Transcriptional repression by the insulator protein CTCF involves histone deacetylases
about
Context differences reveal insulator and activator functions of a Su(Hw) binding regionClass II histone deacetylases are directly recruited by BCL6 transcriptional repressorVigilin interacts with CCCTC-binding factor (CTCF) and is involved in CTCF-dependent regulation of the imprinted genes Igf2 and H19Architectural roles of multiple chromatin insulators at the human apolipoprotein gene clusterA chromatin insulator-like element in the herpes simplex virus type 1 latency-associated transcript region binds CCCTC-binding factor and displays enhancer-blocking and silencing activities.Blockade of EphA receptor tyrosine kinase activation inhibits vascular endothelial cell growth factor-induced angiogenesis.CTCF binds the proximal exonic region of hTERT and inhibits its transcription.CTCF: the protein, the binding partners, the binding sites and their chromatin loopsThe minimal repression domain of MBD2b overlaps with the methyl-CpG-binding domain and binds directly to Sin3AThe many roles of the transcriptional regulator CTCFRelationship between DNA methylation, histone H4 acetylation and gene expression in the mouse imprinted Igf2-H19 domain.CTCF interacts with and recruits the largest subunit of RNA polymerase II to CTCF target sites genome-wideA histone map of human chromosome 20q13.12.Modular insulators: genome wide search for composite CTCF/thyroid hormone receptor binding sitesModulation of chromatin boundary activities by nucleosome-remodeling activities in Drosophila melanogaster.Differential effect of zinc finger deletions on the binding of CTCF to the promoter of the amyloid precursor protein gene.Transforming growth factor beta promotes complexes between Smad proteins and the CCCTC-binding factor on the H19 imprinting control region chromatin.Functional phosphorylation sites in the C-terminal region of the multivalent multifunctional transcriptional factor CTCFPosition-effect protection and enhancer blocking by the chicken beta-globin insulator are separable activities.CTCF is conserved from Drosophila to humans and confers enhancer blocking of the Fab-8 insulatorRegulation of the human catalytic subunit of telomerase (hTERT).Maximum growth and survival of estrogen receptor-alpha positive breast cancer cells requires the Sin3A transcriptional repressor.Avian erythroleukemia: a model for corepressor function in cancer.A microRNA network regulates expression and biosynthesis of wild-type and DeltaF508 mutant cystic fibrosis transmembrane conductance regulator.CTCF regulates the local epigenetic state of ribosomal DNA repeats.BORIS/CTCFL-mediated transcriptional regulation of the hTERT telomerase gene in testicular and ovarian tumor cellsDNA methylation, imprinting and cancer.Thyroid hormone-regulated enhancer blocking: cooperation of CTCF and thyroid hormone receptorPAX5 activates the transcription of the human telomerase reverse transcriptase gene in B cells.Chromatin insulators: a role in nuclear organization and gene expression.Expression of the epigenetic factor BORIS (CTCFL) in the human genomeDual role of DNA methylation inside and outside of CTCF-binding regions in the transcriptional regulation of the telomerase hTERT gene.Higher-order chromatin regulation and differential gene expression in the human tumor necrosis factor/lymphotoxin locus in hepatocellular carcinoma cellsChromatin fine structure of the c-MYC insulator element/DNase I-hypersensitive site I is not preserved during mitosis.CTCF occupation of the herpes simplex virus 1 genome is disrupted at early times postreactivation in a transcription-dependent manner.We gather together: insulators and genome organization.The critical role of human transcriptional repressor CTCF mRNA up-regulation in the induction of anti-HIV-1 responses in CD4(+) T cellsCoordinate regulation of the gel-forming mucin genes at chromosome 11p15.5.The CSB chromatin remodeler and CTCF architectural protein cooperate in response to oxidative stress.Long Non-coding RNA H19 Inhibits Adipocyte Differentiation of Bone Marrow Mesenchymal Stem Cells through Epigenetic Modulation of Histone Deacetylases.
P2860
Q21145036-1D7CD564-DDCD-4195-B8F6-42DA008E0F2EQ24293128-EB2D87E4-C5AF-4EE5-BC35-5D1244EE57E1Q24294496-4A4B21FB-148A-4EEF-8E64-09A56C2CF9FFQ24309356-93CEF8DD-045D-4BD4-BFFC-195481ADDF19Q24544258-941881F9-DA73-479D-A352-71D369B3C67FQ24798922-E06915C4-D2CE-4BE4-897B-F3DD4021A02CQ24814974-348C9AD6-6BE1-47F1-98BE-C2F556E5BE0EQ27028081-32DE8B11-7EFC-43B4-92AC-46A74AF001EEQ28144226-22EBD957-7362-4D29-B0A6-704E2E7C934AQ28191705-A1E153C1-4865-447E-88BE-12719DC61BA7Q31864191-B7E1B2B9-C93A-4C41-AABB-B7B2C7BAA8D9Q33268598-7DD62E4A-CE4C-45B6-AC9A-DD9463CD8721Q33410816-01D1A8D3-61BB-48DD-A433-9242EFABBC58Q33559752-6877B9CF-5236-4F0B-B561-F53DF3FDE6EFQ33627248-814A610A-D019-4CC9-990A-33C5B083575EQ33786669-EDDCB614-C144-40C8-886A-C9E0FFDC32FCQ33924215-BDB02215-0EE4-4E27-9D40-4DA09D63DE58Q33967749-41C2071F-61C8-4431-8A0B-7FC89FAED3BBQ34067751-990F0618-3F95-4C61-8759-9640D2972F0DQ34166628-66095A47-089E-4370-B633-4E8B1CCEA0DDQ34180715-BD515CCF-B451-4DC8-B31C-13BCC5DC8BE3Q34208585-F12200FF-900F-4BAF-A51C-23C2A2F358B6Q34290292-932D5202-6B73-4E59-9314-534C991FFE83Q34291809-8831DF15-DC02-42DC-8207-6C974DF0864FQ34360792-AFB8CC24-812E-4079-85FC-0C2377900852Q34559617-EDE8C2DB-50E6-465E-8076-3D677736DBC0Q34564994-4368BE10-C809-4C67-93E3-0276E802948EQ34910599-302DD8D6-4D56-4DB6-A434-0584F7668872Q35006755-80A10D18-CBE5-42C9-9C46-51C7CCE41130Q35218091-21081D23-627A-41A2-B5C2-C0A2A5D70389Q35690493-7819BD2B-1926-41BC-8FC6-D217EBD15D6FQ35749693-EAECB833-240A-4813-BF99-BB71CB24A05EQ35867922-54FFF0E8-F4C8-48E2-8C74-53B027D71BF6Q36023840-43E18C76-AEF6-412E-A469-0B9769F34C5FQ36397366-8E8ACDD9-9CAB-4808-B48F-59A5D03194BCQ36407771-DED3FC75-8E90-46D3-8AD4-3C626E8CAF04Q36594233-39F114CD-7139-4DAB-94DD-80EDF0DDC211Q36647414-3BB80727-A5C6-4C30-AE32-AD7BB3779E98Q36701021-22C98257-F8E9-4DF3-997B-05D29333AB60Q37044947-B1359B21-8F7B-4B6B-A112-C2B8CFA5CF35
P2860
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
description
2000 nî lūn-bûn
@nan
2000 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@ast
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en-gb
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@nl
type
label
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@ast
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en-gb
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@nl
prefLabel
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@ast
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en-gb
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@nl
P2093
P2860
P3181
P356
P1476
Transcriptional repression by the insulator protein CTCF involves histone deacetylases
@en
P2093
H Schultheiss
R Renkawitz
T Kouzarides
P2860
P304
P3181
P356
10.1093/NAR/28.8.1707
P407
P577
2000-04-15T00:00:00Z