霉菌捕食的遗传基础

Advances in microbial physiology Pub Date : 2024-01-01 Epub Date: 2024-05-22 DOI:10.1016/bs.ampbs.2024.04.001
Emily J Radford, David E Whitworth
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引用次数: 0

摘要

粘菌(粘球菌门)是一种丰富且几乎无处不在的微生物捕食者。它们是变性多细胞生物,能够形成多细胞子实体,并蜂拥到物体表面,合作捕食猎物。粘菌群落能够杀死各种猎物微生物,吸收它们的生物量来促进种群增长。它们的捕食机制是外源性的--水解酶和有毒代谢物被分泌到细胞外环境中,从外部杀死和消化猎物细胞。然而,最近观察到的单细胞捕食和依赖接触杀死猎物的现象挑战了粘菌捕食必须合作的教条。无论其捕食机制如何,粘菌的猎物范围很广,包括革兰氏阴性细菌、革兰氏阳性细菌和真菌。庞大的基因组分析表明,它们极其庞大的基因组主要由附属基因组成,而这些附属基因并不是其物种的所有成员都共享的。看来,不同菌株中附属基因的多样性提供了捕食这些大杂烩微生物所需的广泛活性,同时也解释了为什么不同菌株对特定猎物的捕食效率存在相当大的差异。本综述简要介绍了与捕食相关的蕈样细菌生物学的一般特征,然后汇集了有关捕食的分子机制和遗传基础的大量研究成果,总结了当前的知识,强调了研究趋势,并提出了我们未来可能利用蕈样细菌捕食的策略。
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The genetic basis of predation by myxobacteria.

Myxobacteria (phylum Myxococcota) are abundant and virtually ubiquitous microbial predators. Facultatively multicellular organisms, they are able to form multicellular fruiting bodies and swarm across surfaces, cooperatively hunting for prey. Myxobacterial communities are able to kill a wide range of prey microbes, assimilating their biomass to fuel population growth. Their mechanism of predation is exobiotic - hydrolytic enzymes and toxic metabolites are secreted into the extracellular environment, killing and digesting prey cells from without. However, recent observations of single-cell predation and contact-dependent prey killing challenge the dogma of myxobacterial predation being obligately cooperative. Regardless of their predatory mechanisms, myxobacteria have a broad prey range, which includes Gram-negative bacteria, Gram-positive bacteria and fungi. Pangenome analyses have shown that their extremely large genomes are mainly composed of accessory genes, which are not shared by all members of their species. It seems that the diversity of accessory genes in different strains provides the breadth of activity required to prey upon such a smorgasbord of microbes, and also explains the considerable strain-to-strain variation in predatory efficiency against specific prey. After providing a short introduction to general features of myxobacterial biology which are relevant to predation, this review brings together a rapidly growing body of work into the molecular mechanisms and genetic basis of predation, presenting a summary of current knowledge, highlighting trends in research and suggesting strategies by which we can potentially exploit myxobacterial predation in the future.

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