Asymmetric subgenome selection and cis-regulatory divergence during cotton domestication

Xianlong Zhang, Keith Lindsey and colleagues report a population genomic analysis of Upland cotton (Gossypium hirsutum) that identifies 93 potential domestication-sweep regions and 19 candidate loci for fiber-quality-related traits. Their analysis provides evidence for asymmetric subgenome selection for long white fibers in cultivated cotton. Comparative population genomics offers an excellent opportunity for unraveling the genetic history of crop domestication. Upland cotton (Gossypium hirsutum) has long been an important economic crop, but a genome-wide and evolutionary understanding of the effects of human selection is lacking. Here, we describe a variation map for 352 wild and domesticated cotton accessions. We scanned 93 domestication sweeps occupying 74 Mb of the A subgenome and 104 Mb of the D subgenome, and identified 19 candidate loci for fiber-quality-related traits through a genome-wide association study. We provide evidence showing asymmetric subgenome domestication for directional selection of long fibers. Global analyses of DNase I–hypersensitive sites and 3D genome architecture, linking functional variants to gene transcription, demonstrate the effects of domestication on cis-regulatory divergence. This study provides new insights into the evolution of gene organization, regulation and adaptation in a major crop, and should serve as a rich resource for genome-based cotton improvement.