Literature DB >> 27602511

Genomic architecture of heterosis for yield traits in rice.

Xuehui Huang1, Shihua Yang2, Junyi Gong2, Qiang Zhao1, Qi Feng1, Qilin Zhan1, Yan Zhao1, Wenjun Li1, Benyi Cheng2, Junhui Xia2, Neng Chen2, Tao Huang1, Lei Zhang1, Danlin Fan1, Jiaying Chen1, Congcong Zhou1, Yiqi Lu1, Qijun Weng1, Bin Han1.   

Abstract

Increasing grain yield is a long-term goal in crop breeding to meet the demand for global food security. Heterosis, when a hybrid shows higher performance for a trait than both parents, offers an important strategy for crop breeding. To examine the genetic basis of heterosis for yield in rice, here we generate, sequence and record the phenotypes of 10,074 F2 lines from 17 representative hybrid rice crosses. We classify modern hybrid rice varieties into three groups, representing different hybrid breeding systems. Although we do not find any heterosis-associated loci shared across all lines, within each group, a small number of genomic loci from female parents explain a large proportion of the yield advantage of hybrids over their male parents. For some of these loci, we find support for partial dominance of heterozygous locus for yield-related traits and better-parent heterosis for overall performance when all of the grain-yield traits are considered together. These results inform on the genomic architecture of heterosis and rice hybrid breeding.

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Year:  2016        PMID: 27602511     DOI: 10.1038/nature19760

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  42 in total

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Authors:  Xuehui Huang; Shihua Yang; Junyi Gong; Yan Zhao; Qi Feng; Hao Gong; Wenjun Li; Qilin Zhan; Benyi Cheng; Junhui Xia; Neng Chen; Zhongna Hao; Kunyan Liu; Chuanrang Zhu; Tao Huang; Qiang Zhao; Lei Zhang; Danlin Fan; Congcong Zhou; Yiqi Lu; Qijun Weng; Zi-Xuan Wang; Jiayang Li; Bin Han
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  98 in total

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