New genera of RNA viruses in subtropical seawater, inferred from polymerase gene sequences.

Viruses are an integral component of the marine food web, contributing to the disease and mortality of essentially every type of marine life, yet the diversity of viruses in the sea, especially those with RNA genomes, remains very poorly characterized. Isolates of RNA-containing viruses that infect marine plankton are still rare, and the only cultivation-independent surveys of RNA viral diversity reported so far were conducted for temperate coastal waters of British Columbia. Here, we report on our improvements to a previously used protocol to investigate the diversity of marine picorna-like viruses and our results from applying this protocol in subtropical waters. The original protocol was simplified by using direct filtration, rather than tangential flow filtration, to harvest viruses from seawater, and new degenerate primers were designed to amplify a fragment of the RNA-dependent RNA polymerase gene by reverse transcription-PCR from RNA extracted from the filters. Whereas the original protocol was unsuccessful in a preliminary test, the new protocol resulted in amplification of picorna-like virus sequences in every sample of subtropical and temperate coastal seawater assayed. These polymerase sequences formed a diverse, but monophyletic cluster along with other sequences amplified previously from seawater and sequences from isolates infecting marine protists. Phylogenetic analysis suggested that our sequences represent at least five new genera and 24 new species of RNA viruses. These results contribute to our understanding of RNA virus diversity and suggest that picorna-like viruses are a source of mortality for a wide variety of marine protists.