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)

Special care to prevent proteolysis during yeast RNA polymerase B purification leads to the appearance of two forms of enzymes, BI and BII, with different molecular weight (465 000) and 435 000, respectively). The two forms of enzyme can be separated by ion-exchange chromatography or polyacrylamide gel electrophoresis. Their subunit structures were compared by sodium dodecylsulfate gel electrophoresis, the only observed difference between the two enzymes is in the molecular weight of the heaviest subunit which is 220 000 for enzyme BI and 180 000 for enzyme BII. Otherwise, the two enzymes have seven common subunits of molecular weights 150 000, 45 000, 26 000, 22 500, 14 500, 12 500 and 9000. Two additional polypeptide chains of 32 000 and 16 500 Mr are dissociated from the enzyme upon polyacrylamide gel electrophoresis or DEAE Sephadex chromatography. The largest subunit of enzyme BI (Mr 220 000) can be specifically cleaved in vitro by a yeast protease extract, generating a polypeptide chain indistinguishable from the largest subunit of enzyme BII. This proteolytic cleavage of enzyme BI in vitro is inhibited by phenylmethylsulfonyl fluoride and does not significantly change the activity of the enzyme with single-stranded or double-stranded DNA as template. The precursor-product relationship of the different forms of class B RNA polymerases in eukaryotic cells is discussed.
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PMID:Two forms of RNA polymerase B in yeast. Proteolytic conversion in vitro of enzyme BI into BII. 78 Jan 8

Deletion and point mutants of T3 have been isolated and used to show that the early region of T3 DNA is organized in the same way as that of T7 DNA. Homologous early RNAs and proteins of the two phages have been identified by electrophoresis on polyacrylamide gels in the presence of sodium dodecyl sulfate. Both phages have five early mRNA's, numbered 0.3, 0.7, 1,1.1 and 1.3 from left to right, although no T3 protein that corresponds to the 1.1 protein of T7 has yet been identified. In general, corresponding early RNAs and proteins of the two phages migrate differently on gels, indicating that they differ in molecular weight and/or conformation. In both T7 and T3, gene 0.3 is responsible for overcoming the DNA restriction system of the host, gene 0.7 specifies a protein kinase, gene 1 specifies a phage-specific RNA polymerase, and gene 1.3 specifies a polynucleotide ligase. The 0.3 protein of T3 is responsible for the S-adenosylmethionine cleaving activity (SAMase) induced after T3 (but not T7) infection. However, cleaving of S-adenosylmethionine does not appear to be the primary mechanism by which T3 overcomes host restriction, since at least one mutant of T3 has lost the SAMase activity without losing the ability to overcome host restriction.
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PMID:SAMase gene of bacteriophage T3 is responsible for overcoming host restriction. 78 4

The rifampin-resistance mutation of LS3,an asporogenous mutant of Bacillus subtilis 3610, leads to altered mobility of the beta subunit of ribonucleic acid polymerase in sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis. This finding argues that the rifampin-resistance mutation is located in the structural gene coding for the beta polypeptide.
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PMID:Rifampin resistance mutation of Bacillus subtilis altering the electrophoretic mobility of the beta subunit of ribonucleic acid polymerase. 80 57

Nucleic acid-free extracts of Escherichia coli have been analyzed by chromatography on columns of cellulose, to which poly(A), poly(U), or poly(C) have been attached by ultraviolet irradiation. Proteins are released from the columns by stepwise elution with increasingly higher concentrations of salt, followed by washing with urea to remove very tightly bound molecules. The pattern of protein elution is reproducibly different for each of the homopolymer RNA-cellulose columns used: some proteins bind very tightly to one column, but poorly to others. Analysis by sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis, by immunological cross-reactivity in double diffusion tests, and by enzymological assays, has allowed the identification of a number of these proteins. The RNA polymerase core enzyme binds to poly(C)- and to poly(U)-cellulose columns, and can be purified to 20 to 30 percent homogeneity in a single step. Ribosomal protein S1 and the termination factor rho bind very tightly to poly(C)-cellulose, and both can be purified to homogeneity rapidly, in much higher yields than previously reported. Poly(A)-cellulose chromatography allows the isolation of large amounts of an 80,000 molecular weight protein having an as yet unassigned cellular function. The host factor required for RNA phage Qbeta RNA replication in vitro can also be obtained from poly(A)-cellulose, and chromatography of extracts of phage Qbeta-infected E. coli on RNA-cellulose columns results in very rapid isolation of the Qbeta replicase enzyme. Homopolymer RNA-cellulose chromatography thus appears to be a simple, general technique, useful for the efficient isolation of a variety of RNA-binding proteins.
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PMID:Isolation of bacterial and phage proteins by homopolymer RNA-cellulose chromatography. 80 80

Antibody directed against rho factor from vegetative Bacillus subtilis was prepared by immunizing a rabbit with denaturated rho polypeptide isolated by electrophoresis of partially purified DNA-dependent RNA polymerase on a sodium dodecyl sulfate-polyacrylamide slab gel. Antiserum to rho reacted specifically with native rho polypeptide but not with core RNA polymerase as judged by complement fixation and by an immunodiffusion assay. Anti-rho antibody also inhibited the ability of rho to stimulate transcription of phage phie DNA but failed to inhibit transcription of poly(dA-dT) by core enzyme. Specific antibody was also raised against a mixture of the beta and beta' subunits of RNA polymerase purified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The effect of the anti-rho gamma-globulin on the transcription of phage phie DNA by RNA polymerase in crude extracts of vegetative and sporulating cells was examined. Anti-rho antibody markedly inhibited the transcription of phage DNA by RNA polymerase partially purified from vegetative bacteria by ammonium sulfate fractionation but had little effect on transcription of the phage DNA template by enzyme from sporulating cells. Addition of purified rho to a vegetative extract that had been depleted of rho by treatment with the anti-rho antibody restored active transcription of phage DNA. However, addition of purified rho to an antibody-treated extract of sporulating cells had little effect on phie RNA synthesis. These findings suggest that sporulating cells contain a component that interferes with the activity of the rho subunit of RNA polymerase.
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PMID:Antibody directed against Bacillus subtilis rho factor purified by sodium dodecyl sulfate slab gel electrophoresis. Effect on transcription by RNA polymerase in crude extracts of vegetative and sporulating cells. 81 Apr 88

Partially purified rat liver RNA polymerase I chromatographed on ribosomal RNA-Sepharose loses most (96%) of its activity assayed on native calf-thymus DNA templates, but loses little (8%) of its activity assayed on poly(deoxycytidylic acid) template. Polymerase I is not stimulated by polymerase II protein factor, or by bovine serum albumin. However, it is stimulated by histones, polylysine, and spermine. Addition of a protein fraction eluted by high ionic strength from the rRNA-Sepharose also restores activity on native calf-thymus DNA. Further purification yields a fraction containing two proteins of 11 000 and 12 000 molecular weight. Both proteins are distinct from histones by electrophoresis in sodium dodecyl sulfate and in acid urea. Both proteins are basic, insensitive to heat, bind to DNA, and stimulate polymerase I activity. The degree of stimulation of polymerase I is dependent upon both the enzyme/DNA and the factor/DNA ratio. The protein factors also stimulate polymerase II activity about half as effectively as polymerase I.
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PMID:A protein cofactor that stimulates the activity of DNA-dependent RNA polymerase I on double-stranded DNA. 85 26

Three forms of RNA polymerase were assayed in nuclei and nucleoli isolated from rat liver and from Krebs II ascites cells. Assays of rat liver nuclei in the absence of exogenous DNA showed polymerase I accounted for 72% of the total activity, polymerase II for 17%, and polymerase III for 11%. The total activity in ascites nuclei was similar but the ratios of polymerase activities were different: polymerase I, 53%; polymerase II, 41%; and polymerase III, 6%. These values may reflect differences in the transcriptional activity of the nuclei. After isolation of nucleoli, both rat liver and ascites polymerase I accounted for 85% of enzyme activity. When exogenous calf-thymus DNA was added to nucleoli, there was a greater than 50% increase in activity suggesting that less than one-half of the polymerase I present was bound to endogenous template. Polymerase I was solubilized from either rat liver or ascites nucleoli by sonication at high ionic strength and subsequently purified by ion filtration, phosphocellulose, sucrose gradient centrifugation, and DNA-cellulose chromatography. The essentially homogenous ascites enzyme had a specific activity of 86 units/mg when assayed with native calf-thymus DNA and of 876 units/mg when assayed with poly(deoxycytidylic acid). Electrophoresis of the enzyme in sodium dodecyl sulfate indicated the presence of six subunits with molecular weights of 205 000, 125 000, 51 000, 44 000, 26 000 and 16 000. After the same purification procedure, the rat liver enzyme had a similar specific activity (98 units/mg) on native calf thymus and 362 units/mg on poly(deoxycytidylic acid).
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PMID:Purification of rat liver and mouse ascites DNA-dependent RNA polymerase I. 85 54

We have previously presented a rapid, high yield method for the large scale purification of homogeneous RNA polymerase II from wheat germ (Jendrisak, J.J., and Burgess, R.R.(1975), Biochemistry 14, 4639), and we now report a detailed study of its subunit structure. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicates that polypeptides with molecular weights of 220 000, 140 000, 40 000, 27 000, 25 000, 21 000, 20 000, 17 800, 17 000, 16 500, 16 000, and approximately 14 000 are associated with the enzyme. Two-dimensional polyacrylamide gel electrophoresis, by which the subunits were separated in the first dimension in the presence of 8 M urea at pH 8.7 and in the second dimension in the presence of 0.1% sodium dodecyl sulfate, indicates that the 40 000 molecular weight component is composed of two nearly identical polypeptides and that the low molecular weight components (smaller than or equal to 40 000) are acidic proteins except for the 25 000 molecular weight polypeptide.
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PMID:Studies of the subunit structure of wheat germ ribonucleic acid polymerase II. 85 83

Crude calf thymus DNA-dependent RNA polymerase, RNA polymerase B (ribonucleoside triphosphate: RNA nucleotidyltransferase, EC 2.7.7.6), was incubated with the tritium labeled, potent inhibitor [3H]amanin, in order to form the enzymatically inactive [3H]amanin-polymerase complex ([3H]A-P complex). Subsequent purification procedures for the [3H]A-P complex were based on radioactive assays. Phosphocellulose chromatography separated two radioactive components: PCI, the previously reported amatoxin binding protein, ABP (Brodner and Wieland, 1976), and PC II, the [3H]A-P complex. Sodium dodecyl sulfate gel electrophoresis of the complex showed the presence of a new heavy band very close to subunit B 1 and a decreased intensity of subunit band B 3. These were the only differences noted in the subunit structure of RNA polymerase B. [3H]Amanin was covalently coupled to the enzyme, affinity labeling, by a water-soluble carbodiimide and the resultant conjugate submitted to sodium dodecyl sulfate gel electrophoresis. The profile of radioactivity showed one main peak (greater than 2000 cpm) coinciding with the 550-nm absorption peak of subunit B 3 on a stained parallel gel. Since no other protein band contains any significant radioactivity, the binding site for [3H]amanin and most probably for all amatoxins is localized on the B 3 subunit SB 3.
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PMID:Identification of the amatoxin-binding subunit of RNA polymerase B by affinity labeling experiments. Subunit B3-the true amatoxin receptor protein of multiple RNA polymerase B. 95 70

RNA polymerase II from larvae of the brine shrimp, Artemia salina, was highly purified by two cycles of DEAE-cellulose chromatography followed by centrifugation through discontinuous sucrose gradients. Gradient fractions were subjected to elctrophoresis is polyacrylamide gels containing sodium dodecyl sulfate. The subunit structure of RNA polymerase II was determined by quantitative comparison of the polypeptides and enzyme activity present in each gradient fraction. The enzyme contains one copy of each of four subunits with estimated molecular weights of 170,000, 130,000, 36,000 and 24,000. The total molecular weight agrees well with the molecular weight estimated for the native enzyme by density gradient centrifugation.
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PMID:DNA-dependent RNA polymerases from Artemia salina. Subunit structure of polymerase II. 95 94


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