Functional characterization of extracellular and intracellular catalase-peroxidases involved in virulence of the fungal wheat pathogen Zymoseptoria tritici.

IF 4.8 1区 农林科学 Q1 PLANT SCIENCES Molecular plant pathology Pub Date : 2024-10-01 DOI:10.1111/mpp.70009
Amir Mirzadi Gohari, Rahim Mehrabi, Sreedhar Kilaru, Martin Schuster, Gero Steinberg, Pierre P J G M de Wit, Gert H J Kema
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Abstract

Understanding how pathogens defend themselves against host defence mechanisms, such as hydrogen peroxide (H2O2) production, is crucial for comprehending fungal infections. H2O2 poses a significant threat to invading fungi due to its potent oxidizing properties. Our research focuses on the hemibiotrophic fungal wheat pathogen Zymoseptoria tritici, enabling us to investigate host-pathogen interactions. We examined two catalase-peroxidase (CP) genes, ZtCpx1 and ZtCpx2, to elucidate how Z. tritici deals with host-generated H2O2 during infection. Our analysis revealed that ZtCpx1 was up-regulated during biotrophic growth and asexual spore formation in vitro, while ZtCpx2 showed increased expression during the transition from biotrophic to necrotrophic growth and in-vitro vegetative growth. Deleting ZtCpx1 increased the mutant's sensitivity to exogenously added H2O2 and significantly reduced virulence, as evidenced by decreased Septoria tritici blotch symptom severity and fungal biomass production. Reintroducing the wild-type ZtCpx1 allele with its native promoter into the mutant strain restored the observed phenotypes. While ZtCpx2 was not essential for full virulence, the ZtCpx2 mutants exhibited reduced fungal biomass development during the transition from biotrophic to necrotrophic growth. Moreover, both CP genes act synergistically, as the double knock-out mutant displayed a more pronounced reduced virulence compared to ΔZtCpx1. Microscopic analysis using fluorescent proteins revealed that ZtCpx1 was localized in the peroxisome, indicating its potential role in managing host-generated reactive oxygen species during infection. In conclusion, our research sheds light on the crucial roles of CP genes ZtCpx1 and ZtCpx2 in the defence mechanism of Z. tritici against host-generated hydrogen peroxide.

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参与小麦真菌病原体三尖杉属(Zymoseptoria tritici)毒力的细胞外和细胞内过氧化氢酶的功能表征。
了解病原体如何抵御宿主的防御机制,如过氧化氢(H2O2)的产生,对于理解真菌感染至关重要。H2O2 具有强大的氧化特性,对入侵真菌构成重大威胁。我们的研究重点是小麦半生真菌病原体 Zymoseptoria tritici,这使我们能够研究宿主与病原体之间的相互作用。我们研究了两个过氧化氢酶(CP)基因,即 ZtCpx1 和 ZtCpx2,以阐明三尖杉属真菌在感染过程中如何处理宿主产生的 H2O2。我们的分析表明,ZtCpx1 在体外生物营养生长和无性孢子形成过程中上调,而 ZtCpx2 在生物营养生长向坏死营养生长过渡和体外无性生殖过程中表达增加。删除 ZtCpx1 增加了突变体对外源添加的 H2O2 的敏感性,并显著降低了毒力,这体现在三尖杉斑点病症状严重程度和真菌生物量产量的降低上。将带有原生启动子的野生型 ZtCpx1 等位基因重新导入突变株中可恢复观察到的表型。虽然 ZtCpx2 并非完全毒力所必需的基因,但 ZtCpx2 突变体在从生物营养生长向坏死营养生长过渡的过程中表现出真菌生物量的减少。此外,这两个 CP 基因具有协同作用,因为与 ΔZtCpx1 相比,双基因敲除突变体的毒力下降更为明显。利用荧光蛋白进行的显微分析表明,ZtCpx1 定位于过氧物酶体,这表明它在感染期间管理宿主产生的活性氧方面可能发挥作用。总之,我们的研究揭示了 CP 基因 ZtCpx1 和 ZtCpx2 在三尖杉属真菌抵御宿主产生的过氧化氢的防御机制中的关键作用。
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来源期刊
Molecular plant pathology
Molecular plant pathology 生物-植物科学
CiteScore
9.40
自引率
4.10%
发文量
120
审稿时长
6-12 weeks
期刊介绍: Molecular Plant Pathology is now an open access journal. Authors pay an article processing charge to publish in the journal and all articles will be freely available to anyone. BSPP members will be granted a 20% discount on article charges. The Editorial focus and policy of the journal has not be changed and the editorial team will continue to apply the same rigorous standards of peer review and acceptance criteria.
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