Atanasova Nina S, Bamford Dennis H, Oksanen Hanna M
Department of Biosciences and Institute of Biotechnology, University of Helsinki, Helsinki, Finland.
Environ Microbiol Rep. 2016 Aug;8(4):431-44. doi: 10.1111/1758-2229.12385. Epub 2016 Apr 28.
Interaction of viruses and cells has tremendous impact on cellular and viral evolution, nutrient cycling and decay of organic matter. Thus, viruses can indirectly affect complex processes such as climate change and microbial pathogenicity. During recent decades, studies on extreme environments have introduced us to archaeal viruses and viruses infecting extremophilic bacteria or eukaryotes. Hypersaline environments are known to contain strikingly high numbers of viruses (∼10(9) particles per ml). Halophilic archaea, bacteria and eukaryotes inhabiting hypersaline environments have only a few cellular predators, indicating that the role of viruses is highly important in these ecosystems. Viruses thriving in high salt are called haloviruses and to date more than 100 such viruses have been described. Virulent, temperate, and persistent halovirus life cycles have been observed among the known isolates including the recently described SNJ1-SNJ2 temperate virus pair which is the first example of an interplay between two haloviruses in one host cell. In addition to direct virus and cell isolations, metagenomics have provided a wealth of information about virus-host dynamics in hypersaline environments suggesting that halovirus populations and halophilic microorganisms are dynamic over time and spatially distributed around the highly saline environments on the Earth.
病毒与细胞的相互作用对细胞和病毒的进化、营养物质循环以及有机物的分解有着巨大影响。因此,病毒能够间接影响诸如气候变化和微生物致病性等复杂过程。在最近几十年里,对极端环境的研究让我们认识了古菌病毒以及感染嗜极细菌或真核生物的病毒。众所周知,高盐环境中含有数量惊人的病毒(每毫升约10⁹个颗粒)。栖息在高盐环境中的嗜盐古菌、细菌和真核生物只有少数几种细胞捕食者,这表明病毒在这些生态系统中起着非常重要的作用。在高盐环境中繁衍的病毒被称为嗜盐病毒,迄今为止已描述了100多种此类病毒。在已知的分离株中观察到了烈性、温和和持续性嗜盐病毒的生命周期,包括最近描述的SNJ1 - SNJ2温和病毒对,这是两种嗜盐病毒在一个宿主细胞中相互作用的首个例子。除了直接分离病毒和细胞外,宏基因组学还提供了大量有关高盐环境中病毒 - 宿主动态的信息,这表明嗜盐病毒群体和嗜盐微生物随时间变化且在地球上高盐环境周围呈空间分布。
