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)

Nonionic detergent treatments released a nucleocapsid from the enveloped bacteriphage phi6. The nucleocapsid sedimented at nearly the same rate as the whole phage in sucrose density gradients, but the buoyant density in Cs2S04 changed from 1.22 g/cm3 for the whole phage to 1.33 g/cm3 for the nucleocapsid. The detergent completely removed the lipid and 5 of the 10 proteins from the phage. Surface labeling of the phage and nucleocapsid with 125I revealed that protein P3 was on the outer surface of the whole phage and P8 was on the surface of the nucleocapsid. Both the phage and the nucleocapsid were stable between pH 6.0 and 9.5. Low concentrations of EDTA (10-4 M) dissociated the nucleocapsid but had no effect on the whole phage. The nucleocapsid contained all three double-stranded RNA segments, as well as RNA polymerase activity.
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PMID:Comparative properties of bacteriophage phi6 and phi6 nucleocapsid. 0 15

Two types of particles were isolated during purification of rotavirus. Dense (D) particles have a density of 1.38 in CsCl and exhibit spontaneously a fully active endogenous transcriptase. Light (L) particles (density of 1.36 in CsCl) need to be treated with chelating agents to show a polymerase activity. The activation process of L particles was studied under strictly controlled monovalent, divalent, and hydrogen ion concentrations. These experiments demonstrate that i) activation is not affected by the ionic strength ii) activation occurs only at a pH higher than 7.1 iii) a low concentration of chelating agent (40 muM EDTA) is sufficient to activate the enzyme. Treatment of particles with EGTA, which chelates selectively Ca2+, leads to unmasking even in the presence of magnesium, indicating that the concentration of free calcium ions plays a major role in the activation process. Various glycosidases, detergents, and chelating agents were tested in respect to unmasking properties. Of these compound only chelating agents turned out to be efficient. Following activation, two glycopeptides were solubilized. These glycopeptides have an apparent molecular weight of 34,000 and 31,000 daltons and react with concanavalin A. The role of Ca2+ upon the stability of virus particles, and the activation of the endogenous transcriptase in vitro and in the infected cells is discussed.
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PMID:Activation of rotavirus RNA polymerase by calcium chelation. 4 4

14C-labeled SV40 DNA has been transcribed with E. coli RNA polymerase using 3H-labeled ribonucleotide triphosphates as precursors. The resulting transcription complexes were then photochemically crosslinked with the psoralen derivative, 4'-aminomethyl-4,5', 8-trimethylpsoralen (AMT), at 37 degrees C and analyzed in SDS-sucrose gradients. It was found that the photochemical crosslinking procedure caused the nascent RNA chains to co-sediment with their double-stranded (helical) SV40 templates in the denaturing sucrose gradient. This result and several control experiments suggest that covalent linkages have formed between nascent RNA and helical DNA after the photochemical reaction. The crosslinking phenomenon was observed to be independent of the superhelical state of the DNA used as the template. Prior addition of EDTA to stop the transcription is not required for successful crosslinkage.
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PMID:Photochemical crosslinking of transcription complexes with psoralen. I. Covalent attachment of in vitro SV40 nascent RNA to its double-stranded DNA template. 20 76

A method for the rapid and quantitative analysis of 5'-terminal oligonucleotides of RNAs made in vitro is described. The method involves synthesis of RNA in the presence of [gamma-32P]ATP or GTP, isolation of the RNA, and digestion with T1 or pancreatic ribonucleases to release labeled 5'-triphosphate termanated oligonucleotides. The oligonucleotides are then subjected to chromatography on a polyethyleniminecellulose thin-layer system using 2 M LiCl, 0.01 M EDTA (pH 6.5) in the first dimension and 1.5 M LiCl, 1.8 M formic acid, 0.005 M EDTA (pH 2.0) in the second. RNAs made with E. coli RNA polymerase and lambdacb2, T7, T4, and adenovirus 2 DNA yield characteristic fingerprint patterns. The utility of this method in studying selectivity of in vitro RNA chain initiation is discussed.
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PMID:Selectivity of RNA chain initiation in vitro. 1. Analysis of RNA initiations by two-dimensional thin-layer chromatography of 5'-triphosphate-labeled oligonucleotides. 35 90

By continuous perfusion of columns containing isolated immobilized rat liver nuclei with media containing labeled RNA precursors, the in vitro synthesis and release of RNA was studied. The combined reaction of synthesis and release could be adjusted to proceed at a constant rate. The reaction rate responded to variation of termperature, ionic conditions, nucleoside triphosphate concentration and to the addition of RNA polymerase inhibitors. During 60 min perfusion approximately equal amounts of radioactive low molecular weight RNA and of ribonucleoproteins were released. Pulse-chase experiments showed that the low molecular weight RNA was synthesized throughout the perfusion and released immediately after formation. The ribonucleoproteins were primarly labeled during the first period of perfusion and were gradually released. Synthesis of RNA contained in the ribonucleoproteins was inhibited by low alpha-amanitin concentrations, indicating that it was catalyzed by RNA polymerase II. The in vitro labeled ribonucleoproteins exhibited properties of the stable nuclear particles which can be extracted from isolated nuclei after rapid in vivo labeling of RNA. They had a buoyant density of 1.41--1.43 in CsCl, were partially unstable in 1% deoxycholate, but stable in 0.1% deoxycholate, in 100 mM NaCl and in 10 mM EDTA. Due to the dilution by the perfusion medium, the ribonucleoproteins sedimented with a peak at 22--27 S, and not at 30--45 S. The RNA synthesized in the immobilized nuclei was not degraded during the perfusion. Less than 20% was gradually released, whereby the 20--30 S peak zone was reduced. While the properties of the in vitro labeled ribonucleoproteins and of rapidly in vivo labeled ribonucleoproteins were the same, the kinetics of their release differed.
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PMID:Nuclear columns, Kinetics of RNA synthesis and release in isolated rat liver nuclei. 62 80

1. EDTA inhibited incorporation of [3H]uridine into RNA of lymphocytes, but did not decrease uptake into the cold-acid-soluble fraction of the cells. The inhibition by EDTA was largely reversible by simultaneous addition of Zn2+. 2. Low concentrations pf actinomycin D (3 ng/ml) added at the time of stimulation of the cells inhibited [3H]uridine incorporation into RNA, but concentrations of 50-100 ng/ml were required to produce the same degree of inhibition if addition of actinomycin D was delayed until just before the incorporation was measured. This difference in sensitivity did not reg within the cells. 3. When added immediately before phytohaemagglutinin, actinomycin D (3 ng/ml) and EDTA produced similar time-courses of inhibition of uridine incorporation. 4. Uridine incorporation at 32h was inhibited when actinomycin D (3 ng/ml) or EDTA was added just before stimulation of the cells, but was only slightly affected when they were added at 32h. At intermediate times the incorporation of uridine remained sensitive to addition of EDTA for longer than it was sensitive to actinomycin D. 5. Polyacrylamide-gel separation of RNA synthesized in EDTA-treated cultures in the presence or absence of added Zn2+ showed that lower availability of Zn2+ resulted in a decreased rate of transfer of radioactivity from 32S to 28S rRNA and decreased survival of 28S rRNA relative to 18S rRNA. 6. Close similarities have been shown to exist between the effects of EDTA and low concentrations of actinomycin D. Not all the effects of EDTA could be explained by postulating that Zn2+ was a constituent of RNA polymerase I, nor were the effects of actinomycin D readily explained by previously suggested mechanisms of action of this antibiotic.
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PMID:Comparison of the effects of zinc deprivation and actinomycin D on ribonucleic acid synthesis by stimulated lymphocytes. 81 Jan 42

Zinc is essential for cellular proliferation. Zinc deficiency of Euglena gracilis results in arrest of cell division and deranges nucleic acid and protein metabolism pointing to a decisive role of zinc in transcription and translation. We have, therefore, investigated the role of zinc in the function of the DNA-dependent RNA polymerases of this organism. Two RNA polymerases from zinc sufficient organisms were purified first by affinity chromatography on a DNA cellulose column and subsequently separated on diethylaminoethyl (DEAE)-Sephadex A-25. The two fractions were characterized as polymerase I and II by their elution pattern from DEAE-Sephadex and sensitivity to alpha-amanitin. RNA polymerase II has a provisional molecular weight of 700 000 and contains an average of 2.2 g=atoms of zinc per mol of enzyme, but not Mn, Cu, or Fe, as measured by microwave emission spectroscopy. Chelating agents, such as 1,10-phenanthroline, 8-hydroxyquinoline, 8-hydroxyquinoline-5-sulfonic acid, and lomofungin, inhibit activity. In contrast, the nonchelating analogues, 1,7-and 4,7-phenanthroline, do not affect activity. Inhibition by 1,10-phenanthroline is instantaneous and fully reversible by dilution. 1,10-Phenanthroline also inhibits RNA polymerase I, suggesting a role of zinc in its function. The demonstration that RNA polymerase II is a zinc enzyme indicates the involvement of zinc in eukaryotic RNA synthesis and serves as a further basis for the definition of the role of this element in eukaryotic cell growth, division, and differentiation.
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PMID:Euglena gracilis DNA dependent RNA polymerase II: a zinc metalloenzyme. 82 63

5 S RNA processing in Drosophila melanogaster, the removal of 15 nucleotides from the 3' end of the 135-nucleotide (nt) primary transcript, may play an important role in the regulation of 5 S RNA transport and ribosome assembly. We have uncoupled processing from transcription using gel purified primary transcripts processed in vitro by a cellular S100 extract. The RNA was generated by a homologous transcription system or by a T7 RNA polymerase reaction using a constructed 5 S RNA gene linked to a T7 promoter. In vitro D. melanogaster 5 S RNA processing is heat- and EDTA-sensitive, suggesting a requirement for protein, and produces a 3' end characteristic of mature 5 S RNA. Processing of substrate RNAs with altered 3' ends shows that the 3'-U5 tail (nt 131-135) inhibits the reaction. 30 nt, including all of domain IV and most of domain V, are dispensible for processing, whereas deletions including the base of stem V and all or part of stem III severely inhibit it. Several possible mechanisms are discussed.
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PMID:In vitro processing of Drosophila melanogaster 5 S ribosomal RNA. 3' end effects and requirement for internal domains of mature 5 S RNA. 190 21

The successful use of mixed heterologous in vitro transcription systems has suggested that the species specificity of RNA polymerase III transcription is low. To see if this extends to lower eukaryotic class III transcription factors, we compared the interactions of the two yeast assembly factors, TFIIIA and TFIIIC/tau factor, with a homologous yeast 5S rRNA gene and a heterologous Xenopus laevis somatic 5S rRNA gene. Transcription assays showed that the Xenopus gene was transcriptionally inactive in a crude cell-free yeast extract that actively transcribes the homologous gene. However, the Xenopus gene was still able to compete for limiting transcription factors. Electrophoretic DNA binding assays revealed that while TFIIIA bound avidly to the yeast gene (generating the 'A-complex'), it had no affinity for the Xenopus 5S rRNA gene. Nevertheless, a complex of both TFIIIA and TFIIIC/tau factor (the 'AC-complex') was formed on the two genes with similar affinity, although only the complex assembled on the homologous gene was able to activate transcription. Thus enough sequence information is present on the heterologous gene to direct transcription factor assembly, but not to activate transcription. Like its counterpart in Xenopus, the yeast TFIIIA appears to be a zinc binding protein that is inactivated by EDTA and 1,10-phenanthroline, and reactivated in the presence of zinc ions. Bound to the 5S rRNA gene, TFIIIA is however significantly more resistant to inactivation by chelators than in its free state. The AC-complex differs from the A-complex by being less affected by chelators, and by being more sensitive to the dissociating effect of single-stranded DNA.
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PMID:Yeast TFIIIA + TFIIIC/tau-factor, but not yeast TFIIIA alone, interacts with the Xenopus 5S rRNA gene. 201 29

Two urea-free agarose gel protocols that resolve the six individual strands of bacteriophage phi 6 dsRNA were developed and used to analyze phage RNA synthesis in vivo and in vitro. Citrate gels separate strands of the large and medium chromosomes while Tris-borate-EDTA (TBE) gels resolve the medium and small dsRNA segments. Minus strands migrate faster than plus strands on citrate gels but are retarded on TBE gels. A study of electrophoretic conditions showed that pH affects strand resolution on citrate gels, and that voltage gradient, agarose concentration, and ethidium bromide significantly alter strand migration on TBE gels. Analysis of native phi 6 RNA synthesized in vivo and in vitro showed that the large and medium message RNAs comigrate with the corresponding plus strands of denatured virion dsRNA. The small messenger RNA is exceptional. Native small mRNA was detected as three isoconformers in vivo and in vitro. The isoconformers were converted by heat denaturation to a single RNA species that comigrates with the virion s+ strand. Minus strands labeled in vivo were detected only after heat denaturation. Minus strand synthesis was detected also in heat-denatured samples from in vitro phi 6 nucleocapsid RNA polymerase reactions at pH values suboptimal for transcription.
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PMID:Detection of bacteriophage phi 6 minus-strand RNA and novel mRNA isoconformers synthesized in vivo and in vitro, by strand-separating agarose gels. 235 55

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