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Proc Natl Acad Sci U S A. 2017 May 30;114(22):5749-5754. doi: 10.1073/pnas.1614468114. Epub 2017 May 15.
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Conservation of Chitin-Induced MAPK Signaling Pathways in Rice and Arabidopsis.水稻和拟南芥中几丁质诱导的丝裂原活化蛋白激酶信号通路的保守性
Plant Cell Physiol. 2017 Jun 1;58(6):993-1002. doi: 10.1093/pcp/pcx042.
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CALCIUM-DEPENDENT PROTEIN KINASE5 Associates with the Truncated NLR Protein TIR-NBS2 to Contribute to Mediated Immunity.钙依赖性蛋白激酶5与截短的NLR蛋白TIR-NBS2相互作用,以促进介导的免疫。
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Receptor Kinases in Plant-Pathogen Interactions: More Than Pattern Recognition.植物-病原体相互作用中的受体激酶:不止于模式识别
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OsCERK1-Mediated Chitin Perception and Immune Signaling Requires Receptor-like Cytoplasmic Kinase 185 to Activate an MAPK Cascade in Rice.OsCERK1 介导的几丁质感知和免疫信号需要受体样细胞质激酶 185 激活水稻中的 MAPK 级联反应。
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The Arabidopsis CERK1-associated kinase PBL27 connects chitin perception to MAPK activation.拟南芥CERK1相关激酶PBL27将几丁质感知与丝裂原活化蛋白激酶激活联系起来。
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Attenuation of pattern recognition receptor signaling is mediated by a MAP kinase kinase kinase.模式识别受体信号的衰减由一种丝裂原活化蛋白激酶激酶激酶介导。
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ENHANCED DISEASE RESISTANCE4 associates with CLATHRIN HEAVY CHAIN2 and modulates plant immunity by regulating relocation of EDR1 in Arabidopsis.增强抗病性4与网格蛋白重链2相关,并通过调节拟南芥中EDR1的重新定位来调控植物免疫。
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油菜素内酯信号激酶 1 通过磷酸化 MAPKKK5 调控拟南芥的免疫反应。

BRASSINOSTEROID-SIGNALING KINASE1 Phosphorylates MAPKKK5 to Regulate Immunity in Arabidopsis.

机构信息

State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.

University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Plant Physiol. 2018 Apr;176(4):2991-3002. doi: 10.1104/pp.17.01757. Epub 2018 Feb 12.

DOI:10.1104/pp.17.01757
PMID:29440595
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5884618/
Abstract

Arabidopsis () immune receptor FLAGELLIN SENSING2 (FLS2) rapidly forms a complex to activate pathogen-associated molecular pattern-triggered immunity (PTI) upon perception of the bacterial protein flagellin. The receptor-like cytoplasmic kinase BRASSINOSTEROID-SIGNALINGKINASE1 (BSK1) interacts with FLS2 and is critical for the activation of PTI. However, it is unknown how BSK1 transduces signals to activate downstream immune responses. We identified MEK Kinase5 (MAPKKK5) as a potential substrate of BSK1 by whole-genome phosphorylation analysis. In addition, we demonstrated that BSK1 interacts with and phosphorylates MAPKKK5. In the - mutant, the Ser-289 residue of MAPKKK5 was not phosphorylated as it was in the wild type. Similar to the mutant, the mutant displayed enhanced susceptibility to virulent and avirulent strains of the bacterial pathogen pv DC3000, and to the fungal powdery mildew pathogen Phosphorylation of the Ser-289 residue is not involved in MAPKKK5-triggered cell death but is critical for MAPKKK5-mediated resistance to both bacterial and fungal pathogens. Furthermore, MAPKKK5 interacts with multiple MAPK kinases, including MKK1, MKK2, MKK4, MKK5, and MKK6. Overall, these results indicate that BSK1 regulates plant immunity by phosphorylating MAPKKK5 and suggest a direct regulatory mode of signaling from the immune complex to the MAPK cascade.

摘要

拟南芥(Arabidopsis)免疫受体 FLAGELLIN SENSING2(FLS2)在感知细菌鞭毛蛋白后,迅速形成复合物,激活病原体相关分子模式触发的免疫(PTI)。类受体胞质激酶 BRASSINOSTEROID-SIGNALINGKINASE1(BSK1)与 FLS2 相互作用,对于 PTI 的激活至关重要。然而,BSK1 如何传递信号以激活下游免疫反应尚不清楚。我们通过全基因组磷酸化分析鉴定 MEK Kinase5(MAPKKK5)为 BSK1 的潜在底物。此外,我们证明 BSK1 与 MAPKKK5 相互作用并磷酸化 MAPKKK5。在 突变体中,MAPKKK5 的丝氨酸 289 残基未被磷酸化,而在野生型中则被磷酸化。与 突变体类似, 突变体对细菌病原体 pv DC3000 的毒力和非毒性菌株以及真菌白粉病病原体表现出增强的敏感性。丝氨酸 289 残基的磷酸化不参与 MAPKKK5 触发的细胞死亡,但对于 MAPKKK5 介导的对细菌和真菌病原体的抗性至关重要。此外,MAPKKK5 与多种 MAPK 激酶相互作用,包括 MKK1、MKK2、MKK4、MKK5 和 MKK6。总体而言,这些结果表明 BSK1 通过磷酸化 MAPKKK5 来调节植物免疫,并提出了从免疫复合物到 MAPK 级联的信号的直接调节模式。