丝裂原活化蛋白激酶 MPK3 和 MPK6 磷酸化类受体胞质激酶 CDL1,调节大豆的基础免疫力

Lei Zhang, Qun Zhu, Yuanhua Tan, Miaomiao Deng, Lei Zhang, Yangrong Cao, Xiaoli Guo
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引用次数: 0

摘要

大豆胞囊线虫(SCN;Heterodera glycines Ichinohe)是最具破坏性的大豆(Glycine max)病原体之一,会给大豆生产造成重大减产。线虫感染会引发植物防御反应,然而,上游信号级联中涉及的成分在很大程度上仍不为人所知。在这项研究中,我们发现线虫感染或伤害激活的丝裂原活化蛋白激酶(MAPK)信号模块对大豆建立 SCN 抗性至关重要。GmMPK3和GmMPK6直接与CDG1-LIKE1(GmCDL1)相互作用,CDG1-LIKE1是类受体细胞质激酶(RLCK)亚家族VII的成员。这些激酶使 GmCDL1 在 Thr-372 处磷酸化,以阻止蛋白酶体介导的降解。功能分析表明,GmCDL1 能积极调节免疫反应并促进大豆对 SCN 的抗性。GmMPK3 介导的 GmCDL1 磷酸化和 GmMPK6 介导的 GmCDL1 磷酸化可增强 GmMPK3 和 GmMPK6 的活化和大豆的抗病性,这是一种正反馈机制。此外,两种 L 型凝集素受体激酶 GmLecRK02g 和 GmLecRK08g 与 GmCDL1 结合,启动下游免疫信号转导。值得注意的是,我们的研究还揭示了 GmLecRKs 和 GmCDL1 可能参与对抗线虫以外的其他大豆病原体。总之,我们的研究结果揭示了 GmLecRKs-GmCDL1-MAPK 调控模块在触发大豆基础免疫反应中的关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mitogen-activated protein kinases MPK3 and MPK6 phosphorylate receptor-like cytoplasmic kinase CDL1 to regulate soybean basal immunity
Soybean cyst nematode (SCN; Heterodera glycines Ichinohe), one of the most devastating soybean (Glycine max) pathogens, causes significant yield loss in soybean production. Nematode infection triggers plant defense responses; however, the components involved in the upstream signaling cascade remain largely unknown. In this study, we established that a mitogen-activated protein kinase (MAPK) signaling module, activated by nematode infection or wounding, is crucial for soybeans to establish SCN resistance. GmMPK3 and GmMPK6 directly interact with CDG1-LIKE1 (GmCDL1), a member of the receptor-like cytoplasmic kinase (RLCK) subfamily VII. These kinases phosphorylate GmCDL1 at Thr-372 to prevent its proteasome-mediated degradation. Functional analysis demonstrated that GmCDL1 positively regulates immune responses and promotes SCN resistance in soybeans. GmMPK3-mediated and GmMPK6-mediated phosphorylation of GmCDL1 enhances GmMPK3 and GmMPK6 activation and soybean disease resistance, representing a positive feedback mechanism. Additionally, 2 L-type lectin receptor kinases, GmLecRK02g and GmLecRK08g, associate with GmCDL1 to initiate downstream immune signaling. Notably, our study also unveils the potential involvement of GmLecRKs and GmCDL1 in countering other soybean pathogens beyond nematodes. Taken together, our findings reveal the pivotal role of the GmLecRKs–GmCDL1–MAPK regulatory module in triggering soybean basal immune responses.
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