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 general transcription factor TFIIE has an essential role in eukaryotic transcription initiation together with RNA polymerase II and other general factors. Human TFIIE consists of two subunits of relative molecular mass 57,000 (TFIIE-alpha) and 34,000 (TFIIE-beta) and joins the preinitiation complex after RNA polymerase II and TFIIF. Here we report the cloning and structure of a complementary DNA encoding a functional human TFIIE-alpha. TFIIE-alpha is necessary for transcription initiation together with TFIIE-beta, and recombinant TFIIE-alpha can fully replace the natural subunit in an in vitro transcription assay. The sequence contains several interesting structural motifs (leucine repeat, zinc finger and helix-turn-helix) and sequence similarities to bacterial sigma factors that suggest direct involvement in the regulation of transcription initiation.
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PMID:Structural motifs and potential sigma homologies in the large subunit of human general transcription factor TFIIE. 195 3

A general initiation factor, TFIIE, is essential for transcription initiation by RNA polymerase II in conjunction with other general factors. TFIIE is a heterotetramer containing two subunits of relative molecular mass 57,000 (TFIIE-alpha) and two of 34,000 (TFIIE-beta). TFIIE-beta is required in conjunction with TFIIE-alpha for transcription initiation. Here we report the cloning and expression of a complementary DNA encoding a functional human TFIIE-beta. Recombinant TFIIE-beta could replace the natural TFIIE-beta for transcription in conjunction with TFIIE-alpha. Amino-acid sequence comparisons reveal regions with sequence similarities to: subregion 3 of bacterial sigma factors; a region of RAP30 (the small subunit of TFIIF) with sequence similarity to a sigma-factor subregion implicated in binding to RNA polymerase; and a portion of the basic region-helix-loop-helix motif found in several enhancer-binding proteins. These potential homologies have implications for the role of TFIIE in preinitiation complex assembly and function.
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PMID:Conserved sequence motifs in the small subunit of human general transcription factor TFIIE. 195 4

We have used a recently developed system that allows the isolation of complexes competent for RNA polymerase II elongation (E. Bengal, A. Goldring, and Y. Aloni, J. Biol. Chem. 264:18926-18932, 1989). Pulse-labeled transcription complexes were formed at the adenovirus major late promoter with use of HeLa cell extracts. Elongation-competent complexes were purified from most of the proteins present in the extract, as well as from loosely bound elongation factors, by high-salt gel filtration chromatography. We found that under these conditions the nascent RNA was displaced from the DNA during elongation. These column-purified complexes were used to analyze the activities of different transcription factors during elongation by RNA polymerase II. We found that transcription factor IIS (TFIIS), TFIIF, and TFIIX affected the efficiency of elongation through the adenovirus major late promoter attenuation site and a synthetic attenuation site composed of eight T residues. These factors have distinct activities that depend on whether they are added before RNA polymerase has reached the attenuation site or at the time when the polymerase is pausing at the attenuation site. TFIIS was found to have antiattenuation activity, while TFIIF and TFIIX stimulated the rate of elongation. In comparison with TFIIF, TFIIS is loosely bound to the elongation complex. We also found that the activities of the factors are dependent on the nature of the attenuator. These results indicate that at least three factors play a major role during elongation by RNA polymerase II.
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PMID:Role of the mammalian transcription factors IIF, IIS, and IIX during elongation by RNA polymerase II. 199 86

We have identified and partially characterized another human general transcription factor, TFIIG. Using a reconstituted in vitro system comprised of purified RNA polymerase II, TFIIB, TFIID, TFIIE, and TFIIF, we found that TFIIG was essential for specific initiation from all class II genes tested. In this system TFIIA could partially replace TFIIG; however, even at saturating concentrations of TFIIA, addition of TFIIG further stimulated transcription. Since the chromatographic properties of TFIIG differed significantly from those of TFIIA, we concluded that TFIIA and TFIIG are distinct but functionally related transcription factors. Heparin challenge assays showed that TFIIG is required for the assembly of a functional preinitiation complex. However, it must act after template commitment by TFIID, since this step did not require, and was unaffected by, either TFIIG or TFIIA.
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PMID:Factors involved in specific transcription by mammalian RNA polymerase II: identification of general transcription factor TFIIG. 225 Dec 57

RNA polymerase II is a multisubunit enzyme involved in the transcription of protein encoding genes. Recently acquired knowledge of the transcription process and of the RNA polymerase molecule as well as the isolation of subunit clones have led to a better understanding of the enzyme's functional regulation. Specific transcription initiation occurs at promoter regions located upstream of the gene and requires a minimum of five basic factors in addition to the enzyme. Furthermore, proteins that bind to specific DNA elements within the promoter also regulate transcriptional activity. Additional factors are required for the elongation and, possibly, termination of transcription. Two elongation factors, SII and TFIIF, interact directly with the RNA polymerase II molecule. Functional domains of RNA polymerase II have been determined by analysis of genomic clones for the two largest subunits of the enzyme. For example, the 240-kDa largest subunit contains a highly phosphorylated carboxyl-terminal heptapeptide domain repeated 26-52 times that is absolutely required for transcription in vivo. Analysis of the polymerase molecule and its interaction with basic gene-specific transcription factors will aid in our studies of the control of gene expression.
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PMID:Promoter specificity and modulation of RNA polymerase II transcription. 264 3

Transcription from class II promoters requires five general factors, IIA, IIB, IID, IIE, and IIF, in addition to RNA polymerase II for basal levels of transcription (Reinberg, D., Flores, O., and Buckbinder, L. (1987) in Molecular Biology of RNA: New Perspectives (Inouye, M., and Dudock, B., eds) pp. 423-439, Academic Press, Orlando, FL). A protein fraction containing transcription factors (TF) IIE and IIF was able to reconstitute transcription from the adenovirus major late promoter when added to extracts depleted of the RNA polymerase II-associating proteins RAP 30 and RAP 74 (Sopta, M., Carthew, R.W., and Greenblatt, J. (1985) J. Biol. Chem. 260, 10353-10360). Studies with monoaffinity-purified antibodies directed against RAP 30 demonstrated, by Western blot analysis, that RAP 30 copurifies on five columns with transcription factor IIF. That RAP 30 is a functional component of TFIIF was also demonstrated; preincubation of anti-RAP 30 antibodies with purified TFIIF inhibited transcription. Inhibition of transcription was overcome by the addition of purified TFIIF. RAP 30 is an integral part of a preinitiation complex; the incubation of all the general transcription factors with a promoter-containing DNA, prior to the addition of the anti-RAP 30 antibodies, resulted in the formation of a DNA-protein complex that was not inhibited by the antibodies. Incubation of the transcription factors in the absence of a promoter-containing DNA resulted in a complex that was partially resistant to the antibodies.
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PMID:Factors involved in specific transcription by mammalian RNA polymerase II. RNA polymerase II-associating protein 30 is an essential component of transcription factor IIF. 339 44

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 protein kinase MO15/CDK7 has recently been shown to be associated with the general transcription factor TFIIH and to be capable of phosphorylating the RNA polymerase II carboxy-terminal domain. Here, we show that a monoclonal MO15/CDK7 antibody coimmunoprecipitates, from a rat liver nuclear extract, all components of the RNA polymerase II transcription apparatus required for initiation at the albumin and adenovirus major late promoters. The immunoprecipitate includes RNA polymerase II, TFIID, TFIIB, TFIIH, TFIIF, and TFIIE, but is devoid of transcriptional activator proteins, such as HNF1, HNF4, and C/EBP alpha. The finding of an autonomously initiating RNA polymerase II holoenzyme in mammalian cells suggests conceptual similarities between transcription initiation in prokaryotes and eukaryotes.
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PMID:A mammalian RNA polymerase II holoenzyme containing all components required for promoter-specific transcription initiation. 755 66

Accurate and regulated transcription by RNA polymerase II requires the assembly of an initiation complex involving multiple protein-DNA and protein-protein interactions. A key event is binding of TFIID, a complex consisting of TBP and associated factors (TAFs) to the template DNA. The TAF subunits of TFIID carry out diverse functions critical for transcription, including specific contact with enhancer proteins and binding to core promoter DNA. However, the role of TAFs in RNA polymerase II-mediated transcription initiation and cross talk with other basal factors remains poorly characterized. Here, we report the specific interaction of TAFII250 with RAP74, an essential subunit of the basal transcription factor IIF. Using various in vitro binding assays we have mapped recognition interfaces between TAFII250 and RAP74. In vivo complementation of a temperature-sensitive TAFII250 cell line reveals that the RAP74 interaction is critical for cell viability. Because TFIIF is thought to be responsible for binding and recruiting RNA polymerase II, the ability of TAFII250 to interact selectively with RAP74 is likely to contribute a critical contact for the assembly of an active transcription complex.
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PMID:Human TAFII250 interacts with RAP74: implications for RNA polymerase II initiation. 759 Feb 50

TFIIF is unique among the general transcription factors because of its ability to control the activity of RNA polymerase II at both the initiation and elongation stages of transcription. Mammalian TFIIF, a heterodimer of approximately 30-kDa (RAP30) and approximately 70-kDa (RAP74) subunits, assists TFIIB in recruiting RNA polymerase II into the preinitiation complex and activates the overall rate of RNA chain elongation by suppressing transient pausing by polymerase at many sites on DNA templates. A major objective of efforts to understand how TFIIF regulates transcription has been to establish the relationship between its initiation and elongation activities. Here we establish this relationship by demonstrating that TFIIF transcriptional activities are mediated by separable functional domains. To accomplish this, we sought and identified distinct classes of RAP30 mutations that selectively block TFIIF activity in transcription initiation and elongation. We propose that (i) TFIIF initiation activity is mediated at least in part by RAP30 C-terminal sequences that include a cryptic DNA-binding domain similar to conserved region 4 of bacterial sigma factors and (ii) TFIIF elongation activity is mediated in part by RAP30 sequences located immediately upstream of the C terminus in a region proposed to bind RNA polymerase II and by additional sequences located in the RAP30 N terminus.
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PMID:Dissection of transcription factor TFIIF functional domains required for initiation and elongation. 759 77

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