Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
about
Low pH is required for avian sarcoma and leukosis virus Env-dependent viral penetration into the cytosol and not for viral uncoatingPathogenesis of human immunodeficiency virus infectionRole of spike protein conformational changes in fusion of Semliki Forest virusStructures and Mechanisms of Viral Membrane Fusion Proteins: Multiple Variations on a Common ThemeThe avian retrovirus avian sarcoma/leukosis virus subtype A reaches the lipid mixing stage of fusion at neutral pH.Sequential roles of receptor binding and low pH in forming prehairpin and hairpin conformations of a retroviral envelope glycoproteinActivation of a retroviral membrane fusion protein: soluble receptor-induced liposome binding of the ALSV envelope glycoprotein.The receptor for the subgroup A avian leukosis-sarcoma viruses binds to subgroup A but not to subgroup C envelope glycoprotein.Substitutions in the receptor-binding domain of the avian sarcoma and leukosis virus envelope uncouple receptor-triggered structural rearrangements in the surface and transmembrane subunitsMutational analysis of the candidate internal fusion peptide of the avian leukosis and sarcoma virus subgroup A envelope glycoprotein.Receptor-triggered membrane association of a model retroviral glycoprotein.Characterization of Ebola virus entry by using pseudotyped viruses: identification of receptor-deficient cell lines.Soluble receptor-induced retroviral infection of receptor-deficient cellsEndocytosis is a critical step in entry of subgroup B avian leukosis viruses.The avian coronavirus infectious bronchitis virus undergoes direct low-pH-dependent fusion activation during entry into host cellsA point mutation in the binding subunit of a retroviral envelope protein arrests virus entry at hemifusion.Murine leukemia virus R Peptide inhibits influenza virus hemagglutinin-induced membrane fusion.Temperature dependence of cell-cell fusion induced by the envelope glycoprotein of human immunodeficiency virus type 1.Role of basic residues in the subgroup-determining region of the subgroup A avian sarcoma and leukosis virus envelope in receptor binding and infection.Requirements for different components of the host cell cytoskeleton distinguish ecotropic murine leukemia virus entry via endocytosis from entry via surface fusionMechanisms by which ambient humidity may affect viruses in aerosols.Retrovirus entry by endocytosis and cathepsin proteases.Cell fusion induced by the murine leukemia virus envelope glycoproteinGenetic analysis of the Rous sarcoma virus subgroup D env gene: mammal tropism correlates with temperature sensitivity of gp85The requirements for viral entry differ from those for virally induced syncytium formation in NIH 3T3/DTras cells exposed to Moloney murine leukemia virus.Role for influenza virus envelope cholesterol in virus entry and infection.Influenza virus entry and infection require host cell N-linked glycoprotein.Receptor-mediated Moloney murine leukemia virus entry can occur independently of the clathrin-coated-pit-mediated endocytic pathway.A fifteen-amino-acid TVB peptide serves as a minimal soluble receptor for subgroup B avian leukosis and sarcoma viruses.Foamy virus envelope glycoprotein-mediated entry involves a pH-dependent fusion process.Analysis of the murine ecotropic leukemia virus receptor reveals a common biochemical determinant on diverse cell surface receptors that is essential to retrovirus entry.Residue Trp-48 of Tva is critical for viral entry but not for high-affinity binding to the SU glycoprotein of subgroup A avian leukosis and sarcoma viruses.A soluble form of a receptor for subgroup A avian leukosis and sarcoma viruses (ALSV-A) blocks infection and binds directly to ALSV-A.Generation of a water-soluble oligomeric ectodomain of the Rous sarcoma virus envelope glycoprotein.Isolation of a chicken gene that confers susceptibility to infection by subgroup A avian leukosis and sarcoma viruses.Duck hepatitis B virus infection of hepatocytes is not dependent on low pH.Characteristics of fusion of respiratory syncytial virus with HEp-2 cells as measured by R18 fluorescence dequenching assay.Low pH is required for avian sarcoma and leukosis virus Env-induced hemifusion and fusion pore formation but not for pore growth.
P2860
Q24562016-CAF59D8B-C969-4712-B2B5-E114B1160B43Q24634681-A17B25A4-986B-4A84-9447-36B6E4D7A3C9Q27486079-B20BF0BE-FDAD-46A7-932D-36E0E2C70FA9Q27487974-618D3E48-0E16-47FE-AA62-17FA96159D33Q30310511-CE86B8FC-A897-47B0-8B47-732652C15573Q30433973-D7B23958-C82E-483F-8C49-C0A878713B95Q30442135-EC2C8AC7-3098-482A-AF52-2D04C9A8C9A3Q30452108-0B784C8E-71BE-42CD-B0DF-E98A81E0E64BQ30453519-8DF88801-9DFB-4EFE-827E-EC07367877ECQ30453530-5C467070-56BB-49D9-90E6-11A8B8788471Q30454419-50B457A0-DC7B-4F0D-9C4B-7305394E6049Q33783176-73C667F5-B7DF-46D2-94E2-D60642BBB0BCQ33807796-5DB7FDFA-4006-4593-92F9-E3FC3BBDAF5DQ34351730-26B1E5BA-C191-4F4A-A0B0-639032667F1CQ34545634-66FA8774-365E-4B91-9940-B2A7C19EAE64Q34552206-861DBE83-BE53-471E-A89A-C6A5C59C9920Q34651205-2A89A134-6054-4324-B395-53BFBF4D048EQ35833860-D77B3B51-7D53-4755-8693-D0FB789E7730Q35882352-B329D525-51E1-4BE0-98E1-6A8305378372Q35894595-F4206664-6869-4332-9216-39662EB320E6Q36277229-0C0C6F8C-693D-4E3A-97A2-827CDD914540Q36469011-E8B5A98F-91F5-41FD-92E7-75805855F3F7Q36638864-1130D269-C1F4-4052-9CD9-D3A3EC0877D0Q36684509-760F5D55-CE48-4FCC-8343-F4123D60D304Q36687255-C7A2DEF1-9E2D-4C68-B6B9-3213C320A1D6Q37059788-388C9A42-C1D0-40E0-A4C9-3DD9B22E6181Q37710991-101A6016-91CF-4F5E-BCD5-1EC4F893A2DAQ38323885-6078E695-9B17-4C5C-BEE6-190EDA7EF90DQ39686823-9DB26B13-39D7-45C6-A3F4-2401B9B62409Q39741951-2B646466-C6C9-4251-AFC2-894C58DF07F7Q39873076-50DA01E6-E1F6-4D63-87B3-7D782E5174E2Q39876766-9EC67B0C-AEC9-4751-A1AF-72DB87207A32Q40040344-E8D34E28-2409-4B5A-842C-0ED7DFA5BADFQ40048173-00835D1B-52BE-4DED-97B2-8DFBC0E63815Q40061194-E4BE025B-CE5C-41D2-B257-473F3DAF934EQ40065293-1D15A880-2190-4642-AA18-C8D2B9E978A6Q40106129-39A73568-EEEA-41AF-A29C-1E456AB69492Q40579178-31ECA51D-C058-4BBC-965D-651FD1F512B0
P2860
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
description
1990 nî lūn-bûn
@nan
1990 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@ast
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@en
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@nl
type
label
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@ast
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@en
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@nl
prefLabel
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@ast
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@en
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@nl
P2093
P2860
P1433
P1476
Fusion of Rous sarcoma virus with host cells does not require exposure to low pH
@en
P2093
P2860
P304
P407
P577
1990-10-01T00:00:00Z