@article {Okazaki655167, author = {Yusuke Okazaki and Yosuke Nishimura and Takashi Yoshida and Hiroyuki Ogata and Shin-ichi Nakano}, title = {Metagenomic exploration of viral diversity and virus-host interactions in a deep freshwater lake}, elocation-id = {655167}, year = {2019}, doi = {10.1101/655167}, publisher = {Cold Spring Harbor Laboratory}, abstract = {The use of metagenomics has dramatically expanded the known virosphere, but freshwater viral diversity and the ecological relationships between viruses and hosts remain poorly understood. In this study, we conducted a large-scale metagenomic exploration of planktonic dsDNA prokaryotic viruses by sequencing both virion (\<0.22 μm) and cellular (0.22{\textendash}5.0 μm) fractions collected spatiotemporally from a deep freshwater lake (Lake Biwa, Japan). This simultaneously reconstructed 183 complete (i.e., circular) viral genomes and 57 bacterioplankton metagenome-assembled genomes. Spatiotemporal, intra- and extra-cellular dynamics of individual viruses assessed through metagenomic read coverage revealed a hypolimnion-specific viral community analogous to the vertically-stratified bacterioplankton community. The hypolimnetic community was generally stable during stratification, but occasionally shifted abruptly due to lysogenic induction, presumably reflecting low bacterial productivity in the hypolimnion. Genes involved in assimilatory sulfate reduction were encoded in 20 (10.9\%) viral genomes, including those of dominant viruses, and may aid viral propagation in sulfur-limited freshwater systems. Hosts were predicted for 40 (21.9\%) viral genomes, encompassing 10 phyla (or classes of Proteobacteria) including ubiquitous freshwater bacterioplankton lineages (e.g., LD12 and Ca. Nitrosoarchaeum). Comparison with published metagenomes revealed phylogeographic connectivity of viral communities in geographically isolated habitats, probably following the phylogeographic connectivity of their hosts. Notably, analogous to their hosts, actinobacterial viruses were among the most diverse, ubiquitous, and abundant viral groups in freshwater systems, with high lytic replication rates in surface waters. This result suggested that freshwater Actinobacteria are under high viral lytic pressure, which likely facilitated their genomic micro-diversification to elude viral recognition.Significance Statement Metagenomics allows for the reconstruction of bacterial and viral genomes without cultivation, contributing substantially to elucidation of bacterial and viral diversity and their key ecological roles. In this study, we report the largest-scale metagenomic exploration of freshwater prokaryotic viruses to date. We investigated the hypolimnion of a deep freshwater lake and tracked viruses throughout their life cycles, including both intra- and extra-cellular phases. This method allowed us to reconstruct both viral and host genomes and characterize numerous novel virus-host interactions, including those involving ubiquitous freshwater bacterial lineages. When the data were compared with published metagenomic datasets, we uncovered genome-resolved phylogeographic connectivity among viruses from geographically isolated habitats and identified ecologically important viral groups that are ubiquitous in aquatic habitats.}, URL = {https://www.biorxiv.org/content/early/2019/05/31/655167}, eprint = {https://www.biorxiv.org/content/early/2019/05/31/655167.full.pdf}, journal = {bioRxiv} }