UNIPROT:P20226 - FACTA Search

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

Transcriptional activator proteins stimulate the formation of a preinitiation complex that may be distinct from a basal-level transcription complex in its composition and stability. Components of the general transcription factors that form activator-dependent stable intermediates were determined by the use of Sarkosyl and oligonucleotide challenge experiments. High-level transcriptional activation by the Epstein-Barr virus-encoded Zta protein required an activity in the TFIID fraction that is distinct from the TATA-binding protein (TBP) and the TBP-associated factors. This additional activity copurifies with and is likely to be identical to the previously defined coactivator, USA (M. Meisterernst, A. L. Roy, H. M. Lieu, and R. G. Roeder, Cell 66:981-994, 1991). The formation of a stable preinitiation complex intermediate resistant to Sarkosyl required the preincubation of the promoter DNA with Zta, holo-TFIID (TBP and TBP-associated factors), TFIIB, TFIIA, and the coactivator USA. The formation of a Zta response element-resistant preinitiation complex required the preincubation of promoter DNA with Zta, holo-TFIID, TFIIB, and TFIIA. Agarose gel electrophoretic mobility shift showed that a preformed Zta-holo-TFIID-TFIIA complex was resistant to Sarkosyl and to Zta response element oligonucleotide challenge. DNase I footprinting suggests that only Zta, holo-TFIID, and TFIIA make significant contacts with the promoter DNA. These results provide functional and physical evidence that the Zta transcriptional activator influences at least two distinct steps in preinitiation complex assembly, the formation of the stable holo-TFIID-TFIIA-promoter complex and the subsequent binding of TFIIB and a USA-like coactivator.
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PMID:Identification of functional targets of the Zta transcriptional activator by formation of stable preinitiation complex intermediates. 796 71

A general transcription factor TFIID was purified from rat liver by a sequential column chromatography including organomercurial Sepharose and Sephacryl S-200 chromatographies, which were developed with an acidic buffer (pH5.5). Analyses by SDS-polyacrylamide gel electrophoresis, assay of eluants after renaturation, and immunoblotting showed that isolated TATA factor is an active 75kDa protein complex which contains 36kDa TATA-binding protein.
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PMID:Isolation of rat TATA factor as an active 75kDa protein complex. 798 May 86

Regulation of transcription by RNA polymerase II in eukaryotic cells requires both basal and accessory factors, which interact through specific protein-DNA or protein-protein interactions. The high mobility group 1 protein (HMG1) was previously demonstrated to be a nonhistone chromatin-associated protein, which selectively recognizes cruciform DNA rather than a specific primary sequence element. During our investigations of proteins that interact with TFIID, we found that purified mammalian HMG1, as well as recombinant human HMG1, can interact with TATA-binding protein (TBP) in the presence of a TATA box-containing oligonucleotide to form a specific HMG1.TBP.promoter complex. This complex prevents TFIIB binding to TBP and consequently blocks formation of the preinitiation complex. In contrast, TFIIA can compete with HMG1 for binding to TBP. In an in vitro transcription assay reconstituted with highly purified or recombinant general factors, HMG1 is able to inhibit transcription by RNA polymerase II over 30-fold. As expected, addition of TFIIA can partially reverse this repression in a concentration-dependent manner. These results demonstrate that HMG1, a chromatin-associated protein, has the potential to act as a TBP-dependent negative transcription factor and may provide an important link between chromatin structure and the modulation of class II gene transcription.
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PMID:The high mobility group protein HMG1 can reversibly inhibit class II gene transcription by interaction with the TATA-binding protein. 800 19

The minimal requirements for transcription initiation from supercoiled templates were determined for the two major forms of TATA-binding factors found in cell extracts, the 300-kDa B-TFIID and the 1000-kDa D-TFIID complexes. As had been observed for the TATA-binding protein (TBP) subunit (Parvin and Sharp, 1993), transcription from the IgH promoter minimally requires TFIID activity plus TFIIB and RNA polymerase II. This minimal reaction is only active on negatively supercoiled template DNA. In contrast, the supercoiled templates encoding the adenovirus major late promoter (MLP), or several other promoters, require the addition of TFIIF to the minimal reaction. Further addition of TFIIE and TFIIH boosts the level of transcription from these latter promoters but is not required. In contrast to the complete reaction on linear template, transcription from supercoiled IgH or MLP templates does not require the hydrolysis of the beta-gamma bond of ATP. Fourteen different core promoters were compared in complete and minimal basal transcription reactions reconstituted with one of the three TATA activities: TBP, B-TFIID, and D-TFIID. Of these 14 promoters, only the IgH was active in the absence of TFIIF, and the other promoters demonstrated different levels of transcription depending on which basal factors were present in reaction. It is proposed that a significant level of basal transcription only requires a minimal set of factors, and stimulation by upstream activators may in part be mediated by the inclusion of additional basal factors into the initiation reaction.
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PMID:Multiple sets of basal factors initiate transcription by RNA polymerase II. 803 89

The EBV transcription factor EB1, is a key determinant of the switch from the latent infection to the lytic cycle. EB1 belongs to the Jun, Fos, ATF, CREB, C/EBP and GCN4 family of proteins, carrying a sequence-specific DNA-binding domain called "basic-Zipper" (bZIP). The N-terminal region of EB1 is required for transcriptional activation, whereas the C-terminal region contains the DNA-binding domain. The mechanism by which site-specific transcription factors increase specific initiation at polymerase II dependent promoters is thought to occur via recruitment and stabilization of components that form the initiation complex, i.e., TFIID, TFIIA, TFIIB, TFIIE, TFIIG, TFIIH, TFIIJ and pol II. TFIID is not a single protein but consists of the TATA-binding protein TBP plus several distinct and tightly associated proteins called TAFs. More specifically, in vitro studies have revealed that the TAFs are not required for basal transcription, but are essential for mediating regulated transcription by different upstream activators. TFIID binding at the promoter sites is one of the limiting steps in the assembly of the initiation complex. Direct interactions with TBP or with one or several TAFs, mediated by the activation domain of site specific activators, could influence the binding rate of TFIID, and thus provide one of the mechanisms by which transcription is regulated. We show here that EB1 interacts directly with TBP in vitro, and that it is the bZIP domain, likely the region contacting the DNA rather than the activation domain, which is required for physical contact between EB1 and TBP.
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PMID:The bZIP motif of the Epstein-Barr virus (EBV) transcription factor EB1 mediates a direct interaction with TBP. 808 22

The tat gene of the human immunodeficiency virus (HIV) plays a central role in the activation and life cycle of HIV. The tat protein (Tat) specifically transactivates HIV transcription in vivo and in vitro, exerting its effects at the level of transcriptional initiation and elongation. Here we report that Tat binds directly to the basal transcription factor TFIID. The transcriptional activity of HeLa extracts was depleted after chromatography on a Tat affinity column, which specifically retained the polymerase II-specific factor TFIID. Direct interaction of Tat with holo-TFIID, composed of TATA-binding protein (TBP) and associated factors (TAFs), was observed. Tat binds, through amino acids 36-50, directly to the TBP subunit of TFIID. Our results suggest that Tat may transduce upstream or downstream regulatory signals by direct interaction with the basal transcription factor TFIID.
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PMID:Direct interaction of human TFIID with the HIV-1 transactivator tat. 812 96

Activators can stimulate transcription through direct or indirect interactions with general initiation factors. We show here that the proline-rich activation domain of CTF1 (CCAAT-box-binding transcription factor 1) selectively interacts with TFIIB but not with the TATA-binding protein (TBP), whereas previous studies have shown that the acidic activation domain of viral VP16 interacts directly with both TBP and TFIIB. In addition, consistent with studies of acidic activation domains, we demonstrate that the activation domain of CTF1 facilitates the recruitment (or stabilization) of TFIIB within TBP-DNA complexes during preinitiation complex assembly. CTF1-enhanced TFIIB recruitment was observed in both human and yeast systems. The results indicate that the proline-rich activation domain enhances transcription, at least in part, through direct interactions with TFIIB and, with previous observations, suggest models involving either quantitative or qualitative changes in TFIIB-TFIID-promoter interactions that lead to increased utilization of downstream initiation factors.
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PMID:Proline-rich activator CTF1 targets the TFIIB assembly step during transcriptional activation. 818 87

Enhancement of RNA polymerase II transcription by the viral transactivator VP16 requires the TFIID complex, which consists of the TATA-binding protein (TBP) and TBP-associated factors (TAFs). Here we report the molecular cloning, expression, and biochemical characterization of Drosophila TAFII40 (dTAFII40), a subunit of TFIID. In vitro protein-protein interaction assays revealed direct binding between dTAFII40 and a 39 amino acid VP16 activation domain. In addition, affinity chromatography indicated a direct binding of the basal factor TFIIB to immobilized dTAFII40. Since VP16 also binds TFIIB, our results suggest a ternary interaction among an activator, a coactivator, and a basal transcription factor. Antibodies directed against dTAFII40 inhibited activation by GAL4-VP16 without affecting basal transcription. These results, taken together with previous studies of Sp1 and dTAFII110, establish that different activators interact with distinct TAFs in the TFIID complex and that TAFs can contact both activators and basal factors.
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PMID:Drosophila TAFII40 interacts with both a VP16 activation domain and the basal transcription factor TFIIB. 822 91

Transcription factor IIA has been shown to interact with the TATA-binding protein and to act early during preinitiation complex formation. The human factor is composed of three subunits (alpha, beta, gamma). A human cDNA clone encoding the largest subunit of TFIIA (alpha) was isolated. The recombinant alpha polypeptide, together with the beta and gamma subunits, was capable of reconstituting TFIIA activity. Studies using antibodies raised against recombinant alpha polypeptide demonstrate that TFIIA can be an integral component of the preinitiation complex. We demonstrate that TFIIA not only interacts with TBP but also can associate with the TFIID complex. Functional assays establish that TFIIA has no apparent role in basal transcription but plays an important role in activation of transcription. Interestingly, amino acid sequence analyses of the beta-subunit demonstrate these residues to be entirely contained within the carboxyl terminus of the cDNA clone encoding the alpha-subunit.
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PMID:Isolation of a cDNA encoding the largest subunit of TFIIA reveals functions important for activated transcription. 822 50

Transcription by RNA polymerase I (pol I), pol II, and pol III requires the TATA-binding protein (TBP). This protein functions in association with distinct TBP-associated factors (TAFs) which may specify the nature of the polymerase selected for initiation at a promoter site. In the pol III transcription system, the TBP-TAF complex is a component of the TFIIIB factor. This factor has been resolved into a TBP-TAF complex and another component, both of which are required for reconstitution of transcription by pol III. Neither the TBP-TAF complexes B-TFIID and D-TFIID, which were previously characterized as active for pol II transcription, nor TBP alone can complement pol III transcription reactions that are dependent upon the TBP-TAF subcomponent of TFIIIB. Surprisingly, the TBP-TAF subcomponent of TFIIIB is active in reconstitution of pol II transcription.
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PMID:TATA-binding protein and associated factors in polymerase II and polymerase III transcription. 824 10

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