Parramatta River virus

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Parramatta River virus
Virus classification Red Pencil Icon.png
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Kitrinoviricota
Class: Flasuviricetes
Order: Amarillovirales
Family: Flaviviridae
Genus: Flavivirus (?)
Virus:
Parramatta River virus

Parramatta River virus (PaRV) is an insect virus belonging to Flaviviridae and endemic to Australia. It was discovered in 2015. [1] The virus was identified from the mosquito Aedes vigilax collected from Sydney under the joint research project by scientists at the University of Queensland and the University of Sydney. In experimental infections, the virus is unable to grow in vertebrate cells, but only in Aedes-derived mosquito cell lines. This suggests that the virus does not infect vertebrates. The name is given because it was discovered from Silverwater, a suburb of Sydney on the southern bank of the Parramatta River. The mosquitoes from which the virus was isolated were actually collected in 2007, and had been preserved since then. The study commenced only after the development of the technique of viral detection in mosquitoes in the University of Queensland. [2]

The virus was identified as a result of investigation on the outbreak of Ross River virus in 2015. Both the viruses are transmitted by the same mosquitoes, but PaRV is not transmitted to humans, unlike RRV. According to one of the co-authors, Cameron Webb of the University of Sydney, this unique transmission of PaRV could hold a key "to vaccinate mosquitoes and stop their bites making thousands of Australians sick every summer." [3] The reason, explained by Jody Hobson-Peters of the University of Queensland, is that if mosquitoes (vectors for human diseases) are infected with the PaRV, then they will no longer be able to carry other human-infectious viruses. [4]

The virus was identified from the whole genome sequence using Sanger sequencing. The viral genome consists of 10,893 nucleotides and encodes a polyprotein of 3384 amino acids. Comparison with the genomes of other viruses showed that its closest relatives are the Mediterranean Ochlerotatus flavivirus (MoFV) isolated from Ochlerotatus mosquitoes in Spain, and the Hanko virus (HANKV) from Ochlerotatus mosquitoes in Finland (both identified in 2012 [5] [6] ). With MoFV its shares 72.7% nucleotide identity, and with HANKV the nucleotide similarity is 71.4%. [1]

The complete structure of the 3'UTR RNA of PaRV has been solved, revealing that that PaRV has evolved to produce multiple separate sfRNAs from its 3'UTR. [7] Duplicated xrRNAs in PaRV and other insect-specific Flaviviruses appear to be evolutionarily selected for to provide functional redundancy allowing the production of sfRNAs if one structures is disabled by mutations. [7]

Related Research Articles

<i>Flaviviridae</i> Family of viruses

Flaviviridae is a family of enveloped positive-strand RNA viruses which mainly infect mammals and birds. They are primarily spread through arthropod vectors. The family gets its name from the yellow fever virus; flavus is Latin for "yellow", and yellow fever in turn was named because of its propensity to cause jaundice in victims. There are 89 species in the family divided among four genera. Diseases associated with the group include: hepatitis (hepaciviruses), hemorrhagic syndromes, fatal mucosal disease (pestiviruses), hemorrhagic fever, encephalitis, and the birth defect microcephaly (flaviviruses).

<i>Flavivirus</i> Genus of viruses

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.

<i>Wolbachia</i> Genus of bacteria in the Alphaproteobacteria class

Wolbachia is a genus of intracellular bacteria that infects mainly arthropod species, including a high proportion of insects, and also some nematodes. It is one of the most common parasitic microbes, and is possibly the most common reproductive parasite in the biosphere. Its interactions with its hosts are often complex, and in some cases have evolved to be mutualistic rather than parasitic. Some host species cannot reproduce, or even survive, without Wolbachia colonisation. One study concluded that more than 16% of neotropical insect species carry bacteria of this genus, and as many as 25 to 70% of all insect species are estimated to be potential hosts.

Ross River virus (RRV) is a small encapsulated single-strand RNA Alphavirus endemic to Australia, Papua New Guinea and other islands in the South Pacific. It is responsible for a type of mosquito-borne non-lethal but extremely debilitating tropical disease known as Ross River fever, previously termed "epidemic polyarthritis". There is no known cure, and it can last in the system of the host for up to 20 years. The virus is suspected to be enzootic in populations of various native Australian mammals, and has been found on occasion in horses.

<i>Alphavirus</i> Genus of viruses

Alphavirus is a genus of RNA viruses, the sole genus in the Togaviridae family. Alphaviruses belong to group IV of the Baltimore classification of viruses, with a positive-sense, single-stranded RNA genome. There are 32 alphaviruses, which infect various vertebrates such as humans, rodents, fish, birds, and larger mammals such as horses, as well as invertebrates. Alphaviruses that could infect both vertebrates and arthropods are referred dual-host alphaviruses, while insect-specific alphaviruses such as Eilat virus and Yada yada virus are restricted to their competent arthropod vector. Transmission between species and individuals occurs mainly via mosquitoes, making the alphaviruses a member of the collection of arboviruses – or arthropod-borne viruses. Alphavirus particles are enveloped, have a 70 nm diameter, tend to be spherical, and have a 40 nm isometric nucleocapsid.

<i>Portunus trituberculatus</i> Species of crab

Portunus trituberculatus, the gazami crab, South Korea's blue crab or horse crab, is the most widely fished species of crab in the world. It is found off the coasts of East Asia and is closely related to Portunus armatus.

Rocio viral encephalitis is an epidemic flaviviral disease of humans first observed in São Paulo State, Brazil, in 1975. Low-level enzootic transmission is likely continuing in the epidemic zone, and with increased deforestation and population expansion, additional epidemics caused by Rocio virus are highly probable. If migratory species of birds are, or become involved in, the virus transmission cycle, the competency of a wide variety of mosquito species for transmitting Rocio virus experimentally suggest that the virus may become more widely distributed. The encephalitis outbreak in the western hemisphere caused by West Nile virus, a related flavivirus, highlights the potential for arboviruses to cause severe problems far from their source enzootic foci.

The Pacific spadenose shark is a species of requiem shark, in the family Carcharhinidae. It was once regarded as conspecific to the spadenose shark.

Batai orthobunyavirus (BATV) is a RNA virus belonging to order Bunyavirales, genus Orthobunyavirus.

Spondweni virus is an arbovirus, or arthropod-borne virus, which is a member of the family Flaviviridae and the genus Flavivirus. It is part of the Spondweni serogroup which consists of the Sponweni virus and the Zika virus (ZIKV). The Spondweni virus was first isolated in Nigeria in 1952, and ever since, SPONV transmission and activity have been reported throughout Africa. Its primary vector of transmission is the sylvatic mosquito Aedes circumluteolus, though it has been isolated from several different types of mosquito. Transmission of the virus into humans can lead to a viral infection known as Spondweni fever, with symptoms ranging from headache and nausea to myalgia and arthralgia. However, SPONV is phylogenetically close to the ZIKV, it is commonly misdiagnosed as ZIKV along with other viral illnesses.

<i>West Nile virus</i> Species of flavivirus causing West Nile fever

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.

<span class="mw-page-title-main">Palm Creek virus</span> Species of virus

Palm Creek virus (PCV) is an insect virus belonging to the genus Flavivirus, of the family Flaviviridae. It was discovered in 2013 from the mosquito Coquillettidia xanthogaster. The female mosquitoes were originally collected in 2010 from Darwin, Katherine, Alice Springs, Alyangula, Groote Eylandt, Jabiru and the McArthur River Mine, and had since been preserved. The discovery was made by biologists at the University of Queensland. The virus is named after Palm Creek, near Darwin, from where it was originally isolated.

<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.

Jingmenvirus is a group of positive-sense single-stranded RNA viruses with segmented genomes. They are primarily associated with arthropods and are one of only two known segmented RNA viruses that infect animal hosts. The first member of the group, the Jingmen tick virus (JMTV), was described in 2014. Another member, the Guaico Culex virus (GCXV), has a highly unusual multicomponent architecture in which the genome segments are separately enclosed in different viral capsids.

Yokose virus (YOKV) is in the genus Flavivirus of the family Flaviviridae. Flaviviridae are often found in arthropods, such as mosquitoes and ticks, and may also infect humans. The genus Flavivirus includes over 50 known viruses, including Yellow Fever, West Nile Virus, Zika Virus, and Japanese Encephalitis. Yokose virus is a new member of the Flavivirus family that has only been identified in a few bat species. Bats have been associated with several emerging zoonotic diseases such as Ebola and SARS.

<i>Sepik virus</i> Mosquito transmitted virus endemic to Papua New Guinea

Sepik virus (SEPV) is an arthropod-borne virus (arbovirus) of the genus Flavivirus and family Flaviviridae. Flaviviridae is one of the most well characterized viral families, as it contains many well-known viruses that cause diseases that have become very prevalent in the world, like Dengue virus. The genus Flavivirus is one of the largest viral genera and encompasses over 50 viral species, including tick and mosquito borne viruses like Yellow fever virus and West Nile virus. Sepik virus is much less well known and has not been as well-classified as other viruses because it has not been known of for very long. Sepik virus was first isolated in 1966 from the mosquito Mansoniaseptempunctata, and it derives its name from the Sepik River area in Papua New Guinea, where it was first found. The geographic range of Sepik virus is limited to Papua New Guinea, due to its isolation.

<i>Modoc virus</i> Species of virus

Modoc virus (MODV) is a rodent-associated flavivirus. Small and enveloped, MODV contains positive single-stranded RNA. Taxonomically, MODV is part of the Flavivirus genus and Flaviviridae family. The Flavivirus genus includes nearly 80 viruses, both vector-borne and no known vector (NKV) species. Known flavivirus vector-borne viruses include Dengue virus, Yellow Fever virus, tick-borne encephalitis virus, and West Nile virus.

<span class="mw-page-title-main">Flavivirus 5' UTR</span> Untranslated regions in the genome of viruses in the genus Flavivirus

Flavivirus 5' UTR are untranslated regions in the genome of viruses in the genus Flavivirus.

Flavivirus 3' UTR are untranslated regions in the genome of viruses in the genus Flavivirus.

Kedougou virus (KEDV) is an arbovirus of the Flaviviridae family, genus Flavivirus, belongs to the IV group of a viruses. The virus was first isolated from Aedes minutus mosquitoes in Senegal in 1971. KEDV belongs to the Kedougou virus group. It is endemically present in the Kédougou Region, from which it takes its name, together with other arboviruses of the genus Flavivirus such as: Yellow fever virus (YFV), West Nile virus (WNV) and Zika virus (ZIKV). KEDV has also been isolated from Aedes circumluteolus mosquitoes collected in Ndumu, KwaZulu-Natal, South Africa.

References

  1. 1 2 McLean, Breeanna J.; Hobson-Peters, Jody; Webb, Cameron E.; Watterson, Daniel; Prow, Natalie A.; Nguyen, Hong Duyen; Hall-Mendelin, Sonja; Warrilow, David; Johansen, Cheryl A.; Jansen, Cassie C.; van den Hurk, Andrew F.; Beebe, Nigel W.; Schnettler, Esther; Barnard, Ross T.; Hall, Roy A. (2015). "A novel insect-specific flavivirus replicates only in Aedes-derived cells and persists at high prevalence in wild Aedes vigilax populations in Sydney, Australia". Virology. 486: 272–283. doi: 10.1016/j.virol.2015.07.021 . PMID   26519596.
  2. Morris, Cathy (9 December 2015). "Scientists discover Parramatta River virus". The Daily Telegraph. Retrieved 21 September 2016.
  3. "'Good' mozzie virus might hold key to fighting human disease". www.sciencedaily.com. 17 November 2015. Retrieved 22 September 2016.
  4. Rigby, Mark; Staley, Phil (18 November 2015). "'Good' mosquito virus could be key to eradicating mosquito-borne diseases in humans" . Retrieved 22 September 2016.
  5. Vázquez, Ana; Sánchez-Seco, María-Paz; Palacios, Gustavo; Molero, Francisca; Reyes, Noelia; Ruiz, Santiago; Aranda, Carles; Marqués, Eduard; Escosa, Raul; Moreno, Juana; Figuerola, Jordi; Tenorio, Antonio (2012). "Novel Flaviviruses Detected in Different Species of Mosquitoes in Spain" (PDF). Vector-Borne and Zoonotic Diseases. 12 (3): 223–229. doi:10.1089/vbz.2011.0687. PMC   3300060 . PMID   22022811.
  6. Huhtamo, Eili; Moureau, Gregory; Cook, Shelley; Julkunen, Ora; Putkuri, Niina; Kurkela, Satu; Uzcátegui, Nathalie Y.; Harbach, Ralph E.; Gould, Ernest A.; Vapalahti, Olli; de Lamballerie, Xavier (2012). "Novel insect-specific flavivirus isolated from northern Europe". Virology. 433 (2): 471–478. doi:10.1016/j.virol.2012.08.038. PMC   3919202 . PMID   22999256.
  7. 1 2 Slonchak A, Parry R, Pullinger B, Sng JDJ, Wang X, Buck TF; et al. (2022). "Structural analysis of 3'UTRs in insect flaviviruses reveals novel determinants of sfRNA biogenesis and provides new insights into flavivirus evolution". Nat Commun. 13 (1): 1279. doi:10.1038/s41467-022-28977-3. PMID   35277507.{{cite journal}}: CS1 maint: multiple names: authors list (link)
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