Betatorquevirus

Betatorquevirus is a genus of viruses in the family Anelloviridae, in group II in the Baltimore classification. The genus Betatorquevirus includes all "torque teno mini viruses" (TTMV), numbered from 1 to 38.

Betatorquevirus
Virus classification
(unranked):	Virus
Realm:	Monodnaviria
Kingdom:	Shotokuvirae
Phylum:	Commensaviricota
Class:	Cardeaviricetes
Order:	Sanitavirales
Family:	Anelloviridae
Genus:	Betatorquevirus

Taxonomy

The genus contains the following species:^[1]

• Betatorquevirus homini1
• Betatorquevirus homini2
• Betatorquevirus homini3
• Betatorquevirus homini4
• Betatorquevirus homini5
• Betatorquevirus homini6
• Betatorquevirus homini7
• Betatorquevirus homini8
• Betatorquevirus homini9
• Betatorquevirus homini10
• Betatorquevirus homini11
• Betatorquevirus homini12
• Betatorquevirus homini13
• Betatorquevirus homini14
• Betatorquevirus homini15
• Betatorquevirus homini16
• Betatorquevirus homini17
• Betatorquevirus homini18
• Betatorquevirus homini19
• Betatorquevirus homini20
• Betatorquevirus homini21
• Betatorquevirus homini22
• Betatorquevirus homini23
• Betatorquevirus homini24
• Betatorquevirus homini25
• Betatorquevirus homini26
• Betatorquevirus homini27
• Betatorquevirus homini28
• Betatorquevirus homini29
• Betatorquevirus homini30
• Betatorquevirus homini31
• Betatorquevirus homini32
• Betatorquevirus homini33
• Betatorquevirus homini34
• Betatorquevirus homini35
• Betatorquevirus homini36
• Betatorquevirus homini37
• Betatorquevirus homini38

Initial discovery

The discovery of TTMV, like the original Torque Teno virus (TTV) isolate, was accidental. After TTV was isolated in 1997 from a Japanese patient, primers were created to study TTV in more detail. TTV-specific primers used in PCR of human plasma samples yielded sequences that partially matched that of TTV, but were noticeably shorter.^[2][3] TTV was eventually understood to have a genome of 3.6–3.9 kb, while TTMV has a genome of 2.8–2.9 kb. Another TT-like virus later isolated in 2007, Torque teno midi virus or TTMDV, has a genome of 3.2 kb.^[3]

Genome and capsid

TTMV shares similar morphologic features with the other human anelloviruses. The capsid has a T=1 icosahedral symmetry.^[2] The virion does not have a lipid envelope and is thus "naked", making it an extremely simple virus. It is estimated that the virion is a little less than 30 nm in diameter.^[2][3]

The genome is circular and made of single-stranded DNA of negative polarity. It is 2.86–2.91 kilobases long.^[2] Anelloviruses are known for having 3 or 4 overlapping, nested open reading frames; TTMV has 3 ORF's that overlap.^[2][4] ORF-2 and ORF-3 overlap with ORF-1 at opposite ends. For TTMV, ORF-1 is about 663 residues and ORF-2 is about 91 residues long.^[2] There is a highly conserved 130-nt region just downstream of the TATA box.^[3]

Phylogeny & spread

TTMV is highly divergent.^[2][3] The first phylogenetic tree created from TTMV genomic sequences revealed a large cluster of strains; ORF-1 had divergences of over 42% at the nucleotide level and over 67% at the amino acid level.^[2]

TTMV is also highly prevalent, like other human anelloviruses. Subsequent research after it was discovered has yielded the prevalence of TTMV DNA among blood donors to be 48%–72%.^[3] It can likely infect a wide range of tissues, as it has been isolated from various body fluids and tissues, including saliva, feces, plasma/serum, PBMCs, bone marrow, spleen, pancreas, kidneys, nervous tissue, lymph nodes, semen, and cervical swabs.^[2][3] Its exact transmission mechanism is unknown, but is thought to be possible by blood-borne, sexual, fecal-oral, and respiratory routes.^[2]

Recent studies have shown that humans can have multiple infections of TT viruses.^[3][4]

Clinical

Though TTVs are potentially associated with diseases and their pathogenicity has been debated since their discovery, TTMV is not currently known as an explicit cause of any human disease.^[2] TTMV has been isolated from a number of parapneumonic empyema.^[5] However, its clinical significance remains unclear.