The Complete Nucleotide Sequence of Swine Vesicular Disease Virus

doi:10.1099/0022-1317-70-4-919

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The Complete Nucleotide Sequence of Swine Vesicular Disease Virus

Toru Inoue¹, Taiko Suzuki² and Kiichi Sekiguchi²

^¹ Exotic Disease Research Division, National Institute of Animal Health, Jyosuihonchyo, Kodaira-shi Tokyo, 187 Japan
and^² National Institute of Animal Health, Tsukuba-shi, Ibaraki-ken, 305 Japan

The complete nucleotide sequence of the genome of the enterovirusswine vesicular disease virus (SVDV; H/3 '76) isolated froma healthy pig has been determined using molecular cloning andDNA sequencing techniques. The RNA genome was 7400 nucleotideslong, excluding the poly(A) tract, and appeared to encode asingle polyprotein of 2185 amino acids. The predicted aminoacid sequence of the polyprotein showed close homology (around90%) to that of the previously sequenced coxsackie-viruses B1,B3 and B4, and also showed homology (around 60%) to that ofpoliovirus. This homology allows us to predict the possiblecleavage sites of the polyprotein and to identify other featuresof structural and functional significance, which seem to beimportant to the biological integrity of the virus. A detailedanalysis of homology between SVDV and coxsackieviruses showsthat non-structural proteins are highly conserved whereas thestructural proteins are less well conserved. The 5' and 3' noncodingregions are also conserved, although there are several divergentnucleotide stretches. These stretches may differentiate SVDVfrom coxsackieviruses.

Keywords: SVDV, nucleotide sequence, amino acid sequence

Received 9 August 1988; accepted 5 December 1988.

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				T. Inoue, Z. Zhang, L. Wang, L. West, J. B. Bashiruddin, and G. J. Belsham Significance of arginine 20 in the 2A protease for swine vesicular disease virus pathogenicity J. Gen. Virol., August 1, 2007; 88(8): 2275 - 2279. [Abstract] [Full Text] [PDF]

				A. E. Shaw, S. M. Reid, N. J. Knowles, G. H. Hutchings, G. Wilsden, E. Brocchi, D. Paton, and D. P. King Sequence analysis of the 5' untranslated region of swine vesicular disease virus reveals block deletions between the end of the internal ribosomal entry site and the initiation codon J. Gen. Virol., October 1, 2005; 86(10): 2753 - 2761. [Abstract] [Full Text] [PDF]

				Y.-J. Ko, K.-S. Choi, J.-J. Nah, D. J. Paton, J.-K. Oem, G. Wilsden, S.-Y. Kang, N.-I. Jo, J.-H. Lee, J.-H. Kim, et al. Noninfectious Virus-Like Particle Antigen for Detection of Swine Vesicular Disease Virus Antibodies in Pigs by Enzyme-Linked Immunosorbent Assay Clin. Vaccine Immunol., August 1, 2005; 12(8): 922 - 929. [Abstract] [Full Text] [PDF]

				T. Inoue, S. Alexandersen, A. T. Clark, C. Murphy, M. Quan, S. M. Reid, Y. Sakoda, H. L. Johns, and G. J. Belsham Importance of Arginine 20 of the Swine Vesicular Disease Virus 2A Protease for Activity and Virulence J. Virol., January 1, 2005; 79(1): 428 - 440. [Abstract] [Full Text] [PDF]

				B. Borrego, E. Carra, J. A. Garcia-Ranea, and E. Brocchi Characterization of neutralization sites on the circulating variant of swine vesicular disease virus (SVDV): a new site is shared by SVDV and the related coxsackie B5 virus J. Gen. Virol., January 1, 2002; 83(1): 35 - 44. [Abstract] [Full Text] [PDF]

				Y. Sakoda, N. Ross-Smith, T. Inoue, and G. J. Belsham An Attenuating Mutation in the 2A Protease of Swine Vesicular Disease Virus, a Picornavirus, Regulates Cap- and Internal Ribosome Entry Site-Dependent Protein Synthesis J. Virol., November 15, 2001; 75(22): 10643 - 10650. [Abstract] [Full Text] [PDF]

				B. H. Chua, P. C. McMinn, S. K. Lam, and K. B. Chua Comparison of the complete nucleotide sequences of echovirus 7 strain UMMC and the prototype (Wallace) strain demonstrates significant genetic drift over time J. Gen. Virol., November 1, 2001; 82(11): 2629 - 2639. [Abstract] [Full Text] [PDF]

				Y. Kaku, A. Sarai, and Y. Murakami Genetic reclassification of porcine enteroviruses J. Gen. Virol., February 1, 2001; 82(2): 417 - 424. [Abstract] [Full Text]

				J. M. J. Rebel, C. H. Leendertse, A. Dekker, F. van Poelwijk, and R. J. M. Moormann Construction of a full-length infectious cDNA clone of swine vesicular disease virus strain NET/1/92 and analysis of new antigenic variants derived from it J. Gen. Virol., November 1, 2000; 81(11): 2763 - 2769. [Abstract] [Full Text]

				M. Doherty, D. Todd, N. McFerran, and E. M. Hoey Sequence analysis of a porcine enterovirus serotype 1 isolate: relationships with other picornaviruses J. Gen. Virol., August 1, 1999; 80(8): 1929 - 1941. [Abstract] [Full Text]

				T. Kanno, D. Mackay, T. Inoue, G. Wilsden, M. Yamakawa, R. Yamazoe, S. Yamaguchi, J. Shirai, P. Kitching, and Y. Murakami Mapping the Genetic Determinants of Pathogenicity and Plaque Phenotype in Swine Vesicular Disease Virus J. Virol., April 1, 1999; 73(4): 2710 - 2716. [Abstract] [Full Text]

				G Zhang, D. Haydon, N. Knowles, and J. McCauley Molecular evolution of swine vesicular disease virus J. Gen. Virol., March 1, 1999; 80(3): 639 - 651. [Abstract]

				M. S. Oberste, K. Maher, D. R. Kilpatrick, and M. A. Pallansch Molecular Evolution of the Human Enteroviruses: Correlation of Serotype with VP1 Sequence and Application to Picornavirus Classification J. Virol., March 1, 1999; 73(3): 1941 - 1948. [Abstract] [Full Text]