EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Procedures were established for the isolation and partial purification of DNA polymerase, RNA polymerase and poly(A) polymerase activities from the cytoplasm and nuclei of NIH-Swiss mouse embryos. Based on the elution pattern of these enzyme activities from DEAE-cellulose and phosphocellulose columns in Tris-HCl buffer, pH 8.0, the apparent basicities of the enzymes can be arranged as follows: cytoplasmic(C) poly(A) polymerase greater than (C)DNA polymerase beta greater than (C)DNA polymerase alpha and nuclear(N) poly(A) polymerase greater than (N)DNA polymerase greater than (N)RNA polymerase I greater than (N)RNA polymerase II. Twenty rifamycins, including rifamycin B, rifamycin S, rifamycin SV, and rifamycin SV derivatives, were examined for their ability to inhibit the above mentioned nucleic acid polymerizing enzymes and Simian sarcoma virus type I (SSV-1) reverse transcriptase. Rifamycin SV 3'-formyldiphenylhydrazone, rifamycin SV 3'-formyl-n-octyloxime (AF/013) and rifamycin SV 3'-formyldiphenylmethyloxime (AF/05) inhibited all the tested enzyme activities. Rifamycin SV 3'-formylpropylphenyloxime (AF/015) inhibited cellular nucleic acid polymerase activities but not SSV-1 DNA polymerase activity. Rifamycin SV 3'-formyldinitrophenylhydrazone (AF/DNFL) strongly inhibited reverse transcriptase activity but did not inhibit cellular DNA polymerase activities. AF/DNFI slightly inhibited RNA and poly(A) polymerase activities. Rifamycin SV 3'-formyldipropylhydrazone (AF/DPI) and 2,6-dimethyl-4-N-benzyldemethyl-rifampicin (AF/ABDMP) slightly inhibited reverse transcriptase activity but did not inhibit cellular nucleic acid polymerase activities. Active rifamycin derivatives inhibited enzyme reactions by interacting with the enzyme proteins. Nascent polynucleotide chain elongation continued although at a reduced rate in the presence of inhibitor. The addition of increasing concentrations of nonionic detergent (Triton X-100) to rifamycin-inhibited enzyme reactions fully restored enzyme activities. The presence of highly lipophilic 3'-side chains on active rifamycins and the reversibility of enzyme inhibition by Triton X-100 suggest that the tested nucleic acid polymerizing enzymes may have hydrophobic regions with which inhibitory rifamycins interact.
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PMID:Interaction of rifamycins with mammalian nucleic acid polymerizing enzymes. 6 93

Deoxyribonucleic acid polymerase-beta (EC 2.7.7.7) FROM THE Novikoff hepatoma has been purified over 200 000-fold (based on the increase in specific activity), by ammonium sulfate fractionation and chromatography on DEAE-Sephadex, phosphocellulose, hydroxylapatite, and DNA-cellulose. The enzyme is remarkably stable through all stages of purification until DNA-cellulose chromatography when it must be kept in buffers containing 0.5 M NaCl and 1 mg/ml bovine serum albumin for stability. The enzyme appears to be homogeneous as evidenced by a single stainable band when subjected to electrophoresis in polyacrylamide gels of different porosity. The stainable band corresponds to the DNA polymerase as determined by slicing sister gels and assaying for enzyme activity. The specific activity of the homogeneous preparation is about 60 000 units/mg. The enzyme lacks detectable exonuclease or endonuclease activity. It has a molecular weight of 32 000 as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis. In sucrose gradients, the molecular weight is estimated at 31 000. The isoelectric point of the hydroxylapatite fraction enzyme is 8.5. The Novikoff beta-polymerase requires all four deoxyribonucleoside triphosphates, primer-template, and a divalent cation for maximal activity. The apparent Km for total deoxyribonucleoside triphosphate is 7-8 muM and for DNA 125 mug/ml. Activated DNA, rendered 7% acid soluble by DNase I, is the preferred primer-template, although a number of synthetic polynucleotides can by efficiently utilized, particularly in the presence of Mm2+ optimum is 7 mM; the Mn2+ optimum is 1 mM. The pH optimum is 8.4 in Tris-HCl or 9.2 in glycine buffer. The beta-polymerase is sstimulated about twofold by NaCl or KCl at an optimum of 50-100 MM, and the enzyme maintains considerable activity at high ionic strengths. The DNA polymerase is inhibited by ethanol, acetone, and a variety of known polymerase inhibitors. Glycols stimulate the enzyme as does spermine or spermidine. Unlike most beta-polymerases, the Novikoff enzyme is moderately sensitive to N-ethylmaleimide.
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PMID:Novikoff hepatoma deoxyribonucleic acid polymerase. Purification and properties of a homogeneous beta polymerase. 18 3

Approximately 2,500-fold purifications of DNA polymerase-beta from the nuclear fraction of blastulae of the sea urchin, Hemicentrotus pulcherrimus, was performed. The enzyme preparation, which was devoid of DNase and terminal deoxynucleotidyl transferase as contaminants, showed a sedimentation constant of 3.0 S in a sucrose density gradient, a molecular weight of 50,000 by gel filtration, and an isoelectric point of pH 8.1. The enzyme activity was resistant to sulfhydryl group inhibitors. Its optimal pH was 9.0-9.5 in Tris-maleate buffer and 10.0 in glycine buffer. The optimal NaCl concentration for the activity was 30-60 mM and about half of the activity remained at 0.4 M NaCl. As a template-primer, the enzyme preferred synthetic homopolymers to activated DNA. The order of this preference was as follows; poly (dA)-oligo (dT)12-18 greater than poly (rA)-oligo (dT)12-18 greater than activated DNA. The above results indicate that the enzyme corresponds to DNA polymerase-beta from vertebrate cells.
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PMID:DNA polymerase-beta from the nuclear fraction of sea urchin embryos: characterization of the purified enzyme. 59 47

DNA polymerase induced by bacteriophage T5 was purified and characterized using mainly circular duplex DNA of bacteriophage PM2 with single strand breaks formed by DNase I action. A purification procedure is described which has consistently yielded DNA polymerase preparations with only one detectable protein band after polyacrylamide gel electrophoresis of either native protein in Tris-glyase preparations utilized both denatured DNA and nicked DNA as primer-templates, although at 37 degrees the activity with denatured DNA was much greater. Polymerase activities with both kinds of primer-templates were shown to be associated with one phage-induced protein. DNA synthesis with nicked DNA as primer-template increased with increasing numbers of single strand breaks. Essentially all such breaks were repairable by ligase. Alkaline sucrose gradient centrifugation showed that synthesis occurred with the strand which had a single strand break as a primer yielding DNA longer than one phage DNA unit length. Newly synthesized DNA was covalently linked to the primer strand. Thus the synthesis very likely occurred by strand displacement; this is supported by electron micrographs shown in the Appendix.
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PMID:Characterization of DNA polymerase induced by bacteriophage T5 with DNA containing single strand breaks. 77 33

The activity of DNA polymerase was determined in gradient-purified mitochondria from yeast cells grown under a variety of conditions. The specific enzyme activity was found to be dependent on the degree of aeration of the cells, and on the carbon source used for the medium. It was sensitive to glucose repression, and was enhanced about two-fold by the growth of yeast cells in the presence of ethidium bromide. Mitochondria DNA polymerase was highly purified and several properties were determined. Sucrose density gradient centrifugation, and dodecylsulfate-polyacylamide gel electrophoresis revealed the following structure: a monomer of molecular weight around 60 000 aggregated under relatively high salt concentration (0.2 M phosphate buffer) to a dimer of about 120 000 which under low salt concentration (0.2 M Tris-HCl buffer) formed higher aggregates. For optimal activity an Mg2+ ion concentration of 50 mM was found necessary, Mn ions did not promote activity at any concentration tested (0.5--50 mM). Indeed, if added to Mg2+-containing assays, Mn2+ strongly inhibited enzyme activity at low concentrations. This might be an explanation for the inducation of mitochondrial mutants in yeast cells grown in the presence of Mn2+ ions. Mitochondrial DNA polymerase activity was strongly inhibited by low concentrations of the -SH reagent p-chloromercuribenzoate, the nucleotide analogue cytosine arabinoside triphosphate also exerted an inhibitory effect. An about 50% decrease of activity was observed in the presence of 1 mM o-phenanthroline in assay mixture containing DNA at about the Km concentration. The enzyme preferred a gapped template primer, poly(dA) - (dT)10, over nicked DNA and was unable to use a polyribonucleotide template, poly(rA) - (dT)10. In the purest preparations no exonuclease activity could be detected.
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PMID:DNA-dependent DNA polymerase from yeast mitochondria. Dependence of enzyme activity on conditions of cell growth, and properties of the highly purified polymerase. 78 35

A DNA polymerase has been highly purified from Anacystis nidulans R2. Electrophoretic analysis in sodium dodecyl sulfate-polyacrylamide gels revealed that the final fraction contains three bands of Mr 107,000, 93,000, and 51,000, respectively. Analysis of purified DNA polymerase activity in situ indicates that of the three polypeptides the Mr 107,000 species has the catalytic activities. The native molecular weight of the enzyme was estimated by glycerol gradient sedimentation to be 100,000. The enzyme has an absolute requirement for a divalent cation. Mg2+ can be replaced with Mn2+, but the DNA polymerase is less active. Potassium chloride stimulates the enzyme, while potassium phosphate has no apparent effect. The enzyme is active over a pH range from 7.5 to 9.5 in 50mM Tris-HCl buffer. The ability of the cyanobacterial DNA polymerase to use activated DNA as a template, its associated 3'----5' and 5'----3' exonuclease activities, as well as its resistance to N-ethylmaleimide, dideoxynucleotides, arabinosyl-CTP and aphidicolin suggest a similarity between this enzyme and E. coli DNA polymerase I. This is the first characterization of a DNA polymerase from a cyanobacterium.
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PMID:Purification and characterization of a DNA polymerase from the cyanobacterium Anacystis nidulans R2. 212 41

To establish an in vitro system for studying DNA repair, bleomycin-induced unscheduled DNA synthesis in permeable HeLa cells was investigated. Permeable HeLa cells were incubated at 0 degree C for 60 min with 0.11 mM bleomycin, washed to remove free bleomycin and assayed for DNA synthesis. Optimum [3H]deoxythymidine monophosphate incorporation occurred at pH 7.6-8.0 (adjusted at 20 degrees C with Tris-HCl buffer), 3-6 mM MgCl2, 40-60 mM NaCl, and 2.5-5 mM ATP in the presence of four deoxynucleoside triphosphates. The unscheduled nature of DNA synthesis in bleomycin-pretreated permeable cells was confirmed by the BrdUMP density shift technique. Exonuclease III sensitivity of repaired DNA was measured to determine whether or not the completion of repair patches and ligation occurred in bleomycin-pretreated permeable cells. Gap-filling and ligation were suggested to occur in the presence of ATP. Studies using the selective inhibitors (aphidicolin, 2',3'-dideoxythymidine 5'-triphosphate and N-ethylmaleimide) for DNA synthesis showed that DNA polymerases alpha and beta were involved in the repair process. Inhibitor studies suggested that DNA polymerase alpha plays a preferential role in repair label in the intranucleosomal region of nuclear chromatin and DNA polymerase beta in the completion of repair patches in bleomycin-pretreated permeable cells.
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PMID:DNA repair synthesis in bleomycin-pretreated permeable HeLa cells. 241 38

A DNA polymerase alpha-primase complex, which had been purified by means of immunoaffinity column chromatography, showed little activity in a reaction mixture composed of Tris-HCl buffer, but showed full activity in potassium phosphate buffer. It was found that potassium ion is required for the reaction by the immunoaffinity-purified enzyme. On the other hand, the DNA polymerase alpha purified by the orthodox biochemical method showed full activity in both buffer systems. A protein factor, which could restore the activity of immunoaffinity-purified DNA polymerase alpha-primase complex in the potassium-free reaction mixture, was separated from biochemically purified DNA polymerase alpha. The factor, designated as factor T, was stable to heat up to 70 degrees C, but was sensitive to trypsin. It sedimented at about 4S through a glycerol gradient. SDS-polyacrylamide gel electrophoresis revealed two polypeptide bands at 56 and 54 kDa. By immunoprecipitation, the factor T was shown to be physically associated with DNA polymerase alpha-primase complex. The stimulation was also observed with poly[d(A-T)], primed M13 DNA, and heat-denatured DNA.
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PMID:A novel stimulating protein of mammalian DNA polymerase alpha. 260 93

Chromatography of a DNA polymerase preparation from mitochondria of Saccharomyces cerevisiae on DNA-cellulose column, using Tris-HCl (pH 7.5) buffer containing 0.6 M NaCl as eluent, was found to yield a fraction exhibiting DNA primase-like activity free of DNA polymerase. This fraction could support the synthesis of 12-15 residue-long oligoribonucleotides on single-stranded natural or synthetic DNA templates. The oligoribonucleotides could be further elongated by incorporation of deoxyribonucleotides in the presence of Klenow fragment.
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PMID:Evidence for the presence of DNA primase in mitochondria of Saccharomyces cerevisiae. 265 90

Analysis of the properties of the DNA polymerase (pol) system as a function of fundamental factors of the assay environment allowed a rather accurate estimation of its dependence on the HeLa cell cycle. For pol alpha, the temperature and pH optima were 38.1 degrees C and 8.0, respectively; for pol beta, these optima were 36.2 degrees C and pH 7.4. Pol gamma showed a pH optimum at 7.7. Optimum activity for both the alpha and beta enzymes was observed at 60 mM Tris. The maximal activity at 36.2 degrees C and pH 7.4 was associated with resistance to N-ethylmaleimide (MalNEt), whereas that at 38.1 degrees C and pH 8.0 was sensitive to MalNEt. Incorporation of [3H]dTTP was maximal after 1 hr of incubation for the former activity and after 4 hr, for the latter. In extracts from cells in early S phase, the pol activity decreased after 1 hr of incubation, was MalNEt-resistant, and was characterized by temperature and pH optima at 36.2 degrees C and 7.4, respectively. In extracts of late S-phase cells, the pol-catalyzed incorporation of [3H]dTTP continued after 4 hr of incubation, was MalNEt-sensitive, and was characterized by temperature and pH optima at 38.1 degrees C and 8.0, respectively. Thus, a pol beta-type activity appeared in early S phase, whereas a pol alpha-type activity appeared in late S. During the G1, M, and G2 phases, a background level of pol activity was observed that showed intermediate kinetic properties.
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PMID:Cell-cycle dependence and properties of the HeLa cell DNA polymerase system. 385 75

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