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)

Escherichia coli RNA polymerase (RNAP) exhibits a strong selectivity for the secondary structure of its template DNA, as shown by the influence both of the DNA conformation on the transcription cycle and of the enzyme on the DNA conformation itself. Binding, chain initiation and elongation characteristics of RNAP, and DNA conformational characteristics were examined by use of the alternating copolymer poly(dGdm5C).poly(dGdm5C) as template. Transcription is impeded when the DNA is in the Z conformation as compared with the B; the initial conformation is determined by the concentration of the conformational effectors of Mg2+ and [Co(NH3)6]3+. RNAP binds to both Z and B conformers; the total binding is moderately greater when the template is in the B conformation than when it is strongly stabilized in the Z, by [Co(NH3)6]3+ concentrations much higher than those required for B-Z transition. However, the Z conformer is much more easily displaced competitively from the bulk of its complexes with RNAP than is the B, indicating a specific binding preference for the B conformer. When the template is in the B conformation, or is moderately stabilized in the Z by Mg2+ concentrations such that the polynucleotide is just fully converted from B to Z, elongation is predicted well by chain initiation, indicating that on the Z conformer RNAP is effectively inhibited at the chain initiation or at an earlier stage. The average chain growth rates for polymeric product synthesized on B and on moderately stabilized Z are similar, even though overall RNA synthesis is considerably lowered on the Z form, again indicating that the limiting events precede elongation. When the Z conformer is strongly stabilized, chain initiation and elongation are further inhibited. Elongation is still roughly correlated with chain initiation, but some additional inhibition of elongation takes place independently. Circular dichroism analysis shows that RNAP-DNA binding affects the B-Z conformational equilibrium, leading to reformation of the B conformer from Z and interference with conversion of B to Z, under conditions that would otherwise favor the Z conformer. Thus, there is an RNAP concentration dependent shift of the B-Z transition to higher concentrations of Z-inducing cation, and there is an RNAP concentration dependent decrease in the rate of B to Z conversion. These effects were observed for poly(dGdm5C).poly(dGdm5C), with Z stabilized by [Co(NH3)6]3+ or Mg2+. (They were observed as well for the unmethylated copolymer poly(dGdC).poly(dGdC), with Z stabilized by [Co(NH3)6]3+.) Perturbation of the Z conformer was detectable by circular dichroism at an RNAP:polynucleotide ratio down to a practical limit of approximately 1 RNAP:500 bp.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Selectivity of Escherichia coli RNA polymerase for template conformation. 205 47

The DNA-dependent RNA polymerase was purified from Rickettsia prowazekii, an obligate intracellular bacterial parasite. Because of limitation of available rickettsiae, the classical methods for isolation of the enzyme from other procaryotes were modified to purify RNA polymerase from small quantities of cells (25 mg of protein). The subunit composition of the rickettsial RNA polymerase was typical of a eubacterial RNA polymerase. R. prowazekii had beta' (148,000 daltons), beta (142,000 daltons), sigma (85,000 daltons), and alpha (34,500 daltons) subunits as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The appropriate subunits of the rickettsial RNA polymerase bound to polyclonal antisera against Escherichia coli core polymerase and E. coli sigma 70 subunit in Western blots (immunoblots). The enzyme activity was dependent on all four ribonucleoside triphosphates, Mg2+, and a DNA template. Optimal activity occurred in the presence of 10 mM MgCl2 and 50 mM NaCl. Interestingly, in striking contrast to E. coli, approximately 74% of the rickettsial RNA polymerase activity was associated with the rickettsial cell membrane at a low salt concentration (50 mM NaCl) and dissociated from the membrane at a high salt concentration (600 mM NaCl).
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PMID:Purification and partial characterization of the DNA-dependent RNA polymerase from Rickettsia prowazekii. 212 Jan 86

Infection of Vero cells with herpes simplex virus type 1 results in the appearance in soluble extracts of a DNA primase activity. The partially purified enzyme, Mr, approximately 100,000, is identical in resistance to alpha-amanitin, pH profile, Mg2+ dependence, salt sensitivity, and KmATP to the catalytic core of Vero cell mitochondrial RNA polymerase. Moreover, the products synthesized are those expected of an RNA polymerase rather than a DNA primase. Inasmuch as the enzyme is not present in soluble extracts of uninfected Vero cells, we presume that the specific appearance of RNA polymerase in extracts of herpesvirus-infected cells results from infection-induced disruption of the mitochondrial membrane, followed by release of the enzyme into the cytosol.
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PMID:Release of RNA polymerase from vero cell mitochondria after herpes simplex virus type 1 infection. 215 32

Nuclei were isolated from bloodstream forms of Trypanosoma brucei by nitrogen cavitation and sedimentation through percoll density gradients. Transcription studies with these nuclei in vitro demonstrated features not seen with other eukaryotes: RNA synthesis was much greater in the presence of Mn2+ than with Mg2+ and was sensitive to high concentrations (10-100 micrograms/ml) of alpha-amanitin at all salt concentrations tested (25-300 mM ammonium sulphate). RNA polymerase extracted from nuclei by sonication at high ionic strength chromatographed as a single peak, sensitive to high alpha-amanitin concentrations, on DEAE-sephadex under conditions which resolved the classic three RNA polymerase forms when rat liver nuclear extracts were used.
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PMID:Unusual RNA polymerase content of Trypanosoma brucei nuclei. 241 50

We have constructed a plasmid expressing E. coli M1 RNA, the catalytic RNA subunit of ribonuclease P, under the control of a phage T7 promoter. The active M1 RNA species synthesized in vitro by T7 RNA polymerase from this vector was reacted with the tRNA(Gln) - tRNA(Leu) precursor RNA (Band K) encoded by phage T4. Only the tRNA(Leu) moiety of this dimeric precursor RNA contains the 3' terminal C-C-A sequence common to all tRNAs. We observed that protein-free M1 RNA was capable of processing the precursor RNA at the 5' ends of both tRNA tRNA sequences. The rate of cleavage of the tRNA(Gln) sequence was more strongly dependent on [Mg2+] than that of tRNA(Leu), increasing severalfold between 100 and 500 mM Mg2+, conditions under which the rate of cleavage at the tRNA(Leu) sequence was constant.
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PMID:Dependence of M1 RNA substrate specificity on magnesium ion concentration. 245 26

We have analyzed the kinetics of DNA synthesis catalyzed by reverse transcriptase from human immunodeficiency virus 1 (HIV-1). Reverse transcriptase, overproduced in Escherichia coli and purified to homogeneity, has polymerase and RNase H activity. Reverse transcriptase forms a stable complex with poly(rA).oligo(dT) primer-templates in the absence of Mg2+ and dTTP with an equilibrium dissociation constant of 3 nM. Synthesis from these preformed complexes can be initiated, and restricted to a single processive cycle, by the simultaneous addition of Mg2+, dTTP, and excess competitor RNA. Preformed complexes decay with a maximal half-life of 2-3 min. Synthesis on poly(rA) templates is processive with an incorporation rate of 10-15 nucleotides/s at 37 degrees C. Processivity varies widely with the template used, increasing from a few to greater than 300 nucleotides in the order: poly(dA) less than double-stranded DNA less than single-stranded DNA less than single-stranded RNA less than poly(rA). On double-stranded DNA reverse transcriptase catalyzes limited strand-displacement synthesis of up to 50 nucleotides. On RNA-DNA hybrids significant DNA synthesis is observed only after degradation of the RNA strand by the RNase H activity of reverse transcriptase. Intermolecular strand switching occurs with poly(rA) templates. At low ionic strength reverse transcriptase can use multiple templates with a single primer, leading to products of greater than template length. Reverse transcriptase and primer do not have to dissociate during the exchange of template strands, thus allowing processive DNA synthesis across template borders.
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PMID:Human immunodeficiency virus 1 reverse transcriptase. Template binding, processivity, strand displacement synthesis, and template switching. 246 38

A protein kinase from wheat germ that phosphorylates the largest subunit of RNA polymerase IIA has been partially purified and characterized. The kinase has a native molecular weight of about 200 kilodaltons. This kinase utilizes Mg2+ and ATP and transfers about 20 phosphates to the heptapeptide repeats Pro-Thr-Ser-Pro-Ser-Tyr-Ser in the carboxyl-terminal domain of the 220-kilodalton subunit of soybean RNA polymerase II. This phosphorylation results in a mobility shift of the 220-kilodalton subunits of a variety of eukaryotic RNA polymerases to polypeptides ranging in size from greater than 220 kilodaltons to 240 kilodaltons on sodium dodecyl sulfate-polyacrylamide gels. The phosphorylation is highly specific to the heptapeptide repeats since a degraded subunit polypeptide of 180 kilodaltons that lacks the heptapeptide repeats is poorly phosphorylated. Synthetic heptapeptide repeat multimers inhibit the phosphorylation of the 220-kilodalton subunit.
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PMID:A protein kinase from wheat germ that phosphorylates the largest subunit of RNA polymerase II. 253 25

Ribonuclease H IIb, which seems to play a physiological role during transcription, was purified from calf thymus tissue. A polyclonal antibody, raised against the most purified ribonuclease H IIb fraction, recognizes in crude extracts almost exclusively a 52-kDa protein band. By immunoaffinity chromatography and immunoprecipitation experiments, we are able to deplete enzyme extracts from the crossreacting 52-kDa protein band and from ribonuclease H IIb activity. Enzyme activity is eluted from the immunoaffinity matrix in association with a 52-kDa protein under denaturing conditions. Immunoaffinity chromatography enables us also to calculate a purification factor of around 20,000 from the crude extract. The native molecular mass for the enzyme of around 45 kDa, as determined by gel filtration, suggests that calf thymus ribonuclease H IIb is most probably monomeric. The enzyme possesses an isoelectric point of 7.0. It requires Mg2+ ions for activity, is inhibited by N-ethylmaleimide, and exhibits a pH optimum of 9.0-9.5. The enzyme releases oligoribonucleotides with 3'-OH and 5'-phosphate ends, probably in an exonucleolytical manner. The third largest subunit of yeast RNA polymerase A (I) displays ribonuclease H activity [Huet et al. (1976) Nature 261, 431-433]. We discuss our findings in the light of a possible association of ribonuclease H IIb and RNA polymerase A (I) in higher eukaryotes.
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PMID:Serological analysis and characterization of calf thymus ribonuclease H IIb. 255 85

Degradation of otherwise stable rRNA and tRNA takes place in the presence of rifampin, dependent on the F plasmid srnB gene. We have reported that a protein newly synthesized in the presence of rifampin might be a product of the srnB gene required for stable RNA degradation (Ito, R. and Ohnishi, Y. (1983) Biochim. Biophys. Acta 739, 27-34). Here we have further studied the mechanism of srnB expression. Among eighteen mutants with altered RNA polymerase, two (TJ2470 (rpoC4) and TJ302 (rpoC56)) showed RNA degradation at high temperature (42 degrees C) when the srnB gene was present. Labeling proteins at 42 degrees C in strain TJ2470 indicated that a protein of molecular weight 12 000 was a product of the srnB gene, and that expression of the srnB gene provoked RNA degradation. Using plasmid pTK4, in which the srnB gene is inserted downstream of the promoter of lacZ, lac promoter-dependent expression of the srnB gene, with production of the putative protein product, also induced RNA degradation at 42 degrees C, with no requirement for added rifampin or altered RNA polymerase. RNA degradation in these conditions was quite similar to that in the case of the addition of rifampin; e.g., it showed some responses to Mg2+, temperature and RNAase I content of the cells. Expression of the srnB gene dependent on lac promoter was also observed in minicells. Thus, it is inferred that the srnB gene is probably repressed under normal conditions with its own promoter; its expression initiates RNA turnover.
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PMID:Expression of srnB gene of F plasmid by altered RNA polymerase in Escherichia coli. 258 16

35 S rRNA is the major intracellular precursor to 18, 5.8, and 25 S rRNAs in Saccharomyces cerevisiae. In this report, we show that the 3' termini of 35 S rRNA as well as 25 S rRNA are generated by post-transcriptional RNA processing rather than transcription termination. Using a partially purified yeast whole cell extract, efficient site-specific cleavage of a synthetic rRNA precursor was demonstrated in vitro. The 3' termini of the processed precursor were established by S1 nuclease protection analysis. RNA molecules containing the mature 3' termini of 35 and 25 S rRNA as well as molecules with a 3' terminus located 12 nucleotides beyond the 3' terminus of 25 S rRNA were the major products of the in vitro processing reaction. Processing activity required Mg2+ but was independent of ribonucleotides. Pretreatment of the yeast whole cell extract with proteinase K abolished processing activity, whereas micrococcal nuclease pretreatment of the extract had no effect on processing activity. These results show that RNA polymerase I-dependent transcription of yeast ribosomal cistrons continues beyond sequences that encode the 3' terminus of 35 S rRNA into the spacer region that separates 35 S rRNA transcription units.
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PMID:In vitro RNA processing generates mature 3' termini of yeast 35 and 25 S ribosomal RNAs. 264 84

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