Effect of addition of new oligosaccharide chains to the globular head of influenza A/H2N2 virus haemagglutinin on the intracellular transport and biological activities of the molecule.
about
Innate immunity to influenza virus: implications for future therapyStructural differences among hemagglutinins of influenza A virus subtypes are reflected in their antigenic architecture: analysis of H9 escape mutants.Vaccination of monoglycosylated hemagglutinin induces cross-strain protection against influenza virus infections.Playing hide and seek: how glycosylation of the influenza virus hemagglutinin can modulate the immune response to infection.Role of viral hemagglutinin glycosylation in anti-influenza activities of recombinant surfactant protein DAntibody pressure by a human monoclonal antibody targeting the 2009 pandemic H1N1 virus hemagglutinin drives the emergence of a virus with increased virulence in mice.Effect of priming with H1N1 influenza viruses of variable antigenic distances on challenge with 2009 pandemic H1N1 virus.N-linked glycosylation in the hemagglutinin of influenza A viruses.Genetic requirement for hemagglutinin glycosylation and its implications for influenza A H1N1 virus evolutionThe Length of N-Glycans of Recombinant H5N1 Hemagglutinin Influences the Oligomerization and Immunogenicity of Vaccine AntigenGlycosylation focuses sequence variation in the influenza A virus H1 hemagglutinin globular domain.Iminosugars: Promising therapeutics for influenza infection.Human infection with an avian H9N2 influenza A virus in Hong Kong in 2003.Impact of different influenza cultivation conditions on HA N-GlycosylationAddition of N-glycans in the stalk of the Newcastle disease virus HN protein blocks its interaction with the F protein and prevents fusion.Immune escape mutants of Highly Pathogenic Avian Influenza H5N1 selected using polyclonal sera: identification of key amino acids in the HA proteinFitness costs limit influenza A virus hemagglutinin glycosylation as an immune evasion strategy.Influenza B virus victoria group with a new glycosylation site was epidemic in Japan in the 2002-2003 season.Carbohydrate-binding agents: a potential future cornerstone for the chemotherapy of enveloped viruses?Effect of the addition of oligosaccharides on the biological activities and antigenicity of influenza A/H3N2 virus hemagglutinin.Molecular Dynamics Simulation of the Influenza A(H3N2) Hemagglutinin Trimer Reveals the Structural Basis for Adaptive Evolution of the Recent Epidemic Clade 3C.2a.Bitter-sweet symphony: glycan-lectin interactions in virus biology.Mutational Analysis of Lassa Virus Glycoprotein Highlights Regions Required for Alpha-Dystroglycan Utilization.A Perspective on the Structural and Functional Constraints for Immune Evasion: Insights from Influenza Virus.Adjuvant effects mediated by the carbohydrate recognition domain of Agrocybe aegerita lectin interacting with avian influenza H9N2 viral surface glycosylated proteins.Probing the spatial organization of measles virus fusion complexesThe Role and Molecular Mechanism of Action of Surfactant Protein D in Innate Host Defense Against Influenza A Virus.Pathobiology of virus glycosylation: implications to disease and prospects for treatment
P2860
Q27489605-1548C62D-93DF-4E18-936F-C4C2B9C39289Q30336387-7817428E-D497-49B4-89D4-9052BF16F84CQ30358388-CD0BA3BB-8C68-4DE0-A650-9F759677D7BBQ30360290-C6F6190D-01D8-4849-8326-9B5714D2D629Q30372223-038B4ED4-2F11-4B43-B474-ED1E284DB9D6Q30417383-586CA1CB-85C5-4642-97F0-010234FF00C9Q30417675-5871C512-B1C1-418C-B916-1DED965566FCQ30420126-180C2C33-B755-4F87-8B9B-089D96AEEB23Q30430014-6BDE9813-D374-4BC0-B794-9474D0662205Q33580863-FA4506EA-9D55-4F7B-87CB-D02D6BD5D3ABQ33760809-DE9CB4E7-EB76-46C9-90D4-FB61223871B8Q33795341-FF600D30-C631-4191-8C16-8CE95D62BFBAQ34143724-3E1A61F2-8ADF-4643-A043-9B564B850D4CQ34176750-3834EF2F-A747-4E0B-AB85-C4E2B6FF5FE6Q34301817-88B6EF1B-479E-4A72-A36C-F68D1FC4D484Q35105831-504332EA-76C8-4E5D-8E09-1131B29D23EAQ35650895-23BD8C95-32DF-44E1-82A8-B780D114FFD8Q35719252-4F15A18F-0DB0-43E1-9CB2-E0BFBC845002Q36758492-1D932428-183D-4862-A408-C590C7E934CFQ37492745-8E7C70B6-8F4F-4A2D-B5A2-112A9618FE90Q37742902-A66905F0-670B-49CB-ADE4-03A6B0F08A5AQ38159719-D6CFC07A-7463-4F0E-AA55-2154105CA2AEQ38662402-6EEB108A-A771-45D1-AF9A-DCA2E8B3742FQ39397313-6B21A98D-04AF-44E7-83B0-405886059612Q40083668-4AC12479-08F3-4524-B075-97C1DC2645ABQ41889152-229FB7D2-05E5-4349-8B99-9BB16BBEC722Q55397297-D4B79002-A5F0-4D26-8B54-3931132FC460Q57202110-79D343F9-AF38-4D0B-8523-696E8E441989
P2860
Effect of addition of new oligosaccharide chains to the globular head of influenza A/H2N2 virus haemagglutinin on the intracellular transport and biological activities of the molecule.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh
2002年學術文章
@zh-hant
name
Effect of addition of new olig ...... al activities of the molecule.
@en
type
label
Effect of addition of new olig ...... al activities of the molecule.
@en
prefLabel
Effect of addition of new olig ...... al activities of the molecule.
@en
P2093
P1476
Effect of addition of new olig ...... al activities of the molecule.
@en
P2093
Emi Tsuchiya
Kanetsu Sugawara
Kiyoto Nakamura
Seiji Hongo
Yasushi Muraki
Yoko Matsuzaki
Zhu-Nan Li
P304
P356
10.1099/0022-1317-83-5-1137
P407
P577
2002-05-01T00:00:00Z