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 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

Phosphorylation of the carboxy-terminal domain of the largest subunit of RNA polymerase II is believed to control the transition from transcription initiation to elongation. The general transcription factor IIH (TFIIH) contains a kinase activity capable of phosphorylating this domain. Factors that promote the association of RNA polymerase II with the preinitiation complex stimulate this activity. The transcription factor IIE, which is required for the stable association of TFIIH with the preinitiation complex, affects the processivity of TFIIH kinase.
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PMID:Human general transcription factor IIH phosphorylates the C-terminal domain of RNA polymerase II. 149 58

The TATA-box-binding protein, first noted for its association with the general transcription factor TFIID, has recently been shown to be required for transcription by all three classes of nuclear RNA polymerase found in eukaryotes. As such, it plays a unique and pivotal role in gene expression in higher organisms.
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PMID:The TATA-binding protein: a central role in transcription by RNA polymerases I, II and III. 150 19

The general transcription factor TFIIIC is necessary for transcription initiation by RNA polymerase III. TFIIIC binds predominantly to the B-Block promoter element, which is present in tRNA genes, several viral RNA genes and repetitive DNA elements, and to the TFIIIA.DNA complex on 5 S RNA genes. Here we report a characterization of Xenopus laevis TFIIIC and its interaction with the TFIIIA.5 S RNA gene complex. A polypeptide with apparent molecular mass of 85 kDa was specifically cross-linked to a B-Block oligonucleotide by UV light. This polypeptide was present in the partially purified TFIIIC fraction and in a complex with a B-Block double-stranded oligonucleotide isolated by nondenaturing gel electrophoresis. TFIIIC.TFIIIA.DNA gel mobility shift complexes were obtained using B-Block DNA affinity-purified TFIIIC and buffer conditions employing low Mg2+ (1 mM) and high dithiothreitol (7 mM) concentrations. Three TFIIIC.TFIIIA.5 S RNA gene complexes were observed by gel mobility shift analysis. One of these complexes was resistant to dissociation by the addition of competing DNA, but the formation of all three complexes was prevented by the inclusion of excess specific competitor DNA in the initial binding reactions. The apparent affinity of TFIIIC for the TFIIIA.5 S DNA complex was 5-fold higher for the somatic-type 5 S RNA gene than for the oocyte-type 5 S RNA gene. Mutations near the 5' boundary of the TFIIIA binding site alter the DNase I footprint of the TFIIIA.DNA complex and reduce the affinity of TFIIIA-mutant 5 S gene complexes for TFIIIC. Differences in TFIIIC affinity for the two classes of 5 S RNA genes may play a role in the developmental regulation of these gene families.
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PMID:Interaction of Xenopus TFIIIC with the TFIIIA.5 S RNA gene complex. 151 47

A general transcription factor IID which binds to the TATA box promoter element on RNA polymerase II genes regulates and initiates eukaryotic mRNA synthesis. A quantitative polymerase chain reaction procedure was developed and the human transcription factor IID (hTFIID) transcript was measured in normal human tissues, lung carcinomas, lung carcinoma cell lines, and breast carcinomas. In some normal tissues such as liver, fetal lung, and placenta, relatively low to moderate levels of hTFIID mRNA were detected. In contrast, hTFIID transcript was highly expressed in nearly all solid lung carcinomas and cell lines including both small cell lung cancer and non-small cell lung cancer. hTFIID mRNA was present to a greater extent in small cell lung cancer than non-small cell lung cancer in solid tumors and cell lines. In solid carcinomas of breast, overexpression of hTFIID was also detected. A serum induction study using a serum-starved small cell lung cancer cell line, Lu134BS, indicated hTFIID transcription to be rapidly induced at 15 min following stimulation and its response essentially similar to that of protooncogene, c-fos. These results indicate the involvement of the expression of the general transcription factor hTFIID in lung and breast carcinoma, such as being associated with poor differentiation and high mitotic activity.
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PMID:A general transcription initiation factor, human transcription factor IID, overexpressed in human lung and breast carcinoma and rapidly induced with serum stimulation. 172 4

RAP30/74 is a human general transcription factor that binds to RNA polymerase II and is required for initiation of transcription in vitro regardless of whether the promoter has a recognizable TATA box (Z. F. Burton, M. Killeen, M. Sopta, L. G. Ortolan, and J. F. Greenblatt, Mol. Cell. Biol. 8:1602-1613, 1988). Part of the amino acid sequence of RAP30, the small subunit of RAP30/74, has limited homology with part of Escherichia coli sigma 70 (M. Sopta, Z. F. Burton, and J. Greenblatt, Nature (London) 341:410-414, 1989). To determine which sigmalike activities of RAP30/74 could be attributed to RAP30, we purified human RAP30 and a RAP30-glutathione-S-transferase fusion protein that had been produced in E. coli. Bacterially produced RAP30 bound to RNA polymerase II in the absence of RAP74. Both partially purified natural RAP30/74 and recombinant RAP30 prevented RNA polymerase II from binding nonspecifically to DNA. In addition, nonspecific transcription by RNA polymerase II was greatly inhibited by RAP30-glutathione-S-transferase. DNA-bound RNA polymerase II could be removed from DNA by partially purified RAP30/74 but not by bacterially expressed RAP30. Thus, the ability of RAP30/74 to recruit RNA polymerase II to a promoter-bound preinitiation complex may be an indirect consequence of its ability to suppress nonspecific binding of RNA polymerase II to DNA.
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PMID:The general transcription factor RAP30 binds to RNA polymerase II and prevents it from binding nonspecifically to DNA. 172 6

Transcription of small genes by RNA polymerase III or C (pol III) involves many of the strategies that are used for transcription complex formation and occasionally the same components as those used by RNA polymerase II or B (pol II). Transcription complex formation is a multistep process that leads to the binding of a single initiation factor, TFIIIB, which in turn directs the selection of pol III. The general transcription factor TFIID can be involved in both pol II and pol III transcription. These and other similarities point towards a unifying mechanism for eukaryotic transcription initiation.
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PMID:RNA polymerase III (C) and its transcription factors. 177 70

A T7 RNA polymerase expression system has been used for the efficient expression of the yeast RNA polymerase general transcription factor TFIID (TFIIDY), the TATA-box factor (previously called BTF1) in Escherichia coli. Expression of the gene was performed at 25 degrees C instead of 37 degrees C to increase the total amount of soluble TFIIDY. Soluble TFIIDY was purified in three chromatographic steps and was eluted from the final column, a heparin-5PW HPLC column, in two peaks at 0.38 M (peak I) and 0.42 M (peak II) KCl in which this protein was 52% and greater than 95% pure, respectively. The protein in both peaks was active in an in vitro transcription assay. However, while TFIIDY from peak II was essentially indistinguishable from the material isolated from yeast, the protein of peak I differed in a number of biochemical characteristics, having a lower specific activity in an in vitro transcription assay and displaying an altered pattern of bands in a DNA band shift assay. Despite these differences, the proteins in both peaks have identical molecular weights on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, have indistinguishable N-terminal amino acid sequences, and apparently exist as monomers under the conditions used for the heparin-5PW chromatography.
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PMID:Expression in Escherichia coli: purification and properties of the yeast general transcription factor TFIID. 182 18

A general transcription factor (BTF2) has been purified from HeLa whole cell extract and shown to be absolutely required for the formation of a functional initiation complex. We also demonstrate that this factor binds in solution to RNA polymerase B(II) and to the other general transcription factors BTF1(TFIID), BTF3, and BTF4. These results strongly suggest the existence of multiple interactions between the various components of the multiprotein initiation complex.
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PMID:Purification and interaction properties of the human RNA polymerase B(II) general transcription factor BTF2. 193 43

The general transcription factor IIE (TFIIE) is an essential component of the eukaryotic RNA polymerase II initiation complex. We have isolated human complementary DNA clones for both the subunits of TFIIE. Using purified recombinant proteins we find that both subunits are essential to form a stable preinitiation complex and to reconstitute basal-level and Sp1-activated transcription in vitro. Analysis of their predicted amino-acid sequences reveals several intriguing structural motifs that could provide insight into the role of TFIIE in transcription initiation.
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PMID:Structure and functional properties of human general transcription factor IIE. 195 98

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