词条 | Bornaviridae | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
释义 |
| name = Bornaviridae | taxon = Bornaviridae | subdivision_ranks = Genera | subdivision =
}}Bornaviridae is a family of viruses in the order Mononegavirales. Horses, sheep, cattle, rodents, birds, reptiles, and humans serve as natural hosts. Currently, 18 viruses are assigned to ten species included in two genera in this family. Bornaviruses may cause encephalitis in mammals like horses or sheep.[1] Diseases associated with bornaviruses include Borna disease, a fatal neurologic disease of mammals restricted to central Europe; and proventricular dilatation disease in birds.[2][3] HistoryBorna disease was first identified in 1926 and its genome was isolated in 1990. In 1996, ICTV proposed the creation of the family Bornaviridae along with the genus Bornavirus (today Orthobornavirus).[4] The viral family is named after the city of Borna in Saxony, Germany, which is where a large number of animals were lost to the sporadic encephalopathy caused by the viral disease. [5]Taxonomy
Table legend: "*" denotes type species. StructureOrthobornavirions are enveloped, with spherical geometries and helical capsids. The diameter is around 70 to 130 nm. Genomes are linear, around 8.9 kb in length. The genome codes for 9 proteins. [2]Below are a few of the essential proteins of orthobornaviruses that have been characterized.
Life cycleIn the Mononegavirales order, Bornaviridae is one of only two families with viruses that replicate in the nucleus. Entry into the host cell is achieved by attachment of the viral GP glycoproteins to host receptors, which mediates clathrin-mediated endocytosis. Replication follows the negative stranded RNA virus replication model. Negative stranded RNA virus transcription, using polymerase stuttering, with some alternative splicing mechanism, is the method of transcription. The virus exits the host cell by nuclear pore export. This virus usually has a highly variable incubation period of around a few weeks to several months.[7] Horses, sheep, cattle, rodents, birds, and humans serve as the natural hosts. Transmission routes are fomites, contact, urine, feces, and saliva.[2]
PathogenicityBetween 2011 and 2013, three German breeders of variegated squirrels (Sciurus variegatoides) had encephalitis with similar clinical signs and died 2 to 4 months after onset of the clinical symptoms. Genomic analysis found a previously unknown orthobornavirus in a contact squirrel and in brain tissue from the three men, the researchers reported, and it is the "likely causative agent" in their deaths. Prior to this, bornaviruses were not thought to be responsible for human diseases.[9][10] More VSBV-1 infected squirrels from the subfamilies Sciurinae and Callosciurinae were also confirmed to be present not only in Germany but in the Netherlands. Zero VSBV-1 positive squirrels showed clinical signs of infection.[11] Since behavioral disease has been studied in BoDV-1 infected animals like rhesus monkeys, tree shrews, and rats, BoDV-1 has also been hypothesized to be associated with humans psychiatric conditions such as schizophrenia and affective psychoses. In several studies with large sample sizes, there has been an association with increased presence of BoDV-1 antibodies in hospitalized psychiatric patients and a higher seroprevalence rate among the psychiatric patients when compared to the control groups.[1] References1. ^1 {{Cite journal | doi=10.3201/eid0303.970311|pmid = 9284379| pmc=2627631| title=Borna Disease Virus Infection in Animals and Humans| journal=Emerging Infectious Diseases| volume=3| issue=3| pages=343–352| year=1997| last1=Richt| first1=Jurgen| last2=Pfeuffer| first2=I.| last3=Christ| first3=M.| last4=Frese| first4=K.| last5=Bechter| first5=K.| last6=Herzog| first6=S.}} 2. ^1 2 {{cite web|title=Viral Zone|url=http://viralzone.expasy.org/all_by_species/93.html|publisher=ExPASy|accessdate=12 June 2015}} 3. ^{{Cite journal|last=Amarasinghe|first=Gaya K.|last2=Bào|first2=Yīmíng|last3=Basler|first3=Christopher F.|last4=Bavari|first4=Sina|last5=Beer|first5=Martin|last6=Bejerman|first6=Nicolás|last7=Blasdell|first7=Kim R.|last8=Bochnowski|first8=Alisa|last9=Briese|first9=Thomas|date=2017-04-07|title=Taxonomy of the order Mononegavirales: update 2017|journal=Archives of Virology|volume=162|issue=8|pages=2493–2504|doi=10.1007/s00705-017-3311-7|issn=1432-8798|pmid=28389807|pmc=5831667}} 4. ^https://data.ictvonline.org/proposals/Ratification_1996.pdf 5. ^{{cite journal|title=Borna| pmc=88987 | pmid=11432811 | doi=10.1128/CMR.14.3.513-527.2001| volume=14| issue=3 | year=2001| journal=Clin Microbiol Rev| pages=513–27 | last1 = Carbone | first1 = KM}} 6. ^{{Cite journal|last=Amarasinghe|first=Gaya K.|last2=Aréchiga Ceballos|first2=Nidia G.|last3=Banyard|first3=Ashley C.|last4=Basler|first4=Christopher F.|last5=Bavari|first5=Sina|last6=Bennett|first6=Andrew J.|last7=Blasdell|first7=Kim R.|last8=Briese|first8=Thomas|last9=Bukreyev|first9=Alexander|date=2018-04-11|title=Taxonomy of the order Mononegavirales: update 2018|journal=Archives of Virology|volume=163|issue=8|pages=2283–2294|doi=10.1007/s00705-018-3814-x|issn=1432-8798|pmid=29637429|pmc=6076851}} 7. ^{{cite journal| pmid=11145828 | doi=10.1053/tvjl.2000.0533 | volume=161 | issue=1 | title=Borna disease virus: a mystery as an emerging zoonotic pathogen | year=2001 | journal=Vet J | pages=24–40 | last1 = Richt | first1 = JA | last2 = Rott | first2 = R}} 8. ^Veterinary Microbiology and microbial disease, 2nd edition, P J Quinn et al. Wiley-Blackwell 9. ^{{cite journal|title=A Variegated Squirrel Bornavirus Associated with Fatal Human Encephalitis|first1=Bernd|last1=Hoffmann|first2=Dennis|last2=Tappe|first3=Dirk|last3=Höper|first4=Christiane|last4=Herden|first5=Annemarie|last5=Boldt|first6=Christian|last6=Mawrin|first7=Olaf|last7=Niederstraßer|first8=Tobias|last8=Müller|first9=Maria|last9=Jenckel|first10=Elisabeth|last10=van der Grinten|first11=Christian|last11=Lutter|first12=Björn|last12=Abendroth|first13=Jens P.|last13=Teifke|first14=Daniel|last14=Cadar|first15=Jonas|last15=Schmidt-Chanasit|first16=Rainer G.|last16=Ulrich|first17=Martin|last17=Beer|date=9 July 2015|publisher=|journal=New England Journal of Medicine|volume=373|issue=2|pages=154–162|doi=10.1056/NEJMoa1415627|pmid=26154788}} 10. ^{{cite web|url=http://www.medpagetoday.com/InfectiousDisease/GeneralInfectiousDisease/52512|title=Is There a Killer Squirrel Virus?|date=9 July 2015|publisher=}} 11. ^{{cite journal| pmc=5382762 | pmid=28221112 | doi=10.3201/eid2303.161061 | volume=23 | issue=3 | title=Variegated Squirrel Bornavirus 1 in Squirrels, Germany and the Netherlands | year=2017 | journal=Emerg Infect Dis | pages=477–481 | last1 = Schlottau | first1 = K | last2 = Jenckel | first2 = M | last3 = van den Brand | first3 = J | last4 = Fast | first4 = C | last5 = Herden | first5 = C | last6 = Höper | first6 = D | last7 = Homeier-Bachmann | first7 = T | last8 = Thielebein | first8 = J | last9 = Mensing | first9 = N | last10 = Diender | first10 = B | last11 = Hoffmann | first11 = D | last12 = Ulrich | first12 = RG | last13 = Mettenleiter | first13 = TC | last14 = Koopmans | first14 = M | last15 = Tappe | first15 = D | last16 = Schmidt-Chanasit | first16 = J | last17 = Reusken | first17 = CB | last18 = Beer | first18 = M | last19 = Hoffmann | first19 = B}} External links
3 : Bornaviridae|Mononegavirales|Virus families |
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