MENU
首页» 新闻动态» 最新论文

GW5 acts in the brassinosteroid signalling pathway to regulate grain width and weight in rice

  作 者:Jiafan Liu, Jun Chen, Xiaoming Zheng, Fuqing Wu, Qibing Lin, Yueqin Heng, Peng Tian, ZhiJun Cheng, Xiaowen Yu, Kunneng Zhou, Xin Zhang, Xiuping Guo, Jiulin Wang, Haiyang Wang & Jianmin Wan

  影响因子: 

  刊物名称: NATURE PLANTS

  出版年份: 2017

  卷:    期:3   页码: 

  doi:10.1038/nplants.2017.43. 

  文章摘要 : 

  Grain size is a major determinant of grain yield in cereal crops. qSW5/GW5, which exerts the greatest effect on rice grain width and weight, was fine-mapped to a 2,263-bp/21-kb genomic region containing a 1,212-bp deletion, respectively. Here, we show that a gene encoding a calmodulin binding protein, located ~5?kb downstream of the 1,212-bp deletion, corresponds to qSW5/GW5. GW5 is expressed in various rice organs, with highest expression level detected in young panicles. We provide evidence that the 1,212-bp deletion affects grain width most likely through influencing the expression levels of GW5. GW5 protein is localized to the plasma membrane and can physically interact with and repress the kinase activity of rice GSK2 (glycogen synthase kinase 2), a homologue of Arabidopsis BIN2 (BRASSINOSTEROID INSENSITIVE2) kinase, resulting in accumulation of unphosphorylated OsBZR1 (Oryza sativa BRASSINAZOLE RESISTANT1) and DLT (DWARF AND LOW-TILLERING) proteins in the nucleus to mediate brassinosteroid (BR)-responsive gene expression and growth responses (including grain width and weight). Our results suggest that GW5 is a novel positive regulator of BR signalling and a viable target for genetic manipulation to improve grain yield in rice and perhaps in other cereal crops as well.

  下载链接:www.nature.com/articles/nplants201743



TOP