Distinct TFIID complexes mediate the effect of different transcriptional activators
about
Human TAF(II)55 interacts with the vitamin D(3) and thyroid hormone receptors and with derivatives of the retinoid X receptor that have altered transactivation propertiesThe TFIID components human TAF(II)140 and Drosophila BIP2 (TAF(II)155) are novel metazoan homologues of yeast TAF(II)47 containing a histone fold and a PHD fingerThe nuclear import of TAF10 is regulated by one of its three histone fold domain-containing interaction partnersTAF9b (formerly TAF9L) is a bona fide TAF that has unique and overlapping roles with TAF9Adenovirus E1A functions as a cofactor for retinoic acid receptor beta (RAR beta) through direct interaction with RAR betaCloning and characterization of hTAFII18, hTAFII20 and hTAFII28: three subunits of the human transcription factor TFIIDNuclear factor RIP140 modulates transcriptional activation by the estrogen receptorHuman TAF(II28) promotes transcriptional stimulation by activation function 2 of the retinoid X receptorsEWS, but not EWS-FLI-1, is associated with both TFIID and RNA polymerase II: interactions between two members of the TET family, EWS and hTAFII68, and subunits of TFIID and RNA polymerase II complexes.CCAAT binding NF-Y-TBP interactions: NF-YB and NF-YC require short domains adjacent to their histone fold motifs for association with TBP basic residuesAcetylation of TAF(I)68, a subunit of TIF-IB/SL1, activates RNA polymerase I transcriptionUV-damaged DNA-binding protein in the TFTC complex links DNA damage recognition to nucleosome acetylationThe AF1 and AF2 domains of the androgen receptor interact with distinct regions of SRC1hTAF(II)68, a novel RNA/ssDNA-binding protein with homology to the pro-oncoproteins TLS/FUS and EWS is associated with both TFIID and RNA polymerase IIDistinct domains of hTAFII100 are required for functional interaction with transcription factor TFIIF beta (RAP30) and incorporation into the TFIID complexTBP-associated factors interact with DNA and govern species specificity of RNA polymerase I transcriptionThe POU domains of the Oct1 and Oct2 transcription factors mediate specific interaction with TBPTranscription enhancer factor 1 interacts with a basic helix-loop-helix zipper protein, Max, for positive regulation of cardiac alpha-myosin heavy-chain gene expressionICBP90 belongs to a new family of proteins with an expression that is deregulated in cancer cellsDisease-Associated Polyglutamine Stretches in Monomeric Huntingtin Adopt a Compact StructureCdc73p and Paf1p are found in a novel RNA polymerase II-containing complex distinct from the Srbp-containing holoenzyme.Characterization of the transcription activation function and the DNA binding domain of transcriptional enhancer factor-1Abnormal sperm in mice lacking the Taf7l geneThe N-terminal part of TIF1, a putative mediator of the ligand-dependent activation function (AF-2) of nuclear receptors, is fused to B-raf in the oncogenic protein T18Cloning of murine RNA polymerase I-specific TAF factors: conserved interactions between the subunits of the species-specific transcription initiation factor TIF-IB/SL1Oestrogen receptor facilitates the formation of preinitiation complex assembly: involvement of the general transcription factor TFIIBMolecular genetics of the RNA polymerase II general transcriptional machineryIdentification of a small TAF complex and its role in the assembly of TAF-containing complexes.Selective elimination of long INterspersed element-1 expressing tumour cells by targeted expression of the HSV-TK suicide gene.TAFII40 protein is encoded by the e(y)1 gene: biological consequences of mutationsTwo novel Drosophila TAF(II)s have homology with human TAF(II)30 and are differentially regulated during development.The TET family of proteins: functions and roles in disease.A cytoplasmic negative regulator isoform of ATF7 impairs ATF7 and ATF2 phosphorylation and transcriptional activityUnique TATA-binding protein-containing complexes and cofactors involved in transcription by RNA polymerases II and III.Mapping histone fold TAFs within yeast TFIID.DNA sequence requirements for transcriptional initiator activity in mammalian cells.Two different Drosophila ADA2 homologues are present in distinct GCN5 histone acetyltransferase-containing complexes.Distinct regulatory mechanisms of eukaryotic transcriptional activation by SAGA and TFIID.In vivo degradation of RNA polymerase II largest subunit triggered by alpha-amanitinNegative cross-talk between p53 and the glucocorticoid receptor and its role in neuroblastoma cells.
P2860
Q22010399-89935AD5-FD15-4400-8686-7C6A76195865Q24291405-7BB486AB-0107-4BDA-A3F1-C3E8D17C8E8FQ24301379-3F1CA382-0B94-43D5-AFF0-065445BDF0CEQ24302399-2945DAA3-8979-4290-BA93-EEF45F5CAC6BQ24311404-2EF0A236-101B-4FB0-A78D-2E5831310174Q24315758-8C37B456-7D2B-45CA-9C36-3E7334DC0D6DQ24323091-4EE602AC-646E-42B8-9437-6F51E2947F91Q24324051-5CD9B99F-4086-4A55-AE2D-23FA8412A962Q24522406-AA7A421E-DB4D-4150-B338-772F3D5029FBQ24544742-F60BC936-AC0A-4320-BBDB-F66ED261F2C5Q24545711-AB0CF96D-8981-440E-A86A-1793CBC8EFEEQ24550893-07B50D0F-59A5-466A-9514-06FFAB55DDCAQ24554379-572C4484-4CCB-4808-9966-E24E9184E41CQ24562004-8DB2E39C-9938-46FF-91FC-E22B26D92294Q24562199-24062195-11D8-40DF-BBD8-53D155288170Q24595327-55708C19-D916-4120-9532-029DC265B7D4Q24610899-8EC21063-546A-4F1A-83A7-95A9E9A68F0BQ24645990-842D9B58-837D-4044-A22E-1B5B986CD612Q24651299-68A3EC46-ADC0-497E-8AA9-90CC4009AF90Q27677065-124E956C-EBF0-4934-ADBE-DE0983626806Q27935522-94B8D170-89D8-46BB-A4DD-237F8C0428A0Q28263487-2999A768-A96E-47FC-B722-3D7A9DA81702Q28505928-45A118C0-CBA8-47A4-87E6-89D3D60B5596Q28509358-5F13BDB5-343D-4608-84F9-FE9B6C349C24Q28510516-DE2A54AA-D4D1-4AE0-8715-60D31CEDA5D3Q28910378-9CA4E2AF-D4E3-4238-B0DE-20ECD025E2ABQ29620260-AD3DC29D-5C1F-4BA0-9277-5EF291EAE50BQ33279534-AE902036-7081-4EE5-9F89-AAFCCC614CDBQ33888758-6C5243EA-36F4-4121-A656-8D4EB032793CQ33958193-A760FD7D-8D4D-4567-A208-F7F69AF1010EQ33962278-7B75DC6B-AC43-41D5-9415-8FDA8EC05E15Q33999337-5306AEB8-8884-44B4-AC4B-84CBCDEE5EF3Q33999494-64BCAEA6-D2BD-4BAA-A23C-C9CB9ECD5A1EQ34055015-F4F30868-C518-4EB2-A843-BFADD7FC10D5Q34089518-1F3C240D-36A3-466A-9E31-B59665311C0DQ34346613-7BD5197B-8647-48B6-81E8-AD0E0A76D83CQ34462842-D8D2788C-5C88-4FF7-92DD-F49D19534714Q34478777-D76A40D9-3794-45FE-B04E-7438D783DCE9Q34606712-EFC92AEA-5CE9-4E99-88A4-EC065A141F72Q34677800-383C8558-1F20-40F2-B5B6-3BFA26D07530
P2860
Distinct TFIID complexes mediate the effect of different transcriptional activators
description
1993 nî lūn-bûn
@nan
1993 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
Distinct TFIID complexes mediate the effect of different transcriptional activators
@ast
Distinct TFIID complexes mediate the effect of different transcriptional activators
@en
Distinct TFIID complexes mediate the effect of different transcriptional activators
@nl
type
label
Distinct TFIID complexes mediate the effect of different transcriptional activators
@ast
Distinct TFIID complexes mediate the effect of different transcriptional activators
@en
Distinct TFIID complexes mediate the effect of different transcriptional activators
@nl
prefLabel
Distinct TFIID complexes mediate the effect of different transcriptional activators
@ast
Distinct TFIID complexes mediate the effect of different transcriptional activators
@en
Distinct TFIID complexes mediate the effect of different transcriptional activators
@nl
P2093
P2860
P1433
P1476
Distinct TFIID complexes mediate the effect of different transcriptional activators
@en
P2093
Chaudhary S
Davidson I
P2860
P304
P407
P577
1993-02-01T00:00:00Z