rel" ] ]. urológico_a1 := a_rel_nonprd_intr_le & [ STEM < "urológico" >, SYNSEM.LKEYS.KEYREL.PRED "_urológico_a_rel" ]. urotrico_n1 := n_intr_count_le & [ STEM < "urotrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_urotrico_n_rel" ] ]. urraca_n1 := n_intr_count_le & [ STEM < "urraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_urraca_n_rel" ] ]. uruguayo_a1 := a_rel_prd_le & [ STEM < "uruguayo" >, SYNSEM.LKEYS.KEYREL.PRED "_uruguayo_a_rel" ]. uruguayo_n1 := n_intr_count_le & [ STEM < "uruguayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_uruguayo_n_rel" ] ]. urémico_a1 := a_rel_nonprd_intr_le & [ STEM < "urémico" >, SYNSEM.LKEYS.KEYREL.PRED "_urémico_a_rel" ]. uréter_n1 := n_ppcomp_count_le & [ STEM < "uréter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_uréter_n_rel" ] ]. urólogo_n1 := n_intr_count_le & [ STEM < "urólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_urólogo_n_rel" ] ]. usabilidad_n1 := n_intr_uncount_le & [ STEM < "usabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_usabilidad_n_rel" ] ]. usanza_n1 := n_intr_uncount_le & [ STEM < "usanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_usanza_n_rel" ] ]. usar_v1 := v_intr_mrkd_np_le & [ STEM < "usar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_usar_v_rel" ] ]. usar_v2 := v_trans_np_le & [ STEM < "usar" >, SYNSEM.LKEYS.KEYREL.PRED "_usar_v_rel" ]. uso_n1 := n_trans_le & [ STEM < "uso" >, SYNSEM.LKEYS.KEYREL.PRED "_uso_n_rel" ]. ussingita_n1 := n_intr_count_le & [ STEM < "ussingita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ussingita_n_rel" ] ]. usted_p := pr_pers_nom-or-obl_le & [ STEM < "usted" > ]. usual_a1 := a_qual_intr_ser_le & [ STEM < "usual" >, SYNSEM.LKEYS.KEYREL.PRED "_usual_a_rel" ]. usualmente_x1 := av_i_spr_le & [ STEM < "usualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_usualmente_x_rel" ]. usuario_n1 := n_intr_count_le & [ STEM < "usuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_usuario_n_rel" ] ]. usucapir_v := v_trans_np_le & [ STEM < "usucapir" >, SYNSEM.LKEYS.KEYREL.PRED "_usucapir_v_rel" ]. usucapión_n1 := n_intr_uncount_le & [ STEM < "usucapión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_usucapión_n_rel" ] ]. usufructuar_v := v_trans_np_le & [ STEM < "usufructuar" >, SYNSEM.LKEYS.KEYREL.PRED "_usufructuar_v_rel" ]. usufructuario_n1 := n_intr_count_le & [ STEM < "usufructuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_usufructuario_n_rel" ] ]. usura_n1 := n_intr_uncount_le & [ STEM < "usura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_usura_n_rel" ] ]. usurero_a1 := a_rel_nonprd_intr_le & [ STEM < "usurero" >, SYNSEM.LKEYS.KEYREL.PRED "_usurero_a_rel" ]. usurero_n1 := n_intr_count_le & [ STEM < "usurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_usurero_n_rel" ] ]. usurpación_n1 := n_trans_le & [ STEM < "usurpación" >, SYNSEM.LKEYS.KEYREL.PRED "_usurpación_n_rel" ]. usurpador_n1 := n_subj-nom_le & [ STEM < "usurpador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_usurpador_n_rel" ] ]. usurpar_v := v_ditrans*_le & [ STEM < "usurpar" >, SYNSEM.LKEYS.KEYREL.PRED "_usurpar_v_rel" ]. utensilio_n1 := n_intr_count_le & [ STEM < "utensilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_utensilio_n_rel" ] ]. uterino_a1 := a_rel_nonprd_intr_le & [ STEM < "uterino" >, SYNSEM.LKEYS.KEYREL.PRED "_uterino_a_rel" ]. uteroovárico_a1 := a_rel_nonprd_intr_le & [ STEM < "uteroovárico" >, SYNSEM.LKEYS.KEYREL.PRED "_uteroovárico_a_rel" ]. uterosacro_a1 := a_rel_nonprd_intr_le & [ STEM < "uterosacro" >, SYNSEM.LKEYS.KEYREL.PRED "_uterosacro_a_rel" ]. uterovaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "uterovaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_uterovaginal_a_rel" ]. utilancia_n1 := n_intr_uncount_le & [ STEM < "utilancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_utilancia_n_rel" ] ]. utilero_n1 := n_intr_count_le & [ STEM < "utilero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_utilero_n_rel" ] ]. utilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "utilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_utilidad_n_rel" ] ]. utilitario_a1 := a_rel_nonprd_intr_le & [ STEM < "utilitario" >, SYNSEM.LKEYS.KEYREL.PRED "_utilitario_a_rel" ]. utilitario_n1 := n_intr_count_le & [ STEM < "utilitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_utilitario_n_rel" ] ]. utilitarismo_n1 := n_intr_uncount_le & [ STEM < "utilitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_utilitarismo_n_rel" ] ]. utilitarista_n1 := n_intr_count_le & [ STEM < "utilitarista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_utilitarista_n_rel" ] ]. utilizable_a1 := a_rel_prd_le & [ STEM < "utilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_utilizable_a_rel" ]. utilización_n1 := n_trans_le & [ STEM < "utilización" >, SYNSEM.LKEYS.KEYREL.PRED "_utilización_n_rel" ]. utillaje_n1 := n_intr_coll_le & [ STEM < "utillaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_utillaje_n_rel" ] ]. utillero_n1 := n_intr_count_le & [ STEM < "utillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_utillero_n_rel" ] ]. utopía_n1 := n_intr_count_le & [ STEM < "utopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_utopía_n_rel" ] ]. utricular_a1 := a_rel_nonprd_intr_le & [ STEM < "utricular" >, SYNSEM.LKEYS.KEYREL.PRED "_utricular_a_rel" ]. utriculoampular_a1 := a_rel_nonprd_intr_le & [ STEM < "utriculoampular" >, SYNSEM.LKEYS.KEYREL.PRED "_utriculoampular_a_rel" ]. utriculosacular_a1 := a_rel_nonprd_intr_le & [ STEM < "utriculosacular" >, SYNSEM.LKEYS.KEYREL.PRED "_utriculosacular_a_rel" ]. utrículo_n1 := n_intr_count_le & [ STEM < "utrículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_utrículo_n_rel" ] ]. utópico_a1 := a_qual_intr_ser_le & [ STEM < "utópico" >, SYNSEM.LKEYS.KEYREL.PRED "_utópico_a_rel" ]. uva_n1 := n_intr_mass_le & [ STEM < "uva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uva_n_rel" ] ]. uvarovita_n1 := n_intr_count_le & [ STEM < "uvarovita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uvarovita_n_rel" ] ]. uveal_a1 := a_rel_nonprd_intr_le & [ STEM < "uveal" >, SYNSEM.LKEYS.KEYREL.PRED "_uveal_a_rel" ]. uvita_n1 := n_intr_count_le & [ STEM < "uvita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_uvita_n_rel" ] ]. uvular_a1 := a_rel_nonprd_intr_le & [ STEM < "uvular" >, SYNSEM.LKEYS.KEYREL.PRED "_uvular_a_rel" ]. uvulectomía_n1 := n_intr_uncount_pl_le & [ STEM < "uvulectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uvulectomía_n_rel" ] ]. uvulotomía_n1 := n_intr_uncount_pl_le & [ STEM < "uvulotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uvulotomía_n_rel" ] ]. uxorilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "uxorilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_uxorilocal_a_rel" ]. uxorilocalidad_n1 := n_intr_uncount_le & [ STEM < "uxorilocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uxorilocalidad_n_rel" ] ]. uzbeko_a1 := a_rel_prd_le & [ STEM < "uzbeko" >, SYNSEM.LKEYS.KEYREL.PRED "_uzbeko_a_rel" ]. uña_n1 := n_ppcomp_count_le & [ STEM < "uña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_uña_n_rel" ] ]. uñero_n1 := n_intr_count_le & [ STEM < "uñero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uñero_n_rel" ] ]. uñeta_n1 := n_intr_count_le & [ STEM < "uñeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_uñeta_n_rel" ] ]. vaca_n1 := n_intr_count_le & [ STEM < "vaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vaca_n_rel" ] ]. vacacional_a1 := a_rel_nonprd_intr_le & [ STEM < "vacacional" >, SYNSEM.LKEYS.KEYREL.PRED "_vacacional_a_rel" ]. vacaciones_n1 := n_intr_count_le & [ STEM < "vacaciones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_vacaciones_n_rel" ] ]. vacante_a1 := a_qual_intr_estar_le & [ STEM < "vacante" >, SYNSEM.LKEYS.KEYREL.PRED "_vacante_a_rel" ]. vaccinia_n1 := n_intr_count_le & [ STEM < "vaccinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaccinia_n_rel" ] ]. vaciadero_n1 := n_intr_count_le & [ STEM < "vaciadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaciadero_n_rel" ] ]. vaciado_n1 := n_trans_le & [ STEM < "vaciado" >, SYNSEM.LKEYS.KEYREL.PRED "_vaciado_n_rel" ]. vaciamiento_n1 := n_trans_le & [ STEM < "vaciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_vaciamiento_n_rel" ]. vaciar_v := v_trans_np_caus_le & [ STEM < "vaciar" >, SYNSEM.LKEYS.KEYREL [ PRED "_vaciar_v_rel" ] ]. vacilación_n1 := n_result_intr_le & [ STEM < "vacilación" >, SYNSEM.LKEYS.KEYREL.PRED "_vacilación_n_rel" ]. vacilante_a1 := a_qual_intr_ser_le & [ STEM < "vacilante" >, SYNSEM.LKEYS.KEYREL.PRED "_vacilante_a_rel" ]. vacilar_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "vacilar" >, SYNSEM.LKEYS [ --COMPKEY en_or_entre_p_sel_rel, KEYREL.PRED "_vacilar_v_rel" ] ]. vacilar_v2 := v_intr_mrkd_np*_le & [ STEM < "vacilar" >, SYNSEM.LKEYS [ --COMPKEY en_or_entre_p_sel_rel, KEYREL.PRED "_vacilar_v_rel" ] ]. vacuamente_x1 := av_i_spr_le & [ STEM < "vacuamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vacuamente_x_rel" ]. vacuidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vacuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vacuidad_n_rel" ] ]. vacuna_n1 := n_intr_count_le & [ STEM < "vacuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vacuna_n_rel" ] ]. vacunación_n1 := n_trans_le & [ STEM < "vacunación" >, SYNSEM.LKEYS.KEYREL.PRED "_vacunación_n_rel" ]. vacunar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "vacunar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_vacunar_v_rel" ] ]. vacunar_v2 := v_trans_np_caus_le & [ STEM < "vacunar" >, SYNSEM.LKEYS.KEYREL.PRED "_vacunar_v_rel" ]. vacunar_v3 := v_trans_np_mrkd_np_le & [ STEM < "vacunar" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_vacunar_v_rel" ] ]. vacuno_a1 := a_rel_nonprd_intr_le & [ STEM < "vacuno" >, SYNSEM.LKEYS.KEYREL.PRED "_vacuno_a_rel" ]. vacuo_a1 := a_qual_intr_scopal_le & [ STEM < "vacuo" >, SYNSEM.LKEYS.KEYREL.PRED "_vacuo_a_rel" ]. vacuola_n1 := n_intr_count_le & [ STEM < "vacuola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_vacuola_n_rel" ] ]. vacuolar_a1 := a_rel_nonprd_intr_le & [ STEM < "vacuolar" >, SYNSEM.LKEYS.KEYREL.PRED "_vacuolar_a_rel" ]. vacuómetro_n1 := n_intr_count_le & [ STEM < "vacuómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vacuómetro_n_rel" ] ]. vacío_a1 := a_qual_trans*_estar_le & [ STEM < "vacío" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_vacío_a_rel" ] ]. vacío_n1 := n_intr_mass_le & [ STEM < "vacío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_vacío_n_rel" ] ]. vadeable_a1 := a_rel_prd_le & [ STEM < "vadeable" >, SYNSEM.LKEYS.KEYREL.PRED "_vadeable_a_rel" ]. vado_n1 := n_intr_count_le & [ STEM < "vado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vado_n_rel" ] ]. vadosamente_x1 := av_i_spr_le & [ STEM < "vadosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vadosamente_x_rel" ]. vagabundear_v := v_unacc_lcomp_loc*_le & [ STEM < "vagabundear" >, SYNSEM.LKEYS.KEYREL.PRED "_vagabundear_v_rel" ]. vagabundeo_n1 := n_result_intr_le & [ STEM < "vagabundeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vagabundeo_n_rel" ] ]. vagabundo_a1 := a_rel_nonprd_intr_le & [ STEM < "vagabundo" >, SYNSEM.LKEYS.KEYREL.PRED "_vagabundo_a_rel" ]. vagabundo_n1 := n_intr_count_le & [ STEM < "vagabundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vagabundo_n_rel" ] ]. vagal_a1 := a_rel_nonprd_intr_le & [ STEM < "vagal" >, SYNSEM.LKEYS.KEYREL.PRED "_vagal_a_rel" ]. vagamente_x1 := av_i_spr_le & [ STEM < "vagamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vagamente_x_rel" ]. vagancia_n1 := n_result_intr_le & [ STEM < "vagancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vagancia_n_rel" ] ]. vagante_a1 := a_rel_nonprd_intr_le & [ STEM < "vagante" >, SYNSEM.LKEYS.KEYREL.PRED "_vagante_a_rel" ]. vagar_v := v_unacc_lcomp_loc*_le & [ STEM < "vagar" >, SYNSEM.LKEYS.KEYREL.PRED "_vagar_v_rel" ]. vagina_n1 := n_intr_count_le & [ STEM < "vagina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vagina_n_rel" ] ]. vaginal_a1 := a_rel_nonprd_intr_le & [ STEM < "vaginal" >, SYNSEM.LKEYS.KEYREL.PRED "_vaginal_a_rel" ]. vaginalmente_x1 := av_i_spr_le & [ STEM < "vaginalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vaginalmente_x_rel" ]. vago_a1 := a_qual_intr_ser_le & [ STEM < "vago" >, SYNSEM.LKEYS.KEYREL.PRED "_vago_a_rel" ]. vago_n1 := n_intr_count_le & [ STEM < "vago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vago_n_rel" ] ]. vagoneta_n1 := n_intr_count_le & [ STEM < "vagoneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vagoneta_n_rel" ] ]. vaguada_n1 := n_intr_count_le & [ STEM < "vaguada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vaguada_n_rel" ] ]. vaguedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vaguedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vaguedad_n_rel" ] ]. vagón_n1 := n_intr_count_le & [ STEM < "vagón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vagón_n_rel" ] ]. vaho_n1 := n_intr_mass_le & [ STEM < "vaho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaho_n_rel" ] ]. vaina_n1 := n_intr_count_le & [ STEM < "vaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaina_n_rel" ] ]. vainica_n1 := n_intr_count_le & [ STEM < "vainica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vainica_n_rel" ] ]. vainilla_n1 := n_intr_mass_le & [ STEM < "vainilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vainilla_n_rel" ] ]. vainillina_n1 := n_intr_count_le & [ STEM < "vainillina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vainillina_n_rel" ] ]. vajilla_n1 := n_intr_coll_le & [ STEM < "vajilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vajilla_n_rel" ] ]. vale_n1 := n_intr_count_le & [ STEM < "vale" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vale_n_rel" ] ]. valedero_a1 := a_qual_intr_ser_le & [ STEM < "valedero" >, SYNSEM.LKEYS.KEYREL.PRED "_valedero_a_rel" ]. valedor_n1 := n_intr_count_le & [ STEM < "valedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_valedor_n_rel" ] ]. valencia_n1 := n_intr_count_le & [ STEM < "valencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valencia_n_rel" ] ]. valencianismo_n1 := n_intr_mass-or-count_le & [ STEM < "valencianismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valencianismo_n_rel" ] ]. valencianista_n1 := n_intr_count_le & [ STEM < "valencianista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_valencianista_n_rel" ] ]. valenciano_a1 := a_rel_prd_le & [ STEM < "valenciano" >, SYNSEM.LKEYS.KEYREL.PRED "_valenciano_a_rel" ]. valenciano_n1 := n_intr_count_le & [ STEM < "valenciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_valenciano_n_rel" ] ]. valentinita_n1 := n_intr_count_le & [ STEM < "valentinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_valentinita_n_rel" ] ]. valentonada_n1 := n_intr_count_le & [ STEM < "valentonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valentonada_n_rel" ] ]. valentía_n1 := n_intr_mass_le & [ STEM < "valentía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valentía_n_rel" ] ]. valentón_a1 := a_qual_intr_ser_le & [ STEM < "valentón" >, SYNSEM.LKEYS.KEYREL.PRED "_valentón_a_rel" ]. valer_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "valer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_valer_v_rel" ] ]. valer_v2 := v_ditrans*_le & [ STEM < "valer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_valer_v_rel" ] ]. valer_v3 := v_pron_intr_mrkd_np_le & [ STEM < "valer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_valer_v_rel" ] ]. valeriana_n1 := n_intr_count_le & [ STEM < "valeriana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_valeriana_n_rel" ] ]. valerianato_n1 := n_intr_count_le & [ STEM < "valerianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_valerianato_n_rel" ] ]. valerolactona_n1 := n_intr_count_le & [ STEM < "valerolactona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_valerolactona_n_rel" ] ]. valerosamente_x1 := av_i_spr_le & [ STEM < "valerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_valerosamente_x_rel" ]. valeroso_a1 := a_qual_intr_ser_le & [ STEM < "valeroso" >, SYNSEM.LKEYS.KEYREL.PRED "_valeroso_a_rel" ]. validación_n1 := n_trans_le & [ STEM < "validación" >, SYNSEM.LKEYS.KEYREL.PRED "_validación_n_rel" ]. validar_v := v_trans_np_le & [ STEM < "validar" >, SYNSEM.LKEYS.KEYREL.PRED "_validar_v_rel" ]. validez_n1 := n_ppcomp_uncount_le & [ STEM < "validez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_validez_n_rel" ] ]. valiente_a1 := a_qual_intr_ser_le & [ STEM < "valiente" >, SYNSEM.LKEYS.KEYREL.PRED "_valiente_a_rel" ]. valientemente_x1 := av_i_spr_le & [ STEM < "valientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_valientemente_x_rel" ]. valija_n1 := n_intr_count_le & [ STEM < "valija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_valija_n_rel" ] ]. valina_n1 := n_intr_count_le & [ STEM < "valina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_valina_n_rel" ] ]. valioso_a1 := a_qual_intr_ser_le & [ STEM < "valioso" >, SYNSEM.LKEYS.KEYREL.PRED "_valioso_a_rel" ]. valiosísimoamente_x1 := av_i_spr_le & [ STEM < "valiosísimoamente" >, SYNSEM.LKEYS.KEYREL.PRED "_valiosísimoamente_x_rel" ]. valkiria_n1 := n_intr_count_le & [ STEM < "valkiria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_valkiria_n_rel" ] ]. valla_n1 := n_intr_count_le & [ STEM < "valla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_valla_n_rel" ] ]. vallado_n1 := n_trans_le & [ STEM < "vallado" >, SYNSEM.LKEYS.KEYREL.PRED "_vallado_n_rel" ]. vallar_a1 := a_rel_nonprd_intr_le & [ STEM < "vallar" >, SYNSEM.LKEYS.KEYREL.PRED "_vallar_a_rel" ]. vallar_v := v_trans_np_le & [ STEM < "vallar" >, SYNSEM.LKEYS.KEYREL.PRED "_vallar_v_rel" ]. valle_n1 := n_intr_count_le & [ STEM < "valle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_valle_n_rel" ] ]. vallico_n1 := n_intr_count_le & [ STEM < "vallico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_vallico_n_rel" ] ]. vallisoletanamente_x1 := av_i_spr_le & [ STEM < "vallisoletanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vallisoletanamente_x_rel" ]. vallisoletano_a1 := a_rel_prd_le & [ STEM < "vallisoletano" >, SYNSEM.LKEYS.KEYREL.PRED "_vallisoletano_a_rel" ]. vallisoletano_n1 := n_intr_count_le & [ STEM < "vallisoletano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vallisoletano_n_rel" ] ]. vallista_n1 := n_intr_count_le & [ STEM < "vallista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vallista_n_rel" ] ]. valor_n1 := n_intr_count_le & [ STEM < "valor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valor_n_rel" ] ]. valorable_a1 := a_qual_intr_ser_le & [ STEM < "valorable" >, SYNSEM.LKEYS.KEYREL.PRED "_valorable_a_rel" ]. valoración_n1 := n_trans_le & [ STEM < "valoración" >, SYNSEM.LKEYS.KEYREL.PRED "_valoración_n_rel" ]. valorar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "valorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_valorar_v_rel" ] ]. valorar_v2 := v_trans_np_le & [ STEM < "valorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_valorar_v_rel" ] ]. valorativo_a1 := a_qual_intr_ser_le & [ STEM < "valorativo" >, SYNSEM.LKEYS.KEYREL.PRED "_valorativo_a_rel" ]. valorizable_a1 := a_qual_intr_ser_le & [ STEM < "valorizable" >, SYNSEM.LKEYS.KEYREL.PRED "_valorizable_a_rel" ]. valorización_n1 := n_trans_le & [ STEM < "valorización" >, SYNSEM.LKEYS.KEYREL.PRED "_valorización_n_rel" ]. valorizar_v := v_trans_np_mrkd_np*_le & [ STEM < "valorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_valorizar_v_rel" ] ]. valuación_n1 := n_trans_le & [ STEM < "valuación" >, SYNSEM.LKEYS.KEYREL.PRED "_valuación_n_rel" ]. valva_n1 := n_intr_count_le & [ STEM < "valva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_valva_n_rel" ] ]. valvular_a1 := a_rel_nonprd_intr_le & [ STEM < "valvular" >, SYNSEM.LKEYS.KEYREL.PRED "_valvular_a_rel" ]. valvularmente_x1 := av_i_spr_le & [ STEM < "valvularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_valvularmente_x_rel" ]. valécula_n1 := n_intr_count_le & [ STEM < "valécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_valécula_n_rel" ] ]. valía_n1 := n_result_intr_le & [ STEM < "valía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_valía_n_rel" ] ]. valón_a1 := a_rel_prd_le & [ STEM < "valón" >, SYNSEM.LKEYS.KEYREL.PRED "_valón_a_rel" ]. valón_n1 := n_intr_count_le & [ STEM < "valón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_valón_n_rel" ] ]. vampiresa_n1 := n_intr_count_le & [ STEM < "vampiresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vampiresa_n_rel" ] ]. vampirismo_n1 := n_intr_uncount_le & [ STEM < "vampirismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vampirismo_n_rel" ] ]. vampiro_n1 := n_intr_count_le & [ STEM < "vampiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vampiro_n_rel" ] ]. vanadato_n1 := n_intr_count_le & [ STEM < "vanadato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vanadato_n_rel" ] ]. vanadinita_n1 := n_intr_count_le & [ STEM < "vanadinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vanadinita_n_rel" ] ]. vanadio_n1 := n_intr_mass_le & [ STEM < "vanadio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vanadio_n_rel" ] ]. vanagloriar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "vanagloriar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_vanagloriar_v_rel" ] ] ]. vanagloriar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "vanagloriar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_vanagloriar_v_rel" ] ]. vanagloriosamente_x1 := av_i_spr_le & [ STEM < "vanagloriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vanagloriosamente_x_rel" ]. vanaglorioso_a1 := a_qual_intr_ser_le & [ STEM < "vanaglorioso" >, SYNSEM.LKEYS.KEYREL.PRED "_vanaglorioso_a_rel" ]. vanamente_x1 := av_i_spr_le & [ STEM < "vanamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vanamente_x_rel" ]. vandalismo_n1 := n_intr_uncount_le & [ STEM < "vandalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vandalismo_n_rel" ] ]. vandálico_a1 := a_qual_intr_ser_le & [ STEM < "vandálico" >, SYNSEM.LKEYS.KEYREL.PRED "_vandálico_a_rel" ]. vanguardia_n1 := n_intr_mass_le & [ STEM < "vanguardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_vanguardia_n_rel" ] ]. vanguardismo_n1 := n_intr_uncount_le & [ STEM < "vanguardismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vanguardismo_n_rel" ] ]. vanguardista_a1 := a_qual_intr_ser_le & [ STEM < "vanguardista" >, SYNSEM.LKEYS.KEYREL.PRED "_vanguardista_a_rel" ]. vanidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vanidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vanidad_n_rel" ] ]. vanidoso_a1 := a_qual_intr_ser_le & [ STEM < "vanidoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vanidoso_a_rel" ]. vano_a1 := a_qual_intr_ser_le & [ STEM < "vano" >, SYNSEM.LKEYS.KEYREL.PRED "_vano_a_rel" ]. vanádicamente_x1 := av_i_spr_le & [ STEM < "vanádicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vanádicamente_x_rel" ]. vapor_n1 := n_intr_mass_le & [ STEM < "vapor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vapor_n_rel" ] ]. vaporable_a1 := a_rel_prd_le & [ STEM < "vaporable" >, SYNSEM.LKEYS.KEYREL.PRED "_vaporable_a_rel" ]. vaporablemente_x1 := av_i_spr_le & [ STEM < "vaporablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_vaporablemente_x_rel" ]. vaporización_n1 := n_trans_le & [ STEM < "vaporización" >, SYNSEM.LKEYS.KEYREL.PRED "_vaporización_n_rel" ]. vaporizador_n1 := n_intr_count_le & [ STEM < "vaporizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaporizador_n_rel" ] ]. vaporizar_v := v_trans_np_caus_le & [ STEM < "vaporizar" >, SYNSEM.LKEYS.KEYREL.PRED "_vaporizar_v_rel" ]. vaporoso_a1 := a_qual_intr_ser_le & [ STEM < "vaporoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vaporoso_a_rel" ]. vaporímetro_n1 := n_intr_count_le & [ STEM < "vaporímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vaporímetro_n_rel" ] ]. vapulear_v := v_trans_np_le & [ STEM < "vapulear" >, SYNSEM.LKEYS.KEYREL.PRED "_vapulear_v_rel" ]. vaquero_a1 := a_rel_nonprd_intr_le & [ STEM < "vaquero" >, SYNSEM.LKEYS.KEYREL.PRED "_vaquero_a_rel" ]. vaquero_n1 := n_intr_count_le & [ STEM < "vaquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_vaquero_n_rel" ] ]. vaquería_n1 := n_intr_count_le & [ STEM < "vaquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vaquería_n_rel" ] ]. vara_n := n_intr_count_le & [ STEM < "vara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_unit, PRED "_vara_n_rel" ] ]. varactor_n1 := n_intr_count_le & [ STEM < "varactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varactor_n_rel" ] ]. varadero_n1 := n_intr_count_le & [ STEM < "varadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varadero_n_rel" ] ]. varadura_n1 := n_trans_le & [ STEM < "varadura" >, SYNSEM.LKEYS.KEYREL.PRED "_varadura_n_rel" ]. varal_n1 := n_intr_count_le & [ STEM < "varal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varal_n_rel" ] ]. varar_v := v_trans_np_caus_le & [ STEM < "varar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_pot_pro, PRED "_varar_v_rel" ] ]. varga_n1 := n_intr_count_le & [ STEM < "varga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_varga_n_rel" ] ]. varhorímetro_n1 := n_intr_count_le & [ STEM < "varhorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varhorímetro_n_rel" ] ]. variabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "variabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variabilidad_n_rel" ] ]. variable_a1 := a_qual_intr_ser_le & [ STEM < "variable" >, SYNSEM.LKEYS.KEYREL.PRED "_variable_a_rel" ]. variablemente_x1 := av_i_spr_le & [ STEM < "variablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_variablemente_x_rel" ]. variación_n1 := n_trans_le & [ STEM < "variación" >, SYNSEM.LKEYS.KEYREL.PRED "_variación_n_rel" ]. variador_n1 := n_intr_count_le & [ STEM < "variador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_variador_n_rel" ] ]. variancia_n1 := n_ppcomp_mass_le & [ STEM < "variancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variancia_n_rel" ] ]. variante_a1 := a_qual_intr_ser_le & [ STEM < "variante" >, SYNSEM.LKEYS.KEYREL.PRED "_variante_a_rel" ]. varianza_n1 := n_intr_mass_le & [ STEM < "varianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_varianza_n_rel" ] ]. variar_v1 := v_intr_mrkd_np_le & [ STEM < "variar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_variar_v_rel" ] ]. variar_v2 := v_intr_mrkd_np_le & [ STEM < "variar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG2.SORT abs, PRED "_variar_v_rel" ] ] ]. variar_v3 := v_trans_np*_le & [ STEM < "variar" >, SYNSEM.LKEYS.KEYREL.PRED "_variar_v_rel" ]. varice_n1 := n_intr_count_le & [ STEM < "varice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varice_n_rel" ] ]. varicoso_a1 := a_rel_nonprd_intr_le & [ STEM < "varicoso" >, SYNSEM.LKEYS.KEYREL.PRED "_varicoso_a_rel" ]. variedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "variedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variedad_n_rel" ] ]. varillaje_n1 := n_intr_coll_le & [ STEM < "varillaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varillaje_n_rel" ] ]. variolación_n1 := n_intr_uncount_le & [ STEM < "variolación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variolación_n_rel" ] ]. variolización_n1 := n_intr_uncount_le & [ STEM < "variolización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variolización_n_rel" ] ]. variopinto_a1 := a_qual_intr_ser_le & [ STEM < "variopinto" >, SYNSEM.LKEYS.KEYREL.PRED "_variopinto_a_rel" ]. varios_d := d_qnt-evl-dv_var_le & [ STEM < "varios" > ]. varios_p := pr_part_varios_le & [ STEM < "varios" >, SYNSEM.LKEYS.ALTKEYREL.PRED _varios_q_rel ]. variscita_n1 := n_intr_count_le & [ STEM < "variscita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_variscita_n_rel" ] ]. varistancia_n1 := n_intr_mass_le & [ STEM < "varistancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varistancia_n_rel" ] ]. varita_n1 := n_intr_count_le & [ STEM < "varita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varita_n_rel" ] ]. variz_n1 := n_intr_count_le & [ STEM < "variz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_variz_n_rel" ] ]. variómetro_n1 := n_intr_count_le & [ STEM < "variómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_variómetro_n_rel" ] ]. varmetro_n1 := n_intr_count_le & [ STEM < "varmetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_varmetro_n_rel" ] ]. varonil_a1 := a_qual_intr_ser_le & [ STEM < "varonil" >, SYNSEM.LKEYS.KEYREL.PRED "_varonil_a_rel" ]. varonilmente_x1 := av_i_spr_le & [ STEM < "varonilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_varonilmente_x_rel" ]. varsoviano_a1 := a_rel_prd_le & [ STEM < "varsoviano" >, SYNSEM.LKEYS.KEYREL.PRED "_varsoviano_a_rel" ]. varsoviano_n1 := n_intr_count_le & [ STEM < "varsoviano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_varsoviano_n_rel" ] ]. varón_n1 := n_intr_count_le & [ STEM < "varón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_varón_n_rel" ] ]. vasallaje_n1 := n_intr_uncount_le & [ STEM < "vasallaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasallaje_n_rel" ] ]. vasallaje_n2 := n_intr_count_le & [ STEM < "vasallaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasallaje_n_rel" ] ]. vasallo_n1 := n_intr_count_le & [ STEM < "vasallo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vasallo_n_rel" ] ]. vasco_a1 := a_rel_prd_le & [ STEM < "vasco" >, SYNSEM.LKEYS.KEYREL.PRED "_vasco_a_rel" ]. vasco_n1 := n_intr_count_le & [ STEM < "vasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vasco_n_rel" ] ]. vascuence_a1 := a_rel_prd_le & [ STEM < "vascuence" >, SYNSEM.LKEYS.KEYREL.PRED "_vascuence_a_rel" ]. vascuence_n1 := n_intr_count_le & [ STEM < "vascuence" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_vascuence_n_rel" ] ]. vascular_a1 := a_rel_nonprd_intr_le & [ STEM < "vascular" >, SYNSEM.LKEYS.KEYREL.PRED "_vascular_a_rel" ]. vasculopatía_n1 := n_intr_uncount_pl_le & [ STEM < "vasculopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasculopatía_n_rel" ] ]. vascón_a1 := a_rel_prd_le & [ STEM < "vascón" >, SYNSEM.LKEYS.KEYREL.PRED "_vascón_a_rel" ]. vascón_n1 := n_intr_count_le & [ STEM < "vascón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vascón_n_rel" ] ]. vasectomía_n1 := n_intr_uncount_pl_le & [ STEM < "vasectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasectomía_n_rel" ] ]. vaselina_n1 := n_intr_mass_le & [ STEM < "vaselina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vaselina_n_rel" ] ]. vasija_n1 := n_intr_count_le & [ STEM < "vasija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vasija_n_rel" ] ]. vaso_n1 := n_pseudo-part_le & [ STEM < "vaso" >, SYNSEM.LKEYS.KEYREL.PRED "_vaso_n_rel" ]. vasoactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "vasoactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_vasoactivo_a_rel" ]. vasoconstrictor_a1 := a_rel_nonprd_intr_le & [ STEM < "vasoconstrictor" >, SYNSEM.LKEYS.KEYREL.PRED "_vasoconstrictor_a_rel" ]. vasoconstrictor_n1 := n_intr_count_le & [ STEM < "vasoconstrictor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vasoconstrictor_n_rel" ] ]. vasodentina_n1 := n_intr_count_le & [ STEM < "vasodentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vasodentina_n_rel" ] ]. vasodilatación_n1 := n_intr_uncount_le & [ STEM < "vasodilatación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasodilatación_n_rel" ] ]. vasodilatador_a1 := a_rel_nonprd_intr_le & [ STEM < "vasodilatador" >, SYNSEM.LKEYS.KEYREL.PRED "_vasodilatador_a_rel" ]. vasodilatador_n1 := n_intr_count_le & [ STEM < "vasodilatador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vasodilatador_n_rel" ] ]. vasomotor_a1 := a_rel_nonprd_intr_le & [ STEM < "vasomotor" >, SYNSEM.LKEYS.KEYREL.PRED "_vasomotor_a_rel" ]. vasopresina_n1 := n_intr_count_le & [ STEM < "vasopresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vasopresina_n_rel" ] ]. vastamente_x1 := av_i_spr_le & [ STEM < "vastamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vastamente_x_rel" ]. vastedad_n1 := n_intr_uncount_le & [ STEM < "vastedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vastedad_n_rel" ] ]. vasto_a1 := a_qual_intr_ser_le & [ STEM < "vasto" >, SYNSEM.LKEYS.KEYREL.PRED "_vasto_a_rel" ]. vaticano_a1 := a_rel_nonprd_intr_le & [ STEM < "vaticano" >, SYNSEM.LKEYS.KEYREL.PRED "_vaticano_a_rel" ]. vaticinar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "vaticinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vaticinar_v_rel" ] ]. vaticinar_v2 := v_ditrans*_le & [ STEM < "vaticinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_vaticinar_v_rel" ] ]. vatihorímetro_n1 := n_intr_count_le & [ STEM < "vatihorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vatihorímetro_n_rel" ] ]. vatio_n := n_intr_count_le & [ STEM < "vatio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_vatio_n_rel" ] ]. vatímetro_n1 := n_intr_count_le & [ STEM < "vatímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vatímetro_n_rel" ] ]. vecinal_a1 := a_rel_nonprd_intr_le & [ STEM < "vecinal" >, SYNSEM.LKEYS.KEYREL.PRED "_vecinal_a_rel" ]. vecindad_n1 := n_intr_mass_le & [ STEM < "vecindad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vecindad_n_rel" ] ]. vecindario_n1 := n_intr_count_le & [ STEM < "vecindario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vecindario_n_rel" ] ]. vecino_a1 := a_qual_trans*_ser_le & [ STEM < "vecino" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_vecino_a_rel" ] ]. vecino_n1 := n_intr_count_le & [ STEM < "vecino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vecino_n_rel" ] ]. vector_n1 := n_intr_count_le & [ STEM < "vector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vector_n_rel" ] ]. vectorial_a1 := a_rel_nonprd_intr_le & [ STEM < "vectorial" >, SYNSEM.LKEYS.KEYREL.PRED "_vectorial_a_rel" ]. vectorialmente_x1 := av_i_spr_le & [ STEM < "vectorialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vectorialmente_x_rel" ]. vectorización_n1 := n_intr_uncount_le & [ STEM < "vectorización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vectorización_n_rel" ] ]. veda_n1 := n_intr_mass_le & [ STEM < "veda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_veda_n_rel" ] ]. vedar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "vedar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vedar_v_rel" ] ]. vedar_v2 := v_ditrans*_le & [ STEM < "vedar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_vedar_v_rel" ] ]. vega_n1 := n_intr_count_le & [ STEM < "vega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vega_n_rel" ] ]. vegetación_n1 := n_intr_mass_le & [ STEM < "vegetación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_vegetación_n_rel" ] ]. vegetal_a1 := a_rel_nonprd_intr_le & [ STEM < "vegetal" >, SYNSEM.LKEYS.KEYREL.PRED "_vegetal_a_rel" ]. vegetal_n1 := n_intr_mass_le & [ STEM < "vegetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vegetal_n_rel" ] ]. vegetariano_a1 := a_rel_nonprd_intr_le & [ STEM < "vegetariano" >, SYNSEM.LKEYS.KEYREL.PRED "_vegetariano_a_rel" ]. vegetariano_n1 := n_intr_count_le & [ STEM < "vegetariano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vegetariano_n_rel" ] ]. vegetativo_a1 := a_rel_nonprd_intr_le & [ STEM < "vegetativo" >, SYNSEM.LKEYS.KEYREL.PRED "_vegetativo_a_rel" ]. vehemencia_n1 := n_ppcomp_mass_le & [ STEM < "vehemencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vehemencia_n_rel" ] ]. vehemente_a1 := a_qual_intr_ser_le & [ STEM < "vehemente" >, SYNSEM.LKEYS.KEYREL.PRED "_vehemente_a_rel" ]. vehementemente_x1 := av_i_spr_le & [ STEM < "vehementemente" >, SYNSEM.LKEYS.KEYREL.PRED "_vehementemente_x_rel" ]. vehicular_a1 := a_rel_nonprd_intr_le & [ STEM < "vehicular" >, SYNSEM.LKEYS.KEYREL.PRED "_vehicular_a_rel" ]. vehicular_v := v_trans_np_le & [ STEM < "vehicular" >, SYNSEM.LKEYS.KEYREL.PRED "_vehicular_v_rel" ]. vehicularmente_x1 := av_i_spr_le & [ STEM < "vehicularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vehicularmente_x_rel" ]. vehículo_n1 := n_intr_count_le & [ STEM < "vehículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_vehículo_n_rel" ] ]. vejación_n1 := n_trans_le & [ STEM < "vejación" >, SYNSEM.LKEYS.KEYREL.PRED "_vejación_n_rel" ]. vejador_a1 := a_qual_intr_ser_le & [ STEM < "vejador" >, SYNSEM.LKEYS.KEYREL.PRED "_vejador_a_rel" ]. vejar_2v := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "vejar" >, SYNSEM.LKEYS.KEYREL.PRED "_vejar_v_rel" ]. vejar_v1 := v_intr_io*_le & [ STEM < "vejar" >, SYNSEM.LKEYS.KEYREL.PRED "_vejar_v_rel" ]. vejar_v3 := v_trans_np_le & [ STEM < "vejar" >, SYNSEM.LKEYS.KEYREL.PRED "_vejar_v_rel" ]. vejatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "vejatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_vejatorio_a_rel" ]. vejez_n1 := n_ppcomp_uncount_le & [ STEM < "vejez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vejez_n_rel" ] ]. vejiga_n1 := n_intr_count_le & [ STEM < "vejiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vejiga_n_rel" ] ]. vejiguilla_n1 := n_intr_count_le & [ STEM < "vejiguilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_vejiguilla_n_rel" ] ]. vela_n1 := n_intr_count_le & [ STEM < "vela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vela_n_rel" ] ]. velada_n1 := n_intr_count_le & [ STEM < "velada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_velada_n_rel" ] ]. veladamente_x1 := av_i_spr_le & [ STEM < "veladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_veladamente_x_rel" ]. veladora_n1 := n_intr_count_le & [ STEM < "veladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_veladora_n_rel" ] ]. velaje_n1 := n_intr_count_le & [ STEM < "velaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_velaje_n_rel" ] ]. velamen_n1 := n_intr_mass_le & [ STEM < "velamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velamen_n_rel" ] ]. velar_a1 := a_rel_nonprd_intr_le & [ STEM < "velar" >, SYNSEM.LKEYS.KEYREL.PRED "_velar_a_rel" ]. velar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "velar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_velar_v_rel" ] ] ]. velar_v2 := v_intr_mrkd_np*_le & [ STEM < "velar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_velar_v_rel" ] ] ]. velar_v3 := v_pron_intr_le & [ STEM < "velar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc, PRED "_velar_v_rel" ] ]. velar_v4 := v_trans_np_le & [ STEM < "velar" >, SYNSEM.LKEYS.KEYREL.PRED "_velar_v_rel" ]. velarización_n1 := n_intr_uncount_le & [ STEM < "velarización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_velarización_n_rel" ] ]. velcro_n1 := n_intr_mass_le & [ STEM < "velcro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velcro_n_rel" ] ]. veleidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "veleidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_veleidad_n_rel" ] ]. veleidoso_a1 := a_qual_intr_ser_le & [ STEM < "veleidoso" >, SYNSEM.LKEYS.KEYREL.PRED "_veleidoso_a_rel" ]. veleramente_x1 := av_i_spr_le & [ STEM < "veleramente" >, SYNSEM.LKEYS.KEYREL.PRED "_veleramente_x_rel" ]. velero_a1 := a_rel_nonprd_intr_le & [ STEM < "velero" >, SYNSEM.LKEYS.KEYREL.PRED "_velero_a_rel" ]. velero_n1 := n_intr_count_le & [ STEM < "velero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velero_n_rel" ] ]. velería_n1 := n_intr_count_le & [ STEM < "velería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_velería_n_rel" ] ]. veleta_n1 := n_intr_count_le & [ STEM < "veleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_veleta_n_rel" ] ]. velis_nolis_x1 := av_i_le & [ STEM < "velis_nolis" >, SYNSEM.LKEYS.KEYREL.PRED "_velis_nolis_x_rel" ]. vello_n1 := n_intr_mass_le & [ STEM < "vello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vello_n_rel" ] ]. vellosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vellosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vellosidad_n_rel" ] ]. velloso_a1 := a_rel_nonprd_intr_le & [ STEM < "velloso" >, SYNSEM.LKEYS.KEYREL.PRED "_velloso_a_rel" ]. velludo_a1 := a_qual_intr_ser_le & [ STEM < "velludo" >, SYNSEM.LKEYS.KEYREL.PRED "_velludo_a_rel" ]. velo_n1 := n_intr_count_le & [ STEM < "velo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velo_n_rel" ] ]. velocidad_n1 := n_intr_mass_le & [ STEM < "velocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_velocidad_n_rel" ] ]. velocista_n1 := n_intr_count_le & [ STEM < "velocista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_velocista_n_rel" ] ]. velocímetro_n1 := n_intr_count_le & [ STEM < "velocímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velocímetro_n_rel" ] ]. velocípedo_n1 := n_intr_count_le & [ STEM < "velocípedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velocípedo_n_rel" ] ]. velofaríngeo_a1 := a_rel_nonprd_intr_le & [ STEM < "velofaríngeo" >, SYNSEM.LKEYS.KEYREL.PRED "_velofaríngeo_a_rel" ]. velomotor_n1 := n_intr_count_le & [ STEM < "velomotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_velomotor_n_rel" ] ]. veloz_a1 := a_qual_intr_ser_le & [ STEM < "veloz" >, SYNSEM.LKEYS.KEYREL.PRED "_veloz_a_rel" ]. velozmente_x1 := av_i_spr_le & [ STEM < "velozmente" >, SYNSEM.LKEYS.KEYREL.PRED "_velozmente_x_rel" ]. velódromo_n1 := n_intr_count_le & [ STEM < "velódromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_velódromo_n_rel" ] ]. vena_n1 := n_intr_count_le & [ STEM < "vena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vena_n_rel" ] ]. venado_n1 := n_intr_count_le & [ STEM < "venado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_venado_n_rel" ] ]. venal_a1 := a_rel_nonprd_intr_le & [ STEM < "venal" >, SYNSEM.LKEYS.KEYREL.PRED "_venal_a_rel" ]. venalidad_n1 := n_ppcomp_uncount_le & [ STEM < "venalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venalidad_n_rel" ] ]. venalidad_n2 := n_ppcomp_count_le & [ STEM < "venalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venalidad_n_rel" ] ]. vencedor_n1 := n_subj-nom_le & [ STEM < "vencedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vencedor_n_rel" ] ]. vencejo_n1 := n_intr_count_le & [ STEM < "vencejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vencejo_n_rel" ] ]. vencer_v := v_trans_np*_le & [ STEM < "vencer" >, SYNSEM.LKEYS.KEYREL.PRED "_vencer_v_rel" ]. vencible_a1 := a_rel_prd_le & [ STEM < "vencible" >, SYNSEM.LKEYS.KEYREL.PRED "_vencible_a_rel" ]. vencimiento_n1 := n_trans_le & [ STEM < "vencimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_vencimiento_n_rel" ]. venda_n1 := n_intr_count_le & [ STEM < "venda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_venda_n_rel" ] ]. vendaje_n1 := n_intr_mass_le & [ STEM < "vendaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vendaje_n_rel" ] ]. vendaval_n1 := n_intr_count_le & [ STEM < "vendaval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_vendaval_n_rel" ] ]. vendedor_a1 := a_rel_nonprd_intr_le & [ STEM < "vendedor" >, SYNSEM.LKEYS.KEYREL.PRED "_vendedor_a_rel" ]. vendedor_n1 := n_subj-nom_le & [ STEM < "vendedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vendedor_n_rel" ] ]. vender_v1 := v_ditrans*_le & [ STEM < "vender" >, SYNSEM.LKEYS.KEYREL.PRED "_vender_v_rel" ]. vender_v2 := v_intr_le & [ STEM < "vender" >, SYNSEM.LKEYS.KEYREL.PRED "_vender_v_rel" ]. vendible_a1 := a_rel_prd_le & [ STEM < "vendible" >, SYNSEM.LKEYS.KEYREL.PRED "_vendible_a_rel" ]. vendimia_n1 := n_intr_count_le & [ STEM < "vendimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vendimia_n_rel" ] ]. vendimiador_n1 := n_subj-nom_le & [ STEM < "vendimiador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vendimiador_n_rel" ] ]. vendimiar_v := v_trans_np*_le & [ STEM < "vendimiar" >, SYNSEM.LKEYS.KEYREL.PRED "_vendimiar_v_rel" ]. vendí_n1 := n_intr_count_le & [ STEM < "vendí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_vendí_n_rel" ] ]. veneciano_a1 := a_rel_prd_le & [ STEM < "veneciano" >, SYNSEM.LKEYS.KEYREL.PRED "_veneciano_a_rel" ]. veneciano_n1 := n_intr_count_le & [ STEM < "veneciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_veneciano_n_rel" ] ]. veneno_n1 := n_intr_mass_le & [ STEM < "veneno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_veneno_n_rel" ] ]. venenosamente_x1 := av_i_spr_le & [ STEM < "venenosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_venenosamente_x_rel" ]. venenoso_a1 := a_qual_intr_ser_le & [ STEM < "venenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_venenoso_a_rel" ]. venera_n1 := n_intr_count_le & [ STEM < "venera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_loc, PRED "_venera_n_rel" ] ]. venerabilidad_n1 := n_intr_uncount_le & [ STEM < "venerabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venerabilidad_n_rel" ] ]. venerable_a1 := a_qual_intr_ser_le & [ STEM < "venerable" >, SYNSEM.LKEYS.KEYREL.PRED "_venerable_a_rel" ]. venerablemente_x1 := av_i_spr_le & [ STEM < "venerablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_venerablemente_x_rel" ]. veneración_n1 := n_trans_le & [ STEM < "veneración" >, SYNSEM.LKEYS.KEYREL.PRED "_veneración_n_rel" ]. venezolano_a1 := a_rel_prd_le & [ STEM < "venezolano" >, SYNSEM.LKEYS.KEYREL.PRED "_venezolano_a_rel" ]. venezolano_n1 := n_intr_count_le & [ STEM < "venezolano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_venezolano_n_rel" ] ]. vengador_a1 := a_qual_intr_ser_le & [ STEM < "vengador" >, SYNSEM.LKEYS.KEYREL.PRED "_vengador_a_rel" ]. venganza_n1 := n_intr_count_le & [ STEM < "venganza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venganza_n_rel" ] ]. vengar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "vengar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_vengar_v_rel" ] ] ]. vengar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "vengar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_vengar_v_rel" ] ] ]. vengar_v3 := v_trans_np_le & [ STEM < "vengar" >, SYNSEM.LKEYS.KEYREL.PRED "_vengar_v_rel" ]. vengativo_a1 := a_qual_intr_ser_le & [ STEM < "vengativo" >, SYNSEM.LKEYS.KEYREL.PRED "_vengativo_a_rel" ]. venial_a1 := a_rel_nonprd_intr_le & [ STEM < "venial" >, SYNSEM.LKEYS.KEYREL.PRED "_venial_a_rel" ]. venialidad_n1 := n_ppcomp_uncount_le & [ STEM < "venialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venialidad_n_rel" ] ]. venialidad_n2 := n_ppcomp_count_le & [ STEM < "venialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venialidad_n_rel" ] ]. venialmente_x1 := av_i_spr_le & [ STEM < "venialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_venialmente_x_rel" ]. venidero_a1 := a_rel_nonprd_intr_le & [ STEM < "venidero" >, SYNSEM.LKEYS.KEYREL.PRED "_venidero_a_rel" ]. venir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_venir_v_rel" ] ] ]. venir_v10 := v_intr_mrkd_vp_ssr_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_venir_v_rel" ] ]. venir_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_venir_v_rel" ] ] ]. venir_v3 := v_intr_mrkd_np_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, ARG2.SORT pro, PRED "_venir_v_rel" ] ] ]. venir_v4 := v_unacc_lcomp_dir*_perf_le & [ STEM < "venir" >, SYNSEM.LKEYS.KEYREL.PRED "_venir_v_rel" ]. venir_v5 := v_intr_mrkd_np_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_venir_v_rel" ] ]. venir_v8 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_venir_v_rel" ] ] ]. venir_v9 := v_pron_intr_mrkd_np_le & [ STEM < "venir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_venir_v_rel" ] ] ]. venoso_a1 := a_rel_nonprd_intr_le & [ STEM < "venoso" >, SYNSEM.LKEYS.KEYREL.PRED "_venoso_a_rel" ]. venta_n1 := n_trans_le & [ STEM < "venta" >, SYNSEM.LKEYS.KEYREL.PRED "_venta_n_rel" ]. ventaja_n1 := n_cp_prop_count_le & [ STEM < "ventaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventaja_n_rel" ] ]. ventajoso_a1 := a_qual_intr_ser_le & [ STEM < "ventajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ventajoso_a_rel" ]. ventana_n1 := n_intr_count_le & [ STEM < "ventana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventana_n_rel" ] ]. ventanal_n1 := n_intr_count_le & [ STEM < "ventanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventanal_n_rel" ] ]. ventanilla_n1 := n_intr_count_le & [ STEM < "ventanilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ventanilla_n_rel" ] ]. ventanita_n1 := n_intr_count_le & [ STEM < "ventanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventanita_n_rel" ] ]. ventilación_n1 := n_trans_le & [ STEM < "ventilación" >, SYNSEM.LKEYS.KEYREL.PRED "_ventilación_n_rel" ]. ventiladamente_x1 := av_i_spr_le & [ STEM < "ventiladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ventiladamente_x_rel" ]. ventilador_n1 := n_intr_count_le & [ STEM < "ventilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ventilador_n_rel" ] ]. ventilar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "ventilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ventilar_v_rel" ] ]. ventilar_v2 := v_ditrans*_le & [ STEM < "ventilar" >, SYNSEM.LKEYS.KEYREL.PRED "_ventilar_v_rel" ]. ventisquero_n1 := n_intr_count_le & [ STEM < "ventisquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ventisquero_n_rel" ] ]. ventolera_n1 := n_intr_count_le & [ STEM < "ventolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventolera_n_rel" ] ]. ventosa_n1 := n_intr_count_le & [ STEM < "ventosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventosa_n_rel" ] ]. ventosidad_n1 := n_intr_count_le & [ STEM < "ventosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventosidad_n_rel" ] ]. ventoso_a1 := a_qual_intr_ser_le & [ STEM < "ventoso" >, SYNSEM.LKEYS.KEYREL.PRED "_ventoso_a_rel" ]. ventral_a1 := a_rel_nonprd_intr_le & [ STEM < "ventral" >, SYNSEM.LKEYS.KEYREL.PRED "_ventral_a_rel" ]. ventralmente_x1 := av_i_spr_le & [ STEM < "ventralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ventralmente_x_rel" ]. ventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "ventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_ventricular_a_rel" ]. ventrículo_n1 := n_intr_count_le & [ STEM < "ventrículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ventrículo_n_rel" ] ]. ventrílocuo_n1 := n_intr_count_le & [ STEM < "ventrílocuo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ventrílocuo_n_rel" ] ]. ventura_n1 := n_intr_mass-or-count_le & [ STEM < "ventura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventura_n_rel" ] ]. venturi_n1 := n_intr_count_le & [ STEM < "venturi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_venturi_n_rel" ] ]. venturosamente_x1 := av_i_spr_le & [ STEM < "venturosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_venturosamente_x_rel" ]. venturoso_a1 := a_qual_intr_ser_le & [ STEM < "venturoso" >, SYNSEM.LKEYS.KEYREL.PRED "_venturoso_a_rel" ]. venéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "venéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_venéreo_a_rel" ]. ver_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "ver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ver_v_rel" ] ]. ver_v2 := v_intr_mrkd_np_le & [ STEM < "ver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ver_v_rel" ] ]. ver_v3 := v_trans_cp_prop_fin_le & [ STEM < "ver" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ver_v_rel" ] ]. ver_v5 := v_osr_le & [ STEM < "ver" >, SYNSEM.LKEYS.KEYREL.PRED "_ver_v_rel" ]. vera_n1 := n_intr_count_le & [ STEM < "vera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vera_n_rel" ] ]. veracidad_n1 := n_intr_uncount_le & [ STEM < "veracidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_veracidad_n_rel" ] ]. veranda_n1 := n_intr_count_le & [ STEM < "veranda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_veranda_n_rel" ] ]. veraneante_n1 := n_intr_count_le & [ STEM < "veraneante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_veraneante_n_rel" ] ]. veranear_v := v_unacc_lcomp_loc*_le & [ STEM < "veranear" >, SYNSEM.LKEYS.KEYREL.PRED "_veranear_v_rel" ]. veraneo_n1 := n_result_intr_le & [ STEM < "veraneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_veraneo_n_rel" ] ]. veraniego_a1 := a_qual_intr_ser_le & [ STEM < "veraniego" >, SYNSEM.LKEYS.KEYREL.PRED "_veraniego_a_rel" ]. verano_n1 := n_intr_count_le & [ STEM < "verano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_verano_n_rel" ] ]. veratrina_n1 := n_intr_count_le & [ STEM < "veratrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_veratrina_n_rel" ] ]. veratrol_n1 := n_intr_count_le & [ STEM < "veratrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_veratrol_n_rel" ] ]. veraz_a1 := a_qual_intr_ser_le & [ STEM < "veraz" >, SYNSEM.LKEYS.KEYREL.PRED "_veraz_a_rel" ]. verbal_a1 := a_rel_nonprd_intr_le & [ STEM < "verbal" >, SYNSEM.LKEYS.KEYREL.PRED "_verbal_a_rel" ]. verbalismo_n1 := n_intr_uncount_le & [ STEM < "verbalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verbalismo_n_rel" ] ]. verbalización_n1 := n_trans_le & [ STEM < "verbalización" >, SYNSEM.LKEYS.KEYREL.PRED "_verbalización_n_rel" ]. verbalmente_x1 := av_i_spr_le & [ STEM < "verbalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_verbalmente_x_rel" ]. verbosidad_n1 := n_intr_uncount_le & [ STEM < "verbosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verbosidad_n_rel" ] ]. verbosidad_n2 := n_intr_count_le & [ STEM < "verbosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verbosidad_n_rel" ] ]. verboso_a1 := a_qual_intr_ser_le & [ STEM < "verboso" >, SYNSEM.LKEYS.KEYREL.PRED "_verboso_a_rel" ]. verbotonal_a1 := a_rel_nonprd_intr_le & [ STEM < "verbotonal" >, SYNSEM.LKEYS.KEYREL.PRED "_verbotonal_a_rel" ]. verdad_n1 := n_intr_count_le & [ STEM < "verdad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verdad_n_rel" ] ]. verdaderamente_x1 := av_s_prhd_le & [ STEM < "verdaderamente" >, SYNSEM.LKEYS.KEYREL.PRED "_verdaderamente_x_rel" ]. verdadero_a1 := a_qual_intr_ser_le & [ STEM < "verdadero" >, SYNSEM.LKEYS.KEYREL.PRED "_verdadero_a_rel" ]. verde_a1 := a_qual_intr_ser_le & [ STEM < "verde" >, SYNSEM.LKEYS.KEYREL.PRED "_verde_a_rel" ]. verdelita_n1 := n_intr_count_le & [ STEM < "verdelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_verdelita_n_rel" ] ]. verderón_n1 := n_intr_count_le & [ STEM < "verderón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_verderón_n_rel" ] ]. verdiblanco_a1 := a_qual_intr_ser_le & [ STEM < "verdiblanco" >, SYNSEM.LKEYS.KEYREL.PRED "_verdiblanco_a_rel" ]. verdiblanco_n1 := n_intr_count_le & [ STEM < "verdiblanco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_verdiblanco_n_rel" ] ]. verdinegro_a1 := a_qual_intr_ser_le & [ STEM < "verdinegro" >, SYNSEM.LKEYS.KEYREL.PRED "_verdinegro_a_rel" ]. verdinegro_n1 := n_intr_count_le & [ STEM < "verdinegro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_verdinegro_n_rel" ] ]. verdita_n1 := n_intr_count_le & [ STEM < "verdita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_verdita_n_rel" ] ]. verdor_n1 := n_ppcomp_mass-or-count_le & [ STEM < "verdor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verdor_n_rel" ] ]. verdoso_a1 := a_qual_intr_ser_le & [ STEM < "verdoso" >, SYNSEM.LKEYS.KEYREL.PRED "_verdoso_a_rel" ]. verdugo_n1 := n_intr_count_le & [ STEM < "verdugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_verdugo_n_rel" ] ]. verdulero_n1 := n_intr_count_le & [ STEM < "verdulero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_verdulero_n_rel" ] ]. verdulería_n1 := n_intr_count_le & [ STEM < "verdulería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_verdulería_n_rel" ] ]. verdura_n1 := n_intr_mass_le & [ STEM < "verdura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verdura_n_rel" ] ]. verdín_n1 := n_intr_count_le & [ STEM < "verdín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verdín_n_rel" ] ]. vereda_n1 := n_intr_count_le & [ STEM < "vereda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vereda_n_rel" ] ]. verga_n1 := n_intr_count_le & [ STEM < "verga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verga_n_rel" ] ]. vergel_n1 := n_intr_count_le & [ STEM < "vergel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vergel_n_rel" ] ]. vergencia_n1 := n_intr_uncount_le & [ STEM < "vergencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vergencia_n_rel" ] ]. vergonzante_a1 := a_qual_intr_ser_le & [ STEM < "vergonzante" >, SYNSEM.LKEYS.KEYREL.PRED "_vergonzante_a_rel" ]. vergonzantemente_x1 := av_i_spr_le & [ STEM < "vergonzantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_vergonzantemente_x_rel" ]. vergonzosamente_x1 := av_i_spr_le & [ STEM < "vergonzosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vergonzosamente_x_rel" ]. vergonzoso_a1 := a_qual_intr_ser_le & [ STEM < "vergonzoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vergonzoso_a_rel" ]. vergüenza_n1 := n_intr_mass_le & [ STEM < "vergüenza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vergüenza_n_rel" ] ]. verificabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "verificabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verificabilidad_n_rel" ] ]. verificable_a1 := a_rel_prd_le & [ STEM < "verificable" >, SYNSEM.LKEYS.KEYREL.PRED "_verificable_a_rel" ]. verificación_n1 := n_trans_le & [ STEM < "verificación" >, SYNSEM.LKEYS.KEYREL.PRED "_verificación_n_rel" ]. verificador_a1 := a_rel_nonprd_intr_le & [ STEM < "verificador" >, SYNSEM.LKEYS.KEYREL.PRED "_verificador_a_rel" ]. verificador_n1 := n_intr_count_le & [ STEM < "verificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verificador_n_rel" ] ]. verificadora_n1 := n_intr_count_le & [ STEM < "verificadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verificadora_n_rel" ] ]. verificar_v1 := v_trans_cp_prop_fin_le & [ STEM < "verificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_verificar_v_rel" ] ]. verificar_v2 := v_trans_np_le & [ STEM < "verificar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_verificar_v_rel" ] ]. verismo_n1 := n_intr_uncount_le & [ STEM < "verismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verismo_n_rel" ] ]. verista_n1 := n_intr_count_le & [ STEM < "verista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_verista_n_rel" ] ]. verja_n1 := n_intr_count_le & [ STEM < "verja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verja_n_rel" ] ]. vermicida_a1 := a_rel_nonprd_intr_le & [ STEM < "vermicida" >, SYNSEM.LKEYS.KEYREL.PRED "_vermicida_a_rel" ]. vermicida_n1 := n_intr_mass_le & [ STEM < "vermicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vermicida_n_rel" ] ]. vermicular_a1 := a_rel_nonprd_intr_le & [ STEM < "vermicular" >, SYNSEM.LKEYS.KEYREL.PRED "_vermicular_a_rel" ]. vermiculita_n1 := n_intr_count_le & [ STEM < "vermiculita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vermiculita_n_rel" ] ]. vermiforme_a1 := a_rel_nonprd_intr_le & [ STEM < "vermiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_vermiforme_a_rel" ]. verminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "verminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_verminoso_a_rel" ]. vermut_n1 := n_intr_mass_le & [ STEM < "vermut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vermut_n_rel" ] ]. vermífugo_a1 := a_rel_nonprd_intr_le & [ STEM < "vermífugo" >, SYNSEM.LKEYS.KEYREL.PRED "_vermífugo_a_rel" ]. vermífugo_n1 := n_intr_count_le & [ STEM < "vermífugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vermífugo_n_rel" ] ]. vermú_n1 := n_intr_count_le & [ STEM < "vermú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vermú_n_rel" ] ]. vernal_a1 := a_rel_nonprd_intr_le & [ STEM < "vernal" >, SYNSEM.LKEYS.KEYREL.PRED "_vernal_a_rel" ]. vernáculo_a1 := a_rel_nonprd_intr_le & [ STEM < "vernáculo" >, SYNSEM.LKEYS.KEYREL.PRED "_vernáculo_a_rel" ]. vero_n1 := n_intr_count_le & [ STEM < "vero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vero_n_rel" ] ]. verosimilitud_n1 := n_ppcomp_mass_le & [ STEM < "verosimilitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verosimilitud_n_rel" ] ]. verosímil_a1 := a_qual_intr_ser_le & [ STEM < "verosímil" >, SYNSEM.LKEYS.KEYREL.PRED "_verosímil_a_rel" ]. verosímilmente_x1 := av_s_prhd_le & [ STEM < "verosímilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_verosímilmente_x_rel" ]. verraco_n1 := n_intr_count_le & [ STEM < "verraco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_verraco_n_rel" ] ]. verruga_n1 := n_ppcomp_count_le & [ STEM < "verruga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_verruga_n_rel" ] ]. verrugoso_a1 := a_qual_intr_ser_le & [ STEM < "verrugoso" >, SYNSEM.LKEYS.KEYREL.PRED "_verrugoso_a_rel" ]. versal_a1 := a_rel_nonprd_intr_le & [ STEM < "versal" >, SYNSEM.LKEYS.KEYREL.PRED "_versal_a_rel" ]. versalita_n1 := n_intr_count_le & [ STEM < "versalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_versalita_n_rel" ] ]. versar_v := v_intr_mrkd_np_le & [ STEM < "versar" >, SYNSEM.LKEYS [ --COMPKEY materia_p_sel_rel, KEYREL.PRED "_versar_v_rel" ] ]. versatilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "versatilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_versatilidad_n_rel" ] ]. versificación_n1 := n_trans_le & [ STEM < "versificación" >, SYNSEM.LKEYS.KEYREL.PRED "_versificación_n_rel" ]. versión_n1 := n_intr_count_le & [ STEM < "versión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_versión_n_rel" ] ]. verso_n1 := n_intr_count_le & [ STEM < "verso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_verso_n_rel" ] ]. versus_p_nmod := p_nmod_le & [ STEM < "versus" >, SYNSEM.LKEYS.KEYREL.PRED _versus_p_rel ]. versus_p_vmod := p_vmod_le & [ STEM < "versus" >, SYNSEM.LKEYS.KEYREL.PRED _versus_p_rel ]. versátil_a1 := a_qual_intr_ser_le & [ STEM < "versátil" >, SYNSEM.LKEYS.KEYREL.PRED "_versátil_a_rel" ]. versículo_n1 := n_intr_count_le & [ STEM < "versículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT sem, PRED "_versículo_n_rel" ] ]. vertebración_n1 := n_trans_le & [ STEM < "vertebración" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebración_n_rel" ]. vertebrado_a1 := a_rel_nonprd_intr_le & [ STEM < "vertebrado" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebrado_a_rel" ]. vertebrado_n1 := n_intr_count_le & [ STEM < "vertebrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vertebrado_n_rel" ] ]. vertebrador_a1 := a_rel_nonprd_intr_le & [ STEM < "vertebrador" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebrador_a_rel" ]. vertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "vertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebral_a_rel" ]. vertebrar_v1 := v_pron_intr_le & [ STEM < "vertebrar" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebrar_v_rel" ]. vertebrar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "vertebrar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_vertebrar_v_rel" ] ]. vertebroarterial_a1 := a_rel_nonprd_intr_le & [ STEM < "vertebroarterial" >, SYNSEM.LKEYS.KEYREL.PRED "_vertebroarterial_a_rel" ]. vertedera_n1 := n_intr_count_le & [ STEM < "vertedera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vertedera_n_rel" ] ]. vertedero_n1 := n_intr_count_le & [ STEM < "vertedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_vertedero_n_rel" ] ]. vertedor_a1 := a_rel_nonprd_intr_le & [ STEM < "vertedor" >, SYNSEM.LKEYS.KEYREL.PRED "_vertedor_a_rel" ]. vertedor_n1 := n_intr_count_le & [ STEM < "vertedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vertedor_n_rel" ] ]. vertedoramente_x1 := av_i_spr_le & [ STEM < "vertedoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_vertedoramente_x_rel" ]. verter_v := v_trans_np*_lcomp_loc_le & [ STEM < "verter" >, SYNSEM.LKEYS.KEYREL.PRED "_verter_v_rel" ]. vertical_a1 := a_qual_trans*_ser_le & [ STEM < "vertical" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_vertical_a_rel" ] ]. vertical_n1 := n_intr_count_le & [ STEM < "vertical" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vertical_n_rel" ] ]. verticalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "verticalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verticalidad_n_rel" ] ]. verticalmente_x1 := av_i_spr_le & [ STEM < "verticalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_verticalmente_x_rel" ]. verticilo_n1 := n_intr_count_le & [ STEM < "verticilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_verticilo_n_rel" ] ]. vertido_n1 := n_trans_le & [ STEM < "vertido" >, SYNSEM.LKEYS.KEYREL.PRED "_vertido_n_rel" ]. vertiginosamente_x1 := av_i_spr_le & [ STEM < "vertiginosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vertiginosamente_x_rel" ]. vertiginoso_a1 := a_qual_intr_ser_le & [ STEM < "vertiginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vertiginoso_a_rel" ]. vertisol_n1 := n_intr_mass_le & [ STEM < "vertisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vertisol_n_rel" ] ]. vertisuelo_n1 := n_intr_mass_le & [ STEM < "vertisuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vertisuelo_n_rel" ] ]. verídico_a1 := a_qual_intr_ser_le & [ STEM < "verídico" >, SYNSEM.LKEYS.KEYREL.PRED "_verídico_a_rel" ]. verónica_n1 := n_intr_count_le & [ STEM < "verónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_verónica_n_rel" ] ]. vesical_a1 := a_rel_nonprd_intr_le & [ STEM < "vesical" >, SYNSEM.LKEYS.KEYREL.PRED "_vesical_a_rel" ]. vesicouterino_a1 := a_rel_nonprd_intr_le & [ STEM < "vesicouterino" >, SYNSEM.LKEYS.KEYREL.PRED "_vesicouterino_a_rel" ]. vesicular_a1 := a_rel_nonprd_intr_le & [ STEM < "vesicular" >, SYNSEM.LKEYS.KEYREL.PRED "_vesicular_a_rel" ]. vesicularmente_x1 := av_i_spr_le & [ STEM < "vesicularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vesicularmente_x_rel" ]. vesiculoso_a1 := a_rel_nonprd_intr_le & [ STEM < "vesiculoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vesiculoso_a_rel" ]. vespa_n1 := n_intr_count_le & [ STEM < "vespa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_vespa_n_rel" ] ]. vespertino_a1 := a_rel_nonprd_intr_le & [ STEM < "vespertino" >, SYNSEM.LKEYS.KEYREL.PRED "_vespertino_a_rel" ]. vestibular_a1 := a_rel_nonprd_intr_le & [ STEM < "vestibular" >, SYNSEM.LKEYS.KEYREL.PRED "_vestibular_a_rel" ]. vestibulococlear_a1 := a_rel_nonprd_intr_le & [ STEM < "vestibulococlear" >, SYNSEM.LKEYS.KEYREL.PRED "_vestibulococlear_a_rel" ]. vestibulofosal_a1 := a_rel_nonprd_intr_le & [ STEM < "vestibulofosal" >, SYNSEM.LKEYS.KEYREL.PRED "_vestibulofosal_a_rel" ]. vestibulometría_n1 := n_intr_uncount_pl_le & [ STEM < "vestibulometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vestibulometría_n_rel" ] ]. vestibuloocular_a1 := a_rel_nonprd_intr_le & [ STEM < "vestibuloocular" >, SYNSEM.LKEYS.KEYREL.PRED "_vestibuloocular_a_rel" ]. vestibulotomía_n1 := n_intr_uncount_pl_le & [ STEM < "vestibulotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vestibulotomía_n_rel" ] ]. vestido_n1 := n_intr_count_le & [ STEM < "vestido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vestido_n_rel" ] ]. vestidor_n1 := n_intr_count_le & [ STEM < "vestidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vestidor_n_rel" ] ]. vestidura_n1 := n_intr_count_le & [ STEM < "vestidura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vestidura_n_rel" ] ]. vestigial_a1 := a_rel_nonprd_intr_le & [ STEM < "vestigial" >, SYNSEM.LKEYS.KEYREL.PRED "_vestigial_a_rel" ]. vestigialmente_x1 := av_i_spr_le & [ STEM < "vestigialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vestigialmente_x_rel" ]. vestimenta_n1 := n_intr_count_le & [ STEM < "vestimenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vestimenta_n_rel" ] ]. vestir_v := v_trans_np_caus_le & [ STEM < "vestir" >, SYNSEM.LKEYS.KEYREL.PRED "_vestir_v_rel" ]. vestuario_n1 := n_intr_count_le & [ STEM < "vestuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_vestuario_n_rel" ] ]. vestíbulo_n1 := n_intr_count_le & [ STEM < "vestíbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vestíbulo_n_rel" ] ]. vesubianita_n1 := n_intr_count_le & [ STEM < "vesubianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vesubianita_n_rel" ] ]. vesícula_n1 := n_ppcomp_count_le & [ STEM < "vesícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_vesícula_n_rel" ] ]. veta_n1 := n_intr_count_le & [ STEM < "veta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_veta_n_rel" ] ]. vetar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "vetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vetar_v_rel" ] ]. vetar_v2 := v_ditrans*_le & [ STEM < "vetar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vetar_v_rel" ] ]. vetear_v := v_trans_np_le & [ STEM < "vetear" >, SYNSEM.LKEYS.KEYREL.PRED "_vetear_v_rel" ]. veterano_a1 := a_qual_intr_ser_le & [ STEM < "veterano" >, SYNSEM.LKEYS.KEYREL.PRED "_veterano_a_rel" ]. veterano_n1 := n_intr_count_le & [ STEM < "veterano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_veterano_n_rel" ] ]. veteranía_n1 := n_intr_uncount_le & [ STEM < "veteranía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_veteranía_n_rel" ] ]. veterinario_a1 := a_rel_nonprd_intr_le & [ STEM < "veterinario" >, SYNSEM.LKEYS.KEYREL.PRED "_veterinario_a_rel" ]. veterinario_n1 := n_intr_count_le & [ STEM < "veterinario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_veterinario_n_rel" ] ]. vetiverol_n1 := n_intr_count_le & [ STEM < "vetiverol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vetiverol_n_rel" ] ]. vetustez_n1 := n_ppcomp_uncount_le & [ STEM < "vetustez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vetustez_n_rel" ] ]. vez_n1 := n_intr_count_le & [ STEM < "vez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vez_n_rel" ] ]. veza_n1 := n_intr_mass_le & [ STEM < "veza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_veza_n_rel" ] ]. viabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "viabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viabilidad_n_rel" ] ]. viabilizar_v := v_trans_np_le & [ STEM < "viabilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_viabilizar_v_rel" ]. viable_a1 := a_qual_intr_ser_le & [ STEM < "viable" >, SYNSEM.LKEYS.KEYREL.PRED "_viable_a_rel" ]. viaducto_n1 := n_intr_count_le & [ STEM < "viaducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_viaducto_n_rel" ] ]. viajante_n1 := n_intr_count_le & [ STEM < "viajante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viajante_n_rel" ] ]. viajar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "viajar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_viajar_v_rel" ] ] ]. viajar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "viajar" >, SYNSEM.LKEYS.KEYREL.PRED "_viajar_v_rel" ]. viaje_n1 := n_event-result_intr_le & [ STEM < "viaje" >, SYNSEM.LKEYS.KEYREL.PRED "_viaje_n_rel" ]. viajero_n1 := n_intr_count_le & [ STEM < "viajero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viajero_n_rel" ] ]. vial_a1 := a_rel_nonprd_intr_le & [ STEM < "vial" >, SYNSEM.LKEYS.KEYREL.PRED "_vial_a_rel" ]. vial_n1 := n_intr_count_le & [ STEM < "vial" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vial_n_rel" ] ]. vialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vialidad_n_rel" ] ]. vianda_n1 := n_intr_mass_le & [ STEM < "vianda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vianda_n_rel" ] ]. viandante_n1 := n_intr_count_le & [ STEM < "viandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viandante_n_rel" ] ]. viario_a1 := a_rel_nonprd_intr_le & [ STEM < "viario" >, SYNSEM.LKEYS.KEYREL.PRED "_viario_a_rel" ]. vibración_n1 := n_intr_mass_le & [ STEM < "vibración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vibración_n_rel" ] ]. vibrador_a1 := a_rel_nonprd_intr_le & [ STEM < "vibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_vibrador_a_rel" ]. vibrador_n1 := n_intr_count_le & [ STEM < "vibrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vibrador_n_rel" ] ]. vibrante_a1 := a_qual_intr_ser_le & [ STEM < "vibrante" >, SYNSEM.LKEYS.KEYREL.PRED "_vibrante_a_rel" ]. vibrar_v := v_unacc_le & [ STEM < "vibrar" >, SYNSEM.LKEYS.KEYREL.PRED "_vibrar_v_rel" ]. vibratoriamente_x1 := av_i_spr_le & [ STEM < "vibratoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vibratoriamente_x_rel" ]. vibratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "vibratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_vibratorio_a_rel" ]. vibráfono_n1 := n_intr_count_le & [ STEM < "vibráfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vibráfono_n_rel" ] ]. vibrátil_a1 := a_rel_nonprd_intr_le & [ STEM < "vibrátil" >, SYNSEM.LKEYS.KEYREL.PRED "_vibrátil_a_rel" ]. vibrógrafo_n1 := n_intr_count_le & [ STEM < "vibrógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vibrógrafo_n_rel" ] ]. vibrómetro_n1 := n_intr_count_le & [ STEM < "vibrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vibrómetro_n_rel" ] ]. viburno_n1 := n_intr_count_le & [ STEM < "viburno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_viburno_n_rel" ] ]. vicarial_a1 := a_rel_nonprd_intr_le & [ STEM < "vicarial" >, SYNSEM.LKEYS.KEYREL.PRED "_vicarial_a_rel" ]. vicarialmente_x1 := av_i_spr_le & [ STEM < "vicarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vicarialmente_x_rel" ]. vicariante_a1 := a_rel_nonprd_intr_le & [ STEM < "vicariante" >, SYNSEM.LKEYS.KEYREL.PRED "_vicariante_a_rel" ]. vicarianza_n1 := n_intr_uncount_le & [ STEM < "vicarianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vicarianza_n_rel" ] ]. vicario_n1 := n_intr_count_le & [ STEM < "vicario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicario_n_rel" ] ]. vicealmirante_n1 := n_intr_count_le & [ STEM < "vicealmirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicealmirante_n_rel" ] ]. vicecónsul_n1 := n_intr_count_le & [ STEM < "vicecónsul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicecónsul_n_rel" ] ]. vicedirector_n1 := n_subj-nom_le & [ STEM < "vicedirector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicedirector_n_rel" ] ]. vicegerente_n1 := n_intr_count_le & [ STEM < "vicegerente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicegerente_n_rel" ] ]. vicegobernador_n1 := n_subj-nom_le & [ STEM < "vicegobernador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicegobernador_n_rel" ] ]. viceministro_n1 := n_intr_count_le & [ STEM < "viceministro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viceministro_n_rel" ] ]. vicepresidencia_n1 := n_intr_uncount_le & [ STEM < "vicepresidencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vicepresidencia_n_rel" ] ]. vicepresidente_n1 := n_intr_count_le & [ STEM < "vicepresidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vicepresidente_n_rel" ] ]. vichyssoise_n1 := n_intr_count_le & [ STEM < "vichyssoise" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vichyssoise_n_rel" ] ]. viciar_v := v_trans_np_caus_le & [ STEM < "viciar" >, SYNSEM.LKEYS.KEYREL.PRED "_viciar_v_rel" ]. vicioso_a1 := a_qual_intr_ser_le & [ STEM < "vicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_vicioso_a_rel" ]. vicisitud_n1 := n_intr_count_le & [ STEM < "vicisitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vicisitud_n_rel" ] ]. victimismo_n1 := n_intr_uncount_le & [ STEM < "victimismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_victimismo_n_rel" ] ]. victimización_n1 := n_trans_le & [ STEM < "victimización" >, SYNSEM.LKEYS.KEYREL.PRED "_victimización_n_rel" ]. victimología_n1 := n_intr_uncount_le & [ STEM < "victimología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_victimología_n_rel" ] ]. victoriano_a1 := a_rel_nonprd_intr_le & [ STEM < "victoriano" >, SYNSEM.LKEYS.KEYREL.PRED "_victoriano_a_rel" ]. victoriato_n1 := n_intr_uncount_le & [ STEM < "victoriato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_victoriato_n_rel" ] ]. victoriato_n2 := n_intr_count_le & [ STEM < "victoriato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_victoriato_n_rel" ] ]. victoriosamente_x1 := av_i_spr_le & [ STEM < "victoriosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_victoriosamente_x_rel" ]. victorioso_a1 := a_qual_intr_ser_le & [ STEM < "victorioso" >, SYNSEM.LKEYS.KEYREL.PRED "_victorioso_a_rel" ]. vid_n1 := n_intr_count_le & [ STEM < "vid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_vid_n_rel" ] ]. vida_n1 := n_event-result_intr_le & [ STEM < "vida" >, SYNSEM.LKEYS.KEYREL.PRED "_vida_n_rel" ]. vidente_n1 := n_intr_count_le & [ STEM < "vidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vidente_n_rel" ] ]. videoarte_n1 := n_intr_count_le & [ STEM < "videoarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_videoarte_n_rel" ] ]. videocasete_n1 := n_intr_count_le & [ STEM < "videocasete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videocasete_n_rel" ] ]. videocassette_n1 := n_intr_count_le & [ STEM < "videocassette" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videocassette_n_rel" ] ]. videocinta_n1 := n_intr_count_le & [ STEM < "videocinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_videocinta_n_rel" ] ]. videoclip_n1 := n_intr_count_le & [ STEM < "videoclip" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_videoclip_n_rel" ] ]. videoclub_n1 := n_intr_count_le & [ STEM < "videoclub" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_videoclub_n_rel" ] ]. videoconferencia_n1 := n_intr_count_le & [ STEM < "videoconferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videoconferencia_n_rel" ] ]. videocámara_n1 := n_intr_count_le & [ STEM < "videocámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videocámara_n_rel" ] ]. videodisco_n1 := n_intr_count_le & [ STEM < "videodisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videodisco_n_rel" ] ]. videofonía_n1 := n_intr_uncount_le & [ STEM < "videofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videofonía_n_rel" ] ]. videofrecuencia_n1 := n_intr_uncount_le & [ STEM < "videofrecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videofrecuencia_n_rel" ] ]. videografía_n1 := n_intr_uncount_pl_le & [ STEM < "videografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videografía_n_rel" ] ]. videomagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "videomagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_videomagnético_a_rel" ]. videomarcador_n1 := n_intr_count_le & [ STEM < "videomarcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videomarcador_n_rel" ] ]. videotarjeta_n1 := n_intr_count_le & [ STEM < "videotarjeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videotarjeta_n_rel" ] ]. videoteca_n1 := n_intr_count_le & [ STEM < "videoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_videoteca_n_rel" ] ]. videotecnología_n1 := n_intr_uncount_pl_le & [ STEM < "videotecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videotecnología_n_rel" ] ]. videotelefonía_n1 := n_intr_uncount_le & [ STEM < "videotelefonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videotelefonía_n_rel" ] ]. videotexto_n1 := n_intr_count_le & [ STEM < "videotexto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_videotexto_n_rel" ] ]. videófono_n1 := n_intr_count_le & [ STEM < "videófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_videófono_n_rel" ] ]. vidriado_n1 := n_intr_mass_le & [ STEM < "vidriado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vidriado_n_rel" ] ]. vidriar_v := v_trans_np_caus_le & [ STEM < "vidriar" >, SYNSEM.LKEYS.KEYREL.PRED "_vidriar_v_rel" ]. vidriera_n1 := n_intr_count_le & [ STEM < "vidriera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vidriera_n_rel" ] ]. vidriero_n1 := n_intr_count_le & [ STEM < "vidriero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vidriero_n_rel" ] ]. vidriería_n1 := n_intr_count_le & [ STEM < "vidriería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vidriería_n_rel" ] ]. vidrio_n1 := n_intr_mass_le & [ STEM < "vidrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vidrio_n_rel" ] ]. vidrioso_a1 := a_qual_intr_scopal_le & [ STEM < "vidrioso" >, SYNSEM.LKEYS.KEYREL.PRED "_vidrioso_a_rel" ]. vidual_a1 := a_rel_nonprd_intr_le & [ STEM < "vidual" >, SYNSEM.LKEYS.KEYREL.PRED "_vidual_a_rel" ]. vieira_n1 := n_intr_count_le & [ STEM < "vieira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_vieira_n_rel" ] ]. viejo_a1 := a_adv_event_le & [ STEM < "viejo" >, SYNSEM.LKEYS.KEYREL.PRED "_viejo_a_rel" ]. viejo_a2 := a_qual_intr_scopal_le & [ STEM < "viejo" >, SYNSEM.LKEYS.KEYREL.PRED "_viejo_a_rel" ]. viejo_n1 := n_intr_count_le & [ STEM < "viejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viejo_n_rel" ] ]. vientre_n1 := n_ppcomp_count_le & [ STEM < "vientre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_vientre_n_rel" ] ]. vienés_a1 := a_rel_prd_le & [ STEM < "vienés" >, SYNSEM.LKEYS.KEYREL.PRED "_vienés_a_rel" ]. vienés_n1 := n_intr_count_le & [ STEM < "vienés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vienés_n_rel" ] ]. vierteagua_n1 := n_intr_count_le & [ STEM < "vierteagua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vierteagua_n_rel" ] ]. vietnamita_a1 := a_rel_prd_le & [ STEM < "vietnamita" >, SYNSEM.LKEYS.KEYREL.PRED "_vietnamita_a_rel" ]. vietnamita_n1 := n_intr_count_le & [ STEM < "vietnamita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vietnamita_n_rel" ] ]. viga_n1 := n_intr_count_le & [ STEM < "viga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_viga_n_rel" ] ]. vigencia_n1 := n_ppcomp_uncount_le & [ STEM < "vigencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vigencia_n_rel" ] ]. vigente_a1 := a_qual_intr_estar_le & [ STEM < "vigente" >, SYNSEM.LKEYS.KEYREL.PRED "_vigente_a_rel" ]. vigilancia_n1 := n_trans_le & [ STEM < "vigilancia" >, SYNSEM.LKEYS.KEYREL.PRED "_vigilancia_n_rel" ]. vigilante_a1 := a_rel_nonprd_intr_le & [ STEM < "vigilante" >, SYNSEM.LKEYS.KEYREL.PRED "_vigilante_a_rel" ]. vigilante_n1 := n_intr_count_le & [ STEM < "vigilante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vigilante_n_rel" ] ]. vigilar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "vigilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vigilar_v_rel" ] ]. vigilar_v2 := v_trans_np_le & [ STEM < "vigilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vigilar_v_rel" ] ]. vigor_n1 := n_intr_mass_le & [ STEM < "vigor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vigor_n_rel" ] ]. vigorizador_a1 := a_rel_nonprd_intr_le & [ STEM < "vigorizador" >, SYNSEM.LKEYS.KEYREL.PRED "_vigorizador_a_rel" ]. vigorizante_a1 := a_qual_intr_ser_le & [ STEM < "vigorizante" >, SYNSEM.LKEYS.KEYREL.PRED "_vigorizante_a_rel" ]. vigorosamente_x1 := av_i_spr_le & [ STEM < "vigorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vigorosamente_x_rel" ]. vigorosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vigorosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vigorosidad_n_rel" ] ]. vigoroso_a1 := a_qual_intr_ser_le & [ STEM < "vigoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_vigoroso_a_rel" ]. vigota_n1 := n_intr_count_le & [ STEM < "vigota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vigota_n_rel" ] ]. vigueta_n1 := n_intr_count_le & [ STEM < "vigueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vigueta_n_rel" ] ]. vigués_a1 := a_rel_prd_le & [ STEM < "vigués" >, SYNSEM.LKEYS.KEYREL.PRED "_vigués_a_rel" ]. vigía_n1 := n_intr_count_le & [ STEM < "vigía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vigía_n_rel" ] ]. vikingo_a1 := a_rel_nonprd_intr_le & [ STEM < "vikingo" >, SYNSEM.LKEYS.KEYREL.PRED "_vikingo_a_rel" ]. vikingo_n1 := n_intr_count_le & [ STEM < "vikingo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vikingo_n_rel" ] ]. vil_a1 := a_qual_intr_ser_le & [ STEM < "vil" >, SYNSEM.LKEYS.KEYREL.PRED "_vil_a_rel" ]. vileza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vileza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vileza_n_rel" ] ]. vilipendioso_a1 := a_rel_nonprd_intr_le & [ STEM < "vilipendioso" >, SYNSEM.LKEYS.KEYREL.PRED "_vilipendioso_a_rel" ]. villa_n1 := n_intr_count_le & [ STEM < "villa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc_soc, PRED "_villa_n_rel" ] ]. villano_n1 := n_intr_count_le & [ STEM < "villano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_villano_n_rel" ] ]. vilmente_x1 := av_i_spr_le & [ STEM < "vilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vilmente_x_rel" ]. vilorta_n1 := n_intr_count_le & [ STEM < "vilorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vilorta_n_rel" ] ]. vinagre_n1 := n_intr_mass_le & [ STEM < "vinagre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vinagre_n_rel" ] ]. vinagrera_n1 := n_intr_count_le & [ STEM < "vinagrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vinagrera_n_rel" ] ]. vinagreta_n1 := n_intr_mass_le & [ STEM < "vinagreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vinagreta_n_rel" ] ]. vinatero_n1 := n_intr_count_le & [ STEM < "vinatero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vinatero_n_rel" ] ]. vinblastina_n1 := n_intr_count_le & [ STEM < "vinblastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vinblastina_n_rel" ] ]. vinculación_n1 := n_trans_le & [ STEM < "vinculación" >, SYNSEM.LKEYS.KEYREL.PRED "_vinculación_n_rel" ]. vinculante_a1 := a_rel_nonprd_intr_le & [ STEM < "vinculante" >, SYNSEM.LKEYS.KEYREL.PRED "_vinculante_a_rel" ]. vincular_v := v_trans_np_mrkd_np*_le & [ STEM < "vincular" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_vincular_v_rel" ] ]. vindicación_n1 := n_trans_le & [ STEM < "vindicación" >, SYNSEM.LKEYS.KEYREL.PRED "_vindicación_n_rel" ]. vindicativo_a1 := a_rel_nonprd_intr_le & [ STEM < "vindicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_vindicativo_a_rel" ]. vindicatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "vindicatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_vindicatorio_a_rel" ]. vinicultor_n1 := n_intr_count_le & [ STEM < "vinicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vinicultor_n_rel" ] ]. vinicultura_n1 := n_intr_uncount_le & [ STEM < "vinicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vinicultura_n_rel" ] ]. vinificación_n1 := n_intr_uncount_le & [ STEM < "vinificación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vinificación_n_rel" ] ]. vinilacetileno_n1 := n_intr_count_le & [ STEM < "vinilacetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vinilacetileno_n_rel" ] ]. vinilcarbazol_n1 := n_intr_count_le & [ STEM < "vinilcarbazol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vinilcarbazol_n_rel" ] ]. vinilo_n1 := n_intr_mass_le & [ STEM < "vinilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vinilo_n_rel" ] ]. vino_n1 := n_intr_mass_le & [ STEM < "vino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vino_n_rel" ] ]. vinícola_a1 := a_rel_nonprd_intr_le & [ STEM < "vinícola" >, SYNSEM.LKEYS.KEYREL.PRED "_vinícola_a_rel" ]. vinílico_a1 := a_rel_nonprd_intr_le & [ STEM < "vinílico" >, SYNSEM.LKEYS.KEYREL.PRED "_vinílico_a_rel" ]. viola_n1 := n_intr_count_le & [ STEM < "viola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_viola_n_rel" ] ]. violabilidad_n1 := n_intr_uncount_le & [ STEM < "violabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_violabilidad_n_rel" ] ]. violación_n1 := n_trans_le & [ STEM < "violación" >, SYNSEM.LKEYS.KEYREL.PRED "_violación_n_rel" ]. violador_n1 := n_subj-nom_le & [ STEM < "violador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_violador_n_rel" ] ]. violar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "violar" >, SYNSEM.LKEYS.KEYREL.PRED "_violar_v_rel" ]. violar_v2 := v_trans_np_le & [ STEM < "violar" >, SYNSEM.LKEYS.KEYREL.PRED "_violar_v_rel" ]. violatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "violatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_violatorio_a_rel" ]. violencia_n1 := n_ppcomp_mass_le & [ STEM < "violencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_violencia_n_rel" ] ]. violentamente_x1 := av_i_spr_le & [ STEM < "violentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_violentamente_x_rel" ]. violentar_v1 := v_intr_io*_le & [ STEM < "violentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_violentar_v_rel" ] ]. violentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "violentar" >, SYNSEM.LKEYS.KEYREL.PRED "_violentar_v_rel" ]. violentar_v3 := v_trans_np_caus_le & [ STEM < "violentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_violentar_v_rel" ] ]. violento_a1 := a_qual_intr_ser_le & [ STEM < "violento" >, SYNSEM.LKEYS.KEYREL.PRED "_violento_a_rel" ]. violeta_a1 := a_qual_intr_ser_le & [ STEM < "violeta" >, SYNSEM.LKEYS.KEYREL.PRED "_violeta_a_rel" ]. violeta_n1 := n_intr_count_le & [ STEM < "violeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_violeta_n_rel" ] ]. violinista_n1 := n_intr_count_le & [ STEM < "violinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_violinista_n_rel" ] ]. violista_n1 := n_intr_count_le & [ STEM < "violista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_violista_n_rel" ] ]. violoncelista_n1 := n_intr_count_le & [ STEM < "violoncelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_violoncelista_n_rel" ] ]. violoncelo_n1 := n_intr_count_le & [ STEM < "violoncelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_violoncelo_n_rel" ] ]. violonchelo_n1 := n_intr_count_le & [ STEM < "violonchelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_violonchelo_n_rel" ] ]. violáceo_a1 := a_qual_intr_ser_le & [ STEM < "violáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_violáceo_a_rel" ]. violán_n1 := n_intr_count_le & [ STEM < "violán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_violán_n_rel" ] ]. violín_n1 := n_intr_count_le & [ STEM < "violín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_violín_n_rel" ] ]. viomicina_n1 := n_intr_count_le & [ STEM < "viomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_viomicina_n_rel" ] ]. viperino_a1 := a_rel_nonprd_intr_le & [ STEM < "viperino" >, SYNSEM.LKEYS.KEYREL.PRED "_viperino_a_rel" ]. virada_n1 := n_trans_le & [ STEM < "virada" >, SYNSEM.LKEYS.KEYREL.PRED "_virada_n_rel" ]. virada_n2 := n_result_intr_le & [ STEM < "virada" >, SYNSEM.LKEYS.KEYREL.PRED "_virada_n_rel" ]. virado_n1 := n_event-result_intr_le & [ STEM < "virado" >, SYNSEM.LKEYS.KEYREL.PRED "_virado_n_rel" ]. virador_n1 := n_intr_count_le & [ STEM < "virador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_virador_n_rel" ] ]. viraje_n1 := n_trans_le & [ STEM < "viraje" >, SYNSEM.LKEYS.KEYREL.PRED "_viraje_n_rel" ]. viral_a1 := a_rel_nonprd_intr_le & [ STEM < "viral" >, SYNSEM.LKEYS.KEYREL.PRED "_viral_a_rel" ]. virar_v1 := v_trans_np_lcomp_dir*_le & [ STEM < "virar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_virar_v_rel" ] ]. virar_v2 := v_unacc_lcomp_dir*_le & [ STEM < "virar" >, SYNSEM.LKEYS.KEYREL.PRED "_virar_v_rel" ]. virgen_a1 := a_rel_prd_le & [ STEM < "virgen" >, SYNSEM.LKEYS.KEYREL.PRED "_virgen_a_rel" ]. virgen_n1 := n_intr_count_le & [ STEM < "virgen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_virgen_n_rel" ] ]. virginal_a1 := a_qual_intr_ser_le & [ STEM < "virginal" >, SYNSEM.LKEYS.KEYREL.PRED "_virginal_a_rel" ]. virginidad_n1 := n_intr_uncount_le & [ STEM < "virginidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virginidad_n_rel" ] ]. viril_a1 := a_qual_intr_ser_le & [ STEM < "viril" >, SYNSEM.LKEYS.KEYREL.PRED "_viril_a_rel" ]. virilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "virilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virilidad_n_rel" ] ]. virilmente_x1 := av_i_spr_le & [ STEM < "virilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_virilmente_x_rel" ]. virogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "virogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_virogenético_a_rel" ]. virola_n1 := n_intr_count_le & [ STEM < "virola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_virola_n_rel" ] ]. virolado_a1 := a_rel_nonprd_intr_le & [ STEM < "virolado" >, SYNSEM.LKEYS.KEYREL.PRED "_virolado_a_rel" ]. virología_n1 := n_intr_uncount_le & [ STEM < "virología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virología_n_rel" ] ]. virreinato_n1 := n_intr_count_le & [ STEM < "virreinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virreinato_n_rel" ] ]. virrey_n1 := n_intr_count_le & [ STEM < "virrey" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_virrey_n_rel" ] ]. virtual_a1 := a_rel_nonprd_intr_le & [ STEM < "virtual" >, SYNSEM.LKEYS.KEYREL.PRED "_virtual_a_rel" ]. virtualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "virtualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virtualidad_n_rel" ] ]. virtualización_n1 := n_intr_uncount_le & [ STEM < "virtualización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virtualización_n_rel" ] ]. virtualizar_v := v_trans_np_le & [ STEM < "virtualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_virtualizar_v_rel" ]. virtualmente_x1 := av_s_prhd_le & [ STEM < "virtualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_virtualmente_x_rel" ]. virtud_n1 := n_intr_count_le & [ STEM < "virtud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virtud_n_rel" ] ]. virtuosismo_n1 := n_intr_uncount_le & [ STEM < "virtuosismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virtuosismo_n_rel" ] ]. virtuoso_a1 := a_qual_intr_ser_le & [ STEM < "virtuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_virtuoso_a_rel" ]. virtuoso_n1 := n_intr_count_le & [ STEM < "virtuoso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_virtuoso_n_rel" ] ]. virulencia_n1 := n_ppcomp_mass_le & [ STEM < "virulencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_virulencia_n_rel" ] ]. virulento_a1 := a_qual_intr_ser_le & [ STEM < "virulento" >, SYNSEM.LKEYS.KEYREL.PRED "_virulento_a_rel" ]. virus_n1 := n_intr_count_le & [ STEM < "virus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_virus_n_rel" ] ]. viruta_n1 := n_intr_count_le & [ STEM < "viruta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_viruta_n_rel" ] ]. virólogo_n1 := n_intr_count_le & [ STEM < "virólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_virólogo_n_rel" ] ]. visado_n1 := n_intr_count_le & [ STEM < "visado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_visado_n_rel" ] ]. visar_v := v_trans_np_le & [ STEM < "visar" >, SYNSEM.LKEYS.KEYREL.PRED "_visar_v_rel" ]. visceral_a1 := a_qual_intr_ser_le & [ STEM < "visceral" >, SYNSEM.LKEYS.KEYREL.PRED "_visceral_a_rel" ]. viscoelasticidad_n1 := n_intr_uncount_le & [ STEM < "viscoelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viscoelasticidad_n_rel" ] ]. viscoelástico_a1 := a_rel_nonprd_intr_le & [ STEM < "viscoelástico" >, SYNSEM.LKEYS.KEYREL.PRED "_viscoelástico_a_rel" ]. viscosa_n1 := n_intr_mass_le & [ STEM < "viscosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_viscosa_n_rel" ] ]. viscosidad_n1 := n_intr_mass_le & [ STEM < "viscosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viscosidad_n_rel" ] ]. viscosimetría_n1 := n_intr_uncount_pl_le & [ STEM < "viscosimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viscosimetría_n_rel" ] ]. viscoso_a1 := a_qual_intr_scopal_le & [ STEM < "viscoso" >, SYNSEM.LKEYS.KEYREL.PRED "_viscoso_a_rel" ]. viscosímetro_n1 := n_intr_count_le & [ STEM < "viscosímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_viscosímetro_n_rel" ] ]. visera_n1 := n_intr_count_le & [ STEM < "visera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_visera_n_rel" ] ]. visibilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "visibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_visibilidad_n_rel" ] ]. visible_a1 := a_qual_intr_scopal_le & [ STEM < "visible" >, SYNSEM.LKEYS.KEYREL.PRED "_visible_a_rel" ]. visiblemente_x1 := av_s_spr_le & [ STEM < "visiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_visiblemente_x_rel" ]. visigodo_n1 := n_intr_count_le & [ STEM < "visigodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_visigodo_n_rel" ] ]. visigótico_a1 := a_rel_nonprd_intr_le & [ STEM < "visigótico" >, SYNSEM.LKEYS.KEYREL.PRED "_visigótico_a_rel" ]. visillo_n1 := n_intr_count_le & [ STEM < "visillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_visillo_n_rel" ] ]. visionar_v := v_trans_np_le & [ STEM < "visionar" >, SYNSEM.LKEYS.KEYREL.PRED "_visionar_v_rel" ]. visionario_a1 := a_qual_intr_ser_le & [ STEM < "visionario" >, SYNSEM.LKEYS.KEYREL.PRED "_visionario_a_rel" ]. visionario_n1 := n_intr_count_le & [ STEM < "visionario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_visionario_n_rel" ] ]. visir_n1 := n_intr_count_le & [ STEM < "visir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_visir_n_rel" ] ]. visita_n1 := n_trans_le & [ STEM < "visita" >, SYNSEM.LKEYS.KEYREL.PRED "_visita_n_rel" ]. visitación_n1 := n_intr_count_le & [ STEM < "visitación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_visitación_n_rel" ] ]. visitador_n1 := n_subj-nom_le & [ STEM < "visitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_visitador_n_rel" ] ]. visitante_n1 := n_intr_count_le & [ STEM < "visitante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_visitante_n_rel" ] ]. visión_n1 := n_trans_le & [ STEM < "visión" >, SYNSEM.LKEYS.KEYREL.PRED "_visión_n_rel" ]. vislumbrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "vislumbrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vislumbrar_v_rel" ] ]. vislumbrar_v2 := v_trans_np_le & [ STEM < "vislumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_vislumbrar_v_rel" ]. visor_n1 := n_intr_count_le & [ STEM < "visor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_visor_n_rel" ] ]. vistazo_n1 := n_intr_count_le & [ STEM < "vistazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vistazo_n_rel" ] ]. vistosamente_x1 := av_i_spr_le & [ STEM < "vistosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vistosamente_x_rel" ]. vistosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vistosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vistosidad_n_rel" ] ]. vistoso_a1 := a_qual_intr_ser_le & [ STEM < "vistoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vistoso_a_rel" ]. visual_a1 := a_rel_nonprd_intr_le & [ STEM < "visual" >, SYNSEM.LKEYS.KEYREL.PRED "_visual_a_rel" ]. visualizable_a1 := a_rel_prd_le & [ STEM < "visualizable" >, SYNSEM.LKEYS.KEYREL.PRED "_visualizable_a_rel" ]. visualización_n1 := n_trans_le & [ STEM < "visualización" >, SYNSEM.LKEYS.KEYREL.PRED "_visualización_n_rel" ]. visualizador_a1 := a_rel_nonprd_intr_le & [ STEM < "visualizador" >, SYNSEM.LKEYS.KEYREL.PRED "_visualizador_a_rel" ]. visualizador_n1 := n_intr_count_le & [ STEM < "visualizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_visualizador_n_rel" ] ]. visualizar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "visualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_visualizar_v_rel" ] ]. visualizar_v2 := v_trans_np_le & [ STEM < "visualizar" >, SYNSEM.LKEYS.KEYREL.PRED "_visualizar_v_rel" ]. visualmente_x1 := av_i_spr_le & [ STEM < "visualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_visualmente_x_rel" ]. visuscopio_n1 := n_intr_count_le & [ STEM < "visuscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_visuscopio_n_rel" ] ]. visón_n1 := n_intr_count_le & [ STEM < "visón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_visón_n_rel" ] ]. vital_a1 := a_qual_intr_ser_le & [ STEM < "vital" >, SYNSEM.LKEYS.KEYREL.PRED "_vital_a_rel" ]. vitalicio_a1 := a_rel_nonprd_intr_le & [ STEM < "vitalicio" >, SYNSEM.LKEYS.KEYREL.PRED "_vitalicio_a_rel" ]. vitalidad_n1 := n_intr_mass-or-count_le & [ STEM < "vitalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vitalidad_n_rel" ] ]. vitalismo_n1 := n_ppcomp_uncount_le & [ STEM < "vitalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vitalismo_n_rel" ] ]. vitalista_a1 := a_rel_nonprd_intr_le & [ STEM < "vitalista" >, SYNSEM.LKEYS.KEYREL.PRED "_vitalista_a_rel" ]. vitalistamente_x1 := av_i_spr_le & [ STEM < "vitalistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vitalistamente_x_rel" ]. vitalmente_x1 := av_i_spr_le & [ STEM < "vitalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vitalmente_x_rel" ]. vitamina_c_n1 := n_intr_mass_le & [ STEM < "vitamina_c" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vitamina_c_n_rel" ] ]. vitamina_n1 := n_intr_mass_le & [ STEM < "vitamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vitamina_n_rel" ] ]. vitaminado_a1 := a_rel_nonprd_intr_le & [ STEM < "vitaminado" >, SYNSEM.LKEYS.KEYREL.PRED "_vitaminado_a_rel" ]. vitamínico_a1 := a_rel_nonprd_intr_le & [ STEM < "vitamínico" >, SYNSEM.LKEYS.KEYREL.PRED "_vitamínico_a_rel" ]. vitelino_a1 := a_rel_nonprd_intr_le & [ STEM < "vitelino" >, SYNSEM.LKEYS.KEYREL.PRED "_vitelino_a_rel" ]. vitelo_n1 := n_intr_count_le & [ STEM < "vitelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vitelo_n_rel" ] ]. viticultor_n1 := n_intr_count_le & [ STEM < "viticultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viticultor_n_rel" ] ]. viticultura_n1 := n_intr_count_le & [ STEM < "viticultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viticultura_n_rel" ] ]. vitivinícola_a1 := a_rel_nonprd_intr_le & [ STEM < "vitivinícola" >, SYNSEM.LKEYS.KEYREL.PRED "_vitivinícola_a_rel" ]. vitorear_v := v_trans_np_le & [ STEM < "vitorear" >, SYNSEM.LKEYS.KEYREL.PRED "_vitorear_v_rel" ]. vitoriano_a1 := a_rel_nonprd_intr_le & [ STEM < "vitoriano" >, SYNSEM.LKEYS.KEYREL.PRED "_vitoriano_a_rel" ]. vitoriano_n1 := n_intr_count_le & [ STEM < "vitoriano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vitoriano_n_rel" ] ]. vitral_n1 := n_intr_count_le & [ STEM < "vitral" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vitral_n_rel" ] ]. vitrectomía_n1 := n_intr_uncount_pl_le & [ STEM < "vitrectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vitrectomía_n_rel" ] ]. vitreorretiniano_a1 := a_rel_nonprd_intr_le & [ STEM < "vitreorretiniano" >, SYNSEM.LKEYS.KEYREL.PRED "_vitreorretiniano_a_rel" ]. vitrificable_a1 := a_rel_nonprd_intr_le & [ STEM < "vitrificable" >, SYNSEM.LKEYS.KEYREL.PRED "_vitrificable_a_rel" ]. vitrificablemente_x1 := av_i_spr_le & [ STEM < "vitrificablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_vitrificablemente_x_rel" ]. vitrificación_n1 := n_trans_le & [ STEM < "vitrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_vitrificación_n_rel" ]. vitrificar_v := v_trans_np_caus_le & [ STEM < "vitrificar" >, SYNSEM.LKEYS.KEYREL.PRED "_vitrificar_v_rel" ]. vitrina_n1 := n_intr_count_le & [ STEM < "vitrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vitrina_n_rel" ] ]. vitriolo_n1 := n_intr_mass_le & [ STEM < "vitriolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vitriolo_n_rel" ] ]. vitriólicamente_x1 := av_i_spr_le & [ STEM < "vitriólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vitriólicamente_x_rel" ]. vitriólico_a1 := a_rel_nonprd_intr_le & [ STEM < "vitriólico" >, SYNSEM.LKEYS.KEYREL.PRED "_vitriólico_a_rel" ]. vitronectina_n1 := n_intr_count_le & [ STEM < "vitronectina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vitronectina_n_rel" ] ]. vituperación_n1 := n_trans_le & [ STEM < "vituperación" >, SYNSEM.LKEYS.KEYREL.PRED "_vituperación_n_rel" ]. vituperar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "vituperar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vituperar_v_rel" ] ]. vituperar_v2 := v_ditrans*_le & [ STEM < "vituperar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_vituperar_v_rel" ] ]. vitícola_a1 := a_rel_nonprd_intr_le & [ STEM < "vitícola" >, SYNSEM.LKEYS.KEYREL.PRED "_vitícola_a_rel" ]. viudedad_n1 := n_intr_uncount_le & [ STEM < "viudedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viudedad_n_rel" ] ]. viudedad_n2 := n_intr_count_le & [ STEM < "viudedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viudedad_n_rel" ] ]. viudez_n1 := n_ppcomp_uncount_le & [ STEM < "viudez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viudez_n_rel" ] ]. viudo_a1 := a_qual_intr_ser_le & [ STEM < "viudo" >, SYNSEM.LKEYS.KEYREL.PRED "_viudo_a_rel" ]. viudo_n1 := n_intr_count_le & [ STEM < "viudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viudo_n_rel" ] ]. vivacidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vivacidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vivacidad_n_rel" ] ]. vivaracho_a1 := a_qual_intr_ser_le & [ STEM < "vivaracho" >, SYNSEM.LKEYS.KEYREL.PRED "_vivaracho_a_rel" ]. vivaz_a1 := a_qual_intr_ser_le & [ STEM < "vivaz" >, SYNSEM.LKEYS.KEYREL.PRED "_vivaz_a_rel" ]. vivencia_n1 := n_intr_count_le & [ STEM < "vivencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vivencia_n_rel" ] ]. viverista_n1 := n_intr_count_le & [ STEM < "viverista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_viverista_n_rel" ] ]. vivero_n1 := n_intr_count_le & [ STEM < "vivero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_vivero_n_rel" ] ]. viveza_n1 := n_ppcomp_mass_le & [ STEM < "viveza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viveza_n_rel" ] ]. vivianita_n1 := n_intr_count_le & [ STEM < "vivianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_vivianita_n_rel" ] ]. vividor_a1 := a_qual_intr_ser_le & [ STEM < "vividor" >, SYNSEM.LKEYS.KEYREL.PRED "_vividor_a_rel" ]. vividor_n1 := n_intr_count_le & [ STEM < "vividor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vividor_n_rel" ] ]. vivienda_n1 := n_intr_count_le & [ STEM < "vivienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_vivienda_n_rel" ] ]. viviente_a1 := a_rel_nonprd_intr_le & [ STEM < "viviente" >, SYNSEM.LKEYS.KEYREL.PRED "_viviente_a_rel" ]. vivificar_v1 := v_intr_io*_le & [ STEM < "vivificar" >, SYNSEM.LKEYS.KEYREL.PRED "_vivificar_v_rel" ]. vivificar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "vivificar" >, SYNSEM.LKEYS.KEYREL.PRED "_vivificar_v_rel" ]. vivir_v1 := v_unacc_lcomp_loc*_le & [ STEM < "vivir" >, SYNSEM.LKEYS.KEYREL.PRED "_vivir_v_rel" ]. vivisección_n1 := n_intr_count_le & [ STEM < "vivisección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vivisección_n_rel" ] ]. vivo_a1 := a_qual_intr_estar_le & [ STEM < "vivo" >, SYNSEM.LKEYS.KEYREL.PRED "_vivo_a_rel" ]. vivíparo_a1 := a_rel_nonprd_intr_le & [ STEM < "vivíparo" >, SYNSEM.LKEYS.KEYREL.PRED "_vivíparo_a_rel" ]. vizcaíno_a1 := a_rel_prd_le & [ STEM < "vizcaíno" >, SYNSEM.LKEYS.KEYREL.PRED "_vizcaíno_a_rel" ]. vizcaíno_n1 := n_intr_count_le & [ STEM < "vizcaíno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vizcaíno_n_rel" ] ]. vizcondado_n1 := n_intr_count_le & [ STEM < "vizcondado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vizcondado_n_rel" ] ]. viña_n1 := n_intr_count_le & [ STEM < "viña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_viña_n_rel" ] ]. viñedo_n1 := n_intr_count_le & [ STEM < "viñedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_viñedo_n_rel" ] ]. viñeta_n1 := n_intr_count_le & [ STEM < "viñeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_viñeta_n_rel" ] ]. vocabulario_n1 := n_intr_mass_le & [ STEM < "vocabulario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vocabulario_n_rel" ] ]. vocacional_a1 := a_rel_nonprd_intr_le & [ STEM < "vocacional" >, SYNSEM.LKEYS.KEYREL.PRED "_vocacional_a_rel" ]. vocación_n1 := n_intr_mass-or-count_le & [ STEM < "vocación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocación_n_rel" ] ]. vocal_a1 := a_rel_nonprd_intr_le & [ STEM < "vocal" >, SYNSEM.LKEYS.KEYREL.PRED "_vocal_a_rel" ]. vocal_n1 := n_intr_count_le & [ STEM < "vocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_vocal_n_rel" ] ]. vocalismo_n1 := n_intr_coll_le & [ STEM < "vocalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocalismo_n_rel" ] ]. vocalista_n1 := n_intr_count_le & [ STEM < "vocalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vocalista_n_rel" ] ]. vocalización_n1 := n_result_intr_le & [ STEM < "vocalización" >, SYNSEM.LKEYS.KEYREL.PRED "_vocalización_n_rel" ]. vocalizar_v := v_intr_le & [ STEM < "vocalizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vocalizar_v_rel" ] ]. vocativo_a1 := a_rel_nonprd_intr_le & [ STEM < "vocativo" >, SYNSEM.LKEYS.KEYREL.PRED "_vocativo_a_rel" ]. vocerío_n1 := n_intr_uncount_pl_le & [ STEM < "vocerío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocerío_n_rel" ] ]. vociferación_n1 := n_trans_le & [ STEM < "vociferación" >, SYNSEM.LKEYS.KEYREL.PRED "_vociferación_n_rel" ]. vociferador_a1 := a_rel_nonprd_intr_le & [ STEM < "vociferador" >, SYNSEM.LKEYS.KEYREL.PRED "_vociferador_a_rel" ]. vociferante_a1 := a_qual_intr_ser_le & [ STEM < "vociferante" >, SYNSEM.LKEYS.KEYREL.PRED "_vociferante_a_rel" ]. vociferar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "vociferar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vociferar_v_rel" ] ]. vociferar_v2 := v_ditrans*_le & [ STEM < "vociferar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_vociferar_v_rel" ] ]. vocingleramente_x1 := av_i_spr_le & [ STEM < "vocingleramente" >, SYNSEM.LKEYS.KEYREL.PRED "_vocingleramente_x_rel" ]. vocinglero_a1 := a_qual_intr_ser_le & [ STEM < "vocinglero" >, SYNSEM.LKEYS.KEYREL.PRED "_vocinglero_a_rel" ]. vocálico_a1 := a_rel_nonprd_intr_le & [ STEM < "vocálico" >, SYNSEM.LKEYS.KEYREL.PRED "_vocálico_a_rel" ]. vodka_n1 := n_intr_mass-or-count_le & [ STEM < "vodka" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_vodka_n_rel" ] ]. volador_a1 := a_rel_nonprd_intr_le & [ STEM < "volador" >, SYNSEM.LKEYS.KEYREL.PRED "_volador_a_rel" ]. voladura_n1 := n_trans_le & [ STEM < "voladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voladura_n_rel" ] ]. volandera_n1 := n_intr_count_le & [ STEM < "volandera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_volandera_n_rel" ] ]. volandero_a1 := a_rel_nonprd_intr_le & [ STEM < "volandero" >, SYNSEM.LKEYS.KEYREL.PRED "_volandero_a_rel" ]. volante_n1 := n_intr_count_le & [ STEM < "volante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_volante_n_rel" ] ]. volar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "volar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_volar_v_rel" ] ] ]. volar_v2 := v_trans_np_le & [ STEM < "volar" >, SYNSEM.LKEYS.KEYREL.PRED "_volar_v_rel" ]. volar_v3 := v_unacc_lcomp_dir*_le & [ STEM < "volar" >, SYNSEM.LKEYS.KEYREL.PRED "_volar_v_rel" ]. volatilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "volatilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volatilidad_n_rel" ] ]. volatilizable_a1 := a_rel_prd_le & [ STEM < "volatilizable" >, SYNSEM.LKEYS.KEYREL.PRED "_volatilizable_a_rel" ]. volatilizablemente_x1 := av_i_spr_le & [ STEM < "volatilizablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_volatilizablemente_x_rel" ]. volatilización_n1 := n_event-result_intr_le & [ STEM < "volatilización" >, SYNSEM.LKEYS.KEYREL.PRED "_volatilización_n_rel" ]. volatilizador_n1 := n_intr_count_le & [ STEM < "volatilizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_volatilizador_n_rel" ] ]. volatilizar_v := v_trans_np_le & [ STEM < "volatilizar" >, SYNSEM.LKEYS.KEYREL.PRED "_volatilizar_v_rel" ]. volcador_n1 := n_intr_count_le & [ STEM < "volcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_volcador_n_rel" ] ]. volcar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "volcar" >, SYNSEM.LKEYS [ --COMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_volcar_v_rel" ] ]. volcar_v2 := v_trans_np_caus_int_le & [ STEM < "volcar" >, SYNSEM.LKEYS.KEYREL.PRED "_volcar_v_rel" ]. volcán_n1 := n_intr_count_le & [ STEM < "volcán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_volcán_n_rel" ] ]. volcánicamente_x1 := av_i_spr_le & [ STEM < "volcánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_volcánicamente_x_rel" ]. volcánico_a1 := a_rel_nonprd_intr_le & [ STEM < "volcánico" >, SYNSEM.LKEYS.KEYREL.PRED "_volcánico_a_rel" ]. volear_v := v_trans_np*_le & [ STEM < "volear" >, SYNSEM.LKEYS.KEYREL.PRED "_volear_v_rel" ]. voleo_n1 := n_intr_count_le & [ STEM < "voleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voleo_n_rel" ] ]. volframato_n1 := n_intr_mass_le & [ STEM < "volframato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_volframato_n_rel" ] ]. volframio_n1 := n_intr_mass_le & [ STEM < "volframio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_volframio_n_rel" ] ]. volición_n1 := n_intr_count_le & [ STEM < "volición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volición_n_rel" ] ]. volitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "volitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_volitivo_a_rel" ]. volován_n1 := n_intr_count_le & [ STEM < "volován" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_volován_n_rel" ] ]. volquete_n1 := n_intr_count_le & [ STEM < "volquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_volquete_n_rel" ] ]. voltaicamente_x1 := av_i_spr_le & [ STEM < "voltaicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voltaicamente_x_rel" ]. voltaico_a1 := a_rel_nonprd_intr_le & [ STEM < "voltaico" >, SYNSEM.LKEYS.KEYREL.PRED "_voltaico_a_rel" ]. voltaje_n1 := n_intr_mass_le & [ STEM < "voltaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_voltaje_n_rel" ] ]. voltamperio_n := n_intr_count_le & [ STEM < "voltamperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_voltamperio_n_rel" ] ]. voltear_v1 := v_pron_unacc_lcomp_dir*_le & [ STEM < "voltear" >, SYNSEM.LKEYS.KEYREL.PRED "_voltear_v_rel" ]. voltear_v2 := v_trans_np_le & [ STEM < "voltear" >, SYNSEM.LKEYS.KEYREL.PRED "_voltear_v_rel" ]. volteo_n1 := n_trans_le & [ STEM < "volteo" >, SYNSEM.LKEYS.KEYREL.PRED "_volteo_n_rel" ]. voltereta_n1 := n_intr_count_le & [ STEM < "voltereta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voltereta_n_rel" ] ]. voltio_n := n_intr_count_le & [ STEM < "voltio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_voltio_n_rel" ] ]. voltímetro_n1 := n_intr_count_le & [ STEM < "voltímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_voltímetro_n_rel" ] ]. volubilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "volubilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volubilidad_n_rel" ] ]. voluble_a1 := a_qual_intr_ser_le & [ STEM < "voluble" >, SYNSEM.LKEYS.KEYREL.PRED "_voluble_a_rel" ]. volumen_n1 := n_intr_mass_le & [ STEM < "volumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_volumen_n_rel" ] ]. volumetría_n1 := n_intr_uncount_pl_le & [ STEM < "volumetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volumetría_n_rel" ] ]. voluminoso_a1 := a_qual_intr_ser_le & [ STEM < "voluminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_voluminoso_a_rel" ]. volumétricamente_x1 := av_i_spr_le & [ STEM < "volumétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_volumétricamente_x_rel" ]. volumétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "volumétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_volumétrico_a_rel" ]. voluntad_n1 := n_intr_mass-or-count_le & [ STEM < "voluntad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voluntad_n_rel" ] ]. voluntariado_n1 := n_intr_count_le & [ STEM < "voluntariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_voluntariado_n_rel" ] ]. voluntariamente_x1 := av_s_spr_le & [ STEM < "voluntariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntariamente_x_rel" ]. voluntariamente_x2 := av_i_psthd_spr_le & [ STEM < "voluntariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntariamente_x_rel" ]. voluntariedad_n1 := n_ppcomp_mass_le & [ STEM < "voluntariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voluntariedad_n_rel" ] ]. voluntario_a1 := a_rel_nonprd_intr_le & [ STEM < "voluntario" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntario_a_rel" ]. voluntario_n1 := n_intr_count_le & [ STEM < "voluntario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_voluntario_n_rel" ] ]. voluntariosamente_x1 := av_i_spr_le & [ STEM < "voluntariosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntariosamente_x_rel" ]. voluntarioso_a1 := a_qual_intr_ser_le & [ STEM < "voluntarioso" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntarioso_a_rel" ]. voluntarismo_n1 := n_intr_uncount_le & [ STEM < "voluntarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voluntarismo_n_rel" ] ]. voluntarista_a1 := a_rel_nonprd_intr_le & [ STEM < "voluntarista" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntarista_a_rel" ]. voluntaristamente_x1 := av_i_spr_le & [ STEM < "voluntaristamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voluntaristamente_x_rel" ]. voluptuosamente_x1 := av_i_spr_le & [ STEM < "voluptuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_voluptuosamente_x_rel" ]. voluptuosidad_n1 := n_intr_mass-or-count_le & [ STEM < "voluptuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voluptuosidad_n_rel" ] ]. voluptuoso_a1 := a_qual_intr_ser_le & [ STEM < "voluptuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_voluptuoso_a_rel" ]. voluta_n1 := n_intr_count_le & [ STEM < "voluta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_voluta_n_rel" ] ]. volver_v1 := v_intr_mrkd_vp_ssr_le & [ STEM < "volver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_volver_v_rel" ] ]. volver_v2 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "volver" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_volver_v_rel" ] ]. volátil_a1 := a_qual_intr_ser_le & [ STEM < "volátil" >, SYNSEM.LKEYS.KEYREL.PRED "_volátil_a_rel" ]. vomeronasal_a1 := a_rel_nonprd_intr_le & [ STEM < "vomeronasal" >, SYNSEM.LKEYS.KEYREL.PRED "_vomeronasal_a_rel" ]. vomitar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "vomitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_vomitar_v_rel" ] ]. vomitar_v2 := v_ditrans*_le & [ STEM < "vomitar" >, SYNSEM.LKEYS.KEYREL.PRED "_vomitar_v_rel" ]. vomitar_v3 := v_trans_np*_le & [ STEM < "vomitar" >, SYNSEM.LKEYS.KEYREL.PRED "_vomitar_v_rel" ]. vomitorio_n1 := n_intr_count_le & [ STEM < "vomitorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_vomitorio_n_rel" ] ]. voracidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "voracidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voracidad_n_rel" ] ]. voraz_a1 := a_qual_intr_ser_le & [ STEM < "voraz" >, SYNSEM.LKEYS.KEYREL.PRED "_voraz_a_rel" ]. vorazmente_x1 := av_i_spr_le & [ STEM < "vorazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vorazmente_x_rel" ]. vorticidad_n1 := n_intr_uncount_le & [ STEM < "vorticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vorticidad_n_rel" ] ]. vorticoso_a1 := a_rel_nonprd_intr_le & [ STEM < "vorticoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vorticoso_a_rel" ]. vortiginosamente_x1 := av_i_spr_le & [ STEM < "vortiginosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vortiginosamente_x_rel" ]. vortiginoso_a1 := a_rel_nonprd_intr_le & [ STEM < "vortiginoso" >, SYNSEM.LKEYS.KEYREL.PRED "_vortiginoso_a_rel" ]. vos := pr_pers_nom-or-obl_le & [ STEM < "vos" > ]. vosotros_p := pr_pers_nom-or-obl_le & [ STEM < "vosotros" > ]. votación_n1 := n_trans_le & [ STEM < "votación" >, SYNSEM.LKEYS.KEYREL.PRED "_votación_n_rel" ]. votante_n1 := n_intr_count_le & [ STEM < "votante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_votante_n_rel" ] ]. votar_v1 := v_intr_io*_le & [ STEM < "votar" >, SYNSEM.LKEYS.KEYREL.PRED "_votar_v_rel" ]. votar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "votar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_votar_v_rel" ] ]. votar_v3 := v_intr_mrkd_np_le & [ STEM < "votar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_votar_v_rel" ] ]. votar_v4 := v_trans_cp_prop_fin_sub_le & [ STEM < "votar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_votar_v_rel" ] ]. votar_v5 := v_trans_np_le & [ STEM < "votar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_votar_v_rel" ] ]. voto_a_bríos_x1 := av_i_le & [ STEM < "voto_a_bríos" >, SYNSEM.LKEYS.KEYREL.PRED "_voto_a_bríos_x_rel" ]. voto_n1 := n_intr_count_le & [ STEM < "voto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_voto_n_rel" ] ]. vox_populi_x1 := av_i_le & [ STEM < "vox_populi" >, SYNSEM.LKEYS.KEYREL.PRED "_vox_populi_x_rel" ]. voyeurismo_n1 := n_intr_uncount_le & [ STEM < "voyeurismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voyeurismo_n_rel" ] ]. vuelo_n1 := n_result_intr_le & [ STEM < "vuelo" >, SYNSEM.LKEYS.KEYREL.PRED "_vuelo_n_rel" ]. vuelta_n1 := n_event-result_intr_le & [ STEM < "vuelta" >, SYNSEM.LKEYS.KEYREL.PRED "_vuelta_n_rel" ]. vuestro_a := a_poss_le & [ STEM < "vuestro" >, SYNSEM.LKEYS.KEYREL.PRED "_vuestro_a_rel" ]. vuestro_d := d_poss_vuest_le & [ STEM < "vuestro" > ]. vulcanismo_n1 := n_intr_uncount_le & [ STEM < "vulcanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulcanismo_n_rel" ] ]. vulcanización_n1 := n_trans_le & [ STEM < "vulcanización" >, SYNSEM.LKEYS.KEYREL.PRED "_vulcanización_n_rel" ]. vulcanizador_n1 := n_intr_count_le & [ STEM < "vulcanizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vulcanizador_n_rel" ] ]. vulcanizante_a1 := a_rel_nonprd_intr_le & [ STEM < "vulcanizante" >, SYNSEM.LKEYS.KEYREL.PRED "_vulcanizante_a_rel" ]. vulcanizar_v := v_trans_np_le & [ STEM < "vulcanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_vulcanizar_v_rel" ]. vulcanología_n1 := n_intr_uncount_le & [ STEM < "vulcanología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulcanología_n_rel" ] ]. vulcanólogo_n1 := n_intr_count_le & [ STEM < "vulcanólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vulcanólogo_n_rel" ] ]. vulgar_a1 := a_qual_intr_ser_le & [ STEM < "vulgar" >, SYNSEM.LKEYS.KEYREL.PRED "_vulgar_a_rel" ]. vulgaridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vulgaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulgaridad_n_rel" ] ]. vulgarización_n1 := n_trans_le & [ STEM < "vulgarización" >, SYNSEM.LKEYS.KEYREL.PRED "_vulgarización_n_rel" ]. vulgarizar_v := v_trans_np_le & [ STEM < "vulgarizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum_soc, PRED "_vulgarizar_v_rel" ] ]. vulgarmente_x1 := av_i_spr_le & [ STEM < "vulgarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_vulgarmente_x_rel" ]. vulnerabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "vulnerabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulnerabilidad_n_rel" ] ]. vulnerable_a1 := a_qual_trans*_ser_le & [ STEM < "vulnerable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_vulnerable_a_rel" ] ]. vulneración_n1 := n_trans_le & [ STEM < "vulneración" >, SYNSEM.LKEYS.KEYREL.PRED "_vulneración_n_rel" ]. vulnerar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "vulnerar" >, SYNSEM.LKEYS.KEYREL.PRED "_vulnerar_v_rel" ]. vulnerar_v2 := v_trans_np_le & [ STEM < "vulnerar" >, SYNSEM.LKEYS.KEYREL.PRED "_vulnerar_v_rel" ]. vulva_n1 := n_ppcomp_count_le & [ STEM < "vulva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_vulva_n_rel" ] ]. vulvar_a1 := a_rel_nonprd_intr_le & [ STEM < "vulvar" >, SYNSEM.LKEYS.KEYREL.PRED "_vulvar_a_rel" ]. válidamente_x1 := av_i_spr_le & [ STEM < "válidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_válidamente_x_rel" ]. válido_a1 := a_qual_intr_ser_le & [ STEM < "válido" >, SYNSEM.LKEYS.KEYREL.PRED "_válido_a_rel" ]. válvula_n1 := n_intr_count_le & [ STEM < "válvula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_válvula_n_rel" ] ]. vándalo_n1 := n_intr_count_le & [ STEM < "vándalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_vándalo_n_rel" ] ]. várice_n1 := n_intr_count_le & [ STEM < "várice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_várice_n_rel" ] ]. vástago_n1 := n_intr_count_le & [ STEM < "vástago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vástago_n_rel" ] ]. vénula_n1 := n_intr_count_le & [ STEM < "vénula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_vénula_n_rel" ] ]. vértebra_n1 := n_ppcomp_count_le & [ STEM < "vértebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_vértebra_n_rel" ] ]. vía_n1 := n_intr_count_le & [ STEM < "vía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_vía_n_rel" ] ]. vía_p_vmod := p_vmod_le & [ STEM < "vía" >, SYNSEM.LKEYS.KEYREL.PRED _vía_p_rel ]. víbora_n1 := n_intr_count_le & [ STEM < "víbora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_víbora_n_rel" ] ]. víctima_n1 := n_intr_count_le & [ STEM < "víctima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_víctima_n_rel" ] ]. vídeo_n1 := n_intr_count_le & [ STEM < "vídeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_vídeo_n_rel" ] ]. vírico_a1 := a_rel_nonprd_intr_le & [ STEM < "vírico" >, SYNSEM.LKEYS.KEYREL.PRED "_vírico_a_rel" ]. víscera_n1 := n_ppcomp_count_le & [ STEM < "víscera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_víscera_n_rel" ] ]. víspera_n1 := n_intr_count_le & [ STEM < "víspera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_víspera_n_rel" ] ]. vítor_n1 := n_intr_uncount_pl_le & [ STEM < "vítor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vítor_n_rel" ] ]. vítreamente_x1 := av_i_spr_le & [ STEM < "vítreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_vítreamente_x_rel" ]. vítreo_a1 := a_rel_nonprd_intr_le & [ STEM < "vítreo" >, SYNSEM.LKEYS.KEYREL.PRED "_vítreo_a_rel" ]. víveres_n1 := n_intr_count_le & [ STEM < "víveres" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_víveres_n_rel" ] ]. vívido_a1 := a_qual_intr_ser_le & [ STEM < "vívido" >, SYNSEM.LKEYS.KEYREL.PRED "_vívido_a_rel" ]. vómito_n1 := n_intr_count_le & [ STEM < "vómito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_vómito_n_rel" ] ]. vórtex_n1 := n_intr_count_le & [ STEM < "vórtex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_vórtex_n_rel" ] ]. walkie-talkie_n1 := n_intr_count_le & [ STEM < "walkie-talkie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_walkie-talkie_n_rel" ] ]. wardita_n1 := n_intr_count_le & [ STEM < "wardita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wardita_n_rel" ] ]. warfarina_n1 := n_intr_mass-or-count_le & [ STEM < "warfarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_warfarina_n_rel" ] ]. waterpolista_n1 := n_intr_count_le & [ STEM < "waterpolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_waterpolista_n_rel" ] ]. wavelita_n1 := n_intr_count_le & [ STEM < "wavelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wavelita_n_rel" ] ]. web_n1 := n_intr_count_le & [ STEM < "web" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_pot, PRED "_web_n_rel" ] ]. weber_n := n_intr_count_le & [ STEM < "weber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_weber_n_rel" ] ]. website_n1 := n_intr_count_le & [ STEM < "website" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_pot, PRED "_website_n_rel" ] ]. weigelia_n1 := n_intr_count_le & [ STEM < "weigelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_weigelia_n_rel" ] ]. whisky_n1 := n_intr_count_le & [ STEM < "whisky" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_whisky_n_rel" ] ]. wigwam_n1 := n_intr_count_le & [ STEM < "wigwam" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_wigwam_n_rel" ] ]. willemita_n1 := n_intr_count_le & [ STEM < "willemita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_willemita_n_rel" ] ]. williamsita_n1 := n_intr_count_le & [ STEM < "williamsita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_williamsita_n_rel" ] ]. windsurf_n1 := n_intr_count_le & [ STEM < "windsurf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_windsurf_n_rel" ] ]. witerita_n1 := n_intr_count_le & [ STEM < "witerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_witerita_n_rel" ] ]. wobulador_n1 := n_intr_count_le & [ STEM < "wobulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_wobulador_n_rel" ] ]. wolastonita_n1 := n_intr_count_le & [ STEM < "wolastonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wolastonita_n_rel" ] ]. wolframato_n1 := n_intr_mass_le & [ STEM < "wolframato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wolframato_n_rel" ] ]. wolframita_n1 := n_intr_count_le & [ STEM < "wolframita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wolframita_n_rel" ] ]. wulfenita_n1 := n_intr_count_le & [ STEM < "wulfenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wulfenita_n_rel" ] ]. wurtzita_n1 := n_intr_count_le & [ STEM < "wurtzita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_wurtzita_n_rel" ] ]. xantato_n1 := n_intr_count_le & [ STEM < "xantato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantato_n_rel" ] ]. xanteno_n1 := n_intr_count_le & [ STEM < "xanteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xanteno_n_rel" ] ]. xantidrol_n1 := n_intr_count_le & [ STEM < "xantidrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantidrol_n_rel" ] ]. xantina_n1 := n_intr_count_le & [ STEM < "xantina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantina_n_rel" ] ]. xantocilina_n1 := n_intr_count_le & [ STEM < "xantocilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantocilina_n_rel" ] ]. xantofila_n1 := n_intr_count_le & [ STEM < "xantofila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantofila_n_rel" ] ]. xantopterina_n1 := n_intr_count_le & [ STEM < "xantopterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantopterina_n_rel" ] ]. xantotoxina_n1 := n_intr_count_le & [ STEM < "xantotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xantotoxina_n_rel" ] ]. xenofobia_n1 := n_intr_mass_le & [ STEM < "xenofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xenofobia_n_rel" ] ]. xenogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "xenogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_xenogénico_a_rel" ]. xenomoneda_n1 := n_intr_count_le & [ STEM < "xenomoneda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_xenomoneda_n_rel" ] ]. xenomórficamente_x1 := av_i_spr_le & [ STEM < "xenomórficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_xenomórficamente_x_rel" ]. xenoplástico_a1 := a_rel_nonprd_intr_le & [ STEM < "xenoplástico" >, SYNSEM.LKEYS.KEYREL.PRED "_xenoplástico_a_rel" ]. xenotima_n1 := n_intr_count_le & [ STEM < "xenotima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xenotima_n_rel" ] ]. xenófobo_a1 := a_qual_intr_ser_le & [ STEM < "xenófobo" >, SYNSEM.LKEYS.KEYREL.PRED "_xenófobo_a_rel" ]. xenófobo_n1 := n_intr_count_le & [ STEM < "xenófobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_xenófobo_n_rel" ] ]. xenón_n1 := n_intr_mass_le & [ STEM < "xenón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xenón_n_rel" ] ]. xeroftalmía_n1 := n_intr_uncount_le & [ STEM < "xeroftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xeroftalmía_n_rel" ] ]. xerografía_n1 := n_intr_uncount_pl_le & [ STEM < "xerografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xerografía_n_rel" ] ]. xerográficamente_x1 := av_i_spr_le & [ STEM < "xerográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_xerográficamente_x_rel" ]. xerográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "xerográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_xerográfico_a_rel" ]. xerostomía_n1 := n_intr_uncount_pl_le & [ STEM < "xerostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xerostomía_n_rel" ] ]. xerotelerradiografía_n1 := n_intr_count_le & [ STEM < "xerotelerradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_xerotelerradiografía_n_rel" ] ]. xerófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "xerófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_xerófilo_a_rel" ]. xileno_n1 := n_intr_count_le & [ STEM < "xileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xileno_n_rel" ] ]. xilenol_n1 := n_intr_count_le & [ STEM < "xilenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xilenol_n_rel" ] ]. xilidina_n1 := n_intr_count_le & [ STEM < "xilidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xilidina_n_rel" ] ]. xilitol_n1 := n_intr_count_le & [ STEM < "xilitol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xilitol_n_rel" ] ]. xilografía_n1 := n_intr_uncount_pl_le & [ STEM < "xilografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xilografía_n_rel" ] ]. xilográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "xilográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_xilográfico_a_rel" ]. xilol_n1 := n_intr_count_le & [ STEM < "xilol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xilol_n_rel" ] ]. xilolita_n1 := n_intr_count_le & [ STEM < "xilolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_xilolita_n_rel" ] ]. xilosa_n1 := n_intr_count_le & [ STEM < "xilosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_xilosa_n_rel" ] ]. xilófono_n1 := n_intr_count_le & [ STEM < "xilófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_xilófono_n_rel" ] ]. xánticamente_x1 := av_i_spr_le & [ STEM < "xánticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_xánticamente_x_rel" ]. xántico_a1 := a_rel_nonprd_intr_le & [ STEM < "xántico" >, SYNSEM.LKEYS.KEYREL.PRED "_xántico_a_rel" ]. xílicamente_x1 := av_i_spr_le & [ STEM < "xílicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_xílicamente_x_rel" ]. y_cc := cc_cop_y_le & [ STEM < "y" > ]. ya_es_mucho_decir_x1 := av_i_le & [ STEM < "ya_es_mucho_decir" >, SYNSEM.LKEYS.KEYREL.PRED "_ya_es_mucho_decir_x_rel" ]. ya_que_sc := sc_prop_fin_le & [ STEM < "ya_que" >, SYNSEM.LKEYS.KEYREL.PRED "_ya_que_x_subord_rel" ]. ya_sc := sc_prop_fin_le & [ STEM < "ya" >, SYNSEM.LKEYS.KEYREL.PRED "_ya_x_subord_rel" ]. ya_será_menos_x1 := av_i_le & [ STEM < "ya_será_menos" >, SYNSEM.LKEYS.KEYREL.PRED "_ya_será_menos_x_rel" ]. ya_x1 := av_i_le & [ STEM < "ya" >, SYNSEM.LKEYS.KEYREL.PRED "_ya_x_rel" ]. yacente_a1 := a_rel_nonprd_intr_le & [ STEM < "yacente" >, SYNSEM.LKEYS.KEYREL.PRED "_yacente_a_rel" ]. yacer_v := v_unacc_lcomp_loc*_le & [ STEM < "yacer" >, SYNSEM.LKEYS.KEYREL.PRED "_yacer_v_rel" ]. yacimiento_n1 := n_intr_count_le & [ STEM < "yacimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yacimiento_n_rel" ] ]. yagua_n1 := n_intr_count_le & [ STEM < "yagua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_yagua_n_rel" ] ]. yanqui_a1 := a_rel_prd_le & [ STEM < "yanqui" >, SYNSEM.LKEYS.KEYREL.PRED "_yanqui_a_rel" ]. yanqui_n1 := n_intr_count_le & [ STEM < "yanqui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yanqui_n_rel" ] ]. yarda_n := n_intr_count_le & [ STEM < "yarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_yarda_n_rel" ] ]. yate_n1 := n_intr_count_le & [ STEM < "yate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yate_n_rel" ] ]. yatrógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "yatrógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_yatrógeno_a_rel" ]. yaya_n1 := n_ppcomp_count_le & [ STEM < "yaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yaya_n_rel" ] ]. yegua_n1 := n_intr_count_le & [ STEM < "yegua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_yegua_n_rel" ] ]. yelmo_n1 := n_intr_count_le & [ STEM < "yelmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yelmo_n_rel" ] ]. yema_n1 := n_intr_mass_le & [ STEM < "yema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yema_n_rel" ] ]. yemenita_n1 := n_intr_count_le & [ STEM < "yemenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yemenita_n_rel" ] ]. yemení_n1 := n_intr_count_le & [ STEM < "yemení" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yemení_n_rel" ] ]. yen_n1 := n_intr_count_le & [ STEM < "yen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yen_n_rel" ] ]. yermo_a1 := a_rel_nonprd_intr_le & [ STEM < "yermo" >, SYNSEM.LKEYS.KEYREL.PRED "_yermo_a_rel" ]. yerno_n1 := n_intr_count_le & [ STEM < "yerno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yerno_n_rel" ] ]. yero_n1 := n_intr_count_le & [ STEM < "yero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_yero_n_rel" ] ]. yerto_a1 := a_qual_intr_estar_le & [ STEM < "yerto" >, SYNSEM.LKEYS.KEYREL.PRED "_yerto_a_rel" ]. yesero_n1 := n_intr_count_le & [ STEM < "yesero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yesero_n_rel" ] ]. yeso_n1 := n_intr_mass-or-count_le & [ STEM < "yeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_yeso_n_rel" ] ]. yesoso_a1 := a_rel_nonprd_intr_le & [ STEM < "yesoso" >, SYNSEM.LKEYS.KEYREL.PRED "_yesoso_a_rel" ]. yeyunal_a1 := a_rel_nonprd_intr_le & [ STEM < "yeyunal" >, SYNSEM.LKEYS.KEYREL.PRED "_yeyunal_a_rel" ]. yeyuno_n1 := n_ppcomp_count_le & [ STEM < "yeyuno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_yeyuno_n_rel" ] ]. yo_p := pr_pers_nom_le & [ STEM < "yo" > ]. yodar_v := v_trans_np_le & [ STEM < "yodar" >, SYNSEM.LKEYS.KEYREL.PRED "_yodar_v_rel" ]. yodargirita_n1 := n_intr_count_le & [ STEM < "yodargirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yodargirita_n_rel" ] ]. yodato_n1 := n_intr_count_le & [ STEM < "yodato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yodato_n_rel" ] ]. yodhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "yodhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_yodhídrico_a_rel" ]. yodo_n1 := n_intr_mass_le & [ STEM < "yodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yodo_n_rel" ] ]. yodoeosina_n1 := n_intr_count_le & [ STEM < "yodoeosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yodoeosina_n_rel" ] ]. yodoformo_n1 := n_intr_count_le & [ STEM < "yodoformo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yodoformo_n_rel" ] ]. yodosuccinimida_n1 := n_intr_count_le & [ STEM < "yodosuccinimida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yodosuccinimida_n_rel" ] ]. yodurar_v := v_trans_np_le & [ STEM < "yodurar" >, SYNSEM.LKEYS.KEYREL.PRED "_yodurar_v_rel" ]. yoduro_n1 := n_intr_count_le & [ STEM < "yoduro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yoduro_n_rel" ] ]. yoga_n1 := n_intr_uncount_le & [ STEM < "yoga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_yoga_n_rel" ] ]. yogui_n1 := n_intr_count_le & [ STEM < "yogui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yogui_n_rel" ] ]. yogur_n1 := n_intr_mass-or-count_le & [ STEM < "yogur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yogur_n_rel" ] ]. yohimbina_n1 := n_intr_count_le & [ STEM < "yohimbina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yohimbina_n_rel" ] ]. yol_n1 := n_intr_count_le & [ STEM < "yol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yol_n_rel" ] ]. yola_n1 := n_intr_count_le & [ STEM < "yola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yola_n_rel" ] ]. yoleta_n1 := n_intr_count_le & [ STEM < "yoleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yoleta_n_rel" ] ]. yonqui_n1 := n_intr_count_le & [ STEM < "yonqui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yonqui_n_rel" ] ]. yuan_n1 := n_intr_count_le & [ STEM < "yuan" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yuan_n_rel" ] ]. yudo_n1 := n_intr_uncount_le & [ STEM < "yudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_yudo_n_rel" ] ]. yudogui_n1 := n_intr_count_le & [ STEM < "yudogui" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yudogui_n_rel" ] ]. yudoka_n1 := n_intr_count_le & [ STEM < "yudoka" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yudoka_n_rel" ] ]. yugal_a1 := a_rel_nonprd_intr_le & [ STEM < "yugal" >, SYNSEM.LKEYS.KEYREL.PRED "_yugal_a_rel" ]. yugo_n1 := n_intr_count_le & [ STEM < "yugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yugo_n_rel" ] ]. yugoslavo_a1 := a_rel_prd_le & [ STEM < "yugoslavo" >, SYNSEM.LKEYS.KEYREL.PRED "_yugoslavo_a_rel" ]. yugoslavo_n1 := n_intr_count_le & [ STEM < "yugoslavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_yugoslavo_n_rel" ] ]. yugular_a1 := a_rel_nonprd_intr_le & [ STEM < "yugular" >, SYNSEM.LKEYS.KEYREL.PRED "_yugular_a_rel" ]. yugulodigástrico_a1 := a_rel_nonprd_intr_le & [ STEM < "yugulodigástrico" >, SYNSEM.LKEYS.KEYREL.PRED "_yugulodigástrico_a_rel" ]. yuguloomohioideo_a1 := a_rel_nonprd_intr_le & [ STEM < "yuguloomohioideo" >, SYNSEM.LKEYS.KEYREL.PRED "_yuguloomohioideo_a_rel" ]. yunque_n1 := n_intr_count_le & [ STEM < "yunque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_yunque_n_rel" ] ]. yute_n1 := n_intr_mass_le & [ STEM < "yute" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_yute_n_rel" ] ]. yuxtalineal_a1 := a_rel_nonprd_intr_le & [ STEM < "yuxtalineal" >, SYNSEM.LKEYS.KEYREL.PRED "_yuxtalineal_a_rel" ]. yuxtapapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "yuxtapapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_yuxtapapilar_a_rel" ]. yuxtaponer_v1 := v_trans_np_mrkd_np*_le & [ STEM < "yuxtaponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_yuxtaponer_v_rel" ] ]. yuxtaposición_n1 := n_trans_le & [ STEM < "yuxtaposición" >, SYNSEM.LKEYS.KEYREL.PRED "_yuxtaposición_n_rel" ]. yódicamente_x1 := av_i_spr_le & [ STEM < "yódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_yódicamente_x_rel" ]. yódico_a1 := a_rel_nonprd_intr_le & [ STEM < "yódico" >, SYNSEM.LKEYS.KEYREL.PRED "_yódico_a_rel" ]. zafar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "zafar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_zafar_v_rel" ] ] ]. zafar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "zafar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_zafar_v_rel" ] ]. zafar_v3 := v_trans_np_mrkd_np_le & [ STEM < "zafar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_zafar_v_rel" ] ]. zafarrancho_n1 := n_trans_le & [ STEM < "zafarrancho" >, SYNSEM.LKEYS.KEYREL.PRED "_zafarrancho_n_rel" ]. zafirina_n1 := n_intr_count_le & [ STEM < "zafirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zafirina_n_rel" ] ]. zafiro_n1 := n_intr_count_le & [ STEM < "zafiro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zafiro_n_rel" ] ]. zafra_n1 := n_intr_uncount_le & [ STEM < "zafra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zafra_n_rel" ] ]. zaguero_n1 := n_intr_count_le & [ STEM < "zaguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zaguero_n_rel" ] ]. zaherir_v1 := v_intr_io*_le & [ STEM < "zaherir" >, SYNSEM.LKEYS.KEYREL.PRED "_zaherir_v_rel" ]. zaherir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "zaherir" >, SYNSEM.LKEYS.KEYREL.PRED "_zaherir_v_rel" ]. zairense_n1 := n_intr_count_le & [ STEM < "zairense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zairense_n_rel" ] ]. zaireño_a1 := a_rel_prd_le & [ STEM < "zaireño" >, SYNSEM.LKEYS.KEYREL.PRED "_zaireño_a_rel" ]. zalamero_a1 := a_qual_intr_ser_le & [ STEM < "zalamero" >, SYNSEM.LKEYS.KEYREL.PRED "_zalamero_a_rel" ]. zalamería_n1 := n_intr_uncount_pl_le & [ STEM < "zalamería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zalamería_n_rel" ] ]. zambo_a1 := a_rel_nonprd_intr_le & [ STEM < "zambo" >, SYNSEM.LKEYS.KEYREL.PRED "_zambo_a_rel" ]. zambullida_n1 := n_event-result_intr_le & [ STEM < "zambullida" >, SYNSEM.LKEYS.KEYREL.PRED "_zambullida_n_rel" ]. zambullir_v := v_pron_unacc_lcomp_loc*_le & [ STEM < "zambullir" >, SYNSEM.LKEYS.KEYREL.PRED "_zambullir_v_rel" ]. zamorano_a1 := a_rel_prd_le & [ STEM < "zamorano" >, SYNSEM.LKEYS.KEYREL.PRED "_zamorano_a_rel" ]. zanahoria_n1 := n_intr_mass_le & [ STEM < "zanahoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zanahoria_n_rel" ] ]. zanca_n1 := n_intr_count_le & [ STEM < "zanca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zanca_n_rel" ] ]. zancada_n1 := n_intr_count_le & [ STEM < "zancada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zancada_n_rel" ] ]. zancadillear_v := v_trans_np_le & [ STEM < "zancadillear" >, SYNSEM.LKEYS.KEYREL.PRED "_zancadillear_v_rel" ]. zanco_n1 := n_intr_count_le & [ STEM < "zanco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zanco_n_rel" ] ]. zancudo_a1 := a_rel_nonprd_intr_le & [ STEM < "zancudo" >, SYNSEM.LKEYS.KEYREL.PRED "_zancudo_a_rel" ]. zanja_n1 := n_intr_count_le & [ STEM < "zanja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_zanja_n_rel" ] ]. zanjar_v := v_trans_np_le & [ STEM < "zanjar" >, SYNSEM.LKEYS.KEYREL.PRED "_zanjar_v_rel" ]. zapata_n1 := n_intr_count_le & [ STEM < "zapata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zapata_n_rel" ] ]. zapatazo_n1 := n_intr_count_le & [ STEM < "zapatazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zapatazo_n_rel" ] ]. zapatero_n1 := n_intr_count_le & [ STEM < "zapatero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zapatero_n_rel" ] ]. zapatería_n1 := n_intr_count_le & [ STEM < "zapatería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_zapatería_n_rel" ] ]. zapatilla_n1 := n_intr_count_le & [ STEM < "zapatilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zapatilla_n_rel" ] ]. zapatista_a1 := a_rel_nonprd_intr_le & [ STEM < "zapatista" >, SYNSEM.LKEYS.KEYREL.PRED "_zapatista_a_rel" ]. zapatista_n1 := n_intr_count_le & [ STEM < "zapatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zapatista_n_rel" ] ]. zapato_n1 := n_intr_count_le & [ STEM < "zapato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zapato_n_rel" ] ]. zar_n1 := n_intr_count_le & [ STEM < "zar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zar_n_rel" ] ]. zaragocista_a1 := a_rel_prd_le & [ STEM < "zaragocista" >, SYNSEM.LKEYS.KEYREL.PRED "_zaragocista_a_rel" ]. zaragocista_n1 := n_intr_count_le & [ STEM < "zaragocista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zaragocista_n_rel" ] ]. zaragozano_a1 := a_rel_prd_le & [ STEM < "zaragozano" >, SYNSEM.LKEYS.KEYREL.PRED "_zaragozano_a_rel" ]. zaragozano_n1 := n_intr_count_le & [ STEM < "zaragozano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zaragozano_n_rel" ] ]. zarandeo_n1 := n_trans_le & [ STEM < "zarandeo" >, SYNSEM.LKEYS.KEYREL.PRED "_zarandeo_n_rel" ]. zarcillo_n1 := n_intr_count_le & [ STEM < "zarcillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zarcillo_n_rel" ] ]. zarigüeya_n1 := n_intr_count_le & [ STEM < "zarigüeya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zarigüeya_n_rel" ] ]. zarina_n1 := n_intr_count_le & [ STEM < "zarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zarina_n_rel" ] ]. zarismo_n1 := n_intr_uncount_le & [ STEM < "zarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zarismo_n_rel" ] ]. zarista_a1 := a_rel_nonprd_intr_le & [ STEM < "zarista" >, SYNSEM.LKEYS.KEYREL.PRED "_zarista_a_rel" ]. zarpa_n1 := n_intr_count_le & [ STEM < "zarpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zarpa_n_rel" ] ]. zarpanel_a1 := a_rel_nonprd_intr_le & [ STEM < "zarpanel" >, SYNSEM.LKEYS.KEYREL.PRED "_zarpanel_a_rel" ]. zarpar_v := v_unacc_lcomp_dir*_le & [ STEM < "zarpar" >, SYNSEM.LKEYS.KEYREL.PRED "_zarpar_v_rel" ]. zarpazo_n1 := n_intr_count_le & [ STEM < "zarpazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zarpazo_n_rel" ] ]. zarza_n1 := n_intr_count_le & [ STEM < "zarza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_zarza_n_rel" ] ]. zarzal_n1 := n_intr_count_le & [ STEM < "zarzal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_zarzal_n_rel" ] ]. zarzamora_n1 := n_intr_mass_le & [ STEM < "zarzamora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_zarzamora_n_rel" ] ]. zenitalmente_x1 := av_i_spr_le & [ STEM < "zenitalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_zenitalmente_x_rel" ]. zeolita_n1 := n_intr_count_le & [ STEM < "zeolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zeolita_n_rel" ] ]. zepelín_n1 := n_intr_count_le & [ STEM < "zepelín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_zepelín_n_rel" ] ]. zeína_n1 := n_intr_mass-or-count_le & [ STEM < "zeína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_zeína_n_rel" ] ]. zigzagueante_a1 := a_rel_nonprd_intr_le & [ STEM < "zigzagueante" >, SYNSEM.LKEYS.KEYREL.PRED "_zigzagueante_a_rel" ]. zigzaguear_v := v_unacc_le & [ STEM < "zigzaguear" >, SYNSEM.LKEYS.KEYREL.PRED "_zigzaguear_v_rel" ]. zigótico_a1 := a_rel_nonprd_intr_le & [ STEM < "zigótico" >, SYNSEM.LKEYS.KEYREL.PRED "_zigótico_a_rel" ]. zimasa_n1 := n_intr_mass-or-count_le & [ STEM < "zimasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_zimasa_n_rel" ] ]. zimología_n1 := n_intr_uncount_le & [ STEM < "zimología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zimología_n_rel" ] ]. zimógeno_n1 := n_intr_count_le & [ STEM < "zimógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zimógeno_n_rel" ] ]. zimómetro_n1 := n_intr_count_le & [ STEM < "zimómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zimómetro_n_rel" ] ]. zinc_n1 := n_intr_mass_le & [ STEM < "zinc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zinc_n_rel" ] ]. zincita_n1 := n_intr_count_le & [ STEM < "zincita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zincita_n_rel" ] ]. zinkenita_n1 := n_intr_count_le & [ STEM < "zinkenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zinkenita_n_rel" ] ]. zirconato_n1 := n_intr_count_le & [ STEM < "zirconato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zirconato_n_rel" ] ]. zoantropía_n1 := n_intr_uncount_le & [ STEM < "zoantropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zoantropía_n_rel" ] ]. zoco_n1 := n_intr_count_le & [ STEM < "zoco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_zoco_n_rel" ] ]. zodiacal_a1 := a_rel_nonprd_intr_le & [ STEM < "zodiacal" >, SYNSEM.LKEYS.KEYREL.PRED "_zodiacal_a_rel" ]. zodíaco_n1 := n_intr_count_le & [ STEM < "zodíaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_zodíaco_n_rel" ] ]. zombi_n1 := n_intr_count_le & [ STEM < "zombi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zombi_n_rel" ] ]. zona_n1 := n_intr_count_le & [ STEM < "zona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_zona_n_rel" ] ]. zonación_n1 := n_intr_uncount_le & [ STEM < "zonación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zonación_n_rel" ] ]. zonado_n1 := n_intr_count_le & [ STEM < "zonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zonado_n_rel" ] ]. zonal_a1 := a_rel_nonprd_intr_le & [ STEM < "zonal" >, SYNSEM.LKEYS.KEYREL.PRED "_zonal_a_rel" ]. zonificación_n1 := n_trans_le & [ STEM < "zonificación" >, SYNSEM.LKEYS.KEYREL.PRED "_zonificación_n_rel" ]. zonular_a1 := a_rel_nonprd_intr_le & [ STEM < "zonular" >, SYNSEM.LKEYS.KEYREL.PRED "_zonular_a_rel" ]. zoo_n1 := n_intr_count_le & [ STEM < "zoo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_zoo_n_rel" ] ]. zooarqueología_n1 := n_intr_uncount_le & [ STEM < "zooarqueología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zooarqueología_n_rel" ] ]. zoobentos_n1 := n_intr_count_le & [ STEM < "zoobentos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_zoobentos_n_rel" ] ]. zoobentónicamente_x1 := av_i_spr_le & [ STEM < "zoobentónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_zoobentónicamente_x_rel" ]. zoogeografía_n1 := n_intr_uncount_le & [ STEM < "zoogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zoogeografía_n_rel" ] ]. zoología_n1 := n_intr_uncount_le & [ STEM < "zoología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zoología_n_rel" ] ]. zoológico_a1 := a_rel_nonprd_intr_le & [ STEM < "zoológico" >, SYNSEM.LKEYS.KEYREL.PRED "_zoológico_a_rel" ]. zooplancton_n1 := n_intr_count_le & [ STEM < "zooplancton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zooplancton_n_rel" ] ]. zootécnicamente_x1 := av_i_spr_le & [ STEM < "zootécnicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_zootécnicamente_x_rel" ]. zootécnico_a1 := a_rel_nonprd_intr_le & [ STEM < "zootécnico" >, SYNSEM.LKEYS.KEYREL.PRED "_zootécnico_a_rel" ]. zopo_a1 := a_rel_nonprd_intr_le & [ STEM < "zopo" >, SYNSEM.LKEYS.KEYREL.PRED "_zopo_a_rel" ]. zoquete_n1 := n_intr_count_le & [ STEM < "zoquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zoquete_n_rel" ] ]. zorro_n1 := n_intr_count_le & [ STEM < "zorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zorro_n_rel" ] ]. zorzal_n1 := n_intr_count_le & [ STEM < "zorzal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zorzal_n_rel" ] ]. zozobrar_v := v_intr_le & [ STEM < "zozobrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_pot, PRED "_zozobrar_v_rel" ] ]. zoólogo_n1 := n_intr_count_le & [ STEM < "zoólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zoólogo_n_rel" ] ]. zueco_n1 := n_intr_count_le & [ STEM < "zueco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zueco_n_rel" ] ]. zulacar_v := v_trans_np_le & [ STEM < "zulacar" >, SYNSEM.LKEYS.KEYREL.PRED "_zulacar_v_rel" ]. zulaque_n1 := n_intr_mass_le & [ STEM < "zulaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_zulaque_n_rel" ] ]. zulú_a1 := a_rel_prd_le & [ STEM < "zulú" >, SYNSEM.LKEYS.KEYREL.PRED "_zulú_a_rel" ]. zulú_n1 := n_intr_count_le & [ STEM < "zulú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zulú_n_rel" ] ]. zumaque_n1 := n_intr_count_le & [ STEM < "zumaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_zumaque_n_rel" ] ]. zumbador_n1 := n_intr_count_le & [ STEM < "zumbador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zumbador_n_rel" ] ]. zumbar_v := v_unacc_le & [ STEM < "zumbar" >, SYNSEM.LKEYS.KEYREL.PRED "_zumbar_v_rel" ]. zumbido_n1 := n_result_intr_le & [ STEM < "zumbido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zumbido_n_rel" ] ]. zumo_n1 := n_intr_count_le & [ STEM < "zumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zumo_n_rel" ] ]. zunchado_n1 := n_intr_uncount_le & [ STEM < "zunchado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zunchado_n_rel" ] ]. zunchar_v := v_trans_np_le & [ STEM < "zunchar" >, SYNSEM.LKEYS.KEYREL.PRED "_zunchar_v_rel" ]. zuncho_n1 := n_intr_count_le & [ STEM < "zuncho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zuncho_n_rel" ] ]. zurcido_n1 := n_trans_le & [ STEM < "zurcido" >, SYNSEM.LKEYS.KEYREL.PRED "_zurcido_n_rel" ]. zurcir_v := v_trans_np*_le & [ STEM < "zurcir" >, SYNSEM.LKEYS.KEYREL.PRED "_zurcir_v_rel" ]. zurdazo_n1 := n_intr_count_le & [ STEM < "zurdazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zurdazo_n_rel" ] ]. zurdo_a1 := a_rel_nonprd_intr_le & [ STEM < "zurdo" >, SYNSEM.LKEYS.KEYREL.PRED "_zurdo_a_rel" ]. zurra_n1 := n_trans_le & [ STEM < "zurra" >, SYNSEM.LKEYS.KEYREL.PRED "_zurra_n_rel" ]. zurrador_n1 := n_subj-nom_le & [ STEM < "zurrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_zurrador_n_rel" ] ]. zurrón_n1 := n_intr_count_le & [ STEM < "zurrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zurrón_n_rel" ] ]. zángano_n1 := n_intr_count_le & [ STEM < "zángano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_zángano_n_rel" ] ]. zócalo_n1 := n_intr_count_le & [ STEM < "zócalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zócalo_n_rel" ] ]. zónula_n1 := n_intr_count_le & [ STEM < "zónula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_zónula_n_rel" ] ]. zónula_n2 := n_ppcomp_count_le & [ STEM < "zónula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_zónula_n_rel" ] ]. ábaco_n1 := n_intr_count_le & [ STEM < "ábaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ábaco_n_rel" ] ]. ábrego_n1 := n_intr_uncount_le & [ STEM < "ábrego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ábrego_n_rel" ] ]. ábsida_n1 := n_intr_count_le & [ STEM < "ábsida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ábsida_n_rel" ] ]. ábside_n1 := n_intr_count_le & [ STEM < "ábside" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ábside_n_rel" ] ]. ácaro_n1 := n_intr_count_le & [ STEM < "ácaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ácaro_n_rel" ] ]. ácidamente_x1 := av_i_spr_le & [ STEM < "ácidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ácidamente_x_rel" ]. ácido_a1 := a_qual_intr_scopal_le & [ STEM < "ácido" >, SYNSEM.LKEYS.KEYREL.PRED "_ácido_a_rel" ]. ácido_n1 := n_intr_mass_le & [ STEM < "ácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ácido_n_rel" ] ]. ácimo_a1 := a_rel_nonprd_intr_le & [ STEM < "ácimo" >, SYNSEM.LKEYS.KEYREL.PRED "_ácimo_a_rel" ]. ácrata_a1 := a_qual_intr_ser_le & [ STEM < "ácrata" >, SYNSEM.LKEYS.KEYREL.PRED "_ácrata_a_rel" ]. ácueo_a1 := a_rel_nonprd_intr_le & [ STEM < "ácueo" >, SYNSEM.LKEYS.KEYREL.PRED "_ácueo_a_rel" ]. ádito_n1 := n_intr_count_le & [ STEM < "ádito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ádito_n_rel" ] ]. áfido_n1 := n_intr_count_le & [ STEM < "áfido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_áfido_n_rel" ] ]. ágata_n1 := n_intr_count_le & [ STEM < "ágata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ágata_n_rel" ] ]. ágil_a1 := a_qual_intr_ser_le & [ STEM < "ágil" >, SYNSEM.LKEYS.KEYREL.PRED "_ágil_a_rel" ]. ágilmente_x1 := av_i_spr_le & [ STEM < "ágilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ágilmente_x_rel" ]. ágora_n1 := n_intr_count_le & [ STEM < "ágora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ágora_n_rel" ] ]. ágrafo_a1 := a_rel_nonprd_intr_le & [ STEM < "ágrafo" >, SYNSEM.LKEYS.KEYREL.PRED "_ágrafo_a_rel" ]. águila_n1 := n_intr_count_le & [ STEM < "águila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_águila_n_rel" ] ]. álabe_n1 := n_intr_count_le & [ STEM < "álabe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_álabe_n_rel" ] ]. álamo_n1 := n_intr_mass_le & [ STEM < "álamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_álamo_n_rel" ] ]. álbum_n1 := n_intr_count_le & [ STEM < "álbum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_álbum_n_rel" ] ]. álcali_n1 := n_intr_mass_le & [ STEM < "álcali" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_álcali_n_rel" ] ]. álgido_a1 := a_rel_nonprd_intr_le & [ STEM < "álgido" >, SYNSEM.LKEYS.KEYREL.PRED "_álgido_a_rel" ]. ámbar_a1 := a_qual_intr_ser_le & [ STEM < "ámbar" >, SYNSEM.LKEYS.KEYREL.PRED "_ámbar_a_rel" ]. ámbar_n1 := n_intr_mass_le & [ STEM < "ámbar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ámbar_n_rel" ] ]. ánade_n1 := n_intr_count_le & [ STEM < "ánade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ánade_n_rel" ] ]. áncora_n1 := n_intr_count_le & [ STEM < "áncora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_áncora_n_rel" ] ]. ánfora_n1 := n_intr_count_le & [ STEM < "ánfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ánfora_n_rel" ] ]. ángel_n1 := n_intr_count_le & [ STEM < "ángel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ángel_n_rel" ] ]. ángstrom_n := n_intr_count_le & [ STEM < "ángstrom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ángstrom_n_rel" ] ]. ánodo_n1 := n_intr_count_le & [ STEM < "ánodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ánodo_n_rel" ] ]. ánsar_n1 := n_intr_count_le & [ STEM < "ánsar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ánsar_n_rel" ] ]. ápoca_n1 := n_intr_count_le & [ STEM < "ápoca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_ápoca_n_rel" ] ]. áptero_a1 := a_rel_nonprd_intr_le & [ STEM < "áptero" >, SYNSEM.LKEYS.KEYREL.PRED "_áptero_a_rel" ]. árabe_a1 := a_rel_prd_le & [ STEM < "árabe" >, SYNSEM.LKEYS.KEYREL.PRED "_árabe_a_rel" ]. árabe_n1 := n_intr_count_le & [ STEM < "árabe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_árabe_n_rel" ] ]. árbitro_n1 := n_intr_count_le & [ STEM < "árbitro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_árbitro_n_rel" ] ]. árbol_n1 := n_intr_count_le & [ STEM < "árbol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_árbol_n_rel" ] ]. área_n2 := n_intr_mass_le & [ STEM < "área" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_mea_unit, PRED "_área_n_rel" ] ]. árido_a1 := a_qual_intr_scopal_le & [ STEM < "árido" >, SYNSEM.LKEYS.KEYREL.PRED "_árido_a_rel" ]. árido_n1 := n_intr_count_le & [ STEM < "árido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_árido_n_rel" ] ]. árnica_n1 := n_intr_mass_le & [ STEM < "árnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_árnica_n_rel" ] ]. ártico_a1 := a_rel_prd_le & [ STEM < "ártico" >, SYNSEM.LKEYS.KEYREL.PRED "_ártico_a_rel" ]. áscari_n1 := n_intr_count_le & [ STEM < "áscari" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_áscari_n_rel" ] ]. ásperamente_x1 := av_i_spr_le & [ STEM < "ásperamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ásperamente_x_rel" ]. áspero_a1 := a_qual_intr_scopal_le & [ STEM < "áspero" >, SYNSEM.LKEYS.KEYREL.PRED "_áspero_a_rel" ]. áspid_n1 := n_intr_count_le & [ STEM < "áspid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_áspid_n_rel" ] ]. ástaco_n1 := n_intr_count_le & [ STEM < "ástaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ástaco_n_rel" ] ]. ático_a1 := a_rel_prd_le & [ STEM < "ático" >, SYNSEM.LKEYS.KEYREL.PRED "_ático_a_rel" ]. ático_n1 := n_intr_count_le & [ STEM < "ático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ático_n_rel" ] ]. átomo_n1 := n_intr_count_le & [ STEM < "átomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_átomo_n_rel" ] ]. átonamente_x1 := av_i_spr_le & [ STEM < "átonamente" >, SYNSEM.LKEYS.KEYREL.PRED "_átonamente_x_rel" ]. átono_a1 := a_rel_nonprd_intr_le & [ STEM < "átono" >, SYNSEM.LKEYS.KEYREL.PRED "_átono_a_rel" ]. áureo_a1 := a_rel_nonprd_intr_le & [ STEM < "áureo" >, SYNSEM.LKEYS.KEYREL.PRED "_áureo_a_rel" ]. áurica_n1 := n_intr_count_le & [ STEM < "áurica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_áurica_n_rel" ] ]. áurico_a1 := a_rel_nonprd_intr_le & [ STEM < "áurico" >, SYNSEM.LKEYS.KEYREL.PRED "_áurico_a_rel" ]. ávidamente_x1 := av_i_spr_le & [ STEM < "ávidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ávidamente_x_rel" ]. ávido_a1 := a_qual_trans*_estar_le & [ STEM < "ávido" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_ávido_a_rel" ] ]. ávido_a2 := a_sctrl_estar_le & [ STEM < "ávido" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_ávido_a_rel" ] ]. ångström_n := n_intr_count_le & [ STEM < "ångström" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ångström_n_rel" ] ]. ébano_n1 := n_intr_mass_le & [ STEM < "ébano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ébano_n_rel" ] ]. écade_n1 := n_intr_count_le & [ STEM < "écade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_écade_n_rel" ] ]. égloga_n1 := n_intr_count_le & [ STEM < "égloga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_égloga_n_rel" ] ]. él_p := pr_pers_nom-or-obl_le & [ STEM < "él" > ]. élite_n1 := n_intr_count_le & [ STEM < "élite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_élite_n_rel" ] ]. émbolo_n1 := n_intr_count_le & [ STEM < "émbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_émbolo_n_rel" ] ]. émulo_a1 := a_rel_nonprd_intr_le & [ STEM < "émulo" >, SYNSEM.LKEYS.KEYREL.PRED "_émulo_a_rel" ]. épico_a1 := a_rel_nonprd_intr_le & [ STEM < "épico" >, SYNSEM.LKEYS.KEYREL.PRED "_épico_a_rel" ]. época_n1 := n_intr_count_le & [ STEM < "época" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_época_n_rel" ] ]. éster_n1 := n_intr_mass_le & [ STEM < "éster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_éster_n_rel" ] ]. éter_n1 := n_intr_mass_le & [ STEM < "éter" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_éter_n_rel" ] ]. éticamente_x1 := av_i_spr_le & [ STEM < "éticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_éticamente_x_rel" ]. ético_a1 := a_qual_intr_scopal_le & [ STEM < "ético" >, SYNSEM.LKEYS.KEYREL.PRED "_ético_a_rel" ]. étnico_a1 := a_rel_nonprd_intr_le & [ STEM < "étnico" >, SYNSEM.LKEYS.KEYREL.PRED "_étnico_a_rel" ]. íberamente_x1 := av_i_spr_le & [ STEM < "íberamente" >, SYNSEM.LKEYS.KEYREL.PRED "_íberamente_x_rel" ]. íbero_a1 := a_rel_prd_le & [ STEM < "íbero" >, SYNSEM.LKEYS.KEYREL.PRED "_íbero_a_rel" ]. íbero_n1 := n_intr_count_le & [ STEM < "íbero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_íbero_n_rel" ] ]. íbice_n1 := n_intr_count_le & [ STEM < "íbice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_íbice_n_rel" ] ]. ícticamente_x1 := av_i_spr_le & [ STEM < "ícticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ícticamente_x_rel" ]. ídem_de_ídem_x1 := av_i_le & [ STEM < "ídem_de_ídem" >, SYNSEM.LKEYS.KEYREL.PRED "_ídem_de_ídem_x_rel" ]. ídolo_n1 := n_intr_count_le & [ STEM < "ídolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ídolo_n_rel" ] ]. ígneo_a1 := a_rel_nonprd_intr_le & [ STEM < "ígneo" >, SYNSEM.LKEYS.KEYREL.PRED "_ígneo_a_rel" ]. íleon_n1 := n_ppcomp_count_le & [ STEM < "íleon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_íleon_n_rel" ] ]. índice_n1 := n_intr_count_le & [ STEM < "índice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_índice_n_rel" ] ]. índico_a1 := a_rel_prd_le & [ STEM < "índico" >, SYNSEM.LKEYS.KEYREL.PRED "_índico_a_rel" ]. índigo_a1 := a_rel_prd_le & [ STEM < "índigo" >, SYNSEM.LKEYS.KEYREL.PRED "_índigo_a_rel" ]. índigo_n1 := n_intr_mass_le & [ STEM < "índigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_índigo_n_rel" ] ]. ínfula_n1 := n_intr_count_le & [ STEM < "ínfula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ínfula_n_rel" ] ]. ínsula_n1 := n_intr_count_le & [ STEM < "ínsula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ínsula_n_rel" ] ]. íntegramente_x1 := av_i_spr_le & [ STEM < "íntegramente" >, SYNSEM.LKEYS.KEYREL.PRED "_íntegramente_x_rel" ]. íntegro_a1 := a_qual_intr_scopal_le & [ STEM < "íntegro" >, SYNSEM.LKEYS.KEYREL.PRED "_íntegro_a_rel" ]. íntimamente_x1 := av_i_spr_le & [ STEM < "íntimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_íntimamente_x_rel" ]. íntimo_a1 := a_qual_intr_scopal_le & [ STEM < "íntimo" >, SYNSEM.LKEYS.KEYREL.PRED "_íntimo_a_rel" ]. írrito_a1 := a_rel_prd_le & [ STEM < "írrito" >, SYNSEM.LKEYS.KEYREL.PRED "_írrito_a_rel" ]. ítem_n1 := n_intr_count_le & [ STEM < "ítem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_ítem_n_rel" ] ]. ñame_n1 := n_intr_count_le & [ STEM < "ñame" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ñame_n_rel" ] ]. ñu_n1 := n_intr_count_le & [ STEM < "ñu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ñu_n_rel" ] ]. ó_cc1 := cc_disj_o_le & [ STEM < "ó" > ]. óbice_n1 := n_intr_count_le & [ STEM < "óbice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_óbice_n_rel" ] ]. óbito_n1 := n_intr_count_le & [ STEM < "óbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_óbito_n_rel" ] ]. óbolo_n1 := n_intr_count_le & [ STEM < "óbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_óbolo_n_rel" ] ]. óctuple_a1 := a_rel_nonprd_intr_le & [ STEM < "óctuple" >, SYNSEM.LKEYS.KEYREL.PRED "_óctuple_a_rel" ]. óhmetro_n1 := n_intr_count_le & [ STEM < "óhmetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_óhmetro_n_rel" ] ]. óhmico_a1 := a_rel_nonprd_intr_le & [ STEM < "óhmico" >, SYNSEM.LKEYS.KEYREL.PRED "_óhmico_a_rel" ]. óleo_n1 := n_intr_mass_le & [ STEM < "óleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_óleo_n_rel" ] ]. ómnibus_n1 := n_intr_count_le & [ STEM < "ómnibus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ómnibus_n_rel" ] ]. ónix_n1 := n_intr_mass_le & [ STEM < "ónix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ónix_n_rel" ] ]. ópalo_n1 := n_intr_mass-or-count_le & [ STEM < "ópalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_ópalo_n_rel" ] ]. ópera_n1 := n_intr_mass_le & [ STEM < "ópera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ópera_n_rel" ] ]. óptica_n1 := n_intr_mass_le & [ STEM < "óptica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_óptica_n_rel" ] ]. ópticamente_x1 := av_i_spr_le & [ STEM < "ópticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ópticamente_x_rel" ]. óptico_a1 := a_rel_nonprd_intr_le & [ STEM < "óptico" >, SYNSEM.LKEYS.KEYREL.PRED "_óptico_a_rel" ]. óptico_n1 := n_intr_count_le & [ STEM < "óptico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_óptico_n_rel" ] ]. óptimamente_x1 := av_i_spr_le & [ STEM < "óptimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_óptimamente_x_rel" ]. órgano_n1 := n_intr_count_le & [ STEM < "órgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_órgano_n_rel" ] ]. órtico_a1 := a_rel_nonprd_intr_le & [ STEM < "órtico" >, SYNSEM.LKEYS.KEYREL.PRED "_órtico_a_rel" ]. óseo_a1 := a_rel_nonprd_intr_le & [ STEM < "óseo" >, SYNSEM.LKEYS.KEYREL.PRED "_óseo_a_rel" ]. ósmico_a1 := a_rel_nonprd_intr_le & [ STEM < "ósmico" >, SYNSEM.LKEYS.KEYREL.PRED "_ósmico_a_rel" ]. óstracon_n1 := n_intr_count_le & [ STEM < "óstracon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_óstracon_n_rel" ] ]. ótico_a1 := a_rel_nonprd_intr_le & [ STEM < "ótico" >, SYNSEM.LKEYS.KEYREL.PRED "_ótico_a_rel" ]. óvulo_n1 := n_intr_count_le & [ STEM < "óvulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_óvulo_n_rel" ] ]. óxico_a1 := a_rel_nonprd_intr_le & [ STEM < "óxico" >, SYNSEM.LKEYS.KEYREL.PRED "_óxico_a_rel" ]. óxido_n1 := n_intr_mass_le & [ STEM < "óxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_óxido_n_rel" ] ]. úlcera_n1 := n_intr_mass_le & [ STEM < "úlcera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_úlcera_n_rel" ] ]. últimamente_x1 := av_i_le & [ STEM < "últimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_últimamente_x_rel" ]. último_a1 := a_adv_event_le & [ STEM < "último" >, SYNSEM.LKEYS.KEYREL.PRED "_último_a_rel" ]. únicamente_x1 := av_i_foc_le & [ STEM < "únicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_únicamente_x_rel" ]. únicamente_x2 := av_s_cp_prop_le & [ STEM < "únicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_únicamente_x_rel" ]. únicamente_x3 := av_i_np-foc_le & [ STEM < "únicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_únicamente_x_rel" ]. único_a1 := a_adv_int_le & [ STEM < "único" >, SYNSEM.LKEYS.KEYREL.PRED "_único_a_rel" ]. úrico_a1 := a_rel_nonprd_intr_le & [ STEM < "úrico" >, SYNSEM.LKEYS.KEYREL.PRED "_úrico_a_rel" ]. úrsido_n1 := n_intr_count_le & [ STEM < "úrsido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_úrsido_n_rel" ] ]. útero_n1 := n_ppcomp_count_le & [ STEM < "útero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_útero_n_rel" ] ]. útil_n1 := n_intr_count_le & [ STEM < "útil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_útil_n_rel" ] ]. útilmente_x1 := av_i_spr_le & [ STEM < "útilmente" >, SYNSEM.LKEYS.KEYREL.PRED "_útilmente_x_rel" ]. úvea_n1 := n_ppcomp_count_le & [ STEM < "úvea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_úvea_n_rel" ] ]. gabela_n1 := n_intr_count_le & [ STEM < "gabela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gabela_n_rel" ] ]. gala_n1 := n_intr_count_le & [ STEM < "gala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gala_n_rel" ] ]. gaélico_n1 := n_intr_uncount_le & [ STEM < "gaélico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gaélico_n_rel" ] ]. galimatías_n1 := n_intr_uncount_le & [ STEM < "galimatías" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galimatías_n_rel" ] ]. galvanoplastia_n1 := n_intr_count_le & [ STEM < "galvanoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galvanoplastia_n_rel" ] ]. galvanostegia_n1 := n_intr_uncount_pl_le & [ STEM < "galvanostegia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galvanostegia_n_rel" ] ]. galvanotecnia_n1 := n_intr_uncount_le & [ STEM < "galvanotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_galvanotecnia_n_rel" ] ]. gama_n1 := n_intr_count_le & [ STEM < "gama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gama_n_rel" ] ]. gametogénesis_n1 := n_intr_uncount_le & [ STEM < "gametogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gametogénesis_n_rel" ] ]. gana_n1 := n_intr_mass_le & [ STEM < "gana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gana_n_rel" ] ]. ganga_n1 := n_intr_count_le & [ STEM < "ganga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ganga_n_rel" ] ]. ganglio_n1 := n_intr_count_le & [ STEM < "ganglio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ganglio_n_rel" ] ]. ágape_n1 := n_intr_count_le & [ STEM < "ágape" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ágape_n_rel" ] ]. garbo_n1 := n_intr_mass_le & [ STEM < "garbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_garbo_n_rel" ] ]. gasohol_n1 := n_intr_uncount_le & [ STEM < "gasohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gasohol_n_rel" ] ]. gastritis_n1 := n_intr_uncount_le & [ STEM < "gastritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gastritis_n_rel" ] ]. gastrópodo_n1 := n_intr_count_le & [ STEM < "gastrópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gastrópodo_n_rel" ] ]. gaznate_n1 := n_intr_mass-or-count_le & [ STEM < "gaznate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gaznate_n_rel" ] ]. gedanita_n1 := n_intr_uncount_le & [ STEM < "gedanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gedanita_n_rel" ] ]. gemoterapia_n1 := n_intr_uncount_le & [ STEM < "gemoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gemoterapia_n_rel" ] ]. genioplastia_n1 := n_intr_count_le & [ STEM < "genioplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genioplastia_n_rel" ] ]. geniqueiloplastia_n1 := n_intr_count_le & [ STEM < "geniqueiloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geniqueiloplastia_n_rel" ] ]. geniquiloplastia_n1 := n_intr_count_le & [ STEM < "geniquiloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geniquiloplastia_n_rel" ] ]. genitivo_n1 := n_intr_uncount_le & [ STEM < "genitivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genitivo_n_rel" ] ]. genoblasto_n1 := n_intr_count_le & [ STEM < "genoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genoblasto_n_rel" ] ]. genocidio_n1 := n_intr_count_le & [ STEM < "genocidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genocidio_n_rel" ] ]. genoma_n1 := n_intr_count_le & [ STEM < "genoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genoma_n_rel" ] ]. genotipo_n1 := n_intr_count_le & [ STEM < "genotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genotipo_n_rel" ] ]. genética_n1 := n_intr_uncount_le & [ STEM < "genética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_genética_n_rel" ] ]. geodesia_n1 := n_intr_uncount_le & [ STEM < "geodesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geodesia_n_rel" ] ]. geoestrategia_n1 := n_intr_count_le & [ STEM < "geoestrategia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geoestrategia_n_rel" ] ]. geofísica_n1 := n_intr_uncount_le & [ STEM < "geofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geofísica_n_rel" ] ]. geognosia_n1 := n_intr_uncount_le & [ STEM < "geognosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geognosia_n_rel" ] ]. geoide_n1 := n_intr_count_le & [ STEM < "geoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geoide_n_rel" ] ]. geolingüística_n1 := n_intr_uncount_le & [ STEM < "geolingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geolingüística_n_rel" ] ]. geomecánica_n1 := n_intr_uncount_le & [ STEM < "geomecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geomecánica_n_rel" ] ]. geomática_n1 := n_intr_uncount_le & [ STEM < "geomática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geomática_n_rel" ] ]. geopolítica_n1 := n_intr_uncount_le & [ STEM < "geopolítica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geopolítica_n_rel" ] ]. geoquímica_n1 := n_intr_uncount_le & [ STEM < "geoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geoquímica_n_rel" ] ]. geosinónimo_n1 := n_intr_count_le & [ STEM < "geosinónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geosinónimo_n_rel" ] ]. geotermia_n1 := n_intr_uncount_le & [ STEM < "geotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_geotermia_n_rel" ] ]. gerundio_n1 := n_intr_count_le & [ STEM < "gerundio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gerundio_n_rel" ] ]. gesta_n1 := n_intr_coll_le & [ STEM < "gesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gesta_n_rel" ] ]. gigantomaquia_n1 := n_intr_uncount_le & [ STEM < "gigantomaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gigantomaquia_n_rel" ] ]. ginandra_n1 := n_intr_uncount_pl_le & [ STEM < "ginandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ginandra_n_rel" ] ]. gincana_n1 := n_intr_uncount_pl_le & [ STEM < "gincana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gincana_n_rel" ] ]. gingivalgia_n1 := n_intr_uncount_le & [ STEM < "gingivalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivalgia_n_rel" ] ]. gingivitis_n1 := n_intr_uncount_le & [ STEM < "gingivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivitis_n_rel" ] ]. gingivoestomatitis_n1 := n_intr_uncount_le & [ STEM < "gingivoestomatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivoestomatitis_n_rel" ] ]. gingivoglositis_n1 := n_intr_uncount_le & [ STEM < "gingivoglositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivoglositis_n_rel" ] ]. gingivosis_n1 := n_intr_uncount_le & [ STEM < "gingivosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gingivosis_n_rel" ] ]. ginogénesis_n1 := n_intr_uncount_le & [ STEM < "ginogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ginogénesis_n_rel" ] ]. glaucoma_n1 := n_intr_count_le & [ STEM < "glaucoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glaucoma_n_rel" ] ]. glaucosis_n1 := n_intr_uncount_le & [ STEM < "glaucosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glaucosis_n_rel" ] ]. glicemia_n1 := n_intr_uncount_le & [ STEM < "glicemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glicemia_n_rel" ] ]. glioma_n1 := n_intr_count_le & [ STEM < "glioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glioma_n_rel" ] ]. gliptogénesis_n1 := n_intr_uncount_le & [ STEM < "gliptogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gliptogénesis_n_rel" ] ]. globotriaocilceramida_n1 := n_intr_uncount_le & [ STEM < "globotriaocilceramida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_globotriaocilceramida_n_rel" ] ]. globulinemia_n1 := n_intr_uncount_le & [ STEM < "globulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_globulinemia_n_rel" ] ]. glomerulonefritis_n1 := n_intr_uncount_le & [ STEM < "glomerulonefritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glomerulonefritis_n_rel" ] ]. gloria_n1 := n_intr_mass-or-count_le & [ STEM < "gloria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gloria_n_rel" ] ]. glosalgia_n1 := n_intr_uncount_le & [ STEM < "glosalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosalgia_n_rel" ] ]. glosema_n1 := n_intr_count_le & [ STEM < "glosema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosema_n_rel" ] ]. glosemática_n1 := n_intr_uncount_le & [ STEM < "glosemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosemática_n_rel" ] ]. glositis_n1 := n_intr_uncount_le & [ STEM < "glositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glositis_n_rel" ] ]. glosántrax_n1 := n_intr_uncount_le & [ STEM < "glosántrax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosántrax_n_rel" ] ]. glosocele_n1 := n_intr_uncount_le & [ STEM < "glosocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosocele_n_rel" ] ]. glosocinestesia_n1 := n_intr_uncount_le & [ STEM < "glosocinestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosocinestesia_n_rel" ] ]. glosodinia_n1 := n_intr_uncount_le & [ STEM < "glosodinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosodinia_n_rel" ] ]. glosofitia_n1 := n_intr_uncount_le & [ STEM < "glosofitia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosofitia_n_rel" ] ]. glosolalia_n1 := n_intr_uncount_le & [ STEM < "glosolalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosolalia_n_rel" ] ]. glosopirosis_n1 := n_intr_uncount_le & [ STEM < "glosopirosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosopirosis_n_rel" ] ]. glosoplastia_n1 := n_intr_count_le & [ STEM < "glosoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosoplastia_n_rel" ] ]. glosoptosis_n1 := n_intr_uncount_le & [ STEM < "glosoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glosoptosis_n_rel" ] ]. glucólisis_n1 := n_intr_uncount_le & [ STEM < "glucólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glucólisis_n_rel" ] ]. glucosialorrea_n1 := n_intr_uncount_le & [ STEM < "glucosialorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_glucosialorrea_n_rel" ] ]. gnatalgia_n1 := n_intr_uncount_le & [ STEM < "gnatalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatalgia_n_rel" ] ]. gnatitis_n1 := n_intr_uncount_le & [ STEM < "gnatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatitis_n_rel" ] ]. gnatodinamia_n1 := n_intr_uncount_le & [ STEM < "gnatodinamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatodinamia_n_rel" ] ]. gnatoplastia_n1 := n_intr_count_le & [ STEM < "gnatoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatoplastia_n_rel" ] ]. gnatosquisis_n1 := n_intr_uncount_le & [ STEM < "gnatosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatosquisis_n_rel" ] ]. gnatostática_n1 := n_intr_uncount_le & [ STEM < "gnatostática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnatostática_n_rel" ] ]. génesis_n1 := n_intr_uncount_le & [ STEM < "génesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_génesis_n_rel" ] ]. gónfosis_n1 := n_intr_uncount_le & [ STEM < "gónfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gónfosis_n_rel" ] ]. gnosis_n1 := n_intr_uncount_le & [ STEM < "gnosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gnosis_n_rel" ] ]. golgiólisis_n1 := n_intr_uncount_le & [ STEM < "golgiólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golgiólisis_n_rel" ] ]. gol_n1 := n_intr_count_le & [ STEM < "gol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gol_n_rel" ] ]. golpecito_n1 := n_intr_count_le & [ STEM < "golpecito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_golpecito_n_rel" ] ]. gomosis_n1 := n_intr_uncount_le & [ STEM < "gomosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gomosis_n_rel" ] ]. gong_n1 := n_intr_count_le & [ STEM < "gong" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gong_n_rel" ] ]. gonioscopia_n1 := n_intr_count_le & [ STEM < "gonioscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gonioscopia_n_rel" ] ]. goniosinequia_n1 := n_intr_uncount_le & [ STEM < "goniosinequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_goniosinequia_n_rel" ] ]. gonorrea_n1 := n_intr_uncount_le & [ STEM < "gonorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gonorrea_n_rel" ] ]. gozo_n1 := n_intr_mass-or-count_le & [ STEM < "gozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gozo_n_rel" ] ]. gradiente_n1 := n_intr_count_le & [ STEM < "gradiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gradiente_n_rel" ] ]. grafema_n1 := n_intr_count_le & [ STEM < "grafema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafema_n_rel" ] ]. grafística_n1 := n_intr_uncount_le & [ STEM < "grafística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grafística_n_rel" ] ]. gramática_n1 := n_intr_uncount_le & [ STEM < "gramática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gramática_n_rel" ] ]. granulocito_n1 := n_intr_count_le & [ STEM < "granulocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulocito_n_rel" ] ]. granulocitopenia_n1 := n_intr_uncount_le & [ STEM < "granulocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulocitopenia_n_rel" ] ]. granuloma_n1 := n_intr_count_le & [ STEM < "granuloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granuloma_n_rel" ] ]. granulomatosis_n1 := n_intr_uncount_le & [ STEM < "granulomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulomatosis_n_rel" ] ]. granulopenia_n1 := n_intr_uncount_le & [ STEM < "granulopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulopenia_n_rel" ] ]. granulopoyesis_n1 := n_intr_uncount_le & [ STEM < "granulopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_granulopoyesis_n_rel" ] ]. gravamen_n1 := n_intr_count_le & [ STEM < "gravamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gravamen_n_rel" ] ]. gárgara_n1 := n_intr_uncount_pl_le & [ STEM < "gárgara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gárgara_n_rel" ] ]. grifa_n1 := n_intr_count_le & [ STEM < "grifa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grifa_n_rel" ] ]. grima_n1 := n_intr_mass_le & [ STEM < "grima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grima_n_rel" ] ]. gripe_n1 := n_intr_mass_le & [ STEM < "gripe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gripe_n_rel" ] ]. grueso_n1 := n_intr_uncount_le & [ STEM < "grueso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grueso_n_rel" ] ]. grupúsculo_n1 := n_intr_count_le & [ STEM < "grupúsculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_grupúsculo_n_rel" ] ]. guardafrenos_n1 := n_intr_count_le & [ STEM < "guardafrenos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guardafrenos_n_rel" ] ]. guateque_n1 := n_intr_count_le & [ STEM < "guateque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guateque_n_rel" ] ]. guerrilla_n1 := n_intr_count_le & [ STEM < "guerrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guerrilla_n_rel" ] ]. guinga_n1 := n_intr_mass_le & [ STEM < "guinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guinga_n_rel" ] ]. guirigay_n1 := n_intr_uncount_pl_le & [ STEM < "guirigay" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guirigay_n_rel" ] ]. guisa_n1 := n_intr_uncount_pl_le & [ STEM < "guisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_guisa_n_rel" ] ]. gula_n1 := n_intr_uncount_le & [ STEM < "gula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gula_n_rel" ] ]. gusto_n1 := n_intr_mass-or-count_le & [ STEM < "gusto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_gusto_n_rel" ] ]. habeas_corpus_n1 := n_intr_uncount_pl_le & [ STEM < "habeas_corpus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habeas_corpus_n_rel" ] ]. habitat_n1 := n_intr_count_le & [ STEM < "habitat" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habitat_n_rel" ] ]. habénula_n1 := n_intr_uncount_le & [ STEM < "habénula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_habénula_n_rel" ] ]. haikú_n1 := n_intr_count_le & [ STEM < "haikú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haikú_n_rel" ] ]. halitosis_n1 := n_intr_uncount_le & [ STEM < "halitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_halitosis_n_rel" ] ]. hambre_n1 := n_intr_mass_le & [ STEM < "hambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hambre_n_rel" ] ]. hambruna_n1 := n_intr_uncount_pl_le & [ STEM < "hambruna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hambruna_n_rel" ] ]. handicap_n1 := n_intr_count_le & [ STEM < "handicap" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_handicap_n_rel" ] ]. haplolalia_n1 := n_intr_uncount_le & [ STEM < "haplolalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haplolalia_n_rel" ] ]. haplomitosis_n1 := n_intr_uncount_le & [ STEM < "haplomitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haplomitosis_n_rel" ] ]. haplotipo_n1 := n_intr_count_le & [ STEM < "haplotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haplotipo_n_rel" ] ]. hapteno_n1 := n_intr_count_le & [ STEM < "hapteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hapteno_n_rel" ] ]. haverseno_n1 := n_intr_uncount_le & [ STEM < "haverseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_haverseno_n_rel" ] ]. hazaña_n1 := n_intr_count_le & [ STEM < "hazaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hazaña_n_rel" ] ]. hábeas_corpus_n1 := n_intr_uncount_pl_le & [ STEM < "hábeas_corpus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hábeas_corpus_n_rel" ] ]. hebraísmo_n1 := n_intr_uncount_le & [ STEM < "hebraísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hebraísmo_n_rel" ] ]. hebraísmo_n2 := n_intr_count_le & [ STEM < "hebraísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hebraísmo_n_rel" ] ]. hecatombe_n1 := n_intr_count_le & [ STEM < "hecatombe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hecatombe_n_rel" ] ]. hechizo_n1 := n_intr_count_le & [ STEM < "hechizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hechizo_n_rel" ] ]. hecho_n1 := n_intr_count_le & [ STEM < "hecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hecho_n_rel" ] ]. helicón_n1 := n_intr_count_le & [ STEM < "helicón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_helicón_n_rel" ] ]. helicoide_n1 := n_intr_count_le & [ STEM < "helicoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_helicoide_n_rel" ] ]. hemaglutinina_n1 := n_intr_uncount_le & [ STEM < "hemaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemaglutinina_n_rel" ] ]. hemangioma_n1 := n_intr_count_le & [ STEM < "hemangioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemangioma_n_rel" ] ]. hemartrosis_n1 := n_intr_uncount_le & [ STEM < "hemartrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemartrosis_n_rel" ] ]. hematócrito_n1 := n_intr_count_le & [ STEM < "hematócrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematócrito_n_rel" ] ]. hematemesis_n1 := n_intr_uncount_le & [ STEM < "hematemesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematemesis_n_rel" ] ]. hematocórnea_n1 := n_intr_uncount_le & [ STEM < "hematocórnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematocórnea_n_rel" ] ]. hematogénesis_n1 := n_intr_uncount_le & [ STEM < "hematogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematogénesis_n_rel" ] ]. hematoma_n1 := n_intr_count_le & [ STEM < "hematoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematoma_n_rel" ] ]. hematopoyesis_n1 := n_intr_uncount_le & [ STEM < "hematopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematopoyesis_n_rel" ] ]. hematosis_n1 := n_intr_uncount_le & [ STEM < "hematosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematosis_n_rel" ] ]. hematuria_n1 := n_intr_uncount_le & [ STEM < "hematuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hematuria_n_rel" ] ]. hembra_n1 := n_intr_count_le & [ STEM < "hembra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hembra_n_rel" ] ]. hemianopsia_n1 := n_intr_uncount_le & [ STEM < "hemianopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemianopsia_n_rel" ] ]. hemiplejia_n1 := n_intr_uncount_le & [ STEM < "hemiplejia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemiplejia_n_rel" ] ]. hemisferio_n1 := n_intr_count_le & [ STEM < "hemisferio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemisferio_n_rel" ] ]. hemistiquio_n1 := n_intr_count_le & [ STEM < "hemistiquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemistiquio_n_rel" ] ]. hemitómbolo_n1 := n_intr_uncount_pl_le & [ STEM < "hemitómbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemitómbolo_n_rel" ] ]. hemixis_n1 := n_intr_uncount_le & [ STEM < "hemixis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemixis_n_rel" ] ]. hemólisis_n1 := n_intr_uncount_le & [ STEM < "hemólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemólisis_n_rel" ] ]. hemoblastosis_n1 := n_intr_uncount_le & [ STEM < "hemoblastosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoblastosis_n_rel" ] ]. hemocitólisis_n1 := n_intr_uncount_le & [ STEM < "hemocitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemocitólisis_n_rel" ] ]. hemocromatosis_n1 := n_intr_uncount_le & [ STEM < "hemocromatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemocromatosis_n_rel" ] ]. hemocromo_n1 := n_intr_uncount_pl_le & [ STEM < "hemocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemocromo_n_rel" ] ]. hemodiálisis_n1 := n_intr_uncount_le & [ STEM < "hemodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemodiálisis_n_rel" ] ]. hemofilia_n1 := n_intr_count_le & [ STEM < "hemofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemofilia_n_rel" ] ]. hemoglobinemia_n1 := n_intr_uncount_le & [ STEM < "hemoglobinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoglobinemia_n_rel" ] ]. hemoglobinuria_n1 := n_intr_uncount_le & [ STEM < "hemoglobinuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoglobinuria_n_rel" ] ]. hemolisis_n1 := n_intr_uncount_le & [ STEM < "hemolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemolisis_n_rel" ] ]. hemopoyesis_n1 := n_intr_uncount_le & [ STEM < "hemopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemopoyesis_n_rel" ] ]. hemorragia_n1 := n_intr_count_le & [ STEM < "hemorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemorragia_n_rel" ] ]. hemosiderinuria_n1 := n_intr_uncount_le & [ STEM < "hemosiderinuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemosiderinuria_n_rel" ] ]. hemosiderosis_n1 := n_intr_uncount_le & [ STEM < "hemosiderosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemosiderosis_n_rel" ] ]. hemostasia_n1 := n_intr_uncount_le & [ STEM < "hemostasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemostasia_n_rel" ] ]. hemoterapia_n1 := n_intr_uncount_le & [ STEM < "hemoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemoterapia_n_rel" ] ]. hemóptisis_n1 := n_intr_uncount_le & [ STEM < "hemóptisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hemóptisis_n_rel" ] ]. hepatitis_n1 := n_intr_uncount_le & [ STEM < "hepatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hepatitis_n_rel" ] ]. hepatoesplenomegalia_n1 := n_intr_uncount_le & [ STEM < "hepatoesplenomegalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hepatoesplenomegalia_n_rel" ] ]. heptágono_n1 := n_intr_count_le & [ STEM < "heptágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heptágono_n_rel" ] ]. heptámetro_n1 := n_intr_count_le & [ STEM < "heptámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heptámetro_n_rel" ] ]. heráldica_n1 := n_intr_count_le & [ STEM < "heráldica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heráldica_n_rel" ] ]. hermenéutica_n1 := n_intr_uncount_le & [ STEM < "hermenéutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hermenéutica_n_rel" ] ]. hernia_n1 := n_intr_count_le & [ STEM < "hernia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hernia_n_rel" ] ]. heroísmo_n1 := n_intr_mass_le & [ STEM < "heroísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heroísmo_n_rel" ] ]. herpes_n1 := n_intr_mass-or-count_le & [ STEM < "herpes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_herpes_n_rel" ] ]. hessiano_n1 := n_intr_uncount_pl_le & [ STEM < "hessiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hessiano_n_rel" ] ]. heterónimo_n1 := n_intr_count_le & [ STEM < "heterónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterónimo_n_rel" ] ]. heterodino_n1 := n_intr_uncount_pl_le & [ STEM < "heterodino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterodino_n_rel" ] ]. heterodúplex_n1 := n_intr_uncount_pl_le & [ STEM < "heterodúplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heterodúplex_n_rel" ] ]. heteroepitaxia_n1 := n_intr_uncount_le & [ STEM < "heteroepitaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heteroepitaxia_n_rel" ] ]. heteronimia_n1 := n_intr_uncount_le & [ STEM < "heteronimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heteronimia_n_rel" ] ]. heteropicnosis_n1 := n_intr_uncount_le & [ STEM < "heteropicnosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heteropicnosis_n_rel" ] ]. heurística_n1 := n_intr_uncount_le & [ STEM < "heurística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_heurística_n_rel" ] ]. hexaedro_n1 := n_intr_count_le & [ STEM < "hexaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexaedro_n_rel" ] ]. hexaoctaedro_n1 := n_intr_count_le & [ STEM < "hexaoctaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexaoctaedro_n_rel" ] ]. hexaquisoctaedro_n1 := n_intr_count_le & [ STEM < "hexaquisoctaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexaquisoctaedro_n_rel" ] ]. hexaquistetraedro_n1 := n_intr_count_le & [ STEM < "hexaquistetraedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexaquistetraedro_n_rel" ] ]. hexatetraedro_n1 := n_intr_count_le & [ STEM < "hexatetraedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexatetraedro_n_rel" ] ]. hexámetro_n1 := n_intr_count_le & [ STEM < "hexámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hexámetro_n_rel" ] ]. hégira_n1 := n_intr_uncount_pl_le & [ STEM < "hégira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hégira_n_rel" ] ]. hialosis_n1 := n_intr_uncount_le & [ STEM < "hialosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hialosis_n_rel" ] ]. hidra_n1 := n_intr_mass-or-count_le & [ STEM < "hidra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidra_n_rel" ] ]. hidrante_n1 := n_intr_count_le & [ STEM < "hidrante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrante_n_rel" ] ]. hidrólisis_n1 := n_intr_uncount_le & [ STEM < "hidrólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrólisis_n_rel" ] ]. hidrociclón_n1 := n_intr_count_le & [ STEM < "hidrociclón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrociclón_n_rel" ] ]. hidrocultivo_n1 := n_intr_uncount_pl_le & [ STEM < "hidrocultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrocultivo_n_rel" ] ]. hidrodinámica_n1 := n_intr_uncount_le & [ STEM < "hidrodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrodinámica_n_rel" ] ]. hidrofobia_n1 := n_intr_uncount_le & [ STEM < "hidrofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrofobia_n_rel" ] ]. hidrometalurgia_n1 := n_intr_uncount_le & [ STEM < "hidrometalurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidrometalurgia_n_rel" ] ]. hidroquímica_n1 := n_intr_uncount_le & [ STEM < "hidroquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroquímica_n_rel" ] ]. hidroterapia_n1 := n_intr_uncount_le & [ STEM < "hidroterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidroterapia_n_rel" ] ]. hidráulica_n1 := n_intr_uncount_le & [ STEM < "hidráulica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hidráulica_n_rel" ] ]. higiene_n1 := n_intr_mass_le & [ STEM < "higiene" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_higiene_n_rel" ] ]. higrógrafo_n1 := n_intr_count_le & [ STEM < "higrógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_higrógrafo_n_rel" ] ]. hilozoísmo_n1 := n_intr_count_le & [ STEM < "hilozoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hilozoísmo_n_rel" ] ]. hincapié_n1 := n_intr_uncount_pl_le & [ STEM < "hincapié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hincapié_n_rel" ] ]. hipemia_n1 := n_intr_uncount_le & [ STEM < "hipemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipemia_n_rel" ] ]. hiperacusia_n1 := n_intr_uncount_le & [ STEM < "hiperacusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperacusia_n_rel" ] ]. hiperboloide_n1 := n_intr_count_le & [ STEM < "hiperboloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperboloide_n_rel" ] ]. hiperbulia_n1 := n_intr_uncount_le & [ STEM < "hiperbulia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperbulia_n_rel" ] ]. hipercalcemia_n1 := n_intr_uncount_le & [ STEM < "hipercalcemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercalcemia_n_rel" ] ]. hipercementosis_n1 := n_intr_uncount_le & [ STEM < "hipercementosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercementosis_n_rel" ] ]. hipercolesterolemia_n1 := n_intr_uncount_le & [ STEM < "hipercolesterolemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercolesterolemia_n_rel" ] ]. hipercromasia_n1 := n_intr_uncount_le & [ STEM < "hipercromasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipercromasia_n_rel" ] ]. hiperemia_n1 := n_intr_uncount_le & [ STEM < "hiperemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperemia_n_rel" ] ]. hiperfluorosis_n1 := n_intr_uncount_le & [ STEM < "hiperfluorosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperfluorosis_n_rel" ] ]. hiperforia_n1 := n_intr_uncount_le & [ STEM < "hiperforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperforia_n_rel" ] ]. hipergammaglobulinemia_n1 := n_intr_uncount_le & [ STEM < "hipergammaglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipergammaglobulinemia_n_rel" ] ]. hiperglobulia_n1 := n_intr_uncount_le & [ STEM < "hiperglobulia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperglobulia_n_rel" ] ]. hiperglobulinemia_n1 := n_intr_uncount_le & [ STEM < "hiperglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperglobulinemia_n_rel" ] ]. hiperglucemia_n1 := n_intr_uncount_le & [ STEM < "hiperglucemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperglucemia_n_rel" ] ]. hiperlipemia_n1 := n_intr_uncount_le & [ STEM < "hiperlipemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperlipemia_n_rel" ] ]. hipermedia_n1 := n_intr_count_le & [ STEM < "hipermedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipermedia_n_rel" ] ]. hipermenorrea_n1 := n_intr_uncount_le & [ STEM < "hipermenorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipermenorrea_n_rel" ] ]. hiperónimo_n1 := n_intr_count_le & [ STEM < "hiperónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperónimo_n_rel" ] ]. hiperosmia_n1 := n_intr_uncount_le & [ STEM < "hiperosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperosmia_n_rel" ] ]. hiperostosis_n1 := n_intr_uncount_le & [ STEM < "hiperostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperostosis_n_rel" ] ]. hiperplano_n1 := n_intr_count_le & [ STEM < "hiperplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperplano_n_rel" ] ]. hiperplasia_n1 := n_intr_uncount_le & [ STEM < "hiperplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperplasia_n_rel" ] ]. hiperpotasemia_n1 := n_intr_uncount_le & [ STEM < "hiperpotasemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperpotasemia_n_rel" ] ]. hiperproteinemia_n1 := n_intr_uncount_le & [ STEM < "hiperproteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperproteinemia_n_rel" ] ]. hiperprotrombinemia_n1 := n_intr_uncount_le & [ STEM < "hiperprotrombinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperprotrombinemia_n_rel" ] ]. hipertermia_n1 := n_intr_uncount_le & [ STEM < "hipertermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertermia_n_rel" ] ]. hipertono_n1 := n_intr_count_le & [ STEM < "hipertono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertono_n_rel" ] ]. hipertrigliceridemia_n1 := n_intr_uncount_le & [ STEM < "hipertrigliceridemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertrigliceridemia_n_rel" ] ]. hipertrofia_n1 := n_intr_uncount_le & [ STEM < "hipertrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipertrofia_n_rel" ] ]. hiperuricemia_n1 := n_intr_uncount_le & [ STEM < "hiperuricemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiperuricemia_n_rel" ] ]. hipervolemia_n1 := n_intr_uncount_le & [ STEM < "hipervolemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipervolemia_n_rel" ] ]. hipófisis_n1 := n_intr_uncount_le & [ STEM < "hipófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipófisis_n_rel" ] ]. hipónimo_n1 := n_intr_count_le & [ STEM < "hipónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipónimo_n_rel" ] ]. hipnoanálisis_n1 := n_intr_uncount_le & [ STEM < "hipnoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipnoanálisis_n_rel" ] ]. hipnosis_n1 := n_intr_uncount_le & [ STEM < "hipnosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipnosis_n_rel" ] ]. hipoacusia_n1 := n_intr_uncount_le & [ STEM < "hipoacusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoacusia_n_rel" ] ]. hipocicloide_n1 := n_intr_count_le & [ STEM < "hipocicloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocicloide_n_rel" ] ]. hipocomplementemia_n1 := n_intr_uncount_le & [ STEM < "hipocomplementemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocomplementemia_n_rel" ] ]. hipocondriasis_n1 := n_intr_uncount_le & [ STEM < "hipocondriasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocondriasis_n_rel" ] ]. hipocondrodistrofia_n1 := n_intr_uncount_le & [ STEM < "hipocondrodistrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocondrodistrofia_n_rel" ] ]. hipocromasia_n1 := n_intr_uncount_le & [ STEM < "hipocromasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocromasia_n_rel" ] ]. hipocromia_n1 := n_intr_uncount_le & [ STEM < "hipocromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipocromia_n_rel" ] ]. hipofaringoscopia_n1 := n_intr_count_le & [ STEM < "hipofaringoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipofaringoscopia_n_rel" ] ]. hipofibrinemia_n1 := n_intr_uncount_le & [ STEM < "hipofibrinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipofibrinemia_n_rel" ] ]. hipofibrinogenemia_n1 := n_intr_uncount_le & [ STEM < "hipofibrinogenemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipofibrinogenemia_n_rel" ] ]. hipoforia_n1 := n_intr_uncount_le & [ STEM < "hipoforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoforia_n_rel" ] ]. hipogammaglobulinemia_n1 := n_intr_uncount_le & [ STEM < "hipogammaglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipogammaglobulinemia_n_rel" ] ]. hipohaploidia_n1 := n_intr_uncount_le & [ STEM < "hipohaploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipohaploidia_n_rel" ] ]. hipolimnion_n1 := n_intr_uncount_le & [ STEM < "hipolimnion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipolimnion_n_rel" ] ]. hipo_n1 := n_intr_uncount_le & [ STEM < "hipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipo_n_rel" ] ]. hiponatremia_n1 := n_intr_uncount_le & [ STEM < "hiponatremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiponatremia_n_rel" ] ]. hiponimia_n1 := n_intr_uncount_le & [ STEM < "hiponimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiponimia_n_rel" ] ]. hipoplasia_n1 := n_intr_uncount_le & [ STEM < "hipoplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoplasia_n_rel" ] ]. hipopotasemia_n1 := n_intr_uncount_le & [ STEM < "hipopotasemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipopotasemia_n_rel" ] ]. hipoproteinemia_n1 := n_intr_uncount_le & [ STEM < "hipoproteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoproteinemia_n_rel" ] ]. hipoprotrombinemia_n1 := n_intr_uncount_le & [ STEM < "hipoprotrombinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoprotrombinemia_n_rel" ] ]. hiposmia_n1 := n_intr_uncount_le & [ STEM < "hiposmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hiposmia_n_rel" ] ]. hipostasia_n1 := n_intr_uncount_le & [ STEM < "hipostasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipostasia_n_rel" ] ]. hipotaxis_n1 := n_intr_uncount_le & [ STEM < "hipotaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotaxis_n_rel" ] ]. hipoteca_n1 := n_intr_count_le & [ STEM < "hipoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoteca_n_rel" ] ]. hipotenusa_n1 := n_intr_count_le & [ STEM < "hipotenusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotenusa_n_rel" ] ]. hipotermia_n1 := n_intr_uncount_le & [ STEM < "hipotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotermia_n_rel" ] ]. hipotrocoide_n1 := n_intr_uncount_pl_le & [ STEM < "hipotrocoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipotrocoide_n_rel" ] ]. hipovalva_n1 := n_intr_uncount_pl_le & [ STEM < "hipovalva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipovalva_n_rel" ] ]. hipovolemia_n1 := n_intr_uncount_le & [ STEM < "hipovolemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipovolemia_n_rel" ] ]. hipoxia_n1 := n_intr_uncount_le & [ STEM < "hipoxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipoxia_n_rel" ] ]. hipérbaton_n1 := n_intr_uncount_pl_le & [ STEM < "hipérbaton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipérbaton_n_rel" ] ]. hipérbola_n1 := n_intr_count_le & [ STEM < "hipérbola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipérbola_n_rel" ] ]. hipérbole_n1 := n_intr_count_le & [ STEM < "hipérbole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hipérbole_n_rel" ] ]. histeria_n1 := n_intr_mass_le & [ STEM < "histeria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histeria_n_rel" ] ]. histiocitosis_n1 := n_intr_uncount_le & [ STEM < "histiocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histiocitosis_n_rel" ] ]. histograma_n1 := n_intr_count_le & [ STEM < "histograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histograma_n_rel" ] ]. histoquímica_n1 := n_intr_uncount_le & [ STEM < "histoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histoquímica_n_rel" ] ]. histotopo_n1 := n_intr_uncount_pl_le & [ STEM < "histotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histotopo_n_rel" ] ]. histéresis_n1 := n_intr_uncount_le & [ STEM < "histéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_histéresis_n_rel" ] ]. hálito_n1 := n_intr_count_le & [ STEM < "hálito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hálito_n_rel" ] ]. hélix_n1 := n_intr_uncount_le & [ STEM < "hélix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hélix_n_rel" ] ]. hobby_n1 := n_intr_count_le & [ STEM < "hobby" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hobby_n_rel" ] ]. holding_n1 := n_intr_count_le & [ STEM < "holding" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holding_n_rel" ] ]. holocausto_n1 := n_intr_uncount_le & [ STEM < "holocausto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holocausto_n_rel" ] ]. holotipo_n1 := n_intr_count_le & [ STEM < "holotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_holotipo_n_rel" ] ]. homeosis_n1 := n_intr_uncount_le & [ STEM < "homeosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homeosis_n_rel" ] ]. homeostasis_n1 := n_intr_uncount_le & [ STEM < "homeostasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homeostasis_n_rel" ] ]. homófono_n1 := n_intr_count_le & [ STEM < "homófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homófono_n_rel" ] ]. homógrafo_n1 := n_intr_count_le & [ STEM < "homógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homógrafo_n_rel" ] ]. homicidio_n1 := n_intr_count_le & [ STEM < "homicidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homicidio_n_rel" ] ]. homónimo_n1 := n_intr_count_le & [ STEM < "homónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homónimo_n_rel" ] ]. homoclima_n1 := n_intr_count_le & [ STEM < "homoclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homoclima_n_rel" ] ]. homofobia_n1 := n_intr_uncount_le & [ STEM < "homofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homofobia_n_rel" ] ]. homonimia_n1 := n_intr_uncount_le & [ STEM < "homonimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homonimia_n_rel" ] ]. homopausa_n1 := n_intr_uncount_le & [ STEM < "homopausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homopausa_n_rel" ] ]. homoploidia_n1 := n_intr_uncount_le & [ STEM < "homoploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_homoploidia_n_rel" ] ]. honorario_n1 := n_intr_uncount_pl_le & [ STEM < "honorario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_honorario_n_rel" ] ]. horda_n1 := n_intr_count_le & [ STEM < "horda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horda_n_rel" ] ]. horseback_n1 := n_intr_uncount_le & [ STEM < "horseback" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_horseback_n_rel" ] ]. hule_n1 := n_intr_mass-or-count_le & [ STEM < "hule" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_hule_n_rel" ] ]. humareda_n1 := n_intr_mass-or-count_le & [ STEM < "humareda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humareda_n_rel" ] ]. humectante_n1 := n_intr_mass-or-count_le & [ STEM < "humectante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_humectante_n_rel" ] ]. icosaedro_n1 := n_intr_count_le & [ STEM < "icosaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_icosaedro_n_rel" ] ]. icositetraedro_n1 := n_intr_count_le & [ STEM < "icositetraedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_icositetraedro_n_rel" ] ]. ictiofauna_n1 := n_intr_uncount_le & [ STEM < "ictiofauna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ictiofauna_n_rel" ] ]. ictus_n1 := n_intr_uncount_le & [ STEM < "ictus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ictus_n_rel" ] ]. idea_n1 := n_intr_count_le & [ STEM < "idea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idea_n_rel" ] ]. ideario_n1 := n_intr_count_le & [ STEM < "ideario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideario_n_rel" ] ]. ideograma_n1 := n_intr_count_le & [ STEM < "ideograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ideograma_n_rel" ] ]. idilio_n1 := n_intr_count_le & [ STEM < "idilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idilio_n_rel" ] ]. idiolecto_n1 := n_intr_uncount_pl_le & [ STEM < "idiolecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiolecto_n_rel" ] ]. idioma_n1 := n_intr_count_le & [ STEM < "idioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idioma_n_rel" ] ]. idiosincrasia_n1 := n_intr_uncount_pl_le & [ STEM < "idiosincrasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiosincrasia_n_rel" ] ]. idiotipo_n1 := n_intr_count_le & [ STEM < "idiotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_idiotipo_n_rel" ] ]. I+D_n1 := n_intr_uncount_le & [ STEM < "I+D" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_I+D_n_rel" ] ]. ignominia_n1 := n_intr_uncount_pl_le & [ STEM < "ignominia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ignominia_n_rel" ] ]. imaginativa_n1 := n_intr_mass_le & [ STEM < "imaginativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imaginativa_n_rel" ] ]. impacto_n1 := n_intr_count_le & [ STEM < "impacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impacto_n_rel" ] ]. impago_n1 := n_intr_count_le & [ STEM < "impago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impago_n_rel" ] ]. impasse_n1 := n_intr_count_le & [ STEM < "impasse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impasse_n_rel" ] ]. impensa_n1 := n_intr_uncount_pl_le & [ STEM < "impensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impensa_n_rel" ] ]. imperativo_n1 := n_intr_uncount_le & [ STEM < "imperativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperativo_n_rel" ] ]. imperativo_n2 := n_intr_count_le & [ STEM < "imperativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imperativo_n_rel" ] ]. imposta_n1 := n_intr_count_le & [ STEM < "imposta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imposta_n_rel" ] ]. imprenta_n1 := n_intr_count_le & [ STEM < "imprenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imprenta_n_rel" ] ]. imprimátur_n1 := n_intr_uncount_pl_le & [ STEM < "imprimátur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_imprimátur_n_rel" ] ]. impromptu_n1 := n_intr_count_le & [ STEM < "impromptu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impromptu_n_rel" ] ]. impronta_n1 := n_intr_count_le & [ STEM < "impronta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impronta_n_rel" ] ]. improperio_n1 := n_intr_count_le & [ STEM < "improperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_improperio_n_rel" ] ]. impétigo_n1 := n_intr_uncount_pl_le & [ STEM < "impétigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impétigo_n_rel" ] ]. impuesto_n1 := n_intr_count_le & [ STEM < "impuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_impuesto_n_rel" ] ]. incentivo_n1 := n_intr_count_le & [ STEM < "incentivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incentivo_n_rel" ] ]. incentro_n1 := n_intr_count_le & [ STEM < "incentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incentro_n_rel" ] ]. incertidumbre_n1 := n_intr_mass-or-count_le & [ STEM < "incertidumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incertidumbre_n_rel" ] ]. incesto_n1 := n_intr_count_le & [ STEM < "incesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incesto_n_rel" ] ]. incógnito_n1 := n_intr_count_le & [ STEM < "incógnito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incógnito_n_rel" ] ]. incicloforia_n1 := n_intr_uncount_le & [ STEM < "incicloforia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incicloforia_n_rel" ] ]. incidente_n1 := n_intr_count_le & [ STEM < "incidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incidente_n_rel" ] ]. inciso_n1 := n_intr_count_le & [ STEM < "inciso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inciso_n_rel" ] ]. inconveniente_n1 := n_intr_count_le & [ STEM < "inconveniente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inconveniente_n_rel" ] ]. incordio_n1 := n_intr_count_le & [ STEM < "incordio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_incordio_n_rel" ] ]. indagatoria_n1 := n_intr_count_le & [ STEM < "indagatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indagatoria_n_rel" ] ]. una_vez_x1 := av_i_le & [ STEM < "una_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_una_vez_x_rel" ]. una_y_otra_vez_x1 := av_i_le & [ STEM < "una_y_otra_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_una_y_otra_vez_x_rel" ]. indecoro_n1 := n_intr_uncount_le & [ STEM < "indecoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indecoro_n_rel" ] ]. indicativo_n1 := n_intr_count_le & [ STEM < "indicativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indicativo_n_rel" ] ]. indicatriz_n1 := n_intr_count_le & [ STEM < "indicatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indicatriz_n_rel" ] ]. indicio_n1 := n_intr_count_le & [ STEM < "indicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indicio_n_rel" ] ]. indirecta_n1 := n_intr_count_le & [ STEM < "indirecta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indirecta_n_rel" ] ]. indisciplina_n1 := n_intr_mass_le & [ STEM < "indisciplina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indisciplina_n_rel" ] ]. in_dubio_pro_libertate_n1 := n_intr_uncount_le & [ STEM < "in_dubio_pro_libertate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_in_dubio_pro_libertate_n_rel" ] ]. indulto_n1 := n_intr_count_le & [ STEM < "indulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_indulto_n_rel" ] ]. infamia_n1 := n_intr_mass-or-count_le & [ STEM < "infamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infamia_n_rel" ] ]. infanticidio_n1 := n_intr_uncount_le & [ STEM < "infanticidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infanticidio_n_rel" ] ]. infarto_n1 := n_intr_count_le & [ STEM < "infarto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infarto_n_rel" ] ]. infinitivo_n1 := n_intr_count_le & [ STEM < "infinitivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infinitivo_n_rel" ] ]. influjo_n1 := n_intr_count_le & [ STEM < "influjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_influjo_n_rel" ] ]. informativo_n1 := n_intr_count_le & [ STEM < "informativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_informativo_n_rel" ] ]. infortunio_n1 := n_intr_count_le & [ STEM < "infortunio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infortunio_n_rel" ] ]. infracosto_n1 := n_intr_uncount_pl_le & [ STEM < "infracosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infracosto_n_rel" ] ]. infraseguro_n1 := n_intr_uncount_pl_le & [ STEM < "infraseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_infraseguro_n_rel" ] ]. ingenio_n1 := n_intr_mass_le & [ STEM < "ingenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingenio_n_rel" ] ]. inglete_n1 := n_intr_count_le & [ STEM < "inglete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inglete_n_rel" ] ]. ingrediente_n1 := n_intr_count_le & [ STEM < "ingrediente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ingrediente_n_rel" ] ]. injuria_n1 := n_intr_count_le & [ STEM < "injuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_injuria_n_rel" ] ]. inmodestia_n1 := n_intr_uncount_le & [ STEM < "inmodestia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmodestia_n_rel" ] ]. inmunocomplejo_n1 := n_intr_count_le & [ STEM < "inmunocomplejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunocomplejo_n_rel" ] ]. inmunoelectroforesis_n1 := n_intr_uncount_le & [ STEM < "inmunoelectroforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoelectroforesis_n_rel" ] ]. inmunoensayo_n1 := n_intr_count_le & [ STEM < "inmunoensayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoensayo_n_rel" ] ]. inmunoprofilaxia_n1 := n_intr_uncount_le & [ STEM < "inmunoprofilaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoprofilaxia_n_rel" ] ]. inmunoprofilaxis_n1 := n_intr_uncount_le & [ STEM < "inmunoprofilaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoprofilaxis_n_rel" ] ]. inmunoquímica_n1 := n_intr_uncount_le & [ STEM < "inmunoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoquímica_n_rel" ] ]. inmunoterapia_n1 := n_intr_uncount_pl_le & [ STEM < "inmunoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inmunoterapia_n_rel" ] ]. inopia_n1 := n_intr_uncount_le & [ STEM < "inopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inopia_n_rel" ] ]. input_n1 := n_intr_count_le & [ STEM < "input" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_input_n_rel" ] ]. inquina_n1 := n_intr_uncount_pl_le & [ STEM < "inquina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inquina_n_rel" ] ]. insidia_n1 := n_intr_uncount_pl_le & [ STEM < "insidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insidia_n_rel" ] ]. insomnio_n1 := n_intr_mass_le & [ STEM < "insomnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insomnio_n_rel" ] ]. instinto_n1 := n_intr_mass-or-count_le & [ STEM < "instinto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_instinto_n_rel" ] ]. institutriz_n1 := n_intr_count_le & [ STEM < "institutriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_institutriz_n_rel" ] ]. insumo_n1 := n_intr_uncount_pl_le & [ STEM < "insumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_insumo_n_rel" ] ]. integrando_n1 := n_intr_count_le & [ STEM < "integrando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_integrando_n_rel" ] ]. intelecto_n1 := n_intr_uncount_le & [ STEM < "intelecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intelecto_n_rel" ] ]. intentona_n1 := n_intr_count_le & [ STEM < "intentona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intentona_n_rel" ] ]. interciclo_n1 := n_intr_count_le & [ STEM < "interciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interciclo_n_rel" ] ]. interdicto_n1 := n_intr_count_le & [ STEM < "interdicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interdicto_n_rel" ] ]. interespacio_n1 := n_intr_count_le & [ STEM < "interespacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interespacio_n_rel" ] ]. interetapa_n1 := n_intr_count_le & [ STEM < "interetapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interetapa_n_rel" ] ]. interface_n1 := n_intr_count_le & [ STEM < "interface" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interface_n_rel" ] ]. interfase_n1 := n_intr_count_le & [ STEM < "interfase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interfase_n_rel" ] ]. interferograma_n1 := n_intr_count_le & [ STEM < "interferograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interferograma_n_rel" ] ]. interfijo_n1 := n_intr_count_le & [ STEM < "interfijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interfijo_n_rel" ] ]. interfluvio_n1 := n_intr_uncount_pl_le & [ STEM < "interfluvio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interfluvio_n_rel" ] ]. interlingua_n1 := n_intr_uncount_le & [ STEM < "interlingua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interlingua_n_rel" ] ]. interludio_n1 := n_intr_count_le & [ STEM < "interludio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interludio_n_rel" ] ]. intermódulo_n1 := n_intr_count_le & [ STEM < "intermódulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intermódulo_n_rel" ] ]. intermedio_n1 := n_intr_count_le & [ STEM < "intermedio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intermedio_n_rel" ] ]. interrogante_n1 := n_intr_count_le & [ STEM < "interrogante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interrogante_n_rel" ] ]. interrogatorio_n1 := n_intr_count_le & [ STEM < "interrogatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interrogatorio_n_rel" ] ]. interés_n1 := n_intr_mass-or-count_le & [ STEM < "interés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interés_n_rel" ] ]. interés_n2 := n_ppde_ppcomp_count_le & [ STEM < "interés" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_por_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_interés_n_rel" ] ] ]. interés_n3 := n_ppde_cp_prop_fin_mass_le & [ STEM < "interés" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_por_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_interés_n_rel" ] ] ]. intersticio_n1 := n_intr_count_le & [ STEM < "intersticio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intersticio_n_rel" ] ]. intertarea_n1 := n_intr_uncount_pl_le & [ STEM < "intertarea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intertarea_n_rel" ] ]. intertipo_n1 := n_intr_count_le & [ STEM < "intertipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intertipo_n_rel" ] ]. interviu_n1 := n_intr_count_le & [ STEM < "interviu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_interviu_n_rel" ] ]. intracastigo_n1 := n_intr_uncount_le & [ STEM < "intracastigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intracastigo_n_rel" ] ]. intrón_n1 := n_intr_count_le & [ STEM < "intrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_intrón_n_rel" ] ]. introito_n1 := n_intr_count_le & [ STEM < "introito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_introito_n_rel" ] ]. inventiva_n1 := n_intr_mass-or-count_le & [ STEM < "inventiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_inventiva_n_rel" ] ]. ionóforo_n1 := n_intr_uncount_pl_le & [ STEM < "ionóforo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ionóforo_n_rel" ] ]. ion_n1 := n_intr_count_le & [ STEM < "ion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ion_n_rel" ] ]. iota_n1 := n_intr_uncount_pl_le & [ STEM < "iota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iota_n_rel" ] ]. ira_n1 := n_intr_mass_le & [ STEM < "ira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ira_n_rel" ] ]. iridemia_n1 := n_intr_uncount_le & [ STEM < "iridemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridemia_n_rel" ] ]. irideremia_n1 := n_intr_uncount_le & [ STEM < "irideremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_irideremia_n_rel" ] ]. iridocele_n1 := n_intr_uncount_le & [ STEM < "iridocele" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocele_n_rel" ] ]. iridociclitis_n1 := n_intr_uncount_le & [ STEM < "iridociclitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridociclitis_n_rel" ] ]. iridociclocoroiditis_n1 := n_intr_uncount_le & [ STEM < "iridociclocoroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridociclocoroiditis_n_rel" ] ]. iridocinesia_n1 := n_intr_uncount_le & [ STEM < "iridocinesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocinesia_n_rel" ] ]. iridocinesis_n1 := n_intr_uncount_le & [ STEM < "iridocinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocinesis_n_rel" ] ]. iridocoloboma_n1 := n_intr_uncount_le & [ STEM < "iridocoloboma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocoloboma_n_rel" ] ]. iridocoroiditis_n1 := n_intr_uncount_le & [ STEM < "iridocoroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridocoroiditis_n_rel" ] ]. iridodiagnóstico_n1 := n_intr_uncount_le & [ STEM < "iridodiagnóstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridodiagnóstico_n_rel" ] ]. iridodiastasis_n1 := n_intr_uncount_le & [ STEM < "iridodiastasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridodiastasis_n_rel" ] ]. iridodiálisis_n1 := n_intr_uncount_le & [ STEM < "iridodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridodiálisis_n_rel" ] ]. iridodonesis_n1 := n_intr_uncount_le & [ STEM < "iridodonesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridodonesis_n_rel" ] ]. iridoleptinsis_n1 := n_intr_uncount_le & [ STEM < "iridoleptinsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoleptinsis_n_rel" ] ]. iridoparálisis_n1 := n_intr_uncount_le & [ STEM < "iridoparálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoparálisis_n_rel" ] ]. iridoperifacitis_n1 := n_intr_uncount_le & [ STEM < "iridoperifacitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoperifacitis_n_rel" ] ]. iridoptosis_n1 := n_intr_uncount_le & [ STEM < "iridoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoptosis_n_rel" ] ]. iridoqueratitis_n1 := n_intr_uncount_le & [ STEM < "iridoqueratitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridoqueratitis_n_rel" ] ]. iridorrexis_n1 := n_intr_uncount_le & [ STEM < "iridorrexis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridorrexis_n_rel" ] ]. iridostéresis_n1 := n_intr_uncount_le & [ STEM < "iridostéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridostéresis_n_rel" ] ]. iridotasis_n1 := n_intr_uncount_le & [ STEM < "iridotasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iridotasis_n_rel" ] ]. iritis_n1 := n_intr_uncount_le & [ STEM < "iritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_iritis_n_rel" ] ]. isalaobara_n1 := n_intr_uncount_le & [ STEM < "isalaobara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isalaobara_n_rel" ] ]. isalobara_n1 := n_intr_uncount_le & [ STEM < "isalobara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isalobara_n_rel" ] ]. isalohipsa_n1 := n_intr_uncount_le & [ STEM < "isalohipsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isalohipsa_n_rel" ] ]. isaloterma_n1 := n_intr_uncount_le & [ STEM < "isaloterma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isaloterma_n_rel" ] ]. isanómala_n1 := n_intr_uncount_pl_le & [ STEM < "isanómala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isanómala_n_rel" ] ]. isanémona_n1 := n_intr_uncount_le & [ STEM < "isanémona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isanémona_n_rel" ] ]. isóbara_n1 := n_intr_count_le & [ STEM < "isóbara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isóbara_n_rel" ] ]. isóbata_n1 := n_intr_uncount_pl_le & [ STEM < "isóbata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isóbata_n_rel" ] ]. isócrona_n1 := n_intr_count_le & [ STEM < "isócrona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isócrona_n_rel" ] ]. isógona_n1 := n_intr_uncount_pl_le & [ STEM < "isógona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isógona_n_rel" ] ]. isoautopoliploidia_n1 := n_intr_uncount_le & [ STEM < "isoautopoliploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoautopoliploidia_n_rel" ] ]. isobara_n1 := n_intr_count_le & [ STEM < "isobara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isobara_n_rel" ] ]. isobasa_n1 := n_intr_uncount_pl_le & [ STEM < "isobasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isobasa_n_rel" ] ]. isobata_n1 := n_intr_uncount_pl_le & [ STEM < "isobata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isobata_n_rel" ] ]. isoclina_n1 := n_intr_count_le & [ STEM < "isoclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoclina_n_rel" ] ]. isocosto_n1 := n_intr_uncount_pl_le & [ STEM < "isocosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isocosto_n_rel" ] ]. isocrima_n1 := n_intr_uncount_le & [ STEM < "isocrima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isocrima_n_rel" ] ]. isocuanta_n1 := n_intr_count_le & [ STEM < "isocuanta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isocuanta_n_rel" ] ]. isodapana_n1 := n_intr_uncount_pl_le & [ STEM < "isodapana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isodapana_n_rel" ] ]. isodinámica_n1 := n_intr_uncount_pl_le & [ STEM < "isodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isodinámica_n_rel" ] ]. isoelectroenfoque_n1 := n_intr_uncount_pl_le & [ STEM < "isoelectroenfoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoelectroenfoque_n_rel" ] ]. isofena_n1 := n_intr_uncount_pl_le & [ STEM < "isofena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isofena_n_rel" ] ]. isogama_n1 := n_intr_uncount_pl_le & [ STEM < "isogama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isogama_n_rel" ] ]. isogenia_n1 := n_intr_uncount_le & [ STEM < "isogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isogenia_n_rel" ] ]. isogeoterma_n1 := n_intr_uncount_pl_le & [ STEM < "isogeoterma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isogeoterma_n_rel" ] ]. isogira_n1 := n_intr_count_le & [ STEM < "isogira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isogira_n_rel" ] ]. isoglosa_n1 := n_intr_count_le & [ STEM < "isoglosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoglosa_n_rel" ] ]. isohalina_n1 := n_intr_uncount_pl_le & [ STEM < "isohalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isohalina_n_rel" ] ]. isohelia_n1 := n_intr_uncount_pl_le & [ STEM < "isohelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isohelia_n_rel" ] ]. isohieta_n1 := n_intr_uncount_pl_le & [ STEM < "isohieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isohieta_n_rel" ] ]. isohipsa_n1 := n_intr_count_le & [ STEM < "isohipsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isohipsa_n_rel" ] ]. isoinjerto_n1 := n_intr_uncount_pl_le & [ STEM < "isoinjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoinjerto_n_rel" ] ]. isolínea_n1 := n_intr_count_le & [ STEM < "isolínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isolínea_n_rel" ] ]. isonefa_n1 := n_intr_uncount_pl_le & [ STEM < "isonefa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isonefa_n_rel" ] ]. isopaca_n1 := n_intr_uncount_pl_le & [ STEM < "isopaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isopaca_n_rel" ] ]. isopleta_n1 := n_intr_uncount_pl_le & [ STEM < "isopleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isopleta_n_rel" ] ]. isoquimena_n1 := n_intr_uncount_pl_le & [ STEM < "isoquimena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoquimena_n_rel" ] ]. isostasia_n1 := n_intr_uncount_le & [ STEM < "isostasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isostasia_n_rel" ] ]. isotaca_n1 := n_intr_count_le & [ STEM < "isotaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotaca_n_rel" ] ]. isoterapia_n1 := n_intr_uncount_le & [ STEM < "isoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoterapia_n_rel" ] ]. isoterma_n1 := n_intr_count_le & [ STEM < "isoterma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoterma_n_rel" ] ]. isotipia_n1 := n_intr_uncount_le & [ STEM < "isotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotipia_n_rel" ] ]. isotipo_n1 := n_intr_count_le & [ STEM < "isotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isotipo_n_rel" ] ]. isoyeta_n1 := n_intr_count_le & [ STEM < "isoyeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isoyeta_n_rel" ] ]. isquemia_n1 := n_intr_uncount_le & [ STEM < "isquemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_isquemia_n_rel" ] ]. itinerario_n1 := n_intr_count_le & [ STEM < "itinerario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_itinerario_n_rel" ] ]. itálica_n1 := n_intr_uncount_pl_le & [ STEM < "itálica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_itálica_n_rel" ] ]. izquierda_n1 := n_intr_uncount_le & [ STEM < "izquierda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_izquierda_n_rel" ] ]. jactancioso_n1 := n_intr_count_le & [ STEM < "jactancioso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jactancioso_n_rel" ] ]. jalbegue_n1 := n_intr_uncount_pl_le & [ STEM < "jalbegue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jalbegue_n_rel" ] ]. jaqueca_n1 := n_intr_mass_le & [ STEM < "jaqueca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jaqueca_n_rel" ] ]. jarana_n1 := n_intr_mass-or-count_le & [ STEM < "jarana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jarana_n_rel" ] ]. jargonafasia_n1 := n_intr_uncount_le & [ STEM < "jargonafasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jargonafasia_n_rel" ] ]. jaulón_n1 := n_intr_count_le & [ STEM < "jaulón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jaulón_n_rel" ] ]. jazz_n1 := n_intr_mass_le & [ STEM < "jazz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jazz_n_rel" ] ]. júbilo_n1 := n_intr_mass_le & [ STEM < "júbilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_júbilo_n_rel" ] ]. jingoísmo_n1 := n_intr_uncount_le & [ STEM < "jingoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jingoísmo_n_rel" ] ]. jolgorio_n1 := n_intr_mass_le & [ STEM < "jolgorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_jolgorio_n_rel" ] ]. judaísmo_n1 := n_intr_uncount_le & [ STEM < "judaísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_judaísmo_n_rel" ] ]. judo_n1 := n_intr_uncount_le & [ STEM < "judo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_judo_n_rel" ] ]. juicio_n1 := n_intr_mass-or-count_le & [ STEM < "juicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_juicio_n_rel" ] ]. justiprecio_n1 := n_intr_count_le & [ STEM < "justiprecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_justiprecio_n_rel" ] ]. kalathos_n1 := n_intr_count_le & [ STEM < "kalathos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kalathos_n_rel" ] ]. kappa_n1 := n_intr_uncount_le & [ STEM < "kappa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kappa_n_rel" ] ]. karate_n1 := n_intr_uncount_le & [ STEM < "karate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_karate_n_rel" ] ]. karma_n1 := n_intr_count_le & [ STEM < "karma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_karma_n_rel" ] ]. kinésica_n1 := n_intr_uncount_le & [ STEM < "kinésica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kinésica_n_rel" ] ]. kitsch_n1 := n_intr_count_le & [ STEM < "kitsch" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kitsch_n_rel" ] ]. know-how_n1 := n_intr_uncount_le & [ STEM < "know-how" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_know-how_n_rel" ] ]. kárate_n1 := n_intr_uncount_le & [ STEM < "kárate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_kárate_n_rel" ] ]. laberintitis_n1 := n_intr_uncount_le & [ STEM < "laberintitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laberintitis_n_rel" ] ]. labia_n1 := n_intr_mass_le & [ STEM < "labia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_labia_n_rel" ] ]. lacra_n1 := n_intr_count_le & [ STEM < "lacra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lacra_n_rel" ] ]. lactoproteína_n1 := n_intr_uncount_pl_le & [ STEM < "lactoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lactoproteína_n_rel" ] ]. lactosa_n1 := n_intr_uncount_le & [ STEM < "lactosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lactosa_n_rel" ] ]. lagarto_n1 := n_intr_count_le & [ STEM < "lagarto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lagarto_n_rel" ] ]. lagynos_n1 := n_intr_uncount_pl_le & [ STEM < "lagynos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lagynos_n_rel" ] ]. lambda_n1 := n_intr_count_le & [ STEM < "lambda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lambda_n_rel" ] ]. laplaciano_n1 := n_intr_count_le & [ STEM < "laplaciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laplaciano_n_rel" ] ]. lapso_n1 := n_intr_count_le & [ STEM < "lapso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lapso_n_rel" ] ]. laringalgia_n1 := n_intr_uncount_le & [ STEM < "laringalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringalgia_n_rel" ] ]. laringitis_n1 := n_intr_uncount_le & [ STEM < "laringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringitis_n_rel" ] ]. laringoestenosis_n1 := n_intr_uncount_le & [ STEM < "laringoestenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoestenosis_n_rel" ] ]. laringofaringitis_n1 := n_intr_uncount_le & [ STEM < "laringofaringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringofaringitis_n_rel" ] ]. laringoparálisis_n1 := n_intr_uncount_le & [ STEM < "laringoparálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoparálisis_n_rel" ] ]. laringoplastia_n1 := n_intr_count_le & [ STEM < "laringoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoplastia_n_rel" ] ]. laringoscopia_n1 := n_intr_uncount_pl_le & [ STEM < "laringoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laringoscopia_n_rel" ] ]. lascivia_n1 := n_intr_mass_le & [ STEM < "lascivia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lascivia_n_rel" ] ]. latino_n1 := n_intr_count_le & [ STEM < "latino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latino_n_rel" ] ]. latín_n1 := n_intr_uncount_le & [ STEM < "latín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_latín_n_rel" ] ]. laudemio_n1 := n_intr_count_le & [ STEM < "laudemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laudemio_n_rel" ] ]. laudo_n1 := n_intr_count_le & [ STEM < "laudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_laudo_n_rel" ] ]. lay_n1 := n_intr_count_le & [ STEM < "lay" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lay_n_rel" ] ]. leasing_n1 := n_intr_uncount_le & [ STEM < "leasing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leasing_n_rel" ] ]. legajo_n1 := n_intr_count_le & [ STEM < "legajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legajo_n_rel" ] ]. legionela_n1 := n_intr_uncount_le & [ STEM < "legionela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legionela_n_rel" ] ]. legionelosis_n1 := n_intr_uncount_le & [ STEM < "legionelosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legionelosis_n_rel" ] ]. legislativo_n1 := n_intr_count_le & [ STEM < "legislativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_legislativo_n_rel" ] ]. leitmotiv_n1 := n_intr_count_le & [ STEM < "leitmotiv" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leitmotiv_n_rel" ] ]. lemniscata_n1 := n_intr_uncount_pl_le & [ STEM < "lemniscata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lemniscata_n_rel" ] ]. leontiasis_n1 := n_intr_uncount_le & [ STEM < "leontiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leontiasis_n_rel" ] ]. lepra_n1 := n_intr_uncount_le & [ STEM < "lepra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lepra_n_rel" ] ]. leptoprosopia_n1 := n_intr_uncount_le & [ STEM < "leptoprosopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leptoprosopia_n_rel" ] ]. leptotena_n1 := n_intr_uncount_le & [ STEM < "leptotena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leptotena_n_rel" ] ]. leptoteno_n1 := n_intr_uncount_le & [ STEM < "leptoteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leptoteno_n_rel" ] ]. letargia_n1 := n_intr_uncount_le & [ STEM < "letargia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_letargia_n_rel" ] ]. letargo_n1 := n_intr_mass_le & [ STEM < "letargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_letargo_n_rel" ] ]. leucemia_n1 := n_intr_uncount_le & [ STEM < "leucemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucemia_n_rel" ] ]. leucocitopenia_n1 := n_intr_uncount_le & [ STEM < "leucocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucocitopenia_n_rel" ] ]. leucocitosis_n1 := n_intr_uncount_le & [ STEM < "leucocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucocitosis_n_rel" ] ]. leucocoria_n1 := n_intr_uncount_le & [ STEM < "leucocoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucocoria_n_rel" ] ]. leucoeritroblastosis_n1 := n_intr_uncount_le & [ STEM < "leucoeritroblastosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucoeritroblastosis_n_rel" ] ]. leucoforesis_n1 := n_intr_uncount_le & [ STEM < "leucoforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucoforesis_n_rel" ] ]. leucopenia_n1 := n_intr_uncount_le & [ STEM < "leucopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucopenia_n_rel" ] ]. leucopoyesis_n1 := n_intr_uncount_le & [ STEM < "leucopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucopoyesis_n_rel" ] ]. leucoqueratosis_n1 := n_intr_uncount_le & [ STEM < "leucoqueratosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucoqueratosis_n_rel" ] ]. leucosis_n1 := n_intr_uncount_le & [ STEM < "leucosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucosis_n_rel" ] ]. leucotrieno_n1 := n_intr_count_le & [ STEM < "leucotrieno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leucotrieno_n_rel" ] ]. leviatán_n1 := n_intr_count_le & [ STEM < "leviatán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_leviatán_n_rel" ] ]. lexema_n1 := n_intr_count_le & [ STEM < "lexema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lexema_n_rel" ] ]. lexicón_n1 := n_intr_count_le & [ STEM < "lexicón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lexicón_n_rel" ] ]. álgebra_n1 := n_intr_uncount_le & [ STEM < "álgebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_álgebra_n_rel" ] ]. lógica_n1 := n_intr_uncount_le & [ STEM < "lógica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lógica_n_rel" ] ]. libelo_n1 := n_intr_count_le & [ STEM < "libelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_libelo_n_rel" ] ]. librea_n1 := n_intr_count_le & [ STEM < "librea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_librea_n_rel" ] ]. librecambio_n1 := n_intr_uncount_le & [ STEM < "librecambio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_librecambio_n_rel" ] ]. licuorrea_n1 := n_intr_uncount_le & [ STEM < "licuorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_licuorrea_n_rel" ] ]. lid_n1 := n_intr_count_le & [ STEM < "lid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lid_n_rel" ] ]. lifting_n1 := n_intr_count_le & [ STEM < "lifting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lifting_n_rel" ] ]. ligazón_n1 := n_intr_count_le & [ STEM < "ligazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ligazón_n_rel" ] ]. liguilla_n1 := n_intr_count_le & [ STEM < "liguilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liguilla_n_rel" ] ]. liólisis_n1 := n_intr_uncount_le & [ STEM < "liólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liólisis_n_rel" ] ]. limosna_n1 := n_intr_mass_le & [ STEM < "limosna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_limosna_n_rel" ] ]. limpia_n1 := n_intr_count_le & [ STEM < "limpia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_limpia_n_rel" ] ]. linaza_n1 := n_intr_mass_le & [ STEM < "linaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linaza_n_rel" ] ]. linde_n1 := n_intr_count_le & [ STEM < "linde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linde_n_rel" ] ]. linfadenitis_n1 := n_intr_uncount_le & [ STEM < "linfadenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfadenitis_n_rel" ] ]. linfadenopatia_n1 := n_intr_uncount_le & [ STEM < "linfadenopatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfadenopatia_n_rel" ] ]. linfangiectasia_n1 := n_intr_uncount_le & [ STEM < "linfangiectasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfangiectasia_n_rel" ] ]. linfocitemia_n1 := n_intr_uncount_le & [ STEM < "linfocitemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfocitemia_n_rel" ] ]. linfocitopenia_n1 := n_intr_uncount_le & [ STEM < "linfocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfocitopenia_n_rel" ] ]. linfocitopoyesis_n1 := n_intr_uncount_le & [ STEM < "linfocitopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfocitopoyesis_n_rel" ] ]. linfocitosis_n1 := n_intr_uncount_le & [ STEM < "linfocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfocitosis_n_rel" ] ]. linfomatosis_n1 := n_intr_uncount_le & [ STEM < "linfomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfomatosis_n_rel" ] ]. linfopenia_n1 := n_intr_uncount_le & [ STEM < "linfopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfopenia_n_rel" ] ]. linfopoyesis_n1 := n_intr_uncount_le & [ STEM < "linfopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linfopoyesis_n_rel" ] ]. lingüística_n1 := n_intr_uncount_le & [ STEM < "lingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lingüística_n_rel" ] ]. linguograma_n1 := n_intr_count_le & [ STEM < "linguograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linguograma_n_rel" ] ]. linguopapilitis_n1 := n_intr_uncount_le & [ STEM < "linguopapilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linguopapilitis_n_rel" ] ]. linotipia_n1 := n_intr_uncount_le & [ STEM < "linotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_linotipia_n_rel" ] ]. lipídosis_n1 := n_intr_uncount_le & [ STEM < "lipídosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipídosis_n_rel" ] ]. lipemia_n1 := n_intr_uncount_le & [ STEM < "lipemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipemia_n_rel" ] ]. lipidemia_n1 := n_intr_uncount_le & [ STEM < "lipidemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipidemia_n_rel" ] ]. lipólisis_n1 := n_intr_uncount_le & [ STEM < "lipólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipólisis_n_rel" ] ]. lipodistrofia_n1 := n_intr_uncount_le & [ STEM < "lipodistrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipodistrofia_n_rel" ] ]. lipotimia_n1 := n_intr_count_le & [ STEM < "lipotimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lipotimia_n_rel" ] ]. liquen_n1 := n_intr_mass-or-count_le & [ STEM < "liquen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liquen_n_rel" ] ]. liquidus_n1 := n_intr_uncount_le & [ STEM < "liquidus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liquidus_n_rel" ] ]. lisis_n1 := n_intr_count_le & [ STEM < "lisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lisis_n_rel" ] ]. lisonja_n1 := n_intr_count_le & [ STEM < "lisonja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lisonja_n_rel" ] ]. litigio_n1 := n_intr_count_le & [ STEM < "litigio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litigio_n_rel" ] ]. litisconsorte_n1 := n_intr_count_le & [ STEM < "litisconsorte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litisconsorte_n_rel" ] ]. litisexpensas_n1 := n_intr_count_pl_le & [ STEM < "litisexpensas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litisexpensas_n_rel" ] ]. litogénesis_n1 := n_intr_uncount_le & [ STEM < "litogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litogénesis_n_rel" ] ]. litote_n1 := n_intr_count_le & [ STEM < "litote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litote_n_rel" ] ]. litotes_n1 := n_intr_count_le & [ STEM < "litotes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_litotes_n_rel" ] ]. élitro_n1 := n_intr_uncount_pl_le & [ STEM < "élitro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_élitro_n_rel" ] ]. liturgia_n1 := n_intr_count_le & [ STEM < "liturgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_liturgia_n_rel" ] ]. llanto_n1 := n_intr_mass-or-count_le & [ STEM < "llanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_llanto_n_rel" ] ]. llovizna_n1 := n_intr_mass-or-count_le & [ STEM < "llovizna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_llovizna_n_rel" ] ]. límite_n1 := n_intr_count_le & [ STEM < "límite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_límite_n_rel" ] ]. lúnula_n1 := n_intr_count_le & [ STEM < "lúnula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lúnula_n_rel" ] ]. lobelia_n1 := n_intr_uncount_pl_le & [ STEM < "lobelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lobelia_n_rel" ] ]. lob_n1 := n_intr_uncount_pl_le & [ STEM < "lob" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lob_n_rel" ] ]. locativo_n1 := n_intr_count_le & [ STEM < "locativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_locativo_n_rel" ] ]. lock-out_n1 := n_intr_count_le & [ STEM < "lock-out" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lock-out_n_rel" ] ]. logaritmo_n1 := n_intr_count_le & [ STEM < "logaritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logaritmo_n_rel" ] ]. logia_n1 := n_intr_count_le & [ STEM < "logia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logia_n_rel" ] ]. logo_n1 := n_intr_count_le & [ STEM < "logo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logo_n_rel" ] ]. logopeda_n1 := n_intr_count_le & [ STEM < "logopeda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logopeda_n_rel" ] ]. logopedia_n1 := n_intr_uncount_le & [ STEM < "logopedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logopedia_n_rel" ] ]. logos_n1 := n_intr_uncount_le & [ STEM < "logos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logos_n_rel" ] ]. logotipo_n1 := n_intr_count_le & [ STEM < "logotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logotipo_n_rel" ] ]. logística_n1 := n_intr_mass-or-count_le & [ STEM < "logística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_logística_n_rel" ] ]. looping_n1 := n_intr_count_le & [ STEM < "looping" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_looping_n_rel" ] ]. losange_n1 := n_intr_count_le & [ STEM < "losange" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_losange_n_rel" ] ]. loxodrómica_n1 := n_intr_uncount_le & [ STEM < "loxodrómica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_loxodrómica_n_rel" ] ]. loxodromia_n1 := n_intr_uncount_le & [ STEM < "loxodromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_loxodromia_n_rel" ] ]. lírico_n1 := n_intr_uncount_le & [ STEM < "lírico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lírico_n_rel" ] ]. láser_n1 := n_intr_count_le & [ STEM < "láser" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_láser_n_rel" ] ]. lástima_n1 := n_intr_mass_le & [ STEM < "lástima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lástima_n_rel" ] ]. lítotes_n1 := n_intr_count_le & [ STEM < "lítotes" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lítotes_n_rel" ] ]. lucro_n1 := n_intr_uncount_pl_le & [ STEM < "lucro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lucro_n_rel" ] ]. ludo_n1 := n_intr_uncount_le & [ STEM < "ludo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ludo_n_rel" ] ]. lujo_n1 := n_intr_mass-or-count_le & [ STEM < "lujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lujo_n_rel" ] ]. lujuria_n1 := n_intr_mass_le & [ STEM < "lujuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lujuria_n_rel" ] ]. lumbago_n1 := n_intr_uncount_le & [ STEM < "lumbago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lumbago_n_rel" ] ]. lumbalgia_n1 := n_intr_uncount_le & [ STEM < "lumbalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lumbalgia_n_rel" ] ]. lumbre_n1 := n_intr_mass-or-count_le & [ STEM < "lumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lumbre_n_rel" ] ]. luminaria_n1 := n_intr_count_le & [ STEM < "luminaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luminaria_n_rel" ] ]. luminotecnia_n1 := n_intr_uncount_le & [ STEM < "luminotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luminotecnia_n_rel" ] ]. lunático_n1 := n_intr_count_le & [ STEM < "lunático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lunático_n_rel" ] ]. lupus_n1 := n_intr_uncount_le & [ STEM < "lupus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lupus_n_rel" ] ]. lustre_n1 := n_intr_mass_le & [ STEM < "lustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_lustre_n_rel" ] ]. luto_n1 := n_intr_mass-or-count_le & [ STEM < "luto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_luto_n_rel" ] ]. léxico_n1 := n_intr_count_le & [ STEM < "léxico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_léxico_n_rel" ] ]. maña_n1 := n_intr_mass-or-count_le & [ STEM < "maña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maña_n_rel" ] ]. macadam_n1 := n_intr_uncount_le & [ STEM < "macadam" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macadam_n_rel" ] ]. machacadora_n1 := n_intr_count_le & [ STEM < "machacadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_machacadora_n_rel" ] ]. macroanálisis_n1 := n_intr_count_le & [ STEM < "macroanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroanálisis_n_rel" ] ]. macrobiótica_n1 := n_intr_uncount_le & [ STEM < "macrobiótica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrobiótica_n_rel" ] ]. macrocódigo_n1 := n_intr_count_le & [ STEM < "macrocódigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocódigo_n_rel" ] ]. macrocinética_n1 := n_intr_uncount_le & [ STEM < "macrocinética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocinética_n_rel" ] ]. macrocitosis_n1 := n_intr_uncount_le & [ STEM < "macrocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocitosis_n_rel" ] ]. macroclima_n1 := n_intr_count_le & [ STEM < "macroclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroclima_n_rel" ] ]. macrocosmos_n1 := n_intr_uncount_le & [ STEM < "macrocosmos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocosmos_n_rel" ] ]. macrocrania_n1 := n_intr_uncount_le & [ STEM < "macrocrania" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrocrania_n_rel" ] ]. macrogenia_n1 := n_intr_uncount_le & [ STEM < "macrogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrogenia_n_rel" ] ]. macroglobulinemia_n1 := n_intr_uncount_le & [ STEM < "macroglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroglobulinemia_n_rel" ] ]. macroglubinemia_n1 := n_intr_uncount_le & [ STEM < "macroglubinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroglubinemia_n_rel" ] ]. macrojuicio_n1 := n_intr_uncount_le & [ STEM < "macrojuicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrojuicio_n_rel" ] ]. macromarketing_n1 := n_intr_uncount_le & [ STEM < "macromarketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macromarketing_n_rel" ] ]. macromárketing_n1 := n_intr_uncount_le & [ STEM < "macromárketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macromárketing_n_rel" ] ]. macro_n1 := n_intr_count_le & [ STEM < "macro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macro_n_rel" ] ]. macroproyecto_n1 := n_intr_count_le & [ STEM < "macroproyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroproyecto_n_rel" ] ]. macroqueilia_n1 := n_intr_uncount_le & [ STEM < "macroqueilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroqueilia_n_rel" ] ]. macroquilia_n1 := n_intr_uncount_le & [ STEM < "macroquilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroquilia_n_rel" ] ]. macroquímica_n1 := n_intr_uncount_le & [ STEM < "macroquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macroquímica_n_rel" ] ]. macrotia_n1 := n_intr_uncount_le & [ STEM < "macrotia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_macrotia_n_rel" ] ]. madarosis_n1 := n_intr_uncount_le & [ STEM < "madarosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_madarosis_n_rel" ] ]. magenta_n1 := n_intr_mass_le & [ STEM < "magenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magenta_n_rel" ] ]. magia_n1 := n_intr_mass-or-count_le & [ STEM < "magia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magia_n_rel" ] ]. magisterio_n1 := n_intr_count_le & [ STEM < "magisterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magisterio_n_rel" ] ]. magnetón_n1 := n_intr_count_le & [ STEM < "magnetón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetón_n_rel" ] ]. magnetopausa_n1 := n_intr_uncount_le & [ STEM < "magnetopausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetopausa_n_rel" ] ]. magnetoquímica_n1 := n_intr_uncount_le & [ STEM < "magnetoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnetoquímica_n_rel" ] ]. magníficat_n1 := n_intr_uncount_le & [ STEM < "magníficat" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magníficat_n_rel" ] ]. magnicidio_n1 := n_intr_count_le & [ STEM < "magnicidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_magnicidio_n_rel" ] ]. maitines_n1 := n_intr_count_pl_le & [ STEM < "maitines" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maitines_n_rel" ] ]. maleficio_n1 := n_intr_count_le & [ STEM < "maleficio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maleficio_n_rel" ] ]. malhecho_n1 := n_intr_uncount_pl_le & [ STEM < "malhecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malhecho_n_rel" ] ]. malus_n1 := n_intr_count_le & [ STEM < "malus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_malus_n_rel" ] ]. mangueta_n1 := n_intr_count_le & [ STEM < "mangueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mangueta_n_rel" ] ]. maniobra_n1 := n_intr_count_le & [ STEM < "maniobra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maniobra_n_rel" ] ]. maniqueísta_n1 := n_intr_uncount_pl_le & [ STEM < "maniqueísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maniqueísta_n_rel" ] ]. maoísmo_n1 := n_intr_uncount_le & [ STEM < "maoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maoísmo_n_rel" ] ]. maraña_n1 := n_intr_uncount_pl_le & [ STEM < "maraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maraña_n_rel" ] ]. marabunta_n1 := n_intr_count_le & [ STEM < "marabunta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marabunta_n_rel" ] ]. marasmo_n1 := n_intr_count_le & [ STEM < "marasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marasmo_n_rel" ] ]. maravilla_n1 := n_intr_count_le & [ STEM < "maravilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maravilla_n_rel" ] ]. marejadilla_n1 := n_intr_mass_le & [ STEM < "marejadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marejadilla_n_rel" ] ]. maremoto_n1 := n_intr_count_le & [ STEM < "maremoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maremoto_n_rel" ] ]. marengo_n1 := n_intr_count_le & [ STEM < "marengo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marengo_n_rel" ] ]. marketing-mix_n1 := n_intr_uncount_le & [ STEM < "marketing-mix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marketing-mix_n_rel" ] ]. marketing_n1 := n_intr_mass_le & [ STEM < "marketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marketing_n_rel" ] ]. marra_n1 := n_intr_uncount_le & [ STEM < "marra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_marra_n_rel" ] ]. martemple_n1 := n_intr_uncount_le & [ STEM < "martemple" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_martemple_n_rel" ] ]. martirio_n1 := n_intr_count_le & [ STEM < "martirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_martirio_n_rel" ] ]. masacre_n1 := n_intr_count_le & [ STEM < "masacre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_masacre_n_rel" ] ]. master_n1 := n_intr_count_le & [ STEM < "master" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_master_n_rel" ] ]. mastoidalgia_n1 := n_intr_uncount_le & [ STEM < "mastoidalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mastoidalgia_n_rel" ] ]. mastoiditis_n1 := n_intr_uncount_le & [ STEM < "mastoiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mastoiditis_n_rel" ] ]. matalahúga_n1 := n_intr_uncount_le & [ STEM < "matalahúga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matalahúga_n_rel" ] ]. match_n1 := n_intr_count_le & [ STEM < "match" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_match_n_rel" ] ]. match_point_n1 := n_intr_count_le & [ STEM < "match_point" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_match_point_n_rel" ] ]. matemática_n1 := n_intr_uncount_le & [ STEM < "matemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matemática_n_rel" ] ]. materia_n1 := n_intr_mass-or-count_le & [ STEM < "materia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_materia_n_rel" ] ]. matiz_n1 := n_intr_count_le & [ STEM < "matiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matiz_n_rel" ] ]. matricidio_n1 := n_intr_count_le & [ STEM < "matricidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_matricidio_n_rel" ] ]. mauveína_n1 := n_intr_uncount_le & [ STEM < "mauveína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mauveína_n_rel" ] ]. maxilitis_n1 := n_intr_uncount_le & [ STEM < "maxilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_maxilitis_n_rel" ] ]. mayéutica_n1 := n_intr_uncount_le & [ STEM < "mayéutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mayéutica_n_rel" ] ]. ámbito_n1 := n_intr_count_le & [ STEM < "ámbito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ámbito_n_rel" ] ]. mácula_n1 := n_intr_count_le & [ STEM < "mácula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mácula_n_rel" ] ]. mecanoquímica_n1 := n_intr_uncount_le & [ STEM < "mecanoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mecanoquímica_n_rel" ] ]. mecenazgo_n1 := n_intr_uncount_le & [ STEM < "mecenazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mecenazgo_n_rel" ] ]. mecánica_n1 := n_intr_uncount_le & [ STEM < "mecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mecánica_n_rel" ] ]. medallón_n1 := n_intr_count_le & [ STEM < "medallón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medallón_n_rel" ] ]. medialuna_n1 := n_intr_count_le & [ STEM < "medialuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medialuna_n_rel" ] ]. mediana_n1 := n_intr_count_le & [ STEM < "mediana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mediana_n_rel" ] ]. mediatriz_n1 := n_intr_count_le & [ STEM < "mediatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mediatriz_n_rel" ] ]. medio_ambiente_n1 := n_intr_uncount_le & [ STEM < "medio_ambiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medio_ambiente_n_rel" ] ]. mediocentro_n1 := n_intr_count_le & [ STEM < "mediocentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mediocentro_n_rel" ] ]. medio_n1 := n_intr_count_le & [ STEM < "medio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_medio_n_rel" ] ]. megaciclo_n1 := n_intr_count_le & [ STEM < "megaciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megaciclo_n_rel" ] ]. megalocitosis_n1 := n_intr_uncount_le & [ STEM < "megalocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megalocitosis_n_rel" ] ]. megaloglosia_n1 := n_intr_uncount_le & [ STEM < "megaloglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megaloglosia_n_rel" ] ]. megaohm_n1 := n_intr_count_le & [ STEM < "megaohm" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_megaohm_n_rel" ] ]. meiosis_n1 := n_intr_uncount_le & [ STEM < "meiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meiosis_n_rel" ] ]. melanoglosia_n1 := n_intr_uncount_le & [ STEM < "melanoglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melanoglosia_n_rel" ] ]. melanosoma_n1 := n_intr_uncount_pl_le & [ STEM < "melanosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melanosoma_n_rel" ] ]. melisma_n1 := n_intr_count_le & [ STEM < "melisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melisma_n_rel" ] ]. melitis_n1 := n_intr_uncount_le & [ STEM < "melitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melitis_n_rel" ] ]. melé_n1 := n_intr_count_le & [ STEM < "melé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melé_n_rel" ] ]. melodrama_n1 := n_intr_count_le & [ STEM < "melodrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_melodrama_n_rel" ] ]. membrete_n1 := n_intr_count_le & [ STEM < "membrete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_membrete_n_rel" ] ]. menester_n1 := n_intr_count_le & [ STEM < "menester" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menester_n_rel" ] ]. menestra_n1 := n_intr_mass-or-count_le & [ STEM < "menestra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menestra_n_rel" ] ]. meningitis_n1 := n_intr_uncount_le & [ STEM < "meningitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meningitis_n_rel" ] ]. menorragia_n1 := n_intr_uncount_le & [ STEM < "menorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menorragia_n_rel" ] ]. menosprecio_n1 := n_intr_mass_le & [ STEM < "menosprecio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_menosprecio_n_rel" ] ]. mente_n1 := n_intr_uncount_pl_le & [ STEM < "mente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mente_n_rel" ] ]. mentís_n1 := n_intr_uncount_pl_le & [ STEM < "mentís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mentís_n_rel" ] ]. meollo_n1 := n_intr_count_le & [ STEM < "meollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meollo_n_rel" ] ]. mercadotecnia_n1 := n_intr_uncount_le & [ STEM < "mercadotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mercadotecnia_n_rel" ] ]. merced_n1 := n_intr_uncount_le & [ STEM < "merced" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_merced_n_rel" ] ]. meridiano_n1 := n_intr_count_le & [ STEM < "meridiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_meridiano_n_rel" ] ]. merienda_n1 := n_intr_uncount_pl_le & [ STEM < "merienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_merienda_n_rel" ] ]. merma_n1 := n_intr_mass-or-count_le & [ STEM < "merma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_merma_n_rel" ] ]. mesénquima_n1 := n_intr_count_le & [ STEM < "mesénquima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesénquima_n_rel" ] ]. mesoclima_n1 := n_intr_count_le & [ STEM < "mesoclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesoclima_n_rel" ] ]. mesofaringe_n1 := n_intr_uncount_le & [ STEM < "mesofaringe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesofaringe_n_rel" ] ]. mesolita_n1 := n_intr_uncount_pl_le & [ STEM < "mesolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesolita_n_rel" ] ]. Mesolítico_n1 := n_intr_uncount_le & [ STEM < "Mesolítico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_Mesolítico_n_rel" ] ]. mesorrinia_n1 := n_intr_uncount_le & [ STEM < "mesorrinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesorrinia_n_rel" ] ]. mesosoma_n1 := n_intr_uncount_pl_le & [ STEM < "mesosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mesosoma_n_rel" ] ]. metafase_n1 := n_intr_count_le & [ STEM < "metafase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metafase_n_rel" ] ]. metafonesis_n1 := n_intr_uncount_le & [ STEM < "metafonesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metafonesis_n_rel" ] ]. metafísica_n1 := n_intr_uncount_le & [ STEM < "metafísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metafísica_n_rel" ] ]. metahemoglobinemia_n1 := n_intr_uncount_le & [ STEM < "metahemoglobinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metahemoglobinemia_n_rel" ] ]. metalógica_n1 := n_intr_uncount_le & [ STEM < "metalógica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalógica_n_rel" ] ]. metaloide_n1 := n_intr_count_le & [ STEM < "metaloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metaloide_n_rel" ] ]. metalotermia_n1 := n_intr_uncount_le & [ STEM < "metalotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metalotermia_n_rel" ] ]. metamorfopsia_n1 := n_intr_uncount_le & [ STEM < "metamorfopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metamorfopsia_n_rel" ] ]. metaplasia_n1 := n_intr_uncount_le & [ STEM < "metaplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metaplasia_n_rel" ] ]. metasintaxis_n1 := n_intr_uncount_le & [ STEM < "metasintaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metasintaxis_n_rel" ] ]. metatesis_n1 := n_intr_uncount_le & [ STEM < "metatesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metatesis_n_rel" ] ]. metáfisis_n1 := n_intr_uncount_le & [ STEM < "metáfisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metáfisis_n_rel" ] ]. metáfora_n1 := n_intr_count_le & [ STEM < "metáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metáfora_n_rel" ] ]. metonimia_n1 := n_intr_uncount_le & [ STEM < "metonimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metonimia_n_rel" ] ]. metopa_n1 := n_intr_count_le & [ STEM < "metopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metopa_n_rel" ] ]. metátesis_n1 := n_intr_uncount_le & [ STEM < "metátesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_metátesis_n_rel" ] ]. miasma_n1 := n_intr_uncount_le & [ STEM < "miasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miasma_n_rel" ] ]. micorriza_n1 := n_intr_uncount_le & [ STEM < "micorriza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micorriza_n_rel" ] ]. microalbuminuria_n1 := n_intr_uncount_le & [ STEM < "microalbuminuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microalbuminuria_n_rel" ] ]. microanálisis_n1 := n_intr_count_le & [ STEM < "microanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microanálisis_n_rel" ] ]. microciclo_n1 := n_intr_count_le & [ STEM < "microciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microciclo_n_rel" ] ]. microcinética_n1 := n_intr_uncount_le & [ STEM < "microcinética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microcinética_n_rel" ] ]. microcircuito_n1 := n_intr_count_le & [ STEM < "microcircuito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microcircuito_n_rel" ] ]. microclima_n1 := n_intr_count_le & [ STEM < "microclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microclima_n_rel" ] ]. microclina_n1 := n_intr_count_le & [ STEM < "microclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microclina_n_rel" ] ]. microcosmos_n1 := n_intr_uncount_le & [ STEM < "microcosmos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microcosmos_n_rel" ] ]. microelectrónica_n1 := n_intr_uncount_le & [ STEM < "microelectrónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microelectrónica_n_rel" ] ]. microfauna_n1 := n_intr_uncount_pl_le & [ STEM < "microfauna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microfauna_n_rel" ] ]. microflora_n1 := n_intr_uncount_pl_le & [ STEM < "microflora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microflora_n_rel" ] ]. microforma_n1 := n_intr_count_le & [ STEM < "microforma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microforma_n_rel" ] ]. microgenia_n1 := n_intr_uncount_le & [ STEM < "microgenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microgenia_n_rel" ] ]. microglia_n1 := n_intr_uncount_le & [ STEM < "microglia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microglia_n_rel" ] ]. microglosia_n1 := n_intr_uncount_le & [ STEM < "microglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microglosia_n_rel" ] ]. microinformática_n1 := n_intr_uncount_le & [ STEM < "microinformática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microinformática_n_rel" ] ]. microlaringoscopia_n1 := n_intr_count_le & [ STEM < "microlaringoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microlaringoscopia_n_rel" ] ]. micromarketing_n1 := n_intr_uncount_le & [ STEM < "micromarketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromarketing_n_rel" ] ]. micromódulo_n1 := n_intr_count_le & [ STEM < "micromódulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromódulo_n_rel" ] ]. micromecánica_n1 := n_intr_uncount_le & [ STEM < "micromecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromecánica_n_rel" ] ]. micromárketing_n1 := n_intr_uncount_le & [ STEM < "micromárketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromárketing_n_rel" ] ]. micromárqueting_n1 := n_intr_uncount_le & [ STEM < "micromárqueting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micromárqueting_n_rel" ] ]. micrométodo_n1 := n_intr_uncount_pl_le & [ STEM < "micrométodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_micrométodo_n_rel" ] ]. microproyecto_n1 := n_intr_count_le & [ STEM < "microproyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microproyecto_n_rel" ] ]. microquímica_n1 := n_intr_uncount_le & [ STEM < "microquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microquímica_n_rel" ] ]. microrrutina_n1 := n_intr_count_le & [ STEM < "microrrutina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microrrutina_n_rel" ] ]. microscopia_n1 := n_intr_count_le & [ STEM < "microscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microscopia_n_rel" ] ]. microsistema_n1 := n_intr_count_le & [ STEM < "microsistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microsistema_n_rel" ] ]. microsoma_n1 := n_intr_count_le & [ STEM < "microsoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microsoma_n_rel" ] ]. microsubrutina_n1 := n_intr_uncount_le & [ STEM < "microsubrutina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microsubrutina_n_rel" ] ]. microtectónica_n1 := n_intr_uncount_le & [ STEM < "microtectónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microtectónica_n_rel" ] ]. microterremoto_n1 := n_intr_count_le & [ STEM < "microterremoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microterremoto_n_rel" ] ]. microtia_n1 := n_intr_uncount_le & [ STEM < "microtia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_microtia_n_rel" ] ]. midriasis_n1 := n_intr_uncount_le & [ STEM < "midriasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_midriasis_n_rel" ] ]. miedo_n1 := n_intr_mass-or-count_le & [ STEM < "miedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miedo_n_rel" ] ]. mielofibrosis_n1 := n_intr_uncount_le & [ STEM < "mielofibrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mielofibrosis_n_rel" ] ]. mielomatosis_n1 := n_intr_uncount_le & [ STEM < "mielomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mielomatosis_n_rel" ] ]. mielopoyesis_n1 := n_intr_uncount_le & [ STEM < "mielopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mielopoyesis_n_rel" ] ]. migraña_n1 := n_intr_mass-or-count_le & [ STEM < "migraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_migraña_n_rel" ] ]. milagro_n1 := n_intr_count_le & [ STEM < "milagro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_milagro_n_rel" ] ]. mili_n1 := n_intr_uncount_le & [ STEM < "mili" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mili_n_rel" ] ]. milólisis_n1 := n_intr_uncount_le & [ STEM < "milólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_milólisis_n_rel" ] ]. mineralurgia_n1 := n_intr_uncount_le & [ STEM < "mineralurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mineralurgia_n_rel" ] ]. minirotonda_n1 := n_intr_count_le & [ STEM < "minirotonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minirotonda_n_rel" ] ]. minúscula_n1 := n_intr_uncount_pl_le & [ STEM < "minúscula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minúscula_n_rel" ] ]. minuendo_n1 := n_intr_count_le & [ STEM < "minuendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minuendo_n_rel" ] ]. minué_n1 := n_intr_count_le & [ STEM < "minué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minué_n_rel" ] ]. minuta_n1 := n_intr_count_le & [ STEM < "minuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_minuta_n_rel" ] ]. miocardia_n1 := n_intr_uncount_le & [ STEM < "miocardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miocardia_n_rel" ] ]. miocarditis_n1 := n_intr_uncount_le & [ STEM < "miocarditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miocarditis_n_rel" ] ]. miosis_n1 := n_intr_uncount_le & [ STEM < "miosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miosis_n_rel" ] ]. mira_n1 := n_intr_count_le & [ STEM < "mira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mira_n_rel" ] ]. miringitis_n1 := n_intr_uncount_le & [ STEM < "miringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miringitis_n_rel" ] ]. miringoestapediopexia_n1 := n_intr_uncount_le & [ STEM < "miringoestapediopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miringoestapediopexia_n_rel" ] ]. miringoplastia_n1 := n_intr_count_le & [ STEM < "miringoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miringoplastia_n_rel" ] ]. misa_n1 := n_intr_uncount_pl_le & [ STEM < "misa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misa_n_rel" ] ]. miscelánea_n1 := n_intr_count_le & [ STEM < "miscelánea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miscelánea_n_rel" ] ]. miseria_n1 := n_intr_mass-or-count_le & [ STEM < "miseria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_miseria_n_rel" ] ]. misericordia_n1 := n_intr_mass_le & [ STEM < "misericordia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misericordia_n_rel" ] ]. misiva_n1 := n_intr_count_le & [ STEM < "misiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misiva_n_rel" ] ]. misogamia_n1 := n_intr_uncount_le & [ STEM < "misogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misogamia_n_rel" ] ]. misoginia_n1 := n_intr_uncount_le & [ STEM < "misoginia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misoginia_n_rel" ] ]. misterio_n1 := n_intr_mass-or-count_le & [ STEM < "misterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_misterio_n_rel" ] ]. mitin_n1 := n_intr_count_le & [ STEM < "mitin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitin_n_rel" ] ]. mito_n1 := n_intr_count_le & [ STEM < "mito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mito_n_rel" ] ]. mitosis_n1 := n_intr_uncount_le & [ STEM < "mitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mitosis_n_rel" ] ]. múltiplex_n1 := n_intr_count_le & [ STEM < "múltiplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_múltiplex_n_rel" ] ]. múltiplo_n1 := n_intr_count_le & [ STEM < "múltiplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_múltiplo_n_rel" ] ]. mímica_n1 := n_intr_uncount_pl_le & [ STEM < "mímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mímica_n_rel" ] ]. mnemotecnia_n1 := n_intr_count_le & [ STEM < "mnemotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mnemotecnia_n_rel" ] ]. mínimo_n1 := n_intr_count_le & [ STEM < "mínimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mínimo_n_rel" ] ]. modal_n1 := n_intr_count_le & [ STEM < "modal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modal_n_rel" ] ]. moda_n1 := n_intr_uncount_pl_le & [ STEM < "moda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moda_n_rel" ] ]. modestia_n1 := n_intr_mass_le & [ STEM < "modestia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_modestia_n_rel" ] ]. mohatra_n1 := n_intr_uncount_pl_le & [ STEM < "mohatra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mohatra_n_rel" ] ]. mole_n1 := n_intr_count_le & [ STEM < "mole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mole_n_rel" ] ]. molestia_n1 := n_intr_mass-or-count_le & [ STEM < "molestia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_molestia_n_rel" ] ]. monema_n1 := n_intr_count_le & [ STEM < "monema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monema_n_rel" ] ]. moniliasis_n1 := n_intr_uncount_le & [ STEM < "moniliasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moniliasis_n_rel" ] ]. monitorio_n1 := n_intr_count_le & [ STEM < "monitorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monitorio_n_rel" ] ]. monobromonaftaleno_n1 := n_intr_uncount_le & [ STEM < "monobromonaftaleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monobromonaftaleno_n_rel" ] ]. monocable_n1 := n_intr_count_le & [ STEM < "monocable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocable_n_rel" ] ]. monocitopenia_n1 := n_intr_uncount_le & [ STEM < "monocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocitopenia_n_rel" ] ]. monocitosis_n1 := n_intr_uncount_le & [ STEM < "monocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocitosis_n_rel" ] ]. monocultivo_n1 := n_intr_count_le & [ STEM < "monocultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monocultivo_n_rel" ] ]. monodia_n1 := n_intr_uncount_le & [ STEM < "monodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monodia_n_rel" ] ]. monogamia_n1 := n_intr_uncount_le & [ STEM < "monogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monogamia_n_rel" ] ]. monomio_n1 := n_intr_count_le & [ STEM < "monomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monomio_n_rel" ] ]. mononucleosis_n1 := n_intr_uncount_le & [ STEM < "mononucleosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mononucleosis_n_rel" ] ]. monopolio_n1 := n_intr_count_le & [ STEM < "monopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monopolio_n_rel" ] ]. monopsonio_n1 := n_intr_uncount_pl_le & [ STEM < "monopsonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monopsonio_n_rel" ] ]. monosemia_n1 := n_intr_uncount_le & [ STEM < "monosemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monosemia_n_rel" ] ]. monosílabo_n1 := n_intr_count_le & [ STEM < "monosílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monosílabo_n_rel" ] ]. monospermia_n1 := n_intr_uncount_le & [ STEM < "monospermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monospermia_n_rel" ] ]. monotarea_n1 := n_intr_count_le & [ STEM < "monotarea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotarea_n_rel" ] ]. monoteísmo_n1 := n_intr_uncount_le & [ STEM < "monoteísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monoteísmo_n_rel" ] ]. monotipo_n1 := n_intr_count_le & [ STEM < "monotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotipo_n_rel" ] ]. monotrema_n1 := n_intr_count_le & [ STEM < "monotrema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monotrema_n_rel" ] ]. monovolumen_n1 := n_intr_count_le & [ STEM < "monovolumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monovolumen_n_rel" ] ]. montante_n1 := n_intr_count_le & [ STEM < "montante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_montante_n_rel" ] ]. montículo_n1 := n_intr_count_le & [ STEM < "montículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_montículo_n_rel" ] ]. monto_n1 := n_intr_count_le & [ STEM < "monto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monto_n_rel" ] ]. monzón_n1 := n_intr_count_le & [ STEM < "monzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_monzón_n_rel" ] ]. moratoria_n1 := n_intr_count_le & [ STEM < "moratoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moratoria_n_rel" ] ]. mordente_n1 := n_intr_count_le & [ STEM < "mordente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mordente_n_rel" ] ]. moreno_n1 := n_intr_mass-or-count_le & [ STEM < "moreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_moreno_n_rel" ] ]. morfema_n1 := n_intr_count_le & [ STEM < "morfema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfema_n_rel" ] ]. morfofonema_n1 := n_intr_count_le & [ STEM < "morfofonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfofonema_n_rel" ] ]. morfogénesis_n1 := n_intr_uncount_le & [ STEM < "morfogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfogénesis_n_rel" ] ]. morfo_n1 := n_intr_count_le & [ STEM < "morfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfo_n_rel" ] ]. morfonema_n1 := n_intr_count_le & [ STEM < "morfonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfonema_n_rel" ] ]. morfosintaxis_n1 := n_intr_uncount_le & [ STEM < "morfosintaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morfosintaxis_n_rel" ] ]. morrena_n1 := n_intr_count_le & [ STEM < "morrena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morrena_n_rel" ] ]. morse_n1 := n_intr_uncount_le & [ STEM < "morse" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_morse_n_rel" ] ]. mote_n1 := n_intr_count_le & [ STEM < "mote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mote_n_rel" ] ]. motete_n1 := n_intr_count_le & [ STEM < "motete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motete_n_rel" ] ]. motivo_n1 := n_intr_count_le & [ STEM < "motivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motivo_n_rel" ] ]. motín_n1 := n_intr_count_le & [ STEM < "motín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motín_n_rel" ] ]. motocross_n1 := n_intr_uncount_le & [ STEM < "motocross" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_motocross_n_rel" ] ]. ímpetu_n1 := n_intr_mass-or-count_le & [ STEM < "ímpetu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ímpetu_n_rel" ] ]. mérito_n1 := n_intr_mass-or-count_le & [ STEM < "mérito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mérito_n_rel" ] ]. márketing_n1 := n_intr_uncount_le & [ STEM < "márketing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_márketing_n_rel" ] ]. márqueting_n1 := n_intr_uncount_le & [ STEM < "márqueting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_márqueting_n_rel" ] ]. máster_n1 := n_intr_count_le & [ STEM < "máster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_máster_n_rel" ] ]. mística_n1 := n_intr_mass-or-count_le & [ STEM < "mística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mística_n_rel" ] ]. mástic_n1 := n_intr_uncount_pl_le & [ STEM < "mástic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mástic_n_rel" ] ]. métrica_n1 := n_intr_count_le & [ STEM < "métrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_métrica_n_rel" ] ]. mueca_n1 := n_intr_count_le & [ STEM < "mueca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mueca_n_rel" ] ]. muflón_n1 := n_intr_count_le & [ STEM < "muflón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muflón_n_rel" ] ]. mugre_n1 := n_intr_mass_le & [ STEM < "mugre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mugre_n_rel" ] ]. muletón_n1 := n_intr_uncount_pl_le & [ STEM < "muletón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muletón_n_rel" ] ]. multibús_n1 := n_intr_uncount_le & [ STEM < "multibús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multibús_n_rel" ] ]. multicapa_n1 := n_intr_count_le & [ STEM < "multicapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multicapa_n_rel" ] ]. multietapa_n1 := n_intr_count_le & [ STEM < "multietapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multietapa_n_rel" ] ]. multinomio_n1 := n_intr_count_le & [ STEM < "multinomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multinomio_n_rel" ] ]. multiplex_n1 := n_intr_count_le & [ STEM < "multiplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiplex_n_rel" ] ]. multiplicando_n1 := n_intr_count_le & [ STEM < "multiplicando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiplicando_n_rel" ] ]. multiproceso_n1 := n_intr_count_le & [ STEM < "multiproceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiproceso_n_rel" ] ]. multipunto_n1 := n_intr_count_le & [ STEM < "multipunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multipunto_n_rel" ] ]. multitarea_n1 := n_intr_count_le & [ STEM < "multitarea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multitarea_n_rel" ] ]. multitrama_n1 := n_intr_count_le & [ STEM < "multitrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multitrama_n_rel" ] ]. multiuso_n1 := n_intr_count_le & [ STEM < "multiuso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_multiuso_n_rel" ] ]. murmullo_n1 := n_intr_mass-or-count_le & [ STEM < "murmullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_murmullo_n_rel" ] ]. muserola_n1 := n_intr_uncount_pl_le & [ STEM < "muserola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_muserola_n_rel" ] ]. mutis_n1 := n_intr_uncount_le & [ STEM < "mutis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_mutis_n_rel" ] ]. móvil_n1 := n_intr_count_le & [ STEM < "móvil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_móvil_n_rel" ] ]. máxima_n1 := n_intr_count_le & [ STEM < "máxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_máxima_n_rel" ] ]. máximo_n1 := n_intr_count_le & [ STEM < "máximo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_máximo_n_rel" ] ]. nadir_n1 := n_intr_uncount_le & [ STEM < "nadir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nadir_n_rel" ] ]. nana_n1 := n_intr_count_le & [ STEM < "nana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nana_n_rel" ] ]. nanoelectrónica_n1 := n_intr_uncount_le & [ STEM < "nanoelectrónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nanoelectrónica_n_rel" ] ]. narcosis_n1 := n_intr_uncount_le & [ STEM < "narcosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_narcosis_n_rel" ] ]. narrativa_n1 := n_intr_count_le & [ STEM < "narrativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_narrativa_n_rel" ] ]. énclisis_n1 := n_intr_uncount_le & [ STEM < "énclisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_énclisis_n_rel" ] ]. índole_n1 := n_intr_count_le & [ STEM < "índole" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_índole_n_rel" ] ]. nódulo_n1 := n_intr_count_le & [ STEM < "nódulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nódulo_n_rel" ] ]. necrobiosis_n1 := n_intr_uncount_le & [ STEM < "necrobiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necrobiosis_n_rel" ] ]. necrorreseña_n1 := n_intr_count_le & [ STEM < "necrorreseña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necrorreseña_n_rel" ] ]. necrosis_n1 := n_intr_uncount_le & [ STEM < "necrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_necrosis_n_rel" ] ]. nefritis_n1 := n_intr_uncount_le & [ STEM < "nefritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nefritis_n_rel" ] ]. nefroesclerosis_n1 := n_intr_uncount_le & [ STEM < "nefroesclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nefroesclerosis_n_rel" ] ]. negativa_n1 := n_intr_count_le & [ STEM < "negativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negativa_n_rel" ] ]. negatoria_n1 := n_intr_uncount_pl_le & [ STEM < "negatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negatoria_n_rel" ] ]. negrilla_n1 := n_intr_uncount_pl_le & [ STEM < "negrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negrilla_n_rel" ] ]. negrita_n1 := n_intr_uncount_pl_le & [ STEM < "negrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_negrita_n_rel" ] ]. nematosoma_n1 := n_intr_uncount_pl_le & [ STEM < "nematosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nematosoma_n_rel" ] ]. neocolonia_n1 := n_intr_count_le & [ STEM < "neocolonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neocolonia_n_rel" ] ]. neogramática_n1 := n_intr_uncount_pl_le & [ STEM < "neogramática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neogramática_n_rel" ] ]. neolingüística_n1 := n_intr_uncount_le & [ STEM < "neolingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neolingüística_n_rel" ] ]. neoplasia_n1 := n_intr_uncount_le & [ STEM < "neoplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neoplasia_n_rel" ] ]. neorrománico_n1 := n_intr_uncount_pl_le & [ STEM < "neorrománico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neorrománico_n_rel" ] ]. neotécnica_n1 := n_intr_count_le & [ STEM < "neotécnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neotécnica_n_rel" ] ]. neotectónica_n1 := n_intr_uncount_le & [ STEM < "neotectónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neotectónica_n_rel" ] ]. neuma_n1 := n_intr_count_le & [ STEM < "neuma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuma_n_rel" ] ]. neumonitis_n1 := n_intr_uncount_le & [ STEM < "neumonitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neumonitis_n_rel" ] ]. neumática_n1 := n_intr_uncount_le & [ STEM < "neumática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neumática_n_rel" ] ]. neuralgia_n1 := n_intr_count_le & [ STEM < "neuralgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuralgia_n_rel" ] ]. neurastenia_n1 := n_intr_uncount_le & [ STEM < "neurastenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurastenia_n_rel" ] ]. neurasténico_n1 := n_intr_count_le & [ STEM < "neurasténico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurasténico_n_rel" ] ]. neuritis_n1 := n_intr_uncount_le & [ STEM < "neuritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuritis_n_rel" ] ]. neurólisis_n1 := n_intr_uncount_le & [ STEM < "neurólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurólisis_n_rel" ] ]. neurohipófisis_n1 := n_intr_uncount_le & [ STEM < "neurohipófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurohipófisis_n_rel" ] ]. neuronitis_n1 := n_intr_uncount_le & [ STEM < "neuronitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neuronitis_n_rel" ] ]. neurosis_n1 := n_intr_uncount_le & [ STEM < "neurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neurosis_n_rel" ] ]. neutrofilia_n1 := n_intr_uncount_le & [ STEM < "neutrofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neutrofilia_n_rel" ] ]. neutropenia_n1 := n_intr_uncount_le & [ STEM < "neutropenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_neutropenia_n_rel" ] ]. nevisca_n1 := n_intr_mass_le & [ STEM < "nevisca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nevisca_n_rel" ] ]. nexo_n1 := n_intr_count_le & [ STEM < "nexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nexo_n_rel" ] ]. énfasis_n1 := n_intr_mass_le & [ STEM < "énfasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_énfasis_n_rel" ] ]. ángulo_n1 := n_intr_count_le & [ STEM < "ángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ángulo_n_rel" ] ]. ánimo_n1 := n_intr_mass_le & [ STEM < "ánimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ánimo_n_rel" ] ]. nistagmo_n1 := n_intr_uncount_pl_le & [ STEM < "nistagmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nistagmo_n_rel" ] ]. nivoso_n1 := n_intr_uncount_le & [ STEM < "nivoso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nivoso_n_rel" ] ]. nómina_n1 := n_intr_count_le & [ STEM < "nómina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nómina_n_rel" ] ]. nocturno_n1 := n_intr_count_le & [ STEM < "nocturno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nocturno_n_rel" ] ]. noema_n1 := n_intr_count_le & [ STEM < "noema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noema_n_rel" ] ]. noesis_n1 := n_intr_uncount_le & [ STEM < "noesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noesis_n_rel" ] ]. noúmeno_n1 := n_intr_count_le & [ STEM < "noúmeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noúmeno_n_rel" ] ]. nominilla_n1 := n_intr_count_le & [ STEM < "nominilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nominilla_n_rel" ] ]. nomograma_n1 := n_intr_count_le & [ STEM < "nomograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nomograma_n_rel" ] ]. nonio_n1 := n_intr_count_le & [ STEM < "nonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nonio_n_rel" ] ]. norma_n1 := n_intr_count_le & [ STEM < "norma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_norma_n_rel" ] ]. normativa_n1 := n_intr_count_le & [ STEM < "normativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_normativa_n_rel" ] ]. nostalgia_n1 := n_intr_mass_le & [ STEM < "nostalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nostalgia_n_rel" ] ]. noética_n1 := n_intr_uncount_le & [ STEM < "noética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noética_n_rel" ] ]. noviazgo_n1 := n_intr_count_le & [ STEM < "noviazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_noviazgo_n_rel" ] ]. novolaca_n1 := n_intr_uncount_pl_le & [ STEM < "novolaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_novolaca_n_rel" ] ]. ántrax_n1 := n_intr_mass_le & [ STEM < "ántrax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ántrax_n_rel" ] ]. nulo_n1 := n_intr_count_le & [ STEM < "nulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nulo_n_rel" ] ]. numismática_n1 := n_intr_uncount_le & [ STEM < "numismática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_numismática_n_rel" ] ]. náusea_n1 := n_intr_mass_le & [ STEM < "náusea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_náusea_n_rel" ] ]. náutica_n1 := n_intr_uncount_le & [ STEM < "náutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_náutica_n_rel" ] ]. nutriente_n1 := n_intr_count_le & [ STEM < "nutriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_nutriente_n_rel" ] ]. oboísta_n1 := n_intr_count_le & [ STEM < "oboísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oboísta_n_rel" ] ]. ocarina_n1 := n_intr_count_le & [ STEM < "ocarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocarina_n_rel" ] ]. ocio_n1 := n_intr_mass_le & [ STEM < "ocio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ocio_n_rel" ] ]. octeto_n1 := n_intr_count_le & [ STEM < "octeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_octeto_n_rel" ] ]. octógeno_n1 := n_intr_count_le & [ STEM < "octógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_octógeno_n_rel" ] ]. octosílabo_n1 := n_intr_count_le & [ STEM < "octosílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_octosílabo_n_rel" ] ]. odinofagia_n1 := n_intr_uncount_le & [ STEM < "odinofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odinofagia_n_rel" ] ]. odisea_n1 := n_intr_count_le & [ STEM < "odisea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odisea_n_rel" ] ]. odontalgia_n1 := n_intr_uncount_le & [ STEM < "odontalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontalgia_n_rel" ] ]. odontólisis_n1 := n_intr_uncount_le & [ STEM < "odontólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontólisis_n_rel" ] ]. odontobotritis_n1 := n_intr_uncount_le & [ STEM < "odontobotritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontobotritis_n_rel" ] ]. odontoclasia_n1 := n_intr_uncount_le & [ STEM < "odontoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontoclasia_n_rel" ] ]. odontodinia_n1 := n_intr_uncount_le & [ STEM < "odontodinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontodinia_n_rel" ] ]. odontogénesis_n1 := n_intr_uncount_le & [ STEM < "odontogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontogénesis_n_rel" ] ]. odontograma_n1 := n_intr_count_le & [ STEM < "odontograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontograma_n_rel" ] ]. odontolitiasis_n1 := n_intr_uncount_le & [ STEM < "odontolitiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontolitiasis_n_rel" ] ]. odontoplastia_n1 := n_intr_count_le & [ STEM < "odontoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontoplastia_n_rel" ] ]. odontoscopia_n1 := n_intr_count_le & [ STEM < "odontoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontoscopia_n_rel" ] ]. odontoterapia_n1 := n_intr_uncount_le & [ STEM < "odontoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_odontoterapia_n_rel" ] ]. ofensiva_n1 := n_intr_count_le & [ STEM < "ofensiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ofensiva_n_rel" ] ]. oferta_n1 := n_intr_count_le & [ STEM < "oferta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oferta_n_rel" ] ]. offset_n1 := n_intr_count_le & [ STEM < "offset" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_offset_n_rel" ] ]. oficio_n1 := n_intr_count_le & [ STEM < "oficio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oficio_n_rel" ] ]. ofimática_n1 := n_intr_uncount_le & [ STEM < "ofimática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ofimática_n_rel" ] ]. ofrenda_n1 := n_intr_count_le & [ STEM < "ofrenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ofrenda_n_rel" ] ]. oftalmalgia_n1 := n_intr_uncount_le & [ STEM < "oftalmalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmalgia_n_rel" ] ]. oftalmia_n1 := n_intr_uncount_le & [ STEM < "oftalmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmia_n_rel" ] ]. oftalmitis_n1 := n_intr_uncount_le & [ STEM < "oftalmitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmitis_n_rel" ] ]. oftalmomiositis_n1 := n_intr_uncount_le & [ STEM < "oftalmomiositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmomiositis_n_rel" ] ]. oftalmoplastia_n1 := n_intr_count_le & [ STEM < "oftalmoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmoplastia_n_rel" ] ]. oftalmoptosis_n1 := n_intr_uncount_le & [ STEM < "oftalmoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmoptosis_n_rel" ] ]. oftalmorrexis_n1 := n_intr_uncount_le & [ STEM < "oftalmorrexis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmorrexis_n_rel" ] ]. oftalmoscopia_n1 := n_intr_uncount_le & [ STEM < "oftalmoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmoscopia_n_rel" ] ]. oftalmosteresis_n1 := n_intr_uncount_le & [ STEM < "oftalmosteresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oftalmosteresis_n_rel" ] ]. ojiva_n1 := n_intr_count_le & [ STEM < "ojiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ojiva_n_rel" ] ]. okapi_n1 := n_intr_count_le & [ STEM < "okapi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_okapi_n_rel" ] ]. oleodinámica_n1 := n_intr_uncount_le & [ STEM < "oleodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oleodinámica_n_rel" ] ]. oligopolio_n1 := n_intr_count_le & [ STEM < "oligopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oligopolio_n_rel" ] ]. oligopsonio_n1 := n_intr_uncount_pl_le & [ STEM < "oligopsonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oligopsonio_n_rel" ] ]. oligospermia_n1 := n_intr_uncount_le & [ STEM < "oligospermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oligospermia_n_rel" ] ]. oligotrofia_n1 := n_intr_uncount_le & [ STEM < "oligotrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oligotrofia_n_rel" ] ]. omega_n1 := n_intr_count_le & [ STEM < "omega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_omega_n_rel" ] ]. onda_n1 := n_intr_count_le & [ STEM < "onda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onda_n_rel" ] ]. ondulita_n1 := n_intr_uncount_pl_le & [ STEM < "ondulita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ondulita_n_rel" ] ]. onicofagia_n1 := n_intr_uncount_le & [ STEM < "onicofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onicofagia_n_rel" ] ]. onomatopeya_n1 := n_intr_count_le & [ STEM < "onomatopeya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onomatopeya_n_rel" ] ]. onomástica_n1 := n_intr_uncount_le & [ STEM < "onomástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_onomástica_n_rel" ] ]. ontogenia_n1 := n_intr_uncount_le & [ STEM < "ontogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ontogenia_n_rel" ] ]. oogénesis_n1 := n_intr_uncount_le & [ STEM < "oogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oogénesis_n_rel" ] ]. oogonia_n1 := n_intr_uncount_le & [ STEM < "oogonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oogonia_n_rel" ] ]. operando_n1 := n_intr_count_le & [ STEM < "operando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_operando_n_rel" ] ]. opoterapia_n1 := n_intr_uncount_le & [ STEM < "opoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_opoterapia_n_rel" ] ]. oprobio_n1 := n_intr_count_le & [ STEM < "oprobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oprobio_n_rel" ] ]. optoelectrónica_n1 := n_intr_uncount_le & [ STEM < "optoelectrónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_optoelectrónica_n_rel" ] ]. optotipo_n1 := n_intr_count_le & [ STEM < "optotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_optotipo_n_rel" ] ]. oratoria_n1 := n_intr_uncount_le & [ STEM < "oratoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oratoria_n_rel" ] ]. ordenando_n1 := n_intr_count_le & [ STEM < "ordenando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ordenando_n_rel" ] ]. organogenia_n1 := n_intr_uncount_le & [ STEM < "organogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organogenia_n_rel" ] ]. organogénesis_n1 := n_intr_uncount_le & [ STEM < "organogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organogénesis_n_rel" ] ]. organoterapia_n1 := n_intr_uncount_le & [ STEM < "organoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_organoterapia_n_rel" ] ]. orgullo_n1 := n_intr_mass_le & [ STEM < "orgullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orgullo_n_rel" ] ]. orofaringoscopia_n1 := n_intr_count_le & [ STEM < "orofaringoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orofaringoscopia_n_rel" ] ]. orogenia_n1 := n_intr_uncount_le & [ STEM < "orogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orogenia_n_rel" ] ]. orogénesis_n1 := n_intr_uncount_le & [ STEM < "orogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orogénesis_n_rel" ] ]. oropel_n1 := n_intr_uncount_pl_le & [ STEM < "oropel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oropel_n_rel" ] ]. orquitis_n1 := n_intr_uncount_le & [ STEM < "orquitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orquitis_n_rel" ] ]. orsai_n1 := n_intr_count_le & [ STEM < "orsai" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orsai_n_rel" ] ]. ortita_n1 := n_intr_uncount_le & [ STEM < "ortita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortita_n_rel" ] ]. ortocentro_n1 := n_intr_count_le & [ STEM < "ortocentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortocentro_n_rel" ] ]. ortoclasa_n1 := n_intr_uncount_pl_le & [ STEM < "ortoclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortoclasa_n_rel" ] ]. ortodentina_n1 := n_intr_uncount_le & [ STEM < "ortodentina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortodentina_n_rel" ] ]. ortodoxia_n1 := n_intr_uncount_le & [ STEM < "ortodoxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortodoxia_n_rel" ] ]. ortodromia_n1 := n_intr_uncount_le & [ STEM < "ortodromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortodromia_n_rel" ] ]. ortoepia_n1 := n_intr_uncount_le & [ STEM < "ortoepia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortoepia_n_rel" ] ]. ortogénesis_n1 := n_intr_uncount_le & [ STEM < "ortogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortogénesis_n_rel" ] ]. ortopedia_n1 := n_intr_uncount_le & [ STEM < "ortopedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortopedia_n_rel" ] ]. ortóptica_n1 := n_intr_uncount_le & [ STEM < "ortóptica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ortóptica_n_rel" ] ]. orza_n1 := n_intr_count_le & [ STEM < "orza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_orza_n_rel" ] ]. osiculoplastia_n1 := n_intr_count_le & [ STEM < "osiculoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osiculoplastia_n_rel" ] ]. osmosis_n1 := n_intr_uncount_le & [ STEM < "osmosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osmosis_n_rel" ] ]. osteoclasia_n1 := n_intr_uncount_le & [ STEM < "osteoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteoclasia_n_rel" ] ]. osteocondritis_n1 := n_intr_uncount_le & [ STEM < "osteocondritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteocondritis_n_rel" ] ]. osteodentinoma_n1 := n_intr_uncount_le & [ STEM < "osteodentinoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteodentinoma_n_rel" ] ]. osteoesclerosis_n1 := n_intr_uncount_le & [ STEM < "osteoesclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteoesclerosis_n_rel" ] ]. osteofluorosis_n1 := n_intr_uncount_le & [ STEM < "osteofluorosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteofluorosis_n_rel" ] ]. osteomielitis_n1 := n_intr_uncount_le & [ STEM < "osteomielitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteomielitis_n_rel" ] ]. osteoplastia_n1 := n_intr_count_le & [ STEM < "osteoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteoplastia_n_rel" ] ]. osteoporosis_n1 := n_intr_uncount_le & [ STEM < "osteoporosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteoporosis_n_rel" ] ]. osteosclerosis_n1 := n_intr_uncount_le & [ STEM < "osteosclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_osteosclerosis_n_rel" ] ]. otalgia_n1 := n_intr_uncount_le & [ STEM < "otalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otalgia_n_rel" ] ]. otitis_n1 := n_intr_uncount_le & [ STEM < "otitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otitis_n_rel" ] ]. otoantritis_n1 := n_intr_uncount_le & [ STEM < "otoantritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otoantritis_n_rel" ] ]. otoconias_n1 := n_intr_uncount_le & [ STEM < "otoconias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otoconias_n_rel" ] ]. otomicosis_n1 := n_intr_uncount_le & [ STEM < "otomicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otomicosis_n_rel" ] ]. otoplastia_n1 := n_intr_count_le & [ STEM < "otoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otoplastia_n_rel" ] ]. otorragia_n1 := n_intr_uncount_le & [ STEM < "otorragia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otorragia_n_rel" ] ]. otorraquia_n1 := n_intr_uncount_le & [ STEM < "otorraquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otorraquia_n_rel" ] ]. otorrea_n1 := n_intr_uncount_le & [ STEM < "otorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otorrea_n_rel" ] ]. otosclerosis_n1 := n_intr_uncount_le & [ STEM < "otosclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otosclerosis_n_rel" ] ]. otoscopia_n1 := n_intr_count_le & [ STEM < "otoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otoscopia_n_rel" ] ]. otrosí_n1 := n_intr_uncount_pl_le & [ STEM < "otrosí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_otrosí_n_rel" ] ]. output_n1 := n_intr_count_le & [ STEM < "output" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_output_n_rel" ] ]. ouzo_n1 := n_intr_mass-or-count_le & [ STEM < "ouzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ouzo_n_rel" ] ]. overbooking_n1 := n_intr_uncount_le & [ STEM < "overbooking" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_overbooking_n_rel" ] ]. overflowing_n1 := n_intr_uncount_le & [ STEM < "overflowing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_overflowing_n_rel" ] ]. ovogénesis_n1 := n_intr_uncount_le & [ STEM < "ovogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ovogénesis_n_rel" ] ]. oxer_n1 := n_intr_count_le & [ STEM < "oxer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxer_n_rel" ] ]. oxidante_n1 := n_intr_count_le & [ STEM < "oxidante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxidante_n_rel" ] ]. oxímoron_n1 := n_intr_count_le & [ STEM < "oxímoron" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_oxímoron_n_rel" ] ]. pacto_n1 := n_intr_count_le & [ STEM < "pacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pacto_n_rel" ] ]. padrón_n1 := n_intr_count_le & [ STEM < "padrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_padrón_n_rel" ] ]. paga_n1 := n_intr_count_le & [ STEM < "paga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paga_n_rel" ] ]. palabrota_n1 := n_intr_count_le & [ STEM < "palabrota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palabrota_n_rel" ] ]. palanquilla_n1 := n_intr_count_le & [ STEM < "palanquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palanquilla_n_rel" ] ]. palatoplastia_n1 := n_intr_uncount_le & [ STEM < "palatoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palatoplastia_n_rel" ] ]. palatosquisis_n1 := n_intr_uncount_le & [ STEM < "palatosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palatosquisis_n_rel" ] ]. paleobotánica_n1 := n_intr_uncount_le & [ STEM < "paleobotánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleobotánica_n_rel" ] ]. paleoclima_n1 := n_intr_count_le & [ STEM < "paleoclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoclima_n_rel" ] ]. paleocórtex_n1 := n_intr_uncount_le & [ STEM < "paleocórtex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleocórtex_n_rel" ] ]. paleoetnobotánica_n1 := n_intr_uncount_le & [ STEM < "paleoetnobotánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paleoetnobotánica_n_rel" ] ]. paleolítico_n1 := n_intr_uncount_le & [ STEM < "paleolítico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_paleolítico_n_rel" ] ]. paliativo_n1 := n_intr_uncount_pl_le & [ STEM < "paliativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paliativo_n_rel" ] ]. paliza_n1 := n_intr_count_le & [ STEM < "paliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paliza_n_rel" ] ]. palmarés_n1 := n_intr_count_le & [ STEM < "palmarés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palmarés_n_rel" ] ]. palíndromo_n1 := n_intr_count_le & [ STEM < "palíndromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_palíndromo_n_rel" ] ]. panacea_n1 := n_intr_count_le & [ STEM < "panacea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panacea_n_rel" ] ]. pancitólisis_n1 := n_intr_uncount_le & [ STEM < "pancitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pancitólisis_n_rel" ] ]. pancreatitis_n1 := n_intr_uncount_le & [ STEM < "pancreatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pancreatitis_n_rel" ] ]. panda_n1 := n_intr_count_le & [ STEM < "panda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panda_n_rel" ] ]. pandemia_n1 := n_intr_count_le & [ STEM < "pandemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pandemia_n_rel" ] ]. panoftalmitis_n1 := n_intr_uncount_le & [ STEM < "panoftalmitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panoftalmitis_n_rel" ] ]. panorámica_n1 := n_intr_count_le & [ STEM < "panorámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panorámica_n_rel" ] ]. pansinusitis_n1 := n_intr_uncount_le & [ STEM < "pansinusitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pansinusitis_n_rel" ] ]. panteísmo_n1 := n_intr_uncount_le & [ STEM < "panteísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panteísmo_n_rel" ] ]. pantomima_n1 := n_intr_count_le & [ STEM < "pantomima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pantomima_n_rel" ] ]. panuveítis_n1 := n_intr_uncount_le & [ STEM < "panuveítis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_panuveítis_n_rel" ] ]. papelón_n1 := n_intr_count_le & [ STEM < "papelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papelón_n_rel" ] ]. paperas_n1 := n_intr_uncount_le & [ STEM < "paperas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paperas_n_rel" ] ]. papilitis_n1 := n_intr_uncount_le & [ STEM < "papilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papilitis_n_rel" ] ]. papiloma_n1 := n_intr_count_le & [ STEM < "papiloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papiloma_n_rel" ] ]. papilomatosis_n1 := n_intr_uncount_le & [ STEM < "papilomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papilomatosis_n_rel" ] ]. papilorretinitis_n1 := n_intr_uncount_le & [ STEM < "papilorretinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_papilorretinitis_n_rel" ] ]. paquioniquia_n1 := n_intr_uncount_le & [ STEM < "paquioniquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paquioniquia_n_rel" ] ]. paquitena_n1 := n_intr_uncount_pl_le & [ STEM < "paquitena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paquitena_n_rel" ] ]. paraboloide_n1 := n_intr_count_le & [ STEM < "paraboloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraboloide_n_rel" ] ]. paracentesis_n1 := n_intr_uncount_le & [ STEM < "paracentesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paracentesis_n_rel" ] ]. paraclímax_n1 := n_intr_uncount_le & [ STEM < "paraclímax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraclímax_n_rel" ] ]. paracromia_n1 := n_intr_uncount_le & [ STEM < "paracromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paracromia_n_rel" ] ]. paracusia_n1 := n_intr_uncount_le & [ STEM < "paracusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paracusia_n_rel" ] ]. paradentosis_n1 := n_intr_uncount_le & [ STEM < "paradentosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paradentosis_n_rel" ] ]. paradigma_n1 := n_intr_count_le & [ STEM < "paradigma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paradigma_n_rel" ] ]. paradoja_n1 := n_intr_count_le & [ STEM < "paradoja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paradoja_n_rel" ] ]. parafasia_n1 := n_intr_uncount_le & [ STEM < "parafasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parafasia_n_rel" ] ]. parafernalia_n1 := n_intr_mass_le & [ STEM < "parafernalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parafernalia_n_rel" ] ]. paragénesis_n1 := n_intr_uncount_le & [ STEM < "paragénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paragénesis_n_rel" ] ]. paragoge_n1 := n_intr_uncount_pl_le & [ STEM < "paragoge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paragoge_n_rel" ] ]. paralelograma_n1 := n_intr_count_le & [ STEM < "paralelograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralelograma_n_rel" ] ]. paralelo_n1 := n_intr_count_le & [ STEM < "paralelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralelo_n_rel" ] ]. paralelotopo_n1 := n_intr_uncount_pl_le & [ STEM < "paralelotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralelotopo_n_rel" ] ]. paralexia_n1 := n_intr_uncount_le & [ STEM < "paralexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralexia_n_rel" ] ]. paralipsis_n1 := n_intr_uncount_le & [ STEM < "paralipsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paralipsis_n_rel" ] ]. parameiosis_n1 := n_intr_uncount_le & [ STEM < "parameiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parameiosis_n_rel" ] ]. paramitosis_n1 := n_intr_uncount_le & [ STEM < "paramitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paramitosis_n_rel" ] ]. paramnesia_n1 := n_intr_uncount_le & [ STEM < "paramnesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paramnesia_n_rel" ] ]. parangón_n1 := n_intr_count_le & [ STEM < "parangón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parangón_n_rel" ] ]. paranoia_n1 := n_intr_mass_le & [ STEM < "paranoia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paranoia_n_rel" ] ]. paraplejia_n1 := n_intr_uncount_le & [ STEM < "paraplejia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraplejia_n_rel" ] ]. paraproteinemia_n1 := n_intr_uncount_le & [ STEM < "paraproteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paraproteinemia_n_rel" ] ]. parasíntesis_n1 := n_intr_uncount_le & [ STEM < "parasíntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parasíntesis_n_rel" ] ]. parataxis_n1 := n_intr_uncount_le & [ STEM < "parataxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parataxis_n_rel" ] ]. paravientos_n1 := n_intr_count_le & [ STEM < "paravientos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paravientos_n_rel" ] ]. parábola_n1 := n_intr_count_le & [ STEM < "parábola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parábola_n_rel" ] ]. parecer_n1 := n_intr_count_le & [ STEM < "parecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parecer_n_rel" ] ]. parentela_n1 := n_intr_uncount_pl_le & [ STEM < "parentela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parentela_n_rel" ] ]. parentesco_n1 := n_intr_count_le & [ STEM < "parentesco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parentesco_n_rel" ] ]. paráfrasis_n1 := n_intr_count_le & [ STEM < "paráfrasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paráfrasis_n_rel" ] ]. parálisis_n1 := n_intr_uncount_le & [ STEM < "parálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parálisis_n_rel" ] ]. parámetro_n1 := n_intr_count_le & [ STEM < "parámetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parámetro_n_rel" ] ]. parónimo_n1 := n_intr_count_le & [ STEM < "parónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parónimo_n_rel" ] ]. parón_n1 := n_intr_count_le & [ STEM < "parón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parón_n_rel" ] ]. paréntesis_n1 := n_intr_count_le & [ STEM < "paréntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paréntesis_n_rel" ] ]. parodia_n1 := n_intr_count_le & [ STEM < "parodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parodia_n_rel" ] ]. paronimia_n1 := n_intr_uncount_le & [ STEM < "paronimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paronimia_n_rel" ] ]. parosmia_n1 := n_intr_uncount_le & [ STEM < "parosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parosmia_n_rel" ] ]. parricidio_n1 := n_intr_count_le & [ STEM < "parricidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parricidio_n_rel" ] ]. parsimonia_n1 := n_intr_mass_le & [ STEM < "parsimonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_parsimonia_n_rel" ] ]. partenogénesis_n1 := n_intr_uncount_le & [ STEM < "partenogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_partenogénesis_n_rel" ] ]. participio_n1 := n_intr_count_le & [ STEM < "participio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_participio_n_rel" ] ]. pasabanda_n1 := n_intr_count_le & [ STEM < "pasabanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasabanda_n_rel" ] ]. pasacalle_n1 := n_intr_count_le & [ STEM < "pasacalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasacalle_n_rel" ] ]. pasiva_n1 := n_intr_count_le & [ STEM < "pasiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasiva_n_rel" ] ]. pasivo_n1 := n_intr_count_le & [ STEM < "pasivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasivo_n_rel" ] ]. pasmo_n1 := n_intr_mass-or-count_le & [ STEM < "pasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasmo_n_rel" ] ]. pasquín_n1 := n_intr_count_le & [ STEM < "pasquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pasquín_n_rel" ] ]. password_n1 := n_intr_count_le & [ STEM < "password" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_password_n_rel" ] ]. pataleta_n1 := n_intr_count_le & [ STEM < "pataleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pataleta_n_rel" ] ]. patchwork_n1 := n_intr_mass-or-count_le & [ STEM < "patchwork" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patchwork_n_rel" ] ]. patiburrillo_n1 := n_intr_uncount_le & [ STEM < "patiburrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patiburrillo_n_rel" ] ]. patogenesia_n1 := n_intr_uncount_le & [ STEM < "patogenesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patogenesia_n_rel" ] ]. patraña_n1 := n_intr_count_le & [ STEM < "patraña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patraña_n_rel" ] ]. patrimonio_n1 := n_intr_count_le & [ STEM < "patrimonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patrimonio_n_rel" ] ]. patronazgo_n1 := n_intr_count_le & [ STEM < "patronazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patronazgo_n_rel" ] ]. patronímico_n1 := n_intr_count_le & [ STEM < "patronímico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_patronímico_n_rel" ] ]. pausa_n1 := n_intr_count_le & [ STEM < "pausa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pausa_n_rel" ] ]. pauta_n1 := n_intr_count_le & [ STEM < "pauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pauta_n_rel" ] ]. paz_n1 := n_intr_mass_le & [ STEM < "paz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_paz_n_rel" ] ]. púber_n1 := n_intr_count_le & [ STEM < "púber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_púber_n_rel" ] ]. pídola_n1 := n_intr_uncount_pl_le & [ STEM < "pídola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pídola_n_rel" ] ]. pecilocitosis_n1 := n_intr_uncount_le & [ STEM < "pecilocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pecilocitosis_n_rel" ] ]. pecíolo_n1 := n_intr_count_le & [ STEM < "pecíolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pecíolo_n_rel" ] ]. peculio_n1 := n_intr_count_le & [ STEM < "peculio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peculio_n_rel" ] ]. pederastia_n1 := n_intr_uncount_le & [ STEM < "pederastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pederastia_n_rel" ] ]. pedigrí_n1 := n_intr_count_le & [ STEM < "pedigrí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedigrí_n_rel" ] ]. pedofilia_n1 := n_intr_uncount_le & [ STEM < "pedofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedofilia_n_rel" ] ]. pedogénesis_n1 := n_intr_uncount_le & [ STEM < "pedogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pedogénesis_n_rel" ] ]. peeling_n1 := n_intr_uncount_le & [ STEM < "peeling" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peeling_n_rel" ] ]. peligro_n1 := n_intr_mass-or-count_le & [ STEM < "peligro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peligro_n_rel" ] ]. pelirrojo_n1 := n_intr_count_le & [ STEM < "pelirrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pelirrojo_n_rel" ] ]. penalti_n1 := n_intr_count_le & [ STEM < "penalti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penalti_n_rel" ] ]. pena_n1 := n_intr_mass-or-count_le & [ STEM < "pena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pena_n_rel" ] ]. penetrómetro_n1 := n_intr_count_le & [ STEM < "penetrómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penetrómetro_n_rel" ] ]. pentadecágono_n1 := n_intr_count_le & [ STEM < "pentadecágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentadecágono_n_rel" ] ]. pentadodecaedro_n1 := n_intr_count_le & [ STEM < "pentadodecaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentadodecaedro_n_rel" ] ]. pentaedro_n1 := n_intr_count_le & [ STEM < "pentaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentaedro_n_rel" ] ]. pentagrama_n1 := n_intr_count_le & [ STEM < "pentagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentagrama_n_rel" ] ]. pentano_n1 := n_intr_uncount_pl_le & [ STEM < "pentano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pentano_n_rel" ] ]. penumbra_n1 := n_intr_mass_le & [ STEM < "penumbra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penumbra_n_rel" ] ]. penuria_n1 := n_intr_uncount_pl_le & [ STEM < "penuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_penuria_n_rel" ] ]. peralte_n1 := n_intr_count_le & [ STEM < "peralte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peralte_n_rel" ] ]. percance_n1 := n_intr_count_le & [ STEM < "percance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_percance_n_rel" ] ]. percentil_n1 := n_intr_count_le & [ STEM < "percentil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_percentil_n_rel" ] ]. perfidia_n1 := n_intr_uncount_pl_le & [ STEM < "perfidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perfidia_n_rel" ] ]. perífrasis_n1 := n_intr_count_le & [ STEM < "perífrasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perífrasis_n_rel" ] ]. pericementitis_n1 := n_intr_uncount_le & [ STEM < "pericementitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pericementitis_n_rel" ] ]. pericementoclasia_n1 := n_intr_uncount_le & [ STEM < "pericementoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pericementoclasia_n_rel" ] ]. pericoronitis_n1 := n_intr_uncount_le & [ STEM < "pericoronitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pericoronitis_n_rel" ] ]. perifolio_n1 := n_intr_uncount_pl_le & [ STEM < "perifolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perifolio_n_rel" ] ]. perihelio_n1 := n_intr_count_le & [ STEM < "perihelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perihelio_n_rel" ] ]. perilinfa_n1 := n_intr_uncount_le & [ STEM < "perilinfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perilinfa_n_rel" ] ]. periodograma_n1 := n_intr_count_le & [ STEM < "periodograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodograma_n_rel" ] ]. periodontitis_n1 := n_intr_uncount_le & [ STEM < "periodontitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodontitis_n_rel" ] ]. periodontoclasia_n1 := n_intr_uncount_le & [ STEM < "periodontoclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodontoclasia_n_rel" ] ]. periodontosis_n1 := n_intr_uncount_le & [ STEM < "periodontosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periodontosis_n_rel" ] ]. periostitis_n1 := n_intr_uncount_le & [ STEM < "periostitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periostitis_n_rel" ] ]. periápice_n1 := n_intr_uncount_pl_le & [ STEM < "periápice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periápice_n_rel" ] ]. peripolesia_n1 := n_intr_uncount_le & [ STEM < "peripolesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peripolesia_n_rel" ] ]. peripolesis_n1 := n_intr_uncount_le & [ STEM < "peripolesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peripolesis_n_rel" ] ]. periórbita_n1 := n_intr_uncount_pl_le & [ STEM < "periórbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_periórbita_n_rel" ] ]. peristilo_n1 := n_intr_count_le & [ STEM < "peristilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peristilo_n_rel" ] ]. perjuicio_n1 := n_intr_uncount_pl_le & [ STEM < "perjuicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perjuicio_n_rel" ] ]. perjurio_n1 := n_intr_uncount_pl_le & [ STEM < "perjurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perjurio_n_rel" ] ]. perlita_n1 := n_intr_count_le & [ STEM < "perlita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perlita_n_rel" ] ]. perímetro_n1 := n_intr_count_le & [ STEM < "perímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perímetro_n_rel" ] ]. perspectiva_n1 := n_intr_count_le & [ STEM < "perspectiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_perspectiva_n_rel" ] ]. pesadilla_n1 := n_intr_count_le & [ STEM < "pesadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesadilla_n_rel" ] ]. pescozón_n1 := n_intr_count_le & [ STEM < "pescozón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pescozón_n_rel" ] ]. pesquisa_n1 := n_intr_count_le & [ STEM < "pesquisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pesquisa_n_rel" ] ]. peste_n1 := n_intr_count_le & [ STEM < "peste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_peste_n_rel" ] ]. petalita_n1 := n_intr_uncount_pl_le & [ STEM < "petalita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petalita_n_rel" ] ]. petanca_n1 := n_intr_count_le & [ STEM < "petanca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petanca_n_rel" ] ]. petequia_n1 := n_intr_count_le & [ STEM < "petequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petequia_n_rel" ] ]. petitum_n1 := n_intr_count_le & [ STEM < "petitum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petitum_n_rel" ] ]. petrogénesis_n1 := n_intr_uncount_le & [ STEM < "petrogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petrogénesis_n_rel" ] ]. petroquímica_n1 := n_intr_uncount_le & [ STEM < "petroquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petroquímica_n_rel" ] ]. petrositis_n1 := n_intr_uncount_le & [ STEM < "petrositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_petrositis_n_rel" ] ]. ápex_n1 := n_intr_uncount_le & [ STEM < "ápex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ápex_n_rel" ] ]. pH_n1 := n_intr_uncount_le & [ STEM < "pH" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pH_n_rel" ] ]. pianissimo_n1 := n_intr_uncount_pl_le & [ STEM < "pianissimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pianissimo_n_rel" ] ]. épica_n1 := n_intr_count_le & [ STEM < "épica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_épica_n_rel" ] ]. picaresca_n1 := n_intr_uncount_le & [ STEM < "picaresca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picaresca_n_rel" ] ]. picazón_n1 := n_intr_uncount_pl_le & [ STEM < "picazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picazón_n_rel" ] ]. ápice_n1 := n_intr_count_le & [ STEM < "ápice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ápice_n_rel" ] ]. picnic_n1 := n_intr_count_le & [ STEM < "picnic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picnic_n_rel" ] ]. picnosis_n1 := n_intr_uncount_le & [ STEM < "picnosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_picnosis_n_rel" ] ]. piezoquímica_n1 := n_intr_uncount_le & [ STEM < "piezoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piezoquímica_n_rel" ] ]. pijota_n1 := n_intr_count_le & [ STEM < "pijota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pijota_n_rel" ] ]. pinacoteca_n1 := n_intr_coll_le & [ STEM < "pinacoteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pinacoteca_n_rel" ] ]. pináculo_n1 := n_intr_count_le & [ STEM < "pináculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pináculo_n_rel" ] ]. ping-pong_n1 := n_intr_uncount_le & [ STEM < "ping-pong" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ping-pong_n_rel" ] ]. pinocitosis_n1 := n_intr_uncount_le & [ STEM < "pinocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pinocitosis_n_rel" ] ]. piofagia_n1 := n_intr_uncount_le & [ STEM < "piofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piofagia_n_rel" ] ]. piorrea_n1 := n_intr_uncount_le & [ STEM < "piorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piorrea_n_rel" ] ]. piostomatitis_n1 := n_intr_uncount_le & [ STEM < "piostomatitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piostomatitis_n_rel" ] ]. pique_n1 := n_intr_uncount_pl_le & [ STEM < "pique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pique_n_rel" ] ]. piquete_n1 := n_intr_count_le & [ STEM < "piquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piquete_n_rel" ] ]. pira_n1 := n_intr_count_le & [ STEM < "pira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pira_n_rel" ] ]. piritoedro_n1 := n_intr_uncount_pl_le & [ STEM < "piritoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piritoedro_n_rel" ] ]. piroclasto_n1 := n_intr_uncount_pl_le & [ STEM < "piroclasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piroclasto_n_rel" ] ]. pirolisis_n1 := n_intr_uncount_le & [ STEM < "pirolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirolisis_n_rel" ] ]. piroquímica_n1 := n_intr_uncount_le & [ STEM < "piroquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piroquímica_n_rel" ] ]. pirotecnia_n1 := n_intr_uncount_le & [ STEM < "pirotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirotecnia_n_rel" ] ]. piroxeno_n1 := n_intr_uncount_le & [ STEM < "piroxeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_piroxeno_n_rel" ] ]. pirrotina_n1 := n_intr_uncount_le & [ STEM < "pirrotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirrotina_n_rel" ] ]. pirueta_n1 := n_intr_count_le & [ STEM < "pirueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pirueta_n_rel" ] ]. pisotón_n1 := n_intr_count_le & [ STEM < "pisotón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pisotón_n_rel" ] ]. pistilo_n1 := n_intr_count_le & [ STEM < "pistilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pistilo_n_rel" ] ]. póker_n1 := n_intr_uncount_le & [ STEM < "póker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_póker_n_rel" ] ]. placer_n1 := n_intr_mass-or-count_le & [ STEM < "placer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_placer_n_rel" ] ]. plaga_n1 := n_intr_count_le & [ STEM < "plaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plaga_n_rel" ] ]. planisferio_n1 := n_intr_count_le & [ STEM < "planisferio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planisferio_n_rel" ] ]. planning_n1 := n_intr_uncount_le & [ STEM < "planning" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_planning_n_rel" ] ]. plante_n1 := n_intr_uncount_le & [ STEM < "plante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plante_n_rel" ] ]. plaquetoféresis_n1 := n_intr_uncount_le & [ STEM < "plaquetoféresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plaquetoféresis_n_rel" ] ]. plaquetosis_n1 := n_intr_uncount_le & [ STEM < "plaquetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plaquetosis_n_rel" ] ]. plasmaferesis_n1 := n_intr_uncount_le & [ STEM < "plasmaferesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmaferesis_n_rel" ] ]. plasmaféresis_n1 := n_intr_uncount_le & [ STEM < "plasmaféresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmaféresis_n_rel" ] ]. plasmalema_n1 := n_intr_uncount_pl_le & [ STEM < "plasmalema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmalema_n_rel" ] ]. plasmaterapia_n1 := n_intr_uncount_le & [ STEM < "plasmaterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmaterapia_n_rel" ] ]. plasmidio_n1 := n_intr_count_le & [ STEM < "plasmidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmidio_n_rel" ] ]. plasmólisis_n1 := n_intr_uncount_le & [ STEM < "plasmólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmólisis_n_rel" ] ]. plasmón_n1 := n_intr_count_le & [ STEM < "plasmón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmón_n_rel" ] ]. plasmocitoma_n1 := n_intr_count_le & [ STEM < "plasmocitoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmocitoma_n_rel" ] ]. plasmocitosis_n1 := n_intr_uncount_le & [ STEM < "plasmocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasmocitosis_n_rel" ] ]. plastia_n1 := n_intr_count_le & [ STEM < "plastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plastia_n_rel" ] ]. plasturgia_n1 := n_intr_uncount_le & [ STEM < "plasturgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plasturgia_n_rel" ] ]. platicultivo_n1 := n_intr_uncount_le & [ STEM < "platicultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_platicultivo_n_rel" ] ]. playback_n1 := n_intr_uncount_le & [ STEM < "playback" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_playback_n_rel" ] ]. play-off_n1 := n_intr_uncount_le & [ STEM < "play-off" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_play-off_n_rel" ] ]. plácet_n1 := n_intr_uncount_pl_le & [ STEM < "plácet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plácet_n_rel" ] ]. plebiscito_n1 := n_intr_count_le & [ STEM < "plebiscito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plebiscito_n_rel" ] ]. plegaria_n1 := n_intr_count_le & [ STEM < "plegaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plegaria_n_rel" ] ]. pleito_n1 := n_intr_count_le & [ STEM < "pleito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleito_n_rel" ] ]. plenario_n1 := n_intr_count_le & [ STEM < "plenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plenario_n_rel" ] ]. pleno_n1 := n_intr_count_le & [ STEM < "pleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleno_n_rel" ] ]. pleocroísmo_n1 := n_intr_uncount_le & [ STEM < "pleocroísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleocroísmo_n_rel" ] ]. pleonasmo_n1 := n_intr_uncount_pl_le & [ STEM < "pleonasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleonasmo_n_rel" ] ]. pleóptica_n1 := n_intr_uncount_le & [ STEM < "pleóptica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pleóptica_n_rel" ] ]. plexo_n1 := n_intr_count_le & [ STEM < "plexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plexo_n_rel" ] ]. pliopolio_n1 := n_intr_uncount_pl_le & [ STEM < "pliopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pliopolio_n_rel" ] ]. pliopsonio_n1 := n_intr_uncount_le & [ STEM < "pliopsonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pliopsonio_n_rel" ] ]. plástica_n1 := n_intr_uncount_le & [ STEM < "plástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plástica_n_rel" ] ]. pluscosto_n1 := n_intr_uncount_le & [ STEM < "pluscosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pluscosto_n_rel" ] ]. plusmarca_n1 := n_intr_count_le & [ STEM < "plusmarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plusmarca_n_rel" ] ]. plus_n1 := n_intr_uncount_le & [ STEM < "plus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_plus_n_rel" ] ]. péndola_n1 := n_intr_count_le & [ STEM < "péndola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_péndola_n_rel" ] ]. pénfigo_n1 := n_intr_uncount_pl_le & [ STEM < "pénfigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pénfigo_n_rel" ] ]. pánico_n1 := n_intr_mass_le & [ STEM < "pánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pánico_n_rel" ] ]. poder_n1 := n_intr_mass-or-count_le & [ STEM < "poder" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poder_n_rel" ] ]. podredumbre_n1 := n_intr_uncount_le & [ STEM < "podredumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_podredumbre_n_rel" ] ]. podsol_n1 := n_intr_uncount_le & [ STEM < "podsol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_podsol_n_rel" ] ]. podzol_n1 := n_intr_uncount_le & [ STEM < "podzol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_podzol_n_rel" ] ]. pogromo_n1 := n_intr_uncount_pl_le & [ STEM < "pogromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pogromo_n_rel" ] ]. poiquilocitosis_n1 := n_intr_uncount_le & [ STEM < "poiquilocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poiquilocitosis_n_rel" ] ]. pole_position_n1 := n_intr_count_le & [ STEM < "pole_position" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pole_position_n_rel" ] ]. polialveólisis_n1 := n_intr_uncount_le & [ STEM < "polialveólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polialveólisis_n_rel" ] ]. poliandria_n1 := n_intr_uncount_le & [ STEM < "poliandria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliandria_n_rel" ] ]. poliarteritis_n1 := n_intr_uncount_le & [ STEM < "poliarteritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliarteritis_n_rel" ] ]. policitemia_n1 := n_intr_uncount_le & [ STEM < "policitemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policitemia_n_rel" ] ]. policoria_n1 := n_intr_uncount_le & [ STEM < "policoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policoria_n_rel" ] ]. policromatofilia_n1 := n_intr_uncount_le & [ STEM < "policromatofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policromatofilia_n_rel" ] ]. policultivo_n1 := n_intr_uncount_pl_le & [ STEM < "policultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_policultivo_n_rel" ] ]. poligamia_n1 := n_intr_uncount_le & [ STEM < "poligamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poligamia_n_rel" ] ]. poliginia_n1 := n_intr_uncount_le & [ STEM < "poliginia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliginia_n_rel" ] ]. polimiositis_n1 := n_intr_uncount_le & [ STEM < "polimiositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polimiositis_n_rel" ] ]. polineuritis_n1 := n_intr_uncount_le & [ STEM < "polineuritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polineuritis_n_rel" ] ]. polinomio_n1 := n_intr_count_le & [ STEM < "polinomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polinomio_n_rel" ] ]. polinosis_n1 := n_intr_uncount_le & [ STEM < "polinosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polinosis_n_rel" ] ]. polinucleosis_n1 := n_intr_uncount_le & [ STEM < "polinucleosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polinucleosis_n_rel" ] ]. poliomelitis_n1 := n_intr_uncount_le & [ STEM < "poliomelitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliomelitis_n_rel" ] ]. polipasto_n1 := n_intr_uncount_le & [ STEM < "polipasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polipasto_n_rel" ] ]. poliploidia_n1 := n_intr_uncount_le & [ STEM < "poliploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliploidia_n_rel" ] ]. polipolio_n1 := n_intr_uncount_le & [ STEM < "polipolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polipolio_n_rel" ] ]. poliposis_n1 := n_intr_uncount_le & [ STEM < "poliposis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poliposis_n_rel" ] ]. polirrítmia_n1 := n_intr_uncount_le & [ STEM < "polirrítmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polirrítmia_n_rel" ] ]. polisemia_n1 := n_intr_uncount_le & [ STEM < "polisemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polisemia_n_rel" ] ]. polisílabo_n1 := n_intr_count_le & [ STEM < "polisílabo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polisílabo_n_rel" ] ]. polisíndeton_n1 := n_intr_count_le & [ STEM < "polisíndeton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polisíndeton_n_rel" ] ]. politenia_n1 := n_intr_uncount_le & [ STEM < "politenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_politenia_n_rel" ] ]. politeísmo_n1 := n_intr_uncount_le & [ STEM < "politeísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_politeísmo_n_rel" ] ]. política_n1 := n_intr_mass-or-count_le & [ STEM < "política" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_política_n_rel" ] ]. polvareda_n1 := n_intr_mass-or-count_le & [ STEM < "polvareda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_polvareda_n_rel" ] ]. porqué_n1 := n_intr_count_le & [ STEM < "porqué" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_porqué_n_rel" ] ]. portadilla_n1 := n_intr_count_le & [ STEM < "portadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portadilla_n_rel" ] ]. portamatrices_n1 := n_intr_uncount_pl_le & [ STEM < "portamatrices" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portamatrices_n_rel" ] ]. portaoriginales_n1 := n_intr_uncount_pl_le & [ STEM < "portaoriginales" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portaoriginales_n_rel" ] ]. portatiras_n1 := n_intr_uncount_pl_le & [ STEM < "portatiras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portatiras_n_rel" ] ]. portazgo_n1 := n_intr_count_le & [ STEM < "portazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portazgo_n_rel" ] ]. portento_n1 := n_intr_count_le & [ STEM < "portento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_portento_n_rel" ] ]. porvenir_n1 := n_intr_uncount_pl_le & [ STEM < "porvenir" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_porvenir_n_rel" ] ]. pose_n1 := n_intr_count_le & [ STEM < "pose" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pose_n_rel" ] ]. posguerra_n1 := n_intr_count_le & [ STEM < "posguerra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_posguerra_n_rel" ] ]. postfacio_n1 := n_intr_uncount_le & [ STEM < "postfacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postfacio_n_rel" ] ]. postproceso_n1 := n_intr_count_le & [ STEM < "postproceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_postproceso_n_rel" ] ]. poética_n1 := n_intr_uncount_le & [ STEM < "poética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poética_n_rel" ] ]. potocitosis_n1 := n_intr_uncount_le & [ STEM < "potocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_potocitosis_n_rel" ] ]. poyo_n1 := n_intr_count_le & [ STEM < "poyo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_poyo_n_rel" ] ]. pragmática_n1 := n_intr_uncount_le & [ STEM < "pragmática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pragmática_n_rel" ] ]. praxis_n1 := n_intr_uncount_le & [ STEM < "praxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_praxis_n_rel" ] ]. práctica_n1 := n_intr_mass-or-count_le & [ STEM < "práctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_práctica_n_rel" ] ]. pérdida_n1 := n_intr_count_le & [ STEM < "pérdida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pérdida_n_rel" ] ]. pródromo_n1 := n_intr_uncount_pl_le & [ STEM < "pródromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pródromo_n_rel" ] ]. preanestesia_n1 := n_intr_uncount_le & [ STEM < "preanestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preanestesia_n_rel" ] ]. preanálisis_n1 := n_intr_uncount_pl_le & [ STEM < "preanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preanálisis_n_rel" ] ]. preaviso_n1 := n_intr_count_le & [ STEM < "preaviso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preaviso_n_rel" ] ]. prebenda_n1 := n_intr_count_le & [ STEM < "prebenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prebenda_n_rel" ] ]. precedente_n1 := n_intr_count_le & [ STEM < "precedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precedente_n_rel" ] ]. precepto_n1 := n_intr_count_le & [ STEM < "precepto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precepto_n_rel" ] ]. precálculo_n1 := n_intr_count_le & [ STEM < "precálculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_precálculo_n_rel" ] ]. preconsciente_n1 := n_intr_uncount_le & [ STEM < "preconsciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preconsciente_n_rel" ] ]. predicable_n1 := n_intr_count_le & [ STEM < "predicable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predicable_n_rel" ] ]. prediálogo_n1 := n_intr_uncount_pl_le & [ STEM < "prediálogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prediálogo_n_rel" ] ]. predominio_n1 := n_intr_uncount_le & [ STEM < "predominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_predominio_n_rel" ] ]. preenvuelta_n1 := n_intr_uncount_le & [ STEM < "preenvuelta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preenvuelta_n_rel" ] ]. preestreno_n1 := n_intr_count_le & [ STEM < "preestreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preestreno_n_rel" ] ]. preexamen_n1 := n_intr_count_le & [ STEM < "preexamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preexamen_n_rel" ] ]. prefacio_n1 := n_intr_count_le & [ STEM < "prefacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prefacio_n_rel" ] ]. preforma_n1 := n_intr_count_le & [ STEM < "preforma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preforma_n_rel" ] ]. pregón_n1 := n_intr_count_le & [ STEM < "pregón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pregón_n_rel" ] ]. prehnita_n1 := n_intr_uncount_pl_le & [ STEM < "prehnita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prehnita_n_rel" ] ]. prejuicio_n1 := n_intr_mass-or-count_le & [ STEM < "prejuicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prejuicio_n_rel" ] ]. preludio_n1 := n_intr_count_le & [ STEM < "preludio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preludio_n_rel" ] ]. preámbulo_n1 := n_intr_count_le & [ STEM < "preámbulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_preámbulo_n_rel" ] ]. premetafase_n1 := n_intr_count_le & [ STEM < "premetafase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premetafase_n_rel" ] ]. premisa_n1 := n_intr_count_le & [ STEM < "premisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_premisa_n_rel" ] ]. prepago_n1 := n_intr_count_le & [ STEM < "prepago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prepago_n_rel" ] ]. prerrogativa_n1 := n_intr_count_le & [ STEM < "prerrogativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prerrogativa_n_rel" ] ]. presagio_n1 := n_intr_count_le & [ STEM < "presagio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presagio_n_rel" ] ]. presbiacusia_n1 := n_intr_uncount_le & [ STEM < "presbiacusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presbiacusia_n_rel" ] ]. presbivértigo_n1 := n_intr_uncount_le & [ STEM < "presbivértigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_presbivértigo_n_rel" ] ]. prestanombre_n1 := n_intr_count_le & [ STEM < "prestanombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prestanombre_n_rel" ] ]. prestigio_n1 := n_intr_mass_le & [ STEM < "prestigio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prestigio_n_rel" ] ]. pretexto_n1 := n_intr_count_le & [ STEM < "pretexto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pretexto_n_rel" ] ]. pretérito_n1 := n_intr_count_le & [ STEM < "pretérito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pretérito_n_rel" ] ]. prima_n1 := n_intr_uncount_pl_le & [ STEM < "prima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prima_n_rel" ] ]. prima_n2 := n_intr_count_le & [ STEM < "prima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prima_n_rel" ] ]. primario_n1 := n_intr_count_le & [ STEM < "primario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primario_n_rel" ] ]. primitiva_n1 := n_intr_uncount_le & [ STEM < "primitiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_primitiva_n_rel" ] ]. principio_n1 := n_intr_count_le & [ STEM < "principio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_principio_n_rel" ] ]. prisa_n1 := n_intr_mass_le & [ STEM < "prisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prisa_n_rel" ] ]. prismatoide_n1 := n_intr_count_le & [ STEM < "prismatoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prismatoide_n_rel" ] ]. privilegio_n1 := n_intr_count_le & [ STEM < "privilegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_privilegio_n_rel" ] ]. probation_n1 := n_intr_uncount_le & [ STEM < "probation" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_probation_n_rel" ] ]. probatoria_n1 := n_intr_uncount_pl_le & [ STEM < "probatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_probatoria_n_rel" ] ]. problemática_n1 := n_intr_count_le & [ STEM < "problemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_problemática_n_rel" ] ]. proclama_n1 := n_intr_count_le & [ STEM < "proclama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proclama_n_rel" ] ]. proclisis_n1 := n_intr_uncount_le & [ STEM < "proclisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proclisis_n_rel" ] ]. proclítico_n1 := n_intr_count_le & [ STEM < "proclítico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proclítico_n_rel" ] ]. prodigio_n1 := n_intr_count_le & [ STEM < "prodigio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prodigio_n_rel" ] ]. producto_bruto_n1 := n_intr_uncount_le & [ STEM < "producto_bruto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_producto_bruto_n_rel" ] ]. producto_interior_bruto_n1 := n_intr_uncount_le & [ STEM < "producto_interior_bruto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_producto_interior_bruto_n_rel" ] ]. producto_neto_n1 := n_intr_uncount_le & [ STEM < "producto_neto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_producto_neto_n_rel" ] ]. proemio_n1 := n_intr_count_le & [ STEM < "proemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proemio_n_rel" ] ]. profase_n1 := n_intr_count_le & [ STEM < "profase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profase_n_rel" ] ]. profilaxis_n1 := n_intr_uncount_le & [ STEM < "profilaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_profilaxis_n_rel" ] ]. progenie_n1 := n_intr_uncount_le & [ STEM < "progenie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_progenie_n_rel" ] ]. proglosia_n1 := n_intr_uncount_le & [ STEM < "proglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proglosia_n_rel" ] ]. prolapso_n1 := n_intr_count_le & [ STEM < "prolapso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prolapso_n_rel" ] ]. prolegómeno_n1 := n_intr_count_le & [ STEM < "prolegómeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prolegómeno_n_rel" ] ]. prolepsis_n1 := n_intr_uncount_le & [ STEM < "prolepsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prolepsis_n_rel" ] ]. promedio_n1 := n_intr_count_le & [ STEM < "promedio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_promedio_n_rel" ] ]. promesa_n1 := n_intr_count_le & [ STEM < "promesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_promesa_n_rel" ] ]. prometafase_n1 := n_intr_count_le & [ STEM < "prometafase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prometafase_n_rel" ] ]. promontorio_n1 := n_intr_count_le & [ STEM < "promontorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_promontorio_n_rel" ] ]. pro_n1 := n_intr_count_le & [ STEM < "pro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pro_n_rel" ] ]. pronombre_n1 := n_intr_count_le & [ STEM < "pronombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pronombre_n_rel" ] ]. propaganda_n1 := n_intr_mass-or-count_le & [ STEM < "propaganda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propaganda_n_rel" ] ]. propedéutica_n1 := n_intr_uncount_le & [ STEM < "propedéutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propedéutica_n_rel" ] ]. propina_n1 := n_intr_mass-or-count_le & [ STEM < "propina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propina_n_rel" ] ]. propuesta_n1 := n_intr_count_le & [ STEM < "propuesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_propuesta_n_rel" ] ]. prorrata_n1 := n_intr_count_le & [ STEM < "prorrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prorrata_n_rel" ] ]. prosa_n1 := n_intr_count_le & [ STEM < "prosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prosa_n_rel" ] ]. prosémica_n1 := n_intr_uncount_le & [ STEM < "prosémica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prosémica_n_rel" ] ]. prosodia_n1 := n_intr_uncount_le & [ STEM < "prosodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prosodia_n_rel" ] ]. prosopopeya_n1 := n_intr_uncount_le & [ STEM < "prosopopeya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prosopopeya_n_rel" ] ]. protanomalopsia_n1 := n_intr_uncount_le & [ STEM < "protanomalopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protanomalopsia_n_rel" ] ]. protanopsia_n1 := n_intr_uncount_le & [ STEM < "protanopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protanopsia_n_rel" ] ]. proteinemia_n1 := n_intr_uncount_le & [ STEM < "proteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proteinemia_n_rel" ] ]. proteinuria_n1 := n_intr_uncount_le & [ STEM < "proteinuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proteinuria_n_rel" ] ]. proteólisis_n1 := n_intr_uncount_le & [ STEM < "proteólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proteólisis_n_rel" ] ]. protesto_n1 := n_intr_uncount_pl_le & [ STEM < "protesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protesto_n_rel" ] ]. protólisis_n1 := n_intr_uncount_le & [ STEM < "protólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protólisis_n_rel" ] ]. protoblasto_n1 := n_intr_count_le & [ STEM < "protoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protoblasto_n_rel" ] ]. protohistoria_n1 := n_intr_uncount_le & [ STEM < "protohistoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_protohistoria_n_rel" ] ]. provecho_n1 := n_intr_mass_le & [ STEM < "provecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_provecho_n_rel" ] ]. proveído_n1 := n_intr_count_le & [ STEM < "proveído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_proveído_n_rel" ] ]. párquing_n1 := n_intr_count_le & [ STEM < "párquing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_párquing_n_rel" ] ]. prórroga_n1 := n_intr_count_le & [ STEM < "prórroga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prórroga_n_rel" ] ]. próstesis_n1 := n_intr_uncount_le & [ STEM < "próstesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_próstesis_n_rel" ] ]. prótasis_n1 := n_intr_uncount_le & [ STEM < "prótasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prótasis_n_rel" ] ]. prurito_n1 := n_intr_mass_le & [ STEM < "prurito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_prurito_n_rel" ] ]. pésame_n1 := n_intr_uncount_le & [ STEM < "pésame" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pésame_n_rel" ] ]. pseudónimo_n1 := n_intr_count_le & [ STEM < "pseudónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudónimo_n_rel" ] ]. pseudoacrosoma_n1 := n_intr_uncount_le & [ STEM < "pseudoacrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudoacrosoma_n_rel" ] ]. pseudobase_n1 := n_intr_count_le & [ STEM < "pseudobase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudobase_n_rel" ] ]. pseudocódigo_n1 := n_intr_count_le & [ STEM < "pseudocódigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudocódigo_n_rel" ] ]. pseudomorfo_n1 := n_intr_uncount_le & [ STEM < "pseudomorfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudomorfo_n_rel" ] ]. pseudópodo_n1 := n_intr_count_le & [ STEM < "pseudópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pseudópodo_n_rel" ] ]. psicoanálisis_n1 := n_intr_uncount_le & [ STEM < "psicoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicoanálisis_n_rel" ] ]. psicodelia_n1 := n_intr_uncount_le & [ STEM < "psicodelia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicodelia_n_rel" ] ]. psicodiagnóstico_n1 := n_intr_uncount_pl_le & [ STEM < "psicodiagnóstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicodiagnóstico_n_rel" ] ]. psicofarmacologia_n1 := n_intr_uncount_le & [ STEM < "psicofarmacologia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicofarmacologia_n_rel" ] ]. psicofísica_n1 := n_intr_uncount_le & [ STEM < "psicofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicofísica_n_rel" ] ]. psicograma_n1 := n_intr_count_le & [ STEM < "psicograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicograma_n_rel" ] ]. psicolingüística_n1 := n_intr_uncount_le & [ STEM < "psicolingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicolingüística_n_rel" ] ]. psiconeurosis_n1 := n_intr_uncount_le & [ STEM < "psiconeurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psiconeurosis_n_rel" ] ]. psicoquímica_n1 := n_intr_uncount_le & [ STEM < "psicoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicoquímica_n_rel" ] ]. psicosis_n1 := n_intr_uncount_le & [ STEM < "psicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicosis_n_rel" ] ]. psicotécnica_n1 := n_intr_count_le & [ STEM < "psicotécnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicotécnica_n_rel" ] ]. psicotecnia_n1 := n_intr_uncount_le & [ STEM < "psicotecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicotecnia_n_rel" ] ]. psicoterapia_n1 := n_intr_uncount_le & [ STEM < "psicoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psicoterapia_n_rel" ] ]. épsilon_n1 := n_intr_uncount_le & [ STEM < "épsilon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_épsilon_n_rel" ] ]. ípsilon_n1 := n_intr_uncount_le & [ STEM < "ípsilon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ípsilon_n_rel" ] ]. psiquis_n1 := n_intr_uncount_le & [ STEM < "psiquis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psiquis_n_rel" ] ]. psoriasis_n1 := n_intr_uncount_le & [ STEM < "psoriasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_psoriasis_n_rel" ] ]. ptialolitiasis_n1 := n_intr_uncount_le & [ STEM < "ptialolitiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ptialolitiasis_n_rel" ] ]. puerperio_n1 := n_intr_uncount_le & [ STEM < "puerperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puerperio_n_rel" ] ]. puesta_de_sol_n1 := n_intr_count_le & [ STEM < "puesta_de_sol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puesta_de_sol_n_rel" ] ]. puñeta_n1 := n_intr_uncount_pl_le & [ STEM < "puñeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puñeta_n_rel" ] ]. pugna_n1 := n_intr_uncount_pl_le & [ STEM < "pugna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pugna_n_rel" ] ]. puja_n1 := n_intr_uncount_le & [ STEM < "puja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puja_n_rel" ] ]. épulis_n1 := n_intr_uncount_le & [ STEM < "épulis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_épulis_n_rel" ] ]. pulla_n1 := n_intr_count_le & [ STEM < "pulla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulla_n_rel" ] ]. pulpalgia_n1 := n_intr_uncount_le & [ STEM < "pulpalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulpalgia_n_rel" ] ]. pulpitis_n1 := n_intr_uncount_le & [ STEM < "pulpitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulpitis_n_rel" ] ]. pulposis_n1 := n_intr_uncount_le & [ STEM < "pulposis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulposis_n_rel" ] ]. pulvimetalurgia_n1 := n_intr_uncount_le & [ STEM < "pulvimetalurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pulvimetalurgia_n_rel" ] ]. puntapié_n1 := n_intr_count_le & [ STEM < "puntapié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puntapié_n_rel" ] ]. puntillo_n1 := n_intr_count_le & [ STEM < "puntillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puntillo_n_rel" ] ]. punto_n1 := n_intr_count_le & [ STEM < "punto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_punto_n_rel" ] ]. pupurri_n1 := n_intr_mass-or-count_le & [ STEM < "pupurri" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_pupurri_n_rel" ] ]. purín_n1 := n_intr_uncount_pl_le & [ STEM < "purín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_purín_n_rel" ] ]. puya_n1 := n_intr_count_le & [ STEM < "puya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_puya_n_rel" ] ]. quantum_n1 := n_intr_uncount_pl_le & [ STEM < "quantum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quantum_n_rel" ] ]. quehacer_n1 := n_intr_count_le & [ STEM < "quehacer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quehacer_n_rel" ] ]. queilitis_n1 := n_intr_uncount_le & [ STEM < "queilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilitis_n_rel" ] ]. queilofagia_n1 := n_intr_uncount_le & [ STEM < "queilofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilofagia_n_rel" ] ]. queilognatopalatosquisis_n1 := n_intr_uncount_le & [ STEM < "queilognatopalatosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilognatopalatosquisis_n_rel" ] ]. queilognatoprosoposquisis_n1 := n_intr_uncount_le & [ STEM < "queilognatoprosoposquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilognatoprosoposquisis_n_rel" ] ]. queilognatosquisis_n1 := n_intr_uncount_le & [ STEM < "queilognatosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilognatosquisis_n_rel" ] ]. queilognatouranosquisis_n1 := n_intr_uncount_le & [ STEM < "queilognatouranosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilognatouranosquisis_n_rel" ] ]. queiloplastia_n1 := n_intr_count_le & [ STEM < "queiloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queiloplastia_n_rel" ] ]. queilosis_n1 := n_intr_uncount_le & [ STEM < "queilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilosis_n_rel" ] ]. queilosquisis_n1 := n_intr_uncount_le & [ STEM < "queilosquisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queilosquisis_n_rel" ] ]. quemazón_n1 := n_intr_mass-or-count_le & [ STEM < "quemazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quemazón_n_rel" ] ]. quemodectoma_n1 := n_intr_uncount_le & [ STEM < "quemodectoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quemodectoma_n_rel" ] ]. quemosis_n1 := n_intr_uncount_le & [ STEM < "quemosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quemosis_n_rel" ] ]. queratalgia_n1 := n_intr_uncount_le & [ STEM < "queratalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratalgia_n_rel" ] ]. queratitis_n1 := n_intr_uncount_le & [ STEM < "queratitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratitis_n_rel" ] ]. queratocentesis_n1 := n_intr_uncount_le & [ STEM < "queratocentesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratocentesis_n_rel" ] ]. queratoconjuntivitis_n1 := n_intr_uncount_le & [ STEM < "queratoconjuntivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoconjuntivitis_n_rel" ] ]. queratoescleritis_n1 := n_intr_uncount_le & [ STEM < "queratoescleritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoescleritis_n_rel" ] ]. queratofaquia_n1 := n_intr_uncount_le & [ STEM < "queratofaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratofaquia_n_rel" ] ]. queratohelcosis_n1 := n_intr_uncount_le & [ STEM < "queratohelcosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratohelcosis_n_rel" ] ]. queratohemia_n1 := n_intr_uncount_le & [ STEM < "queratohemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratohemia_n_rel" ] ]. queratoiridociclitis_n1 := n_intr_uncount_le & [ STEM < "queratoiridociclitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoiridociclitis_n_rel" ] ]. queratoiritis_n1 := n_intr_uncount_le & [ STEM < "queratoiritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoiritis_n_rel" ] ]. queratoleptinsis_n1 := n_intr_uncount_le & [ STEM < "queratoleptinsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoleptinsis_n_rel" ] ]. queratomileusis_n1 := n_intr_uncount_le & [ STEM < "queratomileusis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratomileusis_n_rel" ] ]. queratoplastia_n1 := n_intr_uncount_le & [ STEM < "queratoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoplastia_n_rel" ] ]. queratorrexis_n1 := n_intr_uncount_le & [ STEM < "queratorrexis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratorrexis_n_rel" ] ]. queratoscopia_n1 := n_intr_uncount_le & [ STEM < "queratoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratoscopia_n_rel" ] ]. queratouveítis_n1 := n_intr_uncount_le & [ STEM < "queratouveítis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_queratouveítis_n_rel" ] ]. quiasma_n1 := n_intr_count_le & [ STEM < "quiasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiasma_n_rel" ] ]. quiasmo_n1 := n_intr_count_le & [ STEM < "quiasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiasmo_n_rel" ] ]. quid_n1 := n_intr_uncount_le & [ STEM < "quid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quid_n_rel" ] ]. quiebro_n1 := n_intr_count_le & [ STEM < "quiebro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiebro_n_rel" ] ]. quilodinia_n1 := n_intr_uncount_le & [ STEM < "quilodinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quilodinia_n_rel" ] ]. quimógrafo_n1 := n_intr_count_le & [ STEM < "quimógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimógrafo_n_rel" ] ]. quimiólisis_n1 := n_intr_uncount_le & [ STEM < "quimiólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiólisis_n_rel" ] ]. quimiocinesis_n1 := n_intr_uncount_le & [ STEM < "quimiocinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiocinesis_n_rel" ] ]. quimioquinesis_n1 := n_intr_uncount_le & [ STEM < "quimioquinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimioquinesis_n_rel" ] ]. quimiotaxis_n1 := n_intr_uncount_le & [ STEM < "quimiotaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiotaxis_n_rel" ] ]. quimioterapia_n1 := n_intr_uncount_le & [ STEM < "quimioterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimioterapia_n_rel" ] ]. quimiotipo_n1 := n_intr_uncount_le & [ STEM < "quimiotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiotipo_n_rel" ] ]. quimiósmosis_n1 := n_intr_uncount_le & [ STEM < "quimiósmosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quimiósmosis_n_rel" ] ]. quincalla_n1 := n_intr_uncount_pl_le & [ STEM < "quincalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quincalla_n_rel" ] ]. quinquenio_n1 := n_intr_count_le & [ STEM < "quinquenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quinquenio_n_rel" ] ]. quinteto_n1 := n_intr_count_le & [ STEM < "quinteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quinteto_n_rel" ] ]. quintil_n1 := n_intr_count_le & [ STEM < "quintil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quintil_n_rel" ] ]. quiropodia_n1 := n_intr_uncount_le & [ STEM < "quiropodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiropodia_n_rel" ] ]. quiropráctica_n1 := n_intr_uncount_le & [ STEM < "quiropráctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiropráctica_n_rel" ] ]. quiroscopia_n1 := n_intr_uncount_le & [ STEM < "quiroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quiroscopia_n_rel" ] ]. química_n1 := n_intr_uncount_le & [ STEM < "química" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_química_n_rel" ] ]. quórum_n1 := n_intr_uncount_le & [ STEM < "quórum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_quórum_n_rel" ] ]. raña_n1 := n_intr_count_le & [ STEM < "raña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raña_n_rel" ] ]. rabia_n1 := n_intr_mass_le & [ STEM < "rabia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rabia_n_rel" ] ]. rabieta_n1 := n_intr_count_le & [ STEM < "rabieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rabieta_n_rel" ] ]. rabil_n1 := n_intr_uncount_pl_le & [ STEM < "rabil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rabil_n_rel" ] ]. racha_n1 := n_intr_count_le & [ STEM < "racha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_racha_n_rel" ] ]. raciocinio_n1 := n_intr_mass_le & [ STEM < "raciocinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raciocinio_n_rel" ] ]. radicando_n1 := n_intr_count_le & [ STEM < "radicando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radicando_n_rel" ] ]. radioacústica_n1 := n_intr_uncount_le & [ STEM < "radioacústica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioacústica_n_rel" ] ]. radiobúsqueda_n1 := n_intr_uncount_pl_le & [ STEM < "radiobúsqueda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiobúsqueda_n_rel" ] ]. radiocontrol_n1 := n_intr_uncount_le & [ STEM < "radiocontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiocontrol_n_rel" ] ]. radioenlace_n1 := n_intr_uncount_pl_le & [ STEM < "radioenlace" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioenlace_n_rel" ] ]. radiofórmula_n1 := n_intr_uncount_pl_le & [ STEM < "radiofórmula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiofórmula_n_rel" ] ]. radiograma_n1 := n_intr_count_le & [ STEM < "radiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radiograma_n_rel" ] ]. radioinmunoelectroforesis_n1 := n_intr_uncount_le & [ STEM < "radioinmunoelectroforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioinmunoelectroforesis_n_rel" ] ]. radioinmunoensayo_n1 := n_intr_uncount_pl_le & [ STEM < "radioinmunoensayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioinmunoensayo_n_rel" ] ]. radionecrosis_n1 := n_intr_uncount_le & [ STEM < "radionecrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radionecrosis_n_rel" ] ]. radioquímica_n1 := n_intr_uncount_le & [ STEM < "radioquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioquímica_n_rel" ] ]. radioscopia_n1 := n_intr_uncount_le & [ STEM < "radioscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioscopia_n_rel" ] ]. radioterapia_n1 := n_intr_uncount_le & [ STEM < "radioterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radioterapia_n_rel" ] ]. radix_n1 := n_intr_uncount_le & [ STEM < "radix" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_radix_n_rel" ] ]. raglán_n1 := n_intr_count_le & [ STEM < "raglán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raglán_n_rel" ] ]. raigambre_n1 := n_intr_uncount_pl_le & [ STEM < "raigambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raigambre_n_rel" ] ]. ralea_n1 := n_intr_uncount_pl_le & [ STEM < "ralea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ralea_n_rel" ] ]. ralenti_n1 := n_intr_uncount_le & [ STEM < "ralenti" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ralenti_n_rel" ] ]. ramadán_n1 := n_intr_uncount_le & [ STEM < "ramadán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ramadán_n_rel" ] ]. rambután_n1 := n_intr_uncount_le & [ STEM < "rambután" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rambután_n_rel" ] ]. ranking_n1 := n_intr_count_le & [ STEM < "ranking" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ranking_n_rel" ] ]. rapiña_n1 := n_intr_count_le & [ STEM < "rapiña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapiña_n_rel" ] ]. rappel_n1 := n_intr_uncount_le & [ STEM < "rappel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rappel_n_rel" ] ]. rapsoda_n1 := n_intr_count_le & [ STEM < "rapsoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapsoda_n_rel" ] ]. rapsodia_n1 := n_intr_count_le & [ STEM < "rapsodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapsodia_n_rel" ] ]. rapto_n1 := n_intr_count_le & [ STEM < "rapto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rapto_n_rel" ] ]. rasante_n1 := n_intr_count_le & [ STEM < "rasante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasante_n_rel" ] ]. rasgón_n1 := n_intr_count_le & [ STEM < "rasgón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasgón_n_rel" ] ]. rasgo_n1 := n_intr_count_le & [ STEM < "rasgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasgo_n_rel" ] ]. rasguño_n1 := n_intr_count_le & [ STEM < "rasguño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasguño_n_rel" ] ]. rasilla_n1 := n_intr_uncount_pl_le & [ STEM < "rasilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasilla_n_rel" ] ]. ras_n1 := n_intr_uncount_le & [ STEM < "ras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ras_n_rel" ] ]. rasquete_n1 := n_intr_uncount_pl_le & [ STEM < "rasquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rasquete_n_rel" ] ]. raster_n1 := n_intr_count_le & [ STEM < "raster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raster_n_rel" ] ]. rating_n1 := n_intr_count_le & [ STEM < "rating" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rating_n_rel" ] ]. ratio_n1 := n_intr_count_le & [ STEM < "ratio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ratio_n_rel" ] ]. rayón_n1 := n_intr_count_le & [ STEM < "rayón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rayón_n_rel" ] ]. raza_n1 := n_intr_count_le & [ STEM < "raza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_raza_n_rel" ] ]. razzia_n1 := n_intr_uncount_pl_le & [ STEM < "razzia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_razzia_n_rel" ] ]. órbita_n1 := n_intr_count_le & [ STEM < "órbita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_órbita_n_rel" ] ]. rúbrica_n1 := n_intr_count_le & [ STEM < "rúbrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rúbrica_n_rel" ] ]. récord_n1 := n_intr_count_le & [ STEM < "récord" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_récord_n_rel" ] ]. órdago_n1 := n_intr_count_le & [ STEM < "órdago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_órdago_n_rel" ] ]. rédito_n1 := n_intr_uncount_pl_le & [ STEM < "rédito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rédito_n_rel" ] ]. RDSI_n1 := n_intr_uncount_le & [ STEM < "RDSI" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_RDSI_n_rel" ] ]. rearranque_n1 := n_intr_count_le & [ STEM < "rearranque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rearranque_n_rel" ] ]. reaseguro_n1 := n_intr_count_le & [ STEM < "reaseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reaseguro_n_rel" ] ]. rebase_n1 := n_intr_count_le & [ STEM < "rebase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rebase_n_rel" ] ]. rebose_n1 := n_intr_count_le & [ STEM < "rebose" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rebose_n_rel" ] ]. recalentón_n1 := n_intr_count_le & [ STEM < "recalentón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recalentón_n_rel" ] ]. recargo_n1 := n_intr_count_le & [ STEM < "recargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recargo_n_rel" ] ]. recelo_n1 := n_intr_mass_le & [ STEM < "recelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recelo_n_rel" ] ]. receso_n1 := n_intr_count_le & [ STEM < "receso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_receso_n_rel" ] ]. recidiva_n1 := n_intr_count_le & [ STEM < "recidiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recidiva_n_rel" ] ]. recitativo_n1 := n_intr_count_le & [ STEM < "recitativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recitativo_n_rel" ] ]. recálculo_n1 := n_intr_count_le & [ STEM < "recálculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recálculo_n_rel" ] ]. recodo_n1 := n_intr_count_le & [ STEM < "recodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recodo_n_rel" ] ]. recoleto_n1 := n_intr_count_le & [ STEM < "recoleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recoleto_n_rel" ] ]. recompensa_n1 := n_intr_count_le & [ STEM < "recompensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recompensa_n_rel" ] ]. recordatorio_n1 := n_intr_count_le & [ STEM < "recordatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recordatorio_n_rel" ] ]. recíproco_n1 := n_intr_count_le & [ STEM < "recíproco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recíproco_n_rel" ] ]. recuadro_n1 := n_intr_count_le & [ STEM < "recuadro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recuadro_n_rel" ] ]. recuerdo_n1 := n_intr_count_le & [ STEM < "recuerdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_recuerdo_n_rel" ] ]. redescuento_n1 := n_intr_count_le & [ STEM < "redescuento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_redescuento_n_rel" ] ]. redonda_n1 := n_intr_count_le & [ STEM < "redonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_redonda_n_rel" ] ]. redondel_n1 := n_intr_count_le & [ STEM < "redondel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_redondel_n_rel" ] ]. reducto_n1 := n_intr_count_le & [ STEM < "reducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reducto_n_rel" ] ]. reembargo_n1 := n_intr_count_le & [ STEM < "reembargo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reembargo_n_rel" ] ]. reempeño_n1 := n_intr_uncount_le & [ STEM < "reempeño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reempeño_n_rel" ] ]. reensayo_n1 := n_intr_count_le & [ STEM < "reensayo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reensayo_n_rel" ] ]. reequilibrio_n1 := n_intr_uncount_le & [ STEM < "reequilibrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reequilibrio_n_rel" ] ]. reexamen_n1 := n_intr_count_le & [ STEM < "reexamen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reexamen_n_rel" ] ]. referendo_n1 := n_intr_count_le & [ STEM < "referendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_referendo_n_rel" ] ]. reflujo_n1 := n_intr_mass-or-count_le & [ STEM < "reflujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reflujo_n_rel" ] ]. refrendo_n1 := n_intr_count_le & [ STEM < "refrendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_refrendo_n_rel" ] ]. refriega_n1 := n_intr_count_le & [ STEM < "refriega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_refriega_n_rel" ] ]. regaño_n1 := n_intr_count_le & [ STEM < "regaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regaño_n_rel" ] ]. regicidio_n1 := n_intr_count_le & [ STEM < "regicidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regicidio_n_rel" ] ]. regocijo_n1 := n_intr_uncount_le & [ STEM < "regocijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regocijo_n_rel" ] ]. regusto_n1 := n_intr_uncount_le & [ STEM < "regusto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_regusto_n_rel" ] ]. reintento_n1 := n_intr_count_le & [ STEM < "reintento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reintento_n_rel" ] ]. reinvento_n1 := n_intr_count_le & [ STEM < "reinvento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reinvento_n_rel" ] ]. reivindicatoria_n1 := n_intr_count_le & [ STEM < "reivindicatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reivindicatoria_n_rel" ] ]. relax_n1 := n_intr_mass_le & [ STEM < "relax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relax_n_rel" ] ]. relicario_n1 := n_intr_count_le & [ STEM < "relicario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_relicario_n_rel" ] ]. rellano_n1 := n_intr_count_le & [ STEM < "rellano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rellano_n_rel" ] ]. remake_n1 := n_intr_count_le & [ STEM < "remake" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remake_n_rel" ] ]. rema_n1 := n_intr_count_le & [ STEM < "rema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rema_n_rel" ] ]. remanente_n1 := n_intr_count_le & [ STEM < "remanente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remanente_n_rel" ] ]. remanso_n1 := n_intr_count_le & [ STEM < "remanso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remanso_n_rel" ] ]. remedio_n1 := n_intr_count_le & [ STEM < "remedio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remedio_n_rel" ] ]. remilgo_n1 := n_intr_uncount_le & [ STEM < "remilgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remilgo_n_rel" ] ]. remisoria_n1 := n_intr_count_le & [ STEM < "remisoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remisoria_n_rel" ] ]. remojo_n1 := n_intr_uncount_le & [ STEM < "remojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remojo_n_rel" ] ]. remolino_n1 := n_intr_count_le & [ STEM < "remolino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_remolino_n_rel" ] ]. rencilla_n1 := n_intr_uncount_pl_le & [ STEM < "rencilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rencilla_n_rel" ] ]. renglón_n1 := n_intr_count_le & [ STEM < "renglón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_renglón_n_rel" ] ]. renombre_n1 := n_intr_uncount_le & [ STEM < "renombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_renombre_n_rel" ] ]. renta_n1 := n_intr_count_le & [ STEM < "renta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_renta_n_rel" ] ]. renting_n1 := n_intr_uncount_le & [ STEM < "renting" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_renting_n_rel" ] ]. reopexia_n1 := n_intr_uncount_le & [ STEM < "reopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reopexia_n_rel" ] ]. reparo_n1 := n_intr_mass-or-count_le & [ STEM < "reparo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reparo_n_rel" ] ]. reposacabezas_n1 := n_intr_count_le & [ STEM < "reposacabezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reposacabezas_n_rel" ] ]. represalia_n1 := n_intr_count_le & [ STEM < "represalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_represalia_n_rel" ] ]. reprimenda_n1 := n_intr_count_le & [ STEM < "reprimenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reprimenda_n_rel" ] ]. reprise_n1 := n_intr_count_le & [ STEM < "reprise" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reprise_n_rel" ] ]. reprís_n1 := n_intr_uncount_le & [ STEM < "reprís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reprís_n_rel" ] ]. requisa_n1 := n_intr_count_le & [ STEM < "requisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requisa_n_rel" ] ]. requisito_n1 := n_intr_count_le & [ STEM < "requisito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requisito_n_rel" ] ]. requisitoria_n1 := n_intr_count_le & [ STEM < "requisitoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requisitoria_n_rel" ] ]. requisitorio_n1 := n_intr_count_le & [ STEM < "requisitorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_requisitorio_n_rel" ] ]. resabio_n1 := n_intr_uncount_pl_le & [ STEM < "resabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resabio_n_rel" ] ]. resaca_n1 := n_intr_mass-or-count_le & [ STEM < "resaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resaca_n_rel" ] ]. resbalón_n1 := n_intr_count_le & [ STEM < "resbalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resbalón_n_rel" ] ]. rescripto_n1 := n_intr_count_le & [ STEM < "rescripto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rescripto_n_rel" ] ]. reseña_n1 := n_intr_count_le & [ STEM < "reseña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reseña_n_rel" ] ]. reservorio_n1 := n_intr_count_le & [ STEM < "reservorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reservorio_n_rel" ] ]. resma_n1 := n_intr_count_le & [ STEM < "resma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resma_n_rel" ] ]. reísmo_n1 := n_intr_uncount_le & [ STEM < "reísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reísmo_n_rel" ] ]. respeto_n1 := n_intr_mass_le & [ STEM < "respeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_respeto_n_rel" ] ]. responsorio_n1 := n_intr_count_le & [ STEM < "responsorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_responsorio_n_rel" ] ]. respuesta_n1 := n_intr_count_le & [ STEM < "respuesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_respuesta_n_rel" ] ]. resquicio_n1 := n_intr_count_le & [ STEM < "resquicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resquicio_n_rel" ] ]. resta_n1 := n_intr_count_le & [ STEM < "resta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resta_n_rel" ] ]. restitopo_n1 := n_intr_uncount_le & [ STEM < "restitopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_restitopo_n_rel" ] ]. resuello_n1 := n_intr_uncount_pl_le & [ STEM < "resuello" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resuello_n_rel" ] ]. resultando_n1 := n_intr_count_le & [ STEM < "resultando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resultando_n_rel" ] ]. resultante_n1 := n_intr_count_le & [ STEM < "resultante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_resultante_n_rel" ] ]. retahila_n1 := n_intr_uncount_pl_le & [ STEM < "retahila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retahila_n_rel" ] ]. retahíla_n1 := n_intr_uncount_pl_le & [ STEM < "retahíla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retahíla_n_rel" ] ]. retardante_n1 := n_intr_count_le & [ STEM < "retardante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retardante_n_rel" ] ]. retardo_n1 := n_intr_mass-or-count_le & [ STEM < "retardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retardo_n_rel" ] ]. retentiva_n1 := n_intr_count_le & [ STEM < "retentiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retentiva_n_rel" ] ]. reticulocitocitosis_n1 := n_intr_uncount_le & [ STEM < "reticulocitocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reticulocitocitosis_n_rel" ] ]. reticulocitopenia_n1 := n_intr_uncount_le & [ STEM < "reticulocitopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reticulocitopenia_n_rel" ] ]. reticuloendoteliosis_n1 := n_intr_uncount_le & [ STEM < "reticuloendoteliosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reticuloendoteliosis_n_rel" ] ]. reticulosis_n1 := n_intr_uncount_le & [ STEM < "reticulosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reticulosis_n_rel" ] ]. retinitis_n1 := n_intr_uncount_le & [ STEM < "retinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinitis_n_rel" ] ]. retinocoroiditis_n1 := n_intr_uncount_le & [ STEM < "retinocoroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinocoroiditis_n_rel" ] ]. retinodiálisis_n1 := n_intr_uncount_le & [ STEM < "retinodiálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinodiálisis_n_rel" ] ]. retinopapilitis_n1 := n_intr_uncount_le & [ STEM < "retinopapilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinopapilitis_n_rel" ] ]. retinoscopia_n1 := n_intr_count_le & [ STEM < "retinoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retinoscopia_n_rel" ] ]. retomedo_n1 := n_intr_uncount_le & [ STEM < "retomedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retomedo_n_rel" ] ]. reto_n1 := n_intr_count_le & [ STEM < "reto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reto_n_rel" ] ]. retortijón_n1 := n_intr_uncount_pl_le & [ STEM < "retortijón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retortijón_n_rel" ] ]. retórica_n1 := n_intr_uncount_le & [ STEM < "retórica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retórica_n_rel" ] ]. retrogenia_n1 := n_intr_uncount_le & [ STEM < "retrogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retrogenia_n_rel" ] ]. retrospectiva_n1 := n_intr_uncount_le & [ STEM < "retrospectiva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retrospectiva_n_rel" ] ]. retroventa_n1 := n_intr_count_le & [ STEM < "retroventa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_retroventa_n_rel" ] ]. reuma_n1 := n_intr_uncount_le & [ STEM < "reuma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reuma_n_rel" ] ]. revancha_n1 := n_intr_count_le & [ STEM < "revancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revancha_n_rel" ] ]. reventón_n1 := n_intr_count_le & [ STEM < "reventón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reventón_n_rel" ] ]. reverso_n1 := n_intr_count_le & [ STEM < "reverso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reverso_n_rel" ] ]. reválida_n1 := n_intr_count_le & [ STEM < "reválida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_reválida_n_rel" ] ]. revolcón_n1 := n_intr_count_le & [ STEM < "revolcón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revolcón_n_rel" ] ]. revoltijo_n1 := n_intr_count_le & [ STEM < "revoltijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revoltijo_n_rel" ] ]. revoltillo_n1 := n_intr_count_le & [ STEM < "revoltillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revoltillo_n_rel" ] ]. revolving_n1 := n_intr_uncount_le & [ STEM < "revolving" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revolving_n_rel" ] ]. revuelo_n1 := n_intr_mass-or-count_le & [ STEM < "revuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_revuelo_n_rel" ] ]. rexistasia_n1 := n_intr_uncount_le & [ STEM < "rexistasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rexistasia_n_rel" ] ]. ráfaga_n1 := n_intr_count_le & [ STEM < "ráfaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ráfaga_n_rel" ] ]. RFC_n1 := n_intr_uncount_le & [ STEM < "RFC" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_RFC_n_rel" ] ]. rhesus_n1 := n_intr_uncount_le & [ STEM < "rhesus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rhesus_n_rel" ] ]. rhodoid_n1 := n_intr_uncount_le & [ STEM < "rhodoid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rhodoid_n_rel" ] ]. rho_n1 := n_intr_uncount_le & [ STEM < "rho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rho_n_rel" ] ]. riña_n1 := n_intr_count_le & [ STEM < "riña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_riña_n_rel" ] ]. rictus_n1 := n_intr_uncount_le & [ STEM < "rictus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rictus_n_rel" ] ]. ridículo_n1 := n_intr_uncount_le & [ STEM < "ridículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ridículo_n_rel" ] ]. riesgo_n1 := n_intr_count_le & [ STEM < "riesgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_riesgo_n_rel" ] ]. rifa_n1 := n_intr_count_le & [ STEM < "rifa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rifa_n_rel" ] ]. rifirrafe_n1 := n_intr_count_le & [ STEM < "rifirrafe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rifirrafe_n_rel" ] ]. rima_n1 := n_intr_count_le & [ STEM < "rima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rima_n_rel" ] ]. rinitis_n1 := n_intr_uncount_le & [ STEM < "rinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinitis_n_rel" ] ]. rinofaringitis_n1 := n_intr_uncount_le & [ STEM < "rinofaringitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinofaringitis_n_rel" ] ]. rinofaringoscopia_n1 := n_intr_count_le & [ STEM < "rinofaringoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinofaringoscopia_n_rel" ] ]. rinolalia_n1 := n_intr_uncount_le & [ STEM < "rinolalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinolalia_n_rel" ] ]. rinoplastia_n1 := n_intr_uncount_le & [ STEM < "rinoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinoplastia_n_rel" ] ]. rinorrea_n1 := n_intr_uncount_le & [ STEM < "rinorrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinorrea_n_rel" ] ]. rinoscopia_n1 := n_intr_count_le & [ STEM < "rinoscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinoscopia_n_rel" ] ]. rinosporidiosis_n1 := n_intr_uncount_le & [ STEM < "rinosporidiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rinosporidiosis_n_rel" ] ]. risita_n1 := n_intr_count_le & [ STEM < "risita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_risita_n_rel" ] ]. ristra_n1 := n_intr_count_le & [ STEM < "ristra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ristra_n_rel" ] ]. ristre_n1 := n_intr_count_le & [ STEM < "ristre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ristre_n_rel" ] ]. ritardando_n1 := n_intr_count_le & [ STEM < "ritardando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ritardando_n_rel" ] ]. ritmo_n1 := n_intr_mass-or-count_le & [ STEM < "ritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ritmo_n_rel" ] ]. rito_n1 := n_intr_count_le & [ STEM < "rito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rito_n_rel" ] ]. rizólisis_n1 := n_intr_uncount_le & [ STEM < "rizólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rizólisis_n_rel" ] ]. ránking_n1 := n_intr_count_le & [ STEM < "ránking" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ránking_n_rel" ] ]. ránula_n1 := n_intr_count_le & [ STEM < "ránula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ránula_n_rel" ] ]. roña_n1 := n_intr_mass_le & [ STEM < "roña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_roña_n_rel" ] ]. robótica_n1 := n_intr_uncount_le & [ STEM < "robótica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_robótica_n_rel" ] ]. rockabilly_n1 := n_intr_uncount_le & [ STEM < "rockabilly" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rockabilly_n_rel" ] ]. rock_n1 := n_intr_uncount_le & [ STEM < "rock" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rock_n_rel" ] ]. rococó_n1 := n_intr_uncount_le & [ STEM < "rococó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rococó_n_rel" ] ]. rodicita_n1 := n_intr_uncount_le & [ STEM < "rodicita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodicita_n_rel" ] ]. rodolita_n1 := n_intr_uncount_le & [ STEM < "rodolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rodolita_n_rel" ] ]. rogativa_n1 := n_intr_count_le & [ STEM < "rogativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rogativa_n_rel" ] ]. rol_n1 := n_intr_uncount_le & [ STEM < "rol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rol_n_rel" ] ]. romántico_n1 := n_intr_count_le & [ STEM < "romántico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_romántico_n_rel" ] ]. rompecabezas_n1 := n_intr_count_le & [ STEM < "rompecabezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rompecabezas_n_rel" ] ]. rompiente_n1 := n_intr_count_le & [ STEM < "rompiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rompiente_n_rel" ] ]. ronda_n1 := n_intr_count_le & [ STEM < "ronda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ronda_n_rel" ] ]. rondó_n1 := n_intr_uncount_le & [ STEM < "rondó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rondó_n_rel" ] ]. royalty_n1 := n_intr_uncount_le & [ STEM < "royalty" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_royalty_n_rel" ] ]. rozón_n1 := n_intr_count_le & [ STEM < "rozón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rozón_n_rel" ] ]. rápel_n1 := n_intr_uncount_le & [ STEM < "rápel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rápel_n_rel" ] ]. réquiem_n1 := n_intr_count_le & [ STEM < "réquiem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_réquiem_n_rel" ] ]. rítmica_n1 := n_intr_uncount_le & [ STEM < "rítmica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rítmica_n_rel" ] ]. rubeola_n1 := n_intr_uncount_le & [ STEM < "rubeola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rubeola_n_rel" ] ]. rubeosis_n1 := n_intr_uncount_le & [ STEM < "rubeosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rubeosis_n_rel" ] ]. rubéola_n1 := n_intr_uncount_le & [ STEM < "rubéola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rubéola_n_rel" ] ]. rugby_n1 := n_intr_uncount_le & [ STEM < "rugby" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rugby_n_rel" ] ]. rumba_n1 := n_intr_count_le & [ STEM < "rumba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rumba_n_rel" ] ]. rumbo_n1 := n_intr_count_le & [ STEM < "rumbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rumbo_n_rel" ] ]. rutina_n1 := n_intr_count_le & [ STEM < "rutina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_rutina_n_rel" ] ]. saña_n1 := n_intr_mass_le & [ STEM < "saña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saña_n_rel" ] ]. saber_n1 := n_intr_mass-or-count_le & [ STEM < "saber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saber_n_rel" ] ]. sacarosa_n1 := n_intr_mass_le & [ STEM < "sacarosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacarosa_n_rel" ] ]. sacerdocio_n1 := n_intr_count_le & [ STEM < "sacerdocio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacerdocio_n_rel" ] ]. sacrificio_n1 := n_intr_mass-or-count_le & [ STEM < "sacrificio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacrificio_n_rel" ] ]. sacrilegio_n1 := n_intr_count_le & [ STEM < "sacrilegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sacrilegio_n_rel" ] ]. saga_n1 := n_intr_count_le & [ STEM < "saga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saga_n_rel" ] ]. salario_n1 := n_intr_count_le & [ STEM < "salario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salario_n_rel" ] ]. saldo_n1 := n_intr_mass-or-count_le & [ STEM < "saldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saldo_n_rel" ] ]. saledizo_n1 := n_intr_count_le & [ STEM < "saledizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saledizo_n_rel" ] ]. salema_n1 := n_intr_count_le & [ STEM < "salema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salema_n_rel" ] ]. salmodia_n1 := n_intr_uncount_le & [ STEM < "salmodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salmodia_n_rel" ] ]. salmonela_n1 := n_intr_uncount_le & [ STEM < "salmonela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salmonela_n_rel" ] ]. saloma_n1 := n_intr_uncount_pl_le & [ STEM < "saloma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saloma_n_rel" ] ]. salpingitis_n1 := n_intr_uncount_le & [ STEM < "salpingitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salpingitis_n_rel" ] ]. saltillo_n1 := n_intr_count_le & [ STEM < "saltillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saltillo_n_rel" ] ]. saltus_n1 := n_intr_uncount_le & [ STEM < "saltus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saltus_n_rel" ] ]. salud_n1 := n_intr_mass_le & [ STEM < "salud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salud_n_rel" ] ]. salvaguarda_n1 := n_intr_count_le & [ STEM < "salvaguarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salvaguarda_n_rel" ] ]. salvaguardia_n1 := n_intr_count_le & [ STEM < "salvaguardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salvaguardia_n_rel" ] ]. salva_n1 := n_intr_count_le & [ STEM < "salva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_salva_n_rel" ] ]. samba_n1 := n_intr_count_le & [ STEM < "samba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_samba_n_rel" ] ]. sanpedro_n1 := n_intr_uncount_pl_le & [ STEM < "sanpedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sanpedro_n_rel" ] ]. sarcasmo_n1 := n_intr_mass_le & [ STEM < "sarcasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarcasmo_n_rel" ] ]. sarcoidosis_n1 := n_intr_uncount_le & [ STEM < "sarcoidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarcoidosis_n_rel" ] ]. sardana_n1 := n_intr_count_le & [ STEM < "sardana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sardana_n_rel" ] ]. sarna_n1 := n_intr_mass_le & [ STEM < "sarna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarna_n_rel" ] ]. sarta_n1 := n_intr_count_le & [ STEM < "sarta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sarta_n_rel" ] ]. saxo_n1 := n_intr_count_le & [ STEM < "saxo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_saxo_n_rel" ] ]. scoring_n1 := n_intr_uncount_pl_le & [ STEM < "scoring" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_scoring_n_rel" ] ]. scull_n1 := n_intr_uncount_pl_le & [ STEM < "scull" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_scull_n_rel" ] ]. seborrea_n1 := n_intr_uncount_le & [ STEM < "seborrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seborrea_n_rel" ] ]. secano_n1 := n_intr_uncount_pl_le & [ STEM < "secano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secano_n_rel" ] ]. secante_n1 := n_intr_count_le & [ STEM < "secante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secante_n_rel" ] ]. secreto_n1 := n_intr_count_le & [ STEM < "secreto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secreto_n_rel" ] ]. secuela_n1 := n_intr_count_le & [ STEM < "secuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_secuela_n_rel" ] ]. sed_n1 := n_intr_mass_le & [ STEM < "sed" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sed_n_rel" ] ]. seguidilla_n1 := n_intr_count_le & [ STEM < "seguidilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seguidilla_n_rel" ] ]. selenita_n1 := n_intr_uncount_le & [ STEM < "selenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_selenita_n_rel" ] ]. semblante_n1 := n_intr_count_le & [ STEM < "semblante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semblante_n_rel" ] ]. semema_n1 := n_intr_count_le & [ STEM < "semema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semema_n_rel" ] ]. semicariótipo_n1 := n_intr_uncount_le & [ STEM < "semicariótipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicariótipo_n_rel" ] ]. semiconsonante_n1 := n_intr_count_le & [ STEM < "semiconsonante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiconsonante_n_rel" ] ]. semicorchea_n1 := n_intr_count_le & [ STEM < "semicorchea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicorchea_n_rel" ] ]. semicírculo_n1 := n_intr_count_le & [ STEM < "semicírculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semicírculo_n_rel" ] ]. semidúplex_n1 := n_intr_count_le & [ STEM < "semidúplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semidúplex_n_rel" ] ]. semielectrónica_n1 := n_intr_uncount_le & [ STEM < "semielectrónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semielectrónica_n_rel" ] ]. semiespacio_n1 := n_intr_count_le & [ STEM < "semiespacio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiespacio_n_rel" ] ]. semifalta_n1 := n_intr_count_le & [ STEM < "semifalta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semifalta_n_rel" ] ]. semigancho_n1 := n_intr_count_le & [ STEM < "semigancho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semigancho_n_rel" ] ]. semimódulo_n1 := n_intr_count_le & [ STEM < "semimódulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semimódulo_n_rel" ] ]. semiángulo_n1 := n_intr_count_le & [ STEM < "semiángulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiángulo_n_rel" ] ]. seminorma_n1 := n_intr_count_le & [ STEM < "seminorma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seminorma_n_rel" ] ]. semiperímetro_n1 := n_intr_count_le & [ STEM < "semiperímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiperímetro_n_rel" ] ]. semiperíodo_n1 := n_intr_count_le & [ STEM < "semiperíodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiperíodo_n_rel" ] ]. semiplano_n1 := n_intr_count_le & [ STEM < "semiplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiplano_n_rel" ] ]. semiquiasma_n1 := n_intr_uncount_le & [ STEM < "semiquiasma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiquiasma_n_rel" ] ]. semirrecta_n1 := n_intr_count_le & [ STEM < "semirrecta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semirrecta_n_rel" ] ]. semis_n1 := n_intr_count_le & [ STEM < "semis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semis_n_rel" ] ]. semisíntesis_n1 := n_intr_count_le & [ STEM < "semisíntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semisíntesis_n_rel" ] ]. semiótica_n1 := n_intr_uncount_le & [ STEM < "semiótica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semiótica_n_rel" ] ]. semitono_n1 := n_intr_count_le & [ STEM < "semitono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semitono_n_rel" ] ]. semántica_n1 := n_intr_uncount_le & [ STEM < "semántica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_semántica_n_rel" ] ]. separatriz_n1 := n_intr_count_le & [ STEM < "separatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_separatriz_n_rel" ] ]. sepelio_n1 := n_intr_count_le & [ STEM < "sepelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sepelio_n_rel" ] ]. sepsis_n1 := n_intr_uncount_le & [ STEM < "sepsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sepsis_n_rel" ] ]. septeto_n1 := n_intr_count_le & [ STEM < "septeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_septeto_n_rel" ] ]. septo_n1 := n_intr_count_le & [ STEM < "septo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_septo_n_rel" ] ]. septoplastia_n1 := n_intr_count_le & [ STEM < "septoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_septoplastia_n_rel" ] ]. serenata_n1 := n_intr_count_le & [ STEM < "serenata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serenata_n_rel" ] ]. serocultivo_n1 := n_intr_uncount_pl_le & [ STEM < "serocultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serocultivo_n_rel" ] ]. seroterapia_n1 := n_intr_uncount_le & [ STEM < "seroterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seroterapia_n_rel" ] ]. serotipo_n1 := n_intr_count_le & [ STEM < "serotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_serotipo_n_rel" ] ]. sesgo_n1 := n_intr_count_le & [ STEM < "sesgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sesgo_n_rel" ] ]. seísmo_n1 := n_intr_uncount_le & [ STEM < "seísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seísmo_n_rel" ] ]. sesquidiploidia_n1 := n_intr_uncount_le & [ STEM < "sesquidiploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sesquidiploidia_n_rel" ] ]. set_n1 := n_intr_count_le & [ STEM < "set" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_set_n_rel" ] ]. seudorretinitis_n1 := n_intr_uncount_le & [ STEM < "seudorretinitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_seudorretinitis_n_rel" ] ]. sexteto_n1 := n_intr_count_le & [ STEM < "sexteto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sexteto_n_rel" ] ]. sífilis_n1 := n_intr_uncount_le & [ STEM < "sífilis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sífilis_n_rel" ] ]. shock_n1 := n_intr_count_le & [ STEM < "shock" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_shock_n_rel" ] ]. sialectasis_n1 := n_intr_uncount_le & [ STEM < "sialectasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialectasis_n_rel" ] ]. sialitis_n1 := n_intr_uncount_le & [ STEM < "sialitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialitis_n_rel" ] ]. sialoadenitis_n1 := n_intr_uncount_le & [ STEM < "sialoadenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialoadenitis_n_rel" ] ]. sialoaerofagia_n1 := n_intr_uncount_le & [ STEM < "sialoaerofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialoaerofagia_n_rel" ] ]. sialodocoplastia_n1 := n_intr_count_le & [ STEM < "sialodocoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialodocoplastia_n_rel" ] ]. sialodoquitis_n1 := n_intr_uncount_le & [ STEM < "sialodoquitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialodoquitis_n_rel" ] ]. sialoestenosis_n1 := n_intr_uncount_le & [ STEM < "sialoestenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialoestenosis_n_rel" ] ]. sialolitiasis_n1 := n_intr_uncount_le & [ STEM < "sialolitiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialolitiasis_n_rel" ] ]. sialometaplasia_n1 := n_intr_uncount_le & [ STEM < "sialometaplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialometaplasia_n_rel" ] ]. sialongitis_n1 := n_intr_uncount_le & [ STEM < "sialongitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialongitis_n_rel" ] ]. sialosis_n1 := n_intr_uncount_le & [ STEM < "sialosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialosis_n_rel" ] ]. sialostenosis_n1 := n_intr_uncount_le & [ STEM < "sialostenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sialostenosis_n_rel" ] ]. sicigia_n1 := n_intr_uncount_pl_le & [ STEM < "sicigia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sicigia_n_rel" ] ]. sida_n1 := n_intr_uncount_le & [ STEM < "sida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sida_n_rel" ] ]. sideremia_n1 := n_intr_uncount_le & [ STEM < "sideremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sideremia_n_rel" ] ]. sideropenia_n1 := n_intr_uncount_le & [ STEM < "sideropenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sideropenia_n_rel" ] ]. siderosis_n1 := n_intr_uncount_le & [ STEM < "siderosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siderosis_n_rel" ] ]. siderurgia_n1 := n_intr_count_le & [ STEM < "siderurgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siderurgia_n_rel" ] ]. side-spin_n1 := n_intr_uncount_le & [ STEM < "side-spin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_side-spin_n_rel" ] ]. sierosem_n1 := n_intr_uncount_le & [ STEM < "sierosem" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sierosem_n_rel" ] ]. siesta_n1 := n_intr_mass-or-count_le & [ STEM < "siesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siesta_n_rel" ] ]. sigilo_n1 := n_intr_mass_le & [ STEM < "sigilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sigilo_n_rel" ] ]. sigma_n1 := n_intr_count_le & [ STEM < "sigma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sigma_n_rel" ] ]. significante_n1 := n_intr_count_le & [ STEM < "significante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_significante_n_rel" ] ]. silencio_n1 := n_intr_mass-or-count_le & [ STEM < "silencio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silencio_n_rel" ] ]. silepsis_n1 := n_intr_uncount_le & [ STEM < "silepsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silepsis_n_rel" ] ]. silicosis_n1 := n_intr_uncount_le & [ STEM < "silicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silicosis_n_rel" ] ]. silogística_n1 := n_intr_uncount_le & [ STEM < "silogística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_silogística_n_rel" ] ]. simbiosis_n1 := n_intr_count_le & [ STEM < "simbiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simbiosis_n_rel" ] ]. simpléctica_n1 := n_intr_uncount_le & [ STEM < "simpléctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simpléctica_n_rel" ] ]. simposio_n1 := n_intr_count_le & [ STEM < "simposio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simposio_n_rel" ] ]. simulacro_n1 := n_intr_count_le & [ STEM < "simulacro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_simulacro_n_rel" ] ]. sinalefa_n1 := n_intr_count_le & [ STEM < "sinalefa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinalefa_n_rel" ] ]. sinalgia_n1 := n_intr_uncount_le & [ STEM < "sinalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinalgia_n_rel" ] ]. sinapsis_n1 := n_intr_count_le & [ STEM < "sinapsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinapsis_n_rel" ] ]. sinartrosis_n1 := n_intr_uncount_le & [ STEM < "sinartrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinartrosis_n_rel" ] ]. sinécdoque_n1 := n_intr_count_le & [ STEM < "sinécdoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinécdoque_n_rel" ] ]. sincondrosis_n1 := n_intr_uncount_le & [ STEM < "sincondrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincondrosis_n_rel" ] ]. sincroflash_n1 := n_intr_uncount_le & [ STEM < "sincroflash" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sincroflash_n_rel" ] ]. sinéctica_n1 := n_intr_uncount_le & [ STEM < "sinéctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinéctica_n_rel" ] ]. sindesmosis_n1 := n_intr_uncount_le & [ STEM < "sindesmosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sindesmosis_n_rel" ] ]. sinequia_n1 := n_intr_uncount_le & [ STEM < "sinequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinequia_n_rel" ] ]. sinergia_n1 := n_intr_uncount_le & [ STEM < "sinergia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinergia_n_rel" ] ]. sinestesia_n1 := n_intr_uncount_le & [ STEM < "sinestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinestesia_n_rel" ] ]. sinfín_n1 := n_intr_uncount_pl_le & [ STEM < "sinfín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinfín_n_rel" ] ]. siniestro_n1 := n_intr_count_le & [ STEM < "siniestro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siniestro_n_rel" ] ]. sinónimo_n1 := n_intr_count_le & [ STEM < "sinónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinónimo_n_rel" ] ]. sinonimia_n1 := n_intr_uncount_le & [ STEM < "sinonimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinonimia_n_rel" ] ]. sinople_n1 := n_intr_uncount_pl_le & [ STEM < "sinople" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinople_n_rel" ] ]. sinostosis_n1 := n_intr_uncount_le & [ STEM < "sinostosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinostosis_n_rel" ] ]. sinrazón_n1 := n_intr_count_le & [ STEM < "sinrazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinrazón_n_rel" ] ]. sinéresis_n1 := n_intr_uncount_le & [ STEM < "sinéresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinéresis_n_rel" ] ]. sintagma_n1 := n_intr_count_le & [ STEM < "sintagma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintagma_n_rel" ] ]. sintaxis_n1 := n_intr_uncount_le & [ STEM < "sintaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintaxis_n_rel" ] ]. sintoísmo_n1 := n_intr_count_le & [ STEM < "sintoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sintoísmo_n_rel" ] ]. sinusia_n1 := n_intr_uncount_le & [ STEM < "sinusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinusia_n_rel" ] ]. sinusitis_n1 := n_intr_uncount_le & [ STEM < "sinusitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinusitis_n_rel" ] ]. sinusoide_n1 := n_intr_count_le & [ STEM < "sinusoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sinusoide_n_rel" ] ]. siroco_n1 := n_intr_uncount_pl_le & [ STEM < "siroco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_siroco_n_rel" ] ]. sirventés_n1 := n_intr_uncount_le & [ STEM < "sirventés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sirventés_n_rel" ] ]. sismograma_n1 := n_intr_count_le & [ STEM < "sismograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sismograma_n_rel" ] ]. sistemática_n1 := n_intr_uncount_le & [ STEM < "sistemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sistemática_n_rel" ] ]. sizigia_n1 := n_intr_uncount_le & [ STEM < "sizigia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sizigia_n_rel" ] ]. ski-biscuit_n1 := n_intr_uncount_le & [ STEM < "ski-biscuit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ski-biscuit_n_rel" ] ]. sílaba_n1 := n_intr_count_le & [ STEM < "sílaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sílaba_n_rel" ] ]. slap-shot_n1 := n_intr_uncount_pl_le & [ STEM < "slap-shot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_slap-shot_n_rel" ] ]. slálom_n1 := n_intr_count_le & [ STEM < "slálom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_slálom_n_rel" ] ]. sloop_n1 := n_intr_count_le & [ STEM < "sloop" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sloop_n_rel" ] ]. símil_n1 := n_intr_count_le & [ STEM < "símil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_símil_n_rel" ] ]. ósmosis_n1 := n_intr_uncount_le & [ STEM < "ósmosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ósmosis_n_rel" ] ]. símplex_n1 := n_intr_uncount_le & [ STEM < "símplex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_símplex_n_rel" ] ]. símplice_n1 := n_intr_uncount_pl_le & [ STEM < "símplice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_símplice_n_rel" ] ]. síncopa_n1 := n_intr_count_le & [ STEM < "síncopa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_síncopa_n_rel" ] ]. síncope_n1 := n_intr_count_le & [ STEM < "síncope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_síncope_n_rel" ] ]. síndrome_n1 := n_intr_count_le & [ STEM < "síndrome" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_síndrome_n_rel" ] ]. sínfisis_n1 := n_intr_uncount_le & [ STEM < "sínfisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sínfisis_n_rel" ] ]. sínodo_n1 := n_intr_count_le & [ STEM < "sínodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sínodo_n_rel" ] ]. snowboard_n1 := n_intr_uncount_le & [ STEM < "snowboard" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_snowboard_n_rel" ] ]. sánscrito_n1 := n_intr_uncount_le & [ STEM < "sánscrito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sánscrito_n_rel" ] ]. síntoma_n1 := n_intr_count_le & [ STEM < "síntoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_síntoma_n_rel" ] ]. soberbia_n1 := n_intr_mass_le & [ STEM < "soberbia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soberbia_n_rel" ] ]. sobrealcance_n1 := n_intr_uncount_le & [ STEM < "sobrealcance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrealcance_n_rel" ] ]. sobreancho_n1 := n_intr_count_le & [ STEM < "sobreancho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreancho_n_rel" ] ]. sobrecarga_n1 := n_intr_count_le & [ STEM < "sobrecarga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrecarga_n_rel" ] ]. sobrecorriente_n1 := n_intr_uncount_pl_le & [ STEM < "sobrecorriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrecorriente_n_rel" ] ]. sobreimpuesto_n1 := n_intr_uncount_pl_le & [ STEM < "sobreimpuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreimpuesto_n_rel" ] ]. sobremedida_n1 := n_intr_uncount_pl_le & [ STEM < "sobremedida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobremedida_n_rel" ] ]. sobremesa_n1 := n_intr_count_le & [ STEM < "sobremesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobremesa_n_rel" ] ]. sobrenombre_n1 := n_intr_count_le & [ STEM < "sobrenombre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrenombre_n_rel" ] ]. sobreparto_n1 := n_intr_uncount_pl_le & [ STEM < "sobreparto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreparto_n_rel" ] ]. sobrepeso_n1 := n_intr_mass_le & [ STEM < "sobrepeso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobrepeso_n_rel" ] ]. sobreprima_n1 := n_intr_uncount_pl_le & [ STEM < "sobreprima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreprima_n_rel" ] ]. sobreseguro_n1 := n_intr_uncount_le & [ STEM < "sobreseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobreseguro_n_rel" ] ]. sobretasa_n1 := n_intr_uncount_pl_le & [ STEM < "sobretasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobretasa_n_rel" ] ]. sobretono_n1 := n_intr_count_le & [ STEM < "sobretono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobretono_n_rel" ] ]. sobretítulo_n1 := n_intr_count_le & [ STEM < "sobretítulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sobretítulo_n_rel" ] ]. sociodrama_n1 := n_intr_count_le & [ STEM < "sociodrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociodrama_n_rel" ] ]. sociolingüística_n1 := n_intr_uncount_le & [ STEM < "sociolingüística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sociolingüística_n_rel" ] ]. sofisma_n1 := n_intr_count_le & [ STEM < "sofisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sofisma_n_rel" ] ]. soflama_n1 := n_intr_count_le & [ STEM < "soflama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soflama_n_rel" ] ]. sofística_n1 := n_intr_uncount_le & [ STEM < "sofística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sofística_n_rel" ] ]. softball_n1 := n_intr_uncount_le & [ STEM < "softball" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_softball_n_rel" ] ]. solaz_n1 := n_intr_count_le & [ STEM < "solaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solaz_n_rel" ] ]. soliloquio_n1 := n_intr_count_le & [ STEM < "soliloquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soliloquio_n_rel" ] ]. solitario_n1 := n_intr_count_le & [ STEM < "solitario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solitario_n_rel" ] ]. solla_n1 := n_intr_uncount_pl_le & [ STEM < "solla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solla_n_rel" ] ]. solo_n1 := n_intr_count_le & [ STEM < "solo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_solo_n_rel" ] ]. sonata_n1 := n_intr_count_le & [ STEM < "sonata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sonata_n_rel" ] ]. soneto_n1 := n_intr_count_le & [ STEM < "soneto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_soneto_n_rel" ] ]. son_n1 := n_intr_uncount_le & [ STEM < "son" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_son_n_rel" ] ]. sonsonete_n1 := n_intr_count_le & [ STEM < "sonsonete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sonsonete_n_rel" ] ]. sorbete_n1 := n_intr_count_le & [ STEM < "sorbete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sorbete_n_rel" ] ]. sorites_n1 := n_intr_uncount_le & [ STEM < "sorites" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sorites_n_rel" ] ]. sorna_n1 := n_intr_mass_le & [ STEM < "sorna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sorna_n_rel" ] ]. sorpresa_n1 := n_intr_count_le & [ STEM < "sorpresa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sorpresa_n_rel" ] ]. sortilegio_n1 := n_intr_count_le & [ STEM < "sortilegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sortilegio_n_rel" ] ]. sosiego_n1 := n_intr_mass_le & [ STEM < "sosiego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sosiego_n_rel" ] ]. sotobosque_n1 := n_intr_uncount_pl_le & [ STEM < "sotobosque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sotobosque_n_rel" ] ]. spagat_n1 := n_intr_count_le & [ STEM < "spagat" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_spagat_n_rel" ] ]. sparring_n1 := n_intr_count_le & [ STEM < "sparring" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sparring_n_rel" ] ]. spring_n1 := n_intr_count_le & [ STEM < "spring" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_spring_n_rel" ] ]. sprint_n1 := n_intr_count_le & [ STEM < "sprint" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sprint_n_rel" ] ]. stage_n1 := n_intr_count_le & [ STEM < "stage" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_stage_n_rel" ] ]. standard_n1 := n_intr_count_le & [ STEM < "standard" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_standard_n_rel" ] ]. status_n1 := n_intr_count_le & [ STEM < "status" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_status_n_rel" ] ]. step_n1 := n_intr_count_le & [ STEM < "step" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_step_n_rel" ] ]. subarmónico_n1 := n_intr_count_le & [ STEM < "subarmónico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subarmónico_n_rel" ] ]. subatributo_n1 := n_intr_count_le & [ STEM < "subatributo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subatributo_n_rel" ] ]. subbase_n1 := n_intr_count_le & [ STEM < "subbase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subbase_n_rel" ] ]. subbucle_n1 := n_intr_count_le & [ STEM < "subbucle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subbucle_n_rel" ] ]. subclase_n1 := n_intr_count_le & [ STEM < "subclase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subclase_n_rel" ] ]. subclave_n1 := n_intr_count_le & [ STEM < "subclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subclave_n_rel" ] ]. subclimax_n1 := n_intr_uncount_le & [ STEM < "subclimax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subclimax_n_rel" ] ]. subclímax_n1 := n_intr_uncount_le & [ STEM < "subclímax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subclímax_n_rel" ] ]. subcola_n1 := n_intr_count_le & [ STEM < "subcola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcola_n_rel" ] ]. subconsciente_n1 := n_intr_uncount_pl_le & [ STEM < "subconsciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subconsciente_n_rel" ] ]. subconsumo_n1 := n_intr_uncount_le & [ STEM < "subconsumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subconsumo_n_rel" ] ]. subcontrata_n1 := n_intr_count_le & [ STEM < "subcontrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcontrata_n_rel" ] ]. subcuenta_n1 := n_intr_count_le & [ STEM < "subcuenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcuenta_n_rel" ] ]. subcultivo_n1 := n_intr_count_le & [ STEM < "subcultivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subcultivo_n_rel" ] ]. subdialecto_n1 := n_intr_count_le & [ STEM < "subdialecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subdialecto_n_rel" ] ]. subdominante_n1 := n_intr_uncount_pl_le & [ STEM < "subdominante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subdominante_n_rel" ] ]. subdominio_n1 := n_intr_count_le & [ STEM < "subdominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subdominio_n_rel" ] ]. subespecie_n1 := n_intr_count_le & [ STEM < "subespecie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subespecie_n_rel" ] ]. subesquema_n1 := n_intr_count_le & [ STEM < "subesquema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subesquema_n_rel" ] ]. subglositis_n1 := n_intr_uncount_le & [ STEM < "subglositis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subglositis_n_rel" ] ]. subinciso_n1 := n_intr_count_le & [ STEM < "subinciso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subinciso_n_rel" ] ]. subjuntivo_n1 := n_intr_uncount_le & [ STEM < "subjuntivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subjuntivo_n_rel" ] ]. subálgebra_n1 := n_intr_uncount_le & [ STEM < "subálgebra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subálgebra_n_rel" ] ]. sublímite_n1 := n_intr_count_le & [ STEM < "sublímite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sublímite_n_rel" ] ]. submacro_n1 := n_intr_count_le & [ STEM < "submacro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submacro_n_rel" ] ]. submatriz_n1 := n_intr_count_le & [ STEM < "submatriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submatriz_n_rel" ] ]. submúltiplo_n1 := n_intr_count_le & [ STEM < "submúltiplo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submúltiplo_n_rel" ] ]. submolécula_n1 := n_intr_count_le & [ STEM < "submolécula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submolécula_n_rel" ] ]. submuestra_n1 := n_intr_count_le & [ STEM < "submuestra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submuestra_n_rel" ] ]. submundo_n1 := n_intr_count_le & [ STEM < "submundo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_submundo_n_rel" ] ]. subíndice_n1 := n_intr_count_le & [ STEM < "subíndice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subíndice_n_rel" ] ]. subnivel_n1 := n_intr_count_le & [ STEM < "subnivel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subnivel_n_rel" ] ]. suborden_n1 := n_intr_count_le & [ STEM < "suborden" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suborden_n_rel" ] ]. subprograma_n1 := n_intr_count_le & [ STEM < "subprograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subprograma_n_rel" ] ]. subproyecto_n1 := n_intr_count_le & [ STEM < "subproyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subproyecto_n_rel" ] ]. subpréstamo_n1 := n_intr_count_le & [ STEM < "subpréstamo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subpréstamo_n_rel" ] ]. subsidiaria_n1 := n_intr_count_le & [ STEM < "subsidiaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsidiaria_n_rel" ] ]. subsidio_n1 := n_intr_count_le & [ STEM < "subsidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsidio_n_rel" ] ]. subsistema_n1 := n_intr_count_le & [ STEM < "subsistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsistema_n_rel" ] ]. substraendo_n1 := n_intr_count_le & [ STEM < "substraendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_substraendo_n_rel" ] ]. subsuelo_n1 := n_intr_count_le & [ STEM < "subsuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subsuelo_n_rel" ] ]. subtangente_n1 := n_intr_count_le & [ STEM < "subtangente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtangente_n_rel" ] ]. subtarea_n1 := n_intr_count_le & [ STEM < "subtarea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtarea_n_rel" ] ]. subterfugio_n1 := n_intr_count_le & [ STEM < "subterfugio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subterfugio_n_rel" ] ]. subtono_n1 := n_intr_count_le & [ STEM < "subtono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtono_n_rel" ] ]. subtítulo_n1 := n_intr_count_le & [ STEM < "subtítulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subtítulo_n_rel" ] ]. subuniverso_n1 := n_intr_count_le & [ STEM < "subuniverso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_subuniverso_n_rel" ] ]. suceso_n1 := n_intr_count_le & [ STEM < "suceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suceso_n_rel" ] ]. sudario_n1 := n_intr_count_le & [ STEM < "sudario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sudario_n_rel" ] ]. sudatorio_n1 := n_intr_uncount_pl_le & [ STEM < "sudatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sudatorio_n_rel" ] ]. sueldo_bruto_n1 := n_intr_uncount_pl_le & [ STEM < "sueldo_bruto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sueldo_bruto_n_rel" ] ]. sueldo_n1 := n_intr_count_le & [ STEM < "sueldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sueldo_n_rel" ] ]. sueldo_neto_n1 := n_intr_uncount_pl_le & [ STEM < "sueldo_neto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sueldo_neto_n_rel" ] ]. suelta_n1 := n_intr_count_le & [ STEM < "suelta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suelta_n_rel" ] ]. sueño_n1 := n_intr_mass-or-count_le & [ STEM < "sueño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sueño_n_rel" ] ]. suerte_n1 := n_intr_mass_le & [ STEM < "suerte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suerte_n_rel" ] ]. sufragio_n1 := n_intr_count_le & [ STEM < "sufragio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sufragio_n_rel" ] ]. sumando_n1 := n_intr_count_le & [ STEM < "sumando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sumando_n_rel" ] ]. sumarísimo_n1 := n_intr_uncount_pl_le & [ STEM < "sumarísimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sumarísimo_n_rel" ] ]. superclase_n1 := n_intr_count_le & [ STEM < "superclase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superclase_n_rel" ] ]. superconjunto_n1 := n_intr_count_le & [ STEM < "superconjunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superconjunto_n_rel" ] ]. superego_n1 := n_intr_uncount_le & [ STEM < "superego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superego_n_rel" ] ]. supergrupo_n1 := n_intr_count_le & [ STEM < "supergrupo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supergrupo_n_rel" ] ]. superlativo_n1 := n_intr_count_le & [ STEM < "superlativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superlativo_n_rel" ] ]. superíndice_n1 := n_intr_count_le & [ STEM < "superíndice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superíndice_n_rel" ] ]. supernumerario_n1 := n_intr_count_le & [ STEM < "supernumerario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supernumerario_n_rel" ] ]. superservicio_n1 := n_intr_count_le & [ STEM < "superservicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superservicio_n_rel" ] ]. supersímbolo_n1 := n_intr_count_le & [ STEM < "supersímbolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supersímbolo_n_rel" ] ]. superávit_n1 := n_intr_count_le & [ STEM < "superávit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_superávit_n_rel" ] ]. suplicatoria_n1 := n_intr_count_le & [ STEM < "suplicatoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suplicatoria_n_rel" ] ]. suplicatorio_n1 := n_intr_count_le & [ STEM < "suplicatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suplicatorio_n_rel" ] ]. suplicio_n1 := n_intr_count_le & [ STEM < "suplicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suplicio_n_rel" ] ]. supraseguro_n1 := n_intr_uncount_le & [ STEM < "supraseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supraseguro_n_rel" ] ]. supósito_n1 := n_intr_count_le & [ STEM < "supósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supósito_n_rel" ] ]. supuesto_n1 := n_intr_count_le & [ STEM < "supuesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_supuesto_n_rel" ] ]. surf_n1 := n_intr_uncount_le & [ STEM < "surf" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_surf_n_rel" ] ]. surplace_n1 := n_intr_count_le & [ STEM < "surplace" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_surplace_n_rel" ] ]. suspense_n1 := n_intr_mass_le & [ STEM < "suspense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_suspense_n_rel" ] ]. sustantivo_n1 := n_intr_count_le & [ STEM < "sustantivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sustantivo_n_rel" ] ]. sustento_n1 := n_intr_mass-or-count_le & [ STEM < "sustento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sustento_n_rel" ] ]. susto_n1 := n_intr_mass-or-count_le & [ STEM < "susto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_susto_n_rel" ] ]. sustraendo_n1 := n_intr_count_le & [ STEM < "sustraendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_sustraendo_n_rel" ] ]. susurro_n1 := n_intr_count_le & [ STEM < "susurro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_susurro_n_rel" ] ]. SWAP_n1 := n_intr_count_le & [ STEM < "SWAP" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_SWAP_n_rel" ] ]. swapping_n1 := n_intr_uncount_le & [ STEM < "swapping" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_swapping_n_rel" ] ]. séxtica_n1 := n_intr_uncount_le & [ STEM < "séxtica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_séxtica_n_rel" ] ]. tabú_n1 := n_intr_count_le & [ STEM < "tabú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tabú_n_rel" ] ]. tacnodo_n1 := n_intr_uncount_le & [ STEM < "tacnodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tacnodo_n_rel" ] ]. tacto_n1 := n_intr_mass-or-count_le & [ STEM < "tacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tacto_n_rel" ] ]. taekwondo_n1 := n_intr_uncount_le & [ STEM < "taekwondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taekwondo_n_rel" ] ]. tafocenosis_n1 := n_intr_uncount_le & [ STEM < "tafocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tafocenosis_n_rel" ] ]. talante_n1 := n_intr_mass-or-count_le & [ STEM < "talante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talante_n_rel" ] ]. talasemia_n1 := n_intr_uncount_le & [ STEM < "talasemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talasemia_n_rel" ] ]. talento_n1 := n_intr_mass-or-count_le & [ STEM < "talento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_talento_n_rel" ] ]. tanatocenosis_n1 := n_intr_uncount_le & [ STEM < "tanatocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tanatocenosis_n_rel" ] ]. tanda_n1 := n_intr_count_le & [ STEM < "tanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tanda_n_rel" ] ]. tangente_n1 := n_intr_count_le & [ STEM < "tangente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tangente_n_rel" ] ]. tanka_n1 := n_intr_count_le & [ STEM < "tanka" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tanka_n_rel" ] ]. tanto_n1 := n_intr_count_le & [ STEM < "tanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tanto_n_rel" ] ]. taoísmo_n1 := n_intr_uncount_le & [ STEM < "taoísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taoísmo_n_rel" ] ]. tapaporos_n1 := n_intr_count_le & [ STEM < "tapaporos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tapaporos_n_rel" ] ]. taquicardia_n1 := n_intr_mass-or-count_le & [ STEM < "taquicardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taquicardia_n_rel" ] ]. taquillo_n1 := n_intr_count_le & [ STEM < "taquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taquillo_n_rel" ] ]. tarea_n1 := n_intr_count_le & [ STEM < "tarea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tarea_n_rel" ] ]. tarsoplastia_n1 := n_intr_count_le & [ STEM < "tarsoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tarsoplastia_n_rel" ] ]. tau_n1 := n_intr_uncount_le & [ STEM < "tau" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tau_n_rel" ] ]. taxia_n1 := n_intr_uncount_le & [ STEM < "taxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxia_n_rel" ] ]. taxidermia_n1 := n_intr_uncount_le & [ STEM < "taxidermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxidermia_n_rel" ] ]. taxón_n1 := n_intr_count_le & [ STEM < "taxón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxón_n_rel" ] ]. taxon_n1 := n_intr_count_le & [ STEM < "taxon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_taxon_n_rel" ] ]. técnica_n1 := n_intr_mass-or-count_le & [ STEM < "técnica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_técnica_n_rel" ] ]. táctica_n1 := n_intr_mass-or-count_le & [ STEM < "táctica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_táctica_n_rel" ] ]. tectónica_n1 := n_intr_uncount_le & [ STEM < "tectónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tectónica_n_rel" ] ]. tedio_n1 := n_intr_mass_le & [ STEM < "tedio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tedio_n_rel" ] ]. tejemaneje_n1 := n_intr_uncount_pl_le & [ STEM < "tejemaneje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tejemaneje_n_rel" ] ]. telecarga_n1 := n_intr_uncount_pl_le & [ STEM < "telecarga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecarga_n_rel" ] ]. telecomando_n1 := n_intr_uncount_pl_le & [ STEM < "telecomando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecomando_n_rel" ] ]. telecompra_n1 := n_intr_uncount_pl_le & [ STEM < "telecompra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telecompra_n_rel" ] ]. telediario_n1 := n_intr_count_le & [ STEM < "telediario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telediario_n_rel" ] ]. teleinformática_n1 := n_intr_uncount_le & [ STEM < "teleinformática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleinformática_n_rel" ] ]. telemática_n1 := n_intr_uncount_le & [ STEM < "telemática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telemática_n_rel" ] ]. teleproceso_n1 := n_intr_uncount_pl_le & [ STEM < "teleproceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleproceso_n_rel" ] ]. teleservicio_n1 := n_intr_uncount_pl_le & [ STEM < "teleservicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teleservicio_n_rel" ] ]. teletienda_n1 := n_intr_uncount_pl_le & [ STEM < "teletienda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teletienda_n_rel" ] ]. televenta_n1 := n_intr_uncount_pl_le & [ STEM < "televenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_televenta_n_rel" ] ]. telofase_n1 := n_intr_uncount_pl_le & [ STEM < "telofase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telofase_n_rel" ] ]. telosinapsis_n1 := n_intr_uncount_le & [ STEM < "telosinapsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_telosinapsis_n_rel" ] ]. tema_n1 := n_intr_count_le & [ STEM < "tema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tema_n_rel" ] ]. temario_n1 := n_intr_count_le & [ STEM < "temario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temario_n_rel" ] ]. temple_n1 := n_intr_mass_le & [ STEM < "temple" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temple_n_rel" ] ]. tempus_n1 := n_intr_count_le & [ STEM < "tempus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tempus_n_rel" ] ]. temática_n1 := n_intr_count_le & [ STEM < "temática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_temática_n_rel" ] ]. tentativa_n1 := n_intr_count_le & [ STEM < "tentativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tentativa_n_rel" ] ]. tenuta_n1 := n_intr_uncount_pl_le & [ STEM < "tenuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tenuta_n_rel" ] ]. teodicea_n1 := n_intr_count_le & [ STEM < "teodicea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teodicea_n_rel" ] ]. teorema_n1 := n_intr_count_le & [ STEM < "teorema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teorema_n_rel" ] ]. terapia_n1 := n_intr_mass-or-count_le & [ STEM < "terapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terapia_n_rel" ] ]. terapéutica_n1 := n_intr_uncount_le & [ STEM < "terapéutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terapéutica_n_rel" ] ]. teratospermia_n1 := n_intr_uncount_le & [ STEM < "teratospermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teratospermia_n_rel" ] ]. terceto_n1 := n_intr_count_le & [ STEM < "terceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terceto_n_rel" ] ]. termalgia_n1 := n_intr_uncount_le & [ STEM < "termalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termalgia_n_rel" ] ]. termólisis_n1 := n_intr_uncount_le & [ STEM < "termólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termólisis_n_rel" ] ]. termoalgesia_n1 := n_intr_uncount_le & [ STEM < "termoalgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoalgesia_n_rel" ] ]. termoanalgesia_n1 := n_intr_uncount_le & [ STEM < "termoanalgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoanalgesia_n_rel" ] ]. termocauterio_n1 := n_intr_uncount_le & [ STEM < "termocauterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termocauterio_n_rel" ] ]. termoclina_n1 := n_intr_uncount_le & [ STEM < "termoclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoclina_n_rel" ] ]. termodinámica_n1 := n_intr_uncount_le & [ STEM < "termodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termodinámica_n_rel" ] ]. termofagia_n1 := n_intr_uncount_le & [ STEM < "termofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termofagia_n_rel" ] ]. termoquímica_n1 := n_intr_uncount_le & [ STEM < "termoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoquímica_n_rel" ] ]. termosifón_n1 := n_intr_uncount_pl_le & [ STEM < "termosifón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termosifón_n_rel" ] ]. termoterapia_n1 := n_intr_uncount_le & [ STEM < "termoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_termoterapia_n_rel" ] ]. terna_n1 := n_intr_count_le & [ STEM < "terna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_terna_n_rel" ] ]. tertulia_n1 := n_intr_count_le & [ STEM < "tertulia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tertulia_n_rel" ] ]. tesaurismosis_n1 := n_intr_uncount_le & [ STEM < "tesaurismosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tesaurismosis_n_rel" ] ]. tesina_n1 := n_intr_count_le & [ STEM < "tesina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tesina_n_rel" ] ]. teísmo_n1 := n_intr_uncount_le & [ STEM < "teísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_teísmo_n_rel" ] ]. tesón_n1 := n_intr_mass_le & [ STEM < "tesón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tesón_n_rel" ] ]. test_n1 := n_intr_count_le & [ STEM < "test" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_test_n_rel" ] ]. tetania_n1 := n_intr_uncount_le & [ STEM < "tetania" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetania_n_rel" ] ]. tetartoedro_n1 := n_intr_uncount_le & [ STEM < "tetartoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetartoedro_n_rel" ] ]. tetartoide_n1 := n_intr_uncount_pl_le & [ STEM < "tetartoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetartoide_n_rel" ] ]. tetraedro_n1 := n_intr_count_le & [ STEM < "tetraedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetraedro_n_rel" ] ]. tetraexaedro_n1 := n_intr_count_le & [ STEM < "tetraexaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetraexaedro_n_rel" ] ]. tetrahexaedro_n1 := n_intr_count_le & [ STEM < "tetrahexaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetrahexaedro_n_rel" ] ]. tetraplejia_n1 := n_intr_uncount_le & [ STEM < "tetraplejia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetraplejia_n_rel" ] ]. tetraquisexaedro_n1 := n_intr_count_le & [ STEM < "tetraquisexaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetraquisexaedro_n_rel" ] ]. tetraquishexaedro_n1 := n_intr_count_le & [ STEM < "tetraquishexaedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetraquishexaedro_n_rel" ] ]. tetrágono_n1 := n_intr_count_le & [ STEM < "tetrágono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tetrágono_n_rel" ] ]. thriller_n1 := n_intr_count_le & [ STEM < "thriller" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_thriller_n_rel" ] ]. tiña_n1 := n_intr_mass-or-count_le & [ STEM < "tiña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tiña_n_rel" ] ]. ética_n1 := n_intr_mass-or-count_le & [ STEM < "ética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ética_n_rel" ] ]. tic_n1 := n_intr_count_le & [ STEM < "tic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tic_n_rel" ] ]. tictac_n1 := n_intr_uncount_pl_le & [ STEM < "tictac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tictac_n_rel" ] ]. tifus_n1 := n_intr_uncount_le & [ STEM < "tifus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tifus_n_rel" ] ]. tigrólisis_n1 := n_intr_uncount_le & [ STEM < "tigrólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tigrólisis_n_rel" ] ]. tijereta_n1 := n_intr_count_le & [ STEM < "tijereta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tijereta_n_rel" ] ]. étimo_n1 := n_intr_count_le & [ STEM < "étimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_étimo_n_rel" ] ]. timpanoesclerosis_n1 := n_intr_uncount_le & [ STEM < "timpanoesclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timpanoesclerosis_n_rel" ] ]. timpanoplastia_n1 := n_intr_count_le & [ STEM < "timpanoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timpanoplastia_n_rel" ] ]. timpanostapediopexia_n1 := n_intr_uncount_le & [ STEM < "timpanostapediopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_timpanostapediopexia_n_rel" ] ]. tiniebla_n1 := n_intr_mass-or-count_le & [ STEM < "tiniebla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tiniebla_n_rel" ] ]. tinnitus_n1 := n_intr_uncount_le & [ STEM < "tinnitus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tinnitus_n_rel" ] ]. tino_n1 := n_intr_mass_le & [ STEM < "tino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tino_n_rel" ] ]. tipólisis_n1 := n_intr_uncount_le & [ STEM < "tipólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tipólisis_n_rel" ] ]. tiroiditis_n1 := n_intr_uncount_le & [ STEM < "tiroiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tiroiditis_n_rel" ] ]. tirotoxicosis_n1 := n_intr_uncount_le & [ STEM < "tirotoxicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tirotoxicosis_n_rel" ] ]. tisis_n1 := n_intr_uncount_le & [ STEM < "tisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tisis_n_rel" ] ]. titulillo_n1 := n_intr_count_le & [ STEM < "titulillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_titulillo_n_rel" ] ]. télex_n1 := n_intr_count_le & [ STEM < "télex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_télex_n_rel" ] ]. tómbola_n1 := n_intr_count_le & [ STEM < "tómbola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tómbola_n_rel" ] ]. tónica_n1 := n_intr_mass-or-count_le & [ STEM < "tónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tónica_n_rel" ] ]. todo_n1 := n_intr_uncount_le & [ STEM < "todo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_todo_n_rel" ] ]. tonema_n1 := n_intr_count_le & [ STEM < "tonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonema_n_rel" ] ]. tongo_n1 := n_intr_count_le & [ STEM < "tongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tongo_n_rel" ] ]. tono_n1 := n_intr_count_le & [ STEM < "tono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tono_n_rel" ] ]. tonsilitis_n1 := n_intr_uncount_le & [ STEM < "tonsilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tonsilitis_n_rel" ] ]. tontina_n1 := n_intr_uncount_le & [ STEM < "tontina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tontina_n_rel" ] ]. topónimo_n1 := n_intr_count_le & [ STEM < "topónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topónimo_n_rel" ] ]. topofilia_n1 := n_intr_uncount_le & [ STEM < "topofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topofilia_n_rel" ] ]. topofobia_n1 := n_intr_uncount_le & [ STEM < "topofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topofobia_n_rel" ] ]. toponimia_n1 := n_intr_uncount_le & [ STEM < "toponimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toponimia_n_rel" ] ]. toponomástica_n1 := n_intr_uncount_le & [ STEM < "toponomástica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toponomástica_n_rel" ] ]. topoquímica_n1 := n_intr_uncount_le & [ STEM < "topoquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topoquímica_n_rel" ] ]. topotaxia_n1 := n_intr_uncount_le & [ STEM < "topotaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_topotaxia_n_rel" ] ]. toroide_n1 := n_intr_count_le & [ STEM < "toroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toroide_n_rel" ] ]. tortícolis_n1 := n_intr_uncount_le & [ STEM < "tortícolis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tortícolis_n_rel" ] ]. tortellini_n1 := n_intr_uncount_pl_le & [ STEM < "tortellini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tortellini_n_rel" ] ]. toréutica_n1 := n_intr_uncount_le & [ STEM < "toréutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_toréutica_n_rel" ] ]. touche_n1 := n_intr_count_le & [ STEM < "touche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_touche_n_rel" ] ]. tracoma_n1 := n_intr_uncount_le & [ STEM < "tracoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tracoma_n_rel" ] ]. tragaperras_n1 := n_intr_count_le & [ STEM < "tragaperras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tragaperras_n_rel" ] ]. tragicomedia_n1 := n_intr_count_le & [ STEM < "tragicomedia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tragicomedia_n_rel" ] ]. tramlot_n1 := n_intr_uncount_le & [ STEM < "tramlot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tramlot_n_rel" ] ]. tramo_n1 := n_intr_count_le & [ STEM < "tramo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tramo_n_rel" ] ]. tramuntana_n1 := n_intr_uncount_le & [ STEM < "tramuntana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tramuntana_n_rel" ] ]. trance_n1 := n_intr_count_le & [ STEM < "trance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trance_n_rel" ] ]. tranco_n1 := n_intr_count_le & [ STEM < "tranco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tranco_n_rel" ] ]. transcitosis_n1 := n_intr_uncount_le & [ STEM < "transcitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transcitosis_n_rel" ] ]. transecto_n1 := n_intr_count_le & [ STEM < "transecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transecto_n_rel" ] ]. transfectoma_n1 := n_intr_uncount_le & [ STEM < "transfectoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transfectoma_n_rel" ] ]. transfer_n1 := n_intr_count_le & [ STEM < "transfer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_transfer_n_rel" ] ]. trapezoedro_n1 := n_intr_count_le & [ STEM < "trapezoedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trapezoedro_n_rel" ] ]. trapezoide_n1 := n_intr_count_le & [ STEM < "trapezoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trapezoide_n_rel" ] ]. traqueostoma_n1 := n_intr_uncount_le & [ STEM < "traqueostoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traqueostoma_n_rel" ] ]. trasfondo_n1 := n_intr_count_le & [ STEM < "trasfondo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trasfondo_n_rel" ] ]. traspaís_n1 := n_intr_uncount_le & [ STEM < "traspaís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traspaís_n_rel" ] ]. traspaso_n1 := n_intr_count_le & [ STEM < "traspaso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traspaso_n_rel" ] ]. traspié_n1 := n_intr_count_le & [ STEM < "traspié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traspié_n_rel" ] ]. trasunto_n1 := n_intr_count_le & [ STEM < "trasunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trasunto_n_rel" ] ]. trauma_n1 := n_intr_count_le & [ STEM < "trauma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trauma_n_rel" ] ]. traveling_n1 := n_intr_uncount_le & [ STEM < "traveling" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_traveling_n_rel" ] ]. través_n1 := n_intr_count_le & [ STEM < "través" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_través_n_rel" ] ]. trayecto_n1 := n_intr_count_le & [ STEM < "trayecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trayecto_n_rel" ] ]. trayectoria_n1 := n_intr_count_le & [ STEM < "trayectoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trayectoria_n_rel" ] ]. trecho_n1 := n_intr_count_le & [ STEM < "trecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trecho_n_rel" ] ]. tregua_n1 := n_intr_mass-or-count_le & [ STEM < "tregua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tregua_n_rel" ] ]. tremolina_n1 := n_intr_uncount_pl_le & [ STEM < "tremolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tremolina_n_rel" ] ]. treta_n1 := n_intr_count_le & [ STEM < "treta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_treta_n_rel" ] ]. tríglifo_n1 := n_intr_uncount_pl_le & [ STEM < "tríglifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tríglifo_n_rel" ] ]. trígono_n1 := n_intr_count_le & [ STEM < "trígono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trígono_n_rel" ] ]. triac_n1 := n_intr_count_le & [ STEM < "triac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triac_n_rel" ] ]. trialsin_n1 := n_intr_uncount_le & [ STEM < "trialsin" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trialsin_n_rel" ] ]. triatlón_n1 := n_intr_count_le & [ STEM < "triatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triatlón_n_rel" ] ]. tributo_n1 := n_intr_count_le & [ STEM < "tributo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tributo_n_rel" ] ]. tricentenario_n1 := n_intr_uncount_pl_le & [ STEM < "tricentenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tricentenario_n_rel" ] ]. triciclo_n1 := n_intr_count_le & [ STEM < "triciclo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triciclo_n_rel" ] ]. triclorotrifluoacetona_n1 := n_intr_uncount_le & [ STEM < "triclorotrifluoacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triclorotrifluoacetona_n_rel" ] ]. triclorotrifluoetano_n1 := n_intr_uncount_le & [ STEM < "triclorotrifluoetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triclorotrifluoetano_n_rel" ] ]. tricot_n1 := n_intr_uncount_le & [ STEM < "tricot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tricot_n_rel" ] ]. triedro_n1 := n_intr_count_le & [ STEM < "triedro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triedro_n_rel" ] ]. trienio_n1 := n_intr_count_le & [ STEM < "trienio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trienio_n_rel" ] ]. trifulca_n1 := n_intr_count_le & [ STEM < "trifulca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trifulca_n_rel" ] ]. trillón_n1 := n_intr_count_le & [ STEM < "trillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trillón_n_rel" ] ]. trimarán_n1 := n_intr_count_le & [ STEM < "trimarán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trimarán_n_rel" ] ]. trinca_n1 := n_intr_count_le & [ STEM < "trinca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trinca_n_rel" ] ]. trinomio_n1 := n_intr_count_le & [ STEM < "trinomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trinomio_n_rel" ] ]. trino_n1 := n_intr_uncount_pl_le & [ STEM < "trino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trino_n_rel" ] ]. triploidia_n1 := n_intr_uncount_le & [ STEM < "triploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triploidia_n_rel" ] ]. triptongo_n1 := n_intr_count_le & [ STEM < "triptongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triptongo_n_rel" ] ]. triquiasis_n1 := n_intr_uncount_le & [ STEM < "triquiasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_triquiasis_n_rel" ] ]. trisectriz_n1 := n_intr_count_le & [ STEM < "trisectriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trisectriz_n_rel" ] ]. tris_n1 := n_intr_uncount_le & [ STEM < "tris" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tris_n_rel" ] ]. trisomia_n1 := n_intr_uncount_le & [ STEM < "trisomia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trisomia_n_rel" ] ]. tritanopsia_n1 := n_intr_uncount_le & [ STEM < "tritanopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tritanopsia_n_rel" ] ]. trivio_n1 := n_intr_uncount_pl_le & [ STEM < "trivio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trivio_n_rel" ] ]. trímetro_n1 := n_intr_count_le & [ STEM < "trímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trímetro_n_rel" ] ]. trémolo_n1 := n_intr_count_le & [ STEM < "trémolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trémolo_n_rel" ] ]. trocoide_n1 := n_intr_uncount_pl_le & [ STEM < "trocoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trocoide_n_rel" ] ]. troica_n1 := n_intr_uncount_pl_le & [ STEM < "troica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_troica_n_rel" ] ]. trombastenia_n1 := n_intr_uncount_le & [ STEM < "trombastenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombastenia_n_rel" ] ]. trombólisis_n1 := n_intr_uncount_le & [ STEM < "trombólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombólisis_n_rel" ] ]. trombocitemia_n1 := n_intr_uncount_le & [ STEM < "trombocitemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombocitemia_n_rel" ] ]. trombocitólisis_n1 := n_intr_uncount_le & [ STEM < "trombocitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombocitólisis_n_rel" ] ]. trombocitopoyesis_n1 := n_intr_uncount_le & [ STEM < "trombocitopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombocitopoyesis_n_rel" ] ]. trombocitosis_n1 := n_intr_uncount_le & [ STEM < "trombocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombocitosis_n_rel" ] ]. trombopenia_n1 := n_intr_uncount_le & [ STEM < "trombopenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombopenia_n_rel" ] ]. trombopoyesis_n1 := n_intr_uncount_le & [ STEM < "trombopoyesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombopoyesis_n_rel" ] ]. trombosis_n1 := n_intr_uncount_le & [ STEM < "trombosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trombosis_n_rel" ] ]. tropel_n1 := n_intr_uncount_pl_le & [ STEM < "tropel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropel_n_rel" ] ]. tropiezo_n1 := n_intr_count_le & [ STEM < "tropiezo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropiezo_n_rel" ] ]. tropo_n1 := n_intr_count_le & [ STEM < "tropo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tropo_n_rel" ] ]. troquel_n1 := n_intr_count_le & [ STEM < "troquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_troquel_n_rel" ] ]. trova_n1 := n_intr_uncount_pl_le & [ STEM < "trova" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trova_n_rel" ] ]. trítono_n1 := n_intr_count_le & [ STEM < "trítono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trítono_n_rel" ] ]. truco_n1 := n_intr_count_le & [ STEM < "truco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_truco_n_rel" ] ]. trust_n1 := n_intr_count_le & [ STEM < "trust" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_trust_n_rel" ] ]. tétanos_n1 := n_intr_uncount_le & [ STEM < "tétanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tétanos_n_rel" ] ]. tuberculosis_n1 := n_intr_uncount_le & [ STEM < "tuberculosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tuberculosis_n_rel" ] ]. tumulto_n1 := n_intr_count_le & [ STEM < "tumulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tumulto_n_rel" ] ]. tutela_n1 := n_intr_count_le & [ STEM < "tutela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_tutela_n_rel" ] ]. twist_n1 := n_intr_count_le & [ STEM < "twist" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_twist_n_rel" ] ]. ulitis_n1 := n_intr_uncount_le & [ STEM < "ulitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ulitis_n_rel" ] ]. ultimatum_n1 := n_intr_count_le & [ STEM < "ultimatum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ultimatum_n_rel" ] ]. ultimátum_n1 := n_intr_count_le & [ STEM < "ultimátum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ultimátum_n_rel" ] ]. uncus_n1 := n_intr_uncount_le & [ STEM < "uncus" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uncus_n_rel" ] ]. uranoplastia_n1 := n_intr_count_le & [ STEM < "uranoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uranoplastia_n_rel" ] ]. urbe_n1 := n_intr_count_le & [ STEM < "urbe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urbe_n_rel" ] ]. uremia_n1 := n_intr_uncount_le & [ STEM < "uremia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uremia_n_rel" ] ]. urobilinemia_n1 := n_intr_uncount_le & [ STEM < "urobilinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urobilinemia_n_rel" ] ]. urticaria_n1 := n_intr_uncount_le & [ STEM < "urticaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_urticaria_n_rel" ] ]. usufructo_n1 := n_intr_uncount_pl_le & [ STEM < "usufructo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_usufructo_n_rel" ] ]. uveoescleritis_n1 := n_intr_uncount_le & [ STEM < "uveoescleritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uveoescleritis_n_rel" ] ]. uveomeningitis_n1 := n_intr_uncount_le & [ STEM < "uveomeningitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uveomeningitis_n_rel" ] ]. uveoneuraxitis_n1 := n_intr_uncount_le & [ STEM < "uveoneuraxitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uveoneuraxitis_n_rel" ] ]. uveopapilitis_n1 := n_intr_uncount_le & [ STEM < "uveopapilitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uveopapilitis_n_rel" ] ]. uveítis_n1 := n_intr_uncount_le & [ STEM < "uveítis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uveítis_n_rel" ] ]. uvulitis_n1 := n_intr_uncount_le & [ STEM < "uvulitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uvulitis_n_rel" ] ]. uxoricidio_n1 := n_intr_uncount_pl_le & [ STEM < "uxoricidio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_uxoricidio_n_rel" ] ]. vacante_n1 := n_intr_count_le & [ STEM < "vacante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vacante_n_rel" ] ]. vacúolo_n1 := n_intr_uncount_pl_le & [ STEM < "vacúolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vacúolo_n_rel" ] ]. vaivén_n1 := n_intr_count_le & [ STEM < "vaivén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vaivén_n_rel" ] ]. óvalo_n1 := n_intr_count_le & [ STEM < "óvalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_óvalo_n_rel" ] ]. vals_n1 := n_intr_count_le & [ STEM < "vals" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vals_n_rel" ] ]. vanagloria_n1 := n_intr_uncount_pl_le & [ STEM < "vanagloria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vanagloria_n_rel" ] ]. varapalo_n1 := n_intr_count_le & [ STEM < "varapalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_varapalo_n_rel" ] ]. variable_n1 := n_intr_count_le & [ STEM < "variable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variable_n_rel" ] ]. variante_n1 := n_intr_count_le & [ STEM < "variante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_variante_n_rel" ] ]. varicela_n1 := n_intr_uncount_le & [ STEM < "varicela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_varicela_n_rel" ] ]. varilla_n1 := n_intr_count_le & [ STEM < "varilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_varilla_n_rel" ] ]. vasculitis_n1 := n_intr_uncount_le & [ STEM < "vasculitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vasculitis_n_rel" ] ]. vaticinio_n1 := n_intr_count_le & [ STEM < "vaticinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vaticinio_n_rel" ] ]. venia_n1 := n_intr_count_le & [ STEM < "venia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venia_n_rel" ] ]. ventisca_n1 := n_intr_mass-or-count_le & [ STEM < "ventisca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventisca_n_rel" ] ]. ventolina_n1 := n_intr_uncount_pl_le & [ STEM < "ventolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventolina_n_rel" ] ]. ventriloquia_n1 := n_intr_uncount_le & [ STEM < "ventriloquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ventriloquia_n_rel" ] ]. venturina_n1 := n_intr_uncount_pl_le & [ STEM < "venturina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_venturina_n_rel" ] ]. verbo_n1 := n_intr_count_le & [ STEM < "verbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verbo_n_rel" ] ]. verborrea_n1 := n_intr_uncount_le & [ STEM < "verborrea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_verborrea_n_rel" ] ]. veredicto_n1 := n_intr_count_le & [ STEM < "veredicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_veredicto_n_rel" ] ]. vericueto_n1 := n_intr_count_le & [ STEM < "vericueto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vericueto_n_rel" ] ]. vertiente_n1 := n_intr_count_le & [ STEM < "vertiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vertiente_n_rel" ] ]. vestibuloplastia_n1 := n_intr_count_le & [ STEM < "vestibuloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vestibuloplastia_n_rel" ] ]. vestigio_n1 := n_intr_count_le & [ STEM < "vestigio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vestigio_n_rel" ] ]. vicio_n1 := n_intr_count_le & [ STEM < "vicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vicio_n_rel" ] ]. victoria_n1 := n_intr_count_le & [ STEM < "victoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_victoria_n_rel" ] ]. videojuego_n1 := n_intr_count_le & [ STEM < "videojuego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videojuego_n_rel" ] ]. videoteléfono_n1 := n_intr_count_le & [ STEM < "videoteléfono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videoteléfono_n_rel" ] ]. videotex_n1 := n_intr_uncount_le & [ STEM < "videotex" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_videotex_n_rel" ] ]. viento_n1 := n_intr_mass-or-count_le & [ STEM < "viento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viento_n_rel" ] ]. vigilia_n1 := n_intr_count_le & [ STEM < "vigilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vigilia_n_rel" ] ]. vilipendio_n1 := n_intr_uncount_pl_le & [ STEM < "vilipendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vilipendio_n_rel" ] ]. villancico_n1 := n_intr_count_le & [ STEM < "villancico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_villancico_n_rel" ] ]. violario_n1 := n_intr_uncount_pl_le & [ STEM < "violario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_violario_n_rel" ] ]. viruela_n1 := n_intr_uncount_le & [ STEM < "viruela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viruela_n_rel" ] ]. vis-a-vis_n1 := n_intr_count_le & [ STEM < "vis-a-vis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vis-a-vis_n_rel" ] ]. vis_n1 := n_intr_uncount_le & [ STEM < "vis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vis_n_rel" ] ]. viso_n1 := n_intr_count_le & [ STEM < "viso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_viso_n_rel" ] ]. vista_n1 := n_intr_count_le & [ STEM < "vista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vista_n_rel" ] ]. visto_bueno_n1 := n_intr_uncount_le & [ STEM < "visto_bueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_visto_bueno_n_rel" ] ]. vistobueno_n1 := n_intr_uncount_le & [ STEM < "vistobueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vistobueno_n_rel" ] ]. vitualla_n1 := n_intr_uncount_pl_le & [ STEM < "vitualla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vitualla_n_rel" ] ]. vituperio_n1 := n_intr_uncount_pl_le & [ STEM < "vituperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vituperio_n_rel" ] ]. vizconde_n1 := n_intr_count_le & [ STEM < "vizconde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vizconde_n_rel" ] ]. vizcondesa_n1 := n_intr_count_le & [ STEM < "vizcondesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vizcondesa_n_rel" ] ]. vínculo_n1 := n_intr_count_le & [ STEM < "vínculo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vínculo_n_rel" ] ]. vocablo_n1 := n_intr_count_le & [ STEM < "vocablo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocablo_n_rel" ] ]. vocativo_n1 := n_intr_count_le & [ STEM < "vocativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocativo_n_rel" ] ]. vocoder_n1 := n_intr_uncount_pl_le & [ STEM < "vocoder" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vocoder_n_rel" ] ]. vodevil_n1 := n_intr_count_le & [ STEM < "vodevil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vodevil_n_rel" ] ]. volea_n1 := n_intr_count_le & [ STEM < "volea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volea_n_rel" ] ]. voleibol_n1 := n_intr_uncount_le & [ STEM < "voleibol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voleibol_n_rel" ] ]. volei_playa_n1 := n_intr_uncount_le & [ STEM < "voleiplaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_volei_playa_n_rel" ] ]. voley-playa_n1 := n_intr_uncount_le & [ STEM < "voley-playa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voley-playa_n_rel" ] ]. óvolo_n1 := n_intr_count_le & [ STEM < "óvolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_óvolo_n_rel" ] ]. vorágine_n1 := n_intr_count_le & [ STEM < "vorágine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vorágine_n_rel" ] ]. voronina_n1 := n_intr_uncount_le & [ STEM < "voronina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voronina_n_rel" ] ]. voz_n1 := n_intr_count_le & [ STEM < "voz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_voz_n_rel" ] ]. vértice_n1 := n_intr_count_le & [ STEM < "vértice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vértice_n_rel" ] ]. vértigo_n1 := n_intr_mass_le & [ STEM < "vértigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vértigo_n_rel" ] ]. vudú_n1 := n_intr_uncount_pl_le & [ STEM < "vudú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vudú_n_rel" ] ]. vulcanita_n1 := n_intr_uncount_le & [ STEM < "vulcanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulcanita_n_rel" ] ]. vulgo_n1 := n_intr_uncount_pl_le & [ STEM < "vulgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_vulgo_n_rel" ] ]. waterpolo_n1 := n_intr_uncount_le & [ STEM < "waterpolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_waterpolo_n_rel" ] ]. windsurfing_n1 := n_intr_uncount_le & [ STEM < "windsurfing" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_windsurfing_n_rel" ] ]. xantopsia_n1 := n_intr_uncount_le & [ STEM < "xantopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xantopsia_n_rel" ] ]. xenofilia_n1 := n_intr_uncount_le & [ STEM < "xenofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xenofilia_n_rel" ] ]. xenoinjerto_n1 := n_intr_count_le & [ STEM < "xenoinjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xenoinjerto_n_rel" ] ]. xerocopia_n1 := n_intr_count_le & [ STEM < "xerocopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xerocopia_n_rel" ] ]. xerófito_n1 := n_intr_uncount_pl_le & [ STEM < "xerófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xerófito_n_rel" ] ]. xerosis_n1 := n_intr_uncount_le & [ STEM < "xerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xerosis_n_rel" ] ]. xi_n1 := n_intr_uncount_le & [ STEM < "xi" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_xi_n_rel" ] ]. éxito_n1 := n_intr_mass-or-count_le & [ STEM < "éxito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_éxito_n_rel" ] ]. éxodo_n1 := n_intr_count_le & [ STEM < "éxodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_éxodo_n_rel" ] ]. éxtasis_n1 := n_intr_mass_le & [ STEM < "éxtasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_éxtasis_n_rel" ] ]. yambo_n1 := n_intr_count_le & [ STEM < "yambo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_yambo_n_rel" ] ]. yuca_n1 := n_intr_mass-or-count_le & [ STEM < "yuca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_yuca_n_rel" ] ]. zaga_n1 := n_intr_count_le & [ STEM < "zaga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zaga_n_rel" ] ]. zaibatsu_n1 := n_intr_uncount_pl_le & [ STEM < "zaibatsu" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zaibatsu_n_rel" ] ]. zancadilla_n1 := n_intr_count_le & [ STEM < "zancadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zancadilla_n_rel" ] ]. zarabanda_n1 := n_intr_count_le & [ STEM < "zarabanda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zarabanda_n_rel" ] ]. zarzuela_n1 := n_intr_mass-or-count_le & [ STEM < "zarzuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zarzuela_n_rel" ] ]. zidovudina_n1 := n_intr_uncount_le & [ STEM < "zidovudina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zidovudina_n_rel" ] ]. zigoto_n1 := n_intr_count_le & [ STEM < "zigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zigoto_n_rel" ] ]. zig-zag_n1 := n_intr_count_le & [ STEM < "zig-zag" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zig-zag_n_rel" ] ]. zigzag_n1 := n_intr_count_le & [ STEM < "zigzag" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zigzag_n_rel" ] ]. zimosis_n1 := n_intr_uncount_le & [ STEM < "zimosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zimosis_n_rel" ] ]. zimosán_n1 := n_intr_uncount_le & [ STEM < "zimosán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zimosán_n_rel" ] ]. zoisita_n1 := n_intr_uncount_pl_le & [ STEM < "zoisita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zoisita_n_rel" ] ]. zoosemiótica_n1 := n_intr_uncount_le & [ STEM < "zoosemiótica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zoosemiótica_n_rel" ] ]. zootecnia_n1 := n_intr_uncount_le & [ STEM < "zootecnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zootecnia_n_rel" ] ]. zozobra_n1 := n_intr_uncount_pl_le & [ STEM < "zozobra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_zozobra_n_rel" ] ]. hartazgo_n1 := n_trans_le & [ STEM < "hartazgo" >, SYNSEM.LKEYS.KEYREL.PRED "_hartazgo_n_rel" ]. hurto_n1 := n_trans_le & [ STEM < "hurto" >, SYNSEM.LKEYS.KEYREL.PRED "_hurto_n_rel" ]. iguala_n1 := n_trans_le & [ STEM < "iguala" >, SYNSEM.LKEYS.KEYREL.PRED "_iguala_n_rel" ]. implante_n1 := n_trans_le & [ STEM < "implante" >, SYNSEM.LKEYS.KEYREL.PRED "_implante_n_rel" ]. importe_n1 := n_trans_le & [ STEM < "importe" >, SYNSEM.LKEYS.KEYREL.PRED "_importe_n_rel" ]. impulso_n1 := n_trans_le & [ STEM < "impulso" >, SYNSEM.LKEYS.KEYREL.PRED "_impulso_n_rel" ]. ingreso_n1 := n_event-result_intr_le & [ STEM < "ingreso" >, SYNSEM.LKEYS.KEYREL.PRED "_ingreso_n_rel" ]. intercambio_n1 := n_trans_le & [ STEM < "intercambio" >, SYNSEM.LKEYS.KEYREL.PRED "_intercambio_n_rel" ]. lloro_n1 := n_event-result_intr_le & [ STEM < "lloro" >, SYNSEM.LKEYS.KEYREL.PRED "_lloro_n_rel" ]. logro_n1 := n_trans_le & [ STEM < "logro" >, SYNSEM.LKEYS.KEYREL.PRED "_logro_n_rel" ]. manda_n1 := n_trans_le & [ STEM < "manda" >, SYNSEM.LKEYS.KEYREL.PRED "_manda_n_rel" ]. manejo_n1 := n_trans_le & [ STEM < "manejo" >, SYNSEM.LKEYS.KEYREL.PRED "_manejo_n_rel" ]. mansedumbre_n1 := n_intr_mass_le & [ STEM < "mansedumbre" >, SYNSEM.LKEYS.KEYREL.PRED "_mansedumbre_n_rel" ]. menoscabo_n1 := n_trans_le & [ STEM < "menoscabo" >, SYNSEM.LKEYS.KEYREL.PRED "_menoscabo_n_rel" ]. mentira_n1 := n_event-result_intr_le & [ STEM < "mentira" >, SYNSEM.LKEYS.KEYREL.PRED "_mentira_n_rel" ]. ofensa_n1 := n_trans_le & [ STEM < "ofensa" >, SYNSEM.LKEYS.KEYREL.PRED "_ofensa_n_rel" ]. pago_n1 := n_trans_le & [ STEM < "pago" >, SYNSEM.LKEYS.KEYREL.PRED "_pago_n_rel" ]. pedimentos_n1 := n_trans_le & [ STEM < "pedimentos" >, SYNSEM.LKEYS.KEYREL.PRED "_pedimentos_n_rel" ]. pelea_n1 := n_event-result_intr_le & [ STEM < "pelea" >, SYNSEM.LKEYS.KEYREL.PRED "_pelea_n_rel" ]. percibo_n1 := n_trans_le & [ STEM < "percibo" >, SYNSEM.LKEYS.KEYREL.PRED "_percibo_n_rel" ]. perdón_n1 := n_trans_le & [ STEM < "perdón" >, SYNSEM.LKEYS.KEYREL.PRED "_perdón_n_rel" ]. permuta_n1 := n_trans_le & [ STEM < "permuta" >, SYNSEM.LKEYS.KEYREL.PRED "_permuta_n_rel" ]. pifia_n1 := n_event-result_intr_le & [ STEM < "pifia" >, SYNSEM.LKEYS.KEYREL.PRED "_pifia_n_rel" ]. pisón_n1 := n_event-result_intr_le & [ STEM < "pisón" >, SYNSEM.LKEYS.KEYREL.PRED "_pisón_n_rel" ]. pálpito_n1 := n_event-result_intr_le & [ STEM < "pálpito" >, SYNSEM.LKEYS.KEYREL.PRED "_pálpito_n_rel" ]. poda_n1 := n_trans_le & [ STEM < "poda" >, SYNSEM.LKEYS.KEYREL.PRED "_poda_n_rel" ]. porte_n1 := n_trans_le & [ STEM < "porte" >, SYNSEM.LKEYS.KEYREL.PRED "_porte_n_rel" ]. pregunta_n1 := n_trans_le & [ STEM < "pregunta" >, SYNSEM.LKEYS.KEYREL.PRED "_pregunta_n_rel" ]. protesta_n1 := n_event-result_intr_le & [ STEM < "protesta" >, SYNSEM.LKEYS.KEYREL.PRED "_protesta_n_rel" ]. puesta_n1 := n_trans_le & [ STEM < "puesta" >, SYNSEM.LKEYS.KEYREL.PRED "_puesta_n_rel" ]. purga_n1 := n_trans_le & [ STEM < "purga" >, SYNSEM.LKEYS.KEYREL.PRED "_purga_n_rel" ]. quebranto_n1 := n_trans_le & [ STEM < "quebranto" >, SYNSEM.LKEYS.KEYREL.PRED "_quebranto_n_rel" ]. quema_n1 := n_trans_le & [ STEM < "quema" >, SYNSEM.LKEYS.KEYREL.PRED "_quema_n_rel" ]. reajuste_n1 := n_trans_le & [ STEM < "reajuste" >, SYNSEM.LKEYS.KEYREL.PRED "_reajuste_n_rel" ]. rebaja_n1 := n_trans_le & [ STEM < "rebaja" >, SYNSEM.LKEYS.KEYREL.PRED "_rebaja_n_rel" ]. rebote_n1 := n_event-result_intr_le & [ STEM < "rebote" >, SYNSEM.LKEYS.KEYREL.PRED "_rebote_n_rel" ]. rebuzno_n1 := n_result_intr_le & [ STEM < "rebuzno" >, SYNSEM.LKEYS.KEYREL.PRED "_rebuzno_n_rel" ]. recaída_n1 := n_event-result_intr_le & [ STEM < "recaída" >, SYNSEM.LKEYS.KEYREL.PRED "_recaída_n_rel" ]. recobro_n1 := n_trans_le & [ STEM < "recobro" >, SYNSEM.LKEYS.KEYREL.PRED "_recobro_n_rel" ]. redoble_n1 := n_result_intr_le & [ STEM < "redoble" >, SYNSEM.LKEYS.KEYREL.PRED "_redoble_n_rel" ]. reembolso_n1 := n_trans_le & [ STEM < "reembolso" >, SYNSEM.LKEYS.KEYREL.PRED "_reembolso_n_rel" ]. reestreno_n1 := n_trans_le & [ STEM < "reestreno" >, SYNSEM.LKEYS.KEYREL.PRED "_reestreno_n_rel" ]. refuerzo_n1 := n_trans_le & [ STEM < "refuerzo" >, SYNSEM.LKEYS.KEYREL.PRED "_refuerzo_n_rel" ]. reingreso_n1 := n_trans_le & [ STEM < "reingreso" >, SYNSEM.LKEYS.KEYREL.PRED "_reingreso_n_rel" ]. reintegro_n1 := n_trans_le & [ STEM < "reintegro" >, SYNSEM.LKEYS.KEYREL.PRED "_reintegro_n_rel" ]. relincho_n1 := n_result_intr_le & [ STEM < "relincho" >, SYNSEM.LKEYS.KEYREL.PRED "_relincho_n_rel" ]. remate_n1 := n_trans_le & [ STEM < "remate" >, SYNSEM.LKEYS.KEYREL.PRED "_remate_n_rel" ]. reparto_n1 := n_trans_le & [ STEM < "reparto" >, SYNSEM.LKEYS.KEYREL.PRED "_reparto_n_rel" ]. repaso_n1 := n_trans_le & [ STEM < "repaso" >, SYNSEM.LKEYS.KEYREL.PRED "_repaso_n_rel" ]. repesca_n1 := n_trans_le & [ STEM < "repesca" >, SYNSEM.LKEYS.KEYREL.PRED "_repesca_n_rel" ]. repique_n1 := n_result_intr_le & [ STEM < "repique" >, SYNSEM.LKEYS.KEYREL.PRED "_repique_n_rel" ]. repliegue_n1 := n_trans_le & [ STEM < "repliegue" >, SYNSEM.LKEYS.KEYREL.PRED "_repliegue_n_rel" ]. reproche_n1 := n_trans_le & [ STEM < "reproche" >, SYNSEM.LKEYS.KEYREL.PRED "_reproche_n_rel" ]. repudio_n1 := n_trans_le & [ STEM < "repudio" >, SYNSEM.LKEYS.KEYREL.PRED "_repudio_n_rel" ]. repulsa_n1 := n_trans_le & [ STEM < "repulsa" >, SYNSEM.LKEYS.KEYREL.PRED "_repulsa_n_rel" ]. repunte_n1 := n_event-result_intr_le & [ STEM < "repunte" >, SYNSEM.LKEYS.KEYREL.PRED "_repunte_n_rel" ]. respingo_n1 := n_result_intr_le & [ STEM < "respingo" >, SYNSEM.LKEYS.KEYREL.PRED "_respingo_n_rel" ]. respiro_n1 := n_result_intr_le & [ STEM < "respiro" >, SYNSEM.LKEYS.KEYREL.PRED "_respiro_n_rel" ]. retraso_n1 := n_trans_le & [ STEM < "retraso" >, SYNSEM.LKEYS.KEYREL.PRED "_retraso_n_rel" ]. reventa_n1 := n_trans_le & [ STEM < "reventa" >, SYNSEM.LKEYS.KEYREL.PRED "_reventa_n_rel" ]. revuelco_n1 := n_trans_le & [ STEM < "revuelco" >, SYNSEM.LKEYS.KEYREL.PRED "_revuelco_n_rel" ]. rezo_n1 := n_trans_le & [ STEM < "rezo" >, SYNSEM.LKEYS.KEYREL.PRED "_rezo_n_rel" ]. robo_n1 := n_trans_le & [ STEM < "robo" >, SYNSEM.LKEYS.KEYREL.PRED "_robo_n_rel" ]. roce_n1 := n_trans_le & [ STEM < "roce" >, SYNSEM.LKEYS.KEYREL.PRED "_roce_n_rel" ]. réplica_n1 := n_trans_le & [ STEM < "réplica" >, SYNSEM.LKEYS.KEYREL.PRED "_réplica_n_rel" ]. saludo_n1 := n_trans_le & [ STEM < "saludo" >, SYNSEM.LKEYS.KEYREL.PRED "_saludo_n_rel" ]. saque_n1 := n_trans_le & [ STEM < "saque" >, SYNSEM.LKEYS.KEYREL.PRED "_saque_n_rel" ]. soborno_n1 := n_trans_le & [ STEM < "soborno" >, SYNSEM.LKEYS.KEYREL.PRED "_soborno_n_rel" ]. sobra_n1 := n_result_intr_le & [ STEM < "sobra" >, SYNSEM.LKEYS.KEYREL.PRED "_sobra_n_rel" ]. sobresalto_n1 := n_trans_le & [ STEM < "sobresalto" >, SYNSEM.LKEYS.KEYREL.PRED "_sobresalto_n_rel" ]. socavón_n1 := n_trans_le & [ STEM < "socavón" >, SYNSEM.LKEYS.KEYREL.PRED "_socavón_n_rel" ]. sofoco_n1 := n_trans_le & [ STEM < "sofoco" >, SYNSEM.LKEYS.KEYREL.PRED "_sofoco_n_rel" ]. sollozo_n1 := n_result_intr_le & [ STEM < "sollozo" >, SYNSEM.LKEYS.KEYREL.PRED "_sollozo_n_rel" ]. sonrisa_n1 := n_result_intr_le & [ STEM < "sonrisa" >, SYNSEM.LKEYS.KEYREL.PRED "_sonrisa_n_rel" ]. sonrojo_n1 := n_trans_le & [ STEM < "sonrojo" >, SYNSEM.LKEYS.KEYREL.PRED "_sonrojo_n_rel" ]. sorbo_n1 := n_trans_le & [ STEM < "sorbo" >, SYNSEM.LKEYS.KEYREL.PRED "_sorbo_n_rel" ]. sospecha_n1 := n_trans_le & [ STEM < "sospecha" >, SYNSEM.LKEYS.KEYREL.PRED "_sospecha_n_rel" ]. súplica_n1 := n_trans_le & [ STEM < "súplica" >, SYNSEM.LKEYS.KEYREL.PRED "_súplica_n_rel" ]. subarriendo_n1 := n_trans_le & [ STEM < "subarriendo" >, SYNSEM.LKEYS.KEYREL.PRED "_subarriendo_n_rel" ]. suicidio_n1 := n_result_intr_le & [ STEM < "suicidio" >, SYNSEM.LKEYS.KEYREL.PRED "_suicidio_n_rel" ]. suministro_n1 := n_trans_le & [ STEM < "suministro" >, SYNSEM.LKEYS.KEYREL.PRED "_suministro_n_rel" ]. suplica_n1 := n_trans_le & [ STEM < "suplica" >, SYNSEM.LKEYS.KEYREL.PRED "_suplica_n_rel" ]. tajo_n1 := n_trans_le & [ STEM < "tajo" >, SYNSEM.LKEYS.KEYREL.PRED "_tajo_n_rel" ]. tala_n1 := n_trans_le & [ STEM < "tala" >, SYNSEM.LKEYS.KEYREL.PRED "_tala_n_rel" ]. talla_n1 := n_trans_le & [ STEM < "talla" >, SYNSEM.LKEYS.KEYREL.PRED "_talla_n_rel" ]. tasa_n1 := n_trans_le & [ STEM < "tasa" >, SYNSEM.LKEYS.KEYREL.PRED "_tasa_n_rel" ]. tiento_n1 := n_trans_le & [ STEM < "tiento" >, SYNSEM.LKEYS.KEYREL.PRED "_tiento_n_rel" ]. toque_n1 := n_trans_le & [ STEM < "toque" >, SYNSEM.LKEYS.KEYREL.PRED "_toque_n_rel" ]. trasplante_n1 := n_trans_le & [ STEM < "trasplante" >, SYNSEM.LKEYS.KEYREL.PRED "_trasplante_n_rel" ]. trastorno_n1 := n_trans_le & [ STEM < "trastorno" >, SYNSEM.LKEYS.KEYREL.PRED "_trastorno_n_rel" ]. trasvase_n1 := n_trans_le & [ STEM < "trasvase" >, SYNSEM.LKEYS.KEYREL.PRED "_trasvase_n_rel" ]. triunfo_n1 := n_result_intr_le & [ STEM < "triunfo" >, SYNSEM.LKEYS.KEYREL.PRED "_triunfo_n_rel" ]. trueque_n1 := n_trans_le & [ STEM < "trueque" >, SYNSEM.LKEYS.KEYREL.PRED "_trueque_n_rel" ]. tunda_n1 := n_trans_le & [ STEM < "tunda" >, SYNSEM.LKEYS.KEYREL.PRED "_tunda_n_rel" ]. velatorio_n1 := n_trans_le & [ STEM < "velatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_velatorio_n_rel" ]. venida_n1 := n_result_intr_le & [ STEM < "venida" >, SYNSEM.LKEYS.KEYREL.PRED "_venida_n_rel" ]. veto_n1 := n_trans_le & [ STEM < "veto" >, SYNSEM.LKEYS.KEYREL.PRED "_veto_n_rel" ]. vislumbre_n1 := n_trans_le & [ STEM < "vislumbre" >, SYNSEM.LKEYS.KEYREL.PRED "_vislumbre_n_rel" ]. vuelco_n1 := n_trans_le & [ STEM < "vuelco" >, SYNSEM.LKEYS.KEYREL.PRED "_vuelco_n_rel" ]. zampa_n1 := n_trans_le & [ STEM < "zampa" >, SYNSEM.LKEYS.KEYREL.PRED "_zampa_n_rel" ]. coaccionar_v := v_trans_np_mrkd_cp_prop_inf_oc_le & [ STEM < "coaccionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_coaccionar_v_rel" ] ]. desnudar_v1 := v_pron_intr_le & [ STEM < "desnudar" >, SYNSEM.LKEYS [ KEYREL [ PRED "_desnudar_v_rel" ] ] ]. desnudar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "desnudar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ PRED "_desnudar_v_rel" ] ] ]. discriminar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "discriminar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum_plant_pot_soc, PRED "_discriminar_v_rel" ] ] ]. discriminar_v2 := v_trans_np_le & [ STEM < "discriminar" >, SYNSEM.LKEYS [ KEYREL [ ARG1.SORT abs_hum_sem_soc, ARG2.SORT hum_soc, PRED "_discriminar_v_rel" ] ] ]. entrecruzar_v1 := v_pron_intr_le & [ STEM < "entrecruzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT loc, PRED "_entrecruzar_v_rel" ] ]. hinchar_v1 := v_pron_intr_le & [ STEM < "hinchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart, PRED "_hinchar_v_rel" ] ]. orificar_v := v_trans_np_le & [ STEM < "orificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc, PRED "_orificar_v_rel" ] ]. fracturar_v2 := v_pron_trans_np_le & [ STEM < "fracturar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc, PRED "_fracturar_v_rel" ] ]. latir_v := v_intr_le & [ STEM < "latir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart, PRED "_latir_v_rel" ] ]. calcar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "calcar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ PRED "calcar__v_rel" ] ] ]. arrasar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "arrasar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT bpart, ARG2.SORT cnc, PRED "_arrasar_v_rel" ] ] ]. cesar_v4 := v_trans_np_le & [ STEM < "cesar" >, SYNSEM.LKEYS [ KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum, PRED "_cesar_v_rel" ] ] ]. arriesgar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arriesgar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ PRED "_arriesgar_v_rel" ] ] ]. ;;; borrar_v1 := v_intr_le & [ STEM < "borrar" >, SYNSEM.LKEYS [ KEYREL [ ARG1.SORT cnc_hum_mat_pot, PRED "_borrar_v_rel" ] ] ]. supurar_v := v_intr_le & [ STEM < "supurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart_cnc, PRED "_supurar_v_rel" ] ]. desinflamar_v := v_trans_np_caus_le & [ STEM < "desinflamar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_bpart_cnc, PRED "_desinflamar_v_rel" ] ]. chasquear_v := v_trans_np*_le & [ STEM < "chasquear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart_cnc, PRED "_chasquear_v_rel" ] ]. agarrotar_v1 := v_trans_np_caus_le & [ STEM < "agarrotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT bpart_cnc, PRED "_agarrotar_v_rel" ] ]. urbanizar_v := v_trans_np_le & [ STEM < "urbanizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT loc, PRED "_urbanizar_v_rel" ] ]. sondear_v1 := v_trans_np_le & [ STEM < "sondear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, ARG2.SORT loc, PRED "_sondear_v_rel" ] ]. agachar_v3 := v_trans_np_le & [ STEM < "agachar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT bpart, PRED "_agachar_v_rel" ] ]. afeitar_v1 := v_pron_trans_np_le & [ STEM < "afeitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT bpart, PRED "_afeitar_v_rel" ] ]. afilar_v1 := v_trans_np_le & [ STEM < "afilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_cnc_hum, ARG2.SORT bpart_cnc, PRED "afila_r_v_rel" ] ].