Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

An investigation of the activity of nuclear RNA polymerase following infection of LS cells with HSV-1 shows a decline in both major activities. This effect is not entirely due to inhibition of cellular protein synthesis, and the effect of alpha-amanitin-sensitive RNA polymerase is mediated by a protein(s) synthesized in the infected cell. Changes in the properties of this RNA polymerase activity include a reduction in the relative UTP/GTP incorporation ratio and an increased sensitivity to inhibition by actinomycin D, indicating that RNA polymerase II is involved in virus transcription.
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PMID:The effects of herpes simplex virus type 1 on cellular DNA-dependent RNA polymerase activities. 18 22

The interaction of Mn2+, substrates and initiators with RNA polymerase have been studied by kinetic and magnetic resonance methods. As determined by electron paramagnetic resonance, Mn2+ binds to RNA polymerase at one tight binding site with a dissociation constant less than 10 muM and at 6 +/- 1 weak binding sites with dissociation constants 100-fold greater. The binding of Mn2+ to RNA polymerase at both types of sites causes an order of magnitude enhancement of the paramagnetic effect of Mn2+ on the longitudinal relaxation rate of water protons, indicating the presence of residual water ligands on the enzyme-bound Mn2+. A kinetic analysis of the Mn2+-activated enzyme with poly(dT) as template indicates the substrate to be MnATP under steady-state conditions in the presence or absence of the initiator ApA. ATP and UTP interact with the tightly bound Mn2+ to form ternary complexes with approximately 50% greater enhancement factors. The dissociation constant of MnATP from the tight Mn2+ site as determined by longitudinal proton relaxation rate (PRR) titration (4.7 muM) is similar to the KM of MnATP in the ApA-initiated RNA polymerase reaction (10 +/- 3 muM) but not in the ATP-initiated reaction (160 +/- 30 muM). Similarly, the dissociation constant of the substrate MnUTP from the tight Mn2+ site (90 muM) is in agreement with the KM of MnUTP (101 +/- 13 muM) when poly[d(A-T)]-poly[d(A-T)] is used as template, indicating the tight Mn2+ site to be the catalytic site for RNA chain elongation. Manganese adenylyl imidodiphosphate (MnAMP-PNP) has been found to be a substrate for RNA polymerase. It has the same affinity as MnATP for the tight site but, unlike the results obtained with MnATP, the enhancement is decreased by 43% in the enzyme Mn-AMP-PNP complex. These results suggest that the enzyme-bound Mn2+ interacts with the leaving pyrophosphate group. The initiators ApA and ApU and the inhibitor rifamycin interact with the enzyme-Mn2+ complex producing small (15-20%) decreases in the enhancement. The dissociation constant of ApA estimated from PRR data (less than or equal to 1.5 muM) agrees with that determined kinetically (1.0 +/- 0.5 muM) as the concentration of ApA required to produce half-maximal change in the KM of MnATP. In the presence of the initiation specific reagents ApA, ApU, or rifamycin, the affinity of the enzyme-Mn complex for ATP or UTP shows little change. However, ATP and UTP no longer increase the enhancement factor of the tightly bound Mn2+ but decrease it by 30-55%, indicating a change in the environment of the Mn2+-substrate complex on the enzyme when the initiation site is either occupied or blocked. Although the role of the six weak Mn2+ binding sites is not clear, the presence of a single tightly bound Mn2+ at the catalytic site for chain elongation which interacts with the substrate reinforces the number of active sites as one per molecule of holoenzyme and provides a paramagnetic reference point for further structural studies.
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PMID:Magnetic resonance and kinetic studies of the role of the divalent cation activator of RNA polymerase from Escherichia coli. 18 95

The effects of nucleoside triphosphates and oligoribonucleotides on the initiation of synthesis of messenger RNA of the T4 phage-specific enzyme, deoxynucleotide kinase, have been studied. The procedure involved incubation of T4 DNA, purified RNA polymerase from Escherichia coli, and selected nucleotide compounds during a brief period to permit initiation of RNA synthesis. Further initiation was arrested by the addition of ribampicin, and completion of the transcription of the newly initiated RNA was permitted to take place in the presence of the full complement of nucleoside triphosphates. After translation of the messenger RNA into phage-specific enzymes, the measured activities of the latter whe first incubation period. The effectiveness of individual nucleoside triphosphates, when present singly or in combination during the initiation period, was compared to that when all four nucleoside triphosphates were available. ATP alone was extremely effective as an initiator of the synthesis of the messenger RNA for deoxynucleotide kinase. The addition of UTP to ATP not only enhanced the magnitude of initiation but also affected the kinetics of ATP interaction with T4 DNA and RNA polymerase during the initiation period. Several oligoribonucleotides including a series ApA to ApApApA, UpU to UpUpUpU, and the heteropolymers, Ap1pU and ApApApU, were tested as initiators of kinase mRNA synthesis. A sequence of nucleotides in the promoter region of T4 DNA for the deoxynucleotide kinase gene has been proposed as a result of these experiments.
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PMID:Initiation of synthesis of messenger RNA of deoxynucleotide kinase by oligoribonucleotides. 19 58

An important model for the transcription of the late (L) strand of simian virus 40 DNA is that, late after infection of permissive monkey cells, the RNA polymerase makes a complete transcript of the L DNA strand before terminating transcription. The purpose of the current work was to test a prediction of this model, namely, that the rate of synthesis of all RNA sequences from the L DNA strand should be equal. About one-half of the L DNA strand is transcribed into late mRNA sequences and the other half into late dRNA sequences, which do not leave the nucleus. Using glucosamine to reduce the size of the intracellular UTP pool before and after a pulse-label with radioactive uridine, a pulse-chase experiment was performed to determine the half-lives of these sequences. The half-life of the late dRNA sequences was determined to be 4 min. The late mRNA sequences were degraded more slowly, on the average, than the late dRNA sequences. In a parallel experiment with similarly treated cells, it was shown that after a 2-min label with radioactive uridine there was only 0.2 times as much radioactivity in the late dRNA sequences as in the late mRNA sequences in the total cellular RNA population. The results could be combined to calculate that the rate of synthesis of the late dRNA sequences was at most 0.3 times that of the late mRNA sequences. Consequently they provide strong evidence that when the RNA polymerase transcribes the late mRNA sequences, it usually terminates transcription before all the late dRNA sequences are transcribed.
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PMID:Evidence that the RNA polymerase usually does not make a complete transcript of the late strand of simian virus 40 DNA. 21 41

The diastereomers of adenosine 5'-O-(1-thiotriphosphate) (ATP alpha S) and adenosine 5'-O-(2-thiotriphosphate) (ATP beta S) can replace adenosine triphosphate (ATP) in the initiation reaction catalyzed by deoxyribonucleic acid (DNA) dependent ribonucleic acid (RNA) polymerase from Escherichia coli. In both cases, the Sp diastereomer is a better initiator than the Rp isomer. The diasteromers of 3'-uridyl 5'-adenosyl ,O-phosphorothioate [Up(S)A] can replace UpA in the primed initiation reaction catalyzed by RNA polymerase; however, the Rp diastereomer is a better initiator than the Sp isomer. By using ATP or CpA as initiator and UTP alpha S, isomer A, as substrate, we determined the stereochemical courses of both the initiation and primed initiation reactions, respectively, with T7 DNA template and found them to proceed with inversion of configuration. Determination of the stereochemical course of the pyrophosphate exchange reaction catalyzed by RNA polymerase provides evidence that this reaction is the reverse of the phosphodiester bond-forming reaction.
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PMID:Mechanistic studies on deoxyribonucleic acid dependent ribonucleic acid polymerase from Escherichia coli using phosphorothioate analogues. 1. Initiation and pyrophosphate exchange reactions. 22 21

Nucleotides containing the fluorophore 1-aminonaphthalene-5-sulfonate attached to the gamma phosphoryl group via a phosphoamidate bond are excellent substrates for Escherichia coli DNA-dependent RNA polymerase. Cleavage of the alpha-beta-phosphoryl bond produces significant changes in both absorption and fluorescence spectra. These alterations provide a sensitive and precise means for continuous monitoring of transcription. Under appropriate conditions one can detect the utilization of less than 1 nmol of nucleotide. Since the spectroscopic techniques measure nucleotide utilization they can be used in conjunction with measurements of incorporation of radiolabeled precursor such as [3H]UTP into acid-insoluble material to determine whether significant amounts of acid-soluble oligonucleotides are formed.
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PMID:Spectroscopic techniques for study of phosphodiester bond formation by Escherichia coli RNA polymerase. 22 88

Exogenous E. coli RNA polymerase was used to determine the in situ DNA template activity of ethanol/acetone fixed avian erythrocytes. No RNA polymerase-catalyzed incorporation of 3H-UTP was detected in mature avian erythrocytes while simultaneously fixed avian lymphocytes did exhibit incorporation of 3H-UTP. Nuclei of mature erythrocytes which were subjected to treatments known to remove histones showed dramatic increases in RNA polymerase-catalyzed incorporation of 3H-UTP. The chromatin of treated cells was presumed to be more accessible to RNA polymerase as determined by the increase in RNA polymerase-catalyzed incorporation of 3H-UTP. Incubation of acid-treated nuclei in poly-L-lysine prior to incubation with RNA polymerase failed to inhibit the incorporation of 3H-UTP. Possible mechanisms for the inactivation of avian erythrocyte nuclei are discussed.
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PMID:In situ studies on the effect of acid extraction on the DNA template activity of mature avian erythrocytes. 23 93

RNA synthesis in isolated HeLa cell nuclei prepared from cells pretreated with 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB) is inhibited in a time-dependent manner. After 40-min pretreatment of cells with 60 muM DRB in the presence of actinomycin D (0.04 mug/ml), the rate of RNA synthesis in isolated nuclei, measured by [(3)H]UTP incorporation, is decreased by 63%. The DRB-resistant one-third of heterogeneous nuclear is distributed over the entire size range of heterogeneous nuclear RNA with some enrichment in the 18S range, as was observed earlier by pulse-labeling whole cells. A subclass of nucleoplasmic RNA molecules is defined in the approximate size range 110 to 250 x 10(3) daltons (330-740 nucleotides). By using heparin (2 mg/ml) to block the synthesis of smaller RNA, a peak in the chain-length range 330-740 nucleotides can be clearly resolved on 2.2% polyacrylamide/1% agarose gels in nuclei from control and DRB-treated cells. The synthesis of these molecules is largely ( approximately 90%) resistant to DRB but sensitive to alpha-amanitin at 1 mug/ml. The in vitro synthesis of molecules in the 140-330 residue range is also sensitive to alpha-amanitin at 1 mug/ml, and it is not at all affected by pretreatment of cells with DRB. Although the synthesis of the RNA in both the 330-740 and the 140-330 residue size ranges appears to be catalyzed by RNA polymerase II, the results with heparin suggest that there may be reinitiation of molecules in the 140-330 size range but not in the 330-740 range in vitro. The synthesis of 4.5S RNA ( approximately 100 nucleotides) and 5S RNA (120 nucleotides) is unaffected by pretreatment of cells with DRB and, as previously reported, is catalyzed by RNA polymerase III, with reinitiation occurring in vitro. Addition of DRB directly to isolated HeLa cell nuclei in vitro has no detectable effect on the overall rate of RNA synthesis.
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PMID:Definition of subclasses of nucleoplasmic RNA. 27 Jul 36

The synthesis of ovalbumin mRNA sequences was studied in isolated nuclei from hen oviduct. Two different methods of analysis were used to distinguish in vitro synthesized from preexisting mRNA sequences: (i) Mercurated ribonucleotides were used for in vitro RNA synthesis, and the newly synthesized RNA was purified by chromatography on sulfhydryl-agarose and hybridized to radioactive ovalbumin cDNA. (ii) [3H]UTP was used to label the in vitro synthesized RNA. Hybridization to unlabeled mercurated cDNA, RNase A digestion, and subsequent purification of the hybrids on SH-agarose allowed the quantitation of newly synthesized ovalbumin mRNA sequences. Approximately 0.1% of the newly synthesized RNA was identified as ovalbumin RNA by both methods. The synthesis of ovalbumin RNA progressed during the incubation of nuclei and was sensitive to actinomycin D and low concentrations of alpha-amanitin. The preferential in vitro transcription of the ovalbumin gene (1000-fold over random transcription of the chicken genome) by RNA polymerase B (nucleosidetriphosphate:RNA nucleotidyltransferase, EC 2.7.7.6) suggests that the specificity of in vitro RNA synthesis is retained in isolated nuclei.
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PMID:Preferential transcription of the ovalbumin gene in isolated hen oviduct nuclei by RNA polymerase B. 27 31

Mercurated UTP was used as a substrate for RNA polymerases in the in vitro transcription of chromatin so that newly synthesized RNA could be efficiently separated from endogenous chromatin RNA by means of sulfhydryl-Sepharose affinity chromatography. Utilizing this technique, it was possible to examine the effect of varying enzyme to DNA ratios on the transcription of specific genes from chromatin. For both Escherichia coli RNA polymerase and wheat germ RNA polymerase II, lowering the enzyme to DNA ration resulted in an increase in the percentage of ovalbumin mRNA sequences transcribed from chick oviduct chromatin. Similar results were also obtained for the transcription of the globin gene from chick reticulocyte chromatin. On the other hand, transcription of the globin gene from oviduct chromatin or the ovalbumin gene from reticulocyte chromatin or deproteinized chick DNA was not significantly affected by varying enzyme to DNA ratios. These results indicate that preferential transcription of certain chromatin genes relative to total RNA synthesis can occur and that this process is dependent on the presence of chromosomal proteins. Utilizing a cDNA probe complementary to the anticoding strand of the ovalbumin gene, the degree of asymmetry of the in vitro transcription of this gene was also examined. The percentage of ovalbumin RNA sequences homologous to the anticoding strand was not significantly affected when the enzyme to DNA ratio was lowered 16-fold. Since the percentage of coding ovalbumin mRNA sequences increased more than 6-fold over the same range, the percentage of asymmetric transcription of this gene increased. At the lowest enzyme to DNA ratio tested, the transcription of the ovalbumin gene from oviduct chromatin was almost totally asymmetric and, thus, closely resembled the pattern of gene transcription characteristic of the in vivo state.
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PMID:Effect of estrogen on gene expression in the chick oviduct. 32 57


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