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Genome-Wide Association Study of Soybean Germplasm Derived From Canadian × Chinese Crosses to Mine for Novel Alleles to Improve Seed Yield and Seed Quality Traits

Chanditha Priyanatha, Davoud Torkamaneh, Istvan Rajcan

2022Frontiers in Plant Science29 citationsDOIOpen Access PDF

Abstract

(L.) Merr.], which is the third largest field crop in Canada, a GWAS was conducted to identify novel alleles underlying seed yield and seed quality and agronomic traits. The genomic panel consisted of 200 genotypes including lines derived from several generations of bi-parental crosses between modern Canadian × Chinese cultivars (CD-CH). The genomic diversity panel was field evaluated at two field locations in Ontario in 2019 and 2020. Genotyping-by-sequencing (GBS) was conducted and yielded almost 32 K high-quality SNPs. GWAS was conducted using Fixed and random model Circulating Probability Unification (FarmCPU) model on the following traits: seed yield, seed protein concentration, seed oil concentration, plant height, 100 seed weight, days to maturity, and lodging score that allowed to identify five QTL regions controlling seed yield and seed oil and protein content. A candidate gene search identified a putative gene for each of the three traits. The results of this GWAS study provide insight into potentially valuable genetic resources residing in Chinese modern cultivars that breeders may use to further improve soybean seed yield and seed quality traits.

Topics & Concepts

GermplasmBiologyGenome-wide association studyQuantitative trait locusBiotechnologyGenetic diversityAlleleGenotypingGenetic associationCultivarSingle-nucleotide polymorphismGeneticsPlant breedingGenotypeAgronomyGenePopulationMedicineEnvironmental healthSoybean genetics and cultivationPlant pathogens and resistance mechanismsLegume Nitrogen Fixing Symbiosis
Genome-Wide Association Study of Soybean Germplasm Derived From Canadian × Chinese Crosses to Mine for Novel Alleles to Improve Seed Yield and Seed Quality Traits | Litcius