深海盐池中跨空间尺度的活性原核和真核病毒生态学。

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-06-14 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae084
Benjamin Minch, Morgan Chakraborty, Sam Purkis, Mattie Rodrigue, Mohammad Moniruzzaman
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引用次数: 0

摘要

深海卤水池是一种罕见的极端环境,为了解地球生命的极限提供了独特的视角,并以此类推,为了解地球以外生命的可能性提供了独特的视角。许多卤水池的一个显著特点是在卤水-海水交界处存在厚厚的微生物垫。虽然这些细菌和古细菌群落受到了一定程度的关注,但病毒及其宿主在这些环境中的相互作用仍未得到充分探索。为了弥补这一知识空白,我们利用 NEOM 盐池系统(亚喀巴湾)三个不同区域的元基因组和元转录组数据,揭示了盐池周围活跃的病毒生态。我们报告了在这种环境中感染微生物宿主的病毒的显著多样性和活性,包括巨型病毒、RNA 病毒、巨型噬菌体和波林顿类病毒。其中许多病毒形成了独特的支系--这表明该生态系统中存在尚未开发的病毒多样性。盐池病毒群落在感染策略上表现出特定区域的差异--在距离盐池中心较远的细菌垫上,溶菌作用占主导地位。我们将病毒与代谢重要的原核生物联系起来--包括巨型噬菌体与关键的锰氧化和砷代谢细菌之间的联系。这些基础性研究成果通过揭示新的病毒多样性、宿主关联以及病毒动态的空间异质性,阐明了病毒在盐池微生物群落和生物地球化学中的调节作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Active prokaryotic and eukaryotic viral ecology across spatial scale in a deep-sea brine pool.

Deep-sea brine pools represent rare, extreme environments, providing unique insight into the limits of life on Earth, and by analogy, the plausibility of life beyond it. A distinguishing feature of many brine pools is presence of thick microbial mats that develop at the brine-seawater interface. While these bacterial and archaeal communities have received moderate attention, viruses and their host interactions in these environments remain underexplored. To bridge this knowledge gap, we leveraged metagenomic and metatranscriptomic data from three distinct zones within the NEOM brine pool system (Gulf of Aqaba) to reveal the active viral ecology around the pools. We report a remarkable diversity and activity of viruses infecting microbial hosts in this environment, including giant viruses, RNA viruses, jumbo phages, and Polinton-like viruses. Many of these form distinct clades-suggesting presence of untapped viral diversity in this ecosystem. Brine pool viral communities exhibit zone-specific differences in infection strategy-with lysogeny dominating the bacterial mat further away from the pool's center. We linked viruses to metabolically important prokaryotes-including association between a jumbo phage and a key manganese-oxidizing and arsenic-metabolizing bacterium. These foundational results illuminate the role of viruses in modulating brine pool microbial communities and biogeochemistry through revealing novel viral diversity, host associations, and spatial heterogeneity in viral dynamics.

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