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磷酸肌醇物种向植物-病原体界面膜的特异性募集是拟南芥对真菌感染易感性的基础。

Specific Recruitment of Phosphoinositide Species to the Plant-Pathogen Interfacial Membrane Underlies Arabidopsis Susceptibility to Fungal Infection.

作者信息

Qin Li, Zhou Zhuqing, Li Qiang, Zhai Chun, Liu Lijiang, Quilichini Teagen D, Gao Peng, Kessler Sharon A, Jaillais Yvon, Datla Raju, Peng Gary, Xiang Daoquan, Wei Yangdou

机构信息

Department of Biology, University of Saskatchewan, Saskatoon, Saskatchewan S7N 5E2, Canada.

Laboratory of Cell Biology, College of Life Science and Technology, Huazhong Agricultural University, Wuhan, Hubei 430070, China.

出版信息

Plant Cell. 2020 May;32(5):1665-1688. doi: 10.1105/tpc.19.00970. Epub 2020 Mar 10.

DOI:10.1105/tpc.19.00970
PMID:32156686
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7203932/
Abstract

Different phosphoinositides enriched at the membranes of specific subcellular compartments within plant cells contribute to organelle identity, ensuring appropriate cellular trafficking and function. During the infection of plant cells, biotrophic pathogens such as powdery mildews enter plant cells and differentiate into haustoria. Each haustorium is enveloped by an extrahaustorial membrane (EHM) derived from the host plasma membrane. Little is known about the EHM biogenesis and identity. Here, we demonstrate that among the two plasma membrane phosphoinositides in Arabidopsis (), PI(4,5)P is dynamically up-regulated at powdery mildew infection sites and recruited to the EHM, whereas PI4P is absent in the EHM. Lateral transport of PI(4,5)P into the EHM occurs through a brefeldin A-insensitive but actin-dependent trafficking pathway. Furthermore, the lower levels of PI(4,5)P in mutants inhibit fungal pathogen development and cause disease resistance, independent of cell death-associated defenses and involving impaired host susceptibility. Our results reveal that plant biotrophic and hemibiotrophic pathogens modulate the subcellular distribution of host phosphoinositides and recruit PI(4,5)P as a susceptibility factor for plant disease.

摘要

植物细胞内特定亚细胞区室膜上富集的不同磷酸肌醇有助于细胞器的识别,确保适当的细胞运输和功能。在植物细胞被感染期间,白粉病等活体营养型病原体进入植物细胞并分化成吸器。每个吸器都被一层源自宿主质膜的吸器外膜(EHM)所包裹。关于EHM的生物发生和识别了解甚少。在这里,我们证明,在拟南芥的两种质膜磷酸肌醇中,PI(4,5)P在白粉病感染部位动态上调并被募集到EHM,而PI4P在EHM中不存在。PI(4,5)P向EHM的侧向运输通过一种对布雷菲德菌素A不敏感但依赖肌动蛋白的运输途径发生。此外,突变体中较低水平的PI(4,5)P抑制真菌病原体的发育并导致抗病性,这与细胞死亡相关防御无关,且涉及宿主易感性受损。我们的结果表明,植物活体营养型和半活体营养型病原体调节宿主磷酸肌醇的亚细胞分布,并募集PI(4,5)P作为植物病害的一个感病因子。

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Rust haustoria: nutrient uptake and beyond.锈菌吸器:养分吸收及其他方面
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Enrichment of Phosphatidylinositol 4,5-Bisphosphate in the Extra-Invasive Hyphal Membrane Promotes Colletotrichum Infection of Arabidopsis thaliana.磷脂酰肌醇 4,5-二磷酸在特化菌丝质膜中的富集促进了拟南芥炭疽病菌的侵染。
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The plant membrane surrounding powdery mildew haustoria shares properties with the endoplasmic reticulum membrane.白粉菌吸器的植物质膜与内质网膜具有共同特性。
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