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)

RNA polymerases I, II, and III require the TATA-binding protein (TBP) to initiate promoter-specific transcription. We have separated HeLa TBP into four phosphocellulose fractions that elicit polymerase specificity in supplying TBP activity to TBP-depleted pol II and pol III transcription reactions. Polymerase specificity might arise in part through distinct TBP-associated factors (TAFs), which have recently been identified in pol I and II transcription. However, the requirement for pol III TAFs has not been established. Here we show that classical pol III transcription involves a minimum of two novel TAFs: TAF-172 and TAF-L. Not only does TAF-172 activate pol III transcription, but it also inhibits the binding of TBP to the TATA box, thereby repressing pol II transcription. The TBP-TAF-172-TAF-L complex can replace TFIIIB both in transcription reactions reconstituted with TFIIIC and in template commitment assays. Thus SL1, TFIID, and TFIIIB might be functionally similar TBP-TAF complexes that direct pol I, II, and III transcription, respectively.
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PMID:The TATA-binding protein and associated factors are components of pol III transcription factor TFIIIB. 145 33

The TATA-binding protein (TBP) is required for transcription by RNA polymerase III (pol III), even though many pol III templates, such as the adenovirus VA1 gene, lack a consensus TATA box. We show that TBP alone does not form a stable, productive interaction with VA1 DNA. However, it can be incorporated into an initiation complex if the other class III basal factors, TFIIIB and TFIIIC, are also present. TFIIIB can associate with the evolutionarily conserved C-terminal domain of TBP in the absence of DNA or TFIIIC, suggesting that TFIIIB exists in solution as a complex with TBP. The stable association of TBP with an essential component of the pol III transcription apparatus may account for the ability of TATA-less class III genes to recruit TBP.
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PMID:Mechanism of TATA-binding protein recruitment to a TATA-less class III promoter. 145 35

We have investigated the requirement for TBP (TATA-binding protein) in transcription mediated by RNA polymerase III (pol III) in fractionated HeLa cell extracts. Two activities, TFIIIB and TFIIIC, found in phosphocellulose fractions PC B and PC C respectively, have been defined as necessary and sufficient, with pol III, for in vitro transcription of tRNA genes. Depletion of TBP from PC B, using antibodies raised against human TBP, is shown to inhibit the pol III transcriptional activity of the fraction. Furthermore, TBP is present in fractions with human TFIIIB activity, and a proportion of TBP cofractionates with TFIIIB over four chromatographic purification steps. TFIIIB fractions are capable of supplying TBP in the form necessary for pol III transcription, and cannot be substituted by fractions containing other TBP complexes or TBP alone. The use of a 5S RNA gene and two tRNA templates supports the general relevance of our findings for pol III gene transcription. Purified TFIIIB activity can also support pol II-mediated transcription, and is found in a complex of approximately 230kD, suggesting that TFIIIB may be the same as the previously characterized B-TFIID complex (1,2). We suggest that transcription by the three RNA polymerases is mediated by distinct TBP-TAF complexes: SL1 and D-TFIID for pol I and pol II respectively, and TFIIIB for pol III.
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PMID:Cofractionation of the TATA-binding protein with the RNA polymerase III transcription factor TFIIIB. 146 21

Using temperature- and proteolytically sensitive derivatives to inactivate the function of the yeast TATA-binding protein (TBP) in vivo, we investigated the requirement of TBP for transcription by the three nuclear RNA polymerases in yeast cells. TBP is required for RNA polymerase II (pol II) transcription from promoters containing conventional TATA elements as well as functionally distinct promoters that lack TATA-like sequences. TBP is also required for transcription of the U6 snRNA and two different tRNA genes mediated by RNA pol III as well as transcription of ribosomal RNA mediated by RNA pol I. For all promoters tested, transcription decreases rapidly and specifically upon inactivation of TBP, strongly suggesting that TBP is directly involved in the transcription process. These observations suggest that TBP is required for transcription of all nuclearly encoded genes in yeast, although distinct molecular mechanisms are probably involved for the three RNA polymerase transcription machineries.
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PMID:The TATA-binding protein is required for transcription by all three nuclear RNA polymerases in yeast cells. 158 47

Transcription extracts prepared from yeast that are deficient in the TATA-binding protein (TBP or TFIID) are also impaired in specific promoter recognition by all three nuclear RNA polymerases (pol I, II, and III). Specific initiation can be rescued by the addition of purified recombinant TBP, demonstrating that pol I, II, and III all require this factor. A mutation of TBP has been identified that will function with pol I but not with pol II or III. Conversely, another mutation, which inactivates TATA element binding in vitro, will function with pol I and III promoters but is inactive for a pol II promoter. Thus, it is possible to identify TBP variants that will only function on different subsets of all nuclear promoters.
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PMID:Variants of the TATA-binding protein can distinguish subsets of RNA polymerase I, II, and III promoters. 158 48

The human T-lymphotropic virus type I (HTLV-I) promoter contains the structural features of a typical RNA polymerase II (pol II) template. The promoter contains a TATA box 30 bp upstream of the transcription initiation site and binding sites for several pol II transcription factors, and long poly(A)+ RNA is synthesized from the integrated HTLV-I proviral DNA in vivo. Consistent with these characteristics, HTLV-I transcription activity was reconstituted in vitro by using TATA-binding protein, TFIIA, recombinant TFIIB, TFIIE, and TFIIF, TFIIH, and pol II. Transcription of the HTLV-I promoter in the reconstituted system requires RNA pol II. In HeLa whole cell extracts, however, the HTLV-I long terminal repeat also contains an overlapping transcription unit (OTU). HTLV-I OTU transcription is initiated at the same nucleotide site as the RNA isolated from the HTLV-I-infected cell line MT-2 but was not inhibited by the presence of alpha-amanitin at concentrations which inhibited the adenovirus major late pol II promoter (6 micrograms/ml). HTLV-I transcription was inhibited when higher concentrations of alpha-amanitin (60 micrograms/ml) were used, in the range of a typical pol III promoter (VA-I). Neutralization and depletion experiments with three distinct pol II antibodies demonstrate that RNA pol II is not required for HTLV-I OTU transcription. Antibodies to basal transcription factors TATA-binding protein and TFIIB, but not TFIIIC, inhibited HTLV-I OTU transcription. These observations suggest that the HTLV-I long terminal repeat contains overlapping promoters, a typical pol II promoter and a unique pol III promoter which requires a distinct set of transcription factors.
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PMID:Transcription of the human T-cell lymphotropic virus type I promoter by an alpha-amanitin-resistant polymerase. 752 15

The promoter of vertebrate U6 small nuclear RNA genes consists of a TATA box and a snRNA proximal sequence element (PSE), and the combination of these two elements directs RNA polymerase III transcription. We detected RNA polymerase II transcription as well as pol III transcription from the human U6 promoter in a HeLa nuclear extract. The pol II-specific transcription was independent of the PSE and dependent on the presence of the TATA box. Both pol III- and pol II-specific transcription were stimulated by addition of recombinant TATA-binding protein (TBP). We conclude that both pol III and pol II preinitiation complexes can assemble on the U6 promoter in vitro and could compete during the bona fide process in the cell.
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PMID:Both RNA polymerase III and RNA polymerase II accurately initiate transcription from a human U6 promoter in vitro. 757 66

Two multisubunit complexes containing the TATA-binding protein (TBP) were isolated from HeLa cells constitutively expressing the FLAG epitope-tagged TBP using antibody affinity and peptide elution methods. One of the complexes (f:TFIID), isolated from the P11 0.85 M KCl fraction, contains at least 13 specific TBP-associated factors (TAFs) and can mediate activator-dependent transcription by RNA polymerase II. Importantly, activator function through the highly purified f:TFIID complex still requires a general cofactor fraction containing upstream factor stimulatory activity (USA). As previously observed with partially purified activator-competent natural TFIID, f:TFIID generates extended TATA-dependent footprints on the intrinsically strong adenovirus major late promoter (MLP) but only restricted footprints on the weak adenovirus E1b and E4 and HIV (core) promoters. Along with previous demonstrations of activator-induced downstream TFIID interactions on the E4 promoter, these results argue for a relationship between downstream interactions and overall promoter strength. Initiator-like sequences appear not to be essential for downstream interactions since they have no effect on downstream MLP interactions when mutated, do not effect downstream interactions on the HIV promoter and are not present on the inducible E4 promoter. The other multisubunit complex (f:TFIIIB), isolated from the P11 0.30 M KCl fraction, contains four specific TAFs and can substitute for one of the fractions (TFIIIB) required for RNA polymerase III (pol III) transcription. Neither f:TFIID nor TBP could substitute for this pol III TBP-containing fraction. This plus the fact that f:TFIIIB failed to generate a footprint on the MLP underscores the importance of TAFs in determining promoter specificity by different RNA polymerases.
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PMID:Unique TATA-binding protein-containing complexes and cofactors involved in transcription by RNA polymerases II and III. 768 40

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

It has previously been reported that transcription in vivo of the tRNA(Sec) gene requires three promoter elements, a PSE and a TATA-box upstream of the coding region which are functionally interchangeable with the U6 snRNA gene counterparts and an internal B-block, resembling that of classical tRNA genes (1). We have established an in vitro transcription system from HeLa cells in which three factors, which are either essential for or stimulate transcription were identified. Apart from the TATA-binding protein TBP, the PSE-binding protein PBP was found to be essentially required for expression of the gene. Depletion of PBP from cell extracts by PSE-oligonucleotides abolished tRNA(Sec) transcription, which could be reconstituted by readdition of partially purified PBP. Addition of increasing amounts of recombinant human TBP to an S100 extract stimulated transcription of the tRNA(Sec), the mouse U6 snRNA and the human Y3 genes, an effect which was not observed in the case of a TATA-less tRNA gene. Purified human TFIIA strongly stimulated tRNA(Sec) transcription in a fashion depending on the concentration of TBP. Surprisingly, partially purified TFIIIC was shown to be dispensable for transcription in vitro and unable to bind the B-block of this gene in vitro, although its sequence matches the consensus for this element. Collectively, these data suggest that the mechanism by which transcription complexes are formed on the tRNA(Sec) gene is dramatically different from that observed for classical tRNA genes and much more resembles that observed for externally controlled pol III genes.
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PMID:Transcription factors required for the expression of Xenopus laevis selenocysteine tRNA in vitro. 812 3

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