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)

DNA-dependent RNA polymerase II was purified from the mouse plasmacytoma, MOPC 315. Soluble enzyme was obtained from a nucleoplasmic fraction and subjected to chromatography on phosphocellulose, DEAE-cellulose, and DEAE-Sephadex ion exchange resins and was subjected to sedimentation in sucrose density gradients. A chromatographically homogeneous enzyme was obtained which was purified about 25,000-fold relative to whole cell extracts and which had a specific activity (on native DNA) similar to those reported for other purified eukaryotic class II RNA polymerase preparations. Analysis of purified RNA polymerase II by polyacrylamide gel electrophoresis under nondenaturing conditions revealed three protein bands, designated II-O, II-A, and II-B in order of electrophoretic mobility. The subunit compositions of these nondenatured bands were subsequently analyzed by electrophoresis under denaturing conditions. Each enzyme II form contained subunits with molecular weights of 140,000 (II-c), 41,000 (II-d), 30,000 (II-e), 25,000 (II-f), 22,000 (II-g), 20,000 (II-h), and 16,000 (II-i). Molar ratios were unity for all subunits except subunit II-h which had a molar ratio of 2. Each enzyme form was distinguished by its highest molecular weight subunit. II-O contained subunit II-o (molecular weight 240,000), II-A contained subunit II-a (molecular weight 205,000), and II-B contained subunit II-b (molecular weight 170,000). Total molecular weights for II-O, II-A, and II-B were calculated as 554,000, 519,000, and 484,000, respectively. In addition, the number of RNA polymerase II molecules per MOPC 315 tumor cell was calculated to be about 5 times 10-4.
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PMID:Purification and subunit structure of deoxyribonucleic acid-dependent ribonucleic acid polymerase II from the mouse plasmacytoma, MOPC 315. 116 91

DNA-dependent RNA polymerase was solubilized from nuclei of Ehrlich ascites carcinoma (EAC) cells by sonic disruption in the presence of 0.3 M (NH4)2 SO4, and the multiple RNA polymerases were separated by chromatography on DEAE-Sephadex A-25. Elution with a nine-step gradient of (NH4)2 SO4 yielded five peaks of activity designated RNA polymerases Ia, Ib, IIa, IIb, and III, of which IIb was the most prominent. Linear-gradient elusion also yielded five peaks of the same designation, but Ia and Ib, as well as IIa and IIb, were not well separated. IIa and IIb were inhibited completely by 0.1 mug alpha-amanitin/ml, whereas the other forms were not. EAC RNA polymerases Ia, Ib, IIa, and IIb possessed Mg2+ ion, Mn2+ ion, and (NH4)2 SO4 optima, molecular weights, and thermal sensitivities similar to those reported for other mammalian DNA-dependent RNA polymerases. As measured by relative ribonucleoside monophosphate incorporation, with native calf thymus DNA template, EAC RNA polymerases Ia and Ib synthesized ribosomal RNA-like products, whereas forms IIa, IIb, and the parent enzyme mixture synthesized compounds that were more similar to DNA. No species specificity was found for DNA templates, and denatured DNA was consistently preferred to the native template by RNA polymerases IIa and IIb; the two kinds of template were about equally efficient for RNA polymerases Ia and Ib. Although EAC RNA polymerases Ia, IIa, and IIb were inhibited by daunomycin, form IIa was preferentially affected. 3',5'-Cyclic AMP, 3',5'-Cyclic GMP, and gibberellic acid, implicated as RNA polymerase regulators in other systems, were generally ineffective. The levels of nuclear RNA polymerase activities, per mg DNA, of 3 mouse ascites tumors (EAC, 6C3HED lymphosarcoma, and TA3 adenocarcinoma) were compared with those from 3 normal mouse tissues (kidney, liver, and spleen). On the average, the tumor cell nuclei contained (per mg of DNA) 8.9, 1.5, 2.7, 20.0, and 3.8 times the activities of RNA polymerases Ia, Ib, IIa, IIb, and III, respectively, as the normal cells, but the difference was significantly only for IIb.
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PMID:DNA-dependent RNA polymerases of Ehrlich carcinoma, other murine ascites tumors, and murine normal tissues. 117 42

In many eucaryotic systems protein synthesis is coupled to ribosomal RNA synthesis such that shut-down of the former causes inhibition of the latter. We have investigated this stringency phenomenon in HeLa cells. The protein synthesis inhibitors cycloheximide and puromycin cause inactivation of both processes but valine starvation totally inhibits only the processing of 45-S RNA. DNA-dependent RNA polymerases from A, B and C (or I, II and III respectively) were extracted, separated partially by DEAE-cellulose chromatography and their activity levels determined. These do not decrease significantly during inhibition of protein synthesis. To find out whether or not form A is bound to its template under these conditions, proteins were removed from chromatin with the detergent sarkosyl. This does not affect bound RNA polymerase. Inhibition of protein synthesis caused up to 50% reduction in endogenous alpha-amanitin-insensitive chromatin-RNA-synthesising activity. This reduced level of activity was not affected by sarkosyl treatment. Levels in normal cells were stimulated. This result indicates that the form A RNA polymerase is not bound to its template when protein synthesis is inhibited.
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PMID:Studies on the control of ribosomal RNA synthesis in HeLa cells. 117 42

An improved method for the purification of the alpha-amanitin-sensitive deoxyribonucleic acid dependent ribonucleic acid polymerase [ribonucleosidetriphosphate:RNA-nucleotidyltransferase, EC 2.7.7.6-A1 (RNA polymerase II or RNA polymerase B) from wheat germ is presented. The method involves homogenization of wheat germ in a buffer of moderate ionic strength, precipitation of RNA polymerase with Polymin P (a polyethylenimine), elution of RNA polymerase from the Polymin P precipitate, ammonium sulfate precipitation, and chromatography on DEAE-cellulose and phosphocellulose. RNA polymerase II is purified over 4000-fold with a 60% recovery, resulting in a yield of 25-30 mg of RNA polymerase from 1 kg of starting material.
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PMID:A new method for the large-scale purification of wheat germ DNA-dependent RNA polymerase II. 118 7

DNA-dependent RNA polymerase was solubilized from normal and adenovirus-2 infected HeLa cells. Multiple peaks of enzyme activity were separated by DEAE-Sephadex chromatography. In addition to class A and B enzyme activities (respectively insensitive and sensitive to inhibition by 10 nM alpha-amanitin), three peaks of class C enzyme activity were found which are sensitive to inhibition by alpha-amanitin only at much higher concentrations (0.1 mM). Rechromatography of these class C peaks indicates that they are not chromatographic artifacts. Class C enzymes differ from class A and B enzymes by several criteria including inhibition by alpha-amanitin, immunological properties, and the ability to transcribe native calf thymus DNA at high ionic strength. However, the ionic strength optimum and the divalent cation requirements of class C enzymes are not invariant characteristics of the enzymes and are markedly dependent on the nature and the amount of template in the reaction. No differences, either qualitative or quantitative, were found between the multiple enzymes isolated from normal or adenovirus-2 infected cells. All of the partially purified HeLa cell RNA polymerases were able to transcribe an intact double-stranded adenovirus-2 DNA under conditions where no transcription occurred with purified calf thymus AI and B RNA polymerases. Since the multiple enzymes were devoid of endonuclease and exonuclease activities, the ability of the partially purified enzymes to transcribe adenovirus-2 DNA cannot be ascribed to initiation of RNA synthesis at nicks of single-stranded regions of the DNA. No differences in transcriptional ability between corresponding enzyme classes from normal or infected cells, but a comparison of the ability of the various enzyme classes to transcribe intact viral DNA revealed large differences. Although partially purified HeLa class A and B enzymes were able to initiate on the intact viral DNA to a limited extent only, it appears that the class C enzymes transcribe intact duplex DNA much more efficiently than any other class of eukaryotic polymerase yet reported.
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PMID:Animal DNA-dependent RNA polymerases. Partial purification and properties of three classes of RNA polymerases from uninfected and adenovirus-infected HeLa cells. 118 37

DNA-directed RNA polymerase was solubilized from total HeLa cells. Three distinct classes of the enzyme could be clearly differentiated by their sensitivity toward alpha-amanitin. While form A is completely resistant to high concentrations (133 mug/ml) of this toxin, enzyme B is highly sensitive and is completely inhibited by concentrations of 0.1 mug/ml. In contrast, RNA polymerase C shows an intermediate behaviour (50% inhibition at 30% mug/ml). Separation of the three individual enzymes was achieved by chromatography on DEAE-cellulose (to separate enzyme B from A and C) and DEAE-Sephadex (to separate polymerase A from C). All three RNA polymerases were subsequently purified by phosphocellulose chromatography followed by sedimentation through glycerol gradients. Analysis of the purified enzymes by gel electrophoresis under denaturating conditions showed that the A enzyme consists of five subunits with molecular weights of 185, 128, 65, 41 and 32 X 10(3). In contrast, polymerase B is composed of seven subunits in variable stoichiometry with molecular weights of 215, 175, 145, 123, 68, 43 and 31 X 10(3) respectively. The subunit structure of enzyme C is not entirely clear at present and remains to be established. In addition, RNA polymerase activities were solubilized from mitotic and middle-S phase cells in comparison to controls. With respect to amounts and/or activities of all three RNA polymerases A,B and C no significant differences were detectable between logarithmically growing, mitotic and middle-S phase cells.
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PMID:DNA-directed RNA polymerase from HeLa cells. Isolation, characterization and cell-cycle distribution of three enzymes. 119 1

A thymic factor causes a strong inhibition of the DNA-directed RNA polymerase reaction in vitro. The active factor was isolated from aqueous ultrafiltered thymus extracts and purified by means of chromatography on DEAE-cellulose and then on Dowex 50 WX2. The purified thymic factor was characterized as a peptide of low molecular weight (less than 5000). The biological activity of the thymic factor cannot be attributed to the presence of a nuclease or of a histone fragment. The RNA synthesis is controlled by this factor by means of electrostatic interactions between the peptide compound and DNA. Inhibitory activity on RNA synthesis was absent from kidney extracts.
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PMID:Evidence for the presence in calf thymus of a peptidic factor controlling DNA transcription in vitro. 119 3

The rates of RNA synthesis in cultured human KB cells infected by adenovirus 2 were estimated by measuring the endogenous RNA polymerase activities in isolated nuclei. The fungal toxin alpha-amanitin was used to determine the relative and absolute levels of RNA polymerases I, II, and III in nuclei isolated during the course of infection. Whereas the level of endogenous RNA polymerase I activity in nuclei from infected cells remained constant relative to the level in nuclei from mock-infected cells, the endogenous RNA polymerase II and III activities each increased about 10-fold. These increases in endogenous RNA polymerase activities were accompanied by concomitant increases in the rates of synthesis in isolated nuclei of viral mRNA precursor, which was quantitated by electrophoretic analysis on polyacrylamide gels. The cellular RNA polymerase levels were measured with exogenous templates after solubilization and chromatographic resolution of the enzymes on DEAE-Sephadex, using procedures in which no losses of activity were apparent. In contrast to the endogenous RNA polymerase activities in isolated nuclei, the cellular levels of the solubilized class I, II, and III RNA polymerases remained constant throughout the course of the infection. Furthermore, no differences were detected in the chromatographic properties of the RNA polymerases obtained from infected or control mock-infected cells. These observations suggest that the increases in endogenous RNA polymerase activities in isolated nuclei are not due to variations in the cellular concentrations of the enzymes. Instead, it is likely that the increased endogenous enzyme activities result from either the large amounts of viral DNA template available as a consequence of viral replication of from replication or from functional modifications of the RNA polymerases or from a combination of these effects.
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PMID:Viral RNA synthesis and levels of DNA-dependent RNA polymerases during replication of adenovirus 2. 120 98

RNA polymerase I was purified from chromatin isolated from auxin-treated soybean hypocotyl. Purification was achieved by using Agarose A-1.5m gel filtration, DEAE-cellulose, CM-sephadex, and phosphocellulose chromatography, and sucrose density gradient centrifugation. With denatured calf thymus DNA as template, the enzyme has a high specific activity (200-300 nmol/mg/30 min at 28 degrees C) which is comparable to other RNA polymerase I enzymes purified from animals and yeast. While the gel profiles indicate that purification to homogeneity (greater than 90%) may not have been achieved, the enzyme appears to be composed of possibly 7 subunits, several of which are similar to the subunits of yeast RNA polymerase I. The putative subunits and molar ratios are 183 000 (1), 136 000 (1), 50 000 (0.5), 46 000 (0.5), 40 000 (0.5), 33 000 (0.2), and 28 000 (2). The purified enzyme strongly prefers a completely denatured template such as poly(dC).
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PMID:Purification and characterization of RNA polymerase I from a higher plant. 124 49

Poly (A) polymerase activity from cytoplasm and nuclei of 12-16-day-old mouse embryos has been partially purified by (NH4)2SO4 fractionation, DEAE-cellulose, phosphocellulose and tRNA-Sepharose affinity chromatography, and their properties have been compared. The nuclear and cytoplasmic enzymes exhibit similar chromatographic elution profiles, and similar biochemical and physical properties. Poly(A) polymerase has an absolute requirement for a divalent cation, ATP and an oligo- or polyribonucleotide primer. With tRNA, the divalent salt concentrations for optimum enzyme activity are 1 mM MnCl2 or 10 mM MgCl2. The enzyme activity with MnCl2 is 10-15-fold higher than that with MgCl2. The molecular weight of the native enzyme is about 65 000 and its sedimentation coefficient is around 4.5 S. The average chain length synthesized by the enzyme is between 10 and 13 nucleotides. The inhibitors of RNA polymerase do not affect poly (A) polymerase activity; however, some synthetic rifamycin SV derivatives are potent inhibitors of this enzyme.
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PMID:Polyadenylate polymerase from cytoplasm and nuclei of N.I.H.-Swiss mouse embryos. 124 20

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