Ampelomyces mycoparasites of powdery mildews – a review

IF 1.6 4区农林科学 Q3 PLANT SCIENCES

Canadian Journal of Plant Pathology Pub Date : 2023-05-11 DOI:10.1080/07060661.2023.2206378

Rosa E. Prahl, Shahjahan Khan, R. Deo

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引用次数: 2

Abstract

Abstract This review paper highlights the significant research conducted on fungi belonging to the genus Ampelomyces. Phylogeny based on both ITS and actin sequences has grouped Ampelomyces into different lineages. However, the ITS2 spacer, one constituent of the ITS region, together with their secondary structures (S2s), showed that these lineages are represented by different S2s; also, evidence of pseudogene formation in nuclear ribosomal genes of two isolates was reported, and S2s in Ampelomyces mycoparasites are different from those in Phoma-like fungi. Ampelomyces taxonomy is unresolved and future multi-locus analysis will assist in delimiting species. Members of the genus Ampelomyces are among the first mycoparasites used to control powdery mildew fungi as they can efficiently eliminate mycelial growth and reduce the overwintering inoculum of their mycohosts. In addition, Ampelomyces isolates were found to be resistant to some fungicides and insecticides, e.g. pyrazophos, an attractive feature for their selection as biocontrol agents. Transcriptome analyses have revealed that expression of the genes that encode proteins putatively associated with virulence and plant immune responses were enhanced during host recognition, while genes-encoding proteins linked to antibiotic resistance were predicted within the Ampelomyces genome. Proteomic studies are needed to confirm whether these proteins function in virulence and can therefore be used for biocontrol purposes or as bacterial antibiotic-resistant proteins, and which of these may trigger plant immune responses to facilitate plant protection. We encourage the continuation of these studies to benefit crop protection research.

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白粉病的曲霉分枝寄生虫研究进展

摘要本文综述了近年来对葡萄霉属真菌的重要研究进展。基于ITS和肌动蛋白序列的系统发育将曲霉归入不同的谱系。然而，作为ITS区域组成部分的ITS2间隔区及其二级结构(S2s)表明，这些谱系由不同的S2s代表;此外，两株真菌的核糖体基因中存在假基因形成的证据，并且曲霉菌的S2s与phma样真菌的S2s不同。曲霉属的分类尚未解决，未来的多位点分析将有助于物种的划分。曲霉属的成员是最早用于控制白粉病真菌的支寄生虫之一，因为它们可以有效地消除菌丝生长并减少其真菌宿主的越冬接种量。此外，菌株对某些杀菌剂和杀虫剂(如吡唑磷)具有抗性，这是选择其作为生物防治剂的一个有吸引力的特点。转录组分析显示，在宿主识别过程中，与毒力和植物免疫应答相关的编码蛋白的基因表达增强，而与抗生素耐药性相关的基因编码蛋白则在葡萄霉基因组中得到了预测。需要进行蛋白质组学研究，以确认这些蛋白质是否在毒力中起作用，从而可用于生物防治目的或作为细菌抗生素抗性蛋白质，以及其中哪些可能触发植物免疫反应以促进植物保护。我们鼓励继续进行这些研究，以促进作物保护研究。

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

Canadian Journal of Plant Pathology 生物-植物科学

CiteScore

4.50

自引率

5.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Canadian Journal of Plant Pathology is an international journal which publishes the results of scientific research and other information relevant to the discipline of plant pathology as review papers, research articles, notes and disease reports. Papers may be submitted in English or French and are subject to peer review. Research articles and notes include original research that contributes to the science of plant pathology or to the practice of plant pathology, including the diagnosis, estimation, prevention, and control of plant diseases. Notes are generally shorter in length and include more concise research results. Disease reports are brief, previously unpublished accounts of diseases occurring on a new host or geographic region. Review papers include mini-reviews, descriptions of emerging technologies, and full reviews on a topic of interest to readers, including symposium papers. These papers will be highlighted in each issue of the journal and require prior discussion with the Editor-in-Chief prior to submission.