The PLATZ Transcription Factor GL6 Affects Grain Length and Number in Rice
Ahong Wang(Chinese Academy of Sciences), Qingqing Hou(Chinese Academy of Sciences), Lizhen Si(Chinese Academy of Sciences), Xuehui Huang(Shanghai Normal University), Jianghong Luo(Chinese Academy of Sciences), Danfeng Lu(Chinese Academy of Sciences), Jingjie Zhu(Chinese Academy of Sciences), Yingying Shangguan(Chinese Academy of Sciences), Jiashun Miao(Chinese Academy of Sciences), Yifan Xie(Chinese Academy of Sciences), Yongchun Wang(Chinese Academy of Sciences), Qiang Zhao(Chinese Academy of Sciences), Qi Feng(Chinese Academy of Sciences), Congcong Zhou(Chinese Academy of Sciences), Yan Li(Chinese Academy of Sciences), Danlin Fan(Chinese Academy of Sciences), Yiqi Lu(Chinese Academy of Sciences), Qilin Tian(Chinese Academy of Sciences), Zixuan Wang(Chinese Academy of Sciences), Bin Han(Chinese Academy of Sciences)
Cited by 211Open Access
Abstract
results in large grains and decreased grain number per panicle. We demonstrate that GL6 participates in RNA polymerase III transcription machinery by interacting with RNA polymerase III subunit C53 and transcription factor class C1 to regulate the expression of genes involved in rice grain development. Our findings reveal a further player involved in the regulation of rice grain size that may be exploited in future rice breeding.
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