The major glycoprotein of Sendai virus is dispensable for efficient virus particle budding

References

1. Blumberg B., Giorgi C., Roux L., Raju R., Dowling P., ChOlet A., Kolakofsky D. 1985; Sequence determination of the Sendai virus HN gene and its comparison to the influenza virus glycoproteins. Cell 41:269–278
   [Google Scholar]
2. Cattaneo R., Schmid A., Spielhofer P., Kaelin P., Baczko K., Ter Meulen V., Pardowitz J., Flanagan S., Rima B. K., Udem S. A., Billeter M. A. 1989; Mutated and hypermutated genes of persistent measles viruses which caused lethal human brain diseases. Virology 173:415–425
   [Google Scholar]
3. Johnson D. A., Gautsch J. W., Sportsman J. R., Elder J. H. 1984; Improved technique utilizing nonfat dry milk for analysis of proteins and nucleic acids transferred to nitrocellulose. Gene Analytical Techniques 1:3–8
   [Google Scholar]
4. Knipe D. M., Baltimore D., Lodish H. F. 1977; Maturation of viral proteins in cells infected with temperature-sensitive mutants of vesicular stomatitis virus. Journal of Virology 21:1149–1158
   [Google Scholar]
5. Laemmli U. K. 1970; Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, London 227:680–685
   [Google Scholar]
6. Markwell M. A., Portner A., Schwarz A. L. 1985; An alternative route of infection for viruses: entry by means of the asialoglycoprotein receptor of a Sendai virus mutant lacking its attachment protein. Proceedings of the National Academy of Sciences, U.S.A. 82:978–982
   [Google Scholar]
7. Matsumura H., Futaesaku Y., Kohno S., Sugiura A., Kohase M. 1990; A temperature-sensitive mutant of Newcastle disease virus defective in intracellular processing of fusion protein. Journal of Virology 64:1410–1413
   [Google Scholar]
8. Metsikkӧ K., Simons K. 1986; The budding mechanism of spikeless vesicular stomatitis virus particles. EMBO Journal 5:1913–1920
   [Google Scholar]
9. Mottet G., Portner A., Roux L. 1986; Drastic immunoreacti-vity changes between the immature and mature forms of the Sendai virus HN and F₀ glycoproteins. Journal of Virology 59:132–141
   [Google Scholar]
10. Peeples M. E. 1991; Paramyxovirus M proteins: pulling it all together and taking it on the road. In The Paramyxoviruses Edited by Kingsbury D. W. New York & London: Plenum Press;
    [Google Scholar]
11. Portner A., Marx P. A., Kingsbury D. W. 1974; Isolation and characterization of Sendai virus temperature-sensitive mutants. Journal of Virology 13:298–304
    [Google Scholar]
12. Portner A., Scroggs R. A., Marx P. A., Kingsbury D. W. 1975; A temperature-sensitive mutant of Sendai virus with an altered hemagglutinin-neuraminidase polypeptide: consequences for virus assembly and cytopathology. Virology 67:179–187
    [Google Scholar]
13. Ray R., Roux L., Compans R. W. 1991; Intracellular targeting and assembly of paramyxovirus proteins. In The Paramyxoviruses Edited by Kingsbury D. W. New York & London: Plenum Press;
    [Google Scholar]
14. Roux L., Waldvogel F. A. 1982; Instability of the viral M protein in BHK-21 cells persistently infected with Sendai virus. Cell 28:293–302
    [Google Scholar]
15. Roux L., Waldvogel F. A. 1983; Defective interfering particles of Sendai virus modulate HN expression at the surface of infected BHK cells. Virology 130:91–104
    [Google Scholar]
16. Roux L., Beffy P., Portner A. 1984; Restriction of cell surface expression of Sendai virus hemagglutinin-neuraminidase glycoprotein correlates with its higher instability in persistently and standard plus defective interfering virus infected BHK-21 cells. Virology 138:118–128
    [Google Scholar]
17. Roux L., Beffy P., Portner A. 1985; Three variations in the cell surface expression of the haemagglutinin-neuraminidase glycoprotein of Sendai virus. Journal of General Virology 66:987–1000
    [Google Scholar]
18. Schnitzer T. J., Dickson C., Weiss R. A. 1979; Morphological and biochemical characterization of viral particles produced by the ts O45 mutant of vesicular stomatitis virus at restrictive temperature. Journal of Virology 29:185–195
    [Google Scholar]
19. Tuffereau C., Roux L. 1988; Direct adverse effects of Sendai virus DI particles on virus budding and on M protein stability. Virology 162:417–426
    [Google Scholar]
20. Tuffereau C., Portner A., Roux L. 1985; The role of haemagglutinin-neuraminidase glycoprotein cell surface expression in the survival of Sendai virus-infected BHK-21 cells. Journal of General Virology 66:2313–2318
    [Google Scholar]
21. Whitt M. A., Chong L., Rose J. K. 1989; Glycoprotein cytoplasmic domain sequences required for rescue of a vesicular stomatitis virus glycoprotein mutant. Journal of Virology 63:3569–3578
    [Google Scholar]
22. Yoshida T., Nagai Y., Yoshii S., Maeno K., Matsumoto T., Hishino M. 1976; Membrane (M) protein of HSV (Sendai virus): its role in virus assembly. Virology 71:143–161
    [Google Scholar]
23. Yoshida T., Nagai Y., Maeno K., Iinuma M., Hamaguchi M., Matsumoto T., Nagayoshi S., Hoshino M. 1979; Studies on the role of M protein in virus assembly using a ts mutant of HJV (Sendai virus). Virology 92:139–154
    [Google Scholar]