National Center for Gene Research, CAS Center for Excellence of Molecular Plant Sciences, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 200233, China.
State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China.
Nature. 2016 Sep 29;537(7622):629-633. doi: 10.1038/nature19760. Epub 2016 Sep 7.
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 F 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.
提高粮食产量是作物育种的长期目标,以满足全球粮食安全的需求。杂种优势是指杂种在某一性状上表现出比双亲更高的性能,这为作物育种提供了重要策略。为了研究水稻产量杂种优势的遗传基础,我们生成、测序并记录了来自 17 个代表性杂交水稻杂交的 10074 个 F 系的表型。我们将现代杂交水稻品种分为三组,代表不同的杂交育种系统。尽管我们没有在所有系中发现任何杂种优势相关的共同基因座,但在每个组中,来自母本的少数基因组基因座解释了杂种相对于父本的产量优势的很大一部分。对于其中一些基因座,我们发现与产量相关性状的杂合基因座部分显性和整体表现的优势亲杂种优势存在一定的相关性,当所有的粒产量性状一起考虑时。这些结果为杂种优势和水稻杂交育种的基因组结构提供了信息。
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