Single hemagglutinin mutations that alter both antigenicity and receptor binding avidity influence influenza virus antigenic clustering
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Compensatory hemagglutinin mutations alter antigenic properties of influenza virusesDetection of nonhemagglutinating influenza a(h3) viruses by enzyme-linked immunosorbent assay in quantitative influenza virus cultureCharacterization of Receptor Binding Profiles of Influenza A Viruses Using An Ellipsometry-Based Label-Free Glycan Microarray Assay Platform.Determination of antigenicity-altering patches on the major surface protein of human influenza A/H3N2 virusesRecent H3N2 Viruses Have Evolved Specificity for Extended, Branched Human-type Receptors, Conferring Potential for Increased Avidity.Mutations in the non-structural protein region contribute to intra-genotypic evolution of enterovirus 71.Integrating influenza antigenic dynamics with molecular evolutionRecent H3N2 influenza virus clinical isolates rapidly acquire hemagglutinin or neuraminidase mutations when propagated for antigenic analysesChallenges of selecting seasonal influenza vaccine strains for humans with diverse pre-exposure histories.Computational Identification of Antigenicity-Associated Sites in the Hemagglutinin Protein of A/H1N1 Seasonal Influenza Virus.Identification of Hemagglutinin Residues Responsible for H3N2 Antigenic Drift during the 2014-2015 Influenza SeasonThe Molecular Determinants of Antibody Recognition and Antigenic Drift in the H3 Hemagglutinin of Swine Influenza A Virus.Directed selection of influenza virus produces antigenic variants that match circulating human virus isolates and escape from vaccine-mediated immune protection.Charged amino acid variability related to N-glyco -sylation and epitopes in A/H3N2 influenza: Hem -agglutinin and neuraminidase.Multiple Genome Constellations of Similar and Distinct Influenza A Viruses Co-Circulate in Pigs During Epidemic Events.Effect of Priming With Seasonal Influenza A(H3N2) Virus on the Prevalence of Cross-Reactive Hemagglutination-Inhibition Antibodies to Swine-Origin A(H3N2) Variants.Contemporary H3N2 influenza viruses have a glycosylation site that alters binding of antibodies elicited by egg-adapted vaccine strains.Sweep Dynamics (SD) plots: Computational identification of selective sweeps to monitor the adaptation of influenza A viruses.A complex epistatic network limits the mutational reversibility in the influenza hemagglutinin receptor-binding site.Bayesian inference of antigenic and non-antigenic variables from haemagglutination inhibition assays for influenza surveillanceKinetic analysis of the influenza A virus HA/NA balance reveals contribution of NA to virus-receptor binding and NA-dependent rolling on receptor-containing surfacesThe molecular basis of antigenic variation among A(H9N2) avian influenza viruses
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Single hemagglutinin mutations that alter both antigenicity and receptor binding avidity influence influenza virus antigenic clustering
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 03 July 2013
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Single hemagglutinin mutations ...... nza virus antigenic clustering
@en
Single hemagglutinin mutations ...... za virus antigenic clustering.
@nl
type
label
Single hemagglutinin mutations ...... nza virus antigenic clustering
@en
Single hemagglutinin mutations ...... za virus antigenic clustering.
@nl
prefLabel
Single hemagglutinin mutations ...... nza virus antigenic clustering
@en
Single hemagglutinin mutations ...... za virus antigenic clustering.
@nl
P2093
P2860
P356
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P1476
Single hemagglutinin mutations ...... nza virus antigenic clustering
@en
P2093
Colleen B Sullivan
David L Bostick
Jaclyn L Myers
Kirsten Stgeorge
Sara B Griesemer
Scott E Hensley
P2860
P304
P356
10.1128/JVI.01023-13
P407
P577
2013-07-03T00:00:00Z