Rabies virus interaction with various cell lines is independent of the acetylcholine receptor (original) (raw)

Access this article

Log in via an institution

Subscribe and save

• Get 10 units per month
• Download Article/Chapter or eBook
• 1 Unit = 1 Article or 1 Chapter
• Cancel anytime Subscribe now

Buy Now

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

References

1. Bijlenga, G., Heaney, T.: Post-exposure local treatment of mice infected with rabies with two axonal flow inhibitors, Colchicine and Vinblastine. J. gen. Virol.39, 381–385 (1978).
   PubMed Google Scholar
2. Clark, H. F., Parks, N. F., Wunner, W. H.: Defective interfering particles of fixed rabies viruses: lack of correlation with attenuation or auto-interference in mice. J. gen. Virol.52, 245–258 (1981).
   PubMed Google Scholar
3. Clark, H. F., Wiktor, T. J.: Rabies virus. In:Plotkin, S. A. (ed.), Strains of Human Viruses, 177–182. Basel: Karger 1972.
   Google Scholar
4. Dimmock, N. J.: Initial stages in infection with animal viruses. J. gen. Virol.59, 1–22 (1982).
   PubMed Google Scholar
5. Heidmann, T., Changeux, J.-P.: Structural and functional properties of the acetylcholine receptor protein in its purified and membrane-bound states. Ann. Rev. Biochem.47, 317–357 (1978).
   PubMed Google Scholar
6. Karlsson, K.-A.: Glycosphingolipids and surface membranes. In:Champan, D. (ed.), Biological Membranes, Vol. 4, 1–74. London: Academic Press 1982.
   Google Scholar
7. Lafon, M., Wiktor, T. J., Macfarlan, R. I.: Antigenic sites on the CVS rabies virus glycoprotein: analysis with monoclonal antibodies. J. gen. Virol.64, 843–851 (1983).
   PubMed Google Scholar
8. Lentz, T. L., Burrage, T. G., Smith, A. L., Crick, J., Tignor, G. H.: Is the acetylcholine receptor a rabies virus receptor? Science215, 182–184 (1982).
   PubMed Google Scholar
9. Murphy, F. A.: Rabies pathogenesis: a brief review. Arch. Virol.54, 279–297 (1977).
   PubMed Google Scholar
10. Murphy, F. A., Bauer, S. P.: Early street rabies virus infection in striated muscle and later progression to the central nervous system. Intervirology3, 256–268 (1974).
    PubMed Google Scholar
11. Murphy, F. A., Bauer, S. P., Harrison, A. K., Winn, W. C.: Comparative pathogenesis of rabies and rabies-like viruses. Viral infection and transit from the inoculation site to the central nervous system. Lab. Invest.28, 361–376 (1973).
    PubMed Google Scholar
12. Murphy, F. A., Harrison, A. K., Winn, W. C., Bauer, S. P.: Comparative pathogenesis of rabies and rabies-like viruses. Infection of the central nervous system and centrifugal spread of virus to peripheral tissues. Lab. Invest.29, 1–16 (1973).
    PubMed Google Scholar
13. Patrick, J., Heinemann, S. F., Lindstrom, J., Schubert, D., Steinbach, J. H.: Appearance of acetylcholine receptors during differentiation of a myogenic cell line. Proc. Natl. Acad. Sci. U.S.A.69, 2762–2766 (1972).
    PubMed Google Scholar
14. Schultz, M., Crowell, R. L.: Acquisition of susceptibility to coxsackievirus A2 by the rat L8 cell line during myogenic differentiation. J. gen. Virol.46, 39–49 (1980).
    PubMed Google Scholar
15. Stocker, M., MacPherson, I.: Syrian hamster fibroblast cell line, BHK-21, and its derivatives. Nature (London)203, 1355–1357 (1964).
    PubMed Google Scholar
16. Watson, H. D., Tignor, G. H., Smith, A. L.: Entry of rabies virus into the peripheral nerves of mice. J. gen. Virol.56, 371–382 (1981).
    Google Scholar
17. Wiktor, T. J.: Immunogenic properties of concentrated virions and rabies virus components. Symp. Ser. Immun. Biol. Stand.21, 102–118 (1974).
    Google Scholar
18. Wunner, W. H., Reagen, K. J., Koprowski, H.: Characterization of saturable binding sites for rabies virus. J. Virol.50, 691–697 (1984).
    PubMed Google Scholar

Download references