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TOUCH 3 和钙调蛋白 1/4/6 与钙依赖性蛋白激酶合作,触发钙依赖性 CAM-BINDING PROTEIN 60-LIKE G 的激活,并调节植物中的真菌抗性。

TOUCH 3 and CALMODULIN 1/4/6 cooperate with calcium-dependent protein kinases to trigger calcium-dependent activation of CAM-BINDING PROTEIN 60-LIKE G and regulate fungal resistance in plants.

机构信息

State Key Laboratory of Plant Genomics, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, China.

CAS Center for Excellence in Biotic Interactions, University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Plant Cell. 2022 Sep 27;34(10):4088-4104. doi: 10.1093/plcell/koac209.

DOI:10.1093/plcell/koac209
PMID:35863056
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9516039/
Abstract

Plants utilize localized cell-surface and intracellular receptors to sense microbes and activate the influx of calcium, which serves as an important second messenger in eukaryotes to regulate cellular responses. However, the mechanisms through which plants decipher calcium influx to activate immune responses remain largely unknown. Here, we show that pathogen-associated molecular patterns (PAMPs) trigger calcium-dependent phosphorylation of CAM-BINDING PROTEIN 60-LIKE G (CBP60g) in Arabidopsis (Arabidopsis thaliana). CALCIUM-DEPENDENT PROTEIN KINASE5 (CPK5) phosphorylates CBP60g directly, thereby enhancing its transcription factor activity. TOUCH 3 (TCH3) and its homologs CALMODULIN (CAM) 1/4/6 and CPK4/5/6/11 are required for PAMP-induced CBP60g phosphorylation. TCH3 interferes with the auto-inhibitory region of CPK5 and promotes CPK5-mediated CBP60g phosphorylation. Furthermore, CPKs-mediated CBP60g phosphorylation positively regulates plant resistance to soil-borne fungal pathogens. These lines of evidence uncover a novel calcium signal decoding mechanism during plant immunity through which TCH3 relieves auto-inhibition of CPK5 to phosphorylate and activate CBP60g. The findings reveal cooperative interconnections between different types of calcium sensors in eukaryotes.

摘要

植物利用局部细胞表面和细胞内受体来感知微生物,并激活钙离子内流,钙离子作为真核生物中重要的第二信使,调节细胞反应。然而,植物破译钙离子内流以激活免疫反应的机制在很大程度上尚不清楚。在这里,我们表明病原体相关分子模式(PAMPs)触发拟南芥(Arabidopsis thaliana)中钙依赖性 CAM 结合蛋白 60 样 G(CBP60g)的磷酸化。钙依赖性蛋白激酶 5(CPK5)直接磷酸化 CBP60g,从而增强其转录因子活性。TOUCH 3(TCH3)及其同源物钙调素(CAM)1/4/6 和 CPK4/5/6/11 是 PAMP 诱导的 CBP60g 磷酸化所必需的。TCH3 干扰 CPK5 的自动抑制区域,并促进 CPK5 介导的 CBP60g 磷酸化。此外,CPKs 介导的 CBP60g 磷酸化正向调节植物对土壤传播真菌病原体的抗性。这些证据揭示了植物免疫过程中的一种新的钙信号解码机制,通过该机制,TCH3 解除 CPK5 的自动抑制,磷酸化并激活 CBP60g。这些发现揭示了真核生物中不同类型钙传感器之间的协同相互联系。

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Differential Phosphorylation of the Transcription Factor WRKY33 by the Protein Kinases CPK5/CPK6 and MPK3/MPK6 Cooperatively Regulates Camalexin Biosynthesis in Arabidopsis.蛋白激酶 CPK5/CPK6 和 MPK3/MPK6 协同作用使转录因子 WRKY33 发生差异磷酸化,从而调控拟南芥中的水杨酸诱导的 camalexin 生物合成。
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Deacetylation of chitin oligomers increases virulence in soil-borne fungal pathogens.壳寡糖去乙酰化增加土传真菌病原体的毒力。
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Calcium-dependent protein kinase 5 links calcium signaling with N-hydroxy-l-pipecolic acid- and SARD1-dependent immune memory in systemic acquired resistance.钙依赖性蛋白激酶 5 将钙信号与 N-羟基-L-哌啶酸和 SARD1 依赖性免疫记忆联系起来,在系统获得性抗性中发挥作用。
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