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)

RNA polymerase was purified from Rhodobacter sphaeroides cells grown both chemoheterotrophically and photoheterotrophically. Both preparations of polymerase were comprised of five major subunits designated: beta' (160,000 Da), beta (150,000 Da), sigma (93,000 Da), alpha (41,000 Da), and a 35,000-Da protein, designated epsilon. All five subunits of the polymerase isolated from photoheterotrophically grown cells were found to be serologically related to the major subunits (beta', beta, sigma, and alpha) of the RNA polymerase from Escherichia coli; however, only four of the subunits of the RNA polymerase isolated from chemoheterotrophically grown cells were serologically related to the four major E. coli RNA polymerase subunits. The enzyme isolated from photoheterotrophically grown cells had a lower specific activity and was considerably less stable than the enzyme isolated from chemoheterotrophically grown cells. However, RNA synthesis by both enzyme preparations was dependent upon the presence of DNA template and MgCl2, and the RNA synthetic activity was inhibited by rifampicin. The transcriptional activities of both samples of polymerase were studied using different DNA templates, and the sizes of the run-off products compared to expected values obtained from analysis of mRNA's produced in vivo. These results are discussed in light of DNA sequences expected to contain promoter-like regions as determined from in vivo studies.
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PMID:Purification, characterization, and transcriptional analyses of RNA polymerases from Rhodobacter sphaeroides cells grown chemoheterotrophically and photoheterotrophically. 278 64

The interactions of T7 RNA polymerase with T7 late promoters were studied by using quantitative footprinting with methidiumpropyl-EDTA X Fe(II) [MPE-Fe(II)] as the DNA cleaving agent. Class II and class III T7 promoters have a highly conserved 23 base pair sequence from -17 to +6. Among class III promoters the -22 to -18 region is also highly conserved. For a class II promoter, T7 RNA polymerase protects the -17 to -4 region from MPE-Fe(II) cleavage; when GTP is present, protection extends from -17 to +5 (noncoding strand). For a class III promoter, protection extends from -20 to -4 and in the presence of GTP from -20 to +5 (noncoding strand). The protected regions for the coding strands of both promoters were nearly identical with that seen for the noncoding strands. The binding constant for the class III promoter is (4 +/- 1.5) X 10(7) M-1 and in the presence of GTP increases to (10 +/- 1.7) X 10(7) M-1. These binding constants are about 1000 and 200 times greater, respectively, than values reported previously [Ikeda, R. A., & Richardson, C. C. (1986) Proc. Natl. Acad. Sci. U.S.A. 83, 3614-3618]. The differences in binding constants are probably due to tRNA and high salt used in those earlier experiments. Both tRNA and high salt (greater than 50 mM NaCl and greater than 10 mM MgCl2) inhibit the binding of the polymerase to the promoter. Optimal binding conditions occur at 2-5 mM MgCl2 and 0-10 mM NaCl.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interactions of T7 RNA polymerase with T7 late promoters measured by footprinting with methidiumpropyl-EDTA-iron(II). 303 3

DNA-dependent RNA polymerase was purified from Pseudomonas aeruginosa. The subunit structure was typical of other eubacterial RNA polymerases in having beta' (157,000), beta (148,000), sigma (87,000), and alpha 2 (45,000) subunits as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The enzyme was dependent on Mg2+, displaying optimal activity at 10 mM MgCl2. Ca2+ and Zn2+ could not replace MgCl2 in the assay system, while Mn2+, produced partial activity. KCl at concentrations greater than 10 mM inhibited enzyme activity. Optimal enzyme activity was observed at pH 8.5-9.0. The RNA polymerase was stable in 50% (w/v) glycerol at 4 degrees C for more than 3 months. Enzyme activity was inhibited in vitro by heparin, streptolydigin, streptovaracin, actinomycin D, and rifampicin.
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PMID:DNA-dependent RNA polymerase from Pseudomonas aeruginosa. 312 44

Wheat germ RNA polymerase II is able to transcribe polynucleotide templates in the poly-[d(G-C)] family, adopting either the right-handed B or left-handed Z conformations depending on the ionic environment and temperature. Thus, with poly[d(G-C)] either the B state (in MgCl2) or the associated Z* state (in MnCl2) can be established. Poly[d(G-m5C)] adopts the Z form readily in MgCl2, and poly-[d(G-br5C)] can be regarded as being "constitutively" in the Z state. In transcription studies with CpG as a primer and templates in the left-handed conformation, it is found that the rate of productive elongation, i.e., the synthesis of poly[r(G-C)], is depressed, in accordance with the results of previous studies. However, with a single triphosphate substrate, CTP, the rate of formation of the first phosphodiester bond, i.e., the synthesis of CpGpC, is about 4-fold greater with both the Z and Z* templates than with B-DNA. This transcriptional activity is also catalytic in the sense that product concentrations exceed that of the enzyme. The synthesis of CpGpC is reduced in the presence of GTP. However, the apparent Km value for GTP utilization is lower for the trinucleotide synthesis (0.1 microM) than that obtained for productive elongation (0.8 microM), a result that also holds for B-DNA templates. All transcription reactions are specifically inhibited by the fungal toxin alpha-amanitin, and, in the case of the left-handed templates, by monoclonal anti-Z-DNA antibodies. The relative probabilities of single-step addition and productive elongation imply that the major distinction between transcription of templates in the B and Z conformations involves a step following the synthesis of the first phosphodiester bond. As a result, fully competent elongation complexes do not form on the left-handed DNA.
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PMID:Transcription of left-handed Z-DNA templates: increased rate of single-step addition reactions catalyzed by wheat germ RNA polymerase II. 321 41

A bacteriophage-coded RNA polymerase was isolated from bacteriophage-Xp10-infected Xanthomonas campestris pv. oryzae. The enzyme was purified to homogeneity through precipitation by poly(ethylene glycol) and chromatography on DEAE-cellulose, heparin--Sepharose 4B and blue-dextran--Sepharose 4B. It is composed of a single polypeptide of Mr96,000. The enzyme preferred denatured Xp10 DNA, calf thymus DNA, host bacterium DNA and poly[d(A-T)] as templates. The optimal concentration of MgCl2 is 16 mM. The optimal temperature and pH are 37 degrees C and 8.0, respectively. The Km of ATP is 26 microM. DNA, MgCl2 and four ribonucleotides were required for enzyme activity. If ATP alone was present, half of the Xp10 RNA polymerase activity was retained. The enzyme activity was inhibited by KCl, spermidine, actinomycin D, heparin, blue dextran and ethidium bromide; it was resistant to rifampicin and streptovaricin. N-Ethylmaleimide did not affect the enzyme activity. The transcription site and product of Xp10 RNA polymerase upon Xp10 DNA were analyzed by DNA/RNA hybridization and polyacrylamide-agarose composite gel electrophoresis. The enzyme could specifically transcribe the late region of Xp10 genome and produce two RNA bands.
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PMID:Characterization of phage-Xp10-coded RNA polymerase. 372 Jul 43

The kinetics of formation and of dissociation of open complexes (RPo) between Escherichia coli RNA polymerase (R) and the lambda PR promoter (P) have been studied as a function of temperature in the physiological range using the nitrocellulose filter binding assay. The kinetic data provide further evidence for the mechanism R + P in equilibrium I1 in equilibrium I2 in equilibrium RPo, where I1 and I2 are kinetically distinguishable intermediate complexes at this promoter which do not accumulate under the reaction conditions investigated. The overall second-order association rate constant (ka) increases dramatically with increasing temperature, yielding a temperature-dependent activation energy in the range 20 kcal (near 37 degrees C) to 40 kcal (near 13 degrees C) (1 kcal = 4.184 kJ). Both isomerization steps (I1----I2 and I2----RPo) appear to be highly temperature dependent. Except at low temperatures (less than 13 degrees C) the step I1----I2, which we attribute to a conformational change in the polymerase with a large negative delta Cp degrees value, is rate-limiting at the reactant concentrations investigated and hence makes the dominant contribution to the apparent activation energy of the pseudo first-order association reaction. The subsequent step I2----RPo, which we attribute to DNA melting, has a higher activation energy (in excess of 100 kcal) but only becomes rate-limiting at low temperature (less than 13 degrees C). The initial binding step R + P in equilibrium I1 appears to be in equilibrium on the time-scale of the isomerization reactions under all conditions investigated; the equilibrium constant for this step is not a strong function of temperature and is approximately 10(7) M-1 under the standard ionic conditions of the assay (40 mM-Tris . HCl (pH 8.0), 10 mM-MgCl2, 0.12 M-KC1). The activation energy of the dissociation reaction becomes increasingly negative at low temperatures, ranging from approximately -9 kcal near 37 degrees C to -30 kcal near 13 degrees C. Thermodynamic (van't Hoff) enthalpies delta H degrees of open complex formation consequently are large and temperature-dependent, increasing from approximately 29 to 70 kcal as the temperature is reduced from 37 to 13 degrees C. The corresponding delta Cp degrees value is approximately -2.4 kcal/deg. We propose that this large negative delta Cp degrees value arises primarily from the burial of hydrophobic surface in the conformational change (I1 in equilibrium I2) in RNA polymerase in the key second step of the mechanism.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Temperature dependence of the rate constants of the Escherichia coli RNA polymerase-lambda PR promoter interaction. Assignment of the kinetic steps corresponding to protein conformational change and DNA opening. 390 Apr 14

Light treatment of nuclei of Physarum polycephalum microplasmodia with DNase I, at low MgCl2 concentration (less than or equal to 3% DNA acid solubility, 0.1 mM MgCl2) selectively solubilizes a defined fraction of chromatin, in the form of a macromolecular complex. This fraction (up to 15% of the total chromatin) contains a full complement of the core histones and a reduced amount of histone H1, and is enriched in the high-mobility-group type of proteins. It is preferentially associated with nascent RNA and RNA polymerase B actively engaged in transcription. Digestion of DNAase-I-solubilized chromatin by micrococcal nuclease releases a size-heterogeneous population of cleavage products, indicative of lack of a typical nucleosomal packaging. It is concluded that the procedure used allows the isolation of structurally and functionally distinct regions of Physarum chromatin.
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PMID:Lack of nucleosomal structure in a DNase-I-solubilized transcriptionally active chromatin fraction of Physarum polycephalum. 397 88

Mesenchymal cells isolated from the papilla of embryonic tooth germs of the mouse were cultured in a complex medium for five to six days. Liquid nitrogen lysates, prepared from these cells, incorporated nucleoside monophosphates into a cold acid-insoluble product. The product was sensitive to RNase and no product was formed if the lysate was pretreated with DNase. The reaction was sensitive to EDTA and, in its presence, optimum activity was obtained with 2 mM MgCl2. On sucrose gradients, the reaction product was distributed between two broad peaks; one centered about 18S and the other above 28S. The RNA polymerase inhibitor alpha-amanitin inhibited approximately 50% of the activity at a concentration of 10 microgram/ml.
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PMID:Transcriptional activity in lysates of cultured mesenchymal cells from embryonic tooth germs. 615 75

The interconversion between the right (R) and left (L) helical forms of poly[d(G-C)] occurs at low concentrations of MgCl2 and EtOH, acting together in a highly synergistic manner. Thus, the cooperative R---L transition is induced by only 0.4 mM and 4 MM MgCl2 in combination with 20% and 10% EtOH, respectively. The L form of poly[d(G-C)] formed under these conditions has the spectroscopic properties (absorption, circular dichroism) previously demonstrated under high salt conditions (Pohl and Jovin, 1972) and thought to correspond to the left-handed Z DNA structures recently established by X-ray crystallography (Wang et al., 1979; Drew et al., 1980). However, L DNA formed in Mg2+-EtOH (which we designate as Z* DNA) has unique properties: a) it can be sedimented readily out of solution at low speed, indicative of condensation and intermolecular aggregation; b) it supports the binding of several intercalating (ethidium bromide, actinomycin D) and non-intercalating (mithramycin) drugs, although these interact preferentially with the R (i.e., B) form of DNA; and c) it functions as a template for Escherichia coli RNA polymerase. B and Z* DNAs can be generated under identical ionic conditions and compared in a number of biochemical systems. Our results suggest that left-handed DNA may form under physiological conditions and serve a biological function.
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PMID:Z* DNA, the left-handed helical form of poly[d(G-C)] in MgCl2-ethanol, is biologically active. 623 31

The kinetics of formation and dissociation of specific (open) complexes between active Escherichia coli RNA polymerase holoenzyme (RNAP) and the lambda PR promoter have been studied by selective nitrocellulose filter binding assays at two temperatures (25 degrees C, 37 degrees C) and over a range of ionic conditions. Competition with a polyanion (heparin) or stabilization of open promoter complexes at PR by incubation with specific combinations of nucleoside triphosphates was employed to obtain selectivity in the filter assay. This study provides a useful example of how information about mechanism may be obtained from the quantitative analysis of the effects of salt concentration and temperature on the rate constants of a protein-DNA interaction. The association reaction between RNAP and lambda PR was investigated under ionic conditions where the process is essentially irreversible, and under pseudo first-order conditions of excess polymerase. The pseudo first-order rate constant is directly proportional to the concentration of active polymerase over the entire range investigated (2 to 10 nM) at both 25 degrees C and 37 degrees C, within experimental uncertainty. Second-order association rate constants (ka), calculated from these data at standard ionic conditions (0.12 M-KCl, 0.01 M-MgCl2, 0.04 M-Tris (pH 8)), were strongly temperature-dependent: ka = (2.6 +/- 0.4) X 10(6) M-1 S-1 at 37 degrees C and ka = (7.2 +/- 1.4) X 10(5) M-1 s-1 at 25 degrees C, corresponding to an activation energy of the association reaction of approximately 20 +/- 5 kcal. In addition, ka decreases strongly with increasing KCl concentration, corresponding to the net release of the thermodynamic equivalent of at least nine monovalent ions prior to or during the rate-limiting step of the association reaction. This strong dependence of ka on the ionic environment suggests that inorganic cations should be considered as possible regulators of in vivo transcription initiation. Dissociation rate constants (kd) were also measured under irreversible reaction conditions. At the standard ionic conditions, kd = (2.2 +/- 0.3) X 10(-5) s-1 at 37 degrees C and kd = (4.0 +/- 0.4) X 10(-5) s-1 at 25 degrees C. The increase in kd with decreasing temperature corresponds to a negative activation energy of dissociation (-9 +/- 4 kcal). In addition, kd increases with increasing KCl concentration, corresponding to the net uptake of the thermodynamic equivalent of at least six monovalent ions in or prior to the rate-limiting step of the dissociation reaction.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetics and mechanism of the interaction of Escherichia coli RNA polymerase with the lambda PR promoter. 623 75

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