Suv39H1 and HP1gamma are responsible for chromatin-mediated HIV-1 transcriptional silencing and post-integration latency.
about
Epigenetic control of HIV-1 post integration latency: implications for therapyControlling HIV-1: Non-Coding RNA Gene Therapy Approaches to a Functional CurePost-transcriptional gene silencing, transcriptional gene silencing and human immunodeficiency virusHIV-1 functional cure: will the dream come true?HIV restriction in quiescent CD4⁺ T cellsTranscriptional control of HIV latency: cellular signaling pathways, epigenetics, happenstance and the hope for a cureEpigenetic regulation of HIV-1 latency by cytosine methylationGeminivirus-encoded TrAP suppressor inhibits the histone methyltransferase SUVH4/KYP to counter host defenseTemporal orchestration of repressive chromatin modifiers by circadian clock Period complexesEradication therapies for HIV Infection: time to begin again.A real-time view of the TAR:Tat:P-TEFb complex at HIV-1 transcription sitesYeast genetic analysis reveals the involvement of chromatin reassembly factors in repressing HIV-1 basal transcriptionDrosophila HP1c is regulated by an auto-regulatory feedback loop through its binding partner Woc.CpG methylation controls reactivation of HIV from latency.Interaction of HP1 and Brg1/Brm with the globular domain of histone H3 is required for HP1-mediated repressionNegative 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.The identification of unique serum proteins of HIV-1 latently infected long-term non-progressor patients.Molecular mechanisms of HIV-1 persistence in the monocyte-macrophage lineageInvolvement 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 assemblyCombination of biological screening in a cellular model of viral latency and virtual screening identifies novel compounds that reactivate HIV-1Citrullination of histone H3 interferes with HP1-mediated transcriptional repression.Selective histonedeacetylase inhibitor M344 intervenes in HIV-1 latency through increasing histone acetylation and activation of NF-kappaBThe molecular biology of HIV latency: breaking and restoring the Tat-dependent transcriptional circuit.Short 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.Epigenetic heterogeneity in HIV-1 latency establishment.Transcription of the herpes simplex virus latency-associated transcript promotes the formation of facultative heterochromatin on lytic promoters.HIV-1 transcriptional regulation in the central nervous system and implications for HIV cure researchViral-host interactions that control HIV-1 transcriptional elongationT-cell receptor signaling enhances transcriptional elongation from latent HIV proviruses by activating P-TEFb through an ERK-dependent pathway.Epigenetic silencing of HIV-1 by the histone H3 lysine 27 methyltransferase enhancer of Zeste 2.H3K9me3-binding proteins are dispensable for SETDB1/H3K9me3-dependent retroviral silencing.A role for heterochromatin protein 1γ at human telomeres.Eradicating HIV-1 infection: seeking to clear a persistent pathogen.LSD1 cooperates with CTIP2 to promote HIV-1 transcriptional silencing.H3K27 Demethylation at the Proviral Promoter Sensitizes Latent HIV to the Effects of Vorinostat in Ex Vivo Cultures of Resting CD4+ T Cells.Multivalency governs HP1α association dynamics with the silent chromatin state.1q12 chromosome translocations form aberrant heterochromatic foci associated with changes in nuclear architecture and gene expression in B cell lymphomaThe transcriptional cycle of HIV-1 in real-time and live cells.
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P2860
Suv39H1 and HP1gamma are responsible for chromatin-mediated HIV-1 transcriptional silencing and post-integration latency.
description
2007 nî lūn-bûn
@nan
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
2007年论文
@zh
2007年论文
@zh-cn
name
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@en
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@nl
type
label
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@en
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@nl
prefLabel
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@en
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@nl
P2093
P2860
P356
P1433
P1476
Suv39H1 and HP1gamma are respo ...... and post-integration latency.
@en
P2093
Alessandro Marcello
Anna Knezevich
Christine Chable-Bessia
Clement Mettling
Edouard Bertrand
Euguenia Basyuk
Isaure du Chéné
Jacques Reynes
Monsef Benkirane
Pierre Corbeau
P2860
P304
P356
10.1038/SJ.EMBOJ.7601517
P407
P577
2007-01-01T00:00:00Z