Non enveloped virion, about 40 nm in diameter with a T=4 icosahedral symmetry (240 copies of two proteins derived from the capsid precursor cleavage).
Monopartite (Betatetravirus) or bipartite (Omegatetravirus) linear ssRNA(+) genome of about 6.5 kb. The 5' terminus is capped in Omegatetraviruses but not in Betatetraviruses. The 3' terminus is not polyadenylated but terminates with a distinctive tRNA-like structure.
The virion RNA is infectious and serves as both the genome and viral messenger RNA. Genomic RNA is translated into a polyprotein which is cleaved presumably by a viral protease into replication proteins. Replication produces a subgenomic RNA which encodes for capsid protein.
- RNA-dependent RNA polymerase [RNA polymerase]
- Alpha type capping
- RNA TPase ?
- N7 MTase [RNA polymerase]
- GTase ?
- 2'O MTase ?
- Asparagine proteases (Peptidase N2) [Capsid]
- Virus penetrates into the host cell.
- Uncoating, and release of the viral genomic RNA into the cytoplasm.
- Genomic RNA is translated to produce replication proteins.
- Replication takes place in cytoplasmic viral factories. A dsRNA genome is synthesized from the genomic ssRNA(+).
- The dsRNA genome is transcribed/replicated thereby providing viral mRNAs/new ssRNA(+) genomes.
- Expression of the subgenomic RNA encoding the capsid protein.
- Assembly of new virus particles.