Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A procedure was developed for isolating nuclei from either the conidial or germinated conidial growth phase of Neurospora crassa. A frozen conidial suspension was lysed by passage through a French pressure cell, and the nuclei were freed from the broken cells by repeated homogenization in an Omni-Mixer. Pure nuclei were obtained from the crude nuclear fraction by density banding in a Ludox gradient. The final nuclear yield was 20 to 30%. The nuclei had a deoxyribonucleic acid (DNA):ribonucleic acid (RNA):protein ratio of 1:3.5:7 and were active in RNA synthesis. The nuclei, stained with the DNA stain 4,6-diamidino-2-phenylindole, appeared under fluorescence microscopy as bright blue spheres, 1 micron in diameter, essentially free from cytoplasmic attachments. Chromatin extracted from the nuclei in a 70 to 75% yield by dissociation with 2 M sodium chloride and 5 M urea had a DNA:RNA:protein ratio of 1:1.05:1.7. Chromatin reconstituted from this preparation exhibited a level of RNA polymerase template activity lower than that of pure Neurospora DNA, but the maximum level of reconstitution obtained was only 10%. Fractionation of Neurospora chromatin on hydroxylapatite separated the histones from the chromatin acidic proteins. The normal complement of histone proteins was present in both the reconstituted and dissociated chromatin preparations. The acidic protein fraction exhibited a variety of bands on sodium dodecyl sulfate gel electrophoresis ranging in molecular weight from 15,000 to 70,000. The gel pattern was much more complex for total dissociated chromatin than for reconstituted chromatin.
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PMID:Isolation and characterization of nuclei from Neurospora crassa. 16 36

Two-dimensional polyacrylamide gel electrophoresis shows that in nuclei of Novikoff hepatoma ascites cells there are approximately 75 proteins in the chromatin fraction soluble in 3 M NaCl:7 M urea. Dialysis of this fraction to an ionic strength of 0.15 produces a soluble fraction and a precipitate. The proteins in the soluble fraction have been reported to be active in gene control. Antibodies to the soluble fraction distribute diffusely throughout the nucleus, and antibodies to the precipitate localized primarily in the nucleolus and the nuclear ribonucleoprotein network. The nucleolar proteins differ from the extranucleolar proteins in antigenicity and labeling patterns. The development of methods for isolation, purification, and identification of nuclear proteins provided the opportunity for analysis of chromatin antigens in tumor cells. Utilizing two-dimensional preparative polyacrylamide gel techniques as well as conventional procedures, several nuclear proteins have been isolated in electrophoretically homogeneous states including protein A-24, a histone-like nonhistone protein; C-14, a protein that stimulates nucleolar RNA polymerase; and a chromatin antigen soluble in 3 M NaCl:7 M urea that remains soluble after dialysis to 0.15 M NaCl to precipitate the histones and the DNA. This antigen has been found in the chromatin of both the Novikoff hepatoma and the Walker 256 carcinosarcoma but not in the chromatin of either normal or regenerating liver. It is a nonhistone nuclear protein as indicated by its amino acid analysis in which the ratio of the number of acidic to basic amino acids is approximately 1.4. Further studies are in progress on the function and structure of this chromatin protein. As an approach to analysis of relative rates of synthesis of this antigen and otherproteins, the products of translation of messenger RNA of Novikoff hepatoma and normal liver are being analyzed by autoradiography of two-dimensional electrophoretic gels.
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PMID:Antigenically active nonhistone chromatin proteins in cancer cells. 18 49

Exposure of sulfhydryl groups as indicated by titration kinetics is decreased under conditions where RNA polymerase exists as a dimer or higher aggregate (low salt), in the presence of Mn2+, or when bound to d(A-T). Incubation of phenylmercurisulfonate with RNA polymerase above pH 9.0 results in loss of d(A-T) binding ability. Poly(U) binding is more sensitive to sulfhydryl modification and is lost as pH's above 8.0. The presence of 4 mM Mn2+ has an obvious effect in stabilizing the polymerase-poly(U) complex when incubated with 10 muM phenylmercurisulfonate + 1 M urea. Incubation of the enzyme with the mercurial and urea results in disaggregation to subprotomeric forms and release of the alpha subunit. Similar treatment in the presence of 4 mM MnSO4 stabilizes the protomeric structure of the enzyme. During chain elongation the enzyme exists as a ternary d(A-T)n-enzyme-r(U-A)n complex in which the bound d(A-T)n is refractory to the destabilizing effect of the mercurial; however, further phosphodiester bond formation is inhibited. The results are defined in terms of a role which reflects the involvement of polymerase sulfhydryl groups in the various conformations necessary for subunit-subunit interaction, tight template binding and catalytic activity.
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PMID:On the role of sulfhydryl groups in the structure and function of the Azotobacter vinelandii RNA polymerase. 24 Apr 5

The effects of cordycepin (3'-deoxyadenosine) and cordycepin triphosphate on phosphorylation of non-histone chromosomal proteins were assessed in isolated hepatic nuclei in vitro. Cordycepin and cordycepin triphosphate competitively inhibited phosphorylation of urea-soluble nuclear proteins with a Ki of 1.2 X 10(-3) and 8 X 10(-5) M, respectively. Isoelectric focusing of urea-soluble proteins indicated that inhibition occurred predominantly in nuclear proteins with isoelectric points of pH 4 to 7. Quaternary aminoethyl-Sephadex chromatography of extracts of nuclei incubated with cordycepin and cordycepin triphosphate also showed inhibition of phosphorylation of non-histone chromosomal proteins with similar isoelectric points, although greater resolution of proteins with isoelectric points of pH 6 to 7 was achieved. RNA polymerase I and II were not affected by cordycepin and cordycepin triphosphate after quaternary aminoethyl-Sephadex chromatography of nuclear extracts incubated with either agent. However, RNA polymerase I and II in isolated nuclei were competitively inhibited by cordycepin triphosphate but not by cordycepin. These results suggest that cordycepin triphosphate, and perhaps cordycepin too, may affect transcription via interference with the phosphorylation of non-histone chromosomal proteins.
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PMID:Inhibition of the phosphorylation of non-histone chromosomal proteins of rat liver by cordycepin and cordycepin triphosphate. 30 21

The DNA-dependent RNA polymerase I (or A) from the lower eukaryote Aspergillus nidulans has been purified on a large scale to apparent homogeneity by homogenizing the fungal hyphae in liquid nitrogen, extraction of the enzyme at high salt concentration, precipitation of RNA polymerase activity with polymin P (a polyethylene imine), elution of the RNA polymerase from the polymin P precipitate, ammonium sulphate precipitation, molecular sieving on Bio-Gel A-1.5m, binding to ion-exchangers and DNA-cellulose affinity chromatography. By this procedure 1.6 mg of RNA polymerase I can be purified over 2000-fold from 500 g wet weight of starting material with a yield of 30--35%. The isolated RNA polymerase I is stable for several months at -20 degrees C. The subunit compostion has been resolved by polyacrylamide gel electrophoresis on two-dimensional gels, using either non-denaturing of 8 M urea (pH 8.7) cylindrical gels in the first dimension and sodium dodecyl sulphate slab gels in the second dimension. The putative subunits have molecular weights of 190,000, 135,000, 63,000, 62,000, 43,000, 29,000, (28,000), 16,000 and probably 13,000 and 12,000. Two distinct forms of RNA polymerase I (Ia and Ib) have been resolved by DEAE-Sephadex A-25 chromatography showing ample differences in enzymatic properties and subunit pattern. Additional information is given on RNA polymerase II (or B) which appears to be highly insensitive to alpha-amanitin at concentrations up to 400 micrograms/ml.
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PMID:RNA polymerase from the fungus, Aspergillus nidulans. Large-scale purification of DNA-dependent RNA polymerase I (or A). 38 Sep 97

The molecular structure of RNA polymerases from Escherichia coli, Salmonella typhimurium, Salmonella anatum,serratia marcescens, Aerobacter aerogens, Proteus mirabilis and Bacillus subtilis were compared based on:i) inhibition of the enzyme activity by treatment with antibodies against E. coli RNA polymerase subunits;ii) analysis of antibody precipitates by sodium ododecyl sulfatepolyacrylamide gel electrophoresis; and iii) analysis of antibody precipitates by urea-isoelectrofocusing followed by sodium dodecyl sulfate-slab gel electrophoresis in the second dimension. All the bacterial RNA polymerases examined cross-react equally with anti-E. COLI HOLOPOLYMERASE BUT EXHIbit different extents of cross-reaction with antibodies against individual subunits. Except for B. subtilis RNA polymerase, the molecular weight and isoelectric point of the enzyme subunits are close to those of E. coli polymerase. However, minor difference were found at least within the resolution of the techniques employed:S. anatum polymerase has sigma subunit larger than E. coli sigma subunit; P. mirabilis enzyme has sigma subunit larger in size and more acidic in charge, and alpha subunit smaller and more basic than corresponding E. coli subunits. The electrophoretic map of B. subtilis enzyme subunits is completely different from that of E. coli enzyme.
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PMID:Comparative studies of RNA polymerase subunits from various bacteria. 40

Rapid and reliable fractionation of neuronal and nonastrocytic glial (NAG) cerebral rat brain chromatin in transcribable and repressed portions was achieved employing the DNAase II/Mg++-solubility method of Gottesfeld et al. (1974). Compositional and transcriptional properties of these fractions have been investigated. Compared to transcriptionally repressed fractions, template-active neuronal and NAG chromatin fractions are associated with an increased content of nonhistone chromosomal (NHC-) proteins. Both of the transcribable as well as both of the repressed fractions are strikingly different in their composition as assessed by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. Comparative acid urea gel electrophoretic patterns of histones revealed that histone fraction H 1 is almost completely absent in actively transcribed neuronal chromatin and reduced in the corresponding NAG fraction while in template-inactive neuronal and NAG chromatin all five main histone fractions are present in equal amounts. The total number of RNA initiation sites available for exogenously added homologous RNA polymerase on template-active and -inactive neuronal and NAG chromatin was quantitatively measured under assay conditions completely eliminating reinitiation. Unlike the template-active neuronal and NAG fractions which are differently enriched in RNA initiation sites, transcriptionally more repressed neuronal and NAG fractions demonstrated a minimal ability to initiate RNA synthesis. Under assay conditions allowing repeated initiation of RNA chains at the same initiation site, rat brain RNA polymerase molecules were found to utilize neuronal initiation sites more frequently than NAG ones.
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PMID:Characteristics of transcriptionally active and inactive neuronal and nonastrocytic glial rat brain chromatin fractions. 43 84

The constituent polypeptides of the three classes of DNA-dependent RNA polymerase from Acanthamoeba castellanii were compared by several electrophoretic methods. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS) reveals that a number of polypeptide components of the isozymes have identical molecular weights. Two-dimensional electrophoresis (isoelectric focusing in 8 M urea:SDS-polyacrylamide gel electrophoresis) demonstrates that the polypeptides of identical molecular weights also have identical isoelectric pH values. These polypeptides were also coincident after electrophoresis in 8 M urea at acidic or basic pH values followed by a second electrophoretic separation in the presence of SDS. By these criteria, subunits of molecular weight 13,300, 15,500, 17,500, 22,500, 37,000, and 39,000 are indistinguishable in polymerase I and III. The 13,300, 15,500, and 22,500 subunits are also shared by the class II polymerase. In addition, electrophoresis in 8 M urea under basic conditions reveals microheterogeneity in the 17,500 molecular weight subunit. The strikingly similar pattern of common subunits between yeast and Acanthamoeba suggests that a universal arrangement of functional units may be an essential feature of the eukaryotic polymerases.
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PMID:DNA-dependent RNA polymerases from Acanthamoeba castellanii. Comparative subunit structures of the homogeneous enzymes. 50 Jun 45

In the presence of Mg(2+) and a specific primer, ApG or GpG, the influenza WSN virion transcriptase synthesizes large, polyadenylic acid-containing complementary RNA (cRNA) (Plotch and Krug, J. Virol., 21:24-34, 1977). After removal of its polyadenylic acid with RNase H in the presence of polydeoxythymidylic acid, the in vitro cRNA distributed into seven discrete bands during electrophoresis in acrylamide gels containing 6 M urea. The eight known segments of virion RNA (vRNA) also distributed into seven bands under these conditions as two, rather than the expected three, large-sized segments were resolved. Each of the in vitro cRNA segments migrated slightly faster than the corresponding vRNA segment. To determine whether this difference in mobility reflects a difference in size between cRNA and vRNA, the double-stranded RNA formed by annealing labeled in vitro cRNA to unlabeled vRNA was subjected to various nuclease treatments and was analyzed by gel electrophoresis. Hybrids treated with RNase T2 or a combination of RNase T2 and RNase H migrated slightly faster than those treated only with RNase H, indicating that RNase T2 removed an RNA sequence other than polyadenylic acid, most probably a short sequence of vRNA not hydrogen bonded to cRNA. These results suggest that the in vitro cRNA segments are shorter than, and thus incomplete transcripts of the corresponding vRNA segments. All eight hybrids were resolved by gel electrophoresis, indicating that all eight vRNA segments are transcribed into cRNA in vitro. We also present evidence suggesting that the ApG primer initiates in vitro transcription exactly at the 3' end of vRNA.
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PMID:Segments of influenza virus complementary RNA synthesized in vitro. 62 84

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


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