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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)

Manganese is mutagenic in vivo and in vitro in studies with a variety of enzymes and templates. Using Escherichia coli DNA polymerase I with poly[d(A-T)] and phi X174 DNA templates, we analyzed the mechanism of manganese mutagenesis by determining the dependence of error rate on free Mn2+ concentration and comparing this to measured dissociation constants of Mn2+ from enzyme, template, and deoxynucleoside triphosphate substrates. This comparison suggests several conclusions: (1) At very low Mn2+ concentrations, the enzyme is activated at high fidelity. Thus, it is unlikely that activation with manganese per se significantly alters the conformation of the enzyme so as to affect nucleotide selection. (2) At low free Mn2+ concentrations (less than 100 microM), manganese causes errors in incorporation via its interaction with the DNA template. The concentration dependence of mutagenesis is determined by the strength of binding Mn2+ to the particular DNA template used. The data do not allow one to rule out the possibility that Mn2+-deoxynucleoside triphosphate interactions contribute to mutagenesis in selected situations. This range of free Mn2+ concentrations is the one of greatest relevance for in vivo mutagenesis. (3) At higher concentrations (between 500 microM and 1.5 mM), further mutagenesis by Mn2+ occurs. This mutagenesis probably is due either to binding of manganese to single-stranded regions within the DNA or to weak accessory sites on the enzyme.
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PMID:On the fidelity of DNA replication: manganese mutagenesis in vitro. 391 84

Three DNA polymerase isoenzymes, which have been called A, B and C, were purified from Thermus thermophilus HB-8. These enzymes can be separated by chromatography (pH 7.5) on phosphocellulose and DNA-agarose. Their relative molecular masses, as determined by glycerol gradient centrifugation, fall in the range of 110000-120000. The three of them are devoid of exonuclease activity. Species A, B and C differ in their sensitivity towards N-ethylmaleimide (A greater than B greater than C) and urea (A greater than B = C) and also in their stability at high temperature (90 degrees C) (B greater than C greater than A). In addition, these enzymes can be distinguished utilizing various templates under different conditions. Thus, with activated DNA and Mg2+ as a cofactor, the highest incorporation is obtained at 50 degrees C with enzyme A and at 63 degrees C with enzymes B and C. If Mg2+ is replaced by Mn2+, the optimal temperatures remain unchanged, but enzyme A is stimulated twofold, while the activities of enzymes B and C decrease to one-half. On the other hand, with either poly(dA) X (dT)10 or poly(dA-dT) and Mg2+, enzyme A is inactive and enzyme C is severalfold more active than enzyme B. With the former synthetic template, optimal temperatures are 50 degrees C (enzyme C) and 40 degrees C (enzyme B), while with poly(dA-dT) they both work best at 63 degrees C. In turn, only enzyme C is able to utilize poly(rA) X (dT)10, although only with Mn2+ as a cofactor.
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PMID:DNA polymerases from the extremely thermophilic bacterium Thermus thermophilus HB-8. 399 3

Two forms of DNA polymerase alpha, alpha 1 and alpha 2, have been partially purified from mouse FM3A cells by discriminating one form from the other on the basis of the association of primase activity. The primase activity in the most purified alpha 1 fraction co-sedimented with the DNA polymerase activity in a glycerol gradient, and almost no primase activity was detected in the most purified alpha 2 fraction. The primase activity associated with DNA polymerase alpha was assayed indirectly by measuring ATP-dependent DNA synthesis with poly (dT) as template. Characterization of the assay system was performed with the purified alpha 1. The system was absolutely dependent on the presence of ATP and a divalent cation. Mn2+ was much more effective than Mg2+, and 5-fold higher activity was observed with Mn2+ than with Mg2+ at their optimal concentrations. The primase activity assayed by the above system showed sensitivity to (NH4)2SO4 very similar to that of free primase reported by Tseng and Ahlem (J. Biol. Chem. 258, 9845-9849, 1983). The activity was inhibited by more than 50% by 20 mM (NH4)2SO4. alpha 1 and alpha 2 were very similar as DNA polymerases in their sensitivity to several inhibitors and their preference for template-primers, except that alpha 1 had a slightly greater preference for poly (dT) X (rA)10 than alpha 2 did. The major difference between the two forms was observed in their S values, 8.2 and 6.4 S for alpha 1 and alpha 2, respectively.
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PMID:Purification and characterization of two forms of DNA polymerase alpha from mouse FM3A cells: a DNA polymerase alpha-primase complex and a free DNA polymerase alpha. 400 61

Two DNA polymerase with properties of viral RNA-directed DNA polymerase can be found in RIII mouse milk. One enzyme is the polymerase of type-C viruses; this enzyme prefers manganese to magnesium with poly(rA).oligo(dT) as synthetic template, is inhibited by specific sera, and has an apparent molecular weight of 70,000. Milk from BALB/c and NIH Swiss mice contain a vast predominance of this type-C enzyme. The other DNA polymerase from RIII mouse milk prefers magnesium to manganese, is not inhibited by type-C antipolymerase serum, and appears larger on gel chromatography than the type-C viral polymerase. Its presence in milk from RIII mice and absence from milk of mice with low content of mammary tumor virus correlates to the relative degree of type-B virus expression in these mice. The DNA polymerase of Mason-Pfizer monkey virus, isolated from a rhesus monkey breast tumor, also has a marked preference for magnesium with poly(rA).oligo(dT), is not immunologically related to primate type-C viruses, and appears larger than the gibbon type-C enzyme on gel chromatography.
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PMID:Characterization and separation of viral DNA polymerase in mouse milk. 412 83

A DNA polymerase activity that promotes the synthesis of poly(dT) has been found in association with intracisternal A-type particles isolated from several mouse tumors. The poly(dT) synthesis activity requires a DNA or RNA primer, is optimal at high salt concentration, prefers magnesium over manganese, and is stimulated by poly(rA). No significant incorporation of dAMP, dGMP, or dCMP was detected in the presence of several RNA and DNA template-primers. The enzyme activity differs in several of its properties from the poly(rA)-directed DNA polymerase activity associated with Rauscher murine leukemia virus.
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PMID:A novel DNA polymerase activity found in association with intracisternal A-type particles. 450 67

A sequence of 50 residues in f1 DNA has been determined by the extension of a chemically synthesized octadeoxyribonucleotide by Escherichia coli DNA polymerase I, with radioactive nucleoside triphosphates and f1 DNA template. The polymerized product was synthesized either in the presence of manganese and a mixture of ribo- and deoxyribotriphosphates or in a magnesium-containing reaction with one or more of the four triphosphates absent. The sequence determination depended largely on fractionation of the polymerized products by two-dimensional "homochromatography." This approach and the techniques for the subsequent sequence analysis should be of general use for determining other sequences of DNA. Several features of this sequence suggest that it is located in an intercistronic region of f1 DNA.
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PMID:Use of DNA polymerase I primed by a synthetic oligonucleotide to determine a nucleotide sequence in phage fl DNA. 457 94

The mechanism by which DNA polymerase discriminates between complementary and noncomplementary nucleotides for insertion into a primer terminus has been investigated. Apparent kinetic constants for the insertion of dGTP and dATP into the hook polymer d(C)194-d(G)12 with Escherichia coli DNA polymerase I (large fragment) were determined. The results suggest that the high specificity of base selection by DNA polymerase I is achieved by utilization of both Km and Vmax differences between complementary and noncomplementary nucleotides. The molecular basis for the increased error frequency observed with DNA polymerase I in the presence of Mn2+ has also been investigated. Our studies demonstrate that when Mn2+ is substituted for Mg2+, there is a higher ratio of insertion of incorrect to correct dNTP by the polymerase activity, accompanied by a decreased hydrolysis of a mismatched dNMP relative to a matched dNMP at the primer terminus by the 3',5' exonuclease activity. Kinetic analysis revealed that in the presence of Mn2+, the kcat for insertion of a complementary dNTP is reduced, whereas the catalytic rate for the insertion of a mismatched nucleotide is increased. The apparent Km values for either complementary or noncomplementary nucleotide substrates are not significantly altered when Mg2+ is replaced by Mn2+. The rate of hydrolysis of a mismatched dNMP at the primer terminus is greater in the presence of Mg2+ vs. Mn2+, whereas the rate of hydrolysis of a properly base-paired terminal nucleotide is greater in Mn2+ vs. Mg2+. These studies demonstrate that both the accuracy of base selection by the polymerase activity and the specificity of hydrolysis by the 3',5' exonuclease activity are altered by the substitution of Mn2+ for Mg2+.
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PMID:Molecular mechanisms of manganese mutagenesis. 609 89

We have purified to near homogeneity the single DNA-dependent ATPase activity that we have identified in extracts of KB cell nuclei. The protein structure of the enzyme was defined by sodium dodecyl sulfate gel electrophoresis, which revealed a single protein band of 75000 daltons that was coincident with the profile of ATPase activity resolved by the final step of agarose-ATP chromatography or by isoelectric focusing. The enzyme has a pI of 8.5, a Stokes' radius by gel filtration of 3.8 nm, and a sedimentation coefficient in high salt of 5.3 S. At low ionic strength the enzyme activity sediments at 7.0 S, suggesting that it may dimerize under these conditions. The purified enzyme has a specific activity of 5.9 X 10(5) nmol of ATP hydrolyzed per h per mg of protein and is devoid of endonuclease, exonuclease, RNA or DNA polymerase, nicking-closing, and gyrase activities at exclusion limits of 10(-6)-10(-8) of the ATPase activity. The enzyme can hydrolyze only ATP or dATP, to generate ADP or dADP plus Pi, but the other NTPs and dNTPs are competitive inhibitors of the enzyme with respect to ATP. A divalent cation (Mg2+ greater than Mn2+ greater than Ca2+) as well as a nucleic acid cofactor is required for activity. Single-stranded DNA or deoxyhomopolymers are most effective, but blunt-ended linear and nicked circular duplex DNA molecules are also used at Vmax values approximately 20% of that obtained with single-stranded DNA. Intact duplex DNA and polyribonucleotides are unable to support ATP hydrolysis. Velocity gradient sedimentation studies corroborate the interpretations of the kinetic analyses and demonstrate enzyme binding to single-stranded DNA and nicked duplex DNA but not to intact duplex DNA. Although we have not succeeded directly in demonstrating DNA unwinding by this protein, preliminary results suggest that in the presence of ATP, the ATPase can stimulate the reactivity of homogeneous human DNA polymerases alpha and beta on nicked duplex DNA substrates.
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PMID:Structural and enzymological characterization of a deoxyribonucleic acid dependent adenosine triphosphatase from KB cell nuclei. 610 81

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

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