Rodriguez-Valera Francisco, Bellas Christopher
Evolutionary Genomics Group, Departamento de Producción Vegetal y Microbiología, Universidad Miguel Hernández, San Juan de Alicante, Spain; email:
Department of Ecology, Universität Innsbruck, Innsbruck, Austria; email:
Ann Rev Mar Sci. 2025 Jan;17(1):561-576. doi: 10.1146/annurev-marine-040623-090847. Epub 2024 Nov 25.
One major conundrum of modern microbiology is the large pangenome (gene pool) present in microbes, which is much larger than those found in complex organisms such as humans. Here, we argue that this diversity of gene pools carried by different strains is maintained largely due to the control exercised by viral predation. Viruses maintain a high strain diversity through time that we describe as constant-diversity equilibrium, preventing the hoarding of resources by specific clones. Thus, viruses facilitate the release and degradation of dissolved organic matter in the ocean, which may lead to better ecosystem functioning by linking top-down to bottom-up control. By maintaining this equilibrium, viruses act as a key element of the adaptation of marine microbes to their environment and likely behave as a single evolutionary unit.
现代微生物学的一个主要难题是微生物中存在的庞大泛基因组(基因库),它比人类等复杂生物体中的基因库要大得多。在此,我们认为不同菌株携带的这种基因库多样性在很大程度上是由于病毒捕食所施加的控制得以维持。病毒随时间保持着高度的菌株多样性,我们将其描述为恒定多样性平衡,防止特定克隆体囤积资源。因此,病毒促进了海洋中溶解有机物的释放和降解,通过将自上而下的控制与自下而上的控制联系起来,这可能会使生态系统功能更完善。通过维持这种平衡,病毒成为海洋微生物适应其环境的关键要素,并且可能表现为一个单一的进化单元。
