Heterotrimeric G proteins regulate nitrogen-use efficiency in rice

被引:0
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作者
Hongying Sun
Qian Qian
Kun Wu
Jijing Luo
Shuansuo Wang
Chengwei Zhang
Yanfei Ma
Qian Liu
Xianzhong Huang
Qingbo Yuan
Ruixi Han
Meng Zhao
Guojun Dong
Longbiao Guo
Xudong Zhu
Zhiheng Gou
Wen Wang
Yuejin Wu
Hongxuan Lin
Xiangdong Fu
机构
[1] The State Key Laboratory of Plant Cell and Chromosome Engineering,
[2] Institute of Genetics and Developmental Biology,undefined
[3] Chinese Academy of Sciences,undefined
[4] National Centre for Plant Gene Research,undefined
[5] The State Key Laboratory of Rice Biology,undefined
[6] China National Rice Research Institute,undefined
[7] The State Key Laboratory of Plant Molecular Genetics,undefined
[8] Shanghai Institute of Plant Physiology and Ecology,undefined
[9] Shanghai Institutes for Biological Sciences,undefined
[10] Chinese Academy of Sciences,undefined
[11] Institute of Technical Biology and Agriculture Engineering,undefined
[12] Hefei Institutes of Physical Science,undefined
[13] Chinese Academy of Sciences,undefined
[14] The State Key Laboratory of Genetic Resources and Evolution,undefined
[15] Kunming Institute of Zoology,undefined
[16] Chinese Academy of Sciences,undefined
来源
Nature Genetics | 2014年 / 46卷
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摘要
Xiangdong Fu and colleagues show that variation in DEP1, which encodes a G protein subunit known to influence rice panicle architecture, underlies a major quantitative trait locus for nitrogen-use efficiency. These findings suggest that modulating heterotrimeric G protein activity could contribute to environmentally sustainable increases in rice grain yield.
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页码:652 / 656
页数:4
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