Voorhies Alexander A, Eisenlord Sarah D, Marcus Daniel N, Duhaime Melissa B, Biddanda Bopaiah A, Cavalcoli James D, Dick Gregory J
Department of Earth and Environmental Sciences, University of Michigan, Ann Arbor, MI, 48109, USA.
School of Natural Resources and Environment, University of Michigan, Ann Arbor, MI, 48109, USA.
Environ Microbiol. 2016 Feb;18(2):358-71. doi: 10.1111/1462-2920.12756. Epub 2015 Mar 4.
Metagenomic and metatranscriptomic sequencing was conducted on cyanobacterial mats of the Middle Island Sinkhole (MIS), Lake Huron. Metagenomic data from 14 samples collected over 5 years were used to reconstruct genomes of two genotypes of a novel virus, designated PhV1 type A and PhV1 type B. Both viral genotypes encode and express nblA, a gene involved in degrading phycobilisomes, which are complexes of pigmented proteins that harvest light for photosynthesis. Phylogenetic analysis indicated that the viral-encoded nblA is derived from the host cyanobacterium, Phormidium MIS-PhA. The cyanobacterial host also has two complete CRISPR (clustered regularly interspaced short palindromic repeats) systems that serve as defence mechanisms for bacteria and archaea against viruses and plasmids. One 45 bp CRISPR spacer from Phormidium had 100% nucleotide identity to PhV1 type B, but this region was absent from PhV1 type A. Transcripts from PhV1 and the Phormidium CRISPR loci were detected in all six metatranscriptomic data sets (three during the day and three at night), indicating that both are transcriptionally active in the environment. These results reveal ecological and genetic interactions between viruses and cyanobacteria at MIS, highlighting the value of parallel analysis of viruses and hosts in understanding ecological interactions in natural communities.
对休伦湖米德岛污水坑(MIS)的蓝藻席进行了宏基因组和宏转录组测序。利用5年期间收集的14个样本的宏基因组数据,重建了一种新型病毒的两种基因型的基因组,分别命名为PhV1 A型和PhV1 B型。两种病毒基因型都编码并表达nblA,这是一种参与降解藻胆体的基因,藻胆体是收集光用于光合作用的色素蛋白复合物。系统发育分析表明,病毒编码的nblA来源于宿主蓝藻,即MIS-PhA席藻。蓝藻宿主还有两个完整的CRISPR(成簇规律间隔短回文重复序列)系统,作为细菌和古菌抵御病毒和质粒的防御机制。席藻的一个45 bp的CRISPR间隔序列与PhV1 B型具有100%的核苷酸同一性,但该区域在PhV1 A型中不存在。在所有六个宏转录组数据集中(白天三个,晚上三个)都检测到了来自PhV1和席藻CRISPR位点的转录本,表明两者在环境中都具有转录活性。这些结果揭示了MIS中病毒和蓝藻之间的生态和遗传相互作用,突出了在理解自然群落生态相互作用中对病毒和宿主进行平行分析的价值。
