Inovirus is a genus of viruses in the family Inoviridae. Gram-positive and gram-negative bacteria serve as natural hosts. The type speciesEscherichia virus M13 is the only species recognized by the 2019 release of the ICTV in the genus, but this classification is out of date, and many other species are known. The name of the genus is derived from the Greek word Ίνα meaning 'fibre or filament'.
Virology
Inovirusvirions consist of a non-enveloped, worm-like chain with helical symmetry. The virions are between 760 and 1950 nm in length and 6-8 nm in width. Their capsid consists of 5 or more proteins: gp8 ; gp6, gp7 and gp8 ; and gp3 which acts as the initial host binding protein. The genomes are circular, positive-sense, single-stranded DNA 4.4-8.5 kilobases in length. They encode 4 to 11 proteins. Replication of the genome occurs via a dsDNA intermediate and the rolling circle mechanism. Gene transcription is by the host's cellular machinery each gene having a specific promoter. The viral protein gp2 plays an essential role in viral DNA replication. It binds to the origin of replication, and cleaves the dsDNA intermediate, allowing DNA replication to initiate at the cleavage site. After one round of rolling circle synthesis, gp2 is linked to the newly synthesized ssDNA and joins the ends of the displaced strand to generate a new circular single-stranded molecule ready to be packed into a virion.
Genus
Structure
Symmetry
Capsid
Genomic arrangement
Genomic segmentation
Inovirus
Rod-shaped
Helical
Non-enveloped
Circular
Monopartite
Life cycle
Inoviruses begin their life cycle by attaching to specific host receptors via viral protein gp3. After attachment, they insert their viral DNA into the host cell. Once inside the cell, they convert the genome into a double-stranded intermediate form which is then replicated by the host's DNA polymerase. At the same time, the host's RNA polymerase transcribes the viral genome to make mRNA and viral proteins. The replicated genomes then combine with newly synthesized viral proteins to make more viruses, which are released from the host. This replication cycle generally takes 10–15 minutes to complete.
Genus
Host details
Tissue tropism
Entry details
Release details
Replication site
Assembly site
Transmission
Inovirus
Gram-negative bacteria
-
Pilus adsorption
Secretion
Cytoplasm
Cytoplasm
Pilus
Replication
Genome replication is initiated when a viral endonuclease nicks the double stranded intermediate. This nicking site is specific and the sequence around the site highly symmetrical. The activity of gp2 is regulated by two other viral proteins: gp5 and gp10. New viral genomes are produced via the rolling circle mechanism. These new single strandDNA sequences become templates for further DNA and RNA synthesis. When sufficient gp5 has accumulated within the cell, further DNA synthesis is halted and virion assembly begins.
Virion assembly
Virion assembly is initiated by the formation of a complex of gp1, gp7, gp9 and gp11 along with the single stranded DNA. It begins at a specific sequence within the DNA which is predicted to have a hairpin formation. Assembly continues at the membrane where ~1500 subunits of gp5 are displaced by ~2700 subunits of gp8. This process involves both gp1 and gp11. The virion is extruded through the plasma membrane without killing the host, and is a useful model system to study transmembrane protein. Assembly is completed by the addition of the viral proteins gp3 and gp6. In hosts with both an inner and outer membrane adhesion zones are created by gp4, a process that may also involve gp1.
Virion release
Productive infection may occur by budding from the host membrane. This pattern is typically seen in the genus Plectivirus.
Relevance
At least one of the viruses is medically important as it encodes the cholera toxin. Inovirus has been extensively used in experimental work in microbiology.
