Identification of Group A Rotavirus Genes Associated with Virulence of a Porcine Rotavirus and Host Range Restriction of a Human Rotavirus in the Gnotobiotic Piglet Model

Hoshino, Yasutaka; Saif, Linda J.; Kang, Shien-Young; Sereno, Mitzi M.; Chen, Weikang; Kapikian, Albert Z.

doi:10.1006/viro.1995.1255

Cited by 151 publications

(121 citation statements)

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“…Since CDC-9 demonstrated robust growth in Vero cells, as evidenced by high titer and efficient production of triple-layered particles, this strain is being evaluated as a candidate for an inactivated rotavirus vaccine or a live oral vaccine that could be developed by manufacturers in resource-rich or emerging developing countries. Despite VP3 and three other genes have been linked to the virulence and pathogenicity of rotavirus, 47 the molecular mechanisms for attenuation have not been clearly defined. Our results demonstrated 8 aa changes in several genes, including VP4, of CDC-9 during the passages in cells.…”

Section: Polyacrylamide Gel Electrophoresis (Page)mentioning

confidence: 99%

Molecular characterization of human rotavirus vaccine strain CDC-9 during sequential passages in vero cells

Esona

Foytich²,

Wang³

et al. 2010

Human Vaccines

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Section: Polyacrylamide Gel Electrophoresis (Page)mentioning

confidence: 99%

Molecular characterization of human rotavirus vaccine strain CDC-9 during sequential passages in vero cells

Esona

Foytich²,

Wang³

et al. 2010

Human Vaccines

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“…Thus, with regard to the amino acid identities, these NSP4s were closely related to each other and were not grouped according to the different clinical categories from which each strain originated. The feline rotavirus strains used in this study were also grouped into either G3P5 [3] strains or G3P3 [9] strains (Table 1). Irrespective of these serotypic groupings, however, the NSP4 sequences were homogeneous (Table 2).…”

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confidence: 99%

“…Strains are grouped and boxed according to the symptom (diarrheal or asymptomatic) of the cat from which each strain was isolated. Sequence identities between every pair of G3P3 [9] strains are slightly shaded, whereas sequence identities between G3P5 [3] strains are more densely shaded.…”

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confidence: 99%

“…By calculating a variability index at each amino acid position of the NSP4 protein, we have previously shown that sequence variation increases immediately downstream from the toxic peptide region and remains high toward the carboxy-terminus of the NSP4, with the greatest sequence variation occurring between residues 135 and 141 (7). In this regard, it deserves mention that all P3 [9] strains possess Ile-Lys-Pro at amino acid residues 136-168, whereas all P5 [3] strains possess Ala-Thr-Ser at these residues (Fig. 1).…”

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confidence: 99%

“…Indeed, pathogenicity and virulence are complex characteristics (5), and evidence is available in the literature that several gene segments are involved in these characteristics. For example, in the gnotobiotic piglet model, VP3, VP4, VP7, and NSP4 were all shown to be associated with diarrhea induction by single-gene substitution reassortants between a virulent porcine rotavirus strain (SB-l A) and a human rotavirus strain (DS-l) that is not pathogenic for pigs (9). Thus, involvement of other genes may explain the outcome of infection in cats from which these 10 feline rotaviruses were isolated.…”

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A Lack of Consistent Amino Acid Substitutions in NSP4 between Rotaviruses Derived from Diarrheal and Asymptomatically‐Infected Kittens

Oka

Nakagomi

2001

Microbiology and Immunology

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Nonstructural glycoprotein NSP4 of group A rotavirus has recently been shown to be a viral enterotoxin, inducing diarrhea in neonatal mice. Literature is conflicting as to whether there is any consistent amino acid substitution between virulent (or symptomatic) and attenuated (or asymptomatic) rotavirus strains. We have sequenced and compared the NSP4 sequences derived from a total of 10 geographicallyand serologically-related feline rotavirus strains from both diarrheal and asymptomatically-infected kittens. These NSP4 sequences were closely related to each other and there were differences at 19 amino acid residues, but none was segregated according to whether the strain was isolated from a diarrheal kitten or not. Thus, this study failed to lend support to the contention that mutations in NSP4 playa significant role in the pathogenesis of rotavirus diarrhea. Involvement of other genes may explain the outcome of infection in cats from which these 10 feline rotaviruses were isolated.

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Construction of four double gene substitution human × bovine rotavirus reassortant vaccine candidates: Each bears two outer capsid human rotavirus genes, one encoding P serotype 1A and the other encoding G serotype 1, 2, 3, or 4 specificity

et al. 1997

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Previously, four human x bovine rotavirus reassortant candidate vaccines, each of which derived ten genes from bovine rotavirus UK strain and only the outer capsid protein VP7-gene from human rotavirus strain D (G serotype 1), DS-1 (G serotype 2), P (G serotype 3), or ST3 (G serotype 4), were developed [Midthun et al., (1985): Journal of Virology 53:949-954; (1986): Journal of Clinical Microbiology 24:822-826]. Such human x bovine reassortant vaccines should theoretically provide antigenic coverage for the four epidemiologically most important VP7(G) serotypes 1, 2, 3, and 4. In an attempt to increase the antigenicity of VP7-based human x animal reassortant rotavirus vaccines which derive a single VP7-encoding gene from the human strain and the remaining ten genes from the animal strain, we generated double gene substitution reassortants. This was done by incorporating another protective antigen (VP4) of an epidemiologically important human rotavirus by crossing human rotavirus Wa strain (P serotype 1A), with each of the human x bovine single VP7-gene substitution rotavirus reassortants. In this way four separate double gene substitution rotavirus reassortants were generated. Each of these reassortants bears the VP4-encoding gene from human rotavirus Wa strain, the VP7-encoding gene from human rotavirus strain D, DS-1, P, or ST3, and the remaining nine genes from bovine rotavirus strain UK. The safety, antigenicity, and protective efficacy of individual components as well as combinations of strains are currently under evaluation.

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Identification of Group A Rotavirus Genes Associated with Virulence of a Porcine Rotavirus and Host Range Restriction of a Human Rotavirus in the Gnotobiotic Piglet Model

Cited by 151 publications

References 0 publications

Molecular characterization of human rotavirus vaccine strain CDC-9 during sequential passages in vero cells

Molecular characterization of human rotavirus vaccine strain CDC-9 during sequential passages in vero cells

A Lack of Consistent Amino Acid Substitutions in NSP4 between Rotaviruses Derived from Diarrheal and Asymptomatically‐Infected Kittens

Construction of four double gene substitution human × bovine rotavirus reassortant vaccine candidates: Each bears two outer capsid human rotavirus genes, one encoding P serotype 1A and the other encoding G serotype 1, 2, 3, or 4 specificity

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