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拟南芥先天免疫中的动态 G 蛋白α信号转导。

Dynamic G protein alpha signaling in Arabidopsis innate immunity.

机构信息

State Key Laboratory of Biocontrol, Guangdong Provincial Key Laboratory of Plant Resources, Key Laboratory of Gene Engineering of Ministry of Education, Collaborative Innovation Center of Genetics and Development, School of Life Sciences, Sun Yat-sen University, Guangzhou, China.

State Key Laboratory of Biocontrol, Guangdong Provincial Key Laboratory of Plant Resources, Key Laboratory of Gene Engineering of Ministry of Education, Collaborative Innovation Center of Genetics and Development, School of Life Sciences, Sun Yat-sen University, Guangzhou, China.

出版信息

Biochem Biophys Res Commun. 2019 Aug 27;516(3):1039-1045. doi: 10.1016/j.bbrc.2017.07.040. Epub 2017 Jul 8.

DOI:10.1016/j.bbrc.2017.07.040
PMID:28698136
Abstract

Heterotrimeric G proteins composed of Gα, Gβ and Gγ subunits are evolutionarily conserved signaling modules involved in diverse biological processes in plants and animals. The role and action of Gα remain largely enigmatic in plant innate immunity. We have recently demonstrated that Arabidopsis Gα (GPA1) is a key component of a new immune signaling pathway activated by bacteria-secreted proteases. Here we show that GPA1 is also involved in the signaling network of Arabidopsis in response to the bacterial flagellin epitope flg22. Specifically, GPA1 plays a pivotal role in an immune pathway involving the flg22 receptor FLS2, co-receptor BAK1, Regulator of G Signaling 1 (RGS1), and Arabidopsis Gβ (AGB1), in which flg22 elicits GPA1/AGB1 dissociation from the FLS2/BAK1/RGS1 receptor complex. Consequently, we observed flg22-induced degradation of FLS2, BAK1 and RGS1 but not GPA1 or AGB1. We also found that GPA1 constitutively interacts with the NADPH oxidase RbohD to potentiate flg22-induced ROS burst independently of the central cytoplasmic kinase BIK1. Taken together, our work sheds multiple novel insights into the functions and regulatory mechanisms of GPA1 in Arabidopsis innate immunity.

摘要

异三聚体 G 蛋白由 Gα、Gβ 和 Gγ 亚基组成,是进化上保守的信号模块,参与动植物中多种生物过程。Gα 在植物先天免疫中的作用和功能在很大程度上仍是个谜。我们最近证明,拟南芥 Gα(GPA1)是一种由细菌分泌的蛋白酶激活的新免疫信号通路的关键组成部分。在这里,我们表明 GPA1 也参与了拟南芥对细菌鞭毛蛋白表位 flg22 的信号网络。具体而言,GPA1 在涉及 flg22 受体 FLS2、共受体 BAK1、G 信号调节因子 1(RGS1)的免疫途径中发挥关键作用,其中 flg22 引发 GPA1/AGB1 从 FLS2/BAK1/RGS1 受体复合物中解离。因此,我们观察到 flg22 诱导 FLS2、BAK1 和 RGS1 的降解,但不诱导 GPA1 或 AGB1 的降解。我们还发现 GPA1 与 NADPH 氧化酶 RbohD 持续相互作用,独立于中央细胞质激酶 BIK1 增强 flg22 诱导的 ROS 爆发。总之,我们的工作为 GPA1 在拟南芥先天免疫中的功能和调节机制提供了多个新的见解。

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