Comparison of hemagglutinating, receptor-destroying, and acetylesterase activities of avirulent and virulent bovine coronavirus strains (original) (raw)

References

1. Benfield DA, Saif LJ (1990) Cell culture propagation of a coronavirus isolated from cows with winter dysentery. J Clin Microbiol 28: 1454–1457
   Google Scholar
2. Cavanagh D, Brian DA, Enjuanes L, Holmes KV, Lai MC, Laude H, Siddell SG, Spaan W, Taguchi F, Talbot OJ (1990) Recommendations of the coronavirus study group for the nomenclature of the structural proteins, mRNAs, and genes of coronaviruses. Virology 176: 306–307
   Google Scholar
3. Deregt D, Sabara M, Babiuk LA (1987) Structural proteins of bovine coronavirus and their intracellular processing. J Gen Virol 68: 2863–2877
   Google Scholar
4. Doughri AM, Storz J, Hajer I, Fernando S (1976) Morphology and morphogenesis of a coronavirus infecting intestinal epithelial cells of newborn calves. Exp Mol Pathol 25: 355–370
   Google Scholar
5. Herrler G, Rott R, Klenk HD, Müller HP, Shukda AK, Schauer R (1985) The receptor-destroying enzyme of influenza C is virus neuraminidate-O-acetyl-esterase. EMBO J 4: 1503–1506
   Google Scholar
6. Hussain KA, Storz J, Kousoulas KG (1991) Comparison of bovine coronavirus (BVC) antigens: monoclonal antibodies to glycoprotein GP 100 distinguish between vaccine and wild-type strains. Virology 183: 442–445
   Google Scholar
7. Kienzle TE, Abraham S, Hogue BG, Brian DA (1990) Structure and orientation of expressed bovine coronavirus hemagglutinin-esterase protein. J Virol 64: 1834–1838
   Google Scholar
8. King B, Brian DA (1982) Bovine coronavirus structural proteins. J Virol 42: 700–707
   Google Scholar
9. King B, Potts B, Brian DA (1985) Bovine coronavirus hemagglutinin protein. Virus Res 2: 53–59
   Google Scholar
10. Laporte J, L'Haridon R, Bobulesco P (1979) In vitro culture of bovine enteric coronavirus (BEC). INSERM 90: 99–102
    Google Scholar
11. Mebus CA, Stair EL, Rhodes MB, Twiehaus MJ (1973) Neonatal calf diarrhea: propagation, attenuation, and characteristics of coronavirus-like agents. Am J Vet Res 34: 145–150
    Google Scholar
12. Parker MD, Cox GJ, Deregt D, Fitzpatrick DR, Babiuk LA (1989) Cloning and in vitro expression of the gene for the E 3 hemagglutinin glycoprotein of bovine coronavirus. J Gen Virol 70: 155–164
    Google Scholar
13. Payne HR, Storz J (1990) Scanning electron microscopic characterization of bovine coronavirus plaques in HRT cells. J Vet Med B 37: 501–508
    Google Scholar
14. Saif LJ, Redman DR, Brock KV, Kohler EM, Heckert RA (1988) Winter dysentery in adult dairy cattle: detection of coronaviruses in the feces. Vet Rec 123: 300–301
    Google Scholar
15. Schultze B, Gross HJ, Brossmer R, Klenk HD, Herrler G (1990) Hemagglutinating encephalomyelitis virus attaches to N-acetyl-9-0-acetylneuraminic acid-containing receptors on erythrocytes: comparison with bovine coronavirus and influenza C virus. Virus Res 16: 185–194
    Google Scholar
16. Schultze B, Wahn K, Klenk HD, Herrler G (1991) Isolated HE protein from hemagglutinating encephalomyelitis virus and bovine coronavirus has receptor-destroying and receptor-binding activity. Virology 180: 221–228
    Google Scholar
17. Schultze B, Gross HJ, Brossmer R, Herrler G (1991) The S protein of bovine coronavirus is a hemagglutinin recognizing 9-0-acetylate sialic acid as a receptor determinant. J Virol 65: 6232–6237
    Google Scholar
18. Sharpee RL, Mebus CA, Bass EP (1976) Characterization of a calf diarrheal coronavirus. Am J Vet Res 37: 1031–1041
    Google Scholar
19. Spaan W, Cavanagh D, Horzinek MC (1988) Coronaviruses: structure and genome expression. J Gen Virol 69: 2939–2952
    Google Scholar
20. St. Cyr-Coats K, Storz J, Hussain KA, Schnorr KL (1988) Structural proteins of bovine coronavirus strain L 9: effects of the host cell and trypsin treatment. Arch Virol 103: 35–45
    Google Scholar
21. St. Cyr-Coats K, Storz J (1988) Bovine coronavirus-induced cytopathic expression and plaque formation: host cell and virus strain determine trypsin dependence. J Vet Med B 35: 48–56
    Google Scholar
22. Storz J, Rott R, Kaluza G (1981) Enhancement of plaque formation and cell fusion of an enteropathogenic coronavirus by trypsin treatment. Infect Immun 31: 1214–1222
    Google Scholar
23. Storz J, Kaluza G, Niemann H, Rott R (1983) On enteropathogenic bovine coronavirus. In: ter Meulen (ed) Proceedings of the international symposium on the biochemistry and biology of coronaviruses. Plenum, New York, pp 171–180
    Google Scholar
24. Storz J, Herrler G, Snodgrass DR, Hussain KA, Zhang XM, Clark MA, Rott R (1991) Monoclonal antibodies differentiate between the hemagglutinating and the receptor-destroying activities of bovine coronavirus. J Gen Virol 72: 2817–2820
    Google Scholar
25. Sturman LS, Holmes KV (1983) The molecular biology of coronaviruses. Adv Virus Res 28: 35–112
    Google Scholar
26. Sturman LS, Ricard CS, Holmes KV (1985) Proteolytic cleavage of the E 2 glycoprotein of murine coronavirus: activation of cell-fusing activity of virions by trypsin and separation of two different 90 k cleavage fragments. J Virol 56: 904–911
    Google Scholar
27. Tompkins WAF, Watrach AM, Schmale JD, Schultz RM, Harris JA (1974) Cultural and antigenic properties of newly established cell strains derived from adenocarcinomas of the human colon and rectum. J Natl Cancer Inst 52: 904–911
    Google Scholar
28. Vlasak R, Luytjes W, Leider J, Spaan W, Palese P (1988) The E 3 protein of bovine coronavirus is a receptor-destroying enzyme with acetylesterase activity. J Virol 62: 4686–4690
    Google Scholar
29. Vlasak R, Luytjes W, Spaan W, Palese P (1988) Human and bovine coronaviruses recognizes sialic acid-containing receptors similar to those of influenza C viruses. Proc Natl Acad Sci USA 85: 4526–4529
    Google Scholar
30. Wege H, Wege H, Nagashima K, ter Meulen V (1979) Structural polypeptides of the murine coronavirus JHM. J Gen Virol 42: 37–47
    Google Scholar
31. Yokomori K, LaMonica N, Makino S, Shieh CK, Lai MC (1989) Biosynthesis, structure, and biological activities of envelope protein gp 65 of murine coronavirus. Virology 173: 683–691
    Google Scholar
32. Zhang XM, Kousoulas KG, Storz J (1991) Comparison of the nucleotide and deduced amino acid sequences of the S genes specified by virulent and avirulent strains of bovine coronaviruses. Virology 183: 397–404
    Google Scholar
33. Zhang XM, Kousoulas KG, Storz J (1991) The hemagglutinin/esterase glycoproteins of bovine coronaviruses: sequence and functional comparisons between virulent and avirulent strains. Virology 185: 847–852
    Google Scholar

Download references