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)

Superoxide dismutase is an enzyme which converts superoxide O2- to hydrogen peroxide. Using a single synthetic oligonucleotide 33mer, we screened the E. coli DNA library and isolated a clone containing the E. coli manganese-superoxide dismutase gene. We determined the DNA sequence. The analysis of the DNA sequence and in vivo as well as in vitro transcription has shown the following. The DNA sequence suggests two possible promoters. However, only one of them seems active during normal aerobic growth. Purified RNA polymerase initiates in vitro transcription from the same promoter. It is not clear whether the second promoter is functional. It is possible that this promoter could be activated under different growth conditions. There is an inverted repeat sequence which could form a stem-loop structure downstream of the translation stop codon TAA of the Mn-SOD gene. The results of the analysis of in vivo and in vitro RNA have shown that this is the transcription termination signal. Thus, the Mn-SOD gene constitutes a single gene operon. There is an almost perfect 19 base palindrome at the -35 region. The position and the size of the palindrome suggest that this could be a regulatory site.
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PMID:Structure and gene expression of the E. coli Mn-superoxide dismutase gene. 352 Apr 87

We have isolated, characterized and substantially purified two distinct RNA polymerase activities from the flagellate protozoan parasite Trypanosoma brucei. RNA polymerases from this organism were resolved poorly on DEAE-Sephadex, but could be separated with CM-Sephadex. One form was totally resistant to alpha-amanitin, whereas the second was 50% inhibited by 10-20 micrograms of the drug/ml. The enzymes had different salt optima, but both were of high Mr (greater than 480,000) and demonstrated the template preference: poly[d(A-T)] greater than denatured DNA greater than native DNA, and both were more active with Mn2+ than with Mg2+. The amanitin-resistant enzyme, polymerase R, was partially purified by chromatography on CM-Sephadex, DEAE-Sephadex and heparin-Sepharose. This enzyme was very labile, and activity yields were around 9%; after purification, one or two protein bands could be discerned after electrophoresis under non-denaturing conditions, but about 20 polypeptides were resolved on denaturing gels, including a major component (not thought to be part of the enzyme) of Mr 65,000. Polymerase S, sensitive to low alpha-amanitin concentrations, was more extensively purified, with an 18% recovery, and yielded a single major band with two minor ones after native gel electrophoresis. Analysis under denaturing conditions permitted a possible subunit structure for this enzyme to be ascribed.
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PMID:Demonstration of RNA polymerase multiplicity in Trypanosoma brucei. Characterization and purification of alpha-amanitin-resistant and -sensitive enzymes. 359 14

We have used affinity chromatography on columns containing immobilized calf thymus RNA polymerase II to isolate three phosphoproteins (RAP72, RAP38, and RAP30) that bind directly to RNA polymerase II. All could be isolated from cell nuclei, and all three could be detected in mouse and human tissue culture cell lines, but only RAP38 and RAP30 have so far been isolated from calf thymus. RAP38 stimulates nonspecific transcription of native DNA templates by RNA polymerase II in the presence of Mn2+; it appears to be similar or identical to SII, a previously identified RNA polymerase II stimulatory factor (Nakanishi, Y., Mitsuhashi, Y., Sekimizu, K., Yokoi, H., Tanaka, Y., Horikoshi, M., and Natori, S. (1981) FEBS Lett. 130, 69-72). Unlike RAP38, RAP72 and RAP30 do not affect nonspecific transcription by RNA polymerase II. However, RAP30 may have a role in regulating some alterations of transcription that accompany cellular differentiation; RAP30 is partially dephosphorylated when murine erythroleukemia cells are induced with dimethyl sulfoxide to undergo terminal erythroid differentiation. We suggest that phosphate groups in RNA polymerase II-binding proteins may regulate transcription by modulating the interaction of RNA polymerase II with other regulatory proteins that possess sequence recognition specificity.
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PMID:Isolation of three proteins that bind to mammalian RNA polymerase II. 386 May 4

Highly purified RNA polymerase B (II) from calf thymus catalyses the synthesis of dinucleoside tetraphosphates from ribonucleoside triphosphates in the absence of an oligonucleotide primer or additional protein factors. The reaction requires a DNA template and bivalent cations such as Mn2+ or Mg2+. It is strongly inhibited by heparin and high concentrations of alpha-amanitin but not by rifampicin. On a given template various dinucleoside tetraphosphates of different sequence are formed although the yield depends on the nature of the template.
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PMID:Synthesis of dinucleoside tetraphosphates by RNA polymerase B (II) from calf thymus. 386 46

Highly purified RNA polymerase B (II) from wheat germ catalyses the formation of dinucleoside tetraphosphates from ribonucleoside triphosphates in the absence of an oligonucleotide primer or additional protein factors. The reaction requires bivalent cations such as Mn2+ or Mg2+ and proceeds linearly for several hours. It is strongly inhibited by 1 microgram/ml alpha-amanitin or 2 micrograms/ml heparin. The reaction strictly depends on the addition of a specific linear or circular DNA template, such as the plasmid pSmaF or a DNA fragment containing the gene for nopaline dehydrogenase. Bacteriophage T7 D111 DNA has almost no template activity. The start sites for dinucleotide synthesis on the template are limited. With the DNA fragment containing the gene for nopaline dehydrogenase only pppApA and pppApU are synthesised substantially whereas pppUpU is formed only in trace amounts. No significant dinucleotide synthesis is observed with other ribonucleoside triphosphates either singly or in a combination of two. The various regions of the DNA fragment differ distinctly in template activity.
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PMID:Primer-independent abortive initiation by wheat-germ RNA polymerase B (II). 388 25

Both the single DNA-dependent RNA polymerase found in zinc-deficient (-Zn) Euglena gracilis and the RNA polymerase III from zinc-sufficient (+Zn) cells have been isolated by methods previously used to purify polymerases I and II [Falchuk, K. H., Mazus, B., Ulpino, L., & Vallee, B. L. (1976) Biochemistry 15, 4468; Falchuk, K. H., Mazus, B., Ulpino, L., & Vallee, B. L. (1977) Biochem. Biophys. Res. Commun. 74, 1206]. Like class II polymerases, the enzyme from -Zn organisms elutes from DNA-cellulose and phosphocellulose with 0.6 M NaCl and 0.35 M NH4Cl, respectively. It is inhibited by 8-hydroxyquinoline, 8-hydroxyquinoline-5-sulfonic acid, alpha,alpha'-bipyridyl, dipicolinic acid, and 1,10-phenanthroline (OP); 4,7-phenanthroline, the nonchelating analogue, does not inhibit. The pKI(OP) of this enzyme is identical with that of polymerase II but distinct from those of polymerases I and III. Elemental analysis confirms that zinc is the functional metal while copper, manganese, iron, and magnesium are absent. However, the -Zn enzyme is at least 4 orders of magnitude more resistant to alpha-amanitin (alpha-A) than the class II polymerase. Further, its response to alpha-A is unlike that of either polymerase I or polymerase III. Thus, -Zn cells contain a single, alpha-amanitin-resistant (alpha-Ar) RNA polymerase, whose behavior otherwise resembles that of the alpha-amanitin-sensitive polymerase II.
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PMID:Zinc deficiency and the Euglena gracilis chromatin: formation of an alpha-amanitin-resistant RNA polymerase II. 392 88

The RNA synthesis in purified vaccinia virus can occur in the presence of either Mg2+ or Mn2+ if polyamine (spermidine or spermine) is present in the assay system. Under our assay conditions transcription was linear up to 30 min and the RNAs synthesized had a sedimentation coefficient of about 8 to 12 S. We also prepared a virus extract from purified vaccinia virus and tested for in vitro transcription. The soluble transcription system was dependent on the addition of exogenous DNA and single-stranded DNA was a more effective template than double-stranded. In the presence of polyamine and Mg2+ or Mn2+ the viral RNA polymerase was active in the transcription of total native vaccinia DNA and a small fragment cloned in pBR322.
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PMID:Polyamines stimulate DNA-dependent RNA synthesis catalyzed by vaccinia virus. 405 28

RNA polymerase activities in intact HeLa cell nuclei have been examined and compared to activities investigated in previous studies of the purified enzymes. The RNA synthesized by the mammalian polymerases while still in nuclei is identified. The polymerases are tentatively identified by location, sensitivity to alpha-amanitin, and response to manganese and altered ionic strength. Polymerase I is located in the nucleolus and labels partially complete precursor molecules of ribosomal RNA. Polymerases II and III are in the nucleoplasm and both label giant nuclear heterogeneous RNA.
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PMID:Products of RNA polymerases in HeLa cell nuclei. 410 11

Two deoxyribonucleic acid (DNA)-dependent ribonucleic acid (RNA) polymerases (I, II) have been solubilized from isolated Saccharomyces cerevisiae nuclei. The enzymes can be separated by chromatography on O-diethylaminoethyl Sephadex. Both enzymes are active with high-molecular-weight nuclear yeast DNA, although RNA polymerase I has a higher affinity for polydeoxy-adenylic-thymidylic acid and RNA polymerase II for denatured DNA. RNA polymerase I is active only with manganese. alpha-Amanitin inhibits only the activity of RNA polymerase II.
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PMID:Nuclear deoxyribonucleic acid-dependent ribonucleic acid polymerases from Saccharomyces cerevisiae. 457 10

Subviral particles containing reovirus RNA transcriptase have been isolated from extracts of virus-infected mouse fibroblast cells. The purified particles which lacked the outer protein capsomeres of the mature virion had a buoyant density of 1.43-1.44 g/ml in CsCl and contained all of the double-stranded RNA genome of the intact virus. The particles were free of nuclease activity. RNA synthesis required all four ribonucleoside triphosphates and was dependent on magnesium or manganese; optimal activity required potassium or ammonium ions. In the presence of a ribonucleoside triphosphate regenerating system, reaction rates were linear for 20 hr. RNA yields of 40-fold in excess of input template could be obtained. Completed RNA chains were released from the subviral particles. In the course of RNA synthesis, the double-stranded RNA template was fully conserved. The RNA products formed in vitro displayed profiles in sucrose gradients similar to those found for in vitro reovirus mRNA. The RNA products were single-stranded and did not self-anneal. Over 90 percent of the transcriptase products could be annealed with template double-stranded RNA. The annealed products migrated in acrylamide gels as double-stranded RNA, indicating efficient in vitro transcription.
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PMID:Properties of RNA transcriptase in reovirus subviral particles. 526 50

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