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

Retinoids play a fundamental role in regulating normal cell proliferation and differentiation. The most spectacular effects of retinoids in vitro can be observed with embryonal carcinoma (EC) cells that can be induced to differentiate into endodermal, mesodermal and neuroectodermal lineages. An early and essential step in the differentiation process is the activation of the retinoic acid receptor-beta 2 (RAR beta 2) promoter that requires a co-operation between RAR, the EC-cell specific adenovirus early gene product 1A (E1A)-like activity and the TATA-binding protein (TBP). In differentiated cells, this signalling pathway can be mimicked by ectopic expression of the adenoviral E1A protein. Here we show that E1A13S but not E1A12S augments the level of transcription. Analysis of the binding kinetics of E1A13S to TBP by the surface plasmon resonance (SPR) technique reveals that the affinity of TBP for a consensus TATA-box sequence is significantly and specifically increased by E1A13S only. Intriguingly, a specific interaction can only be obtained with crude TBP overexpressed in HeLa cells via vaccinia virus as opposed to bacterially expressed TBP, suggesting a cofactor requirement for the interaction. Co-immunoprecipitation experiments show that E1A13S is an integral component of the RNA polymerase II-specific TBP-containing complex in adenovirus transformed embryonal kidney 293 cells. Taken together the results suggest that E1A13S mediates transcriptional activation by providing a physical bridge between TBP/transcription factor IID (TFIID) and retinoic acid receptor.
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PMID:Retinoid-dependent transcription: the RAR/RXR-TBP-EIA/EIA-LA connection. 897 43

Spt3 of Saccharomyces cerevisiae is a factor required for normal transcription from particular RNA polymerase II-dependent promoters. Previous genetic and biochemical analyses have shown that Spt3 interacts with the yeast TATA-binding protein (TBP). To identify other factors that might interact with Spt3, we have screened for mutations that, in combination with an spt3 null mutation, lead to inviability. In this way, we have identified a mutation in MOT1, which encodes an ATP-dependent inhibitor of TBP binding to TATA boxes: Previous analyses suggested that Mot1 causes repression in vivo. However, our analysis of mot1 mutants shows that, similar to spt3 mutants, they have decreased levels of transcription from certain genes, suggesting that Mot1 may function as an activator in vivo. In addition, mot1 mutants have other phenotypes in common with spt3 delta mutants, including suppression of the insertion mutation his4-912 delta. Motivated by these Spt3-Mot1 genetic interactions, we tested for genetic interactions between Spt3 and the general transcription factor TFIIA. TFIIA has been shown previously to be functionally related to Mot1. We found that overexpression of TFIIA partially suppresses an spt3 delta mutation, that toa1 mutants have Spt-phenotypes, and that spt3 delta toa1 double mutants are inviable. We believe that, taken together, these data suggest that Spt3, Mot1, and TFIIA cooperate to regulate TBP-DNA interactions, perhaps at the level of TATA box selection in vivo.
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PMID:Evidence that Spt3 functionally interacts with Mot1, TFIIA, and TATA-binding protein to confer promoter-specific transcriptional control in Saccharomyces cerevisiae. 897 9

Rapid evolution of ribosomal RNA (rRNA) gene promoters often prevents their recognition in a foreign species. Unlike animal systems, we show that foreign plant rRNA gene promoters are recognized in an alien species, but tend to program transcription by a different polymerase. In plants, RNA polymerase I transcripts initiate at a TATATA element (+1 is underlined) important for promoter strength and start-site selection. However, transcripts initiate from +32 following transfection of a tomato promoter into Arabidopsis. The rRNA gene promoter of a more closely related species, Brassica oleracea, programs both +1 and +29 transcription. A point mutation at +2 improving the identity between the Brassica and Arabidopsis promoters increases +1 transcription, indicating a role for the initiator element in species-specificity. Brassica +29 transcripts can be translated to express a luciferase reporter gene, implicating RNA polymerase II. TATA mutations that disrupt TATA-binding protein (TBP) interactions inhibit +29 transcription and luciferase expression. Co-expressed TBP proteins bearing compensatory mutations restore +29 transcription and luciferase activity, suggesting a direct TBP-TATA interaction. Importantly, +1 transcription is unaffected by the TATA mutations, suggesting that in the context of pol I recognition, the TATA-containing initiator element serves a function other than TBP binding.
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PMID:Species-specificity of rRNA gene transcription in plants manifested as a switch in RNA polymerase specificity. 897 59

Nuclear transcription is repressed when eukaryotic cells enter mitosis. Using Xenopus egg extracts shifted to the mitotic state with recombinant cyclin B1 protein, we have been able to reproduce mitotic repression of transcription in vitro. Active RNA polymerase III transcription is observed in interphase extracts in the absence of added cyclin, but is strongly repressed by the induction of cdc2/cyclin B (maturation/mitosis promoting factor, MPF) kinase activity in the mitotic extract. Studies with protein kinase inhibitors show that protein phosphorylation is required for repression. Add-back experiments indicate that repression of class III gene transcription is due to inactivation of the transcription factor TFIIIB. TFIIIB is composed of the TATA-box binding protein (TBP) and TBP-associated factors of 75 and 92 kDa. In the present study, we show that TBP and a polypeptide of 92 kDa are substrates of the mitotic kinase in highly purified TF- IIIB fractions. We also show that a phosphatase present in the Xenopus egg extract can reactivate transcription after repression by the mitotic kinases. This result suggests a mechanism for reactivation of transcription after exit from mitosis into the G1 phase of the cell cycle. As for pol III genes, purified cdc2/cyclin B kinase is sufficient to inhibit transcription by RNA polymerase II in a reconstituted transcription system containing the basal transcription factors and polymerase.
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PMID:Repression of RNA polymerase II and III transcription during M phase of the cell cycle. 898 11

The responsiveness of genes to steroid hormones is principally mediated by functional interactions between DNA-bound hormone receptors and components of the transcriptional initiation machinery, including TATA-binding protein, TFIIB, or other RNA polymerase II associated factors. This interaction can be physiologically modulated by promoter context-specific transcription factors to facilitate optimal responsiveness of gene expression to hormone stimulation. One postulated regulatory mechanism involves the functional antagonism between hormone receptors and nonreceptor transcription factors interacting at the same hormone response element. Here we demonstrate that the multifunctional regulator YY1 represses 1,25-dihydroxyvitamin D3 (vitamin D)-induced transactivation of the bone tissue-specific osteocalcin gene. We identify YY1 recognition sequences within the vitamin D response element (VDRE) of the osteocalcin gene that are critical for YY1-dependent repression of vitamin D-enhanced promoter activity. We show that YY1 and vitamin D receptor (VDR)/retinoid X receptor heterodimers compete for binding at the osteocalcin VDRE. In addition, we find that YY1 interacts directly with TFIIB, and that one of the two tandemly repeated polypeptide regions of TFIIB spanning the basic domain is responsible for this interaction. TFIIB and VDR can also interact directly, and these factors synergize to mediate transactivation. Our results suggest that YY1 regulates vitamin D enhancement of osteocalcin gene transcription in vivo by interfering with the interactions of the VDR with both the VDRE and TFIIB.
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PMID:YY1 regulates vitamin D receptor/retinoid X receptor mediated transactivation of the vitamin D responsive osteocalcin gene. 899 Jan 71

A new ribosomal RNA promoter element with a functional role similar to the RNA polymerase II initiator (Inr) was identified. This sequence, which we dub the ribosomal Inr (rInr) is unusually conserved, even in normally divergent RNA polymerase I promoters. It functions in the recruitment of the fundamental, TATA-binding protein (TBP)-containing transcription factor, TIF-IB. All upstream elements of the exceptionally strong Acanthamoeba castellanii ribosomal RNA core promoter, to within 6 base pairs of the transcription initiation site (tis), can be deleted without loss of specific transcription initiation. Thus, the A. castellanii promoter can function in a manner similar to RNA polymerase II TATA-less promoters. Sequence-specific photo-cross-linking localizes a 96-kDa subunit of TIF-IB and the second largest RNA polymerase I subunit (A133) to the rInr sequence. A185 also photo-cross-links when polymerase is stalled at +7.
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PMID:Identification of previously unrecognized common elements in eukaryotic promoters. A ribosomal RNA gene initiator element for RNA polymerase I. 901 45

The HIV-1 (human immunodeficiency virus type 1) and HIV-2 Tat proteins increase the level of transcription from their corresponding long terminal repeats. Tat activates transcription likely by interaction with components of the transcriptional initiation and elongation complexes during different stages of the transcription reaction. In the current study, two approaches were used to address the sites at which Tat becomes stably associated with the HIV transcription complex. First, we isolated column purified HIV-1 and HIV-2 transcription complexes that were competent for in vitro transcription and found that wild-type but not mutant Tat protein was specifically associated with this complex. An intact HIV TATA element and the presence of functional TATA-binding protein were necessary for Tat association. In contrast, the HIV-1 and HIV-2 TAR bulge sequences which serve as binding sites for Tat were not required for its association with the HIV preinitiation complex. A second complementary approach using immobilized HIV-1 and HIV-2 templates also demonstrated a functional association of Tat with HIV-1 and HIV-2 preinitiation complexes. Wild-type but not mutant Tat proteins associated with transcription complexes assembled on immobilized HIV-1 and HIV-2 templates and the association of Tat correlated with increases in the level of in vitro transcription. These results indicate that Tat can associate with HIV-1 and HIV-2 transcription complexes prior to the initiation of transcription by RNA polymerase II.
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PMID:Association of Tat with purified HIV-1 and HIV-2 transcription preinitiation complexes. 905 83

Insoluble functional synthetic random copolymers are able to develop at their surfaces specific interactions with biologic components. Crosslinked phosphorylated polystyrene derivatives were previously shown to mimic DNA antigen because they interacted with anti-DNA antibodies found in the sera of systemic lupus erythematosus patients. These biospecific surfaces were postulated to be able to bind other DNA-binding proteins such as RNA polymerase II transcription factors. Indeed, these proteins play a major role in gene regulation in mammalian cells. This hypothesis was checked by adsorption and elution of HeLa cell nuclear extracts on a 72% phosphorylated resin. The composition of the eluted fractions were analyzed by electrophoresis, and the biologic activity of the transcription factors was tested using an in vitro transcription assay. The results showed that USF, TATA-binding protein (TBP), and TFIIB were specifically adsorbed on the polymer and that all eluted factors kept their biologic activity. Therefore, randomly phosphorylated polystyrene derivatives may be useful for the fractionation of RNA polymerase II transcription factors.
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PMID:Randomly phosphorylated polystyrene derivatives interact with RNA polymerase II transcription factors: part I. 905 26

In this report we describe the cloning and initial characterization of TAF40, a gene that encodes a yeast TATA-binding protein-associated factor (yTAF) of Mr = approximately 40,000. This gene has many similarities to other yTAFs described thus far in that it is present at a single copy per haploid genome, it is essential for viability, and the deduced protein sequence of yTAF40 exhibits similarity to previously described human and Drosophila TAFIIs. Immunological studies confirm that yTAF40 protein is a subunit of a large multiprotein TATA-binding protein-TAF complex that contains a subset of the total number of the yTAFs present in yeast cell extracts. Transcription reactions performed using yeast whole cell extracts reveal that of the three nuclear RNA polymerases only RNA polymerase II function is abrogated when yTAF40 and associated proteins are immunodepleted from solution, indicating that the functionality of the multiprotein complex containing yTAF40 is RNA polymerase II-specific. By these criteria yTAF40 appears to encode a bona fide RNA polymerase II-specific TAF, and thus the protein that it encodes has been termed yTAFII40.
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PMID:Cloning and characterization of an essential Saccharomyces cerevisiae gene, TAF40, which encodes yTAFII40, an RNA polymerase II-specific TATA-binding protein-associated factor. 908 82

Five different monoclonal antibodies that immunoreact with RAP74, the large subunit of general transcription factor (TF) IIF, were produced and characterized. Using one of these antibodies, an affinity purification procedure was devised to isolate a human RNA polymerase II complex. This procedure is fast, simple, and reproducible and does not require extensive purification. The RNA polymerase II complex isolated using this procedure contains SRB (suppressor of RNA polymerase B) polypeptides, transcription factors IIE and IIF, limiting amounts of TFIIH, and the TATA-binding protein, but was devoid of TFIIB.
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PMID:Affinity purification of a human RNA polymerase II complex using monoclonal antibodies against transcription factor IIF. 911 Oct 63

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