John H. Leary scite author profile

Hepadnaviruses (hepatitis B viruses [HBVs]) are the only animal viruses that replicate their DNA by reverse transcription of an RNA intermediate. Until recently, the known host range of hepadnaviruses was limited to mammals and birds. We obtained and analyzed the first amphibian HBV genome, as well as several prototype fish HBVs, which allow the first comprehensive comparative genomic analysis of hepadnaviruses from four classes of vertebrates. Bluegill hepadnavirus (BGHBV) was characterized from in-house viral metagenomic sequencing. The African cichlid hepadnavirus (ACHBV) and the Tibetan frog hepadnavirus (TFHBV) were discovered using in silico analyses of the whole-genome shotgun and transcriptome shotgun assembly databases. Residues in the hydrophobic base of the capsid (core) proteins, designated motifs I, II, and III, are highly conserved, suggesting that structural constraints for proper capsid folding are key to capsid protein evolution. Surface proteins in all vertebrate HBVs contain similar predicted membrane topologies, characterized by three transmembrane domains. Most striking was the fact that BGHBV, ACHBV, and the previously described white sucker hepadnavirus did not form a fish-specific monophyletic group in the phylogenetic analysis of all three hepadnaviral genes. Notably, BGHBV was more closely related to the mammalian hepadnaviruses, indicating that cross-species transmission events have played a major role in viral evolution. Evidence of cross-species transmission was also observed with TFHBV. Hence, these data indicate that the evolutionary history of the hepadnaviruses is more complex than previously realized and combines both virus-host codivergence over millions of years and host species jumping. IMPORTANCEHepadnaviruses are responsible for significant disease in humans (hepatitis B virus) and have been reported from a diverse range of vertebrates as both exogenous and endogenous viruses. We report the full-length genome of a novel hepadnavirus from a fish and the first hepadnavirus genome from an amphibian. The novel fish hepadnavirus, sampled from bluegills, was more closely related to mammalian hepadnaviruses than to other fish viruses. This phylogenetic pattern reveals that, although hepadnaviruses have likely been associated with vertebrates for hundreds of millions of years, they have also been characterized by species jumping across wide phylogenetic distances. The Hepadnaviridae are characterized by extremely small (3-to 3.3-kbp), partially double-stranded DNA (dsDNA) genomes. The viral particles are spherical, with a diameter of approximately 42 nm, each containing a single copy of the genome covalently linked to the viral reverse transcriptase (RT), which provides DNA polymerase activity (1-3). The hepadnaviruses are unique among animal viruses in that they replicate their DNA by reverse transcription of an RNA intermediate and comprise the only group VII animal virus (dsDNA-RT virus) of the Baltimore system, which classifies viruses according to their genome composit...

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Myxozoan Community Composition and Diversity in Clinical Cases of Proliferative Gill Disease in Mississippi Catfish Aquaculture

Stilwell

Griffin

Waldbieser³

et al. 2022

Journal of Parasitology

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Identification of phagocytic cells, NK-like cytotoxic cell activity and the production of cellular exudates in the coelomic cavity of adult zebrafish

Moss

Monette

Jaso-Friedmann

et al. 2009

Developmental & Comparative Immunology

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Nonspecific cytotoxic cells of teleosts are armed with multiple granzymes and other components of the granule exocytosis pathway

Praveen

Leary

Evans

et al. 2006

Molecular Immunology

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NCCRP-1: A novel receptor protein sequenced from teleost nonspecific cytotoxic cells*1

Jaso-Friedmann

Leary

Evans

1997

Molecular Immunology

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John H. Leary

Distinct Viral Lineages from Fish and Amphibians Reveal the Complex Evolutionary History of Hepadnaviruses

Myxozoan Community Composition and Diversity in Clinical Cases of Proliferative Gill Disease in Mississippi Catfish Aquaculture

Identification of phagocytic cells, NK-like cytotoxic cell activity and the production of cellular exudates in the coelomic cavity of adult zebrafish

Nonspecific cytotoxic cells of teleosts are armed with multiple granzymes and other components of the granule exocytosis pathway

NCCRP-1: A novel receptor protein sequenced from teleost nonspecific cytotoxic cells*1

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