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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)

1. The DNA polymerase (EC 2.7.7.7) activity in purified intact brain nuclei from infant rats was investigated. The effects of pH, Mg(2+), glycerol, sonication and storage of the nuclei under different conditions were examined and a suitable assay system was established. 2. The nuclei from infant brain cells were fractionated by zonal centrifugation in a discontinuous sucrose gradient into five zones: zone (I) contained neuronal nuclei (59%) and astrocytic nuclei (41%); zone (II) contained astrocytic nuclei (81%) and neuronal nuclei (19%); zone (III) contained astrocytic nuclei (82%) and oligodendrocytic nuclei (18%); zone (IV) contained oligodendrocytic nuclei (92%) and zone (V) contained oligodendrocytic nuclei (100%). 3. The content of DNA, RNA and protein for each fraction was measured. 4. The distribution of DNA polymerase activity in the fractionated infant and adult rat brain nuclei was determined. The highest activity was found in the neuronal nuclei from zone (I) and the following zones exhibited a progressive decline. In contrast with the nuclei from infant rats those from adults had a much higher activity and expressed a preference for native DNA as template. 5. The deoxyribonuclease activity in all classes of nuclei was measured with [(3)H]DNA as substrate. A general correspondence in the pattern of the relative activities in the nuclear fractions with the distribution of DNA polymerase was found. 6. The incorporation of [(3)H]thymidine into nuclear DNA in infant and adult rat brain was investigated. The specific radioactivity of the DNA in the 10-day-old rats was highest in zone (V) whereas in the nuclei of adult rats, which exhibited a comparatively low incorporation, the highest specific radioactivity was associated with zones (I) and (V).
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PMID:The activity of deoxyribonucleic acid polymerase and deoxyribonucleic acid synthesis in nuclei from brain fractionated by zonal centrifugation. 478 Jun 94

Bacteriophage 029 produces its own DNA polymerase which is encoded by gene 2 [Watabe, K. and Ito, J. (1983) Nucleic Acid Res. 11, 8333]. This 029 DNA polymerase has been purified by phospho-cellulose, DEAE-cellulose, double-stranded DNA cellulose chromatography and glycerol gradient centrifugation. An exonuclease activity associated with the DNA polymerase was found through all the steps of the purification. This nuclease preferably degrades single-stranded DNA from the 3' to the 5' terminus direction, suggesting that the enzyme plays a role for proofreading during DNA replication. While DNA polymerase activity isolated from cells infected with temperature sensitive mutant of gene 2 is thermolabile, the nuclease activity is not significantly reduced at the restrictive temperature.
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PMID:A 3' to 5' exonuclease activity is associated with phage 029 DNA polymerase. 609 45

A new DNA-dependent ATPase named ATPase IV has been purified to apparent homogeneity from Escherichia coli as a by-product of DNA polymerase III purification. The enzyme has a specific activity of 360 mumol of ATP hydrolyzed per min/mg of protein. The purified enzyme exists as monomer with a molecular weight of 81,000. It sediments in a glycerol gradient as a single species of 4.5 S. The enzyme has considerable activity at 0 degree C and has a Q10 of 3.8. In the presence of a DNA effector and magnesium ion, the enzyme will hydrolyze ATP, dATP, GTP, or dGTP to a nucleoside diphosphate plus orthophosphate with a Km of 0.20, 0.50, 0.60, and 1.30 mM, respectively. The guanine nucleotides, however, are only 25-35% as effective as substrates compared with the adenine nucleotides. ATPase IV shows strong substrate inhibition by ATP, but not dATP, above 0.2 mM. The polynucleotide effector requirement can be satisfied by either single-stranded or double-stranded DNA. The enzyme binds the effector very tightly with a Km of 3 X 10(-8) M (nucleotide) for G4 DNA. The enzyme is inhibited by E. coli single-stranded DNA-binding protein, a variety of ATP analogues and N-ethylmaleimide. The relationship of ATPase IV to DNA polymerase III holoenzyme is discussed.
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PMID:A new DNA-dependent ATPase from Escherichia coli. Purification and characterization of ATPase IV. 614 53

An RNA-dependent DNA polymerase was isolated from purified virions of endogenous oncornaviruses released by the MOPC-315 murine myeloma cell line. Upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the purified enzyme was found to consist of two major polypeptides with molecular weights of about 28,000 and 26,500. The active enzyme had a molecular weight of approximately 56,000, as calculated from its sedimentation on glycerol density gradients, indicating that it is probably a dimer of the two subunit polypeptides. The isolated MOPC-315 virus polymerase exhibited all three activities known to be found in the DNA polymerase from oncornaviruses, namely, an RNA-dependent DNA polymerase, a DNA-dependent DNA polymerase, and an RNase H. The RNA-dependent polymerase activity showed a prounced preference for Mn2+ over Mg2+, whereas the DNA-dependent and RNase H reactions were catalyzed by these two cations to an almost equal extent. The purified polymerase was found to be immunologically related to the polymerase of Rauscher murine leukemia virus.
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PMID:RNA-dependent DNA polymerase of an endogenous type C virus of mice: purification and partial characterization. 615 78

Feline leukemia virus DNA polymerase was purified by ion-exchange and nucleic acid affinity chromatographies. The enzyme consists of a single polypeptide chain of mol. wt. approx. 72,000 as determined by both glycerol density gradient centrifugation and SDS-polyacrylamide gel electrophoresis. The preferred divalent cation for DNA synthesis is Mn2+ on a variety of template-primers, and its optimum concentration appears to be significantly lower than reported results of other mammalian type-C viral enzymes. The purified enzyme also contained RNAase H activity. Both DNA polymerase and RNAase H activities appear to reside on the same molecule as demonstrated by the copurification of both activities through various purification steps. The divalent cation requirement for maximum activity of RNAase H is also similar to that of the DNA polymerase. RNAase H without detectable polymerase activity was generated by a limited chymotrypsin digestion of the purified reverse transcriptase. This RNAase H activity was inhibited equally effectively as RNAase H in the intact reverse transcriptase by antisera prepared against reverse transcriptase of feline leukemia virus. These results indicate that the RNAase H catalytic activity of reverse transcriptase is distinct from the polymerase portion of the molecule. Since the RNAase H activity appears to be more stable, the measurement of RNAase H activity with a proper antibody might be useful for assaying tumor cells for the presence of the viral enzyme.
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PMID:Biochemical and immunological properties of the DNA polymerase and RNAase H activities of purified feline leukemia virus reverse transcriptase. 615 69

The RNA-dependent DNA polymerase purified from B77 avian sarcoma virus exhibited two distinct DNA-processing activities. The alpha and beta 2 isoenzymes possessed an endodeoxyribonuclease activity capable of nicking simian virus 40 superhelical DNA, whereas the alpha beta isoenzyme performed as an untwisting topoisomerase. Both activities associated with the three molecular forms of the retroviral DNA polymerase were dependent on the presence of either Mn2+ or Mg2+ ions. From analysis of the denaturated DNA products, it is apparent that the alpha and beta 2 isoenzymes introduced two nicks, one per each strand in the superhelical simian virus 40 DNA molecules, whereas the alpha beta polymerase converted these supercoiled molecules to the relaxed covalently closed circular form. The notion that the DNA-processing activities are located on the DNA polymerase molecules was supported by the following: (i) the three isoenzymes were of a high purity; (ii) the activities cosedimented in glycerol gradients with the DNA polymerase activities of the alpha, beta 2, and alpha beta molecular forms; and (iii) immunoglobulin directed against the purified polymerase immunoprecipitated the DNA-processing activities. Chemical treatments of the DNA polymerase molecules (with pyridoxalphosphate, iodoacetamide, and sulfhydryl reagents), which inhibited the polymerase activity, also suppressed the endonucleolytic and topoisomerase activities, suggesting that cystein and amino groups play an important role in the active sites of the DNA-processing activities as well.
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PMID:DNA-processing activities associated with the purified alpha, beta 2, and alpha beta molecular forms of avian sarcoma virus RNA-dependent DNA polymerase. 617 42

De novo DNA synthesis on poly(dT) by a novel mouse DNA polymerase, here named "DNA replicase," was examined for the synthesis of RNA which functions as a primer in the subsequent synthesis of DNA. As has been reported previously (Yagura, T., Kozu, T., and Seno, T. (1982) J. Biochem. (Tokyo) 91, 607-618), a novel RNA polymerase activity, which is distinguished from those of classical RNA polymerases, is associated with DNA replicase. The synthesis of RNA and DNA by DNA replicase (Mr = 16 X 10(4), by glycerol gradient sedimentation analysis) was greatly stimulated by a specific stimulating factor (Mr = 13 X 10(4), by glycerol gradient sedimentation analysis) which was found to consist of two subunits (Mr = 63 X 10(3), by sodium dodecyl sulfate-polyacrylamide gel electrophoresis). Nearest neighbor analysis in which transfer of 32P from alpha-labeled nucleoside triphosphates to ribo- and deoxyribonucleotides was examined, showed th at RNA of 8-10 nucleotides long was covalently linked to the 5'-end of the DNA product molecule. This RNA, named initiator RNA, had a triphosphate group at its 5' terminus and its size and synthesis were little affected by the addition of high concentrations of deoxynucleoside triphosphate, while in these conditions deoxyribonucleotides were incorporated into initiator RNA to a limited extent. The characteristics of the DNA replicase and stimulating factor that cooperate to synthesize initiator RNA for subsequent DNA synthesis on single-stranded DNA are important because these components seem to be involved in a reaction required to initiate the synthesis of discontinuous earliest DNA intermediates (Okazaki fragments) in chromosomal DNA replication of eukaryotic cells.
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PMID:Mouse DNA replicase. DNA polymerase associated with a novel RNA polymerase activity to synthesize initiator RNA of strict size. 617 47

The DNA polymerase activity of the near homogeneous, multisubunit DNA polymerase-primase from Drosophila melanogaster embryos has been compared to Escherichia coli DNA polymerase III core, DNA polymerase III, and DNA polymerase III holoenzyme. The rate of deoxynucleotide incorporation by the Drosophila polymerase on singly primed phi X174 DNA is similar to that observed with equivalent levels of DNA polymerase III holoenzyme in the absence of E. coli single-stranded DNA binding protein. However, analysis of the DNA products indicates that the Drosophila polymerase is less processive than DNA polymerase III holoenzyme, and closely resembles DNA polymerase III. The Drosophila polymerase-primase contains neither 3'-5' exonuclease nor RNase H-like activities, and catalyzes no significant pyrophosphate exchange. There is a low level of DNA-dependent ATPase activity which can be eliminated by a second glycerol gradient sedimentation (Kaguni, L.S., Rossignol, J.-M., Conaway, R.C., and Lehman, I.R. (1983) Proc. Natl. Acad. Sci. U. S. A. 80, 2221-2225). Although lacking a 3'-5' exonuclease, the replication fidelity of the D. melanogaster polymerase is similar to that of E. coli DNA polymerase III holoenzyme which possesses such an activity.
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PMID:The DNA polymerase-primase from drosophila melanogaster embryos. Rate and fidelity of polymerization on single-stranded DNA templates. 623 26

Template-primers constructed of phiX174 single-stranded viral DNA hybridized to a restriction fragment of phiX174 RF DNA can be used for extensive polymerization by DNA polymerase alpha. Polymerization is dependent upon a restriction fragment containing a 3'OH. The products of the reaction have been identified by agarose gel electrophoresis. Polymerization of 150--400 nucleotides can be obtained in 1h depending upon the restriction fragment used as primer. Synthesis may be limited by barriers in the primary or secondary structure of the template. A factor which stimulates the rate of alpha polymerase activity on these templates was partially purified. This factor does not stimulate alpha polymerase on activated DNA. The stimulating factor sediments at 5.5 S in glycerol gradients containing 0.4M potassium phosphate and has an apparent molecular weight of 70 000 on Sephadex G-100.
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PMID:Restriction fragment primed phi X174 single-stranded DNA as template for DNA polymerase alpha and beta. Detection and partial purification of a polymerase alpha stimulating factor. 625 Jun 16

Purified avian myeloblastosis virus DNA polymerase has a strong binding affinity for closed circular double-stranded DNA with no 3'-hydroxy termini. Because of this affinity the DNA polymerase can retain labeled native ColE1 DNA on nitrocellulose filters. When the reaction contains four enzyme molecules per ColE1 molecule about 50% of the DNA is retained. Higher enzyme: DNA ratios cause retention of nearly 100% of the DNA. The binding activity comigrates with DNA synthetic activity through ion-exchange chromatography and glycerol gradient centrifugation, in indication that it is an intrinsic activity of the DNA polymerase. Escherichia coli DNA polymerase I and bacteriophage T4 DNA polymerase do not show this binding activity, which suggests that it is not a common property of DNA polymerases. A novel application of enzyme kinetics using endonuclease-treated DNA reveals the relative quantities of enzyme molecules which are synthesizing at 3'-termini vs. molecules bound to double-stranded regions. Heat stability measurements indicate that the polymerizing activity of the enzyme can be almost completely eliminated while about half of the original binding activity is retained.
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PMID:Duplex DNA binding activity of the avian myeloblastosis virus DNA polymerase. 626 Jan 87


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