First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature

First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature

Of the four fusaria that have been shown to cause soybean sudden death syndrome [SDS], field surveys indicate that Fusarium tucumaniae is the most important and genetically diverse SDS pathogen in Argentina. Although none of the SDS fusaria have been shown to produce perithecia in nature, a heterothallic sexual cycle has been demonstrated for F. tucumaniae via laboratory crosses. Herein we report on the discovery of perithecia of F. tucumaniae on soybean in Argentina. Ascospores derived from these perithecia gave rise to colonies that produced sporodochial conidia diagnostic of F. tucumaniae. Sporodochial conidia were longer and narrower than those produced by the other SDS fusaria; these conidia also possessed a diagnostic acuate apical cell and a distinctly foot-shaped basal cell. Sixteen strains derived from single ascospores subjected to a validated multilocus genotyping assay [MLGT] for SDS species determination, together with 16 conidial isolates from two sites where teleomorphs were collected, independently confirmed the morphological identification as F. tucumaniae. This study represents the first authentic report of sexual reproduction by a soybean SDS pathogen in nature.

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Main Authors: Scandiani, María Mercedes, Aoki, T., Luque, A. G., Carmona, Marcelo Aníbal, O'Donnell, K.
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Language:spa
Subjects:APICAL CELLS, ARGENTINA, BASAL CELLS, FIELD SURVEYS, FUSARIUM, GENOTYPING ASSAYS, SEXUAL REPRODUCTION, SPECIES DETERMINATION, SUDDEN DEATH SYNDROMES, FUNGI, FUSARIA, FUSARIUM TUCUMANIAE, GLYCINE MAX, LAGASCEA MOLLIS,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46846
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spelling KOHA-OAI-AGRO:468462024-02-15T14:43:09Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46846AAGFirst report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in NatureScandiani, María MercedesAoki, T.Luque, A. G.Carmona, Marcelo AníbalO'Donnell, K.textspaapplication/pdfOf the four fusaria that have been shown to cause soybean sudden death syndrome [SDS], field surveys indicate that Fusarium tucumaniae is the most important and genetically diverse SDS pathogen in Argentina. Although none of the SDS fusaria have been shown to produce perithecia in nature, a heterothallic sexual cycle has been demonstrated for F. tucumaniae via laboratory crosses. Herein we report on the discovery of perithecia of F. tucumaniae on soybean in Argentina. Ascospores derived from these perithecia gave rise to colonies that produced sporodochial conidia diagnostic of F. tucumaniae. Sporodochial conidia were longer and narrower than those produced by the other SDS fusaria; these conidia also possessed a diagnostic acuate apical cell and a distinctly foot-shaped basal cell. Sixteen strains derived from single ascospores subjected to a validated multilocus genotyping assay [MLGT] for SDS species determination, together with 16 conidial isolates from two sites where teleomorphs were collected, independently confirmed the morphological identification as F. tucumaniae. This study represents the first authentic report of sexual reproduction by a soybean SDS pathogen in nature.Of the four fusaria that have been shown to cause soybean sudden death syndrome [SDS], field surveys indicate that Fusarium tucumaniae is the most important and genetically diverse SDS pathogen in Argentina. Although none of the SDS fusaria have been shown to produce perithecia in nature, a heterothallic sexual cycle has been demonstrated for F. tucumaniae via laboratory crosses. Herein we report on the discovery of perithecia of F. tucumaniae on soybean in Argentina. Ascospores derived from these perithecia gave rise to colonies that produced sporodochial conidia diagnostic of F. tucumaniae. Sporodochial conidia were longer and narrower than those produced by the other SDS fusaria; these conidia also possessed a diagnostic acuate apical cell and a distinctly foot-shaped basal cell. Sixteen strains derived from single ascospores subjected to a validated multilocus genotyping assay [MLGT] for SDS species determination, together with 16 conidial isolates from two sites where teleomorphs were collected, independently confirmed the morphological identification as F. tucumaniae. This study represents the first authentic report of sexual reproduction by a soybean SDS pathogen in nature.APICAL CELLSARGENTINABASAL CELLSFIELD SURVEYSFUSARIUMGENOTYPING ASSAYSSEXUAL REPRODUCTIONSPECIES DETERMINATIONSUDDEN DEATH SYNDROMESFUNGIFUSARIAFUSARIUM TUCUMANIAEGLYCINE MAXLAGASCEA MOLLISPlant Disease
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language spa
topic APICAL CELLS
ARGENTINA
BASAL CELLS
FIELD SURVEYS
FUSARIUM
GENOTYPING ASSAYS
SEXUAL REPRODUCTION
SPECIES DETERMINATION
SUDDEN DEATH SYNDROMES
FUNGI
FUSARIA
FUSARIUM TUCUMANIAE
GLYCINE MAX
LAGASCEA MOLLIS
APICAL CELLS
ARGENTINA
BASAL CELLS
FIELD SURVEYS
FUSARIUM
GENOTYPING ASSAYS
SEXUAL REPRODUCTION
SPECIES DETERMINATION
SUDDEN DEATH SYNDROMES
FUNGI
FUSARIA
FUSARIUM TUCUMANIAE
GLYCINE MAX
LAGASCEA MOLLIS
spellingShingle APICAL CELLS
ARGENTINA
BASAL CELLS
FIELD SURVEYS
FUSARIUM
GENOTYPING ASSAYS
SEXUAL REPRODUCTION
SPECIES DETERMINATION
SUDDEN DEATH SYNDROMES
FUNGI
FUSARIA
FUSARIUM TUCUMANIAE
GLYCINE MAX
LAGASCEA MOLLIS
APICAL CELLS
ARGENTINA
BASAL CELLS
FIELD SURVEYS
FUSARIUM
GENOTYPING ASSAYS
SEXUAL REPRODUCTION
SPECIES DETERMINATION
SUDDEN DEATH SYNDROMES
FUNGI
FUSARIA
FUSARIUM TUCUMANIAE
GLYCINE MAX
LAGASCEA MOLLIS
Scandiani, María Mercedes
Aoki, T.
Luque, A. G.
Carmona, Marcelo Aníbal
O'Donnell, K.
First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
description Of the four fusaria that have been shown to cause soybean sudden death syndrome [SDS], field surveys indicate that Fusarium tucumaniae is the most important and genetically diverse SDS pathogen in Argentina. Although none of the SDS fusaria have been shown to produce perithecia in nature, a heterothallic sexual cycle has been demonstrated for F. tucumaniae via laboratory crosses. Herein we report on the discovery of perithecia of F. tucumaniae on soybean in Argentina. Ascospores derived from these perithecia gave rise to colonies that produced sporodochial conidia diagnostic of F. tucumaniae. Sporodochial conidia were longer and narrower than those produced by the other SDS fusaria; these conidia also possessed a diagnostic acuate apical cell and a distinctly foot-shaped basal cell. Sixteen strains derived from single ascospores subjected to a validated multilocus genotyping assay [MLGT] for SDS species determination, together with 16 conidial isolates from two sites where teleomorphs were collected, independently confirmed the morphological identification as F. tucumaniae. This study represents the first authentic report of sexual reproduction by a soybean SDS pathogen in nature.
format Texto
topic_facet APICAL CELLS
ARGENTINA
BASAL CELLS
FIELD SURVEYS
FUSARIUM
GENOTYPING ASSAYS
SEXUAL REPRODUCTION
SPECIES DETERMINATION
SUDDEN DEATH SYNDROMES
FUNGI
FUSARIA
FUSARIUM TUCUMANIAE
GLYCINE MAX
LAGASCEA MOLLIS
author Scandiani, María Mercedes
Aoki, T.
Luque, A. G.
Carmona, Marcelo Aníbal
O'Donnell, K.
author_facet Scandiani, María Mercedes
Aoki, T.
Luque, A. G.
Carmona, Marcelo Aníbal
O'Donnell, K.
author_sort Scandiani, María Mercedes
title First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
title_short First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
title_full First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
title_fullStr First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
title_full_unstemmed First report of sexual reproduction by the soybean sudden death syndrome pathogen Fusarium tucumaniae in Nature
title_sort first report of sexual reproduction by the soybean sudden death syndrome pathogen fusarium tucumaniae in nature
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46846
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