The near-complete genome assembly of hexaploid wild oat reveals its genome evolution and divergence with cultivated oats
文献类型: 外文期刊
第一作者: He, Qiang
作者: He, Qiang;Li, Wei;Miao, Yuqing;Wang, Yu;Liu, Ningkun;Liu, Jianan;Li, Tao;Xiao, Yao;Zhang, Hongyu;Wang, Yaru;Liang, Hanfei;Yun, Yange;Wang, Shuhui;Sun, Qingbin;Gong, Zhizhong;Du, Huilong;He, Qiang;Li, Wei;Liu, Ningkun;Wang, Shuhui;Sun, Qingbin;Gong, Zhizhong;Du, Huilong;Wang, Hongru
作者机构:
期刊名称:NATURE PLANTS ( 影响因子:13.6; 五年影响因子:17.0 )
ISSN: 2055-026X
年卷期: 2024 年 10 卷 12 期
页码:
收录情况: SCI
摘要: Avena sterilis, the ancestral species of cultivated oats, is a valuable genetic resource for oat improvement. Here we generated a near-complete 10.99 Gb A. sterilis genome and a high-quality 10.89 Gb cultivated oat genome. Genome evolution analysis revealed the centromeres dynamic and structural variations landscape associated with domestication between wild and cultivated oats. Population genetic analysis of 117 wild and cultivated oat accessions worldwide detected many candidate genes associated with important agronomic traits for oat domestication and improvement. Remarkably, a large fragment duplication from chromosomes 4A to 4D harbouring many agronomically important genes was detected during oat domestication and was fixed in almost all cultivated oats from around the world. The genes in the duplication region from 4A showed significantly higher expression levels and lower methylation levels than the orthologous genes located on 4D in A. sterilis. This study provides valuable resources for evolutionary and functional genomics and genetic improvement of oat. The near-complete genome of hexaploid wild oat, along with 117 global wild and cultivated accessions, reveals genome divergence between wild and cultivated oats and a large fragment duplication event from chromosomes 4A to 4D during oat domestication.
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