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Resequencing 250 Soybean Accessions: New Insights into Genes Associated with Agronomic Traits and Genetic Networks

Chunming Yang, Jun Yan, Shuqin Jiang, Xia Li, Haowei Min, Xiangfeng Wang, Dongyun Hao

2021Genomics Proteomics & Bioinformatics45 citationsDOIOpen Access PDF

Abstract

The limited knowledge of genomic diversity and functional genes associated with the traits of soybean varieties has resulted in slow progress in breeding. In this study, we sequenced the genomes of 250 soybean landraces and cultivars from China, America, and Europe, and investigated their population structure, genetic diversity and architecture, and the selective sweep regions of these accessions. Five novel agronomically important genes were identified, and the effects of functional mutations in respective genes were examined. The candidate genes GSTT1, GL3, and GSTL3 associated with the isoflavone content, CKX3 associated with yield traits, and CYP85A2 associated with both architecture and yield traits were found. The phenotype-gene network analysis revealed that hub nodes play a crucial role in complex phenotypic associations. This study describes novel agronomic trait-associated genes and a complex genetic network, providing a valuable resource for future soybean molecular breeding.

Topics & Concepts

BiologyGenetic architectureGeneGenetic diversityPhenotypeTraitQuantitative trait locusGeneticsCandidate geneMolecular breedingGenomeGenome-wide association studyPhenotypic traitPopulationGenotypeSingle-nucleotide polymorphismComputer scienceProgramming languageSociologyDemographySoybean genetics and cultivationLegume Nitrogen Fixing SymbiosisPlant pathogens and resistance mechanisms
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