Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A transortin-hydrocortisone complex has been isolated from human serum by affinity chromatography on oxidized corticosterone coupled to AH-Sepharose 4B. The influence of this complex and of hydrocortisone alone on endogenous RNA polymerase activity from thymus chromatin have been tested. Results show that hydrocortisone alone has no effect on RNA polymerase activity from thymus chromatin. Under the same experimental conditions, The transcortin-hydrocortisone complex induces an important decrease in the incorporation of UMP into RNA. The dose response of thymic RNA polymerase to transcortin-hydrocortisone complex and the effects of alpha-amanitin on this response are also reported.
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PMID:Inhibition of endogenous RNA polymerase activity from thymus chromatin by transcortin-hydrocortisone complex. 43 97

DNA dependent RNA polymerase activities in isolated bovine thyroid nuclei and nucleoli have been studied. They retain their RNA synthetic activity for an extended period of time. This RNA synthetic activity is sensitive to actinomycin D and requires the presence of all four ribonucleoside triphosphates. The optimal conditions have been determined. Polyacrylamide gel electrophoresis reveals that the RNA synthesized has a size distribution ranging from 34S to 4S. The production of 18S-8S RNA is very sensitive to low concentrations of alpha-amanitin. However, in isolated bovine thyroid nuclei (not in nucleoli) this drug displays an effect on all RNA classes produced. The alpha-amanitin induced drastic decrease of [3H]-UMP incorporation in RNA of all sizes synthesized by isolated bovine thyroid nuclei is discussed.
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PMID:RNA synthesis in isolated bovine thyroid nuclei and nucleoli. alpha-Amanitin effect, a hint to the existence of a specific regulatory system. 51 Nov 17

Changes in RNA synthesis in liver nuclei were observed at different ages and after hypophysectomy and hormone replacement in female Sprague-Dawley rats. As determined by the incorporation of [3H]UMP into an acid-insoluble product, RNA synthesis decreased by about 75% in intact rats from 6 months to 24 months of age. This decline with age was not observed in liver nuclei from 24-month-old rats that had been hypophysectomized at 12 months and maintained on a minimal hormone-replacement therapy. Thyroid hormones and somatotropin (growth hormone) had an additive effect on RNA synthesis in liver nuclei from these hypophysectomized rats. The same hormones had no significant effect on intact, age-matched rats. With advancing age, nuclei of intact rats had an increase in the pool of free RNA polymerase and an apparent decrease in the enzyme activity bound to nuclear chromatin. There was no change in total enzyme with age. In hypophysectomized, hormone-treated rats, free RNA polymerase activity decreased and chromatin-bound activity increased. There was no difference in total nuclear RNA polymerase activity between operated or intact rats. However, the ratio of the bound to the free activity was different. These results suggest that the ability of RNA polymerase to bind to chromatin may be involved in the age-related decrease in liver nuclear RNA synthesis of intact rats.
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PMID:Effect of hypophysectomy on liver nuclear ribonucleic acid synthesis in aging rats. 54 57

Atypical eukaryotic RNA polymerase activity was demonstrated in nuclei of Crypthecodinium cohnii, a eukaryote devoid of histones. Nuclei were isolated from growing cultures of this dinoflagellate and assayed for endogenous RNA polymerase (EC 2.7.7.6) activity. There was a biphasic response to Mg2+ with optima at approximately 0.01 and 0.02 M MgCl2, but in contrast to other eukaryotic RNA polymerases, this enzyme activity was inhibited by low MnCl2 concentrations. In the presence of 0.01 M MgCL2 the optimum (NH4)2SO4 concentration was 0.025 M, a concentration at which the nuclei were lysed. Incorporation of [3H]UMP into RNA was inhibited by actinomycin D and dependent on the presence of undergraded DNA, and the reaction product was sensitive to ribonuclease and KOH digestion. Omission of one or more ribonucleoside triphosphates greatly reduced the incorporation. Only a slight enhancement of RNA polymerase activity resulted from the addition of various amounts of native and denatured calf thymus DNA. Spermine caused a marked inhibition while spermidine had little effect on RNA synthesis in the nuclei. Under the optimum conditions described in the present paper the nuclei incorporated approximately 3 pmoles of [3H]UMP/microgram DNA at 25 C for 15 min, and approximately 80% of this activity was inhibited by the eukaryotic RNA polymerase II inhibitor, alpha-amanitin (20 micrograms/ml). A unique situation therefore exists in C. cohnii nuclei, in which absence of histones (a prokaryotic trait) is combined with alpha-amanitin-sensitive RNA polymerase activity (a eukaryotic trait).
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PMID:RNA synthesis in isolated nuclei of the dinoflagellate Crypthecodinium cohnii. 57 93

Hg-UMP-containing transcripts made from chick erythroid chromatins with E. coli RNA polymerase hybridize to chick globin cDNA. Contamination with endogenous globin RNA has been largely removed by purification on SH-agarose columns at 55 degrees C. Some endogenous globin mRNA sequences remain, probably as hybrids with "anti-sense" Hg-transcripts produced by RNA-dependent RNA synthesis. Heating to 115 degrees C before SH-agarose chromatography eliminates these contaminants. Hg-transcripts from adult and embryonic erythroid chromatins purified by this method are hybridized to globin cDNA; they contain a 4- to 6-fold higher proportion of globin-specific sequences (10-13 PPM) than do transcripts from brain chromatin. Dissociation of erythroid chromatins in salt and urea, followed by reconstitution using standard methods, destroys even this low degree of specificity.
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PMID:Is there specific transcription from isolated chromatin? 65 20

This paper describes the synthesis of O6-methyldeoxyguanosine triphosphate (m6dGTP) and its copolymerization to high molecular weight polymer with deoxycytidylic acid. The monomer, m6dGTP, was synthesized from deoxyguanosine first protected by acetylation of the sugar hydroxyls, and then chlorinated in the 6-position with POCl3. The product, 6-chloro-3',5'-di-O-acetyl deoxyguanosine, was converted to O6-methyldeoxyguanosine with sodium methoxide and phosphorylated in the 5' position with carrot phosphotransferase. Monophosphate was converted chemically to the triphosphate and copolymerized with dCTP by terminal deoxynucleotidyl transferase. The resulting template, which contained O6-methylguanine, was tested for its ability to direct RNA synthesis by bacterial RNA polymerase. The presence of O6-methylguanine was shown to lead to the misincorporation of UMP in the product polymer, thus strengthening the hypothesis that O6-methylguanine is a promutagenic base.
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PMID:Synthesis and properties of O6-methyldeoxyguanylic acid and its copolymers with deoxycytidylic acid. 73 85

RNA polymerase activity has been measured in liver and brain of C57BL-6J mice to determine if a change in enzyme activity can be correlated with decreasing survivorship of the animals. The RNA polymerases in tissue homogenates were solubilized by treatment with a buffer of high ionic strength and resolved by DEAE-Sephadex chromatography. Enzyme activity was quantitated by measuring the incorporation of [3H]UMP into RNA using heat denatured calf thymus DNA as the template. Statistically significant differences in polymerase activities were not observed in liver tissue from 18-, 25-, and 29-month-old animals or in brain tissue from 23- to 31-month-old animals. These age groups span the period of most rapid decrease in survivors,ip in our colony of mice (from 93% to 16%). The evidence indicates that changes in liver or brain RNA polymerase activities are not correlated with the rapid decrease in survivorship of these animals.
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PMID:RNA polymerase activities in liver and brain tissue of aging mice. 74 26

A procedure has been developed for the rapid purification of large amounts of yeast RNA polymerase I (A). The method involves batchwise treatment with phosphocellulose and DEAE-cellulose, ion filtration chromatography on DEAE-Sephadex, sucrose gradient centrifugation, and DNA-cellulose chromatography. The enzyme obtained is apparently homogeneous by sedimentation velocity analysis and has a specific activity of 300 nmol of UMP incorporated into RNA in 10 min per mg of protein. Between 30 and 45 mg of enzyme can be obtained in 5 days from 3.0 kg of yeast cells. The subunit composition of the enzyme was determined by polyacrylamide gel electrophoresis in the presence of 0.1% sodium dodecyl sulfate. The purified polymerase is composed of 11 putative subunits with molecular weights 185,000 (Ia), 137,000 (Ib), 48,000 (Ic), 44,000 (Id), 41,000 (Ie), 36,000 (If), 28,000 (Ig), 24,000 (Ih), 20,000 (Ii), 14,500 (Ij), and 12,000 (Ik). Yeast polymerase I separates into two forms when subjected to gel electrophoresis under nondenaturing conditions. The main component which migrates faster contains all the subunits except the polypeptides Ic and If. The slow migrating component which is present in lower amounts contains all the subunits.
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PMID:Yeast DNA-dependent RNA polymerase I. A rapid procedure for the large scale purification of homogeneous enzyme. 76 34

The synthetic DNA alternating copolymers poly dAT-dAT and dABU-dABU have been transcribed with E. coli RNA polymerase to measure the level of BrdU-induced misincorporation of guanine during transcription. GTP is found to be misincorporated into both copolymers at a frequency of 1 per 1000-2000 nucleotides polymerized. Using alpha-32P-GTP, the nearest neighbors to GMP are found to be UMP (approximately 63%), GMP (approximately 25%) and AMP (approximately 17%), with no apparent difference between the two templates. These results suggest that BrdU-substitution in DNA does not necessarily increase the potential for base mispairing during transcription, and hence, promote the production of faulty RNA molecules.
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PMID:Misincorporation of (TP during transcription of poly dAT-dAT and poly dABU-dABU. 110 Dec 26

DNA-dependent RNA polymerases I and II were purified from pig kidney nuclei by chromatography on DEAE-Sephadex and phosphocellulose. When nonlimiting amounts of double-stranded DNA were used as the template, the in vitro transcription was markedly stimulated by spermidine and spermine. Maximal stimulation of RNA polymerase I occurred at 2-5 mM spermidine and 0.5-2 mM spermine, whereas optimal polyamine concentrations for RNA polymerase II were 5-10 and 1-5 mM for spermidine and spermine, respectively. DNA transcription by polymerase II was stimulated to a greater extent than that of polymerase I. Higher spermine (5-10 mM) concentrations were strong inhibitors of both polymerases under these conditions. The apparent Km of RNA polymerases I and II for UTP was unchanged at optimal polyamine concentration; under the same conditions the maximal reaction velocity was increased two- to three-fold and was essentially due to an increase in the rate of chain elongation. Thus, in a typical experiment the average chain length as determined by the UMP/uridine ratio increased from 570 to 1330 and the chain elongation rate increased from 0.64 to 1.44 nucleotides times sec-1 in the presence of spermine. When limiting quantities of native DNA were employed as the template, both RNA polymerases I and II were inhibited by 1-2 mM spermine. Kidney chromatin could be transcribed by homologous RNA polymerases with an efficiency ranging from 2 to 10% of that with native DNA. When chromatin was used in nonlimiting amounts instead of DNA, RNA polymerase II activity was again stimulated about two-fold at 2 mM spermine. Under these conditions, RNA polymerase I activity was inhibited by spermine. The inhibition of RNA synthesis in vitro at limiting quantities of templates (DNA or chromatin) could be overcome by preincubation of the enzyme with templates before polyamines were added. This inhibition thus appears to be due to a block in the initiation of RNA chains. Similar inhibition of transcription by RNA polymerase II was also observed with limiting quantities of chromatin as the template.
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PMID:DNA-dependent RNA polymerases I and II from kidney. Effect of polyamines on the in vitro transcription of DNA and chromatin. 116 98


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