Ligand-dependent interaction between the estrogen receptor and the human homologues of SWI2/SNF2
about
SS18 together with animal-specific factors defines human BAF-type SWI/SNF complexesAlterations in the expression of DEAD-box and other RNA binding proteins during HIV-1 replicationFunctional selectivity of recombinant mammalian SWI/SNF subunitsRetinoblastoma-binding protein 2 (Rbp2) potentiates nuclear hormone receptor-mediated transcriptionSYT associates with human SNF/SWI complexes and the C-terminal region of its fusion partner SSX1 targets histonesNovel ATPase of SNF2-like protein family interacts with androgen receptor and modulates androgen-dependent transcriptionTranscription factors and nuclear receptors interact with the SWI/SNF complex through the BAF60c subunitLargest subunits of the human SWI/SNF chromatin-remodeling complex promote transcriptional activation by steroid hormone receptorsBAF60a mediates critical interactions between nuclear receptors and the BRG1 chromatin-remodeling complex for transactivationRecruitment of the SWI-SNF chromatin remodeling complex as a mechanism of gene activation by the glucocorticoid receptor tau1 activation domain.Selective interaction between the chromatin-remodeling factor BRG1 and the heterochromatin-associated protein HP1alpha.BRG-1 is recruited to estrogen-responsive promoters and cooperates with factors involved in histone acetylationSpecific association of estrogen receptor beta with the cell cycle spindle assembly checkpoint protein, MAD2A neuronal-specific differentiation protein that directly modulates retinoid receptor transcriptional activationLKB1 associates with Brg1 and is necessary for Brg1-induced growth arrestInteraction of estrogen receptor alpha with 3-methyladenine DNA glycosylase modulates transcription and DNA repairNuclear receptor coactivators: the key to unlock chromatinThe proto-oncoprotein SYT interacts with SYT-interacting protein/co-activator activator (SIP/CoAA), a human nuclear receptor co-activator with similarity to EWS and TLS/FUS family of proteinsFulvestrant induces resistance by modulating GPER and CDK6 expression: implication of methyltransferases, deacetylases and the hSWI/SNF chromatin remodelling complexLigand-specific dynamics of the progesterone receptor in living cells and during chromatin remodeling in vitroRole of the essential yeast protein PSU1 in p6anscriptional enhancement by the ligand-dependent activation function AF-2 of nuclear receptors.Cooperative coactivation of estrogen receptor alpha in ZR-75 human breast cancer cells by SNURF and TATA-binding protein.A putative nuclear receptor coactivator (TMF/ARA160) associates with hbrm/hSNF2 alpha and BRG-1/hSNF2 beta and localizes in the Golgi apparatus.Alteration of large-scale chromatin structure by estrogen receptorATP-dependent chromatin remodeling factors: nucleosome shufflers with many missions.Genetic lesions and perturbation of chromatin architecture: a road to cell transformation.Recruitment of SWI/SNF to the human immunodeficiency virus type 1 promoterInherited predisposition and breast cancer: modifiers of BRCA1/2-associated breast cancer risk.Dynamic access of the glucocorticoid receptor to response elements in chromatin.Functional screening of FxxLF-like peptide motifs identifies SMARCD1/BAF60a as an androgen receptor cofactor that modulates TMPRSS2 expressionA methylation-mediator complex in hormone signalingGlucocorticoid Receptor Transcriptional Activation via the BRG1-Dependent Recruitment of TOP2β and Ku70/86.Chromatin remodeling during glucocorticoid receptor regulated transactivation.The BRG1 transcriptional coregulatorThe HSA domain of BRG1 mediates critical interactions required for glucocorticoid receptor-dependent transcriptional activation in vivo.SNF2beta-BRG1 is essential for the viability of F9 murine embryonal carcinoma cells.Nuclear receptors and chromatin remodeling machinery.Global gene expression analysis reveals pathway differences between teratogenic and non-teratogenic exposure concentrations of bisphenol A and 17β-estradiol in embryonic zebrafish.Crucial roles for interactions between MLL3/4 and INI1 in nuclear receptor transactivation.Histone H2A.Z is essential for estrogen receptor signaling.
P2860
Q21134718-2517F896-5AB0-464E-9471-85E201CA51F0Q21245214-FBAFDD78-0EF0-4E39-B9C7-C03979A1D9E0Q24290358-71C1A013-DFAE-4A2F-97FA-6F47D2A6ACFFQ24291241-B6FE3EE2-1086-4675-9EE4-EC2C403A4300Q24291965-F23601D1-BB94-49EB-AF21-AF7F94835B6CQ24299539-96DA0A69-441B-4393-A3CF-B7FA8CFB505AQ24303852-E996D55C-AE47-45F5-97A8-64904204F3ACQ24305418-26B6D5F4-6D60-40C1-8EFB-6941AC7F1E65Q24315628-F87F51A4-5732-4878-A43E-3D9A022AD778Q24523969-40B8E5B4-85E9-42CB-9B03-6C17F3CF6EDBQ24539001-C5240407-64BA-468E-BB30-32CF1B71A52DQ24551188-ABD7F972-3FC6-48B9-BB01-3775D39FA13BQ24676152-FE511751-88E1-4285-A6F7-04FFA65E436CQ24805066-575A7723-3DBC-41A7-A51A-7C67EDEF002AQ28205561-F6258461-1339-454D-9A3E-F62CEF8A7311Q28242358-AD82DD39-4E8E-40E3-AEFA-8D789152908AQ28266740-C1BCA564-363F-4B62-9DA3-931558A13D80Q28277223-5BB97670-6917-496A-BFE3-9E508B3C086FQ28301066-8CB07EAF-AEF4-4E68-AD53-3644C3573682Q30847717-CBFFCA44-23B9-4467-96FA-A7E9B16C9C21Q33890783-4ADE42F9-CD37-449A-965E-8AA7E6FD494BQ34100653-7015F41C-0462-466A-B8FD-AF34185BED97Q34131426-DA21353A-970C-4FEC-A12B-8FF3D2B37CD7Q34279663-03C10E93-971B-4445-B0CA-AABF19D5F007Q34290276-6328B4DF-8FDC-40FD-A674-636681F2FCF1Q34349653-F5A4384B-3FE4-4FE3-9AC7-97CDEF78CA11Q34551968-448C3305-C891-4959-A68D-2355388DA092Q34580741-066612B7-5233-4925-8BA1-EAB66CB505A4Q34859890-AD8CD874-B917-4841-B343-1630A9C9941CQ35003769-92A70D6A-E87B-4D2F-AC4C-6B33A23DCE4BQ35628154-51EE51F5-8F37-4C66-83CC-5BB3ECD7755DQ35868407-7B3A6C64-8657-4064-9B5D-51CCFF8E2DFCQ36019739-9ACCA2B3-A54E-41FC-888F-B3C5BE883585Q36478015-63DD6252-B4CD-47B6-9A58-BA7C032A82A3Q36483393-FD86CBB4-52DD-433D-9A6A-42A6D98AECE3Q36573136-C2A2A43A-3886-4428-9977-64D883292B5CQ36638925-19EC1F56-B1EC-4869-BBB7-CEA4D99CF4EAQ36950029-5A68C3CA-E48D-4F50-B2C1-ABE63C7ECA53Q37176269-81C3015B-BB2D-44D5-AF8C-20B8D3D51E7FQ37247116-F992CE9F-08B7-4D33-AAFB-54FE9F5919F9
P2860
Ligand-dependent interaction between the estrogen receptor and the human homologues of SWI2/SNF2
description
1997 nî lūn-bûn
@nan
1997 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի մարտին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@ast
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@en
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@nl
type
label
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@ast
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@en
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@nl
prefLabel
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@ast
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@en
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@nl
P1433
P1476
Ligand-dependent interaction b ...... human homologues of SWI2/SNF2
@en
P2093
P304
P356
10.1016/S0378-1119(96)00785-8
P407
P577
1997-03-25T00:00:00Z