Secreted Effector Proteins of Poplar Leaf Spot and Stem Canker Pathogen Sphaerulina musiva Manipulate Plant Immunity and Contribute to Virulence in Diverse Ways.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-12-01 Epub Date: 2023-12-23 DOI:10.1094/MPMI-07-23-0091-R
Yao Zhao, Xinyue Zheng, Javier F Tabima, Sheng Zhu, Kelsey L Søndreli, Hope Hundley, Diane Bauer, Kerrie Barry, Yaxin Zhang, Jeremy Schmutz, Yuanchao Wang, Jared M LeBoldus, Qin Xiong
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Abstract

Fungal effectors play critical roles in manipulating plant immune responses and promoting colonization. Sphaerulina musiva is a heterothallic ascomycete fungus that causes Septoria leaf spot and stem canker disease in poplar (Populus spp.) plantations. This disease can result in premature defoliation, branch and stem breakage, increased mortality, and plantation failure. However, little is known about the interaction between S. musiva and poplar. Previous work predicted 142 candidate secreted effector proteins in S. musiva (SmCSEPs), 19 of which were selected for further functional characterization in this study. SmCSEP3 induced plant cell death in Nicotiana benthamiana, while 8 out of 19 tested SmCSEPs suppressed cell death. The signal peptides of these eight SmCSEPs exhibited secretory activity in a yeast signal sequence trap assay. Confocal microscopy revealed that four of these eight SmCSEPs target both the cytoplasm and the nucleus, whereas four predominantly localize to discrete punctate structures. Pathogen challenge assays in N. benthamiana demonstrated that the transient expression of six SmCSEPs promoted Fusarium proliferatum infection. The expression of these six SmCSEP genes were induced during infection. SmCSEP2, SmCSEP13, and SmCSEP25 suppressed chitin-triggered reactive oxygen species burst and callose deposition in N. benthamiana. The candidate secreted effector proteins of S. musiva target multiple compartments in the plant cell and modulate different pattern-triggered immunity pathways. [Formula: see text] The author(s) have dedicated the work to the public domain under the Creative Commons CC0 "No Rights Reserved" license by waiving all of his or her rights to the work worldwide under copyright law, including all related and neighboring rights, to the extent allowed by law, 2023.

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杨树叶斑病和茎腐病病原体 Sphaerulina musiva 的分泌效应蛋白以多种方式操纵植物免疫力并增强其毒性。
真菌效应器在操纵植物免疫反应和促进定殖方面发挥着关键作用。Sphaerulina musiva 是一种异型子囊真菌,可引起杨树(杨树属)种植园的 Septoria 叶斑病和茎腐病。这种病会导致过早落叶、枝干和茎干断裂、死亡率上升和种植失败。然而,人们对蕈蚊与杨树之间的相互作用知之甚少。之前的工作预测了 142 个蕈蚊分泌效应蛋白候选蛋白(SmCSEPs),本研究选择了其中的 19 个进行进一步的功能表征。SmCSEP3 可诱导烟草植物细胞死亡,而 19 个测试的 SmCSEPs 中有 8 个可抑制细胞死亡。在酵母信号序列捕获试验中,这 8 个 SmCSEPs 的信号肽表现出分泌活性。共聚焦显微镜显示,这 8 种 SmCSEPs 中的 4 种同时以细胞质和细胞核为靶标,而 4 种则主要定位在离散的点状结构上。在 N. benthamiana 中进行的病原体挑战实验表明,瞬时表达六种 SmCSEPs 可促进增殖镰刀菌感染。这六个 SmCSEP 基因在感染过程中被诱导表达。SmCSEP2、SmCSEP13和SmCSEP25抑制了几丁质触发的活性氧猝灭和胼胝质沉积。S.musiva的候选分泌效应蛋白靶向植物细胞中的多个区室,并调节不同模式触发的免疫途径。[公式:见正文] 作者根据知识共享 CC0 "无版权保留 "许可协议,在法律允许的范围内,放弃其在全球范围内根据版权法对该作品享有的所有权利,包括所有相关权利和邻接权,将该作品用于公共领域,2023 年。
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4.30%
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