木霉生态生理学中特殊次生代谢产物的作用及其遗传基础

IF 5.7 2区 生物学 Q1 MYCOLOGY Fungal Biology Reviews Pub Date : 2022-03-01 DOI:10.1016/j.fbr.2021.12.004
Isabel Vicente , Riccardo Baroncelli , Rosa Hermosa , Enrique Monte , Giovanni Vannacci , Sabrina Sarrocco
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引用次数: 0

摘要

木霉属真菌具有多样的生活方式、对不断变化的环境条件的高度适应性以及与其他生物建立复杂相互作用的能力。由于木霉能够拮抗植物病原体并引发植物对生物/非生物胁迫的防御反应,木霉通常被用作商业生物农药和生物肥料。木霉在根际的成功得到了大量专门代谢产物(SM)的支持,这些代谢产物提供了形态和生理自动调节、自我保护和促进真菌交流。本文旨在探讨SM在真菌生物学中的作用,特别是木霉属,以及SM遗传结构的差异如何决定木霉的生活方式。木霉基因组具有大量的SM生物合成基因,了解其生物合成的遗传基础对于确定这些代谢产物在木霉生态生理学中的作用以及扩大其在作物保护中的应用至关重要。讨论了由计算生物学驱动的木霉SM基因库表征的最新进展。
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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Role and genetic basis of specialised secondary metabolites in Trichoderma ecophysiology

Species of fungal genus Trichoderma are characterized by a versatile lifestyle, high adaptability to the changing environmental conditions and the ability to establish sophisticated interactions with other organisms. Due to their ability to antagonize plant pathogens and to elicit the plant defence responses against biotic/abiotic stresses, Trichoderma spp. are commonly used as commercially biopesticides and biofertilizers. The Trichoderma success in the rhizosphere is supported by a wide arsenal of specialised metabolites (SMs) providing morphological and physiological autoregulation, self-protection and facilitating fungal communication. This review aims to explore the roles of SMs in the biology of fungi, with special emphasis on the genus Trichoderma and on how divergence in the SMs genetic structure determine Trichoderma lifestyles. Trichoderma genomes are endowed with a high number of SMs biosynthetic genes, and understanding the genetic basis of their biosynthesis is crucial for determining the role of these metabolites in Trichoderma ecophysiology and for expanding their application in crop protection. Recent advances on the characterization of the Trichoderma SMs genetic inventory driven by computational biology are discussed.

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来源期刊
CiteScore
10.60
自引率
0.00%
发文量
36
期刊介绍: Fungal Biology Reviews is an international reviews journal, owned by the British Mycological Society. Its objective is to provide a forum for high quality review articles within fungal biology. It covers all fields of fungal biology, whether fundamental or applied, including fungal diversity, ecology, evolution, physiology and ecophysiology, biochemistry, genetics and molecular biology, cell biology, interactions (symbiosis, pathogenesis etc), environmental aspects, biotechnology and taxonomy. It considers aspects of all organisms historically or recently recognized as fungi, including lichen-fungi, microsporidia, oomycetes, slime moulds, stramenopiles, and yeasts.
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