Stough Joshua M A, Yutin Natalya, Chaban Yuri V, Moniruzzaman Mohammed, Gann Eric R, Pound Helena L, Steffen Morgan M, Black Jenna N, Koonin Eugene V, Wilhelm Steven W, Short Steven M
Department of Microbiology, The University of Tennessee, Knoxville, Knoxville, TN, United States.
National Center for Biotechnology Information, National Library of Medicine, National Institutes of Health, Bethesda, MD, United States.
Front Microbiol. 2019 Apr 5;10:703. doi: 10.3389/fmicb.2019.00703. eCollection 2019.
Some giant viruses are ecological agents that are predicted to be involved in the top-down control of single-celled eukaryotic algae populations in aquatic ecosystems. Despite an increased interest in giant viruses since the discovery and characterization of and other viral giants, little is known about their physiology and ecology. In this study, we characterized the genome and functional potential of a giant virus that infects the freshwater haptophyte , originally isolated from Lake Ontario. This virus, CpV-BQ2, is a member of the nucleo-cytoplasmic large DNA virus (NCLDV) group and possesses a 437 kb genome encoding 503 ORFs with a GC content of 25%. Phylogenetic analyses of core NCLDV genes place CpV-BQ2 amongst the emerging group of algae-infecting Mimiviruses informally referred to as the "extended ," making it the first virus of this group to be isolated from a freshwater ecosystem. During genome analyses, we also captured and described the genomes of three distinct virophages that co-occurred with CpV-BQ2 and likely exploit CpV for their own replication. These virophages belong to the polinton-like viruses (PLV) group and encompass 19-23 predicted genes, including all of the core PLV genes as well as several genes implicated in genome modifications. We used the CpV-BQ2 and virophage reference sequences to recruit reads from available environmental metatranscriptomic data to estimate their activity in fresh waters. We observed moderate recruitment of both virus and virophage transcripts in samples obtained during blooms in Lake Erie and Lake Tai, China in 2013, with a spike in activity in one sample. Virophage transcript abundance for two of the three isolates strongly correlated with that of the CpV-BQ2. Together, the results highlight the importance of giant viruses in the environment and establish a foundation for future research on the physiology and ecology CpV-BQ2 as a model system for algal Mimivirus dynamics in freshwaters.
一些巨型病毒是生态因子,预计它们参与水生生态系统中单细胞真核藻类种群的自上而下的控制。尽管自 及其他病毒巨头被发现和表征以来,人们对巨型病毒的兴趣有所增加,但对它们的生理学和生态学却知之甚少。在本研究中,我们对一种感染淡水定鞭藻 的巨型病毒的基因组和功能潜力进行了表征,该病毒最初从安大略湖分离得到。这种病毒,CpV-BQ2,是核质大 DNA 病毒(NCLDV)组的成员,拥有一个 437 kb 的基因组,编码 503 个开放阅读框,GC 含量为 25%。对核心 NCLDV 基因的系统发育分析将 CpV-BQ2 置于新兴的感染藻类的拟菌病毒组中,该组被非正式地称为“扩展的 ”,这使其成为该组中第一个从淡水生态系统中分离出来的病毒。在基因组分析过程中,我们还捕获并描述了与 CpV-BQ2 共同出现的三种不同病毒卫星的基因组,它们可能利用 CpV 进行自身复制。这些病毒卫星属于类多泡病毒(PLV)组,包含 19 - 23 个预测基因,包括所有核心 PLV 基因以及几个与基因组修饰有关的基因。我们使用 CpV-BQ2 和病毒卫星参考序列从可用的环境宏转录组数据中招募 reads,以估计它们在淡水中的活性。我们在 2013 年伊利湖和中国太湖 水华期间获得的样本中观察到病毒和病毒卫星转录本的适度招募,其中一个样本的活性出现峰值。三种分离物中的两种病毒卫星转录本丰度与 CpV-BQ2 的丰度高度相关。总之,这些结果突出了巨型病毒在环境中的重要性,并为未来将 CpV-BQ2 作为淡水藻类拟菌病毒动态的模型系统进行生理学和生态学研究奠定了基础。
