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)

In a reconstituted system consisting of partially purified RNA polymerase I (pol I) and the initiation factors TIF-IA, TIF-IB, and TIF-IC, the nucleolar factor UBF (upstream binding factor) stimulates transcription from the rRNA-encoding DNA (rDNA) promoter at least 50-fold. This activation is not observed at high template concentrations or in the presence of highly purified pol I. Template commitment experiments suggest that UBF activates transcription by relieving inhibition exerted by a negative-acting factor(s) in the polymerase fraction that competes for TIF-IB binding to the rDNA promoter and prevents the formation of preinitiation complexes. Using purified histone H1 bound to DNA as a model for the repressed state of the rDNA promoter, we show that UBF counteracts H1-mediated repression of pol I transcription. The implications of these findings are discussed with respect to the protein-protein and protein-DNA interactions at the rDNA promoter and the possible involvement of UBF in control of ribosomal gene transcription.
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PMID:Dual role of the nucleolar transcription factor UBF: trans-activator and antirepressor. 150 43

Three serine kinases which phosphorylate the CTD of RNA polymerase II have been identified in Aspergillus nidulans. The kinases (KI, KII, KIII) were identified using a synthetic peptide containing four copies of the CTD consensus heptamer repeat, and differ in chromatographic behavior, and apparent molecular mass (KI approximately 60kDa; KII approximately 82kDa; KIII approximately 43 kDa). KIII utilized, in addition to peptide, histone H1 as substrate, whereas casein was not phosphorylated by any of the three kinases. The kinases appear to be unrelated to the p34cdc2 kinase, as judged by Western blot analysis and the position of serine phosphorylation of the synthetic CTD peptide. KI was highly purified and renaturation experiments have shown that it consists of a single polypeptide of 57 kDa. KI also phosphorylated RNA polymerase II associated in a preinitiation complex.
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PMID:Protein kinases from Aspergillus nidulans that phosphorylate the carboxyl-terminal domain of the largest subunit of RNA polymerase II. 155 38

The present work examines the fate of nucleosomes after in vitro transcription of a 1400 bp DNA template containing the mouse alpha-globin sequences and the promoter of T7 RNA polymerase. Naked and nucleosome-bearing templates (containing about four or seven histone H1-lacking particles per template) have been studied by sedimentation, gel electrophoresis, digestion with restriction nucleases and electron microscopy. Both naked and nucleosome-organized templates could be transcribed in vitro by the T7 polymerase. With all types of templates, both full length and shorter transcripts were obtained. The incomplete transcripts were represented by many distinct bands, pointing to the presence of multiple stops in the process of elongation. The electrophoretic pattern of the transcripts was identical in naked and in nucleosome-containing templates, showing that the stops depended on some particular DNA sequences and not on the presence of nucleosomes. The efficiency of transcription in the presence of nucleosomes was decreased owing to three different factors: (i) blocked initiation in a fraction of the templates which had their promoters occupied by a nucleosome; (ii) a decreased rate of elongation and (iii) a lag period of initiation. Sedimentation velocity, electrophoretic mobility and protection of four different restriction sites of the templates demonstrated that T7 polymerase transcribed through nucleosomes without their displacement.
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PMID:In vitro transcription through nucleosomes by T7 RNA polymerase. 158 22

We have combined immunogold labeling with the Miller spreading technique in order to localize proteins at the electron microscope (EM) level in whole mount nuclei from mouse and human fibroblasts. Anti-histone H1 antibody labels nuclei uniformly, indicating that the nuclear interior is accessible to both antibodies and gold conjugates. Anti-topoisomerase I antibody labels nucleoli intensely, in agreement with previous immunofluorescent and biochemical data. Two different antibodies against the large subunit of RNA polymerase II (pol II) show preferential labeling of the nuclear periphery, as do antibodies against lamin, a known peripheral nuclear protein. Treatment of cells with alpha-amanitin results in loss of virtually all RNA polymerase II staining, supporting the specificity of labeling. Finally, when nuclei are incubated in the presence of biotin-UTP (bio-UTP) under run-off transcription conditions, incorporation is preferentially located at the nuclear periphery. These results support the conclusions that transcriptionally active pol II molecules are non-uniformly distributed in fibroblast nuclei, and that their differential distribution mirrors that of total pol II.
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PMID:Preferential distribution of active RNA polymerase II molecules in the nuclear periphery. 166 44

The relation between chromatin structure and transcriptional activity was examined by in vitro transcription analysis of chromatin reconstituted in the absence or presence of histone H1. To maintain well-defined template DNA, purified components were used in the reconstitution of chromatin. Reconstitution of nucleosomal cores to an average density of 1 nucleosome per 200 base pairs of DNA resulted in a mild reduction of basal RNA polymerase II transcription to 25 to 50 percent of that obtained with naked DNA templates. This nucleosome-mediated repression was due to nucleosomal cores located at the RNA start site and could not be counteracted by the sequence-specific transcription activators Sp1 and GAL4-VP16. When H1 was incorporated into the chromatin at 0.5 to 1.0 molecule per nucleosome (200 base pairs of DNA), RNA synthesis was reduced to 1 to 4 percent of that observed with chromatin containing only nucleosomal cores, and this H1-mediated repression could be counteracted by the addition of Sp1 or GAL4-VP16 (antirepression). With naked DNA templates, transcription was increased by a factor of 3 and 8 by Sp1 and GAL4-VP-16, respectively (true activation). With H1-repressed chromatin templates, however, the magnitude of transcriptional activation mediated by Sp1 and GAL4-VP16 was 90 and more than 200 times higher, respectively, because of the combined effects of true activation and antirepression. The data provide direct biochemical evidence that support and clarify previously proposed models in which there is depletion or reconfiguration of nucleosomal cores and histone H1 at the promoter regions of active genes.
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PMID:Role of nucleosomal cores and histone H1 in regulation of transcription by RNA polymerase II. 171 39

Immunoblot positive sera from children with juvenile rheumatoid arthritis detected from 1 to greater than or equal to 10 proteins in HeLa nuclear sonicates. Thirty percent of the sera reacted with histone H1. Antibodies to at least 1 of 6 most frequently detected nonhistone proteins were present in 85% of the sera. Using immunopurified antibodies to each of the 6 common antigens, we found that 4 of them were associated with mitotic chromosomes. Most sera detected at least 1 of these 4 nonhistone chromosomal proteins. Fifteen percent of the sera immunoprecipitated ribonucleoproteins; some exhibited a novel specificity, precipitating mature transcripts of RNA polymerase III. When present, antibodies to a 45 kDa protein occur only in sera from children without iritis and not in those with active iritis. Overall, the antibody profiles were highly individual and did not appear to correlate with disease subtype or activity.
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PMID:Antinuclear antibody profile in juvenile rheumatoid arthritis. 185 9

To understand the principles of control and selectivity in gene expression, the biochemical mechanisms by which promoter- and enhancer-binding factors regulate transcription by RNA polymerase II were analyzed. A general observed repressor of transcription was purified and identified as histone H1. Since many aspects of H1 binding to naked DNA resemble its interaction with chromatin, purified H1 bound to naked DNA was used as a model for the repressed state of the DNA template. Three sequence-specific transcription factors, Sp1, GAL4-VP16, and GAGA factor, were shown to counteract H1-mediated repression (antirepression). In addition, Sp1 and GAL4-VP16, but not the GAGA factor, activated transcription in the absence of H1. Therefore, true activation and antirepression appear to be distinct activities of sequence-specific factors. Furthermore, transcription antirepression by GAL4-VP16 was sustained for several rounds of transcription. These findings, together with previous studies on H1, suggest that H1 participates in repression of the genome in the ground state and that sequence-specific transcription factors induce selected genes by a combination of true activation and release of basal repression that is mediated at least in part by H1.
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PMID:Sequence-specific antirepression of histone H1-mediated inhibition of basal RNA polymerase II transcription. 189 87

We previously described the purification and characterization of E1BF, a rat rRNA gene core promoter-binding factor that consists of two polypeptides of 89 and 79 kDa. When this factor was incubated in the absence of any exogenous protein kinase under conditions optimal for protein phosphorylation, the 79-kDa polypeptide of E1BF was selectively phosphorylated. The labeled phosphate could be removed from the E1BF polypeptide by treatment with calf intestinal alkaline phosphatase or potato acid phosphatase. Elution of the protein from the E1BF-promoter complex formed in an electrophoretic mobility-shift assay followed by incubation of the concentrated eluent with [gamma-32P] ATP resulted in the selective labeling of the 79-kDa band. The E1BF-associated protein kinase did not phosphorylate casein or histone H1. Fraction DE-B, a preparation containing RNA polymerase I and all polymerase I transcription factors (including E1BF), lost polymerase I transcriptional activity when treated with phosphatase. The phosphatase-induced inactivation of polymerase I activity associated with fraction DE-B could be reversed by the addition of purified E1BF. Treatment of purified E1BF with heat, SDS, or an ATP affinity analog eliminated its capacity to reactivate dephosphorylated fraction DE-B. These data demonstrate that (i) polymerase I promoter-binding factor E1BF contains an intrinsic substrate-specific protein kinase and (ii) E1BF is an essential polymerase I transcription factor that can modulate rRNA gene transcription by protein phosphorylation. Further, these studies have provided a direct means to identify a protein kinase or any other enzyme that can interact with a specific DNA sequence.
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PMID:E1BF is an essential RNA polymerase I transcription factor with an intrinsic protein kinase activity that can modulate rRNA gene transcription. 192 88

Changes in protein kinase activities are thought to contribute to the alteration of gene expression after heat shock and related stresses. In an attempt to identify enzymes which might be involved in both chromatin structure modification and transcriptional switch in heat-shocked cells, we have studied protein kinase activities in heat-shocked cell lysates with two exogenous substrates: a tetramer of a heptapeptide (heptapeptide 4) corresponding to the RNA polymerase II C-terminal domain (CTD), and the histone H1. Heat-shock and arsenite stress were found to stimulate strongly CTD kinase activity. H1 kinase activity was also stimulated but more weakly. Stimulation of CTD and H1 kinases occurs mainly at the early phase of recovery and by a process which is independent of protein synthesis. The stress-induced H1 kinase is shown to contain a molecule related to the mitotic-promoting factor (MPF) Cdc2 component. On the other hand, though Cdc2-related protein has also been reported to be part of a CTD kinase complex, we show that the stress-induced CTD kinase activity corresponds to a distinct entity. It is proposed that stress activation of CTD kinase might be involved in changing the specificity of RNA polymerase II.
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PMID:Heat-shock and related stress enhance RNA polymerase II C-terminal-domain kinase activity in HeLa cell extracts. 217 28

We report here the cross-reaction of RNA polymerase II antiserum with histones H1(0) and H5 and the complementary cross-reactions of antisera to the globular domain of histone H1(0) (GH1(0)) and histone H5 (GH5) with RNA polymerase II. Immunoblotting of RNA polymerase II antiserum with fragments of histone H1(0) localized the cross-reaction at the junction of the globular and C-terminal domains of histone H1(0). The structural homology implied by these cross-reactions is interesting in light of reports that suggest H1(0) may play a role in differentiation and development.
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PMID:Histones H1(0) and H5 share common epitopes with RNA polymerase II. 245 17

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