抵抗力最低的途径:真菌和卵菌植物病原体的非常规效应物分泌。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-01 Epub Date: 2024-09-13 DOI:10.1094/MPMI-12-23-0212-CR
Nawaraj Dulal, Richard A Wilson
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引用次数: 0

摘要

不同途径的效应物分泌介导了寄主植物与病原体之间的分子相互作用,但真核生物的机制细节却很少。这可能会限制发现可用于提高寄主植物抗病性的新效应物。在真菌和卵菌中,细胞质效应物通过传统的ER-高尔基体途径分泌,而细胞质效应物则通过非常规蛋白分泌(UPS)途径绕过高尔基体包装成囊泡。在Magnaporthe oryzae中,绕过高尔基体的UPS途径包含外囊复合体和t-SNARE的成分,可能是为了将绕过高尔基体的囊泡与真菌质膜融合。在 M. oryzae 的上游,细胞质效应 mRNA 翻译需要对 AA 结尾密码子进行有效解码。这涉及修改同源 tRNA 反密码子环中的摇摆尿苷,并微调细胞质效应蛋白的翻译和分泌率,以维持生物营养界面复合体的完整性,并允许宿主感染。因此,植物-真菌界面的完整性与效应子密码子的使用密切相关,这是致病性的一个令人惊讶的制约因素。在这里,我们将结合真菌和卵菌效应子的发现、传递以及在宿主细胞中的功能来讨论这些发现。我们展示了如何破解 M. oryzae 中非常规细胞质效应物分泌的密码子编码,揭示了细胞质效应物 mRNA 中 AA 结尾密码子使用的偏差,包括在真正的 Phytophthora infestans 细胞质效应物的 RxLR-dEER motif 编码序列中,这表明它受翻译速度控制。通过重点介绍在理解非常规效应物分泌方面的最新进展,我们提请人们注意这一重要但研究不足的宿主-病原体相互作用领域。
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Paths of Least Resistance: Unconventional Effector Secretion by Fungal and Oomycete Plant Pathogens.

Effector secretion by different routes mediates the molecular interplay between host plant and pathogen, but mechanistic details in eukaryotes are sparse. This may limit the discovery of new effectors that could be utilized for improving host plant disease resistance. In fungi and oomycetes, apoplastic effectors are secreted via the conventional endoplasmic reticulum (ER)-Golgi pathway, while cytoplasmic effectors are packaged into vesicles that bypass Golgi in an unconventional protein secretion (UPS) pathway. In Magnaporthe oryzae, the Golgi bypass UPS pathway incorporates components of the exocyst complex and a t-SNARE, presumably to fuse Golgi bypass vesicles to the fungal plasma membrane. Upstream, cytoplasmic effector mRNA translation in M. oryzae requires the efficient decoding of AA-ending codons. This involves the modification of wobble uridines in the anticodon loop of cognate tRNAs and fine-tunes cytoplasmic effector translation and secretion rates to maintain biotrophic interfacial complex integrity and permit host infection. Thus, plant-fungal interface integrity is intimately tied to effector codon usage, which is a surprising constraint on pathogenicity. Here, we discuss these findings within the context of fungal and oomycete effector discovery, delivery, and function in host cells. We show how cracking the codon code for unconventional cytoplasmic effector secretion in M. oryzae has revealed AA-ending codon usage bias in cytoplasmic effector mRNAs across kingdoms, including within the RxLR-dEER motif-encoding sequence of a bona fide Phytophthora infestans cytoplasmic effector, suggesting its subjection to translational speed control. By focusing on recent developments in understanding unconventional effector secretion, we draw attention to this important but understudied area of host-pathogen interactions. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

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