Access the full text.
Sign up today, get DeepDyve free for 14 days.
(2015)
Food Environ Virol
E. Scallan, R. Hoekstra, F. Angulo, R. Tauxe, Marc-Alain Widdowson, S. Roy, Jeffery Jones, P. Griffin (2011)
Foodborne Illness Acquired in the United States—Major PathogensEmerging Infectious Diseases, 17
Jeremy Redman, S. Grant, T. Olson, M. Hardy, M. Estes (1997)
Filtration of Recombinant Norwalk Virus Particles and Bacteriophage MS2 in Quartz Sand: Importance of Electrostatic InteractionsEnvironmental Science & Technology, 31
P. Bolt, J. Goodwin, R. Ottewill (2005)
Studies on the preparation and characterization of monodisperse polystyrene latices. VI. Preparation of zwitterionic latices.Langmuir : the ACS journal of surfaces and colloids, 21 22
M. Koopmans, E. Duizer (2003)
Foodborne viruses: an emerging problemInternational Journal of Food Microbiology, 90
G. Greening (2006)
Human and Animal Viruses in Food (Including Taxonomy of Enteric Viruses)Viruses in Foods
C. Schaldach, W. Bourcier, H. Shaw, B. Viani, W. Wilson (2006)
The influence of ionic strength on the interaction of viruses with charged surfaces under environmental conditions.Journal of colloid and interface science, 294 1
(2011)
Cas d’infection à Caliciviridae incluant le norovirusSTATLABO-Statistique d’Analyse du Laboratoire Santé Publique du Québec, 10
(2016)
Viruses in Foods
P. Righetti, T. Caravaggio (1976)
Isoelectric points and molecular weights of proteins.Journal of chromatography, 127 11
S. Farrah, G. Bitton, E. Hoffmann, O. Lanni, O. Pancorbo, M. Lutrick, J. Bertrand (1981)
Survival of enteroviruses and coliform bacteria in a sludge lagoonApplied and Environmental Microbiology, 41
W. Dillman, I. Miller (1973)
On the adsorption of serum proteins on polymer membrane surfacesJournal of Colloid and Interface Science, 44
G. Lefèvre, L. Čerović, S. Milonjić, M. Fédoroff, Jorgen Finne, A. Jaubertie (2009)
Determination of isoelectric points of metals and metallic alloys by adhesion of latex particles.Journal of colloid and interface science, 337 2
Everardo Vega, Jeanon Smith, J. Garland, Anabelle Matos, Suresh Pillaii (2005)
Variability of virus attachment patterns to butterhead lettuce.Journal of food protection, 68 10
S. Dowd, Suresh Pillai, Sookyun Wang, M. Corapcioglu (1998)
Delineating the Specific Influence of Virus Isoelectric Point and Size on Virus Adsorption and Transport through Sandy SoilsApplied and Environmental Microbiology, 64
SF Ausar, TR Foubert, MH Hudson, TS Vedvick, CR Middaugh (2006)
Conformational stability and disassembly of Norwalk Virus-like particles effect of pH and temperatureJournal of Biological Chemistry, 281
R. Ottewill, J. Shaw (1967)
Studies on the preparation and characterization of monodisperse polystyrene laticesKolloid-Zeitschrift und Zeitschrift für Polymere, 215
R. Glass, Umesh Parashar, M. Estes (2009)
Norovirus gastroenteritis.The New England journal of medicine, 361 18
Xi Jiang, Min Wang, D. Graham, M. Estes (1992)
Expression, self-assembly, and antigenicity of the Norwalk virus capsid proteinJournal of Virology, 66
M. Stuart (1991)
Adsorbed Polymers in Colloidal Systems: from Statics to DynamicsPolymer Journal, 23
Nadja Schultz, G. Metreveli, M. Franzreb, F. Frimmel, C. Syldatk (2008)
Zeta potential measurement as a diagnostic tool in enzyme immobilisation.Colloids and surfaces. B, Biointerfaces, 66 1
F. Guyader, Fabienne Loisy, R. Atmar, A. Hutson, M. Estes, Nathalie Ruvoën-Clouet, M. Pommepuy, J. Pendu (2006)
Norwalk Virus–specific Binding to Oyster Digestive TissuesEmerging Infectious Diseases, 12
L. Huhti, V. Blazevic, Kirsi Nurminen, Tiia Koho, V. Hytönen, Timo Vesikari (2010)
A comparison of methods for purification and concentration of norovirus GII-4 capsid virus-like particlesArchives of Virology, 155
Manish Patel, Marc-Alain Widdowson, R. Glass, Kenichiro Akazawa, J. Vinjé, U. Parashar (2008)
Systematic Literature Review of Role of Noroviruses in Sporadic GastroenteritisEmerging Infectious Diseases, 14
B. Michen, T. Graule (2009)
Isoelectric points of virusesJournal of Applied Microbiology, 109
(2011)
Cas d'infection a ` Caliciviridae incluant le norovirus. STATLABO-Statistique d'Analyse du Laboratoire Santé Publique du Québec
Nicole Gregoricus, A. Hall, B. Lopman, U. Parashar, G. Park, J. Vinjé, Catherine Yen (2011)
Updated norovirus outbreak management and disease prevention guidelines.MMWR. Recommendations and reports : Morbidity and mortality weekly report. Recommendations and reports, 60 RR-3
L. Boulangé-Petermann, A. Doren, B. Baroux, M. Bellon-Fontaine (1995)
Zeta Potential Measurements on Passive Metals, 171
W. Norde, J. Lyklema (1978)
The adsorption of human plasma albumin and bovine pancreas ribonuclease at negatively charged polystyrene surfaces: I. Adsorption isotherms. Effects of charge, ionic strength, and temperatureJournal of Colloid and Interface Science, 66
K. Green, T. Ando, M. Balayan, T. Berke, I. Clarke, M. Estes, D. Matson, S. Nakata, J. Neill, M. Studdert, H. Thiel (2000)
Taxonomy of the caliciviruses.The Journal of infectious diseases, 181 Suppl 2
T. Creighton (2010)
The biophysical chemistry of nucleic acids & proteins
B. Martino, F. Marsilio, P. Roy (2007)
Assembly of feline calicivirus-like particle and its immunogenicity.Veterinary microbiology, 120 1-2
J. Siebenga, H. Vennema, D. Zheng, J. Vinjé, Bonita Lee, X. Pang, E. Ho, W. Lim, A. Choudekar, S. Broor, T. Halperin, N. Rasool, J. Hewitt, G. Greening, M. Jin, Z. Duan, Y. Lucero, M. O’Ryan, M. Hoehne, E. Schreier, R. Ratcliff, P. White, N. Iritani, G. Reuter, M. Koopmans (2009)
Norovirus illness is a global problem: emergence and spread of norovirus GII.4 variants, 2001-2007.The Journal of infectious diseases, 200 5
L. Goodridge, C. Goodridge, Jiaqi. Wu, M. Griffiths, J. Pawliszyn (2004)
Isoelectric point determination of norovirus virus-like particles by capillary isoelectric focusing with whole column imaging detection.Analytical chemistry, 76 1
S. Ausar, T. Foubert, Mary Hudson, T. Vedvick, R. Middaugh (2006)
Conformational Stability and Disassembly of Norwalk Virus-like ParticlesJournal of Biological Chemistry, 281
S. Chattopadhyay, R. Puls (1999)
Adsorption of Bacteriophages on Clay MineralsEnvironmental Science & Technology, 33
R. Atmar (2010)
Noroviruses: State of the ArtFood and Environmental Virology, 2
(2011)
Analysys of biopharmaceuticals
D. Zheng, T. Ando, R. Fankhauser, R. Beard, R. Glass, S. Monroe (2006)
Norovirus classification and proposed strain nomenclature.Virology, 346 2
AJ Hall, J Vinjé, B Lopman, GW Park, C Yen, N Gregoricus, U Parashar (2011)
Updated Norovirus outbreak management and disease prevention guidelinesCenters for Disease Control and Prevention MMWR, Recommendations and Reports, 60
(1982)
Chemistry and morphology of plant epicuticular waxes The plant cuticle
G. Shoemaker, G. Shoemaker, E. Duijn, E. Duijn, S. Crawford, C. Uetrecht, C. Uetrecht, M. Baclayon, W. Roos, G. Wuite, M. Estes, B. Prasad, A. Heck, A. Heck (2010)
Norwalk Virus Assembly and Stability Monitored by Mass Spectrometry*Molecular & Cellular Proteomics, 9
L. Molodkina, Y. Chernoberezhskii, E. Golikova (2005)
Electrokinetic Properties and Aggregate Stability of Nanosized Biocolloids—Influenza Virus DispersionsGlass Physics and Chemistry, 31
P. Righetti, Gabriela Tudor, K. Ek (1981)
Isoelectric points and molecular weights of proteins : A new tableJournal of Chromatography A, 220
Maryline Girard, S. Ngazoa, K. Mattison, J. Jean (2010)
Attachment of noroviruses to stainless steel and their inactivation, using household disinfectants.Journal of food protection, 73 2
C. Gerba (1984)
Applied and theoretical aspects of virus adsorption to surfaces.Advances in applied microbiology, 30
D. Stawski, C. Bellmann (2009)
Electrokinetic properties of polypropylene textile fabrics containing deposited layers of polyelectrolytesColloids and Surfaces A: Physicochemical and Engineering Aspects, 345
A. Kroneman, L. Verhoef, J. Harris, H. Vennema, E. Duizer, Y. Duynhoven, J. Gray, M. Iturriza, B. Böttiger, G. Falkenhorst, C. Johnsen, C. Bonsdorff, L. Maunula, M. Kuusi, P. Pothier, A. Gallay, E. Schreier, M. Höhne, J. Koch, G. Szücs, G. Reuter, K. Krisztalovics, M. Lynch, P. Mckeown, Brian Foley, S. Coughlan, F. Ruggeri, I. Bartolo, K. Vainio, E. Isakbaeva, M. Poljšak-Prijatelj, A. Grom, J. Mijovski, A. Bosch, J. Buesa, A. Fauquier, G. Hernández-Pezzi, K. Hedlund, M. Koopmans (2008)
Analysis of Integrated Virological and Epidemiological Reports of Norovirus Outbreaks Collected within the Foodborne Viruses in Europe Network from 1 July 2001 to 30 June 2006Journal of Clinical Microbiology, 46
D. D'Souza, Arnie Sair, Karen Williams, E. Papafragkou, J. Jean, C. Moore, L. Jaykus (2006)
Persistence of caliciviruses on environmental surfaces and their transfer to food.International journal of food microbiology, 108 1
Safaa Lamhoujeb, I. Fliss, S. Ngazoa, J. Jean (2009)
Molecular Study of the Persistence of Infectious Human Norovirus on Food-Contact SurfacesFood and Environmental Virology, 1
Allegra Silva, O. Kavanagh, M. Estes, M. Elimelech (2011)
Adsorption and aggregation properties of norovirus GI and GII virus-like particles demonstrate differing responses to solution chemistry.Environmental science & technology, 45 2
Although the spread of human norovirus reportedly depends on its ability to bind to food materials, the mechanism of the phenomenon remains unknown. Since protein size and electrical charge are reportedly important parameters in their adsorption, the current work is focused on determining human noroviruses isoelectric point (IEP), electrical charge and aggregate size at different pH, ionic strength (IS), and temperature. Using the baculovirus expression vector system, we produced and purified virus-like particles (VLPs) of GI.1 and GII.4 noroviruses and feline calicivirus, determined their IEP, and examined their size and electrical charge using a Zetasizer Nano ZS apparatus. Shape and size were also visualized using transmission electron microscopy. IEPs were found close to pH 4. Net charge increased as the pH deviated from the IEP. VLPs were negatively charged at all IS tested and showed a gradual decrease in charge with increasing IS. At low temperature, VLPs were 20–45 nm in diameter at pH far from their IEP and under almost all IS conditions, while aggregates appeared at or near the IEP. At increased temperatures, aggregates appeared at or near the IEP and at high IS. Aggregation at the IEP was also confirmed by microscopy. This suggests that electrostatic interactions would be the predominant factor in VLPs adhesion at pH far from 4 and at low ionic strength. In contrast, non-electrostatic interactions would prevail at around pH 4 and would be reinforced by aggregates, since size generally favors multiple bonding with sorbents.
Food and Environmental Virology – Springer Journals
Published: May 23, 2015
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.