Open Access
Issue
Vet. Res.
Volume 41, Number 1, January-February 2010
Number of page(s) 10
DOI http://dx.doi.org/10.1051/vetres/2009054
Published online 01 October 2009
How to cite this article Vet. Res. (2010) 41:06
References of  Vet. Res. (2010) 41:06
  1. Abd El Rahman S., El-Kenawy A.A., Neumann U., Herrler G., Winter C., Comparative analysis of the sialic acid binding activity and the tropism for the respiratory epithelium of four different strains of avian infectious bronchitis virus, Avian Pathol. (2009) 38:41–45 [CrossRef] [PubMed].
  2. Bumstead N., Huggins M.B., Cook J.K., Genetic differences in susceptibility to a mixture of avian infectious bronchitis virus and Escherichia coli, Br. Poult. Sci. (1989) 30:39–48 [CrossRef] [PubMed].
  3. Cavanagh D., Coronavirus avian infectious bronchitis virus, Vet. Res. (2007) 38:281–297 [CrossRef] [PubMed] [EDP Sciences].
  4. Chu V.C., McElroy L.J., Chu V., Bauman B.E., Whittaker G.R., The avian coronavirus infectious bronchitis virus undergoes direct low-pH-dependent fusion activation during entry into host cells, J. Virol. (2006) 80:3180–3188 [CrossRef] [PubMed].
  5. Cook J.K., Avian pneumovirus infections of turkeys and chickens, Vet. J. (2000) 160:118–125 [PubMed].
  6. Cook J.K., Cavanagh D., Detection and differentiation of avian pneumoviruses (metapneumoviruses), Avian Pathol. (2002) 31:117–132 [CrossRef] [PubMed].
  7. Crinion R.A., Hofstad M.S., Pathogenicity of two embryo-passage levels of avian infectious bronchitis virus for the oviduct of young chickens of various ages, Avian Dis. (1972) 16:967–973 [CrossRef] [PubMed].
  8. Gambaryan A.S., Robertson J.S., Matrosovich M.N., Effects of egg-adaptation on the receptorbinding properties of human influenza A and B viruses, Virology (1999) 258:232–239 [CrossRef] [PubMed].
  9. Gubareva L.V., Wood J.M., Meyer W.J., Katz J.M., Robertson J.S., Major D., Webster R.G., Codominant mixtures of viruses in reference strains of influenza virus due to host cell variation, Virology (1994) 199:89–97 [CrossRef] [PubMed].
  10. Hill E.M., Bader T., Nettesheim P., Eling T.E., Retinoid-induced differentiation regulates prostaglandin H synthase and cPLA2 expression in tracheal epithelium, Am. J. Physiol. (1996) 270:L854–L862 [PubMed].
  11. Hinshaw V.S., Nettles V.F., Schorr L.F., Wood J.M., Webster R.G., Influenza virus surveillance in waterfowl in Pennsylvania after the H5N2 avian outbreak, Avian Dis. (1986) 30:207–212 [CrossRef] [PubMed].
  12. Hong K.U., Reynolds S.D., Watkins S., Fuchs E., Stripp B.R., Basal cells are a multipotent progenitor capable of renewing the bronchial epithelium, Am. J. Pathol. (2004) 164:577–588 [PubMed].
  13. Hong K.U., Reynolds S.D., Watkins S., Fuchs E., Stripp B.R., In vivo differentiation potential of tracheal basal cells: evidence for multipotent and unipotent subpopulations, Am. J. Physiol. (2004) 286:L643–L649.
  14. Huang Y.P., Wang C.H., Development of attenuated vaccines from Taiwanese infectious bronchitis virus strains, Vaccine (2006) 24:785–791 [CrossRef] [PubMed].
  15. Ito T., Suzuki Y., Takada A., Kawamoto A., Otsuki K., Masuda H., et al., Differences in sialic acidgalactose linkages in the chicken egg amnion and allantois influence human influenza virus receptor specificity and variant selection, J. Virol. (1997) 71:3357–3362 [PubMed].
  16. Kodihalli S., Justewicz D.M., Gubareva L.V., Webster R.G., Selection of a single amino acid substitution in the hemagglutinin molecule by chicken eggs can render influenza A virus (H3) candidate vaccine ineffective, J. Virol. (1995) 69:4888–4897 [PubMed].
  17. Krauss S., Obert C.A., Franks J., Walker D., Jones K., Seiler P., et al., Influenza in migratory birds and evidence of limited intercontinental virus exchange, PLoS Pathog. (2007) 3:e167.
  18. Madu I.G., Chu V.C., Lee H., Regan A.D., Bauman B.E., Whittaker G.R., Heparan sulfate is a selective attachment factor for the avian coronavirus infectious bronchitis virus Beaudette, Avian Dis. (2007) 51:45–51 [CrossRef] [PubMed].
  19. Otsuki K., Takemoto O., Fujimoto R., Yamazaki K., Kubota N., Hosaki H., et al., Isolation of influenza A viruses from migratory waterfowl in San-in District, western Japan in the winter of 1983–1984, Res. Vet. Sci. (1987) 43:177–179 [PubMed].
  20. Otsuki K., Yamazaki K., Kawaoka Y., Tsubokura M., Intracerebral pathogenicity for chickens of avian influenza viruses isolated from free-living waterfowl in Japan, Vet. Microbiol. (1988) 18:357–362 [CrossRef] [PubMed].
  21. Raj G.D., Jones R.C., An in vitro comparison of the virulence of seven strains of infectious bronchitis virus using tracheal and oviduct organ cultures, Avian Pathol. (1996) 25:649–662 [CrossRef] [PubMed].
  22. Raj G.D., Jones R.C., Infectious bronchitis virus: immunopathogenesis of infection in the chicken, Avian Pathol. (1997) 26:677–706 [CrossRef] [PubMed].
  23. Rowe R.K., Brody S.L., Pekosz A., Differentiated cultures of primary hamster tracheal airway epithelial cells, In vitro (2004) 40:303–311 [CrossRef].
  24. Saito T., Nakaya Y., Suzuki T., Ito R., Saito T., Saito H., et al., Antigenic alteration of influenza B virus associated with loss of a glycosylation site due to host-cell adaptation, J. Med. Virol. (2004) 74:336–343 [CrossRef] [PubMed].
  25. Silvano F.D., Yoshikawa M., Shimada A., Otsuki K., Umemura T., Enhanced neuropathogenicity of avian influenza A virus by passages through air sac and brain of chicks, J. Vet. Med. Sci. (1997) 59:143–148 [CrossRef] [PubMed].
  26. Slemons R.D., Condobery P.K., Swayne D.E., Assessing pathogenicity potential of waterfowl-origin type A influenza viruses in chickens, Avian Dis. (1991) 35:210–215 [CrossRef] [PubMed].
  27. Stemple D.L., Anderson D.J., Isolation of a stem cell for neurons and glia from the mammalian neural crest, Cell (1992) 71:973–985 [CrossRef] [PubMed].
  28. Su C.M., Liao C.L., Lee Y.L., Lin Y.L., Highly sulfated forms of heparin sulfate are involved in japanese encephalitis virus infection, Virology (2001) 286:206–215 [CrossRef] [PubMed].
  29. Wang C.H., Tsai C.T., Genetic grouping for the isolates of avian infectious bronchitis virus in Taiwan, Arch. Virol. (1996) 141:1677–1688 [CrossRef] [PubMed].
  30. Wang C.H., Huang Y.C., Relationship between serotypes and genotypes based on the hypervariable region of the S1 gene of infectious bronchitis virus, Arch. Virol. (2000) 145:291–300 [CrossRef] [PubMed].
  31. Widjaja L., Krauss S.L., Webby R.J., Xie T., Webster R.G., Matrix gene of influenza a viruses isolated from wild aquatic birds: ecology and emergence of influenza a viruses, J. Virol. (2004) 78:8771–8779 [CrossRef] [PubMed].
  32. Winter C., Schwegmann-Wessels C., Cavanagh D., Neumann U., Herrler G., Sialic acid is a receptor determinant for infection of cells by avian Infectious bronchitis virus, J. Gen. Virol. (2006) 87:1209–1216 [CrossRef] [PubMed].
  33. Zaffuto K.M., Estevez C.N., Afonso C.L., Primary chicken tracheal cell culture system for the study of infection with avian respiratory viruses, Avian Pathol. (2008) 37:25–31 [CrossRef] [PubMed].