Complete genome sequence of a divergent strain of Tibetan frog hepatitis B virus associated with a concave-eared torrent frog ( Odorrana tormota )

AbstractViruses of the familyHepadnaviridae are characterized by partially dsDNA circular genomes of approximately 3.2 kb, which are reverse transcribed from RNA intermediates. Hepadnaviruses have a broad host range, which includes humans (hepatitis B virus), other mammals (genusOrthohepadnavirus), and birds (genusAvihepadnavirus). The known host specificity of hepadnaviruses has been expanded by reports of new viruses infecting fish, amphibians, and reptiles. Tibetan frog hepatitis B virus (TFHBV) was recently discovered in a member of the speciesNanorana parkeri (family Dicroglossidae) from Tibet. To increase our understanding of hepadnaviruses that infect amphibian hosts, we identified the full-length genome of a divergent strain, TFHBV-Ot, associated with a concave-eared torrent frog (Odorrana tormota, family Ranidae) from China by searching deep-sequencing data. TFHBV-Ot shared a genomic organization and 76.6% overall genome sequence nucleotide identity with the prototype TFHBV associated withN. parkeri (TFHBV-Np). The pairwise amino acid sequence identity between the predicted gene products of TFHBV-Ot and TFHBV-Np ranged between 63.9% and 77.9%. Multiple tissue/organ-specific RNAseq datasets suggested a broad tropism of TFHBV, including muscle, gonads and brain. In addition, we provide information about putative virus-derived small RNAs from an amphibian hepadnavirus. The results presented here expand the known genetic diversity and host range of TFHBV toRanidae frogs,...
Source: Archives of Virology - Category: Virology Source Type: research