An effector of Erysiphe necator translocates to chloroplasts and plasma membrane to suppress host immunity in grapevine.

IF 7.6 Q1 GENETICS & HEREDITY 园艺研究(英文) Pub Date : 2023-08-16 eCollection Date: 2023-09-01 DOI:10.1093/hr/uhad163
Bo Mu, Zhaolin Teng, Ruixin Tang, Mengjiao Lu, Jinfu Chen, Xiangnan Xu, Ying-Qiang Wen
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Abstract

The powdery mildew (Erysiphe necator) is a prevalent pathogen hampering grapevine growth in the vineyard. An arsenal of candidate secreted effector proteins (CSEPs) was encoded in the E. necator genome, but it is largely unclear what role CSEPs plays during the E. necator infection. In the present study, we identified a secreted effector CSEP080 of E. necator, which was located in plant chloroplasts and plasma membrane. Transient expressing CSEP080 promotes plant photosynthesis and inhibits INF1-induced cell death in tobacco leaves. We found that CSEP080 was a necessary effector for the E. necator pathogenicity, which interacted with grapevine chloroplast protein VviB6f (cytochrome b6-f complex iron-sulfur subunit), affecting plant photosynthesis. Transient silencing VviB6f increased the plant hydrogen peroxide production, and the plant resistance to powdery mildew. In addition, CSEP080 manipulated the VviPE (pectinesterase) to promote pectin degradation. Our results demonstrated the molecular mechanisms that an effector of E. necator translocates to host chloroplasts and plasma membrane, which suppresses with the grapevine immunity system by targeting the chloroplast protein VviB6f to suppress hydrogen peroxide accumulation and manipulating VviPE to promote pectin degradation.

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丹毒毒素的一个效应子转移到叶绿体和质膜上,抑制葡萄的宿主免疫。
白粉菌(Erysiphe necator)是葡萄园中阻碍葡萄生长的一种常见病原体。在E.necator基因组中编码了一系列候选分泌效应蛋白(CSEP),但在很大程度上尚不清楚CSEP在E.nector感染过程中发挥什么作用。在本研究中,我们鉴定了E.necator的分泌效应子CSEP080,该效应子位于植物叶绿体和质膜中。瞬时表达CSEP080促进植物光合作用并抑制INF1诱导的烟叶细胞死亡。我们发现CSEP080是E.necator致病性的必要效应子,它与葡萄叶绿体蛋白VviB6f(细胞色素b6-f复合铁硫亚基)相互作用,影响植物光合作用。瞬时沉默VviB6f增加了植物过氧化氢的产生,提高了植物对白粉菌的抗性。此外,CSEP080操纵VviPE(果胶酯酶)以促进果胶降解。我们的研究结果证明了E.necator的效应子易位到宿主叶绿体和质膜的分子机制,该效应子通过靶向叶绿体蛋白VviB6f来抑制过氧化氢的积累,并操纵VviPE来促进果胶的降解,从而用葡萄藤免疫系统来抑制。
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