about
Evolutionary dynamics of highly pathogenic avian influenza A/H5N1 HA clades and vaccine implementation in VietnamA Unique and Conserved Neutralization Epitope in H5N1 Influenza Viruses Identified by an Antibody against the A/Goose/Guangdong/1/96 HemagglutininHemagglutinin Receptor Specificity and Structural Analyses of Respiratory Droplet-Transmissible H5N1 VirusesPreferential Recognition of Avian-Like Receptors in Human Influenza A H7N9 VirusesThe neoglycolipid (NGL)-based oligosaccharide microarray system poised to decipher the meta-glycomeDoes Influenza Pandemic Preparedness and Mitigation require Gain-Of-Function Research?Viral factors in influenza pandemic risk assessment.Host genetic determinants of influenza pathogenicity.A human-infecting H10N8 influenza virus retains a strong preference for avian-type receptors.Role of Substitutions in the Hemagglutinin in the Emergence of the 1968 Pandemic Influenza Virus.H1N1 Swine Influenza Viruses Differ from Avian Precursors by a Higher pH Optimum of Membrane Fusion.Recent H3N2 Viruses Have Evolved Specificity for Extended, Branched Human-type Receptors, Conferring Potential for Increased Avidity.The 150-Loop Restricts the Host Specificity of Human H10N8 Influenza Virus.Three mutations switch H7N9 influenza to human-type receptor specificity.P2Y6 receptors are involved in mediating the effect of inactivated avian influenza virus H5N1 on IL-6 & CXCL8 mRNA expression in respiratory epithelium.Role of receptor binding specificity in influenza A virus transmission and pathogenesis.Isolation of novel sequences targeting highly variable viral protein hemagglutinin.A Miniaturized Glycan Microarray Assay for Assessing Avidity and Specificity of Influenza A Virus Hemagglutinins.Amino acid residues at positions 222 and 227 of the hemagglutinin together with the neuraminidase determine binding of H5 avian influenza viruses to sialyl Lewis X.Highly Pathogenic Influenza A(H5Nx) Viruses with Altered H5 Receptor-Binding Specificity.Label-Free Detection of Glycan-Protein Interactions for Array Development by Surface-Enhanced Raman Spectroscopy (SERS).Metabolic Glycoengineering with N-Acyl Side Chain Modified Mannosamines.A single mutation in Taiwanese H6N1 influenza hemagglutinin switches binding to human-type receptors.Genetic and antigenic characterization of H5 and H7 influenza viruses isolated from migratory water birds in Hokkaido, Japan and Mongolia from 2010 to 2014.Expected Effect of Deleterious Mutations on Within-Host Adaptation of Pathogens.Determinant of receptor-preference switch in influenza hemagglutinin.Enhanced Human-Type Receptor Binding by Ferret-Transmissible H5N1 with a K193T Mutation.Diversity of Influenza A(H5N1) Viruses in Infected Humans, Northern Vietnam, 2004-2010.
P2860
Q26852835-FD41C553-F807-48AD-A7D5-9CFE065655CEQ27679987-53DD7ED4-1834-42AF-BA8F-58521D8B36EAQ27680490-59F360AF-23F8-4402-B63D-E4779E5250E6Q27680780-38C99A2D-4326-4DFC-BBCE-753628517F0FQ28655480-D12D6923-1C76-4BC2-A17A-D7C0B4E0D3F1Q30148653-DB9CFA4B-CB58-4C50-B864-EC70BE601A9DQ30275435-11887F13-CF60-4D23-9CC2-3F9368E53860Q30352727-BC595312-65D2-4A95-AB4F-7DEB95F0EFCBQ30372645-117138C9-41A9-4F07-9954-7049EEA048DAQ30379214-100FB72B-102C-47A2-9431-B3DA95379285Q30381890-A350E10F-99C9-48D8-A97D-A58047549589Q30396804-BDB1377F-5DB0-4CA1-BFBD-1D98CEEC2F26Q30401009-798C1B1B-8120-4586-966C-C9B1AEBBD6A6Q30403091-B0F5D79E-03E6-469C-B495-D86EDCF8251EQ33663579-6869F6AB-DE68-46A8-AE8A-45E8DF255771Q34324562-75EC4B1B-AB5B-47F7-8F49-25F4B2BB2F5BQ35685009-DE8902E0-43F0-4418-9E0E-A8CE770FA0C2Q36047960-5FA4CE33-E1D1-4C08-8372-BACF8D9BE509Q37270231-E465EA28-E382-4C91-9504-610310310BA4Q37664374-756F75D5-B474-4FD4-8E89-52DF3332AF52Q38292044-719417BC-F70E-4ABA-8E06-C87DBC8C89F5Q38902441-8D4059E7-703B-421C-913F-6F4569B1343AQ40128432-0689A3C8-F565-4894-8424-E852F014CD0FQ40877164-52E64DD6-C2C7-49BB-8047-5AAD3DA8DC7DQ41140967-A1A9C8E2-704F-4E6F-8721-8B0C150EE61AQ50063303-DB26EB24-904B-4712-A937-90BF1E8A48CCQ52371416-2A370DD9-EC5B-44B6-B36C-C2C7E59A72D7Q55555164-6DE20691-EE0C-4776-B8A1-2212988B0142
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
H5N1 receptor specificity as a factor in pandemic risk
@ast
H5N1 receptor specificity as a factor in pandemic risk
@en
type
label
H5N1 receptor specificity as a factor in pandemic risk
@ast
H5N1 receptor specificity as a factor in pandemic risk
@en
prefLabel
H5N1 receptor specificity as a factor in pandemic risk
@ast
H5N1 receptor specificity as a factor in pandemic risk
@en
P2860
P1433
P1476
H5N1 receptor specificity as a factor in pandemic risk
@en
P2093
James C Paulson
Robert P de Vries
P2860
P304
P356
10.1016/J.VIRUSRES.2013.02.015
P577
2013-04-22T00:00:00Z