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Query: UNIPROT:P20226 (TATA-binding protein)
1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of the Acanthamoeba castellanii TATA-binding protein (TBP) in transcription was examined. Specific antibodies against the nonconserved N-terminal domain of TBP were used to verify the presence of TBP in the fundamental transcription initiation factor for RNA polymerase I, TIF-IB, and to demonstrate that TBP is part of the committed initiation complex on the rRNA promoter. The same antibodies inhibit transcription in all three polymerase systems, but they do so differentially. Oligonucleotide competitors were used to evaluate the accessibility of the TATA-binding site in TIF-IB, TFIID, and TFIIIB. The results suggest that insertion of TBP into the polymerase II and III factors is more similar than insertion into the polymerase I factor.
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PMID:TATA box-binding protein (TBP) is a constituent of the polymerase I-specific transcription initiation factor TIF-IB (SL1) bound to the rRNA promoter and shows differential sensitivity to TBP-directed reagents in polymerase I, II, and III transcription factors. 826 28

The transcriptional activation of eukaryotic class II genes by sequence-specific regulatory proteins requires cofactors in addition to the general transcription factors. One cofactor (termed PC3) was purified from HeLa cells and identified by sequence analysis and functional assays as human DNA topoisomerase I (EC5.99.1.2). Under identical conditions PC3 mediates both a net activation of transcription by the acidic activator GAL4-AH and repression of basal transcription, thereby leading to a large induction of transcription by the activator. PC3-mediated activation of transcription is dependent on the presence of both the GAL4-AH activation domain and the TATA-binding protein (TBP)-associated-factors (TAFs) in natural transcription factor TFIID, while repression of basal transcription is observed with either TFIID or the derived TBP alone. These results suggest novel functions, apparently through distinct mechanisms, for human DNA topoisomerase I in the regulation of transcription initiation by RNA polymerase II.
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PMID:Identification of human DNA topoisomerase I as a cofactor for activator-dependent transcription by RNA polymerase II. 826 82

The multisubunit transcription factor TFIID is an essential component of the RNA polymerase II initiation apparatus. Recent studies suggest that TFIID subunits, or TAFs associated with the TATA-binding protein (TBP), play a critical role in modulating transcriptional activation by sequence-specific DNA-binding factors. Thus far, six of the largest TAFs associated with Drosophila TFIID have been cloned and partially characterized. Here, we report the molecular cloning, expression, and subunit interaction specificities of two small molecular mass TAFs. Both dTAFII30 alpha and dTAFII30 beta are associated with TFIID via interactions with other TAFs, including dTAFII250, dTAFII150, and dTAFII110. In addition, dTAFII30 alpha also contacts dTBP. The carboxy-terminal half of dTAFII110 was found to contact a short 67-amino-acid region of dTAFII30 alpha, which is predicted to form two potential alpha-helices, one of which is amphipathic. Interestingly, dTAFII30 alpha also appears to multimerize through its carboxy-terminal region. Although neither dTAFII30 alpha nor dTAFII30 beta have been found to interact with specific activators thus far, it is intriguing that both bind other TAFs such as dTAFII110 and dTAFII150, which are the targets of activation domains. Our studies suggest that both of the small subunits of TFIID play a role in the assembly of the complex and may contribute to the stability of multiple TAF-TAF interactions.
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PMID:Molecular cloning and characterization of dTAFII30 alpha and dTAFII30 beta: two small subunits of Drosophila TFIID. 827 41

The core promoters of the rat platelet factor 4 (PF4), mouse erythropoietin and chicken beta globin genes contain a GATA motif in place of the consensus TATAAA site. In the case of the PF4 gene, this site has been shown to play a critical role in restricting transcription to the megakaryocyte lineage. In order to understand the mechanism of tissue specificity, we investigated the function of the GATA box-containing promoters in vitro. Our studies show that the TATA-binding protein of TFIID is required for initiation of transcription from the GATA box-containing promoters. GATA-1 interacts with the core promoter GATA motif and inhibits generation of preinitiation complexes. The functional significance of the inhibition of preinitiation complexes is supported by in vitro transcription assays in which transcription from the PF4 and erythropoietin core promoters is suppressed by GATA-1. We also demonstrate that GATA-2 inhibits initiation of transcription from the PF4 core promoter. Based on these results, we propose a model in which repression of PF4 expression in nonmegakaryocytes is mediated, in part, by competition between GATA-binding proteins and basal factors for the core promoter.
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PMID:The interaction of GATA-binding proteins and basal transcription factors with GATA box-containing core promoters. A model of tissue-specific gene expression. 828 42

The c-myc proto-oncogene encodes nuclear phosphoproteins that bind DNA in a sequence-specific fashion and appear to function as transcriptional activators. Here we demonstrate that a 40-kDa nuclear protein coimmunoprecipitated with c-Myc specifically when nuclear proteins, extracted from nuclei of exponentially growing murine B-lymphoma WEHI 231 cells by using procedures for preparation of trans-acting factors, were reacted with anti-c-Myc antibodies made against different regions of the c-Myc protein. In contrast, preparation of nuclear lysates under denaturing conditions significantly reduced this coprecipitation. Upon incubation of WEHI 231 cells with the reversible chemical cross-linking agent dithiobis(succinimidyl propionate), the 40-kDa protein could be cross-linked to c-Myc protein intracellularly. Identification of the 40-kDa protein as the TATA-binding protein (TBP) of the TFIID transcription initiation complex was made by comigration and V-8 protease mapping, which yielded identical peptide fragments upon digestion of the 40-kDa protein and material immunoprecipitated with an anti-TBP specific antibody. Furthermore, in vitro-translated TBP bound to the amino-terminal portion of c-Myc. Column chromatography of cross-linked nuclear proteins showed TBP to be in a large-molecular-weight complex with c-Myc, consistent with a transcription initiation complex. These results indicate that intracellularly, c-Myc interacts with TBP, suggesting a mechanism of interaction of this oncoprotein with the basal transcription machinery.
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PMID:Intracellular association of the protein product of the c-myc oncogene with the TATA-binding protein. 828 95

The chick beta-globin gene is regulated developmentally within erythroid cells by the interaction of multiple proteins with the promoter and the 3' enhancer. These interactions are correlated with changes in chromatin structure, which are characteristic of the actively expressed gene. Using in vitro chromatin assembly and transcription with staged erythroid extracts, we have determined the critical proteins required to activate expression of nucleosome-reconstituted beta-globin genes. These genes contain a specialized TATA box at -30 (GATA) through which the erythroid-restricted protein cGATA-1 and TFIID both function to regulate different steps in beta-globin expression. We find that TBP (TATA-binding protein) alone can activate transcription of beta-globin chromatin templates from promoters mutated to a canonical TATA box but is ineffective on those containing the normal -30 GATA site. The occupancy of this site by cGATA-1 also fails to generate efficient expression of beta-globin chromatin unless combined with a stage-specific protein, NF-E4, that binds to an adjacent site. However, NF-E4 does not function with TBP to derepress nucleosome-assembled beta-globin genes. We propose that the developmental regulation of beta-globin expression is achieved, in part, by the requirement of an erythroid protein and a stage-specific factor, rather than TBP, to activate chromatin through a specialized TATA box.
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PMID:The erythroid protein cGATA-1 functions with a stage-specific factor to activate transcription of chromatin-assembled beta-globin genes. 837 May 27

The minimal promoter elements required for initiation by RNA polymerase II include the TATA box and/or an initiator element (Inr) at or near the transcription start site. Studies of the adenovirus major late core promoter (containing both elements) have demonstrated an initiation pathway that involves binding of the transcription factor TFIID (or the derived subunit, the TATA-binding protein TBP (TFIID tau)) to the TATA element, which is facilitated by transcription factor TFIIA, followed by sequential interactions of other general factors. Here we describe a novel pathway that requires an intact Inr and the Inr-binding factor TFII-I (ref. 3). Sequential addition of the general factors generated TFII-I-dependent preinitiation complexes different from those formed with TFIIA. Furthermore, TBP bound cooperatively (with only TFII-I) to an Inr-containing TATA-less promoter, suggesting a means for activation of TATA-less promoters, which nonetheless require TFIID (refs 9-11). These observations provide support for functionally distinct pathways which could be subject to differential regulation by specific activators or repressors.
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PMID:An alternative pathway for transcription initiation involving TFII-I. 837 28

The nuclear proto-oncoprotein Myc has been implicated in the control of cell proliferation and differentiation. Myc participates in transcription and belongs to the basic-helix-loop-helix (bHLH) family of regulatory proteins. Here we show that Myc interacts with TFII-I, a transcription initiation factor that activates core promoters through an initiator element (Inr). As previously observed for the bHLH activator USF, Myc was found to interact cooperatively with TFII-I at both Inr and upstream E-box promoter elements. However, in this case Myc interactions with TFII-I at the Inr lead to an inhibition of transcription initiation. This inhibition is selective for a TFII-I-dependent (as opposed to TFIIA-dependent) initiation pathway and correlates with the prevention of complex formation between the TATA-binding protein TBP (TFIID tau), TFII-I and the promoter. TBP probably interacts with Myc, but only slowly. These observations indicate that Myc has the potential to interact physically and functionally with components of the general transcription machinery.
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PMID:Direct role for Myc in transcription initiation mediated by interactions with TFII-I. 837 29

The interaction between the Hsp70 heat shock gene promoter and a Drosophila protein complex which contains the TATA-binding protein depends on sequence-specific interactions located in the region downstream of the transcription start site. Immunopurification of the complex through the use of antibodies against the TATA-binding protein reveals that the complex is transcription factor TFIID. Binding assays with the immunopurified TFIID confirm that sequence-specific contacts are made in the region between nucleotides +18 and +33 relative to the transcription start site. These sequence-specific interactions could play key roles in recognition of TATA-containing and TATA-less promoters.
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PMID:Transcription factor TFIID recognizes DNA sequences downstream of the TATA element in the Hsp70 heat shock gene. 837 17

Host cell RNA polymerase II (Pol II)-mediated transcription is inhibited by poliovirus infection. This inhibition is correlated to a specific decrease in the activity of a chromatographic fraction which contains the transcription factor TFIID. To investigate the mechanism by which poliovirus infection results in a decrease of TFIID activity, we have analyzed a component of TFIID, the TATA-binding protein (TBP). Using Western immunoblot analysis, we show that TBP is cleaved in poliovirus-infected cells at the same time postinfection as when Pol II transcription is inhibited. Further, we show that one of the cleaved forms of TBP can be reproduced in vitro by incubating TBP with cloned, purified poliovirus encoded protease 3C. Protease 3C is a poliovirus-encoded protease that specifically cleaves glutamine-glycine bonds in the viral polyprotein. The cleavage of TBP by protease 3C occurs directly. Finally, incubation of an uninfected cell-derived TBP-containing fraction (TFIID) with protease 3C results in significant inhibition of Pol II-mediated transcription in vitro. These results demonstrate that a cellular transcription factor can be directly cleaved both in vitro and in vivo by a viral protease and suggest a role of the poliovirus proteinase 3C in host cell Pol II-mediated transcription shutoff.
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PMID:Direct cleavage of human TATA-binding protein by poliovirus protease 3C in vivo and in vitro. 838 Aug 94

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