Diverse DNA modification in marine prokaryotic and viral communities

Abstract

Chemical modifications of DNA, including methylation, play an important role in prokaryotes and viruses. However, our knowledge of the modification systems in environmental microbial communities, typically dominated by members not yet cultured, is limited. Here, we conducted ‘metaepigenomic’ analyses by single-molecule real-time sequencing of marine microbial communities. In total, 233 and 163 metagenomic assembly genomes (MAGs) were constructed from diverse prokaryotes and viruses, respectively, and 220 modified motifs and 276 DNA methyltransferases (MTases) were identified. Most of the MTases were not associated with the defense mechanism. The MTase-motif correspondence found in the MAGs revealed 10 novel pairs, and experimentally confirmed the catalytic specificities of the MTases. We revealed novel alternative motifs in the methylation system that are highly conserved in Alphaproteobacteria, illuminating the co-evolutionary history of the methylation system and host genome. Our findings highlight diverse unexplored DNA modifications that potentially affect the ecology and evolution of prokaryotes and viruses.