about
P688
Ski is a component of the histone deacetylase complex required for transcriptional repression by Mad and thyroid hormone receptorThe Ski protein family is required for MeCP2-mediated transcriptional repressionThe nuclear receptor corepressor deacetylase activating domain is essential for repression by thyroid hormone receptorThe histone deacetylase 9 gene encodes multiple protein isoformsSirt1 promotes fat mobilization in white adipocytes by repressing PPAR-gammaThe N-CoR complex enables chromatin remodeler SNF2H to enhance repression by thyroid hormone receptorFunctional interactions with Pit-1 reorganize co-repressor complexes in the living cell nucleus.Ligand-independent repression by the thyroid hormone receptor mediated by a nuclear receptor co-repressorSki-interacting protein, a bifunctional nuclear receptor coregulator that interacts with N-CoR/SMRT and p300The basic helix-loop-helix proteins differentiated embryo chondrocyte (DEC) 1 and DEC2 function as corepressors of retinoid X receptorsERbeta Binds N-CoR in the Presence of Estrogens via an LXXLL-like Motif in the N-CoR C-terminusA corepressor/coactivator exchange complex required for transcriptional activation by nuclear receptors and other regulated transcription factorsSAP30, a component of the mSin3 corepressor complex involved in N-CoR-mediated repression by specific transcription factorsOpposing LSD1 complexes function in developmental gene activation and repression programmesIsolation of proteins that interact specifically with the retinoid X receptor: two novel orphan receptorsGenome-wide map of nuclear protein degradation shows NCoR1 turnover as a key to mitochondrial gene regulationCell fate determination factor DACH1 inhibits c-Jun-induced contact-independent growthCorepressors selectively control the transcriptional activity of PPARgamma in adipocytesMtgr1 is a transcriptional corepressor that is required for maintenance of the secretory cell lineage in the small intestine.Thyroid hormone signaling in vivo requires a balance between coactivators and corepressorsRett syndrome mutations abolish the interaction of MeCP2 with the NCoR/SMRT co-repressorNuclear receptor corepressor and histone deacetylase 3 govern circadian metabolic physiologyCooperative NCoR/SMRT interactions establish a corepressor-based strategy for integration of inflammatory and anti-inflammatory signaling pathwaysRole for N-CoR and histone deacetylase in Sin3-mediated transcriptional repressionThe nuclear corepressor, NCoR, regulates thyroid hormone action in vivoTwo receptor interacting domains in the nuclear hormone receptor corepressor RIP13/N-CoRSMRT-mediated repression of an H3K27 demethylase in progression from neural stem cell to neuronSUMOylation of the corepressor N-CoR modulates its capacity to repress transcription.Tissue-specific regulation of retinal and pituitary precursor cell proliferationCombinatorial roles of the nuclear receptor corepressor in transcription and developmentNuclear receptor corepressor is a novel regulator of phosphatidylinositol 3-kinase signalingA SUMOylation-dependent pathway mediates transrepression of inflammatory response genes by PPAR-gammaTransgenic targeting of a dominant negative corepressor to liver blocks basal repression by thyroid hormone receptor and increases cell proliferationHistone deacetylase SIRT1 modulates neuronal differentiation by its nuclear translocation.Setd5 is essential for mammalian development and the co-transcriptional regulation of histone acetylation.Structure of the MeCP2-TBLR1 complex reveals a molecular basis for Rett syndrome and related disorders.Circadian regulation of Tshb gene expression by Rev-Erbα (NR1D1) and nuclear corepressor 1 (NCOR1).Unraveling the hidden catalytic activity of vertebrate class IIa histone deacetylases.
P921
Q22008813-76FA6C81-DB67-466D-A9F3-F9302F08BCC6Q24291417-AAD8EEB4-F1DD-403A-BCC6-2D4111794981Q24294185-C8A765AD-E43A-438C-BD36-0C550D04888BQ24294872-D1AE4289-F52D-440E-8008-FF2E280B6BACQ24294948-366E402D-C360-4EB4-A101-8519805BA91EQ24300145-99C0F2E1-7BD5-4B7B-85F3-18954BBEFAC6Q24308873-E455EB24-8231-4E41-A602-CB8712CB12B8Q24311650-62311D49-CF3C-43DA-8A13-2657CAAFAE0AQ24312160-FC0D7BB8-C7D9-40E2-B613-614C1A1CABF8Q24319119-89F31A9F-06EB-41FD-8605-C3BE105DE147Q24793018-FAD268C4-D715-459C-A0E1-D52F01363F59Q28246411-AA6B55A8-BBE7-4112-BFD4-8F0DAB3421DEQ28279441-E7DC054C-4C87-413C-90B0-DA4658D5C7E0Q28295495-2520E5E0-5D7E-4A3A-BF77-BBB72C6CB9AFQ28302085-25D49785-A73B-4DD6-9237-7F008F545A60Q28506755-AB7E4CEB-BD7A-4FDC-861C-7729D41AAFB8Q28507445-D7E0CD00-2E70-4319-9A58-1972003789A1Q28508812-4BE2AA86-F1DD-435A-A681-EBA25CB45C41Q28509614-26EBF447-74CB-4774-A171-32CCD74E1B4BQ28509846-9F6325DB-CCD8-4DC4-9478-DE2861C4F8C6Q28511624-95B56668-DB20-43EF-A3FD-F724D03C452DQ28512844-90D120C3-89E8-4B65-A46B-EBBEDDC81ADEQ28512993-D6CE63D6-A029-433E-AABE-3A232349ABB8Q28513708-4F6C6ABC-F9DE-4D69-B0C7-6031DC9C7401Q28513974-089B79E9-B9C7-4F04-AE91-FF31E3C55387Q28586882-A1AA088C-8355-4361-9E38-51B9A30275D3Q28589681-B720FB54-C4D2-48D8-A2B4-CFD85A966960Q28589693-A1AEA638-BCDF-4B29-A027-2AACD0984937Q28589859-BE74F5AA-268B-4224-9048-A0B219F86CCAQ28591431-84FA9C3E-ECA4-48A0-B6F7-0668EDE9D39AQ28591755-9B97D682-8EF4-468E-A0EA-AED3E7536B22Q28593737-D64529A3-7743-459F-B780-D071EC906EBCQ28594081-3658D01A-E29B-45BC-B7FC-C30FD8557FDAQ30483969-D05450DD-7958-449C-8B75-6248892FAD93Q32874823-3F6CD48D-0DF1-4742-81DF-B936B8A41C46Q33594773-5933B682-133E-4C8D-BA0F-E9FA093DE55AQ33761289-B0A57B27-7CCB-401B-A98C-4A6ABF710773Q36141408-59DA2851-A6ED-4F08-BE6A-60EE157D0372
P921
description
mouse protein (annotated by UniProtKB/Swiss-Prot Q60974)
@en
proteinë
@sq
proteïne
@nl
بروتين في فأر المنازل
@ar
name
Nuclear receptor corepressor 1
@en
type
label
Nuclear receptor corepressor 1
@en
altLabel
RIP13
@en
Retinoid X receptor-interacting protein 13
@en
prefLabel
Nuclear receptor corepressor 1
@en