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)

Bleomycin (BLM) exclusively affects thymidine-containing compounds such as DNA and polydeoxyribonucleotides by releasing free thymine and leaving aldehyde functions. Molecular morphology and base sequence of the DNA strongly influence BLM activity. High BLM concentrations, besides modifying DNA into oligothyminic or athyminic nucleic acids, cause strand scissions. Enzymatic DNA and RNA synthesis is strongly influenced by BLM. The inhibition in DNA-dependent DNA polymerase and DNA-dependent RNA polymerase assays is of the non-competitive type. Protein biosynthesis in in vitro systems is not affected by BLM even at high concentrations. BLM turns out to be a strong inhibitor of DNase I and of DNase II; the inhibition is of the competitive type. The enzymatic activities of nucleases using RNA as substrate (RNase A, RNase B, Rnase T1, venom phosphodiesterase I and spleen phosphodiesterase II) are not influenced by this antibiotic. The antibiotic reduces cell proliferation (L5178y mouse lymphoma cells) in vitro in low concentrations by cytostasis and at higher concentrations by cytotoxicity. In BLM-treated L5178y cells, DNA synthesis is strongly reduced, while RNA and protein synthesis are not affected. In vivo, using growing quail oviducts, cell proliferation and cytodifferentiation are markedly inhibited after BLM treatment. This is attributed to the observed inhibition of DNA synthesis. RNA and protein synthesis as well as gene expression are not influenced by BLM under the conditions used. The selective inhibition of DNA synthesis in vivo may be caused by the following mechanisms: (1) competition of BLM with RNA; (2) blocking of the accessibility of DNA in chromatin to BLM, and (3) dependence from the repair processes. BLM inhibits growth of sarcomas, induced by oncogenic RNA viruses in vivo; well-developed tumours show regression after BLM treatment. Transformation of chick embryo fibroblasts by oncogenic RNA viruses in vitro and growth of these viruses is blocked by BLM; the most sensitive period for BLM inhibition is the time during the first period (integration of viral genome into cellular genome?) after infection.
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PMID:Effect of bleomycin on DNA, RNA, protein, chromatin and on cell transformation by oncogenic RNA viruses. 6 69

The integrity and stability of nucleosomes under transcription assay conditions has been found to depend on concentration and ionic environment. Rifamycin AF/013, a commonly used inhibitor of initiation, is particularly effective in destabilisation of nucleosomes. Intact nucleosomes are refractory to transcription by wheat RNA polymerase II, the histone core preventing initiation. Template titration suggests that the polymerase can, however, bind to nucleosomes, and a 15--16S complex has been observed on sucrose gradients. DNase I digestion of polymerase-nucleosome incubations indicates that whilst histone is still present in the complex, the nucleosome conformation is altered resulting in enhanced nucleolysis at sites near the DNA centre but reduced overall kinetics of digestion.
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PMID:The nature of the interaction of nucleosomes with a eukaryotic RNA polymerase II. 49 50

The activities of RNA polymerases from Pseudomonas putida and Pseudomonas aeruginosa were compared with that of Escherichia coli RNA polymerase in an in vitro transcription system. All three enzymes initiated transcription at the tac promoter and the RNA I promoter of E. coli. We measured the rate of open complex formation between the RNA polymerases and the promoters, and the saturation level of open complex formation at equilibrium in single-round transcription. The relative rates of open complex formation were P. putida > E. coli > P. aeruginosa and the relative saturation levels of open complex formation at equilibrium were E. coli > P. putida > P. aeruginosa for the tac and RNA I promoters. The interaction of the RNA polymerases with the promoters was also studied by DNase I footprinting. The patterns of protection of the Pseudomonas RNA polymerases on the tac promoter were similar to that of E. coli RNA polymerase. However, the protection patterns of the Pseudomonas RNA polymerases on the RNA I promoter were slightly different from that of E. coli RNA polymerase.
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PMID:In vitro interactions of Pseudomonas RNA polymerases with tac and RNA I promoters. 128 50

The external spacer (ES) of rRNA nuclear genes (rDNA) contains the sequences that control rDNA transcription initiation and enhancement. The ES is also characterized in most species by the presence of multiple repeated elements. In higher plants very few data are available on the cis- and trans-acting elements which control rDNA transcription. Using electrophoretic mobility shift assays (EMSA) it is shown that nuclear extracts from young radish leaves (NER) contain a protein fraction which binds to specific sequences in the radish ES. DNase I footprinting analysis allows mapping of the NER protein binding to dA/dT homopolymer stretches and to a 13-bp dA/dT-rich short repeat, found both in the seven approximately 100 bp repeat regions (located -1077 to -740 from transcription initiation site) and the region (-120 to -55) containing the putative promoter for rDNA transcription initiation. Whether this ES binding is due to a single or several different proteins is not known. So far, protein(s) binding to dA/dT-rich regions of a plant rDNA ES has not yet been described. Whether it is a specific RNA polymerase I transcription factor(s) or plays a more general role in genome expression remains to be elucidated.
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PMID:A nuclear protein fraction binding to dA/dT-rich sequences upstream from the radish rDNA promoter [corrected]. 130 50

The behavior of the major vegetative cell RNA polymerase of Bacillus subtilis, E sigma A, during initiation of transcription was compared to that of its Escherichia coli counterpart, E sigma 70, at several promoters known to be actively transcribed by both RNA polymerases. Challenge experiments using heparin, restriction endonucleases, and competing promoter DNA under various conditions showed that, at several promoters, complexes with B. subtilis RNA polymerase formed in the absence of nucleoside triphosphates were unstable. These complexes produced DNase I footprints that were less extended than those produced by the E. coli enzyme at the same promoters. Further, in the presence of certain combinations of nucleoside triphosphates, conditions that allow production of abortive oligonucleotides, these B. subtilis RNA polymerase complexes remained dissociable. Thus, at these promoters, the B. subtilis enzyme interacted with the DNA and reached a catalytically active initial transcribing complex without becoming committed to the template. At these same promoters, E. coli RNA polymerase formed stable open complexes before forming any phosphodiester bonds. B. subtilis initial transcribing complexes also remained sensitive to the drug rifampicin until a later stage in the initiation process than did the corresponding E. coli complexes. At one promoter, B. subtilis E sigma A and E. coli E sigma 70 behaved similarly, forming stable open complexes in the absence of any nucleoside triphosphates.
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PMID:Mechanism of initiation of transcription by Bacillus subtilis RNA polymerase at several promoters. 131 Jul 45

Nucleosome formation on inverted repeats or on some alternations of purines and pyrimidines can be inhibited in vitro by DNA supercoiling through their supercoiling-induced structural transitions to cruciforms or Z-form DNA, respectively. We report here, as a result of study of single nucleosome reconstitutions on a DNA minicircle, that a physiological level of DNA supercoiling can also enhance nucleosome sequence preference. The 357 base-pair minicircle was composed of a promoter of phage SP6 RNA polymerase joined to a 256 base-pair fragment containing a sea urchin 5 S RNA gene. Nucleosome formation on the promoter was found to be enhanced on a topoisomer with in vivo superhelix density when compared to topoisomers of lower or higher superhelical densities, to the nicked circle, or to the linear DNA. In contrast, nucleosomes at other positions appeared to be insensitive to supercoiling. This observation relied on a novel procedure for the investigation of nucleosome positioning. The reconstituted circular chromatin was first linearized using a restriction endonuclease, and the linear chromatin so obtained was electrophoresed as nucleoprotein in a polyacrylamide gel. The gel showed well-fractionated bands whose mobilities were a V-like function of nucleosome positions, with the nucleosome near the middle migrating less. This behavior is similar to that previously observed for complexes of sequence-specific DNA-bending proteins with circularly permuted DNA fragments, and presumably reflects the change in the direction of the DNA axis between the entrance and the exit of the particle. Possible mechanisms for such supercoiling-induced modulation of nucleosome formation are discussed in the light of the supercoiling-dependent susceptibility to cleavage of the naked minicircle with S1 and Bal31 nucleases; and a comparison between DNase I cleavage patterns of the modulated nucleosome and of another, non-modulated, overlapping nucleosome.
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PMID:Chromatin reconstitution on small DNA rings. IV. DNA supercoiling and nucleosome sequence preference. 131 7

The lytic-lysogenic switch in transposable, Mu-like bacteriophage D108 is governed by two divergent and slightly overlapping transcription units originating from the Pe and Pc promoters. DNase I footprinting and in vivo mutational analysis suggest that lysogeny is maintained by c-repressor occupancy of the O2 operator, which precludes RNA polymerase from binding to Pe. Lytic development is controlled by the Ner repressor, which binds to a site symmetrically situated between the converging promoters and, in the absence of other factors, prevents RNA polymerase from binding to either Pc or Pe. DNase I protection and potassium permanganate hypersensitivity in the presence of integration host factor (IHF), which binds and alters the DNA structure upstream of Pe, revealed that RNA polymerase was able to bind Pe irrespective of the Ner.DNA-bound complex, and partially unwind the Pe "-10 region." Ner repression of Pe transcription in vitro was significantly more effective in the absence of IHF. Using a cloned D108 early region-lacZ fusion in IHF-deficient and -proficient backgrounds, we also demonstrate this host factor's affect on ner-repressed Pe in vivo, and generate a system for isolating mutants in the regulatory genes and sites controlling this genetic switch. D108 lytic growth is proposed to occur through IHF-mediated activation of the phage Ner-repressed early operon.
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PMID:Integration host factor activates the Ner-repressed early promoter of transposable Mu-like phage D108. 132 51

Recent evidence suggests that transcription initiation by all three eukaryotic RNA polymerases involves a complex of the TATA-binding protein (TBP) and multiple TBP-associated factors (TAFs). Here, we map the functional domains of the nucleolar HMG box protein hUBF, which binds to the human rRNA promoter and stimulates transcription by RNA polymerase I through cooperative interactions with a distinct TBP-TAF complex, hSL1. DNase I footprint analysis of mutant hUBF proteins and of a synthetic peptide of 84 amino acids reveals that HMG box 1 is necessary and sufficient for DNA sequence specificity, whereas other HMG boxes and the amino terminus modulate the binding efficiency. hUBF contains multiple activation domains that include the acidic carboxyl terminus and three HMG boxes. HMG boxes 3 and 4 and the acidic tail contribute significantly to an extended footprinting pattern in the presence of hSL1, suggestive of specific protein-protein interactions. Moreover, the inability of xUBF from Xenopus laevis to form an initiation complex with hSL1 can be overcome by hybrid proteins containing human HMG box 4 and the acidic carboxyl terminus. These results strongly suggest an important role of transcription activation domains of hUBF in mediating interactions with the TBP-TAF complex hSL1.
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PMID:Multiple domains of the RNA polymerase I activator hUBF interact with the TATA-binding protein complex hSL1 to mediate transcription. 139 72

We report on the discovery and isolation of DNA- and RNA-containing macromolecular nuclear complexes whose purified major DNA possessed electrophoretic mobilities of approximately 90 and approximately 25 kbp. The deoxyribonucleoprotein-ribonucleoprotein complexes contain RNA and DNA polymerase and primase activities and were isolated from nuclei of murine RAW117 large-cell lymphoma cells by restriction digestion with Msp-I, gentle extraction with solutions containing MgCl2, but without chelating agents, and low ionic strength gel electrophoresis. Two-dimensional (isoelectric focusing/M(r)) gel electrophoresis and silver staining of the proteins of the complexes after treatment with DNase I indicated the presence of approximately 30 protein components. In vitro DNA and RNA polymerase/primase assays showed that the DNP/RNP complexes had very high enzyme specific activities. Using the DNP/RNP complexes a discrete DNA polymerase alpha product of approximately 85 kbp was synthesized that was not synthesized in the presence of the DNA polymerase alpha inhibitor aphidicolin. RNA polymerase assays in the presence of excess alpha-amanitin indicated that the complexes possessed significant RNA polymerase I activity. Preparing the complexes at various times after the release of cells from a double thymidine block showed the complexes as well as the complex-associated enzyme activities to be cell-cycle dependent. The DNA and RNA polymerase-related activities were highest in late S phase, 7 and 9 h, respectively, after release from the double thymidine block. The complexes synthesized a specific in vitro DNA polymerase product using endogenous substrate and nucleotide precursors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nucleoprotein complexes released from lymphoma nuclei that contain the abl oncogene and RNA and DNA polymerase and RNA primase activities. 142 73

The structure of the elongation complex of vaccinia RNA polymerase halted at discrete template positions was examined by DNase I footprinting. The leading edge of the footprint bore a constant relationship to the catalytic template position, being 22-24 nucleotides (nt) in advance on the nontemplate strand and 17 nt on the template strand. DNase hypersensitivity of the nontemplate strand at the leading edge suggested that the DNA might be distorted as it entered the polymerase molecule. The region of DNA unwinding at the transcription bubble extended at least 12 nt 5' from the catalytic center, as indicated by the reactivity of adenosine residues to diethylpyrocarbonate. Cu-phenanthroline-hypersensitive sites located 13 nt 5' and 4 nt 3' of the growing point appeared to demarcate the margins of the bubble. Strand asymmetry of chemical modification within the bubble was consistent with an RNA-DNA hybrid of no more than 10 base pairs.
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PMID:Structural analysis of ternary complexes of vaccinia RNA polymerase. 143 98

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