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Natural variation at the DEP1 locus enhances grain yield in rice
Xianzhong Huang,Qian Qian,Zhengbin Liu,Hongying Sun,Shuyuan He,Da Luo,Guangmin Xia,Chengcai Chu,Jiayang Li & Xiangdong Fu.
Nature Genetics
Abstract
Grain yield is controlled by quantitative trait loci (QTLs) derived from natural variations in many crop plants. Here we report the molecular characterization of a major rice grain yield QTL that acts through the determination of panicle architecture. The dominant allele at the DEP1 locus is a gain-of-function mutation causing truncation of a phosphatidylethanolamine-binding protein-like domain protein. The effect of this allele is to enhance meristematic activity, resulting in a reduced length of the inflorescence internode, an increased number of grains per panicle and a consequent increase in grain yield. This allele is common to many Chinese high-yielding rice varieties and likely represents a relatively recent introduction into the cultivated rice gene pool. We also show that a functionally equivalent allele is present in the temperate cereals and seems to have arisen before the divergence of the wheat and barley lineages.
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| 论文编号: |
DOI:10.1038/ng.352 |
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Natural variation at the DEP1 locus enhances grain yield in rice |
| 英文论文题目: |
Natural variation at the DEP1 locus enhances grain yield in rice |
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Xianzhong Huang,Qian Qian,Zhengbin Liu,Hongying Sun,Shuyuan He,Da Luo,Guangmin Xia,Chengcai Chu,Jiayang Li & Xiangdong Fu. |
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2009-3-23 |
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| 英文摘要: |
Grain yield is controlled by quantitative trait loci (QTLs) derived from natural variations in many crop plants. Here we report the molecular characterization of a major rice grain yield QTL that acts through the determination of panicle architecture. The dominant allele at the DEP1 locus is a gain-of-function mutation causing truncation of a phosphatidylethanolamine-binding protein-like domain protein. The effect of this allele is to enhance meristematic activity, resulting in a reduced length of the inflorescence internode, an increased number of grains per panicle and a consequent increase in grain yield. This allele is common to many Chinese high-yielding rice varieties and likely represents a relatively recent introduction into the cultivated rice gene pool. We also show that a functionally equivalent allele is present in the temperate cereals and seems to have arisen before the divergence of the wheat and barley lineages. |
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Nature Genetics |
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Xianzhong Huang,Qian Qian,Zhengbin Liu,Hongying Sun,Shuyuan He,Da Luo,Guangmin Xia,Chengcai Chu,Jiayang Li & Xiangdong Fu. Natural variation at the DEP1 locus enhances grain yield in rice. Nature Genetics. DOI:10.1038/ng.352 |
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