Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have identified the template-binding polypeptide in the pea chloroplast transcriptional complex by photoaffinity labelling. This polypeptide has an apparent molecular weight of about 150 kDa and binds to both, chloroplast ribosomal (16S rRNA) and messenger (psbA) promoters. The 16S rRNA and psbA promoters were amplified from chloroplast DNA by the polymerase chain reaction and labelled with a photoactive analogue of TTP, 5-bromodeoxy UTP, as well as with alpha-32P-dCTP. Using the filter-binding assay, the conditions for binding of the RNA polymerase complex to chloroplast promoters were optimized. The polypeptide directly interacting with the template was photo-crosslinked to it and resolved by denaturing gel electrophoresis. The photoaffinity labelling of the 150 kDa polypeptide was dependent on photoactivation by UV irradiation, and the presence of chloroplast promoters. Competition experiments showed that the protein formed a strong interaction with the plastid promoters which could not be displaced by lambda-phage DNA or synthetic polynucleotides. The photo-crosslinked and nuclease-treated promoter-polypeptide complex was resistant to further digestion with DNase and RNase, but could be hydrolyzed by Proteinase K. Binding of the promoters by the 150 kDa polypeptide could not be surpressed by transcription inhibitors like rifampicin and alpha-amanitin. However, heparin (0.001%) inhibited the formation of the enzyme-promoter complex, and interfered with the photoaffinity labelling of the 150 kDa polypeptide. The extent of photoaffinity labelling of 150 kDa polypeptide exhibits some degree of correlation to total transcriptional activity under various salt concentrations. The results demonstrate that the 150 kDa polypeptide is a functional template binding polypeptide of the pea chloroplast transcription complex.
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PMID:Identification of the template binding polypeptide in the pea chloroplast transcriptional complex. 173 6

A DNA primase activity was isolated from pea chloroplasts and examined for its role in replication. The DNA primase activity was separated from the majority of the chloroplast RNA polymerase activity by linear salt gradient elution from a DEAE-cellulose column, and the two enzyme activities were separately purified through heparin-Sepharose columns. The primase activity was not inhibited by tagetitoxin, a specific inhibitor of chloroplast RNA polymerase, or by polyclonal antibodies prepared against purified pea chloroplast RNA polymerase, while the RNA polymerase activity was inhibited completely by either tagetitoxin or the polyclonal antibodies. The DNA primase activity was capable of priming DNA replication on single-stranded templates including poly(dT), poly(dC), M13mp19, and M13mp19 + 2.1, which contains the AT-rich pea chloroplast origin of replication. The RNA polymerase fraction was incapable of supporting incorporation of 3H-TTP in in vitro replication reactions using any of these single-stranded DNA templates. Glycerol gradient analysis indicated that the pea chloroplast DNA primase (115-120 kDa) separated from the pea chloroplast DNA polymerase (90 kDa), but is much smaller than chloroplast RNA polymerase. Because of these differences in size, template specificity, sensitivity to inhibitors, and elution characteristics, it is clear that the pea chloroplast DNA primase is an distinct enzyme form RNA polymerase. In vitro replication activity using the DNA primase fraction required all four rNTPs for optimum activity. The chloroplast DNA primase was capable of priming DNA replication activity on any single-stranded M13 template, but shows a strong preference for M13mp19 + 2.1. Primers synthesized using M13mp19 + 2.1 are resistant to DNase I, and range in size from 4 to about 60 nucleotides.
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PMID:Pea chloroplast DNA primase: characterization and role in initiation of replication. 186 57

Reverse transcriptase from the simian immunodeficiency virus (SIV) was found to have kinetic behavior similar to that of enzyme from the human immunodeficiency virus (HIV). Michaelis constants for the substrates TTP and dGTP and inhibition constants for the inhibitors 3'-azido-3'-deoxythymidine 5'-triphosphate, 2',3'-dideoxythymidine 5'-triphosphate, and 2'-3'-dideoxyguanosine 5'-triphosphate were obtained for SIV reverse transcriptase and were found to be similar to the corresponding values for HIV reverse transcriptase. Thus, the interaction of SIV reverse transcriptase with nucleotide analogs appears to be indistinguishable from that of the HIV enzyme, suggesting that SIV/simian acquired immunodeficiency syndrome (SAIDS) is a potentially good model of AIDS.
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PMID:Kinetics and inhibition of reverse transcriptase from human and simian immunodeficiency viruses. 246 88

Plasmid DNA containing the adenovirus type 2 genes for VA RNA was linearized at a site distal to the gene, end labeled with a biotin-nucleotide analog of TTP, and incubated with avidin to form an avidin-biotinylated DNA complex. HeLa cell S100 extracts containing crude RNA polymerase III and transcription factors (TFs) IIIB and IIIC were programmed with the avidin-biotin-VA DNA to allow stable complex formation (A.B. Lassar, P.L. Martin, and R.G. Roeder, Science 222:740-748, 1983). Chromatography of the programmed extract over a biotin-cellulose affinity resin resulted in the selective, and virtually quantitative, retention of one of two stable preinitiation complexes, either VA-IIIC or VA-IIIC-IIIB, depending on the length of template incubation in the S100 extract. After washing the resin with 0.10 M and 0.25 M KCl to remove RNA polymerase III and nonspecifically bound proteins, respectively, TFIIIC was eluted from the VA-IIIC complex by the addition of 1.5 M KCl. The VA-IIIC-IIIB complex exhibited a higher salt stability. Most of TFIIIB and some TFIIIC were released by the addition of 1.5 M KCl; however, the majority of TFIIIC activity was recovered only after a subsequent 3.0 M KCl elution. The specific activity of the TFIIIC in the 3.0 M KCl fraction was 770-fold higher than that in the S100 extract, while the protein content of the 1.5 and 3.0 M KCl fractions was reduced 7,500- and 100,000-fold, respectively.
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PMID:Rapid enrichment of HeLa transcription factors IIIB and IIIC by using affinity chromatography based on avidin-biotin interactions. 378 24

Various 5-substituted 1-beta-D-xylofuranosyluracil 5'-triphosphates (hydrogen, methyl-, ethyl-, n-propyl, n-butyl, fluoro-, chloro-, bromo-, and iodo derivatives) and some of the 3'-deoxyribofuranosyl nucleotides (3'-deoxy UTP and 3'-deoxy TTP) were synthesized chemically and their inhibitory effects on DNA-dependent RNA polymerases I and II of the cherry salmon (Oncorhynchus masou) were studied systematically. These 3'-modified UTP analogues could not be utilized as substrates in place of UTP, but they did inhibit the incorporation of UMP into RNA in vitro. In contrast, 2'-modified UTP analogues, such as 2'-dTTP and Ara TTP, were neither substrates nor inhibitors. Kinetic analysis showed that the inhibition by these compounds was essentially competitive with substrate UTP. The K1 values of RNA polymerase I for the analogues were smaller (2-6 microM) than the Km value for UTP (8 microM), but those for xylo-EtUTP, xylo-PrUTP, and xylo-BuUTP were larger (about 20 microM) than the Km for UTP. In contrast to these alkyl groups with steric and electron-donating effects, halogen groups have electron-withdrawing effects on the uracil nucleus. Therefore, it was concluded that the inhibitory activity of these analogues on RNA polymerase I was not affected by the inductive effects of substituent groups at the 5-position of uracil nucleus but by their steric effects. On the other hand, all of the K1 values of RNA polymerase II for UTP analogues were smaller (0.4-3 microM) than the Km value for UTP (4 microM). In this case, neither steric effect nor an inductive effect of substituents on UTP analogues influenced the inhibitory activity towards RNA polymerase II.
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PMID:Differential inhibitory effects of 5-substituted 1-beta-D-xylofuranosyluracil 5'-triphosphates and related nucleotides on DNA-dependent RNA polymerases I and II from the cherry salmon (Oncorhynchus masou). 406 48

Nuclei and hypotonically leached extracts of nuclei prepared from tomato golden mosaic virus (TGMV)-infected Nicotiana benthamiana leaves have been used in in vitro DNA and RNA polymerisation reactions. The synthesis of virus-specific DNA was resistant to aphidicolin, sensitive to N-ethylmaleimide and dideoxy TTP, and stimulated by KC1 and ATP. Variably virion (+) and complementary (-) strand DNA of both the A and B genomic components were synthesised. Virus-specific RNA was synthesised in reactions which were initiated prior to nuclei isolation and leaching. From inhibitor studies and salt requirements RNA synthesis appeared to be catalysed by a DNA-dependent RNA polymerase type II enzyme. Both components of the TGMV genome were transcribed in a bidirectional fashion with a prevalence in some experiments of transcripts derived from DNA component A.
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PMID:DNA and RNA polymerase activities of nuclei and hypotonic extracts of nuclei isolated from tomato golden mosaic virus infected tobacco leaves. 406 99

Two human strains (AD-169 and C87) and one simian strain (GR2757) of cytomegalovirus (CMV) have been purified from the extracellular fluids of virus-infected cultures by sedimentation through a sucrose gradient followed by brief centrifugation in a preformed gradient of CsCl. Enveloped virus particles were located in the density region, 1.219 g/cm(3), and nucleocapsids at 1.263 g/cm(3). Purified viral DNA, both human and simian, sedimented in the region of 55S in neutral sucrose gradients with herpes simplex type I DNA as a marker; the molecular weight of the CMV DNA was estimated as approximately 10(8). The density of the viral DNA determined by analytical ultracentrifugation was 1.716 g/cm(3) for the human strains and 1.710 g/cm(3) for the simian strain. Tritiated viral complementary RNA synthesized in vitro with Escherichia coli transcriptase has been used for detection and localization of viral genome in membrane hybridization and in situ cytohybridization. Newly synthesized viral DNA appeared 24 h after infection and localized at two acrocentric areas; later the viral DNA distributed in a band resembling intranuclear inclusions 48 to 70 h after infection. Total DNA synthesis began to increase 24 h after infection and reached its peak at 70 h; RNA synthesis increased at 13 h, and reached its peak at 24 to 33 h. The viral DNA was also labeled with (3)H-TTP by repair-synthesis in vitro with Kornberg's enzyme in order to analyze the purity of the DNA and for detection of viral DNA by DNA-DNA reassociation kinetics.
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PMID:Human cytomegalovirus. I. Purification and characterization of viral DNA. 412 79

Various 5-substituted UTPs (methyl, ethyl, n-propyl, n-butyl, fluoro, chloro, bromo, and iodo) and sulfur-containing UTP analogues (4-thio-, 2-thio-, 5-methyl-2-thio-, and 5-methyl-4-thio-) were synthesized chemically and their utilization by DNA-dependent-RNA polymerases I and II of the cherry salmon (Oncorhynchus masou) were studied in substitution experiments under the condition of limited RNA synthesis in vitro. RNA polymerase I utilized the 5-methyl-, chloro, bromo, and iodo derivatives of UTP more efficiently than unmodified UTP, but RNA polymerase II utilized UTP most efficiently. 5-Methyl-4-thiouridine 5'-triphosphate (4-thio TTP) was utilized more efficiently than UTP by RNA polymerase I. On the other hand, it was found that 4-thio TTP was a selective substrate for RNA polymerase I and that its incorporation by RNA polymerase II was very slow. Thus recognition of UTP analogues as substrates by RNA polymerase I and II was different. These observation were attributed from kinetic analyses to differences in catalytic activity (Vmax).
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PMID:Utilizations of various uridine 5'-triphosphate analogues by DNA-dependent RNA polymerases I and II purified from liver nuclei of the cherry salmon (Oncorhynchus masou). 652 17

Various 1-beta-D-xylofuranosyl-5-substituted uracil 5'-triphosphates were synthesized and their inhibitory effects on DNA-dependent RNA polymerase I and II, which were purified from cherry salmon (Onchorhynchus masou) liver, were examined. The results were as follows: 1) Xylo UTP and xylo TTP were strongly inhibited for both RNA polymerase I and II. 2) 5-Ethyl, 5-n-propyl and 5-n-butyl derivatives showed little inhibitory effect on RNA polymerase I while RNA polymerase II activity was strongly affected by these derivatives. 3) Four kinds of 5-halogenated derivatives including fluoro, chloro, bromo and iodo substituent inhibited both RNA polymerase I and II in almost same extent. 4) The mode of inhibition was, in all cases, competitive with UTP.
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PMID:Inhibitory effects of 3'-modified UTP analogues on DNA-dependent RNA polymerase I and II purified from cherry salmon (Onchorhynchus masou) liver. 731 39

G0S24 is a member of a set of genes (putative G0/G1 switch regulatory genes) that are expressed transiently within 1-2 hr of the addition of lectin or cycloheximide to human blood mononuclear cells. Comparison of a full-length cDNA sequence with the corresponding genomic sequence reveals an open reading frame of 326 amino acids, distributed across two exons. Potential phosphorylation sites include the sequence PSPTSPT, which resembles an RNA polymerase II repeat reported to be a target of the cell cycle control kinase cdc2. Comparison of the derived protein sequence with those of rodent homologs allows classification into three groups. Group 1 contains G0S24 and the rat and mouse TIS11 genes (also known as TTP, Nup475, and Zfp36). Members of this group have three tetraproline repeats. Groups 1 and 2 have a serine-rich region and an "arginine element" (RRLPIF) at the carboxyl terminus. All groups contain cysteine- and histidine-rich putative zinc finger domains and a serine-phenylalanine "SFS" domain similar to part of the large subunit of eukaryotic RNA polymerase II. Comparison of group 1 human and mouse genomic sequences shows high conservation in the 5' flank and exons. A CpG island suggests expression in the germ line. G0S24 has potential sites for transcription factors in the 5' flank and intron; these include a serum response element. Protein and genomic sequences show similarities with those of a variety of proteins involved in transcription, suggesting that the G0S24 product has a similar role.
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PMID:A human putative lymphocyte G0/G1 switch gene homologous to a rodent gene encoding a zinc-binding potential transcription factor. 842 74


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