EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The TATA-binding protein (TBP) is required for transcription by all three nuclear RNA polymerases. TBP was subjected to regional codon randomization, a codon-based mutagenesis method that generates complex yet compact protein libraries. Analysis of 186 temperature-sensitive TBP mutants yielded 65 specifically defective in transcription by RNA polymerase III (Pol III). These mutants map to a limited TBP surface that may interact with Tds4, a component of the Pol III transcription factor TFIIIB. Strains that contain the Pol III-defective derivatives have increased amounts of messenger RNA, which suggests that competition among TBP-interacting factors for limiting quantities of TBP determines the ratio of Pol II and Pol III transcription in vivo.
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PMID:Regional codon randomization: defining a TATA-binding protein surface required for RNA polymerase III transcription. 821 Nov 43

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

The human U1 and U6 genes have similar basal promoter structures. A first analysis of the factor requirements for the transcription of a human U1 gene by RNA polymerase II in vitro has been undertaken, and these requirements compared with those of human U6 gene transcription by RNA polymerase III in the same extracts. Fractions containing PSE-binding protein (PBP) are shown to be essential for transcription of both genes, and further evidence that PBP itself is required for U1 as well as U6 transcription is presented. On the other hand, the two genes have distinct requirements for TATA-binding protein (TBP). On the basis of chromatographic and functional properties, the TBP, or TBP complex, required for U1 transcription appears to differ from previously described complexes required for RNA polymerase I, II or III transcription. The different TBP requirements of the U1 and U6 promoters are reflected by specific association with either TFIIB or TFIIIB respectively, thus providing a basis for differential RNA polymerase selection.
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PMID:Common and unique transcription factor requirements of human U1 and U6 snRNA genes. 825 82

We have previously found that the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) induces specific transcription of tRNA and 5S RNA genes in Drosophila Schneider S-2 cells (M. Garber, S. Panchanathan, R. F. Fan, and D. L. Johnson, J. Biol. Chem. 266:20598-20601, 1991). Having derived cellular extracts from TPA-treated cells, that are capable of reproducing this stimulation in vitro, we have examined the mechanism for this regulatory event. Using conditions that limit reinitiation and produce single rounds of transcription from active gene complexes, we find that the number of functional transcription complexes is increased in extracts prepared from TPA-induced cells. We have analyzed the activities of the transcription factors TFIIIB and TFIIIC derived from extracts prepared from TPA-induced and noninduced cells. Examination of the relative activities of TFIIIC showed that both its ability to reconstitute transcription with TFIIIB and RNA polymerase III and its ability to stably bind to the DNA template are unchanged. However, the activity of TFIIIB derived from the TPA-induced cells is substantially increased compared with that derived from the noninduced cells. The differences in TFIIIB activity account for the differences in the overall transcriptional activities observed in the unfractionated extracts. Western blot analysis of the TATA-binding protein subunit of TFIIIB revealed that there is an increase in the amount of this polypeptide present in the induced cell extracts and TFIIIB fraction. Together, these results indicate that the TPA response in Drosophila cells stimulates specific transcription of RNA polymerase III genes by increasing the activity of the limiting transcription component, TFIIIB, and thereby increasing the number of functional transcription complexes.
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PMID:Induction of Drosophila RNA polymerase III gene expression by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) is mediated by transcription factor IIIB. 826 1

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

In previous studies, we have shown that the PCF1-1 mutation of Saccharomyces cerevisiae suppresses the negative effect of a tRNA gene A block promoter mutation in vivo and increases the transcription of a variety of RNA polymerase III genes in vitro. Here, we report that PCF1 encodes the second largest subunit of transcription factor IIIC (TFIIIC) and that the PCF1-1 mutation causes an amino acid substitution in a novel protein structural motif, a tetratricopeptide repeat, in this subunit. In agreement with the nature of the mutation, in vitro transcription studies with crude extracts indicate that PCF1-1 facilitates the rate-limiting step in transcription, namely, the recruitment of TFIIIB to the template. Additionally, biochemical fractionation of wild-type and mutant cell extracts shows that PCF1-1 increases the amount of the 70-kDa TFIIIB subunit detectable by Western (immunoblot) analysis in purified TFIIIB fractions and the transcription activity of a TFIIIB" fraction containing the 90-kDa subunit of this factor. We suggest that the effect of PCF1-1 on TFIIIB activity in vitro is a consequence of its increased rate of recruitment in vivo.
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PMID:A mutation in the second largest subunit of TFIIIC increases a rate-limiting step in transcription by RNA polymerase III. 826 49

Interphase cytosol extracts prepared from Xenopus laevis eggs are active in RNA polymerase III (Pol III) transcription. Addition of recombinant B1 cyclin to these extracts activates mitotic protein kinases that repress transcription. Affinity-purified p34cdc2-cyclin B kinase (mitosis-promoting factor) is sufficient to effect this repression in a simplified Pol III transcription system. This mitotic repression involves the direct phosphorylation of a component of the Pol III transcription initiation factor TFIIIB, which consists of the TATA box-binding protein (TBP) and associated Pol III-specific factors. The transcriptional activity of the TFIIIB-TBP fraction can be modulated in vitro by phosphorylation with mitotic kinases and by dephosphorylation with immobilized alkaline phosphatase.
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PMID:Mitotic repression of RNA polymerase III transcription in vitro mediated by phosphorylation of a TFIIIB component. 827 69

The analysis of RNA chain elongation by Saccharomyces cerevisiae RNA polymerase (Pol) III in the accompanying paper has been extended by examining the encounter of highly purified RNA polymerase with purified individual transcription factors. Arrested ternary transcription complexes were formed with purified Pol III initiating precisely at the 3' overhanging ends of linear DNA. Transcription factors were then bound to DNA and their effects on individual steps of RNA chain elongation were analyzed. The outcome of the encounter between Pol III and TFIIIC was orientation-specific. For RNA synthesis in the sense direction, with Pol III approaching the obstructing protein from the direction of normal transcription, pure TFIIIC rapidly yielded the way to the advancing polymerase: only a single step of RNA chain elongation was slightly slowed by pure TFIIIC occupying its boxB binding site in the SUP4 tRNA(Tyr) gene. In a complete cell-free fraction, protein binding to this tRNA gene likewise generated a delay of only approximately 0.15 to 0.2 second in executing the same step. Transcription by pure Pol III in the sense direction also dissociated the TFIIIC-SUP4 gene complex. The encounter of Pol III elongating RNA chains in the anti-sense direction with the backside of TFIIIC yielded a different outcome. RNA chain elongation paused extensively six to nine base-pairs beyond the downstream edge of the DNA-binding site of TFIIIC, with a median delay of nine seconds, approximately 50 times longer than in the sense direction. At the height of its effect on RNA chain elongation, the TFIIIC-imposed barrier entrapped the great majority of RNA chains, but their elongation was eventually allowed to continue. In contrast, DNA-bound TFIIIB completely blocked RNA chain elongation in the anti-sense direction. The role of the internal promoter element in transcription by Pol III is discussed in the light of this analysis. The large bulk of TFIIIC, which binds with high affinity to boxB, and also to boxA, is particularly suited to occluding its transcription unit to other proteins. At the same time, TFIIIC makes way for transcription so rapidly that it places no limit on the level of gene activity.
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PMID:Encounters of Saccharomyces cerevisiae RNA polymerase III with its transcription factors during RNA chain elongation. 830 84

In the human small nuclear RNA (snRNA) promoters, the presence of a TATA box recognized by the TATA box-binding protein (TBP) determines the selection of RNA polymerase III over RNA polymerase II. The RNA polymerase II snRNA promoters are, therefore, good candidates for TBP-independent promoters. We show here, however, that TBP activates transcription from RNA polymerase II snRNA promoters through a non-TATA box element, the snRNA proximal sequence element (PSE), as part of a new snRNA-activating protein complex (SNAPc). In contrast to the previously identified TBP-containing complexes SL1, TFIID, and TFIIIB, which appear dedicated to transcription by a single RNA polymerase, SNAPc is also essential for RNA polymerase III transcription from the U6 snRNA promoter. The U6 initiation complex appears to contain two forms of TBP, one bound to the TATA box and one bound to the PSE as a part of SNAPc, suggesting that multiple TBP molecules can have different functions within a single promoter.
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PMID:Targeting TBP to a non-TATA box cis-regulatory element: a TBP-containing complex activates transcription from snRNA promoters through the PSE. 833 31

The TATA-binding proteins (TBP) from both human and Drosophila have been shown to exist in various distinct multiprotein complexes that are required, respectively, for transcription by all three RNA polymerases. In contrast, in vitro biochemical analyses have suggested that yeast TBP exists as a monomeric 27-kDa protein free in solution. We have examined the oligomerization state of yeast TBP and report here that yeast TBP, like human and Drosophila TBPs, is also stably associated with other proteins in vitro. Using anti-TBP antibodies we have immunopurified yeast TBP and associated factors (TBP-associated factors or TAFs). When this fraction was analyzed by SDS-polyacrylamide gel electrophoresis, polypeptides of approximate relative molecular size ranging from 170 to 60 kDa are prominently represented. Immunoblot analysis revealed that one of these TAFs, TAF70, corresponds to BRF1/TDS4/PCF4, a subunit of transcription factor (TF) IIIB. Furthermore, this highly purified TAF fraction can reconstitute polymerase III transcription when supplemented with purified RNA polymerase III and TFIIIC. Our data indicate that our TAF fraction contains TFIIIB transcription factor activity and that all the subunits of yeast TFIIIB are stably complexed with TBP.
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PMID:Immunopurification of yeast TATA-binding protein and associated factors. Presence of transcription factor IIIB transcriptional activity. 834 Mar 60

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