VIRUS-HOST INFECTION DYNAMICS OF MARINE SINGLE-CELLED EUKARYOTES RESOLVED FROM METATRANSCRIPTOMICS

Metatranscriptomics has emerged as a tool in microbial ecology that can resolve the functional landscape of both prokaryotes and eukaryotes within a community. In this study, we extend the potential of metatranscriptomics to probe active virus infections and virus-host relationships in marine systems. Polyadenylation-selected RNA-seq data were examined from microbial communities in two productive marine environments: a brown tide bloom event dominated by Aureococcus anophagefferens in Quantuck Bay, NY, and a diatom-dominated plankton community in Narragansett Bay, RI. Active infections by diverse giant viruses (NCLDVs) of algal and non-algal hosts were found at both sites. Ongoing infections of A. anophagefferens by a known Mimiviridae (AaV) were observed during both the peak and decline of the bloom. Bloom decline was also accompanied by increased activity for viruses other than AaV, including (+) ssRNA viruses. In Narragansett Bay, increased temporal resolution revealed active NCLDVs with both "boom-and-bust" as well as "steady-state infection"-like ecologies. Statistical co-occurrence examinations of the dsDNA, ssRNA and dsRNA markers within the data revealed a broad spectrum of statistically strong and significant virus-host relationships that included both known as well as novel interactions. Our approach offers a method for screening the diversity and dynamics of active viral infections in natural systems and develops links between viruses and their potential hosts in situ .