Abstract
Cotton fiber is one of the main raw materials for the textile industry. In recent years, many cotton fiber quality QTL have been identified, but few were applied in breeding. In this study, a genome wide association study (GWAS) of fiber-quality traits in 265 upland cotton breeding intermediate lines (GhBreeding), combined with genome-wide selective sweep analysis (GSSA) and genomic selection (GS), revealed 25 QTL. Most of these QTL were ignored by only using GWAS. The CRISPR/Cas9 mutants of GhMYB_D13 had shorter fiber, which indicates the credibility of QTL to a certain extent. Then these QTL were verified in other cotton natural populations, 5 stable QTL were found having broad potential for application in breeding. Additionally, among these 5 stable QTL, superior genotypes of 4 showed an enrichment in most improved new varieties widely cultivated currently. These findings provide insights for how to identify more QTL through combined multiple genomic analysis to apply in breeding.
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