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)

Rifampicin and streptolydigin, if used in conjunction with nystatin, depress the growth of Kluyveromyces lactis. The incorporation of labeled leucine into protein is inhibited by nystatin whereas the incorporation of labeled uracil into RNA is inhibited by rifampicin in nystatin-treated cells. In order to study the mechanism of inhibition of RNA synthesis we purified by DEAE-Sephadex column chromatography four forms of RNA polymerase from K.lactis cells. The general properties of these enyzmes are similar to those of Saccharomyces cerevisiae and of other eukaryotic RNA polymerases. In particular, enzymes IA, IB and III are more active with poly[d(A-T)] template and Mn-2+ than with native or denatured calf thymus DNA. Enzyme II shows optimal activity with denatured calf thymus DNA and Mn2+. When challenged with native calf thymus DNA all enzymes prefer Mg-2+ as a divalent cation whereas with denatured calf thymus DNA all enzymes are more active with Mn-2+. Enzyme II is inhibited by lambda-amanitin but no enzyme is sensitive to rifampicin and streptolydigin. The inhibition of growth and uracil uptake observed when rifampicin is added to nystatin treated cells is probably not caused by a specific inhibition of transcription.
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PMID:In vivo and in vitro effects of rifampicin and streptolydigin on transcription of Kluyveromyces lactis in the presence of nystatin. 109 16

Lomofungin is a potent inhibitor of RNA synthesis in yeast. Studies on the mode of action of the inhibitor were carried out using yeast RNA polymerases A and B and bacterial RNA polymerase. In vitro inhibition of RNA synthesis is independent of the nature and concentration of the template used and of the nucleoside triphosphate concentration. The extent of inhibition is strongly dependent upon the nature and concentration of divalent cations used to simulate transcription. The three RNA polymerases were inhibited to the same extent in the presence of Mn2+ ions whereas little inhibition was observed with Mg2+ ions. Spectrophotometric studies reveal the formation of different complexes between lomofungin and divalent cations (Mn2+, Mg2+, or Zn2+) with the respective stoichiometries of 0.5, 1, and 2 divalent cations per molecule of lomofungin. The complexes formed depend upon the nature of the divalent cation involved. No direct interaction between lomofungin and DNA could be observed in the presence of divalent cations but evidence is presented that lomofungin interacts with yeast RNA polymerase A. Inhibition of RNA synthesis occurs at the level of both chain initiation and elongation.
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PMID:On the mode of action of lomofungin, an inhibitor of RNA synthesis in yeast. 110 54

The RNA polymerase activities from the nuclei of the spleen of uninfected and Rauscher murine leukemia virus-infected NIH Swiss mice were resolved by DEAE-cellulose column chromatography, and their properties were compared. The RNA polymerase activities from infected and uninfected spleens were the same with respect to column elution profiles, optimum requirements for various salts, ratios of activities with Mn2+ and Mg2+, sedimentation values, and response to most templates. With the exception of minor differences in activities with certain DNA templates, the significance of which is not clear, no qualitative differences in the enzymes from these two sources were found, but an increase in the specific activity of the alpha-amanitin sensitive enzyme, RNA polymerase II, was found in the leukemic spleen. These preliminary results suggest that there may be no novel RNA polymerase induced by Rauscher murine luekemia virus-infection, and they are in keeping with the interpretation that the viral DNA genome is transcribed by a host RNA polymerase.
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PMID:Deoxyribonucleic acid-dependent ribonucleic acid polymerases from spleen of uninfected and Rauscher murine leukemia virus-infected NIH Swiss mice.? 112 31

The purification of DNA-dependent RNA polymerase II (EC 2.7.7.6) from plant cell cultures of Petroselinum (parsley) is described. The procedure during which enzyme I is eliminated includes initial precipitation with (NH4)2SO4, an ultracentrifugation step, gel filtration on Sepharose 4B, chromatography on DEAE-cellulose, DNA-agarose and DEAE-Sephadex. The enzyme purified almost to homogeneity exhibits maximal activity with denatured DNA, and is activated preferentially by Mn2+; alpha-amanitin acts as a strong inhibitor. Electrophoresis of the enzyme in the presence of dodecylsulphate indicates that it is composed of seven subunits with mol. wts of 200 000, 180 000, 140 000, 43 000, 26 000, 25 000 and 16 000. The results of molecular weight and molar ratio determinations suggest that Petroselinum RNA polymerase II may exist in two active forms differing only in the composition of their high molecular weight subunits.
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PMID:Properties and subunit composition of RNA polymerase II from plant cell cultures. 114 41

Both forms A and B RNA polymerases solubilised from rat liver nuclei transcribed templates within these organelles when added exogenously to freshly prepared nuclei. The enzymes initiated more efficiently in the presence of KCL than ammonium sulphate and required manganese rather than magnesium as the divalent cation. Form A enzyme initiated most successfully at 375 mM KC6, activity was proportional to the amount of template added and continued linearly for at least 30 min. Form B enzyme initiated with two ionic strength optima, 125 mM and 500 mM KCl. Activity in the latter case was critically dependent on the enzyme: nuclei ratio. In both instances incorporation of nucleotide precurors was linear for less than 20 min. Form A enzyme synthesised products with a size distribution mainly larger than 18 S; form B enzyme synthesised products of mainly less than 5 S at 125 mM KCl and about 10 S at 500 mM KCl. Subfractionation of nuclei indicated that exogenous RNA polymerase A activity and form B at 125 mM KCl were occurring in nucleoli; form B activity at 500 mM KCl was nucleoplasmic. Measurements of U : G ratios in the RNA products suggested that exogenous form A was synthesising species with similar base ratios to the ribosomal RNA precurosrs. Both enzymes formed rifamycin AF/0-13 resistant complexes with nucleolar templates. Size analyses of products showed that whereas form B enzyme synthesised very small RNA species, RNA polymerase A produced a range of species of similar sizes to the ribosomal RNA precurosors.
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PMID:Transcription of isolated nuclei and nucleoli by exogenous RNA polymerase A and B. 114 40

Poly(A) polymerase has been extensively purified from low-salt extracts of bovine lymphosarcoma. The enzyme is Mn2+ dependent, requires an oligonucleotide or RNA primer, incorporates only adenosine triphosphate, and is inhibited by other ribonucleotides or deoxynucleotides. Oligoadenylate and ribosomal RNA are good primers for the enzyme; transfer RNA and poly(A) are poor. RNA transcribed in vitro by homologous RNA polymerase is an efficient primer. The properties of the enzyme are similar to the properties of the Mn2+ -activated poly(A) polymerase of calf thymus. Approximately the same amount of enzyme appears to be present in lymphosarcoma and calf thymus.
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PMID:Poly (A) polymerase of bovine lymphosarcoma. 117 55

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

Reverse transcriptase (RT) was first discovered as an essential catalyst in the biological cycle of retroviruses. However, in the past years evidence has accumulated showing that RTs are involved in a surprisingly large number of RNA-mediated transpositional events that include both viral and nonviral genetic entities. Although it is probable that some RT-bearing genetic elements like the different types of AIDS viruses and the mammalian LINE family have arisen in recent geological times, the possibility that reverse transcription first took place in the early Archean is supported by (1) the hypothesis that RNA preceded DNA as cellular genetic material; (2) the existence of homologous regions of the subunit tau of the E. coli DNA polymerase III with the simian immunodeficiency virus RT, the hepatitis B virus RT, and the beta' subunit of the E. coli RNA polymerase (McHenry et al. 1988); (3) the presence of several conserved motifs, including a 14-amino-acid segment that consists of an Asp-Asp pair flanked by hydrophobic amino acids, which are found in all RTs and in most cellular and viral RNA polymerases. However, whether extant RTs descend from the primitive polymerase involved in the RNA-to-DNA transition remains unproven. Substrate specificity of the AMV and HIV-1 RTs can be modified in the presence of Mn2+, a cation which allows them to add ribonucleotides to an oligo (dG) primer in a template-dependent reaction. This change in specificity is comparable to that observed under similar conditions in other nucleic acid polymerases. This experimentally induced change in RT substrate specificity may explain previous observations on the misincorporation of ribonucleotides by the Maloney murine sarcoma virus RT in the minus and plus DNA of this retrovirus (Chen and Temin 1980). Our results also suggest that HIV-infected macrophages and T-cell cells may contain mixed polynucleotides containing both ribo- and deoxyribonucleotides. The evolutionary significance of these changes in substrate specificities of nucleic acid polymerases is also discussed.
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PMID:On the early emergence of reverse transcription: theoretical basis and experimental evidence. 128 61

p34cdc2 kinase, a critical regulator of the cell cycle, has been shown to recognize the consensus sequence S/TP in proteins such as histone H1, the retinoblastoma gene product RB and the carboxyl-terminal domain of eukaryotic RNA polymerase II. Using phosphorylated synthetic peptides, representing the p34cdc2 phosphorylation sites in these proteins and histone H1 protein as substrates, we investigated the substrate specificity of the different oligomeric forms of the polycation-stimulated (PCS/type-2A) protein phosphatase and the active catalytic subunit of the ATP,Mg-dependent (AMDc/type 1) protein phosphatase. The results show that the oligomeric structure of the PCS phosphatases is an important determinant for efficient dephosphorylation. The trimeric PCSH1 and PCSM phosphatases are about 10-20-fold-better histone H1 phosphatases than the dimeric PCSH2 and PCSL phosphatases and about 100-fold better than the catalytic subunit (PCSC), suggesting a regulatory role for the 72-kDa, 65-kDa and 55-kDa subunits. The RB peptide = INGS(P)PRT(P)PRRGQNR, is preferred over phosphorylase a (8-fold) by the PCSH1 phosphatase and is about a 40-fold and 95-fold-better substrate for the PCSH1 phosphatase than for the PCSM and PCSL phosphatases, respectively. The primary structure surrounding the S/T(P)P motif, by itself a strong negative determinant for dephosphorylation, can harbour positive features which relieve the constraint imposed by the carboxyl-terminal proline. Thus, the RB peptide INGS(P)PRT(P)PRRGQNR, in which the T(P)P configuration is preferred over the S(P)P sequence, is an extremely good and specific substrate for the PCSH1 phosphatase (Km = 10 microM, Vmax = 3882 nmol.min-1.mg-1). The AMDC phosphatase is a poor phosphatase for all the phosphopeptides tested, unless Mn2+ is added. Its histone H1 phosphatase activity is much less sensitive than its phosphorylase a and phosphopeptide phosphatase activity to inhibition by the modulator or inhibitor-1. The results strongly suggest a role for the trimeric PCSH1 phosphatase in reversing the p34cdc2 phosphorylations.
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PMID:Specificity of the polycation-stimulated (type-2A) and ATP,Mg-dependent (type-1) protein phosphatases toward substrates phosphorylated by P34cdc2 kinase. 131 64

Wheat-germ RNA polymerase II is able to catalyse a DNA-dependent reaction of RNA synthesis in the presence of a high concentration (1 mg/ml) of the fungal toxin alpha-amanitin. This anomalous reaction is specifically directed by single-stranded or double-stranded homopolymer templates, such as poly(dC) or poly(dC).poly(dG), and occurs in the presence of either Mn2+ or Mg2+ as the bivalent metal cofactor. In contrast, the transcription of other synthetic templates, such as poly(dT), poly(dA).poly(dT) or poly[d(A-T)] is completely abolished in the presence of 1 microgram of alpha-amanitin/ml, in agreement with well-established biochemical properties of class II RNA polymerases. Size analysis of reaction products resulting from transcription of (dC)n templates of defined lengths suggests that polymerization of RNA chains proceeds through a slippage mechanism. The fact that alpha-amanitin does not impede this synthetic reaction implies that the amatoxin interferes with the translocation of wheat-germ RNA polymerase II along the DNA template.
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PMID:A DNA-dependent RNA synthesis by wheat-germ RNA polymerase II insensitive to the fungal toxin alpha-amanitin. 137 42

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