Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
about
HIV envelope induces a cascade of cell signals in non-proliferating target cells that favor virus replicationContribution of immune activation to the pathogenesis and transmission of human immunodeficiency virus type 1 infectionThe cytoplasmic domain of the integrin alpha9 subunit requires the adaptor protein paxillin to inhibit cell spreading but promotes cell migration in a paxillin-independent mannerDual role of prostratin in inhibition of infection and reactivation of human immunodeficiency virus from latency in primary blood lymphocytes and lymphoid tissueTargeted transcriptional repression of Gfi1 by GFI1 and GFI1B in lymphoid cellsDendritic Cells in HIV-1 and HCV Infection: Can They Help Win the Battle?Crystal Structure of NFAT Bound to the HIV-1 LTR Tandem κB Enhancer ElementStructural Basis of HIV-1 Activation by NF-κB—A Higher-Order Complex of p50:RelA Bound to the HIV-1 LTROne protein to rule them all: modulation of cell surface receptors and molecules by HIV Nef.A symmetric region of the HIV-1 integrase dimerization interface is essential for viral replicationHIV and Tuberculosis: a Deadly Human SyndemicNFAT5 regulates HIV-1 in primary monocytes via a highly conserved long terminal repeat siteCpG methylation controls reactivation of HIV from latency.Regulation of HIV-1 transcription in cells of the monocyte-macrophage lineage.HIV persistence: chemokines and their signalling pathways.Endothelial cells promote human immunodeficiency virus replication in nondividing memory T cells via Nef-, Vpr-, and T-cell receptor-dependent activation of NFAT.IL-7 differentially regulates cell cycle progression and HIV-1-based vector infection in neonatal and adult CD4+ T cells.Ras-induced colony formation and anchorage-independent growth inhibited by elevated expression of Puralpha in NIH3T3 cells.Reciprocal modulatory interaction between human immunodeficiency virus type 1 Tat and transcription factor NFAT1.Evaluating group I intron catalytic efficiency in mammalian cells.Critical role of human T-lymphotropic virus type 1 accessory proteins in viral replication and pathogenesisTranscriptional and posttranscriptional regulation of HIV-1 gene expressionHuman immunodeficiency virus type 1 can establish latent infection in resting CD4+ T cells in the absence of activating stimuli.Replication competent virus as an important source of bias in HIV latency models utilizing single round viral constructs.HIV-1 Nef: a multifaceted modulator of T cell receptor signaling.Activation of nuclear factor of activated T cells by human T-lymphotropic virus type 1 accessory protein p12(I).Modalities of interleukin-7-induced human immunodeficiency virus permissiveness in quiescent T lymphocytesHuman T-cell lymphotropic virus type 1 p12(I) expression increases cytoplasmic calcium to enhance the activation of nuclear factor of activated T cells.COP9 signalosome component JAB1/CSN5 is necessary for T cell signaling through LFA-1 and HIV-1 replication.The molecular biology of HIV latency: breaking and restoring the Tat-dependent transcriptional circuit.Viruses as gene delivery vectors: application to gene function, target validation, and assay development.Epigenetic heterogeneity in HIV-1 latency establishment.R5 and X4 HIV envelopes induce distinct gene expression profiles in primary peripheral blood mononuclear cells.Snapin, positive regulator of stimulation- induced Ca²⁺ release through RyR, is necessary for HIV-1 replication in T cells.Calcium/calcineurin synergizes with prostratin to promote NF-κB dependent activation of latent HIVCCAAT enhancer binding protein and nuclear factor of activated T cells regulate HIV-1 LTR via a novel conserved downstream site in cells of the monocyte-macrophage lineageThe lncRNA NRON modulates HIV-1 replication in a NFAT-dependent manner and is differentially regulated by early and late viral proteins.Modulation of NFAT-dependent gene expression by the RhoA signaling pathway in T cellsModulation of HIV-1 replication by a novel RhoA effector activity.Reciprocal regulation of the nuclear factor of activated T cells and HIV-1.
P2860
Q24534883-1159645D-BC4F-4701-8100-6EF3483F9D0AQ24550678-607DFEBE-6336-46B1-880B-1EC603E33AF7Q24555127-F44CEDE1-79CB-42B2-B71F-F774ED6B2E85Q24562082-5405EC07-E3D3-44C8-A886-0CFC9E623716Q24562770-ECE3D61F-F316-40A0-9558-1065AEE007B1Q27010312-F1904855-CC3D-40FE-9F47-D1F29A1450BCQ27650549-D8C3CF38-78D6-4113-8128-E0E0F69A7556Q27657031-877FCAFE-56DB-43A5-8038-AE3BF0B4A7E8Q27691346-22BC279A-CA2E-4DF8-98D8-F63AFECD97A0Q28483813-6F0B4514-B58D-4A80-A20F-47D13DD55096Q30052157-EB2AE59C-B38E-46AF-836E-9296423D038CQ33266806-7BFE3BC0-4A93-4517-A8B3-F3FE9B51CD59Q33495565-886AECD6-9F44-4166-8299-ADD81B6C4E83Q33587139-CE1B1ED8-74D5-411B-8F01-4C1428195EEEQ33774665-75524917-ED60-4CCA-B23F-7DB8BE8B111DQ33930388-FE2D7ECA-83AF-4E67-A321-D3164789D23CQ33930706-C53BF6AD-C8D3-49E8-B91C-FB11811C6852Q33944854-ADBC6F15-255C-4C9F-BC32-A8A652C5424CQ33958031-56EC2AB3-01D1-4ECB-A2A7-A369EB3FF2FEQ33959590-02A16839-00F3-4DBE-80E5-5217E669D0D4Q33969941-A885FD35-22E8-4EA3-ADC3-D5B60CE2F927Q34030804-29319F4F-861F-4A67-8B7D-D6596E453D6EQ34124009-985D29B0-026E-4B5A-B9FE-8BC12FA70D12Q34143903-306BB6BE-127B-40FD-A0A1-6F037C37F95CQ34316824-8917D49A-91E5-4DF8-A933-3140A50E2E02Q34334640-11321CD9-7509-400E-8EED-FE1D26B86632Q34344987-CB6934A8-24FD-4611-A003-76CF49171FEDQ34348086-EE0D2081-807D-44D3-A6C1-E25A45F53701Q34388158-191F2C79-F431-469A-AF96-E613A9C8B95DQ34544409-EBDEA91F-619C-469F-8311-AE3D7F3B2F9DQ34756836-DD97A660-91FA-44C0-888B-AC41C6A3BF0DQ34877762-BCA0FD0F-0D19-4C4E-8018-07E93D20E1C6Q34944066-EC13A417-128E-4CCB-B82E-E19B90DC3F5CQ35018249-4667EE93-E6FE-4382-99D7-C71C54F49AA4Q35035572-F6A8609A-35EE-44EE-8BFB-1A32A456910CQ35097318-14A2B6C3-BFDD-4791-843E-4129777A600FQ35134014-E051123C-517C-48CA-A35F-551A725E3F63Q35565668-C114E256-6185-4703-AFB6-98145D1E18E2Q35619856-636BDEDB-AC85-4ABC-A43B-82BDCDF58497Q35648552-6A774102-5B66-48BF-8E16-36495B58E424
P2860
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
description
1998 nî lūn-bûn
@nan
1998 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@ast
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@en
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@nl
type
label
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@ast
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@en
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@nl
prefLabel
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@ast
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@en
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@nl
P2093
P3181
P1433
P1476
Host control of HIV-1 parasitism in T cells by the nuclear factor of activated T cells
@en
P2093
H Kaneshima
S Kinoshita
P304
P3181
P356
10.1016/S0092-8674(00)81630-X
P407
P577
1998-11-25T00:00:00Z