Sequence of human immunodeficiency virus type 1 (HIV-1) Gag localization and oligomerization monitored with live confocal imaging of a replication-competent, fluorescently tagged HIV-1.
about
In vivo imaging of virological synapses.EASY-HIT: HIV full-replication technology for broad discovery of multiple classes of HIV inhibitorsPurinergic Receptors: Key Mediators of HIV-1 Infection and InflammationNew insights into HTLV-1 particle structure, assembly, and Gag-Gag interactions in living cellsFusion of mature HIV-1 particles leads to complete release of a gag-GFP-based content marker and raises the intraviral pHDynamics of HIV-containing compartments in macrophages reveal sequestration of virions and transient surface connectionsNucleocapsid promotes localization of HIV-1 gag to uropods that participate in virological synapses between T cellsTime-Resolved Imaging of Single HIV-1 Uncoating In Vitro and in Living CellsMobilization of HIV spread by diaphanous 2 dependent filopodia in infected dendritic cellsWhere in the Cell Are You? Probing HIV-1 Host Interactions through Advanced Imaging TechniquesMucosal transmission of human immunodeficiency virusManipulating CD4+ T cells by optical tweezers for the initiation of cell-cell transfer of HIV-1.Predominant mode of human immunodeficiency virus transfer between T cells is mediated by sustained Env-dependent neutralization-resistant virological synapses.Quantitative 3D video microscopy of HIV transfer across T cell virological synapsesVirological synapses allow HIV-1 uptake and gene expression in renal tubular epithelial cellsMultiploid inheritance of HIV-1 during cell-to-cell infection.Cell-to-cell transfer of HIV-1 via virological synapses leads to endosomal virion maturation that activates viral membrane fusionMacrophage internal HIV-1 is protected from neutralizing antibodies.Neutralization resistance of virological synapse-mediated HIV-1 Infection is regulated by the gp41 cytoplasmic tailCritical role for the kinesin KIF3A in the HIV life cycle in primary human macrophagesA high throughput Cre-lox activated viral membrane fusion assay identifies pharmacological inhibitors of HIV entryOptical manipulation of a single human virus for study of viral-cell interactions.Analysis of the initiating events in HIV-1 particle assembly and genome packagingA SNAP-tagged derivative of HIV-1--a versatile tool to study virus-cell interactions.HIV-1 Vpr oligomerization but not that of Gag directs the interaction between Vpr and Gag.Quantitative Measurements of HIV-1 and Dextran Capture by Human Monocyte-derived Dendritic Cells (MDDCs).ROCK1 and LIM kinase modulate retrovirus particle release and cell-cell transmission eventsHIV-1 assembly differentially alters dynamics and partitioning of tetraspanins and raft componentsProtein transduction from retroviral Gag precursorsHuman immunodeficiency virus (HIV)-1 infects human hepatic stellate cells and promotes collagen I and monocyte chemoattractant protein-1 expression: implications for the pathogenesis of HIV/hepatitis C virus-induced liver fibrosis.Development of a robust cell-based high-throughput screening assay to identify targets of HIV-1 viral protein R dimerization.Imaging the biogenesis of individual HIV-1 virions in live cells.FLIM FRET technology for drug discovery: automated multiwell-plate high-content analysis, multiplexed readouts and application in situ.Quantitative fluorescence resonance energy transfer microscopy analysis of the human immunodeficiency virus type 1 Gag-Gag interaction: relative contributions of the CA and NC domains and membrane binding.HIV-1 entry and trans-infection of astrocytes involves CD81 vesicles.In vitro analysis of human immunodeficiency virus particle dissociation: gag proteolytic processing influences dissociation kinetics.Visualizing cell-to-cell transfer of HIV using fluorescent clones of HIV and live confocal microscopyIn COS cells Vpu can both stabilize tetherin expression and counteract its antiviral activity.HIV-1 Gag as an Antiviral Target: Development of Assembly and Maturation Inhibitors.Cannabinoid receptor 2-mediated attenuation of CXCR4-tropic HIV infection in primary CD4+ T cells
P2860
Q22251074-EC57D689-C423-486C-B8E5-52D603972C07Q24606095-76F06DC8-B303-4E60-BCB1-5E857C8A7FDBQ26774666-EA403D11-4332-4C2B-B3E1-4656DC58915DQ26851321-307886E4-5C7A-4865-A171-FEC9787EB178Q27309923-440599C0-A619-406A-8069-104912ECAB49Q27311049-491AE5EA-02F1-4D2B-9C8A-7BC00C4AC8D6Q27312753-2113A9B4-6D58-4632-928D-7DC71DBDA7F9Q27313409-01B8AB40-D4CB-4E3D-99FF-2F6D8D88F687Q27345158-7C3E2865-5E72-4314-9607-539EC5E409B9Q28077744-32ED8132-319C-4572-B563-9B51EC51C301Q30412036-C9C401BA-3720-432D-8062-DE12260103C0Q30475585-E705729E-8FC0-49B1-87C8-6DC3E0DB2A79Q30480959-A3F18AB8-698D-4262-93D4-66A528694591Q30490761-9633EEDE-BCEF-41EF-97FA-2EA46A7BFD78Q30498853-BEDE59D2-C607-47C6-B2EE-C0EE6F19D3CFQ30501773-BE2816AD-B451-458A-AF56-09BC3D285C2EQ30505286-21C7C3CB-E70F-43A4-A33F-AA9AFDD7ADB2Q30510067-9EBCE653-7674-4EE8-99D1-D920DFCAC090Q30524110-BE8CBBBB-244E-49C0-9EC2-BAFE772A12E8Q30527789-540B3EB2-C814-4C93-9DF2-ADB74D75BD57Q30810565-81DDBAF7-2482-46F1-AE6D-D27EFE4D8EBEQ30820492-A47B3509-DA40-4C95-9630-B331D3015231Q30992792-9C01EE25-1348-4D64-A051-DE9755999AE6Q31026719-A74F48BF-C634-42D5-8BDA-EBA73F4C1099Q33614489-4975202D-DF39-4D21-BE17-56DDDA1DE569Q33687888-9251FDFB-6ECB-4464-8648-8FC872192261Q33743785-A9DAF9C4-E2C9-4767-B2B1-201DEF32CC50Q33814340-78B7FF0A-F370-44B0-B556-0D86552EE213Q33842785-5C9ADFBD-DCCF-44E7-A12E-312F5CE6203CQ34049020-772C8159-1EB1-4DAC-A91B-DDCFF1D9FE3AQ34758051-059D5E51-BB78-4B83-ACED-F336EAC453D4Q34781463-E18ADFCA-3171-4F27-AD55-CFA7829F4349Q34886345-EC038310-D68A-437C-BFAC-5EB61F0B1247Q34978433-F939BA2E-EEC5-4577-96EA-89B6D443C5FBQ35109157-E76C076C-5279-4342-B850-02CEF4D00F48Q35184863-ACC5E7A3-1E36-4EC6-AA12-3BCE44FF2E84Q35260776-17510505-98B2-42AB-B294-0F7E59D649AFQ35382088-6257356B-EEF6-4DA5-801F-879FB60A1042Q35761626-135727E7-8C9F-45F0-AA76-8666A9FDEFEAQ35842577-70ABD50E-80F7-47C2-B960-2F58391BB71A
P2860
Sequence of human immunodeficiency virus type 1 (HIV-1) Gag localization and oligomerization monitored with live confocal imaging of a replication-competent, fluorescently tagged HIV-1.
description
2007 nî lūn-bûn
@nan
2007 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@ast
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@en
type
label
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@ast
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@en
prefLabel
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@ast
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@en
P2093
P2860
P356
P1433
P1476
Sequence of human immunodefici ...... t, fluorescently tagged HIV-1.
@en
P2093
Armando Del Portillo
Ronald E Gordon
Wolfgang Hübner
P2860
P304
12596-12607
P356
10.1128/JVI.01088-07
P577
2007-08-29T00:00:00Z