锈菌分泌蛋白 Ps87 在多种真菌病原体中保守，含有一个足以将其转运进入植物细胞的 RXLR 样基序。

Rust secreted protein Ps87 is conserved in diverse fungal pathogens and contains a RXLR-like motif sufficient for translocation into plant cells.

机构信息

College of Plant Protection, Northwest A&F University, Yangling, Shaanxi, China.

出版信息

PLoS One. 2011;6(11):e27217. doi: 10.1371/journal.pone.0027217. Epub 2011 Nov 4.

DOI:10.1371/journal.pone.0027217

PMID:22076138

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3208592/

Abstract

BACKGROUND

Effector proteins of biotrophic plant pathogenic fungi and oomycetes are delivered into host cells and play important roles in both disease development and disease resistance response. How obligate fungal pathogen effectors enter host cells is poorly understood. The Ps87 gene of Puccinia striiformis encodes a protein that is conserved in diverse fungal pathogens. Ps87 homologs from a clade containing rust fungi are predicted to be secreted. The aim of this study is to test whether Ps87 may act as an effector during Puccinia striiformis infection.

METHODOLOGY/PRINCIPAL FINDINGS: Yeast signal sequence trap assay showed that the rust protein Ps87 could be secreted from yeast cells, but a homolog from Magnaporthe oryzae that was not predicted to be secreted, could not. Cell re-entry and protein uptake assays showed that a region of Ps87 containing a conserved RXLR-like motif [K/R]RLTG was confirmed to be capable of delivering oomycete effector Avr1b into soybean leaf cells and carrying GFP into soybean root cells. Mutations in the Ps87 motif (KRLTG) abolished the protein translocation ability.

CONCLUSIONS/SIGNIFICANCE: The results suggest that Ps87 and its secreted homologs could utilize similar protein translocation machinery as those of oomycete and other fungal pathogens. Ps87 did not show direct suppression activity on plant defense responses. These results suggest Ps87 may represent an "emerging effector" that has recently acquired the ability to enter plant cells but has not yet acquired the ability to alter host physiology.

摘要

背景

活体营养型植物病原真菌和卵菌的效应蛋白被输送到宿主细胞中，在疾病发展和抗病反应中都发挥着重要作用。然而，人们对专性真菌病原体效应蛋白如何进入宿主细胞知之甚少。条锈菌的 Ps87 基因编码一种在多种真菌病原体中保守的蛋白质。锈菌属包含的一个分支中的 Ps87 同源物被预测为分泌蛋白。本研究旨在检验 Ps87 是否可以在条锈菌侵染过程中充当效应蛋白。

方法/主要发现：酵母信号序列捕获实验表明，锈菌蛋白 Ps87 可以从酵母细胞中分泌出来，但预测不会分泌的来自稻瘟病菌的同源物却不能。细胞再进入和蛋白摄取实验表明，含有保守 RXLR 样基序 [K/R]RLTG 的 Ps87 区域能够将卵菌效应物 Avr1b 递送至大豆叶片细胞，并将 GFP 递送至大豆根细胞。Ps87 基序（KRLTG）中的突变会破坏蛋白转运能力。

结论/意义：结果表明，Ps87 及其分泌同源物可能利用类似于卵菌和其他真菌病原体的蛋白转运机制。Ps87 并未显示对植物防御反应的直接抑制活性。这些结果表明，Ps87 可能代表一种“新兴效应蛋白”，它最近获得了进入植物细胞的能力，但尚未获得改变宿主生理学的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa11/3208592/b125e12d77a3/pone.0027217.g001.jpg

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锈菌分泌蛋白 Ps87 在多种真菌病原体中保守，含有一个足以将其转运进入植物细胞的 RXLR 样基序。

Rust secreted protein Ps87 is conserved in diverse fungal pathogens and contains a RXLR-like motif sufficient for translocation into plant cells.

机构信息

出版信息

BACKGROUND

背景

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