Resequencing of 243 diploid cotton accessions based on an updated A genome identifies the genetic basis of key agronomic traits.
Xiongming DuGai HuangShoupu HeFuguang LiGaofei SunXiongfeng MaNan LiXueyan ZhangJunling SunMin LiuYinhua JiaZhaoe PanWenfang GongZhaohui LiuHeqin ZhuLei MaFuyan LiuDaigang YangFan WangWei FanQian GongZhen PengLiru WangXiaoyang WangShuangjiao XuHaihong ShangCairui LuHongkun ZhengSanwen HuangTao LinYuxian ZhuFuguang LiPublished in: Nature genetics (2018)
The ancestors of Gossypium arboreum and Gossypium herbaceum provided the A subgenome for the modern cultivated allotetraploid cotton. Here, we upgraded the G. arboreum genome assembly by integrating different technologies. We resequenced 243 G. arboreum and G. herbaceum accessions to generate a map of genome variations and found that they are equally diverged from Gossypium raimondii. Independent analysis suggested that Chinese G. arboreum originated in South China and was subsequently introduced to the Yangtze and Yellow River regions. Most accessions with domestication-related traits experienced geographic isolation. Genome-wide association study (GWAS) identified 98 significant peak associations for 11 agronomically important traits in G. arboreum. A nonsynonymous substitution (cysteine-to-arginine substitution) of GaKASIII seems to confer substantial fatty acid composition (C16:0 and C16:1) changes in cotton seeds. Resistance to fusarium wilt disease is associated with activation of GaGSTF9 expression. Our work represents a major step toward understanding the evolution of the A genome of cotton.