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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)

The phosphodiester bond formation by DNA-dependent RNA-polymerase (RNA nucleotidyltransferase, nucleosidetriphosphate:RNA nucleotidyltransferase, EC 2.7.7.6) can in principle result in retention, inversion, or racemization of configuration at the alpha-phosphorus of the nucleoside 5'-triphosphate being polymerized. As a first step in elucidating the stereochemistry of this reaction, one diastereomer (A) of adenosine 5'-O-(1-thiotriphosphate) (ATPalphaS) was polymerized with UTP in the presence of poly(dA-dT)-poly(dA-dT). The resulting polymer was enzymatically cleaved to uridine 2',3'-cyclic phosphorothioate which was determined to be the endo-isomer by comparison with an authentic sample. This shows that no reacemization had occurred and that isomer A of ATPalphaS gives a phosphorothioate diester bond with the R-configuration. Whether this represents inversion of retention of configuration awaits elucidation of the absolute configuration of isomer A for ATPalphaS.
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PMID:Stereochemistry of polymerization by DNA-dependent RNA-polymerase from Escherichia coli: an investigation with a diastereomeric ATP-analogue. 78 80

The 5-thio and 5-methylmercurithio derivatives of UTP, dUTP and dCTP have been synthesized and tested as substrates for nucleic acid polymerases. The 5-thio-nucleotides were polymerized inefficiently by both RNA polymerase and DNA polymerase I of Escherichia coli. The 5-methylmercurithio derivatives of dUTP and dCTP were, however, utilized by DNA polymerase I, an enzyme insensitive to mercurial compounds, although they were potent inhibitors of all other polymerases tested. While polymers containing the 5-thio substituent possess structural abnormalities, most likely interstrand disulfide bridges, polymers containing 5-methylmercurithio groups appear normal. The latter polynucleotides are readily separated from non-sulfated polymers by chromatography on mercuriagarose.
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PMID:The synthesis and enzymatic polymerization of 5-thio- and 5-methylmercurithio-pyrimidine nucleotides. 79 73

The inhibition of RNA polymerase with ATP and UTP analogues modified in the phosphate and ribose moieties has been investigated. 1. Modification of the terminal phosphate with a loss of the negative charge [adenosine 5'-(3-O-methyl)triphosphate, Ki = 1.75 mM] substantially weakens the binding ability of these analogues to the enzyme whereas modification with retention of the charge is not so detrimental [adenosine tetraphosphate, Ki = 0.17 mM]. 2. 2'-Modified analogues are only weak competitive inhibitors [2'-amino-2'-deoxyadenosine 5'-triphosphate, Ki = 2.3 mM] of their corresponding substrates [ATP, Km = 0.07 mM] whereas 3'-modified analogues are extremely potent in their inhibition [3'-amino-3'-deoxyadenosine 5'-triphosphate, Ki = 2.3 muM]. 3. A difference was observed in the inhibition of the elongation step of RNA polymerase by ATP and UTP analogues. Thus ATP analogues showed a strong binding to the CT form of the poly[d(A-T)] ternary complex and only a weak binding to the CA form. UTP analogues, on the other hand, showed a similar binding to both forms of the complex.
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PMID:Interaction of substrate analogues with Escherichia coli DNA-dependent RNA polymerase. 79 50

A comparative radioautographic study of the RNA precursors incorporation on polytene chromosomes of Drosophila in vivo in the cells of salivary glands, and in vitro during incubation of E.coli RNA polymerase on slides with fixed chromosomes was performed.--The pattern of in vivo 3H-uridine incorporation on different sections of the chromosomes drastically differed from the in vitro 3H-UTP incorporation which seems to be much more related to DNA content of the individual small sections. In both cases puffing of the loci resulted in the increase of RNA synthesis but in vitro only 2-3 fold and in vivo much more. Hence, RNA synthesis in vitro was unspecific and did not reflect the in vivo RNA synthesis.--On the other hand, E.coli RNA polymerase completely mimics in vitro the dosage compensation phenomenon making twice as much RNA on one X-chromosome of males (1X2A) as on each of X-chromosomes of diploid (2X2A) and triploid (3X3A) females and super-females (3X2A), and the intermediate amount of RNA on each of X-chromosomes of intersexes (2X3A). It is suggested that the differences in the in vitro template activity of X-chromosomes of cells with different X:A ratio are due to different extent of condensation of their deoxyribonucleoprotein (DNP). Yet, both male and each of female X-chromosomes bind the same amount of thymus histone FI labelled with fluorochrome which indicates that they contain the same amount of "open" regions with exposed chromosomal DNA accessible to external proteins.--On the basis of these observations a hypothesis is put forward which suggests that RNA transcription in animal chromosomes is regulated at two levels by different mechanisms; the first one controls the extent of condensation of DNP of genetic loci and determines their competence to the second mechanism which involves the action of gene-specific activator proteins. According to this hypothesis the phenomenon of dosage compensation of sex-linked genes is due to decondensation of DNP of male X-chromosome which renders its loci twice as responsive to activators as compared to the same loci in females.
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PMID:Comparison of in vivo and in vitro RNA synthesis on polytene chromosomes of Drosophila. 81 77

Chromatin and DNA from Schneider's Drosophila melanogaster cell line 2 were transcribed in vitro with Escherichia coli RNA polymerase. Using mercurated UTP as precursor, the newly synthesized RNA could be separated from DNA and endogenous RNA by affinity chromatography on sulfhydryl-Sepharose 6B. Characterization of the transcription products with complementary DNA (cDNA) made from polyadenylated nuclear RNA and with fractionated cDNA probe demonstrated a fair quantitative fidelity in the in vitro transcript from chromatin which was not evident when DNA was transcribed. However, as shown by hybridization to total nuclear RNA, E. coli RNA polymerase transcribed both DNA strands from chromatin in vitro. We conclude that E. coli polymerase is able to distinguish sections of chromatin at which rapid synthesis of RNA occurs in the cell.
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PMID:Fidelity of chromatin transcription in vitro. 82 61

Avian erythroid cells were separated into five developmental stages by sedimentation on discontinuous isotonic albumin gradients. Solubilized enzyme activities from whole cells were partially purified and characterized by ion exchange and ion filtration chromatography and velocity sedimenttation analysis. Three nucleotide polymerase types were investigated: (a) DNA-dependent RNA polymerases; (b) RNA-dependent terminal ribonucleotidyltransferases, and (c) DNA-dependent DNA polymerases. The two characteristic forms of eucaryotic DNA-dependent RNA polymerases, polymerase I (nucleolar) and polymerase II (nucleoplasmic), were identified. Polymerase III was only marginally detectable even in the earliest developmental populations. At least two species of RNA-dependent terminal ribosyltransferases were present. One apparently was the poly(A) polymerase observed in other systems. The other terminal transferase was present in two chromatographic forms, required an RNA primer, and used UTP and/or CTP as particularly efficient substrates. Three DNA polymerase activities were resolved, two of which were characteristic of the alpha and beta DNA polymerases described in other eucaryotic systems. The third polymerase was not the gamma polymerase but a separate entity. Poly(dC)-dependent RNA polymerase activity, associated with the alpha polymerase, was relatively enriched in the third DNA polymerase species. The activity levels of the nucleotide polymerases were monitored as a function of red cell maturation. Characteristic declining patterns of activity were obtained for each enzyme which correlate well with the synthetic rates of their in vivo products where these are known. These results correlate well with the synthetic rates of their in vivo products where these are known. These results are consistent with the postulate that the general transcriptive and replicative control processes operating during development may involve changes in the level of the requisite polymerases.
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PMID:Nucleotide polymerases in the developing avian erythrocyte. 83 21

Cibacron blue F3GA is a potent inhibitor of the Azotobacter vinelandii DNA-directed RNA polymerase. Addition of 8 micrometer Cibacron blue F3GA prior to initiation results in a greater than 90% inhibition of the poly[d(A-T]-directed synthesis of poly[r(A-U)] while addition of the dye during the course of the reaction is without effect on chain elongation. Binding of RNA polymerase to [3H]poly[d(A-T)] is inhibited by only 15% in the presence of 8 micrometer Cibacron blue F3GA. Inhibition by Cibacron blue F3GA is noncompetitive with regard to ATP, UTP, or template. The poly[d(A-T)]-directed pyrophosphate exchange reaction is relatively resistant to inhibition by Cibacron blue F3GA. Rifampicin added to a similar reaction (in the presence of absence of Cibacron blue F3GA) results in 95% inhibition of the exchange reaction. The interaction of the RNA polymerase core enzyme with Cibacron blue F3GA is shown by the formation of a difference spectrum with a positive maximum at 675 nm which is not affected by the presence of a high concentration (4 micrometer) of rafampicin. The data indicate that Cibacron blue F3GA acts by binding to RNA polymerase and inhibits a step between the synthesis of the initial phosphodiester bond and formation of a stable ternary elongation complex.
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PMID:Inhibition of Azotobacter vinelandii RNA polymerase by cibacron blue F3GA. 88 77

1. RNA was transcribed in vitro using isolated nucleoli, the endogenous form A RNA polymerase and mercurated UTP as one of the nucleoside triphosphate substrates. The products were isolated from endogenous nucleolar RNA sequences by chromatography on sulphydryl-Sepharose and analysed by hybridisation in vast DNA excess. The results of competition-hybridisation experiments suggested that a large proportion of the transcript was ribosomal RNA although some sequences had been transcribed from DNA of lower reiteration frequency. 2. Analyses of the constituents of nucleoli following isolation by the sonication procedure suggested that the nucleolar DNA, particularly the ribosomal cistrons, are severely degraded. Furthermore, indications were obtained that the transcription complexes were damaged and many of the nascent RNA chains appeared to have been sheared from near the growing points.
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PMID:Transcription fidelity and structural integrity of isolated nucleoli. 89 38

Nuclei from seminal vesicle epithelium of adult guinea pigs were isolated in hypertonic sucrose solution. The incorporation of [3H]UTP by the isolated nuclei into acid-precipitable products was studied. Incorporation required ATP, GTP, CTP, UTP, and Mg+2. It was inhibited by addition of actinomycin D, deoxyribonuclease, or pyrophosphate to the reaction mixture. Thus, incorporation of [3H]UTP by isolated nuclei had the same characteristics that have been demonstrated for the reactions catalyzed by nuclear RNA polymerases. Using alpha-amanitin as a metabolic tool, we established concentrations of (NH4)2SO4. Mg+2, and nucleotides that give maximum assayable activities of nuclear RNA polymerases I and II. When the activities of polymerases I and II were measured in isolated seminal vesicle nuclei of guinea pigs that had been castrated 4 days earlier, a marked decrease in activities was found relative to control values (nuclei from intact animals). No further decrease was found 8 days after castration. Diminished accessibility to the nuclear DNA template and a decrease in the concentration of RNA polymerase molecules seemed to be responsible for the observed effects of castration on activities of RNA polymerases. An increase in ribonuclease activity did not seem to be responsible for the effects of castration. Activities of the enzymes did not change 2, 3, or 4 hours after intraperitoneal injection (2 mg/kg body weight) of each of five different androgens. Similarly, a single intraperitoneal injection of testosterone did not restore enzyme activity of polymerade I or II at any time during the first 24-hour period after hormone administration.
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PMID:RNA polymerase activities in isolated nuclei of guinea pig seminal vesicle epithelium: influence of castration and androgen administration. 90 9

DNA-dependent RNA polymerase I (or A) (nucleoside triphosphate:RNA nucleotidyltransferase, EC 2.7.7.6) was purified from Ehrlich ascites cells after solubilization from isolated nuclei. The purification was accomplished by a procedure involving initial precipitation with ammonium sulfate, following by chromatographies on DEAE-Sephadex and phosphocellulose ion exchange resins and gel filtration on Sepharose 6B. A chromatographically homogeneous enzyme was obtained which was purified about 2300-fold relative to nuclear extracts. The specific activity of the most purified enzyme fraction was 230 nmol of [3H]UTP incorporated into RNA per mg of protein in 10 min at 37 degrees C, which is similar to those reported for the highly purified RNA polymerase I from mouse myeloma and calf thymus. The elution position on Sepharose 6B gel filtration indicated a molecular weight of approx. 580 000. Analysis of the purified enzyme by polyacrylamide gel electrophoresis under nondenaturing conditions revealed only one protein band. Certain heterogeneity in the RNA polymerase I fractions was found in the early chromatographic steps, but not in the most purified fractions.
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PMID:Purification and properties of RNA polymerase I from Ehrlich ascites cells. 91 51

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