CpG methylation controls reactivation of HIV from latency.
about
Epigenetic control of HIV-1 post integration latency: implications for therapyImpact of Chromatin on HIV ReplicationRedefining the viral reservoirs that prevent HIV-1 eradicationHIV-1 functional cure: will the dream come true?Transcriptional control of HIV latency: cellular signaling pathways, epigenetics, happenstance and the hope for a cureThe immunological synapse: the gateway to the HIV reservoirRecent developments in human immunodeficiency virus-1 latency researchPhosphorylation of CDK9 at Ser175 enhances HIV transcription and is a marker of activated P-TEFb in CD4(+) T lymphocytesEpigenetic alterations in the brain associated with HIV-1 infection and methamphetamine dependenceNovel genetic locus implicated for HIV-1 acquisition with putative regulatory links to HIV replication and infectivity: a genome-wide association studyTherapy for persistent HIV.Eradication therapies for HIV Infection: time to begin again.Infection with influenza A viruses causes changes in promoter DNA methylation of inflammatory genes.Negative elongation factor is required for the maintenance of proviral latency but does not induce promoter-proximal pausing of RNA polymerase II on the HIV long terminal repeat.Epigenetic analysis of HIV-1 proviral genomes from infected individuals: predominance of unmethylated CpG's.Mechanisms of HIV Transcriptional Regulation by Drugs of Abuse.Combinatorial latency reactivation for HIV-1 subtypes and variantsInvolvement of histone H3 lysine 9 (H3K9) methyltransferase G9a in the maintenance of HIV-1 latency and its reactivation by BIX01294.The Human Immunodeficiency Virus 1 ASP RNA promotes viral latency by recruiting the Polycomb Repressor Complex 2 and promoting nucleosome assemblyActivation of HIV transcription by the viral Tat protein requires a demethylation step mediated by lysine-specific demethylase 1 (LSD1/KDM1).Combination of biological screening in a cellular model of viral latency and virtual screening identifies novel compounds that reactivate HIV-1A flexible model of HIV-1 latency permitting evaluation of many primary CD4 T-cell reservoirs.Cell line-dependent variability in HIV activation employing DNMT inhibitorsTranscriptional provirus silencing as a crosstalk of de novo DNA methylation and epigenomic features at the integration siteEctopic DNMT3L triggers assembly of a repressive complex for retroviral silencing in somatic cells.Snapshots: chromatin control of viral infection.The molecular biology of HIV latency: breaking and restoring the Tat-dependent transcriptional circuit.(Some) cellular mechanisms influencing the transcription of human endogenous retrovirus, HERV-Fc1.Relationship between LTR methylation and gag expression of HIV-1 in human spermatozoa and sperm-derived embryosComparative analysis of measures of viral reservoirs in HIV-1 eradication studiesTowards an HIV cure: a global scientific strategyShort chain fatty acids potently induce latent HIV-1 in T-cells by activating P-TEFb and multiple histone modifications.Interaction between endogenous bacterial flora and latent HIV infection.Histone deacetylase inhibitors and HIV latency.Epigenetic heterogeneity in HIV-1 latency establishment.Role of DNA methylation in expression and transmission of porcine endogenous retroviruses.Viral-host interactions that control HIV-1 transcriptional elongationGenome-wide DNA methylation patterns in CD4+ T cells from patients with systemic lupus erythematosus.T-cell receptor signaling enhances transcriptional elongation from latent HIV proviruses by activating P-TEFb through an ERK-dependent pathway.Screening for noise in gene expression identifies drug synergies
P2860
Q26781191-D60E72D0-4BA3-4898-BCE2-1D2EAC9C1A36Q26782046-20CB6A0B-7C12-44B5-90C5-1745B61708B8Q26827255-96DAB2C5-CC32-4353-8A20-F94A142342E9Q26865803-03E9DF3A-3337-4D4C-AF9F-4C4E2B3F204CQ26999858-71FBE334-508F-4E97-9F1E-54C1A1E0B283Q27002959-E3BBE658-39E7-4927-B131-49F00F7C785EQ27013114-D7D7FE5C-2529-4BC9-AF3C-79B8B7EC770DQ28487524-F4BD829D-8023-4CDC-BED4-D7D724753C2EQ28541100-EFEDD0B3-BB6E-40BB-8621-8AC3B8A32838Q28544526-78E9FCCF-2EE4-4253-83A8-0327E1D4EC97Q30386370-FBDAD03C-BC78-4955-AA18-E459E4FF4DD1Q30399588-5D5604AF-1987-49E3-95A0-F02D1BA5586BQ30431815-A1D31AE3-9B46-4BEC-9CC5-A52D8DEA0667Q33602605-423B7DA3-7559-47BF-A189-F62964299A25Q33768729-BA0EB214-5BD3-43B2-BBCD-A3008F3B2D6BQ33815611-700B9E5B-0E5E-4B10-AE77-BB9974489BC5Q33877492-C299CDAC-73AC-4464-9328-C447FD963731Q33883423-572AE046-2B19-4CB3-BF87-299D734F2D00Q33893725-19F0BC6A-02B4-4B2B-BBEC-2E7B46B7AC2EQ34005293-B6717D86-1D2F-4D0B-BA2D-168C35579340Q34132738-6BFDBD25-C0F1-4737-8BC5-1E477E80A3B7Q34145909-4B2F6506-D798-4BC9-8561-58BBF545820DQ34243934-448F17FA-1431-4EF3-BE70-FD8A1806E6C7Q34257867-2D2BC2C3-128D-453C-91C3-D00D6DCF4717Q34262103-D1E15B9A-5411-4D76-82E6-62BB718BD71FQ34315920-A211DDE8-219B-4C23-A8A9-7D445379AAF9Q34544409-1AF5E869-8065-4C1E-9FFA-E69A9775E818Q34575279-79A11CD8-338A-4D86-8847-A82AAB63EADFQ34575686-7FCC6E34-930A-4FEC-BC70-C2397A5BC732Q34607763-A55C8BFE-6C23-4F2C-86CA-13813B7C485EQ34640562-C113318E-1502-472B-A6CF-F7B0548304C9Q34656952-058A5537-2297-448D-8781-8F868C4AABE4Q34686713-76B4840D-6530-4D5B-8EA9-080878E8FC9CQ34816844-CB22BEB7-17C9-46AF-9FD2-4B4A9067DCEFQ34877762-08880139-56D5-4E6B-9422-AD0BE22B8C15Q34976026-219ADE50-900B-4921-A889-E0BF758C0BF6Q35026881-D249A413-ECA6-47F4-BC82-CFD20FB88B05Q35064724-DC7C0143-D2C4-4732-8FE4-8101BE8351D6Q35113716-87E5FB36-16C6-45FE-8CEB-340552FEC60AQ35182580-79433271-6ABC-43DA-820F-2BE67F89800A
P2860
CpG methylation controls reactivation of HIV from latency.
description
2009 nî lūn-bûn
@nan
2009 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
CpG methylation controls reactivation of HIV from latency.
@ast
CpG methylation controls reactivation of HIV from latency.
@en
type
label
CpG methylation controls reactivation of HIV from latency.
@ast
CpG methylation controls reactivation of HIV from latency.
@en
prefLabel
CpG methylation controls reactivation of HIV from latency.
@ast
CpG methylation controls reactivation of HIV from latency.
@en
P2093
P2860
P50
P1433
P1476
CpG methylation controls reactivation of HIV from latency.
@en
P2093
Allan Guiguen
Daniel Olive
Françoise Gondois-Rey
Jana Blazkova
Jiri Hejnar
Katerina Trejbalova
Patrick Philibert
Philippe Halfon
P2860
P304
P356
10.1371/JOURNAL.PPAT.1000554
P577
2009-08-21T00:00:00Z