Taxonomy
The following genera are recognized: * '' Avihepadnavirus'' * '' Orthohepadnavirus'' * '' Herpetohepadnavirus'' * '' Metahepadnavirus'' * '' Parahepadnavirus''History and discovery
Although liver diseases transmissible among human populations were identified early in the history of medicine, the first known hepatitis with a viral etiological agent was Hepatitis A, in the picornaviridae family. Hepatitis B Virus (HBV) was identified as an infection distinct from Hepatitis A through its contamination of measles, mumps, and yellow fever vaccines in the 1930s and 1940s. These vaccines contained HBV-infected human serum as a stabilizing agent. HBV was identified as a new DNA virus in the 1960s, followed a couple of decades later by the discovery of the flavivirus hepatitis C. HBV was first identified in the lab as the "Australia agent" by Blumberg and colleagues in the blood of an Aboriginal transfusion patient. This work earned Blumberg the 1976 Nobel Prize in Medicine.Genome
Hepadnaviruses have very small genomes of partially double-stranded, partially single stranded circular DNA (pdsDNA). The genome consists of two strands, a longer negative-sense strand and a shorter and positive-sense strand of variable length. In the virion these strands are arranged such that the two ends of the long strand meet but are not covalently bonded together. The shorter strand overlaps this divide and is connected to the longer strand on either side of the split through a direct repeat (DR) segment that pairs the two strands together. In replication, the viral pdsDNA is converted in the host cell nucleus to covalently-closed-circular DNA (cccDNA) by the viral polymerase. Replication involves anViral polymerase
Members of the family ''Hepadnaviridae'' encode their own polymerase, rather than co-opting host machinery as some other viruses do. This enzyme is unique among viral polymerases in that it has reverse transcriptase activity to convert RNA into DNA to replicate the genome (the only other human-pathogenic virus family encoding a polymerase with this capability is '' Retroviridae''), RNAse activity (used when the DNA genome is synthesized from pgRNA that was packaged in virions for replication to destroy the RNA template and produce the pdsDNA genome), and DNA-dependent-DNA-polymerase activity (used to create cccDNA from pdsDNA in the first step of the replication cycle).Envelope proteins
The hepatitis envelope proteins are composed of subunits made from the viral preS1, preS2, and S genes. The L (for "large") envelope protein contains all three subunits. The M (for "medium") protein contains only preS2 and S. The S (for "small") protein contains only S. The genome portions encoding these envelope protein subunits share both the same frame and the same stop codon, generating nested transcripts on a single open reading frame. The pre-S1 is encoded first (closest to the 5' end), followed directly by the pre-S2 and the S. When a transcript is made from the beginning of the pre-S1 region, all three genes are included in the transcript and the L protein is produced. When the transcript starts after the pro-S1 at the beginning of the pre-S2 the final protein contains the pre-S2 and S subunits only and therefore is an M protein. The smallest envelope protein containing just the S subunit is made most because it is encoded closest to the 3' end and comes from the shortest transcript. These envelope proteins can assemble independently of the viral capsid and genome into non-infectious virus-like particles that give the virus a pleomorphic appearance and promote a strong immune response in hosts.Replication
Hepadnaviruses replicate through anStructure
Viruses in Hepadnaviridae are enveloped, with spherical geometries, and T=4 symmetry. The diameter is around 42 nm. Genomes are circular, around 3.2kb in length. The genome codes for 7 proteins.Evolution
Based on the presence of viral genomes in bird DNA it appears that the hepadnaviruses evolved >. Birds may be the original hosts of the ''Hepadnaviridae'' with mammals becoming infected after a bird (see host switch). Endogenous hepatitis B virus genomes have been described inNackednaviridae
A proposed family of viruses – the ''Nackednaviridae'' – has been isolated from fish. This family has a similar genomic organisation to that of members of the family ''Hepadnaviridae''. These two families separated over , suggesting an ancient origin for the family ''Hepadnaviridae''. Viruses in the family have non-enveloped, isosahedral structure with T=3 symmetry, smaller than typical ''Hepadnaviridae'' virions (about 5% of the latter show a T=3 symmetry). The circular, monopartite genome is about 3 kb much like ''Hepadnaviridae''. The envelop protein S is accordingly not present, likely the ancestral state by sequence analysis. Unlike ''Hepadnaviridae'' viruses that usually diverge alongside their hosts, viruses in the family jump hosts more frequently. The "type" for this family is ''African cichlid nackednavirus'' (ACNDV), formerly ''African cichlid hepadnavirus'' (ACHBV), a proposed and not-yet-accepted species.Cell tropism
Hepadnaviruses, as their "hepa" name implies, infect liver cells and cause hepatitis. This is true not only of the human pathogen Hepatitis B Virus but also the hepadnaviruses that infect other organisms. The "adhesion" step of the dynamic phase—in which an exterior viral protein stably interacts with a host cell protein—determines cell tropism. In the case of HBV the host receptor is human sodium taurocholate receptor (See also
* Transmission of hepadnavirusesNotes
References
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