Ewolucja rabdowirusów ryb, ze szczególnym uwzględnieniem wirusa wirusowej posocznicy krwotocznej

• Autorzy: Antychowicz J.

Warianty tytułu

EN

The fish rhabdoviruses evolution with special emphasis on VHS virus

• Języki publikacji: PL

Abstrakty

EN

Słowa kluczowe

PL

ryby; choroby zwierzat; choroby wirusowe; czynniki chorobotworcze; rabdowirusy; ewolucja; wirusowa posocznica krwotoczna; wirus wirusowej posocznicy krwotocznej; zakazna martwica ukladu krwiotworczego; wirus IHN; wiosenna wiremia karpi; wirus SVC; wirus hirame; rozprzestrzenianie sie chorob

• Wydawca: -
• Czasopismo: Życie Weterynaryjne
• Rocznik: 2014
• Tom: 89
• Numer: 08
• Opis fizyczny: s.655-661,fot.,bibliogr.

Twórcy

autor

Antychowicz J.

Bibliografia

• 1. Workenhe S.T., Rise M.L., Kibenge M.J.T., Kibenge F.S.B.: The balance between the teleost fish immune responseand aquatic viruses. Molecular Immunology. 2010, 47,2525–2536.
• 2. Chandrasekaran C., Betran E.: Origins of new genes and pseudogenes. Nature Education 2008, 1, 181–199.
• 3. Hoffman B., Beer M., Schutze H., Mettenleier T.C.: Fish Rhabdoviruses: Molecular Epidemiology and Evolution.Springer Verlag, Berlin 2005.
• 4. Kyle A.G., Traxler G.S., Hawley L.M., Richard H.J., Ross J.P., Lovy J.: Molecular epidemiology of viral haemorrhagicsepticaemia virus (VHSV) In British Columbia, Canada,reveals transmission from wild to farmer Fish. Dis.Aquat. Org. 2013, 104, 93–104.
• 5. Einer-Jensen K.P., Ahrens P., Forber R., Lorenzen N.: Evolution of the fish rhabdovirus viral haemorrhagic septicaemiavirus. J. Gen. Virol. 2004, 85, 1167–1179.
• 6. Thompson T.M., Batts W.N., Feisal M., Bowser P,: Emergence of Viral hemorrhagic septicemia virus in the NorthAmerica Great Lakes region is associated with low vidralgenetic diversity. Dis. Aquat.Org. 2011, 96, 29–43.
• 7. Benmansour A., Basurco B., Monnier A.F., Vende P., Vinton J.R., de Kinkelin P.: Sequence variation of the glikoprotein gene identifies three distinct lineages within field isolatesof viral haemorrhagic septicaemia virus, a fish rhabdovirus.J. Gen. Virol., 1997, 78, 2837–2836.
• 8. Jensen K.E., Ahrens P., Forsberg R., Lorenzen N.:Evolution of the fish rhabdovirus viral haemorrhagic septicaemiavirus. J. Gen. Virol. 2004, 85, 1167–1179.
• 9. Skall H.F., Olesen N.J., Mellergard O.S.: Prevalence of viral haemorrhagic septicaemia virus in Danish marine fishesand its occurence in new host species. Dis. Aquat.Org.2005, 66, 145–151.
• 10. Hedrick R.P., Batts W.N., Yuen S., Traxler G.S., Kaufman J., Winton J.R.: Host and geographic range extension ofthe North American strain of viral hemorrhagic septicemiavirus. Dis. Aquat. Org. 2003, 55, 211–220.
• 11. Hershherger P.K., Kocan R.M., Elder N.E., Meyers T.R., Winton J.R.: Epizootiology of viral hemorrhagic septicemiavirus in Pacific herring on the spawn on kelp fisheryon Prince William Sound Alaska, USA. Dis. Aquat.Org.1999, 37, 23–39.
• 12. Schaperclaus W.: Die immunisierung vom karpen gegen Bachwassersucht auf naturlichen und kunstlichen Wege. Fischereig, Neudamm. 1938.
• 13. Wolf K.: Fish Viruses and Fish Viral Diseases. Cornell University Press, Ithaca New York 1988.
• 14. Smail D.A.: Viral haemorrhagic septicaemia. W: Woo P.T.K, Bruno D.W.: Fish Diseases and Disorders. Vol. 3.CABI Publishing, New York 1999.
• 15. Snow M., Bain N., Black J., Taupin V., Cunningham C.O., King J.A., Skall H.F., Raynard R.S.: Genetic populationstructure of marine viral haemorrhagic septicaemia virus(VHS). Dis. Aquat. Org.,2004, 61, 11–21.
• 16. Lindsey R.P., Stepien C.A.: Evolution and biogeography of an emerging quasispecies: diversity patterns of the fishviral hemorrhagic septicemia virus VHSV. Mol. Phylogen.Evol. 2012, 63, 327–341.
• 17. Ammayappan A., Vakharia V.N.: molecular characterisation of the Great Lakes viral hemorrhagic septicemia virus(VHS) isolate from USA. Virol. J. 2009, 16, 1–16.
• 18. Kim R., Feisal M.: Comparative susceptibility of representative Great Lakes fish species to the North Americaviral hemorrhagic septicemia virus sublineage IVb. Dis.Aquat. Organ. 2010, 91, 23–34.
• 19. Pore A.J.: Studies on host-virus interaction for viral haemorrhagic septicemia virus (VHS). A Thesis. The Universityof Toledo, 2012.
• 20. United States Department of Agriculture (USDA): Viral hemorrhagic septicemia in the Great Lakes. EmergingDisease Notice. 2006.
• 21. Rowe D., Hoglers S.: Green Bay Great Lakes spotted management Plan 2012. Bureau of Fisheries ManagementDepartment of Natural Resources, Wisconsin 2012.
• 22. Follett J.E., Burton T.O.: Epizootics of infectious hematopoetic necrosis virus in an enhanced population of hockeysalmon Oncorhynchus nerka smolts at Chenik Lake,Alaska, Alaska Department of Fisheries Research Bulletin1995, 2, 137–142.
• 23. Troyer R.M., Kurath G.: Molecular epidemiology of infectious hematopoietic necrosis virus reveals complex virus traffic and evolution within southern Idaho aquaculture.Dis. Aquat. Org. 2003, 55, 175–185.
• 24. Ezman P.Z., Castric J., Bovo G., Thiery R., Fichtner D., Schutze H., Wahli T.: Evolution of hematopoietic necrosisvirus (IHNV), a fish rhabdovirus, in Europe over 20 years: implications for control. Dis. Aquat. Org. 2010,89, 9–15.
• 25. Kim D.H., Oh H.K., Eou J.I., Kim S.K., Oh M.J., Nam S.W., Choi T.J.: Complete nucleotide sequence of the hiramerhabdovirus, a patogen of marine fish. Virus. Res. 2005,107, 1–9.
• 26. Nihizawa T., Kinoshita S., Kim W.S., Higashi S., Yoshimizu M.: Nucleotide diversity of Japanese isolates of infectioushematopoietic necrosis virus (IHN) based on theglycoproteine gene. Dis. Aquat. Org. 2006, 71, 267–272.
• 27. Gorie S., Nakamoto K., Katashima K.: Disease of cultured hirame (Japanese flounder, Paralichthys olivaceus) –Preliminary report on a disease of marine pen culturedhirame may be caused by viral infection. Bull. Hyogo Pref.Fish. Exp. Sth. 1985, 23, 66–68.
• 28. Kimura T., Yoshimizu M., Gorie S.: A nev rhabdovirus isolated in Japan from cultured hirame (Japanese flounder)Paralichthys olivaceus and ayou Plecoglossus altivelis.Dis. Aquat. Organ. 1986, 1, 209–217.
• 29. Antychowicz J.: 70-lecie Zakładu Chorób Ryb Państwowego Instytutu Weterynaryjnego i 100 lat ichtiopatologiipolskiej. Życie Wet. 2009, 2, 148–152.
• 30. Borzym E., Matras M., Maj-Paluch J., Stachnik M., Reichert M.: HIRRV, a new candidate for listed diseases, Reporton the 17-th Annual Meeting of the National ReferenceLaboratories for Fish Diseases, Copenhagen, Denmark2013, 37–38.
• 31. Nelson R.: Exotic spring wiremia of carp virus confirmed in common carp taken from Calumet-Sag Channel NearChicago, Illinois. http://news.fws.gow/newsreleases/r3/ E5DE11CB-EF51–49E8-A147A9955185C7C9.html 2003.
• 32. Pahdi A., Verghese B.: Molecular evolutionary and epidemiological dynamics of a highly pathogenic fish rhabdovirus,the spring wiremia of carp virus (SVC). Vet. Microbiol.2012, 156, 54–63.
• 33. Zhang N.Z., Zang L.F., Jang Y.N., Zhang T., Xia C.: Molecular analysis of spring viraemia of carp virus in China:a fatal aquatic viral disease that might spread in East Asia.PL0S ONE4(7): e6337. Doi: 10.1371/journal.pone.0006337.2009.
• 34. Otis M.: Molecular epidemiology of outbreaks of spring wiremia of carp virus in North America, Europe and Asia.Pro Quest Information and Learning Company. Ann Arbor.2008.
• 35. Einum S., Fleming I.A.: Implications of shocking: ecological interactions between wild and released salmonids. Nord. J. Freshwater Res. 2001, 75, 56–70.
• 36. Weber E.D., Fausch K.D.: Interactions between hatchery and wild salmonids in streams: differences in biologyand evidence for competition. Can. J. Fish. Aquatic Sci. 2003, 11, 1018-1036