Rotavirus gene structure and function.

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Microbiol Mol Biol Rev. 1989 December; 53(4): 410-449

Rotavirus gene structure and function.

M K Estes and J Cohen

SUMMARY

Knowledge of the structure and function of the genes and proteinsof the rotaviruses has expanded rapidly. Information obtainedin the last 5 years has revealed unexpected and unique molecularproperties of rotavirus proteins of general interest to virologists,biochemists, and cell biologists. Rotaviruses share some featuresof replication with reoviruses, yet antigenic and molecularproperties of the outer capsid proteins, VP4 (a protein whosecleavage is required for infectivity, possibly by mediatingfusion with the cell membrane) and VP7 (a glycoprotein), showmore similarities with those of other viruses such as the orthomyxoviruses,paramyxoviruses, and alphaviruses. Rotavirus morphogenesis isa unique process, during which immature subviral particles budthrough the membrane of the endoplasmic reticulum (ER). Duringthis process, transiently enveloped particles form, the outercapsid proteins are assembled onto particles, and mature particlesaccumulate in the lumen of the ER. Two ER-specific viral glycoproteinsare involved in virus maturation, and these glycoproteins havebeen shown to be useful models for studying protein targetingand retention in the ER and for studying mechanisms of virusbudding. New ideas and approaches to understanding how eachgene functions to replicate and assemble the segmented viralgenome have emerged from knowledge of the primary structureof rotavirus genes and their proteins and from knowledge ofthe properties of domains on individual proteins. Localizationof type-specific and cross-reactive neutralizing epitopes onthe outer capsid proteins is becoming increasingly useful indissecting the protective immune response, including evaluationof vaccine trials, with the practical possibility of enhancingthe production of new, more effective vaccines. Finally, futureanalyses with recently characterized immunologic and gene probesand new animal models can be expected to provide a basic understandingof what regulates the primary interactions of these viruseswith the gastrointestinal tract and the subsequent responsesof infected hosts.

Microbiol Mol Biol Rev. 1989 December; 53(4): 410-449

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O'Mahony, J., Foley, B., Morgan, S., Morgan, J. G., Hill, C. (1999). VP4 and VP7 Genotyping of Rotavirus Samples Recovered from Infected Children in Ireland over a 3-Year Period. J. Clin. Microbiol. 37: 1699-1703 [Abstract] [Full Text]
Kim, Y., Chang, K.-O., Straw, B., Saif, L. J. (1999). Characterization of Group C Rotaviruses Associated with Diarrhea Outbreaks in Feeder Pigs. J. Clin. Microbiol. 37: 1484-1488 [Abstract] [Full Text]
de Verdier Klingenberg, K., Nilsson, M., Svensson, L. (1999). Rotavirus G-Type Restriction, Persistence, and Herd Type Specificity in Swedish Cattle Herds. CVI 6: 181-185 [Abstract] [Full Text]
Mirazimi, A., Nilsson, M., Svensson, L. (1998). The Molecular Chaperone Calnexin Interacts with the NSP4 Enterotoxin of Rotavirus In Vivo and In Vitro. J. Virol. 72: 8705-8709 [Abstract] [Full Text]
Mirazimi, A., Svensson, L. (1998). Carbohydrates Facilitate Correct Disulfide Bond Formation and Folding of Rotavirus VP7. J. Virol. 72: 3887-3892 [Abstract] [Full Text]
Velazquez, F. R., Matson, D. O., Calva, J. J., Guerrero, M. L., Morrow, A. L., Carter-Campbell, S., Glass, R. I., Estes, M. K., Pickering, L. K., Ruiz-Palacios, G. M. (1996). Rotavirus Infection in Infants as Protection against Subsequent Infections. NEJM 335: 1022-1028 [Abstract] [Full Text]
Glass, R., Gentsch, J, Smith, J. (1994). Rotavirus vaccines: success by reassortment?. Science 265: 1389-1391
Guerrero, C. A., Mendez, E., Zarate, S., Isa, P., Lopez, S., Arias, C. F. (2000). Integrin alpha vbeta 3 mediates rotavirus cell entry. Proc. Natl. Acad. Sci. USA 97: 14644-14649 [Abstract] [Full Text]

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