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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)

The mitochondrial DNA polymerase from embryos of Drosophila melanogaster has been examined with regard to template-primer utilization, processivity, and fidelity of nucleotide polymerization. The enzyme replicates predominantly single-stranded and double-stranded DNAs: the rate of DNA synthesis is greatest on the gapped homopolymeric template poly(dA).oligo(dT), while the highest substrate specificity is observed on single-stranded DNA templates of natural DNA sequence. Kinetic experiments and direct physical analysis of DNA synthetic products indicate that the Drosophila DNA polymerase gamma polymerizes nucleotides by a quasi-processive mechanism. The mitochondrial enzyme demonstrates a high degree of accuracy in nucleotide incorporation which is nearly identical with that of the replicative DNA polymerase alpha from Drosophila embryos. Thus, the catalytic properties of the near-homogeneous Drosophila DNA polymerase gamma are consistent with the in vivo requirements for mitochondrial DNA synthesis as described in a variety of animal systems.
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PMID:Mitochondrial DNA polymerase from Drosophila melanogaster embryos: kinetics, processivity, and fidelity of DNA polymerization. 314 17

1. Subcellular localization and changes in the activity of DNA polymerase gamma were examined in sea urchin eggs and embryos. 2. The enzyme was shown to be localized predominantly in mitochondria by differential and isopycnic centrifugation. 3. During embryogenesis, the enzyme activity per embryo remained constant until blastula stage, and thereafter increased. 4. Similarly mitochondrial DNA per embryo increased, indicating that mitochondrial DNA replication starts during embryogenesis. 5. The gamma-activity per mitochondrial DNA remained constant during embryogenesis. 6. These results suggest that mitochondria contain a constant amount of replicative enzyme (DNA polymerase gamma) regardless of mitochondrial DNA replication, which differs from the case of nuclear DNA replication.
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PMID:Subcellular localization of DNA polymerase gamma and changes in its activity in sea urchin embryos. 323 28

Porcine liver DNA polymerase gamma has been demonstrated to preferentially incorporate dTMP over dUMP during in vitro DNA synthesis. When polymerase activity was measured in standard reactions containing saturating levels of either dTTP or dUTP, the polymerization rate was slightly faster in the reaction containing dTTP. However, under conditions where both dTTP and dUTP competed, at an equal molar concentration, approximately 3-times more thymine residues were incorporated than uracil residues into DNA. Similarly, preferential incorporation of dTMP was observed on several substrates including poly (dA).oligo p(dT), poly (rA).oligo p(dT) and poly (dA-dT). The discrimination against dUMP incorporation was even more apparent with reduced levels of dUTP. These observations were consistent with the finding that the Km for DNA polymerase gamma was about 3-fold lower for dTTP (0.4 microM) than for dUTP (1.1 microM). On the other hand, the Vmax for these two reactions was very similar. Discrimination against dUMP incorporation was also observed during inhibition of polymerase gamma by dideoxyribonucleoside triphosphates. Dideoxythymidine triphosphate preferentially inhibited dUMP incorporation compared to that of dTMP, whereas ddATP, ddCTP and ddGTP inhibited both reactions equally.
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PMID:Purification and characterization of porcine liver DNA polymerase gamma: utilization of dUTP and dTTP during in vitro DNA synthesis. 338 42

The single-stranded DNA-binding protein from Xenopus laevis oocyte mitochondria, which has been found associated with the D loop, binds to ssDNA in stoichiometric amounts and can under certain conditions stimulate the activity of the DNA polymerase gamma. Its properties suggest that it is involved in strand displacement during the replication of the mitochondrial genome.
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PMID:Effects of the Xenopus laevis mitochondrial single-stranded DNA-binding protein on the activity of DNA polymerase gamma. 339 Nov 65

Indirect experiments suggest that DNA polymerase gamma is involved in the mitochondrial DNA replication process. This report describes an in vitro mitochondrial DNA replication assay directed by the origin of replication of the Heavy strand mt DNA. The assay requires all four dNTP, rNTP and an ATP regenerating system. Nuclease digestion experiments show that specific events occur at the mt origin of replication. Antibodies raised against the purified DNA polymerase gamma inhibit the DNA replication reaction.
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PMID:Evidence for a direct role of the DNA polymerase gamma in the replication of the human mitochondrial DNA in vitro. 361 20

Our earlier studies have shown that gossypol is a specific inhibitor of DNA synthesis in cultured cells at low doses. In an attempt to determine the mechanism for the inhibition of DNA synthesis by gossypol we observed that gossypol does not interact with DNA per se but may affect some of the enzymes involved in DNA replication. These studies indicated that gossypol inhibits both in vivo and in vitro the activity of DNA polymerase alpha (EC 2.7.7.7), a major enzyme involved in DNA replication, in a time- and dose-dependent manner. Kinetic analysis revealed that gossypol acts as a noncompetitive inhibitor of DNA polymerase alpha with respect to all four deoxynucleotide triphosphates and to the activated DNA template. Inhibition of DNA polymerase alpha does not appear to be due to either metal chelation or reduction of sulfhydryl groups on the enzyme. Gossypol also inhibited HeLa DNA polymerase beta in a dose-dependent manner, but had no effect on DNA polymerase gamma. These results suggest that inhibition of DNA polymerase alpha may account in part for the inhibition of DNA synthesis and the S-phase block caused by gossypol. The data also raise the possibility that gossypol may interfere with DNA repair processes as well.
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PMID:Inhibition of DNA polymerase alpha by gossypol. 369 56

A DNA primase was partially purified from rat liver mitochondria and separated from the bulk of DNA polymerase gamma and mtRNA polymerase by heparin-agarose chromatography. The primase was distinguished from mtRNA polymerase by its response to pH, monoand divalent cations, and ATP concentrations. In the absence of an active DNA polymerase and using poly(dT) as template, primase synthesized mixed polynucleotide products consisting of units of oligo(A) 1-12 alternating with units of oligo(dA)25-40. Contributions to these products by contaminating DNA polymerase gamma were eliminated by the addition of dideoxy-ATP. Addition of 50 microM dATP to the primase reaction caused a 50% inhibition of AMP incorporation as compared to reactions containing low levels of dATP present only as a contaminant of the ATP added. The inhibition was due primarily to a reduction of new chain initiations. The dATP did not "lock" the primase reaction into the DNA mode of synthesis since the proportion of internal and 3'-terminal RNA segments was little affected. However, the addition of both 50 microM dATP and exogenous DNA polymerase to the primase reaction greatly reduced the amount of internal and 3'-terminal RNA segments, presumably due to the displacement of primase by DNA polymerase. Our data are consistent with the hypothesis (Hu, S.-Z., Wang, T.S.-F., and Korn, D. (1984) J. Biol. Chem. 259, 2602-2609) that the physiologically significant primer is a mixed 5'-oligoribonucleotide-3'-oligodeoxyribonucleotide and that the formation of the RNA to DNA junction is inherently a primase function.
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PMID:Characterization of a DNA primase from rat liver mitochondria. 370 Apr 9

Aphidicolin, a tetracyclic diterpenoid obtained from the culture filtrates of Cephalosporium aphidicola and other fungi, inhibits the growth of eukaryotic cells and of certain animal viruses (SV40, Herpes and Vaccinia viruses) by selectively inhibiting the cellular replicative DNA polymerase alpha or the viral-induced DNA polymerases. The arrest of cellular or viral growth is thus due to inhibition of cellular or viral replicative DNA synthesis without interference with mitochondrial DNA synthesis, RNA, protein and nucleic acid precursors synthesis or other major metabolic pathways. The inhibition of all sensitive eukaryotic DNA polymerases by aphidicolin is competitive with respect to dCTP. Aphidicolin has thus proved extremely useful in elucidating the functional role of DNA polymerase alpha in nuclear DNA replication, of DNA polymerase gamma in mitochondrial DNA synthesis and both DNA polymerases beta and alpha in DNA repair synthesis. An important laboratory application of aphidicolin is the synchronization of the cell cycle of eukaryotic cells both in culture and in vivo. The properties of aphidicolin have recently aroused considerable interest for its possible exploitation in al practice. The mechanism of action of this drug suggests in fact that it may be useful for controlling excessive cell proliferation in patients with cancer, psoriasis or other dermatitis with little or no adverse effect upon non-multiplying cells. Interestingly, when administered to mice, the highest levels of aphidicolin are found in those tissues most actively proliferating with little or no aphidicolin present in neurons or myocardial cells.
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PMID:Control of cell division by aphidicolin without adverse effects upon resting cells. 393 52

A family of enzymatic activities isolated from human mitochondria is capable of initiating DNA replication on single-stranded templates. The principal enzymes include at least a primase and DNA polymerase gamma and require that rNTPs as well as dNTPs be present in the reaction mixture. Poly(dC) and poly(dT), as well as M13 phage DNA, are excellent templates for the primase activity. A single-stranded DNA containing the cloned origin of mitochondrial light-strand synthesis can be a more efficient template than M13 phage DNA alone. Primase and DNA polymerase activities were separated from each other by sedimentation in a glycerol density gradient. Using M13 phage DNA as template, these mitochondrial enzymes synthesize RNA primers that are 9 to 12 nucleotides in size and are covalently linked to nascent DNA. The formation of primers appears to be the rate-limiting step in the replication process. Replication of M13 DNA is sensitive to N-ethylmaleimide and dideoxynucleoside triphosphates, but insensitive to rifampicin, alpha-amanitin, and aphidicolin.
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PMID:Isolation and characterization of a DNA primase from human mitochondria. 404 69

The diterpene ester promoter of mouse skin tumors, 12-O-tetradecanoylphorbol-13-acetate (TPA), efficiently induces Epstein-Barr virus (EBV)-associated DNA polymerase (DNA nucleotidyltransferase) activity in the EBV-producing lymphoblastoid cell line, P3HR-1. With the use of intervent dilution chromatography followed by sequential DEAE-cellulose and phosphocellulose column chromatography, the virus-associated enzyme has been isolated and purified 300-fold. The partially purified EBV DNA polymerase activity could be distinguished from cellular polymerases by its activation with salt and its degree of sensitivity to N-ethylmaleimide and phosphonoacetic acid. The enzyme showed maximum activity for copying activated calf thymus DNA in the presence of 100 mM ammonium sulfate. In the absence of salt, the enzyme utilized with high efficiency deoxyoligomer-homopolymer templates, but failed to copy poly(rA) . oligo(dT)10 and oligo(dT)10, showing that the enzyme had properties distinct from DNA polymerase gamma, reverse transcriptase, and terminal deoxynucleotidyltransferase. The partially purified enzyme is strongly inhibited by acyclovir triphosphate and thus has properties similar to herpes simplex virus DNA polymerase.
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PMID:Induction of Epstein-Barr virus-associated DNA polymerase by 12-O-tetradecanoylphorbol-13-acetate. Purification and characterization. 624 99

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