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 a principal component of the general factor TFIID and is required for specific transcription by RNA polymerase II. We have shown that TBP is also a general factor for RNA polymerase III.
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PMID:The TATA-binding protein is a general transcription factor for RNA polymerase III. 129 45

While the components of the initiation complex at an RNA polymerase II basal promoter have been well characterized, few mechanistic studies have focused on how upstream DNA-binding, transcriptional activators influence protein assembly at the initiation site. Our analysis of basal transcription on both the simian virus 40 and adenovirus major late promoters demonstrates that two slow steps in initiation of transcription are the assembly of the general transcription factors TFIID and TFIIB onto the template DNA. On the simian virus 40 major late promoter, the rate of initiation complex formation is dramatically increased in the presence of the cellular transcriptional activator LSF. Direct analysis by band mobility shift assays demonstrates that LSF has no effect on the rate of binding, or the stability of TFIID on the promoter, predicting that LSF would not affect the template commitment step. Rather, kinetic analyses demonstrate that LSF reduces the lag in the rate of initiation complex formation attributable to the slow addition of TFIIB and suggest that LSF increases the rate of association of TFIIB with the committed template. In addition, LSF increases the total number of transcription complexes in long term assays, which is also consistent with LSF increasing the rate of association of TFIIB, where TFIIB is not saturating. These results indicate a mechanism for the activation of the initiation of RNA polymerase II transcription by one upstream activating protein, LSF. This mechanism may also be applicable to other activators that function in cases where limiting concentrations of TFIIB in the cell dictate slow binding of TFIIB.
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PMID:Activation of RNA polymerase II transcription by the specific DNA-binding protein LSF. Increased rate of binding of the basal promoter factor TFIIB. 131 10

Many viral and cellular promoters transcribed in higher eukaryotes by RNA polymerase II lack obvious A+T-rich sequences, called "TATA" boxes, that bind the transcription factor TFIID. One such TATA-less promoter, the simian virus 40 major late promoter, contains a genetically important sequence element 30 base pairs upstream of its transcription initiation site that has no obvious sequence similarity to a TATA box. We show here that the cloned human TATA box-binding protein, hTFIID tau, functionally binds to this upstream sequence element, although with an affinity one-sixth of that to which it binds the TATA box of the adenovirus type 2 major late promoter. Analysis of point mutations in the -30 element of the simian virus 40 major late promoter shows that the affinity of binding correlates with the efficiency of transcription from this promoter. Furthermore, this element has genetic properties similar to those of a TATA box. (i) It directs RNA polymerase II to initiate transcription approximately 30 base pairs downstream of its location, and (ii) inactivation of this element results in increased heterogeneity in the sites of transcription initiation. All of five other TATA-less promoters tested were found to contain a sequence approximately 30 base pairs upstream of their major transcription initiation sites to which hTFIID tau binds. We conclude that many, if not all, TATA-less promoters differ from TATA box-containing promoters simply in the affinity of their -30 regions for binding of TFIID, with functional binding of TFIID supported in part by other nearby sequence elements of the promoter.
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PMID:Functional binding of the "TATA" box binding component of transcription factor TFIID to the -30 region of TATA-less promoters. 132 24

Initiation of transcription by RNA polymerase II requires a TFIID factor, which can recognize the TATA element common to many promoters. Two distinct multisubunit TFIID factors can be resolved from extracts of mammalian cells, and both of them contain the well-characterized TATA-binding protein (TBP) and are capable of supporting RNA polymerase II transcription in an in vitro reaction system. The smaller complex, B-TFIID, was purified and its subunit composition was determined. B-TFIID consists of two subunits: the TBP and a TBP-associated factor (TAF) of 170 kDa. This TAF is specific for B-TFIID and appears not to be present in the D-TFIID complex. Furthermore, it was found that the highly purified B-TFIID fractions have (d)ATPase activity.
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PMID:Composition of transcription factor B-TFIID. 138 11

A critical regulatory element in many promoters transcribed by RNA polymerase II is the "TATA" box, which is located 25-30 nucleotides upstream of the transcription initiation site. TFIID is a biochemically defined HeLa cell nuclear fraction containing a transcription factor activity that binds specifically to the TATA box and is critical in determining both basal and regulated promoter activity. Recently, the gene for a TATA-binding protein was cloned and found to bind to various TATA elements and to substitute for TFIID in stimulating basal gene expression in in vitro transcription systems. However, it is possible that additional cellular factors can bind to the TATA element and influence the level of gene expression. By using lambda gt11 expression cloning with oligonucleotides corresponding to the human immunodeficiency virus 1 TATA element, we report the identification of a cellular protein with a calculated molecular mass of 123 kDa that we designate TATA element modulatory factor (TMF). TMF binds to the human immunodeficiency virus 1 TATA element in gel-retardation assays and inhibits activation of the viral long terminal repeat by the TATA-binding protein in in vitro transcription assays. TMF contains leucine-zipper amino acid motifs and exhibits homology in its DNA binding domain with the phage-encoded DNA binding protein Ner. Chromosomal mapping localizes the TMF gene to human chromosome 3p12-p21, which is a site of frequent rearrangements in lung and renal carcinomas. Thus, TMF is a transcription factor that likely regulates the expression of both viral and cellular genes.
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PMID:Cloning and chromosomal mapping of a human immunodeficiency virus 1 "TATA" element modulatory factor. 140 43

In vivo UV cross-linking and nuclear transcriptional run-on experiments have shown that a number of Drosophila genes possess an elongationally paused RNA polymerase on their 5' ends. Here, we examine in vivo promoters that do and do not possess paused polymerases using the single-stranded DNA-probing reagent KMnO4. Melted DNA helices are found associated with the pause site of the uninduced hsp70 and hsp26 heat shock genes and the constitutively expressed beta-1 tubulin gene. The histone H1 and H2B genes, which lack a paused polymerase, have no comparable region of melted DNA. Melting at the pause site persists upon heat shock induction of the hsp70 and hsp26 genes, indicating that pausing continues after gene activation. Interestingly, activation triggers additional melting, both at the start site (in the region where open complexes would be expected to form) and downstream of the uninduced pause site. In the course of our studies, we discovered that some T residues of the TATA box were protected from KMnO4 modification in both induced and uninduced cells. This protection appears to be a consequence of TFIID binding, as a similar protection pattern could be produced in vitro with purified protein.
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PMID:Promoter melting and TFIID complexes on Drosophila genes in vivo. 142 79

The early E2 (E2E) promoter of adenovirus type 2 possesses a TATA-like element and binding sites for the factors E2F and ATF. This promoter is transcribed by RNA polymerase II in high salt nuclear extracts, but by RNA polymerase III in standard nuclear extracts, as judged by sensitivity to low and high, respectively, concentrations of alpha-amanitin. Transcription by the two RNA polymerases initiated at the same site and depended, in both cases, on the TATA-like sequence and upstream elements. However, RNA polymerase III transcripts, unlike those synthesized by RNA polymerase II, terminated at two runs of Ts downstream of the initiation site. Although they are not essential, sequences downstream of the initiation site increased the efficiency of E2E transcription by RNA polymerase III. Such RNA polymerase III dependent transcription required a subpopulation of the general transcription factor, TFIID: TFIID that binds weakly to phosphocellulose (0.3 M eluate) complemented a TFIID-depleted extract to restore RNAp III transcription, whereas TFIID tightly associated with phosphocellulose (1 M eluate) was unable to do so.
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PMID:Specific transcription from the adenovirus E2E promoter by RNA polymerase III requires a subpopulation of TFIID. 145 34

The human class II transcription factor TFIIB (rTFIIB) was overexpressed in Escherichia coli using a T7 RNA polymerase expression system and further purified to apparent homogeneity. The purified rTFIIB is identical to the endogenous factor according to the following criteria: molecular weight, microsequencing and mass spectra studies, ability to recognize the stable preinitiation complex formed between TFIID and the adenovirus 2 major late TATA box as demonstrated by gel shift as well as by DNase I footprinting assays, and transcription activity.
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PMID:Expression in Escherichia coli: purification and properties of the recombinant human general transcription factor rTFIIB. 145 51

The TATA box-binding protein TBP directs transcription by all three eukaryotic RNA polymerases. In mammalian cells, TBP is found in at least three different complexes: SL1, D-TFIID, and B-TFIID. While SL1 and D-TFIID are involved in RNA polymerase I and II transcription, respectively, no unique function has been assigned to the B-TFIID complex. Here we show that the TFIIIB fraction required for RNA polymerase III transcription contains two separable components, one of which is a TBP-containing complex that may correspond to B-TFIID. For transcription of TATA-less RNA polymerase III genes such as the VAI, 5S, and 7SL genes, this complex cannot be replaced by either TBP alone or the D-TFIID complex. In contrast, TBP alone is active for basal transcription from the TATA-containing U6 promoter. This indicates different requirements for recruiting TBP to TATA-less and TATA-containing RNA polymerase III promoters.
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PMID:A TBP complex essential for transcription from TATA-less but not TATA-containing RNA polymerase III promoters is part of the TFIIIB fraction. 145 34

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

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