Caulimoviridae
| Caulimoviridae | |
|---|---|
| Virus classification | |
| Group: | Group VII (dsDNA-RT) |
| Family: | Caulimoviridae |
| Genera | |
Caulimoviridae is a family of viruses. Plants and insects serve as natural hosts. There are currently 53 species in this family, divided among 8 genera.Viruses belonging to the Caulimoviridae family are termed DNA reverse-transcribing viruses (or pararetroviruses) i.e. viruses that contain a reverse transcription stage in their replication cycle. This family contains all plant viruses that consist of a double-stranded DNA genome that has a reverse transcribing phase in its lifecycle.
Group: dsDNA-RT
The Rose yellow vein virus has an unusual genome organisation that appears to be unique in this family.
All viruses of this family are non-enveloped. Virus particles contain nucleocapsids one of two forms; either bacilliform or isometric. The type of nucleocapsid incorporated into the virus structure determines the size of the virus. Bacilliform nucleocapsid viruses are approximately 35–50 nm diameter and can be 900 nm in length. Isometric nucleocapsid viruses are on average 45–50 nm in diameter and show icosahdral symmetry.
The genomes of viruses from this family contain monopartite, double-stranded DNA in either an open circular or linear structure. The size of the genome is usually between 6000–8000 base pairs. Depending on the virus, DNA can contain either one open reading frame (ORF) as observed in Petuviruses, or up to eight ORFs such as in the Soymoviruses. Proteins found to be encoded in this virus family genome include reverse transcriptase, proteases, nucleocapsids and transactivators — there are other proteins essential for replication that have yet to be assigned a specific function.
Replication takes place in both the cytoplasm and nucleus of host cells. Firstly, the viral genome enters the cytoplasm. The viral DNA forms supercoiled mini-chromosome structures upon entering the host nucleus. The viral DNA is transcribed into polyadenylated RNA which is terminally redundant (due to transcription occurring twice for some parts of the DNA). Newly transcribed RNA enters the cytoplasm once more where it has two roles. It can either be used as a template for viral protein synthesis, or it can undergo reverse transcription by viral encoded reverse transcriptase to make dsDNA. This DNA can then reenter the nucleus for amplification.
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