水稻中独脚金内酯感知的调控机制。

Regulatory mechanisms of strigolactone perception in rice.

作者信息

Hu Qingliang, Liu Huihui, He Yajun, Hao Yanrong, Yan Jijun, Liu Simao, Huang Xiahe, Yan Zongyun, Zhang Dahan, Ban Xinwei, Zhang Hao, Li Qianqian, Zhang Jingkun, Xin Peiyong, Jing Yanhui, Kou Liquan, Sang Dajun, Wang Yonghong, Wang Yingchun, Meng Xiangbing, Fu Xiangdong, Chu Jinfang, Wang Bing, Li Jiayang

机构信息

Key Laboratory of Seed Innovation and National Center for Plant Gene Research (Beijing), Institute of Genetics and Developmental Biology, Innovation Academy for Seed Design, Chinese Academy of Sciences, 100101 Beijing, China.

出版信息

Cell. 2024 Dec 26;187(26):7551-7567.e17. doi: 10.1016/j.cell.2024.10.009. Epub 2024 Nov 4.

DOI:10.1016/j.cell.2024.10.009

PMID:39500324

Abstract

Strigolactones (SLs) are hormones essential for plant development and environmental responses. SL perception requires the formation of the complex composed of an SL receptor DWARF14 (D14), F-box protein D3, and transcriptional repressor D53, triggering ubiquitination and degradation of D53 to activate signal transduction. However, mechanisms of SL perception and their influence on plant architecture and environmental responses remain elusive and controversial. Here, we report that key residues at interfaces of the AtD14-D3-ASK1 complex are essential for the activation of SL perception, discover that overexpression of the D3-CTH motif negatively regulates SL perception to enhance tillering, and reveal the importance of phosphorylation and N-terminal disordered (NTD) domain in mediating ubiquitination and degradation of D14. Importantly, low nitrogen promotes phosphorylation and stabilization of D14 to repress rice tillering. These findings reveal a panorama of the activation, termination, and regulation of SL perception, which determines the plasticity of plant architecture in complex environments.

摘要

独脚金内酯（SLs）是植物发育和环境响应所必需的激素。SL感知需要由SL受体DWARF14（D14）、F-box蛋白D3和转录抑制因子D53组成的复合物的形成，触发D53的泛素化和降解以激活信号转导。然而，SL感知的机制及其对植物结构和环境响应的影响仍然难以捉摸且存在争议。在此，我们报道AtD14-D3-ASK1复合物界面处的关键残基对于激活SL感知至关重要，发现D3-CTH基序的过表达负向调节SL感知以增强分蘖，并揭示了磷酸化和N端无序（NTD）结构域在介导D14的泛素化和降解中的重要性。重要的是，低氮促进D14的磷酸化和稳定以抑制水稻分蘖。这些发现揭示了SL感知的激活、终止和调节的全貌，这决定了复杂环境中植物结构的可塑性。

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水稻中独脚金内酯感知的调控机制。

Regulatory mechanisms of strigolactone perception in rice.

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