Inhibition of vesicular stomatitis virus infection by spike glycoprotein. Evidence for an intracellular, G protein-requiring step
about
Effects of chloroquine and cytochalasin B on the infection of cells by Sindbis virus and vesicular stomatitis virusReconstituted G protein-lipid vesicles from vesicular stomatitis virus and their inhibition of VSV infectionCell fusion by Semliki Forest, influenza, and vesicular stomatitis virusesSubstitutions in the receptor-binding domain of the avian sarcoma and leukosis virus envelope uncouple receptor-triggered structural rearrangements in the surface and transmembrane subunitsModel-based design of growth-attenuated virusesCharacterization of Ebola virus entry by using pseudotyped viruses: identification of receptor-deficient cell lines.Ross River virus glycoprotein-pseudotyped retroviruses and stable cell lines for their production.Structural changes in BHK cell plasma membrane caused by the binding of vesicular stomatitis virus.Antihistaminics, local anesthetics, and other amines as antiviral agentsKinetics of virus production from single cellsMonensin inhibits intracellular dissociation of asialoglycoproteins from their receptor.Monensin inhibits Semliki Forest virus penetration into culture cells.Enhancement of membrane-fusing activity of sendai virus by exposure of the virus to basic pH is correlated with a conformational change in the fusion protein.Phosphorylation of NS protein by vesicular stomatitis virus nucleocapsids: lack of effect during RNA synthesis and separation of kinase from L protein.Sequence alterations in temperature-sensitive M-protein mutants (complementation group III) of vesicular stomatitis virusPhenotypic revertants of temperature-sensitive M protein mutants of vesicular stomatitis virus: sequence analysis and functional characterization.Intracellular digestion of reovirus particles requires a low pH and is an essential step in the viral infectious cycle.Saturable binding sites for vesicular stomatitis virus on the surface of Vero cells.Host cell factors and functions involved in vesicular stomatitis virus entry.Characterization of Chikungunya pseudotyped viruses: Identification of refractory cell lines and demonstration of cellular tropism differences mediated by mutations in E1 glycoprotein.Quantitative profiling of innate immune activation by viral infection in single cells.Genetic inactivation of COPI coatomer separately inhibits vesicular stomatitis virus entry and gene expression.Intracellular distribution of input vesicular stomatitis virus proteins after uncoating.Localization of the membrane-associated region of vesicular stomatitis virus M protein at the N terminus, using the hydrophobic, photoreactive probe 125I-TID.The entry of enveloped viruses into cells by endocytosis.Cell surface influenza haemagglutinin can mediate infection by other animal virusesInfectious entry pathway of influenza virus in a canine kidney cell line.
P2860
Q27477806-621A4531-0938-46AB-A552-F5E8C50E39F0Q27482305-80D2666C-AC30-4943-B1BC-B920BB800648Q27482329-48E4C473-E63E-491B-8DA0-6D493D9B1221Q30453519-4A6950DC-BA51-4891-872A-5350918DA371Q33256104-258DC279-99D3-4C64-9CF9-BEF1045A3357Q33783176-C814B1DF-6D9A-4DF4-B24B-8A9803E51C07Q33865338-CE301DDC-C875-4997-89EF-4ADAF6E85C32Q35239462-8BA6A6BE-C9C6-4159-8A9E-1C32F116B3BEQ35379653-BF34AEF3-3B9D-443C-A73B-CB624EB444E8Q35713464-88E0E746-9A67-4CBB-8E55-9881649107FDQ36207248-823E57C5-EA7A-4ECB-8B53-FC84C12CB415Q36310349-894CE51E-E37B-48D7-A1F8-48F5D12EC751Q36313861-AEB2C461-589C-44F3-996A-1892D7D5AAADQ36809782-30FEDA46-5CE8-46BE-BB47-EAB4644CC693Q36853814-FF337F02-732A-4016-B872-2463C3DDACBDQ36884233-1A7BC034-75F3-4477-8C6E-9673A5938972Q36915422-06E61F4F-5AF7-4E19-9505-35E4C1B05FD3Q36923935-4520B6A5-10B7-42D3-AD5B-257D631486D5Q37033185-B1D9F919-25E9-4338-982C-1F7822E29104Q37383882-6E3112A1-9359-44D2-ADC6-91822D44EF2DQ38613112-B4CE6DC7-6B63-43F1-A093-3C568A2785B0Q39445347-E19CE31C-CB76-48C0-B30F-51100DB3F1DAQ40063108-3FAE6D9E-7A0C-4355-84FF-724299499B22Q40109946-22B83937-D943-4256-AB56-3014B546889CQ40174418-BD6696BB-6849-4329-9FC0-23102BFC7170Q41418746-C76D6483-4AFD-48BF-B2C8-50F747CD0204Q41439180-3EE810BE-0A2B-4122-8EFC-BF5E7EF92D9E
P2860
Inhibition of vesicular stomatitis virus infection by spike glycoprotein. Evidence for an intracellular, G protein-requiring step
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年論文
@yue
1980年論文
@zh-hant
1980年論文
@zh-hk
1980年論文
@zh-mo
1980年論文
@zh-tw
1980年论文
@wuu
1980年论文
@zh
1980年论文
@zh-cn
name
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@ast
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@en
type
label
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@ast
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@en
prefLabel
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@ast
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@en
P2860
P356
P1476
Inhibition of vesicular stomat ...... ular, G protein-requiring step
@en
P2093
P2860
P304
P356
10.1083/JCB.84.2.430
P407
P577
1980-02-01T00:00:00Z