A global analysis of evolutionary conservation among known and predicted gammaherpesvirus microRNAs.

MicroRNAs (miRNAs) are small, noncoding RNAs which posttranscriptionally regulate gene expression. The current release of the miRNA registry lists 16 viruses which encode a total of 146 miRNA hairpins. Strikingly, 139 of these are encoded by members of the herpesvirus family, suggesting an important role for miRNAs in the herpesvirus life cycle. However, with the exception of 7 miRNA hairpins known to be shared by Epstein-Barr virus (EBV) and the closely related rhesus lymphocryptovirus (rLCV), the known herpesvirus miRNAs show little evidence of evolutionary conservation. We have performed a global analysis of miRNA conservation among gammaherpesviruses which is not limited to family members known to encode miRNAs but includes also those which have not been previously analyzed. For this purpose, we have performed a computational prediction of miRNA candidates of all fully sequenced gammaherpesvirus genomes, followed by sequence/structure alignments. Our results indicate that gammaherpesvirus miRNA conservation is limited to two pairs of viral genomes. One is the already-known case of EBV and rLCV. These viruses, however, share significantly more miRNAs than previously thought, as we identified and experimentally verified 10 novel conserved as well as 7 novel nonconserved rLCV pre-miRNA hairpins. The second case consists of rhesus rhadinovirus (RRV), which is predicted to share at least 9 pre-miRNAs with the closely related Japanese macaque herpesvirus (JMHV). Although several other gammaherpesviruses are predicted to encode large numbers of clustered miRNAs at conserved genomic loci, no further examples of evolutionarily conserved miRNA sequences were found.