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)

Two reactions of bacteriophage-Qbeta RNA polymerase with synthetic templates were characterized and used to study the effects of substrate, metal and template on inhibition by Pi and PPi. Analysis of the poly(C)-dependent reaction yielded results on kinetics, GTP-dependence, preference for Mn2+ over Mg2+, and Michaelis constants for template similar to those in the literature. New data are provided for the poly(U2,C)-dependent reaction. Our results suggest that GTP and Mn2+ can form relatively stable complexes with the polymerase and that such complexes change the interaction of the enzyme with the inhibitors, Pi and PPi.
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PMID:Substrate, metal and template effects on inhibition of bacteriophage-qbeta ribonucleic acid polymerase by ortho- and pyro-phosphate. 20 14

A new assay yielding mechanistic information on the initiation reaction of Escherichia coli RNA polymerase has been developed. It was found to be useful in characterizing the promoters of bacteriophage DNA templates. The binding of the first two triphosphates in an RNA sequence was determined to be equilibrium ordered with ATP binding first followed by UTP on the lambda promoters PL. and PR. The products resulting from phosphodiester bond formation, pppApU and PPi, dissociated rapidly in the absence of the other triphosphates required for RNA synthesis. The resulting steady state conversion of ATP and UTP into pppApU was the basis for the new assay. The rate-limiting step in the initiation reaction was not precisely determined, but it was argued not to be entirely the release of product. The Zn2+ chelator, 1,10-phenanthroline, was partially characterized and found to be an uncompetitive inhibitor of ATP in the reaction (Ki = 100 micrometer). The unique advantage of this steady state assay is that several steps in the RNA initiation process are amplified kinetically and thus can be examined separately with techniques applicable to any other two-substrate, two-product enzyme reaction.
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PMID:A steady state assay for the RNA polymerase initiation reaction. 36 12

Phosphonoformate (PFA) is a simple PPi analog which inhibits the activities of a variety of viral DNA polymerase, RNA polymerase, and reverse transcriptase enzymes. PFA is a topical and parenteral treatment for human herpesvirus infections and is currently in phase I trials for treatment of acquired immunodeficiency syndrome. Pharmacokinetic properties of PFA in young (growing) and adult specific-pathogen-free cats were compared. Mean PFA clearance from plasma was twofold higher in young cats (7.52 ml/min per kg of body weight) than in adult cats (3.70 ml/min per kg). Higher PFA clearance from plasma observed in young cats may result from higher renal clearance or enhanced accumulation of PFA in bone tissue of young versus adult cats. No plasma protein binding of PFA was observed. Mean oral bioavailability was 35% in young cats. These data indicate that age-related differences in PFA clearance from plasma occur in cats.
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PMID:Age-related differences in pharmacokinetics of phosphonoformate in cats. 214 79

Bacteriophage T3 RNA polymerase promoters have been classified as class II and class III on the basis of their relative location in T3 DNA as well as on the function of the protein products encoded by the messages transcribed from them. In the present work, the efficiency of utilization of several class II and class III promoters by bacteriophage T3 RNA polymerase was compared with regard to (a) rate of initiation of transcription as determined by [32P]PPi exchange with GTP; (b) complex formation between polymerase and promoters in the presence of GTP; and (c) competition between different promoters for T3 RNA polymerase in a standard transcription assay. The results of these experiments indicated that the class II promoters at 1.05 and 22.8 T3 map units, whose promoter sequences are remarkably similar to the consensus class III promoter sequences, are nearly as strong as typical class III promoters. In contrast, the class II promoter at 14.3 T3 map units, whose promoter sequence differs from the consensus class III promoter sequence by having a C:G base pair instead of a usual A:T base pair at the -1 position, was considerably weaker than the class III promoter. When the C:G base pair at this position was changed to A:T using site-directed mutagenesis, the rate of initiation of RNA synthesis from the mutant promoter was similar to that of a typical class III promoter. In agreement with this observation, it was observed that changing the A:T base pair at the -1 position of a strong class II promoter, at 1.05 T3 map units, to C:G decreased the rate of RNA synthesis from this promoter by about 65%. These observations indicate that the nucleotide residues at the -1 position play a critical role in determining the efficiency of promoter utilization by T3 RNA polymerase. The two termination sites recognized in vitro by bacteriophage T3 RNA polymerase on the T3 genome have been cloned, sequenced, and mapped. Analysis of the DNA nucleotide sequence surrounding the termination site at 59.7 map units indicated that the putative RNA transcript arising from this region can be arranged into a GC-rich stem-loop structure followed by a U-rich 3' tail. However, a major fraction of T3 RNA polymerase molecules read through this terminator in vitro to transcribe regions of T3 DNA beyond this terminator. In contrast to termination at 59.7 map units, termination of transcription at 100 T3 map units does not occur in response to any putative terminator structure or sequence.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Relative efficiency of utilization of promoter and termination sites by bacteriophage T3 RNA polymerase. 254 91

Diphosphonic analogues of inorganic pyrophosphate (PPi): methylene-, oxyethylidene-, aminomethylenediphosphonic acids as well as phosphonacetic, imidodiphosphoric bis- (phosphonomethyl)-phosphonic acids and methylenediphosphonic and phosphonic acid monoanhydrides were studied for their effect on the RNA-synthesizing activity of thymocytes. DNA-dependent RNA-polymerases I and II from the calf thymus nuclei were used for these studies. The analogues and PPi under study are shown to be inhibitors of both RNA-polymerases in nuclei from calf thymus and of purified RNA-polymerase II, which is more sensitive to the effect of diphosphonates. Methylenediphosphonic acid is the strongest inhibitor among the studied analogues, and imidodiphosphoric and phosphonacetic acids are the weakest inhibitors. Inhibition of purified RNA-polymerase II by diphosphonates has a complex character and includes both interaction of the PPi analogues with enzymes and chelating by them of Mn ions which are cofactors for RNA polymerase.
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PMID:[The influence of diphosphonic analogues of inorganic pyrophosphate on activity of RNA-polymerases from the calf thymus]. 298 69

The kinetics of interaction of PPi and its diphosphonic analog, methylenediphosphonic acid (MDPA), with nucleoside triphosphates, DNA and Mg2+ binding sites of DNA-dependent RNA polymerase II from calf thymus was investigated. The values of apparent Km in the NTP polymerization reaction for ATP and CTP equal to 2.7 X 10(-4) and 1.8 X 10(-4) M, respectively, were determined. It was shown that MDPA and PPi competitively inhibited the RNA polymerase reaction with respect to nucleoside triphosphate. The inhibition constants (Ki) of ATP and CTP incorporation for MDPA were 2.2 X 10(-4) and 3.3 X 10(-4) M, respectively, while those of the nucleoside triphosphate incorporation for PPi were equal to 1.4 X 10(-4) and 2.0 X 10(-4) M, respectively. MDPA and PPi were incompetitive inhibitors of template (DNA) and Mn2+. A possible mechanism of inhibition of the RNA polymerase reaction by MDPA is proposed.
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PMID:[Kinetics of the interaction of methylene diphosphonic acid and inorganic pyrophosphate with DNA-dependent RNA-polymerase from calf thymus]. 298 49

DNA-directed RNA polymerase from Escherichia coli can break down RNA by catalysing the reverse of the reaction: NTP + (RNA)n = (RNA)n+1 + PPi where n indicates the number of nucleotide residues in the RNA molecule, to yield nucleoside triphosphates. This reaction requires the ternary complex of the polymerase with template DNA and the RNA that it has synthesized. It is now shown that methylenebis(arsonic acid) [CH2(AsO3H2)2], arsonomethylphosphonic acid (H2O3As-CH2-PO3H2) and arsonoacetic acid (H2O3As-CH2-CO2H) can replace pyrophosphate in this reaction. When they do so, the low-Mr products of the reaction prove to be nucleoside 5'-phosphates, so that the arsenical compounds endow the polymerase with an artificial exonuclease activity, an effect previously found by Rozovskaya, Chenchik, Tarusova, Bibilashvili & Khomutov [(1981) Mol. Biol. (Moscow) 15, 636-652] for phosphonoacetic acid (H2O3P-CH2-CO2H). This is explained by instability of the analogues of nucleoside triphosphates believed to be the initial products. Specificity of recognition of pyrophosphate is discussed in terms of the sites, beta and gamma, for the -PO3H2 groups of pyrophosphate that will yield P-beta and P-gamma of the nascent nucleoside triphosphate. Site gamma can accept -AsO3H2 in place of -PO3H2, but less well; site beta can accept both, and also -CO2H. We suggest that partial transfer of an Mg2+ ion from the attacking pyrophosphate to the phosphate of the internucleotide bond of the RNA may increase the nucleophilic reactivity of the pyrophosphate and the electrophilicity of the diester, so that the reaction is assisted.
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PMID:The mechanism of pyrophosphorolysis of RNA by RNA polymerase. Endowment of RNA polymerase with artificial exonuclease activity. 608 81

The effects of pyrophosphate on RNA binding and ATPase activities of Escherichia coli transcription termination factor rho have been studied. Mutant rho-115 protein has a temperature-sensitive RNA-dependent ATPase activity due to the thermolability of binding to RNA [Kent, R.B. & Guterman, S.K. (1981) Fed. Proc. Fed. Am. Soc. Exp. Biol. 40, 1765 (abstr.)]. The presence of either ATP or pyrophosphate at comparable concentrations stabilizes the binary complex of rho and poly(C) at high temperature. ADP at 8-fold greater concentration also stabilizes the mutant rho-RNA binary complex. Pyrophosphate is a noncompetitive inhibitor (Ki = 0.07 mM) of rho poly(C)-dependent ATPase, an activity that is required for rho-mediated termination. These results suggest the existence of a regulatory site on the rho molecule. We suggest that rho NTPase is regulated by RNA polymerase (EC 2.7.7.6) so that during transcription elongation the RNA polymerase competes successfully with rho for substrates and inhibits rho NTPase with product pyrophosphate. Further, RNA polymerase pausing may result in reduced pyrophosphate and increased NTP concentrations, allowing rho NTPase to function.
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PMID:Pyrophosphate inhibition of rho ATPase: a mechanism of coupling to RNA polymerase activity. 612 40

The in vitro characteristics of human rotavirus transcription have been examined. The virus has an associated RNA polymerase activity which was activated after a heat shock treatment. The enzyme required the presence of the four ribonucleoside triphosphates and a divalent cation (Mg2+), and it required an optimum pH of 8.5. The polymerase was activated by monovalent salts and inhibited by Na PPi. The addition of actinomycin D, alpha-amanitin, or rifampin did not inhibit the polymerase activity. After thermal shock of the virus, at least eight different RNA species were synthesized which may correspond to independent transcripts. Transcription also requires a hydrolyzable form of ATP. Analogs such as beta,gamma-imido ATP or beta,gamma-methylene ATP were inhibitory, whereas others, such as the beta-gamma-imido or methylene analogs of CTP, UTP, or GTP, were not inhibitory. This suggests that ATP is related to reactions other than polymerization, probably to initiation or elongation of RNA molecules, as has been described for vesicular stomatitis virus or vaccinia virus.
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PMID:In vitro transcription catalyzed by heat-treated human rotavirus. 627 Mar 65

The "killer" plasmid and a larger double-stranded RNA plasmid of yeast exist in intracellular virion particles. Purification of these particles from a diploid killer strain of yeast (grown into stationary growth on ethanol) resulted in co-purification of a DNA-independent RNA polymerase activity. This activity incorporates and requires all four ribonucleoside triphosphates and will not act on deoxyribonucleoside triphosphates. The reaction requires magnesium, is inhibited by sulfhydryl-oxidizing reagents and high concentrations of monovalent cation, but is insensitive to DNase, alpha-amanitin, and actinomycin D. Pyrophosphate inhibits the reaction as does ethidium bromide. Exogenous nucleic acids have no effect on the reaction. The product is mostly single-stranded RNA, some of which is released from the enzymatically active virions.
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PMID:Virion DNA-independent RNA polymerase from Saccharomyces cerevisiae. 700 33

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