Regulatory insight for a Zn2Cys6 transcription factor controlling effector-mediated virulence in a fungal pathogen of wheat.

IF 5.5 1区医学 Q1 MICROBIOLOGY

PLoS Pathogens Pub Date : 2024-09-23 eCollection Date: 2024-09-01 DOI:10.1371/journal.ppat.1012536

Evan John, Callum Verdonk, Karam B Singh, Richard P Oliver, Leon Lenzo, Shota Morikawa, Jessica L Soyer, Jordi Muria-Gonzalez, Daniel Soo, Carl Mousley, Silke Jacques, Kar-Chun Tan

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Abstract

The regulation of virulence in plant-pathogenic fungi has emerged as a key area of importance underlying host infections. Recent work has highlighted individual transcription factors (TFs) that serve important roles. A prominent example is PnPf2, a member of the Zn2Cys6 family of fungal TFs, which controls the expression of effectors and other virulence-associated genes in Parastagonospora nodorum during infection of wheat. PnPf2 orthologues are similarly important for other major fungal pathogens during infection of their respective host plants, and have also been shown to control polysaccharide metabolism in model saprophytes. In each case, the direct genomic targets and associated regulatory mechanisms were unknown. Significant insight was made here by investigating PnPf2 through chromatin-immunoprecipitation (ChIP) and mutagenesis approaches in P. nodorum. Two distinct binding motifs were characterised as positive regulatory elements and direct PnPf2 targets identified. These encompass known effectors and other components associated with the P. nodorum pathogenic lifestyle, such as carbohydrate-active enzymes and nutrient assimilators. The results support a direct involvement of PnPf2 in coordinating virulence on wheat. Other prominent PnPf2 targets included TF-encoding genes. While novel functions were observed for the TFs PnPro1, PnAda1, PnEbr1 and the carbon-catabolite repressor PnCreA, our investigation upheld PnPf2 as the predominant transcriptional regulator characterised in terms of direct and specific coordination of virulence on wheat, and provides important mechanistic insights that may be conserved for homologous TFs in other fungi.

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小麦真菌病原体中控制效应器介导的毒力的 Zn2Cys6 转录因子的调控洞察力。

植物病原真菌的毒力调控已成为宿主感染的一个重要领域。最近的研究突显了个别转录因子（TFs）的重要作用。一个突出的例子是 PnPf2，它是真菌 TFs Zn2Cys6 家族的成员，在小麦感染过程中控制着 Parastagonospora nodorum 的效应因子和其他毒力相关基因的表达。PnPf2 的直向同源物对其他主要真菌病原体感染各自寄主植物的过程也同样重要，而且还被证明能控制模式无机物的多糖代谢。在每种情况下，直接的基因组目标和相关的调控机制都是未知的。本研究通过染色质免疫沉淀（ChIP）和诱变方法对结核菌中的 PnPf2 进行了深入研究。两个不同的结合基团被鉴定为正调控元件，并确定了 PnPf2 的直接靶标。这些目标包括已知的效应器和与 P. nodorum 致病生活方式相关的其他成分，如碳水化合物活性酶和营养同化酶。研究结果支持 PnPf2 直接参与协调对小麦的毒力。PnPf2 的其他主要靶标包括 TF 编码基因。虽然观察到 TF PnPro1、PnAda1、PnEbr1 和碳代谢产物抑制因子 PnCreA 具有新的功能，但我们的研究仍认为 PnPf2 是最主要的转录调控因子，其特点是直接和特异性地协调小麦上的毒力，并提供了重要的机理见解，这些见解可能与其他真菌中的同源 TF 相同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS Pathogens MICROBIOLOGY-PARASITOLOGY

自引率

3.00%

发文量

598

期刊介绍： Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.