ATBU Journal of Science, Technology and Education

Norovirus formally known as Norwalk virus was named after Norwalk, Ohio, in the United States, where an outbreak of acute viral gastroenteritis occurred among children at Bronson Elementary School in November, 1968. Norovirus is the only species of the genus Norovirus, which belongs to the family caliciviridae. Infection by Norovirus relies on the recognition of histo-blood group antigens (HBGAs) in the initial viral attachment and this key event most likely controls host susceptibility and resistance to Norovirus. The pathological effect due to infection with Norovirus begins with viral attachment to the cell receptor, the P2 subdomain of the VP1 binds to a sugar residue, mostly to the histo-blood group antigen (HBGA) carbohydrates in the case of human Norovirus but also to sialic acid or heparin sulfate. Diagnosis can be achieved through Electron Microscopy and Immune Electron Microscopy, Enzyme Linked Immunosorbent Assay and Nucleic Acid Hybridization Assay. Theoretically, any food item can potentially be infected with Norovirus through fecal contamination. Therefore, all food items should be handled in good hygienic manner 

Ando, T., Monroe, S. S., Gentsch, J. R., Jin, Q. I., Lewis, D. C., & Glass, R. I. (1995). Detection and differentiation of antigenically distinct small round-structured viruses (Norwalk-like viruses) by reverse transcription-PCR and southern hybridization. Journal of Clinical Microbiology, 33(1), 64-71.

Atmar, R. L., & Estes, M. K. (2001). Diagnosis of noncultivatable gastroenteritis viruses, the human caliciviruses. Clinical microbiology reviews, 14(1), 15-37.

Bailey, D., Kaiser, W.J., Hollinshead, M., Moffat, K., Chaudhry, Y., Wileman, T., Sosnovtsev, S.V. & Goodfellow, I.G. (2009). Feline calicivirus p32, p39 and p30 proteins localize to the endoplasmic reticulum to initiate replication complex formation. Journal General Virology, 3, 739-749.

Barton, E.S., Forrest, J.C., Connolly, J.L., Chappell, J.D., Liu, Y., Schnell, F.J., Nusrat, A., Parkos, C.A. & Dermody, T.S. (2001). Junction adhesion molecule is a receptor for reovirus. Cell, 3, 441-451.

Becker, K. M., Moe, C. L., Southwick, K. L., & MacCormack, J. N. (2000). Transmission of Norovirus during a football game. New England Journal of Medicine, 343(17), 1223-1227.

Belgaumi, A. (2012). Development and Implementation of a Distributed Integrated Data-Management System for Pediatric Hematology/Oncology Service: A Modular Approach for a Clinical Outcome and Research Information System. Journal of registry management, 39(4), 147.

Bellou, M., Kokkinos, P., & Vantarakis, A. (2013). Shellfish-borne viral outbreaks: a systematic review. Food and environmental virology, 5(1), 13-23.

Biran, A., Curtis, V., Gautam, O. P., Greenland, K., Islam, M. S., Schmidt, W. P., ... & Torondel, B. (2012). Background Paper on Measuring WASH and Food Hygiene Practices–Definition of Goals to be Tackled Post 2015 by the Joint Monitoring Programme.

Blutt, S. E., & Conner, M. E. (2013). The gastrointestinal frontier: IgA and viruses. Frontier Immunology, 4(402), 10-3389.

Bryce, J., Boschi-Pinto, C., Shibuya, K. & Black, R.E. (2005). WHO estimates of the causes of death in children? Lancet, 9465, 1147-1152

Bu, W., Mamedova, A., Tan, M., Xia, M., Jiang, X. & Hegde, R.S. (2008). Structural basis for the receptor binding specificity of Norovirus. Journal of Virology, 11, 5340-5347.

Burkhardt, W., & Calci, K. R. (2000). Selective accumulation may account for shellfish-associated viral illness. Applied and Environmental Microbiology, 66(4), 1375-1378.

Cannon, J.L., Papafragkou, E., Park, G.W., Osborne, J., Jaykus, L.A. & Vinje, J. (2006). Surrogates for the study of norovirus stability and inactivation in the environment: A comparison of murine norovirus and feline calicivirus. J Food Prot, 11, 2761-2765).

Cao, S., Lou, Z., Tan, M., Chen, Y., Liu, Y., Zhang, Z., Zhang, X.C., Jiang, X., Li, X. & Rao, Z. (2007). Structural basis for the recognition of blood group trisaccharides by norovirus. Journal of Virology, 11, 5949-5957.

Caul, E. O. (1994). Small round structured viruses: airborne transmission and hospital control. The Lancet, 343(8908), 1240-1242.

Chen, Q. (2013). Virus-like particle vaccines for norovirus gastroenteritis. InMolecular vaccines (pp. 153-181). Springer Vienna.

Chiba, S., Estes, M. K., Nakata, S., & Calisher, C. H. (Eds.). (2012). Viral gastroenteritis (Vol. 12). Springer Science & Business Media.

Choi, J.M., Hutson, A.M., Estes, M.K. & Prasad, B.V. (2008). Atomic resolution structural characterization of recognition of histo-blood group antigens by Norovirus. Proc Natl Acad Sci U S A, 27, 9175-9180.

Daniels, N. A., Bergmire-Sweat, D. A., Schwab, K. J., Hendricks, K. A., Reddy, S., Rowe, S. M., ... & Mead, P. (2000). A foodborne outbreak of gastroenteritis associated with Norwalk-like viruses: first molecular traceback to deli sandwiches contaminated during preparation. Journal of Infectious Diseases, 181(4), 1467-1470.

Daughenbaugh, K. F., Fraser, C. S., Hershey, J. W., & Hardy, M. E. (2003). The genome‐linked protein VPg of the Norovirus binds eIF3, suggesting its role in translation initiation complex recruitment. The EMBO journal, 22(11), 2852-2859.

Daughenbaugh, K. F., Wobus, C. E., & Hardy, M. E. (2006). VPg of murine norovirus binds translation initiation factors in infected cells. Virology journal, 3(1), 1.

Denison, M.R. (2008). Seeking membranes: positive-strand RNA virus replication complexes. PLoS Biol Vol.No. 10 pp. (e270).

Duncan, C. M. (2015). Eat, Drink, and be Wary: How Unsafe is Our Food?. Rowman & Littlefield.

El-Kamary, S.S., Pasetti, M.F., Mendelman, P.M., Frey, S.E., Bernstein, D.I., Treanor, J.J., Ferreira, J., Chen, W.H., Sublett, R., Richardson, C., Bargatze, R.F., Sztein, M.B. & Tacket, C.O. (2010). Adjuvanted intranasal Norovirus-like particle vaccine elicits antibodies and antibody-secreting cells that express homing receptors for mucosal and peripheral lymphoid tissues. Journal of Infectious Diseases, 11, 1649-1658.

Feng, X. & Jiang, X. (2007). Library screen for inhibitors targeting norovirus binding to histoblood group antigen receptors. Antimicrobial Agents Chemotherapy, 1,324-331.

Field, H.J. & Vere Hodge, R.A. (2008). Antiviral Agents. In: Desk Encyclopedia of General Virology, B.W.J. Mahy & M.H.V. Van Regenmortel, pp. 292-304, Elsevier Ltd.

Graham, D. Y., Jiang, X., Tanaka, T., Opekun, A. R., Madore, H. P., & Estes, M. K. (1994). Norovirus infection of volunteers: new insights based on improved assays. Journal of Infectious Diseases, 170(1), 34-43.

Gray, J. J., Kohli, E., Ruggeri, F. M., Vennema, H., Sánchez-Fauquier, A., Schreier, E., ... & Di Bartolo, I. (2007). European multicenter evaluation of commercial enzyme immunoassays for detecting norovirus antigen in fecal samples. Clinical and Vaccine Immunology, 14(10), 1349-1355.

Green, K. Y., Ando, T., Balayan, M. S., Berke, T., Clarke, I. N., Estes, M. K., ... & Thiel, H. J. (2000). Taxonomy of the caliciviruses. Journal of infectious diseases, 181(2), S322-S330.

Green, K.Y. (2007). Caliciviridae: The Noroviruses. In: Fields Virology, D.M. Knipe & P.M. Howley, pp. 949-979, Lippincott Williams & Wilkins

Hadley, S. (2013). Human and murine noroviruses: detection, replication and epidemiology (Doctoral dissertation, University of Southampton).

Hansman, G.S., Shahzad-ul-Hussan, S., McLellan, J.S., Chuang G.-Y., Georgiev, I., Shimoike T., Katayama, K., Bewley, C. A. & Kwong. P. D. (2011) Structural basis for norovirus inhibition and fucose mimicry by citrate, Journal of Virology, (Epub ahead of print 26 Oct 2011)

Herbst-Kralovetz, M. M., Radtke, A. L., Lay, M. K., Hjelm, B. E., Bolick, A. N., Sarker, S. S., ... & Nickerson, C. A. (2013). Lack of norovirus replication and histo-blood group antigen expression in 3-dimensional intestinal epithelial cells. Emerg Infect Dis, 19(3), 431-438.

Hutson, A. M., Atmar, R. L., Graham, D. Y., & Estes, M. K. (2002). Norovirus infection and disease is associated with ABO histo-blood group type.Journal of Infectious Diseases, 185(9), 1335-1337.

Hyde, J.L. & Mackenzie, J.M. (2010). Subcellular localization of the MNV-1 ORF1 proteins and their potential roles in the formation of the MNV-1 replication complex. Virology, 1,138-148.

Hyde, J.L., Sosnovtsev, S.V., Green, K.Y., Wobus, C., Virgin, H.W. & Mackenzie, J.M. (2009). Mouse norovirus replication is associated with virus-induced vesicle clusters originating from membranes derived from the secretory pathway. Journal of Virology, 1(19), 9709-9719.

Karst, S.M. (2010). Pathogenesis of Noroviruses, Emerging RNA Viruses www.mdpi.com/journal/viruses,

Keswick, B. H., Satterwhite, T. K., Johnson, P. C., DuPont, H. L., Secor, S. L., Bitsura, J. A., ... & Hoff, J. C. (1985). Inactivation of Norovirus in drinking water by chlorine. Applied and Environmental Microbiology, 50(2), 261-264.

Kimura, H., Nagano, K., Kimura, N., Shimizu, M., Ueno, Y., Morikane, K., & Okabe, N. (2011). A norovirus outbreak associated with environmental contamination at a hotel. Epidemiology and infection, 139(02), 317-325.

Knight, A., Li, D., Uyttendaele, M., & Jaykus, L. A. (2013). A critical review of methods for detecting human noroviruses and predicting their infectivity.Critical Reviews in Microbiology, 39(3), 295-309.

Koo, H.L., Ajami, N., Atmar, R.L. & DuPont, H.L. (2010). Noroviruses: The leading cause of gastroenteritis worldwide. Discovery Medicine, 50, 61-70.

Kroneman, A., Vega, E., Vennema, H., Vinjé, J., White, P. A., Hansman, G., ... & Koopmans, M. (2013). Proposal for a unified norovirus nomenclature and genotyping. Archives of virology, 158(10), 2059-2068.

LeBaron, C. W., Furutan, N. P., Lew, J. F., Allen, J. R., Gouvea, V., Moe, C., & Monroe, S. S. (1990). Viral agents of gastroenteritis. Public health importance and outbreak management. MMWR. Recommendations and reports: Morbidity and mortality weekly report. Recommendations and reports/Centers for Disease Control, 39(5), 1-24.

Lopman, B. A., Vinjé, J., & Glass, R. I. (2014). Noroviruses, Sapoviruses, and Astroviruses. In Viral Infections of Humans (pp. 479-499). Springer US.

Makino, A., Shimojima, M., Miyazawa, T., Kato, K., Tohya, Y. & Akashi, H. (2006). Junctional adhesion molecule 1 is a functional receptor for feline calicivirus. Journal Virology, 8, 4482-4490.

Marionneau, S., Ruvoen, N., Le Moullac-Vaidye, B., Clement, M., Cailleau-Thomas, A., RuizPalacois, G., Huang, P., Jiang, X. & Le Pendu, J. (2002). Norovirus binds to histo-blood group antigens present on gastroduodenal epithelial cells of secretor individuals. Gastroenterology, 7, 1967-1977.

Marsh, M. & Helenius, A. (2006). Virus entry: open sesame. Cell, 4, 729-740.

Miyoshi, T., Uchino, K., Yoshida, H., Motomura, K., Takeda, N., Matsuura, Y., & Tanaka, T. (2015). Long‐term viral shedding and viral genome mutation in norovirus infection. Journal of medical virology, 87(11), 1872-1880.

Nims, R., & Plavsic, M. (2013). Inactivation of caliciviruses. Pharmaceuticals, 6(3), 358-392.

Okhuysen, P. C., Jiang, X., Ye, L., Johnson, P. C., & Estes, M. K. (1995). Viral shedding and fecal IgA response after Norovirus infection. Journal of Infectious Diseases, 171(3), 566-569.

Otter, J. A., Yezli, S., & French, G. L. (2014). The role of contaminated surfaces in the transmission of nosocomial pathogens. In Use of Biocidal Surfaces for Reduction of Healthcare Acquired Infections (pp. 27-58). Springer International Publishing.

Parrino, T. A., Schreiber, D. S., Trier, J. S., Kapikian, A. Z., & Blacklow, N. R. (1977). Clinical immunity in acute gastroenteritis caused by Norwalk agent. New England Journal of Medicine, 297(2), 86-89.

Patel, M.M., Hall, A.J., Vinje, J. & Parashar, U.D. (2009). Noroviruses: a comprehensive review. Journal of Clinical Virology, 1, 1-8.

Patel, M.M., Widdowson, M.A., Glass, R.I., Akazawa, K., Vinje, J. & Parashar, U.D. (2008). Systematic literature review of role of noroviruses in sporadic gastroenteritis. Emergency and Infectious Disease, 8, 1224-1231.

Perry, J. W., & Wobus, C. E. (2010). Endocytosis of murine norovirus 1 into murine macrophages is dependent on dynamin II and cholesterol. Journal of virology, 84(12), 6163-6176.

Perry, J.W., Taube, S. & Wobus, C.E. (2009). Murine norovirus-1 entry into permissive macrophages and dendritic cells is pH-independent. Virus Research, 1, 125-129.

Putics, A., Vashist, S., Bailey, D., & Goodfellow, I. (2010). Murine norovirus translation, replication and reverse genetics (pp. 205-222). G. S. Hansman, X. J. Jiang, & K. Y. Green (Eds.). Caister Academic Press, Norfolk, UK.

Ramani, S. & Kang, G. (2009). Viruses causing childhood diarrhoea in the developing world. Current Opinion of Infectious Diseases, 5, 477-482.

Richards, A. F., Lopman, B., Gunn, A., Curry, A., Ellis, D., Cotterill, H., ... & Gray, J. J. (2003). Evaluation of a commercial ELISA for detecting Norwalk-like virus antigen in faeces. Journal of clinical virology, 26(1), 109-115.

Robilotti, E., Deresinski, S., & Pinsky, B. A. (2015). Norovirus. Clinical microbiology reviews, 28(1), 134-164.

Rocha-Pereira, J., Cunha, R., Pinto, D.C.G.A., Silva, A.M.S. & Nascimento, M.S.J. (2010). (E)- 2-Styrylchromones as potential anti-norovirus agents. Bioorganic & Medicinal Chemistry, 12, 4195-4201.

Rohayem, J., Jager, K., Robel, I., Scheffler, U., Temme, A. & Rudolph, W. (2006a). Characterization of norovirus 3Dpol RNA-dependent RNA polymerase activity and initiation of RNA synthesis. Journal of general Virology, 9, 2621-2630.

Rohayem, J., Robel, I., Jager, K., Scheffler, U. & Rudolph, W. (2006b). Protein-primed and de novo initiation of RNA synthesis by norovirus 3Dpol. Journal of Virology 1(14), 7060-7069.

Roos-Weil, D., Ambert-Balay, K., Lanternier, F., Mamzer-Bruneel, M. F., Nochy, D., Pothier, P., ... & Thervet, E. (2011). Impact of norovirus/sapovirus-related diarrhea in renal transplant recipients hospitalized for diarrhea. Transplantation, 92(1), 61-69.

Rossignol, J.F. & El-Gohary, Y.M. (2006). Nitazoxanide in the treatment of viral gastroenteritis: a randomized double-blind placebo-controlled clinical trial. Aliment Pharmacol Therepy, 10, 1423-1430.

Rydell, G. E., Nilsson, J., Rodriguez-Diaz, J., Ruvoën-Clouet, N., Svensson, L., Le Pendu, J., & Larson, G. (2009). Human noroviruses recognize sialyl Lewis x neoglycoprotein. Glycobiology, 19(3), 309-320.

Sala, M. R., Broner, S., Moreno, A., Arias, C., Godoy, P., Minguell, S., ... & Guix, S. (2014). Cases of acute gastroenteritis due to calicivirus in outbreaks: clinical differences by age and aetiological agent. Clinical Microbiology and Infection, 20(8), 793-798.

Shieh, Y. C., Tortorello, M. L., Fleischman, G. J., Li, D., & Schaffner, D. W. (2014). Tracking and modeling norovirus transmission during mechanical slicing of globe tomatoes. International journal of food microbiology, 180, 13-18.

Shieh, Y. S. C., Monroe, S. S., Fankhauser, R. L., Langlois, G. W., Burkhardt, W., & Baric, R. S. (2000). Detection of Norwalk-like virus in shellfish implicated in illness. Journal of Infectious Diseases, 181(2), 360-366.

Shigemoto, N., Tanizawa, Y., Matsuo, T., Sakamaki, N., Ohiro, Y., Takayasu, S., & Fukuda, S. (2014). Clinical evaluation of a bioluminescent enzyme immunoassay for detecting norovirus in fecal specimens from patients with acute gastroenteritis. Journal of medical virology, 86(7), 1219-1225.

Simmonds, P., Karakasiliotis, I., Bailey, D., Chaudhry, Y., Evans, D.J. & Goodfellow, I.G. (2008). Bioinformatic and functional analysis of RNA secondary structure elements among different genera of human and animal caliciviruses. Nucleic Acids Research, 8, 2530-2546.

Simmons, K., Gambhir, M., Leon, J., & Lopman, B. (2013). Duration of immunity to norovirus gastroenteritis. Emergent Infectious Diseases, 19(8), 1260-1267.

Sosnovtsev, S.V. (2010). Proteolytic cleavage and viral proteins In: Caliciviruses: Molecular and Cellular Virology, G.S. Hansman, X.J. Jiang & K.Y. Green, pp. 65-94, Caister Academic Press

Spurgers, K.B., Sharkey, C.M., Warfield, K.L. & Bavari, S. (2008). Oligonucleotide antiviral therapeutics: antisense and RNA interference for highly pathogenic RNA viruses. Antiviral Research, 1, 26-36.

Stuart, A. D., & Brown, T. D. K. (2007). α2, 6-Linked sialic acid acts as a receptor for feline calicivirus. Journal of general virology, 88(1), 177-186.

Sukhrie, F. (2014). Identifying Sources and Transmission Routes of Norovirus Outbreaks: Molecular epidemiological methods as the basis for targeted prevention strategies.

Tamura, M., Natori, K., Kobayashi, M., Miyamura, T. & Takeda, N. (2004). Genogroup II noroviruses efficiently bind to heparan sulfate proteoglycan associated with the cellular membrane. Journal Virology, 8, 817-3826.

Tan, M. & Jiang, X. (2005). Norovirus and its histo-blood group antigen receptors: an answer to a historical puzzle. Trends Microbiology, 6, 285-293.

Tan, M., & Jiang, X. (2011). Norovirus–host interaction: multi-selections by human histo-blood group antigens. Trends in microbiology, 19(8), 382-388.

Tan, M., Xia, M., Chen, Y., Bu, W., Hegde, R.S., Meller, J., Li, X. & Jiang, X. (2009). Conservation of carbohydrate binding interfaces: evidence of human HBGA selection in norovirus evolution. PLoS One, 4, e5058.

Taube, S., Perry, J. W., Yetming, K., Patel, S. P., Auble, H., Shu, L., ... & Wobus, C. E. (2009). Ganglioside-linked terminal sialic acid moieties on murine macrophages function as attachment receptors for murine noroviruses. Journal of virology, 83(9), 4092-4101.

Teunis, P. F., Moe, C. L., Liu, P., E Miller, S., Lindesmith, L., Baric, R. S., ... & Calderon, R. L. (2008). Norovirus: how infectious is it?. Journal of medical virology, 80(8), 1468-1476.

The New York Times. (April 1, 2010). Getting Rid of Norovirus". . Retrieved January 7, 2013

Thorne, L.G. and Goodfellow, L.G. (2014). Norovirus gene expression and replication. Journal of General Virology , 95, 278–291

Tian, P., Yang, D., Quigley, C., Chou, M., & Jiang, X. (2013). Inactivation of the Tulane virus, a novel surrogate for the human norovirus. Journal of food protection, 76(4), 712.

Tsai, B. (2007). Penetration of nonenveloped viruses into the cytoplasm. Annual Review of Cell Developmental Biology, 23-43.

van Beek, J., & Koopmans, M. (2013). Introduction to norovirus. Food Borne Viruses and Prions and Their Significance for Public Health, 41.

Vinjé, J., Lopman, B., Park, G. W., Yen, C., Gregoricus, N., & Parashar, U. (2011). Updated norovirus outbreak management and disease prevention guidelines. US Department of Health and Human Services, Centers for Disease Control and Prevention.

nVirus Taxonomy, (2005). Release (8th Report). International Committee on Taxonomy of Viruses

Wikswo, M. E., Kambhampati, A., Shioda, K., Walsh, K. A., Bowen, A., & Hall, A. J. (2015). Outbreaks of Acute Gastroenteritis Transmitted by Person-to-Person Contact, Environmental Contamination, and Unknown Modes of Transmission—United States, 2009–2013. Morbidity and mortality weekly report. Surveillance summaries (Washington, DC: 2002), 64(12), 1.

Wobus, C.E., Karst, S.M., Thackray, L.B., Chang, K.O., Sosnovtsev, S.V., Belliot, G., Krug, A., Mackenzie, J.M., Green, K.Y. & Virgin, H.W. (2004). Replication of Norovirus in cell culture reveals a tropism for dendritic cells and macrophages. PLoS Biol, 12, e432.

Zhang, Y., Hung, T., Song, J., & He, J. (2013). Electron microscopy: essentials for viral structure, morphogenesis and rapid diagnosis. Science China Life Sciences, 56(5), 421-430.