Banna virus

Banna virus
	Electron micrograph of Banna virus
Virus classification
(unranked):	Virus
Realm:	Riboviria
Kingdom:	Orthornavirae
Phylum:	Duplornaviricota
Class:	Resentoviricetes
Order:	Reovirales
Family:	Reoviridae
Genus:	Seadornavirus
Species:	Banna virus

Last updated March 09, 2022

Banna virus (BAV) is a virus belonging to Reoviridae , a family of segmented, non-enveloped, double-stranded RNA viruses.^[1] It is an arbovirus, being primarily transmitted to humans from the bite of infected mosquitoes of the genus Culex .^[2] Pigs and cattle have also been shown to become infected.^[3] The most common symptom of infection is fever, but in some cases encephalitis may occur.^[4] There is no specific treatment for infection, so treatment is aimed at alleviating the severity of symptoms until the immune system has cleared the infection.

Virology

Structure and genome

BAV is a small (72–75 nm in size), non-enveloped, double-stranded RNA virus surrounded by an icosahedral protein coat. Fibre proteins extend outward from the surface of the protein coat. The genome of BAV is about 19,500 base pairs in length, linear and segmented into 12 parts, encoding for genes VP1-12. Seven of these, VP1-4 and VP8-10, are structural proteins. VP4 and VP9 form the outer protein coat. The inner particles of the coat are composed of VP1-3, VP8 and VP10. VP7 serves as a protein kinase, VP1 as an RNA-dependent RNA polymerase, VP3 as a capping enzyme, and VP12 as a dsRNA-binding protein.^[5]^[6]^[7]

Types and evolution

Rotaviruses share many physical and genetic characteristics with BAV, indicating a close genetic relation between the viruses.^[8] Phylogenetic analysis of the various BAV strains suggests that the BAV-Ch and BAV-In6969 strains were two individual genotypes at one point in time (A and B), before becoming the prototype species for two distinct serotypes (A and B) among all 38 identified strains.^[4]

Diagnosis

Clinical features of BAV infection are non-specific and resemble other arboviral encephalitides, so laboratory diagnosis is required to identify BAV as the cause of illness. Detection of the nucleic acid of BAV can be performed with a TaqMan reverse transcription polymerase chain reaction (RT-PCR) assay by extracting RNA strands from a sample and reverse transcribing them into detectable cDNA.^[9] A recombinant VP9-based enzyme-linked immunosorbent assay (ELISA) can also be used to identify antibodies to BAV in blood serum and study the seroprevalence of BAV infection in a population.^[10]

History

Banna virus was first isolated from the cerebrospinal fluid of encephalitis patients in Xishuangbanna, Yunnan province, People's Republic of China in 1987. Subsequent identification came in the Xinjiang province and the virus has since been found elsewhere in China, Indonesia, and Vietnam in mosquito populations.^[2]^[5] Because BAV displays similar symptoms to Japanese encephalitis virus (JEV) infection and the two viruses share their method of transmission and geographic distribution, it is possible that some past outbreaks attributed to JEV may have instead been caused by BAV.^[3]

Related Research Articles

Rotavirus is a genus of double-stranded RNA viruses in the family Reoviridae. Rotaviruses are the most common cause of diarrhoeal disease among infants and young children. Nearly every child in the world is infected with a rotavirus at least once by the age of five. Immunity develops with each infection, so subsequent infections are less severe; adults are rarely affected. There are nine species of the genus, referred to as A, B, C, D, F, G, H, I and J. Rotavirus A, the most common species, causes more than 90% of rotavirus infections in humans.

Flavivirus is a genus of positive-strand RNA viruses in the family Flaviviridae. The genus includes the West Nile virus, dengue virus, tick-borne encephalitis virus, yellow fever virus, Zika virus and several other viruses which may cause encephalitis, as well as insect-specific flaviviruses (ISFs) such as cell fusing agent virus (CFAV), Palm Creek virus (PCV), and Parramatta River virus (PaRV). While dual-host flaviviruses can infect vertebrates as well as arthropods, insect-specific flaviviruses are restricted to their competent arthropods. The means by which flaviviruses establish persistent infection in their competent vectors and cause disease in humans depends upon several virus-host interactions, including the intricate interplay between flavivirus-encoded immune antagonists and the host antiviral innate immune effector molecules.

Reoviridae is a family of double-stranded RNA viruses. Member viruses have a wide host range, including vertebrates, invertebrates, plants, protists and fungi. They lack lipid envelopes and package their segmented genome within multi-layered capsids. Lack of a lipid envelope has allowed three-dimensional structures of these large complex viruses to be obtained, revealing a structural and likely evolutionary relationship to the cystovirus family of bacteriophage. There are currently 97 species in this family, divided among 15 genera in two subfamilies. Reoviruses can affect the gastrointestinal system and respiratory tract. The name "reo-" is an acronym for "respiratory enteric orphan" viruses. The term "orphan virus" refers to the fact that some of these viruses have been observed not associated with any known disease. Even though viruses in the family Reoviridae have more recently been identified with various diseases, the original name is still used.

Birnaviridae is a family of double-stranded RNA viruses. Salmonid fish, birds and insects serve as natural hosts. There are currently 11 species in this family, divided among seven genera. Diseases associated with this family include infectious pancreatic necrosis in salmonid fish, which causes significant losses to the aquaculture industry, with chronic infection in adult salmonid fish and acute viral disease in young salmonid fish.

Orbivirus is a genus of double-stranded RNA viruses in the family Reoviridae and subfamily Sedoreovirinae. Unlike other reoviruses, orbiviruses are arboviruses. They can infect and replicate within a wide range of arthropod and vertebrate hosts. Orbiviruses are named after their characteristic doughnut-shaped capsomers.

Alkhurma virus (ALKV) is a zoonotic virus of the Flaviviridae virus family. ALKV causes Alkhurma hemorrhagic fever and is mainly based in Saudi Arabia.

The golden shiner virus is an aquatic virus that infects a bait fish known as the golden shiner and to a lesser extent, aquatic animals like crustaceans and molluscs. About 6 virus species have been identified in this genus since the late 1970s. It causes death through a hemorrhagic shock. Symptoms include bleeding from the back eyes and the head. The virus is 70 nm in diameter and replicates best at 20-30 degrees Celsius. The virus has properties similar to those of the pancreatic necrosis virus. This could mean that golden shiners are more susceptible in the summer.

Coltivirus is a genus of viruses that infects vertebrates and invertebrates. It includes the causative agent of Colorado tick fever. Colorado tick fever virus can cause a fever, chills, headache, photophobia, myalgia, arthralgia, and lethargy. Children, in particular, may develop a hemorrhagic disease. Leukopenia with both lymphocytes and neutrophils is very common for Colorado tick fever virus. In either case, the infection can lead to encephalitis or meningitis.

Toscana phlebovirus (TOSV) is an arbovirus belonging to Bunyavirales, an order of negative-stranded, enveloped RNA viruses. The virus can be transmitted to humans by the bite of an infected sandfly of the genus Phlebotomus. Toscana is not normally associated with disease, as indicated by high seroprevalence rates in endemic areas, but in common with other sandfly transmitted viruses such as Naples virus and Sicilian virus, infection may result in Pappataci fever, an illness with mild fever, headache and myalgia. In serious cases that go undiagnosed, acute meningitis, meningoencephalitis and encephalitis may occur. There is no specific treatment for infection, so treatment is supportive, reducing the severity of symptoms until the immune system has cleared the infection.

Equine encephalosis virus (EEV) is a species of virus the Orbivirus genus, and a member of the Reoviridae family, related to African horse sickness virus (AHSV) and Bluetongue virus (BTV).

Seadornavirus is a genus of viruses, in the family Reoviridae, in the subfamily Sedoreovirinae. Human, cattle, pig, and mosquitoes serve as natural hosts. There are three species in this genus: Banna virus (BAV), Kadipiro virus and Liao ning virus. Each of these viruses has been isolated from Aedes, Anopheles and Culex mosquito populations, but only BAV has been shown to cause infection in humans, in which the symptoms are similar to Japanese encephalitis—fever, malaise and encephalitis. The word seadornavirus is an portmanteau, meaning Southeast Asian dodeca RNA virus.

Liao ning virus (LNV) is a virus belonging to the genus Seadornavirus within the family Reoviridae, a family of segmented, non-enveloped, double-stranded RNA viruses. LNV was first discovered in Aedes dorsalis populations in the Liaoning province of the People's Republic of China in 2006 from mosquito samples obtained in 1997. Its geographic distribution was previously thought to be limited to China, but it has since been found in mosquito populations in Australia. In addition to Aedes dorsalis, LNV has been isolated from Culex species.

<i>Sedoreovirinae</i> Subfamily of viruses

Sedoreovirinae is a subfamily of the Reoviridae family of viruses. Viruses in this subfamily are distinguished by the absence of a turreted protein on the inner capsid to produce a smooth surface.

Kadipiro virus (KDV) is a member of the virus family Reoviridae. It is an arbovirus and has been isolated from Culex, Anopheles, Armigeres, and Aedes mosquitoes in Indonesia and China. Other members of the genus Seadornavirus have been linked to viral encephalitis.

Epizootic hemorrhagic disease virus, often abbreviated to EHDV, is a species of the genus Orbivirus, a member of the family Reoviridae. It is the causative agent of epizootic hemorrhagic disease, an acute, infectious, and often fatal disease of wild ruminants. In North America, the most severely affected ruminant is the white-tailed deer, although it may also infect mule deer, black-tailed deer, elk, bighorn sheep, and pronghorn antelope. It is often mistakenly referred to as “bluetongue virus” (BTV), another Orbivirus that like EHDV causes the host to develop a characteristic blue tongue due to systemic hemorrhaging and lack of oxygen in the blood. Despite showing clinical similarities, these two viruses are genetically distinct.

Mimoreovirus is a genus of viruses, in the family Reoviridae, in the subfamily Sedoreovirinae. The only isolate infects the marine photosynthetic protist Micromonas pusilla, a prasinophyte. There is only one species in this genus: Micromonas pusilla reovirus.

West Nile virus (WNV) is a single-stranded RNA virus that causes West Nile fever. It is a member of the family Flaviviridae, from the genus Flavivirus, which also contains the Zika virus, dengue virus, and yellow fever virus. The virus is primarily transmitted by mosquitoes, mostly species of Culex. The primary hosts of WNV are birds, so that the virus remains within a "bird–mosquito–bird" transmission cycle. The virus is genetically related to the Japanese encephalitis family of viruses.

Eyach virus (EYAV) is a viral infection in the Reoviridae family transmitted by a tick vector. It has been isolated from Ixodes ricinus and I. ventalloi ticks in Europe.

<i>Middelburg virus</i> Species of virus

Middelburg virus (MIDV) is an alphavirus of the Old World Group that has likely endemic and zoonotic potential. It is of the viral family Togaviridae. It was isolated from mosquitos in 1957 in South Africa, MDIV antigens have now been found in livestock, horses, and humans.

Astroviridae is a family of non-enveloped ssRNA viruses that cause infections in different animals. The family name is derived from the Greek word astron ("star") referring to the star-like appearance of spikes projecting from the surface of these small unenveloped viruses. Astroviruses were initially identified in humans but have since been isolated from other mammals and birds. This family of viruses consists of two genera, Avastrovirus (AAstV) and Mamastrovirus (MAstV). Astroviruses most frequently cause infection of the gastrointestinal tract but in some animals they may result in encephalitis, hepatitis (avian) and nephritis (avian).

References

↑ Attoui, H.; Billoir, F.; Biagini, P.; De Micco, P.; De Lamballerie, X. (2000). "Complete sequence determination and genetic analysis of Banna virus and Kadipiro virus: Proposal for assignment to a new genus (Seadornavirus) within the family Reoviridae". The Journal of General Virology. 81 (Pt 6): 1507–1515. doi: 10.1099/0022-1317-81-6-1507 . PMID 10811934.
1 2 Nabeshima, T.; Thi Nga, P. T.; Guillermo, P.; Parquet Mdel, M. D. C.; Yu, F.; Thanh Thuy, N. T.; Minh Trang, B. M.; Tran Hien, N. T.; Sinh Nam, V. S.; Inoue, S.; Hasebe, F.; Morita, K. (2008). "Isolation and Molecular Characterization of Banna Virus from Mosquitoes, Vietnam". Emerging Infectious Diseases. 14 (8): 1276–1279. doi:10.3201/eid1408.080100. PMC 2600385 . PMID 18680655.
1 2 Attoui, H.; Jaafar, F. M.; De Micco, P.; De Lamballerie, X. (2005). "Coltiviruses and Seadornaviruses in North America, Europe, and Asia". Emerging Infectious Diseases. 11 (11): 1673–1679. doi:10.3201/eid1111.050868. PMC 3367365 . PMID 16318717.
1 2 Liu, H.; Li, M. H.; Zhai, Y. G.; Meng, W. S.; Sun, X. H.; Cao, Y. X.; Fu, S. H.; Wang, H. Y.; Xu, L. H.; Tang, Q.; Liang, G. D. (2010). "Banna Virus, China, 1987–2007". Emerging Infectious Diseases. 16 (3): 514–517. doi:10.3201/eid1603.091160. PMC 3322026 . PMID 20202434.
1 2 Jaafar, F. M.; Attoui, H.; Mertens, P. P.; De Micco, P.; De Lamballerie, X. (2005). "Structural organization of an encephalitic human isolate of Banna virus (genus Seadornavirus, family Reoviridae)". Journal of General Virology. 86 (4): 1147–1157. doi: 10.1099/vir.0.80578-0 . PMID 15784909.
↑ "The dsRNA segments and proteins of Banna virus" . Retrieved 20 March 2013.
↑ Jaafar, F. M.; Attoui, H.; Mertens, P. P.; De Micco, P.; De Lamballerie, X. (2005). "Identification and functional analysis of VP3, the guanylyltransferase of Banna virus (genus Seadornavirus, family Reoviridae)". Journal of General Virology. 86 (4): 1141–1146. doi: 10.1099/vir.0.80579-0 . PMID 15784908.
↑ Jaafar, F. M.; Attoui, H.; Bahar, M. W.; Siebold, C.; Sutton, G.; Mertens, P. P. C.; De Micco, P.; Stuart, D. I.; Grimes, J. M.; De Lamballerie, X. (2005). "The Structure and Function of the Outer Coat Protein VP9 of Banna Virus". Structure. 13 (1): 17–28. doi: 10.1016/j.str.2004.10.017 . PMID 15642258.
↑ Xu, L. H.; Cao, Y. X.; He, L. F.; Wang, H. Q.; He, Y.; Fu, S. H.; Sun, X. H.; Wang, H. Y.; Liu, W. B.; Wang, L. H.; Liang, G. D. (2006). "Detection of Banna virus-specific nucleic acid with TaqMan RT-PCR assay". Zhonghua Shi Yan He Lin Chuang Bing du Xue Za Zhi = Zhonghua Shiyan He Linchuang Bingduxue Zazhi = Chinese Journal of Experimental and Clinical Virology. 20 (1): 47–51. PMID 16642219.
↑ Mohd Jaafar, F.; Attoui, H.; Gallian, P.; Isahak, I.; Wong, K. T.; Cheong, S. K.; Nadarajah, V. S.; Cantaloube, J. F.; Biagini, P.; De Micco, P.; De Lamballerie, X. (2004). "Recombinant VP9-based enzyme-linked immunosorbent assay for detection of immunoglobulin G antibodies to Banna virus (genus Seadornavirus)". Journal of Virological Methods. 116 (1): 55–61. doi:10.1016/j.jviromet.2003.10.010. PMID 14715307.

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[1] Attoui, H.; Billoir, F.; Biagini, P.; De Micco, P.; De Lamballerie, X. (2000). "Complete sequence determination and genetic analysis of Banna virus and Kadipiro virus: Proposal for assignment to a new genus (Seadornavirus) within the family Reoviridae". The Journal of General Virology. 81 (Pt 6): 1507–1515. doi: 10.1099/0022-1317-81-6-1507 . PMID 10811934.

[cdcbanna1-2] 1 2 Nabeshima, T.; Thi Nga, P. T.; Guillermo, P.; Parquet Mdel, M. D. C.; Yu, F.; Thanh Thuy, N. T.; Minh Trang, B. M.; Tran Hien, N. T.; Sinh Nam, V. S.; Inoue, S.; Hasebe, F.; Morita, K. (2008). "Isolation and Molecular Characterization of Banna Virus from Mosquitoes, Vietnam". Emerging Infectious Diseases. 14 (8): 1276–1279. doi:10.3201/eid1408.080100. PMC 2600385 . PMID 18680655.

[pmid163-3] 1 2 Attoui, H.; Jaafar, F. M.; De Micco, P.; De Lamballerie, X. (2005). "Coltiviruses and Seadornaviruses in North America, Europe, and Asia". Emerging Infectious Diseases. 11 (11): 1673–1679. doi:10.3201/eid1111.050868. PMC 3367365 . PMID 16318717.

[cdcbanna2-4] 1 2 Liu, H.; Li, M. H.; Zhai, Y. G.; Meng, W. S.; Sun, X. H.; Cao, Y. X.; Fu, S. H.; Wang, H. Y.; Xu, L. H.; Tang, Q.; Liang, G. D. (2010). "Banna Virus, China, 1987–2007". Emerging Infectious Diseases. 16 (3): 514–517. doi:10.3201/eid1603.091160. PMC 3322026 . PMID 20202434.

[jogvbanna-5] 1 2 Jaafar, F. M.; Attoui, H.; Mertens, P. P.; De Micco, P.; De Lamballerie, X. (2005). "Structural organization of an encephalitic human isolate of Banna virus (genus Seadornavirus, family Reoviridae)". Journal of General Virology. 86 (4): 1147–1157. doi: 10.1099/vir.0.80578-0 . PMID 15784909.

[6] "The dsRNA segments and proteins of Banna virus" . Retrieved 20 March 2013.

[7] Jaafar, F. M.; Attoui, H.; Mertens, P. P.; De Micco, P.; De Lamballerie, X. (2005). "Identification and functional analysis of VP3, the guanylyltransferase of Banna virus (genus Seadornavirus, family Reoviridae)". Journal of General Virology. 86 (4): 1141–1146. doi: 10.1099/vir.0.80579-0 . PMID 15784908.

[pmid156-8] Jaafar, F. M.; Attoui, H.; Bahar, M. W.; Siebold, C.; Sutton, G.; Mertens, P. P. C.; De Micco, P.; Stuart, D. I.; Grimes, J. M.; De Lamballerie, X. (2005). "The Structure and Function of the Outer Coat Protein VP9 of Banna Virus". Structure. 13 (1): 17–28. doi: 10.1016/j.str.2004.10.017 . PMID 15642258.

[pmid166-9] Xu, L. H.; Cao, Y. X.; He, L. F.; Wang, H. Q.; He, Y.; Fu, S. H.; Sun, X. H.; Wang, H. Y.; Liu, W. B.; Wang, L. H.; Liang, G. D. (2006). "Detection of Banna virus-specific nucleic acid with TaqMan RT-PCR assay". Zhonghua Shi Yan He Lin Chuang Bing du Xue Za Zhi = Zhonghua Shiyan He Linchuang Bingduxue Zazhi = Chinese Journal of Experimental and Clinical Virology. 20 (1): 47–51. PMID 16642219.

[pmid147-10] Mohd Jaafar, F.; Attoui, H.; Gallian, P.; Isahak, I.; Wong, K. T.; Cheong, S. K.; Nadarajah, V. S.; Cantaloube, J. F.; Biagini, P.; De Micco, P.; De Lamballerie, X. (2004). "Recombinant VP9-based enzyme-linked immunosorbent assay for detection of immunoglobulin G antibodies to Banna virus (genus Seadornavirus)". Journal of Virological Methods. 116 (1): 55–61. doi:10.1016/j.jviromet.2003.10.010. PMID 14715307.

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