Callagher, TM and Buchmeier, MJ (2001) Coronavirus spike proteins in viral entry and pathogenesis. Viiroloy 279(2): 371–374.
Chang, CN, Hsu, FS, Shen, YM and Yen, CC (1978) A serological survey on hemagglutinating encephalomyelitis virus infection in pigs of Taiwan Sugar Corporation. Annual Research Report of Animal Research Institute. Taiwan: Taiwan Sugar Corporation, pp. 157–163.
Gao, F, Ding, Z, Zhang, ML, et al. (2000) Outbreak of piglet coronavirus encephalomyelitis in three farms. Chinese Journal of Preventive Veterinary Medicine 22(2): 151–152.
Guo, AZ and Lu, CP (2000) Identification of canine distemper virus receptor in cell lines. Chinese Journal of Virology 16(2): 155–157.
He, WQ, Lu, HJ, Geng, BC, et al. (2005) Serological investigation of antibody against hemagglutinating encephalomyelitis virus in pigs. Chinese Journal of Veterinary Science and Technology 35(9): 739–741.
Hirano, N, Suzuki, Y and Haga, S (1999) Pigs with highly prevalent antibodies to human coronavirus and swine haemagglutinating encephalomyelitis virus in the Tohoku District of Japan. Epidemiology and Infection 122: 545–551.
Krueger, DK, Kelly, SM, Lewicki, DN, Ruffolo, R and Gallagher, TM (2001) Variations in disparate regions of the murine coronavirus spike protein impact the initiation of membrane fusion. Journal of Virology 75(6): 2792–2802.
Matsnyama, S and Taguchi, F (2002) Communication between S1N330 and a region in S2 of murine coronavirus spike protein is important for virus entry into cells expressing CEACAM1b receptor. Virology 295(1): 160–171.
McFerren, JB, Clarke, JK, Cornner, TJ and Knox, ER (1971) Serological evidence of the presence of hemaglutinating encephalomyelitis virus in Northern Ireland. Veterinary Record 88: 339–340.
Quiroga, MA, Cappuccio, J, Piñeyro, P, et al. (2008) Hemagglutinating encephalomyelitis coronavirus infection in pigs, Argentina. Emerging Infectious Diseases 14(3): 484–486.
Roe, CK and Alexander, TJL (1958) A disease of nursing pigs previously unreported in Ontario. Canadian Journal of Veterinary Medicine 22: 305–307.
Saif, LJ (1993) Coronavirus immunogens. Veterinary Microbiology 37(3–4): 285–297.
Sasseville, AM, Gelinas, AM, Sawyer, N, Boutin, M and Dea, S (2001) Biological and molecular characteristics of an HEV isolate associated with recent acute outbreaks of encephalomyelitis in Quebec pig farms. Advances in Experimental Medicine and Biology 494: 57–62.
Taguchi, F and Shimazaki, YK (2000) Functional analysis of an epitope in the S2 subunit of the murine coronavirus spike protein: invovlement in fusion activity. Journal of General Virology 81(12): 2867–2871.
Weiss, SR and Navas-Martin, S (2005) Coronavirus pathogenesis and the emerging pathogen severe acute respiratory syndrome coronavirus. Microbiology and Molecular Biology Review 69(4): 635–664.
Wentworth, DE and Holmes, KV (2001) Molecular determinants of species specificity in the coronavirus receptor aminopeptidase N (CD13): influence of N-linked glycosylation. Journal of Virology 75: 9741–9752.
Xu, YX, Zhou, XF and Liu, LD (2000) Molecular Virology. Hubei: Science & Technology Press, pp. 324–330.
Yin, Z and Liu, J H (1997) Animal Virology. Peking: Science Press, pp. 690–692.