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A wheat resistosome defines common principles of immune receptor channels.小麦抗病体定义了免疫受体通道的共同原则。
Nature. 2022 Oct;610(7932):532-539. doi: 10.1038/s41586-022-05231-w. Epub 2022 Sep 26.
2
Pathogen effector AvrSr35 triggers Sr35 resistosome assembly via a direct recognition mechanism.病原体效应蛋白AvrSr35通过直接识别机制触发Sr35抗病小体组装。
Sci Adv. 2022 Sep 9;8(36):eabq5108. doi: 10.1126/sciadv.abq5108.
3
The deubiquitinases UBP12 and UBP13 integrate with the E3 ubiquitin ligase XBAT35.2 to modulate VPS23A stability in ABA signaling.去泛素化酶 UBP12 和 UBP13 与 E3 泛素连接酶 XBAT35.2 相整合,以调节 ABA 信号中 VPS23A 的稳定性。
Sci Adv. 2022 Apr 8;8(14):eabl5765. doi: 10.1126/sciadv.abl5765. Epub 2022 Apr 6.
4
Plant Public RNA-seq Database: a comprehensive online database for expression analysis of ~45 000 plant public RNA-Seq libraries.植物公共RNA测序数据库:一个用于约45000个植物公共RNA测序文库表达分析的综合在线数据库。
Plant Biotechnol J. 2022 May;20(5):806-808. doi: 10.1111/pbi.13798. Epub 2022 Mar 6.
5
A DE1 BINDING FACTOR 1-GLABRA2 module regulates rhamnogalacturonan I biosynthesis in Arabidopsis seed coat mucilage.一个 DE1 结合因子 1-GLABRA2 模块调节拟南芥种皮粘液中鼠李半乳糖醛酸 I 的生物合成。
Plant Cell. 2022 Mar 29;34(4):1396-1414. doi: 10.1093/plcell/koac011.
6
Multi-Omics Analyses Reveal the Regulatory Network and the Function of ZmUGTs in Maize Defense Response.多组学分析揭示玉米ZmUGT在防御反应中的调控网络及功能
Front Plant Sci. 2021 Sep 24;12:738261. doi: 10.3389/fpls.2021.738261. eCollection 2021.
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Plant pathogens convergently evolved to counteract redundant nodes of an NLR immune receptor network.植物病原体趋同进化以对抗 NLR 免疫受体网络的冗余节点。
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8
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Nat Commun. 2021 Jul 1;12(1):4064. doi: 10.1038/s41467-021-24375-3.
9
A karyopherin constrains nuclear activity of the NLR protein SNC1 and is essential to prevent autoimmunity in Arabidopsis.一种核输入蛋白限制 NLR 蛋白 SNC1 的核活性,对于防止拟南芥的自身免疫是必需的。
Mol Plant. 2021 Oct 4;14(10):1733-1744. doi: 10.1016/j.molp.2021.06.011. Epub 2021 Jun 18.
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Cytoplasmic and nuclear Sw-5b NLR act both independently and synergistically to confer full host defense against tospovirus infection.细胞质和核内的 Sw-5b NLR 既独立又协同作用,以充分赋予宿主对 Tospovirus 感染的防御能力。
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玉米 ZmVPS23 样蛋白将核苷酸结合富含亮氨酸重复蛋白 Rp1-D21 重新定位到内体并抑制防御反应。

The maize ZmVPS23-like protein relocates the nucleotide-binding leucine-rich repeat protein Rp1-D21 to endosomes and suppresses the defense response.

机构信息

The Key Laboratory of Plant Development and Environmental Adaptation Biology, Ministry of Education, School of Life Sciences, Shandong University, Qingdao, Shandong 266237, China.

Institute of Agricultural Biotechnology, Jilin Academy of Agricultural Sciences, Changchun 130033, Jilin, China.

出版信息

Plant Cell. 2023 May 29;35(6):2369-2390. doi: 10.1093/plcell/koad061.

DOI:10.1093/plcell/koad061
PMID:36869653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10226561/
Abstract

Plants often utilize nucleotide-binding leucine-rich repeat (NLR) proteins to perceive pathogen infections and trigger a hypersensitive response (HR). The endosomal sorting complex required for transport (ESCRT) machinery is a conserved multisubunit complex that is essential for the biogenesis of multivesicular bodies and cargo protein sorting. VPS23 is a key component of ESCRT-I and plays important roles in plant development and abiotic stresses. ZmVPS23L, a homolog of VPS23-like in maize (Zea mays), was previously identified as a candidate gene in modulating HR mediated by the autoactive NLR protein Rp1-D21 in different maize populations. Here, we demonstrate that ZmVPS23L suppresses Rp1-D21-mediated HR in maize and Nicotiana benthamiana. Variation in the suppressive effect of HR by different ZmVPS23L alleles was correlated with variation in their expression levels. ZmVPS23 also suppressed Rp1-D21-mediated HR. ZmVPS23L and ZmVPS23 predominantly localized to endosomes, and they physically interacted with the coiled-coil domain of Rp1-D21 and mediated the relocation of Rp1-D21 from the nucleo-cytoplasm to endosomes. In summary, we demonstrate that ZmVPS23L and ZmVPS23 are negative regulators of Rp1-D21-mediated HR, likely by sequestrating Rp1-D21 in endosomes via physical interaction. Our findings reveal the role of ESCRT components in controlling plant NLR-mediated defense responses.

摘要

植物通常利用核苷酸结合富含亮氨酸重复(NLR)蛋白来感知病原体感染并触发过敏反应(HR)。必需运输内体分选复合物(ESCRT)机制是一种保守的多亚基复合物,对于多泡体和货物蛋白分选的生物发生至关重要。VPS23 是 ESCRT-I 的关键组成部分,在植物发育和非生物胁迫中发挥重要作用。ZmVPS23L,玉米(Zea mays)中 VPS23 样蛋白的同源物,先前被鉴定为调节不同玉米群体中自身激活 NLR 蛋白 Rp1-D21 介导的 HR 的候选基因。在这里,我们证明 ZmVPS23L 抑制玉米和黄花烟中的 Rp1-D21 介导的 HR。不同 ZmVPS23L 等位基因对 HR 的抑制作用的变化与它们的表达水平的变化相关。ZmVPS23 也抑制 Rp1-D21 介导的 HR。ZmVPS23L 和 ZmVPS23 主要定位于内体,它们与 Rp1-D21 的卷曲螺旋域物理相互作用,并介导 Rp1-D21 从核质到内体的重新定位。总之,我们证明 ZmVPS23L 和 ZmVPS23 是 Rp1-D21 介导的 HR 的负调节剂,可能通过物理相互作用将 Rp1-D21 隔离在内体中。我们的研究结果揭示了 ESCRT 成分在控制植物 NLR 介导的防御反应中的作用。