Data sets and computer code for: Population genomics of Fusarium subglutinans and Fusarium temperatum from Argentina

dc.contributor.authorFumero, M. Veronica
dc.contributor.authorYue, Wei
dc.contributor.authorChiotta, María L.
dc.contributor.authorChulze, Sofía N.
dc.contributor.authorLeslie, John F.
dc.contributor.authorToomajian, Christopher
dc.contributor.authoreidjflen_US
dc.contributor.authoreidtoomajiaen_US
dc.date.accessioned2020-09-24T21:45:07Z
dc.date.available2020-09-24T21:45:07Z
dc.date.issued2020-09-24
dc.date.published2020en_US
dc.description.abstractFusarium subglutinans and Fusarium temperatum are two important fungal pathogens of maize whose distinctness as separate species has been difficult to assess. We isolated strains of these species from commercial and native maize varieties in Argentina and sequenced >28,000 GBS loci to estimate genetic variation in the sample. Our objectives were to measure genetic divergence between the species, infer demographic parameters related to their split, and describe the population structure of the sample. When analyzed together, over 30% of each species’ polymorphic sites (>2,500 sites) segregate as polymorphisms in the other. Demographic modeling confirmed the species split predated maize domestication, but subsequent between-species gene flow has occurred, with gene flow from F. subglutinans into F. temperatum greater than gene flow in the reverse direction. In F. subglutinans, little evidence exists for substructure or recent selective sweeps, but there is evidence for limited sexual reproduction. In F. temperatum, there is clear evidence for population substructure and signals of abundant recent selective sweeps, with sexual reproduction probably less common than in F. subglutinans. Both genetic variability and the relative number of polymorphisms shared between species increase near the telomeres of all 12 chromosomes, where genes related to plant-pathogen interactions often are located. Our results suggest that species boundaries between closely related Fusarium species can be porous and merit further study. Such porosity could facilitate unanticipated genetic exchange between species and enable quicker permanent responses to changes in the agro-ecosystem, e.g., pathogen-resistant host varieties, new chemical and biological control agents, and agronomic practices.en_US
dc.identifier.urihttps://hdl.handle.net/2097/40869
dc.language.isoen_USen_US
dc.rightsAttribution-NonCommercial 4.0 International (CC BY-NC 4.0)
dc.rights.urihttps://creativecommons.org/licenses/by-nc/4.0/
dc.subjectFusarium subglutinansen_US
dc.subjectFusarium temperatumen_US
dc.subjectGBS markersen_US
dc.subjectspecies boundaryen_US
dc.subjectpopulation structureen_US
dc.subjectgene flowen_US
dc.titleData sets and computer code for: Population genomics of Fusarium subglutinans and Fusarium temperatum from Argentinaen_US
dc.title.alternativeDivergence and Gene Flow Between Fusarium subglutinans and Fusarium temperatum isolated from maize in Argentinaen_US
dc.typeOtheren_US

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VCF file output of GATK v. 3.1- HaplotypeCaller tool run on BAM file of GBS reads mapped to F. temperatum CMWF389 genome
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Tab separated variant table exported from vcf file 1a
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Tab separated output of Perl script a_summarize_results_table.pl. Includes genotypes from 95 strains plus additional information on each SNP

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