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MultiGWAS: An integrative tool for Genome Wide Association Studies (GWAS) in tetraploid organisms
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  • Luis Garreta,
  • Ivania Cerón-Souza,
  • Manfred Palacio,
  • Paula Reyes-Herrera
Luis Garreta
AGROSAVIA

Corresponding Author:lgarreta@agrosavia.co

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Ivania Cerón-Souza
AGROSAVIA
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Manfred Palacio
AGROSAVIA
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Paula Reyes-Herrera
AGROSAVIA
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Abstract

The Genome-Wide Association Studies (GWAS) are essential to determine the genetic bases of either ecological or economic phenotypic variation across individuals within populations of model and non-model organisms. For this research question, current practice is the replication of the GWAS testing different parameters and models to validate the reproducibility of results. However, straightforward methodologies that manage both replication and tetraploid data are still missing. To solve this problem, we designed the MultiGWAS, a tool that does GWAS for diploid and tetraploid organisms by executing in parallel four software, two for polyploid data (GWASpoly and SHEsis) and two for diploids data (PLINK and TASSEL). MultiGWAS has several advantages. It runs either in the command line or in an interface. It manages different genotype formats, including VCF. It executes both the full and naïve models using several quality filters. Besides, it calculates a score to choose the best gene action model across GWASPoly and TASSEL. Finally, it generates several reports that facilitate the identification of false associations from both the significant and the best-ranked association SNP among the four software. We tested MultiGWAS with tetraploid potato data. The execution demonstrated that the Venn diagram and the other companion reports (i.e., Manhattan and QQ plots, heatmaps for associated SNP profiles, and chord diagrams to trace associated SNP by chromosomes) were useful to identify associated SNP shared among different models and parameters. Therefore, we confirmed that MultiGWAS is a suitable wrapping tool that successfully handles GWAS replication in both diploid and tetraploid organisms.
17 Aug 2020Submitted to Molecular Ecology Resources
11 Sep 2020Submission Checks Completed
11 Sep 2020Assigned to Editor
16 Sep 2020Reviewer(s) Assigned
20 Oct 2020Review(s) Completed, Editorial Evaluation Pending
Jun 2021Published in Ecology and Evolution volume 11 issue 12 on pages 7411-7426. 10.1002/ece3.7572