Reverse genetics provides direct evidence for a correlation of hemagglutinin cleavability and virulence of an avian influenza A virus.
about
Pathology, molecular biology, and pathogenesis of avian influenza A (H5N1) infection in humansPandemic Threat Posed by Avian Influenza A VirusesEmergence of influenza A virusesNew genotype of avian influenza H5N1 viruses isolated from tree sparrows in ChinaExisting antivirals are effective against influenza viruses with genes from the 1918 pandemic virus.An improved reverse genetics system for influenza A virus generation and its implications for vaccine productionSequence of the 1918 pandemic influenza virus nonstructural gene (NS) segment and characterization of recombinant viruses bearing the 1918 NS genesCell entry of enveloped virusesN-Linked Glycosylation Status of Classical Swine Fever Virus Strain Brescia E2 Glycoprotein Influences Virulence in SwineInfluenza and SARS-coronavirus activating proteases TMPRSS2 and HAT are expressed at multiple sites in human respiratory and gastrointestinal tractsPatterns of predicted T-cell epitopes associated with antigenic drift in influenza H3N2 hemagglutininGeneration of influenza A viruses entirely from cloned cDNAsAvian influenza pandemic preparedness: developing prepandemic and pandemic vaccines against a moving targetVaccines for pandemic influenzaHost range restriction and pathogenicity in the context of influenza pandemic.Mammalian models for the study of H7 virus pathogenesis and transmission.New pre-pandemic influenza vaccines: an egg- and adjuvant-independent human adenoviral vector strategy induces long-lasting protective immune responses in mice.Entry properties and entry inhibitors of a human H7N9 influenza virus.Progress in identifying virulence determinants of the 1918 H1N1 and the Southeast Asian H5N1 influenza A viruses.Evolutionary repercussions of avian culling on host resistance and influenza virulence.Current status of live attenuated influenza vaccine in the United States for seasonal and pandemic influenza.Detection and Characterization of Clade 1 Reassortant H5N1 Viruses Isolated from Human Cases in Vietnam during 2013The Neuraminidase Stalk Deletion Serves as Major Virulence Determinant of H5N1 Highly Pathogenic Avian Influenza Viruses in Chicken.Genetic Predisposition To Acquire a Polybasic Cleavage Site for Highly Pathogenic Avian Influenza Virus Hemagglutinin.Molecular pathogenesis of H5 highly pathogenic avian influenza: the role of the haemagglutinin cleavage site motifDesigning vaccines for pandemic influenza.Emergence of H5N1 avian influenza viruses with reduced sensitivity to neuraminidase inhibitors and novel reassortants in Lao People's Democratic Republic.PB2 residue 271 plays a key role in enhanced polymerase activity of influenza A viruses in mammalian host cells.Cross-reactive neutralizing antibodies directed against pandemic H1N1 2009 virus are protective in a highly sensitive DBA/2 mouse influenza model.Increased pathogenicity of a reassortant 2009 pandemic H1N1 influenza virus containing an H5N1 hemagglutininImplication of inflammatory macrophages, nuclear receptors, and interferon regulatory factors in increased virulence of pandemic 2009 H1N1 influenza A virus after host adaptation.Phylogenetic and pathogenic analyses of avian influenza A H5N1 viruses isolated from poultry in Vietnam.Experimental vaccines against potentially pandemic and highly pathogenic avian influenza virusesH5N1 pathogenesis studies in mammalian models.Highly pathogenic H5N1 influenza viruses carry virulence determinants beyond the polybasic hemagglutinin cleavage site.Detection of mammalian virulence determinants in highly pathogenic avian influenza H5N1 viruses: multivariate analysis of published data.Emergence and evolution of avian H5N2 influenza viruses in chickens in Taiwan.Isolation of highly pathogenic avian influenza H5N1 virus from Saker falcons (Falco cherrug) in the Middle EastInduction of antibodies and T cell responses by a recombinant influenza virus carrying an HIV-1 TatΔ51-59 protein in mice.The role of interferon in influenza virus tissue tropism.
P2860
Q22255463-81F78073-70A2-471E-8ADA-E8A09E6E3B0EQ22299330-BB1B7871-1F95-48DF-8732-7A318C0BC33FQ24522371-F2C3F063-58B1-423A-9C40-01E6621F7967Q24534704-9BE0D905-D6E9-4276-B721-0DF26FF11A48Q24536333-21E2B8FE-679B-4A67-89C7-0D160AFC3D85Q24537680-0577C85F-AD49-41B9-9FB7-192BAD4F742DQ24598177-E44B52EC-2072-4920-AEDB-990962C0FD75Q26863682-4806657C-AC06-46DE-AB7D-B594D5106865Q27478046-EFFF490C-851D-41E6-9F4A-16E75A108271Q28730201-B4E69CC2-C227-4DBE-A091-77E7C940A7D1Q28743498-A4692B0A-F9F0-422C-9255-86AC6119FB12Q29616768-7653B3CB-E495-4A09-A31D-36BFD2FA0AFAQ30227194-04853CFD-FA5F-4B3E-8EBD-CFD1A2A6EE0AQ30353073-93D440F6-0E11-42C5-BB93-3CB91CFE6CC2Q30354432-FD23FB7B-F1C9-4DA2-A938-F66B09143592Q30364385-0A03A93F-948E-43A4-8FB0-8CC05DF5EDC7Q30365380-92F0916E-A7A7-4092-8334-F8AC53A91FADQ30366812-37EB5EF7-BDF9-4E32-8CEE-25CA54AAFAF1Q30369896-6285F060-1366-4E64-BBD3-75F232EBFC2CQ30376931-8ED6D48F-BEE3-4BDC-B726-6C1BBF6DD7C8Q30377205-1E44B986-E293-4E10-81E6-A67B861C15F1Q30377552-AFC8FFDC-2D51-4729-BA7C-D567951FA7A9Q30378364-695F77CF-5682-4961-BCA5-4F05D40695ACQ30378750-220959B9-CFF9-4846-AAB7-B2821862DC2CQ30380274-AFEA3D63-17FB-497B-8C04-CA9448487C77Q30380889-A5B8221E-037E-427B-A8EE-2FD3597825B9Q30383545-B6882EA0-97AF-45DF-84E0-6BA37872C61DQ30385995-AD764C78-028F-4454-B995-8376CD599534Q30389407-8A765AE9-F73C-4626-81EB-0E11497F8426Q30407072-938E6274-58C0-4CD3-BE1F-2186C1544E37Q30416015-8375870B-8962-4A26-BC1B-8355BB3F2589Q30424591-C4D85FD4-3CC4-4B65-8422-543C9F0E7F3EQ30427591-4BFDB6BF-BA34-492D-AFCB-8FD4EC7B7D95Q30427806-E1FABE3C-F824-4E5E-B04A-0DAEC0960CC5Q30986632-95AB1F4A-E8B4-45AA-AA37-AD5A655F7089Q33485679-79656F08-76E9-4724-8B67-9F79D9D48ED3Q33602889-A84C1C00-23B2-4387-9DEE-924EC2D1F66DQ33635627-C4F29882-22E6-4540-8FD6-D77171B6A8E3Q33739129-6F5C5332-2715-4E6F-846B-6E12A3CAF500Q33785192-29005698-DE60-474F-882A-F90D18E2AA16
P2860
Reverse genetics provides direct evidence for a correlation of hemagglutinin cleavability and virulence of an avian influenza A virus.
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
1994年论文
@zh
1994年论文
@zh-cn
name
Reverse genetics provides dire ...... of an avian influenza A virus.
@ast
Reverse genetics provides dire ...... of an avian influenza A virus.
@en
type
label
Reverse genetics provides dire ...... of an avian influenza A virus.
@ast
Reverse genetics provides dire ...... of an avian influenza A virus.
@en
prefLabel
Reverse genetics provides dire ...... of an avian influenza A virus.
@ast
Reverse genetics provides dire ...... of an avian influenza A virus.
@en
P2860
P1433
P1476
Reverse genetics provides dire ...... of an avian influenza A virus.
@en
P2093
P2860
P304
P407
P577
1994-05-01T00:00:00Z