Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

To test whether the identity of divalent metal activator affects the specificity of misincorporation during polymerization catalyzed by E. coli DNA polymerase I, we carried out the following procedure. A series of oligonucleotide primers, annealed at different positions along the lacZ region of bacteriophage M13mp9 DNA, were elongated in the presence of 3 of the 4 deoxynucleoside 5'-triphosphates (dNTPs) until one or a few misincorporations occurred in each elongated primer. The elongated primers (containing deoxynucleotide residues that had been misincorporated in the presence of either Mg2+ or Mn2+) were then isolated and sequenced by the 'dideoxy' chain termination method to determine the identity of deoxynucleoside monophosphates (dNMPs) that had been misincorporated at different template positions during the original 'minus' reactions, activated by Mg2+ or Mn2+. The results obtained by this approach revealed that both the type of misincorporation and the effect of substituting Mn2+ for Mg2+ depended on the nucleotide sequence of the template. At 40% of the template positions at which misincorporation was compared with both metal ions (8 out of 20), the identity of mispairs differed significantly for synthesis activated by Mn2+ versus Mg2+. Of these 8 sites, 4 exhibited increased transversions in the presence of Mn2+, while 4 exhibited decreased transversions with Mn2+.
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PMID:Influence of divalent metal activator on the specificity of misincorporation during DNA synthesis catalyzed by DNA polymerase I of Escherichia coli. 328 Sep 82

DNA polymerase alpha from Physarum polycephalum has been purified from freshly harvested microplasmodia. An inhibitory activity was removed by precipitation with poly(ethyleneimine) and interfering type-beta-like DNA polymerase by chromatography on phosphocellulose. The preparation was free of endonucleases and exonucleases. The DNA-polymerizing polypeptide had a molecular mass of 140 kDa by polyacrylamide gel electrophoresis under denaturing conditions. It was contained in purified samples and in crude cell extracts. Peptides of smaller size that reacted with antibodies against this protein were generated during purification and prolonged standing. Molecular sizing under non-denaturing conditions resulted in high-molecular-mass forms. The type of isolated DNA polymerase was established on the basis of inhibition and template-primer utilization experiments underlying the classification of DNA polymerases from higher eucaryotes. The majority of the DNA-polymerizing activity was contained in the cell nucleus fraction and was inhibited by aphidicolin. The isoelectric point (pI) was 6.7 +/- 0.2, the pH optimum at pH 6.8, and the temperature optimum at 40 degrees C. Monovalent salts, Li+, Na+, NH+4, K+, were inhibitory except for small activation maxima at 10 mM, 75 mM and 100 mM in the case of Na+, NH+4 and K+ respectively. The bivalent cations Mg2+ and Mn2+ had broad activity maxima at 3-20 mM concentrations, which were shifted to 0.05-0.1 mM in the case of Mn2+ and synthetic DNA homopolymers. The numbers of molecules of DNA polymerases in Physarum nuclei were calculated and compared with the established number of replicons in plasmodia and with the number of molecules of DNA polymerases in higher eucaryotes.
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PMID:Purification and characterization of DNA polymerase alpha from plasmodia of Physarum polycephalum. 341 68

When Escherichia coli DNA polymerase I (Pol I) replicates a homopolymer, the excision/polymerization (exo/pol) ratio varies with enzyme and initiator concentration. The study of this effect in the case of poly(dA).oligo(dT) replication led us to propose a mnemonic model for Pol I, in which the 3' to 5' excision activity warms up when the enzyme is actively polymerizing, and cools down when it dissociates from the template. The model predicts that the exo/pol ratio must increase with processivity length and initiator concentration and decrease with enzyme concentration. It predicts also that contact of the enzyme with one template alters its excision efficiency towards another template. The exo/pol ratio and processivities of Pol I and its Klenow fragment were studied on four templates: poly(dA).(dT)10, poly(dT).(dA)10, poly(dC).(dG)10 and poly(dI).(dC)10. We show that the Klenow fragment is usually much less processive than Pol I and when this is the case it has a much lower exo/pol ratio. At equal processivity, the exo/pol ratios are nearly equal. Furthermore, many factors that influence processivity length (e.g. manganese versus magnesium, inorganic pyrophosphate, ionic strength) influence the exo/pol ratio in the same direction. The study of deaminated poly(dC) replication, where we followed incorporation and excision of both G and A residues, allowed us to assign the origin of the dNMP variations to changes in the 3' to 5' proof-reading activity of Pol I. Similarly, the lower dNMP turnover of the Klenow fragment observed with deaminated poly(dC) was specifically assigned to a decreased 3' to 5' exonuclease activity. The exo/pol ratio generally increased with initiator and decreased with enzyme concentration, in agreement with the model, except for poly(dI).oligo(dC), where it decreased with initiator concentration. However, by terminating chain elongation with dideoxy CTP, we showed directly that, even in this system, excision is relatively inefficient at the beginning of synthesis. Interaction of Pol I with poly(dA).(dT) or with poly(dC).(dG) modifies its exo/pol characteristics in the replication of poly(dI).(dC) and poly(dA).(dT), respectively. The Klenow enzyme is not sensitive to such influences and this correlates with its reduced processivity on the influencing templates. Our results reveal the existence of differences between Pol I and its Klenow fragment that are more profound than has been thought previously.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mnemonic aspects of Escherichia coli DNA polymerase I. Interaction with one template influences the next interaction with another template. 353 8

The affinity of different ligands (phosphate, nucleoside monophosphates, oligonucleotides) to the template binding site of DNA polymerase alpha from human placenta was estimated. To this goal, dependences of rate of the enzyme inactivation by the affinity reagent d(pT)2pC[Pt2+(NH3)2OH](pT)7 on the concentration of these ligands as competitive inhibitors were determined. Minimal ligands capable to bind with the template site of DNA polymerase alpha were shown to be triethylphosphate (Kd 600 microM) and phosphate (Kd 53 microM). Ligand affinity increases by the factor 1.71 per added monomer unit from phosphate to d(pT) and then for oligothymidylates d(Tp)nT (n 1 to 14). The partial ethylation of phosphodiester groups does not change the efficiency of the oligothymidylate binding with the enzyme. However, the complete ethylation of these groups lowers affinity of the oligothymidylates to the enzyme by 7-9 times. The decrease is comparable with the change of Pt2+-decathymidylate affinity to the enzyme caused by Mn2+-ions. The data obtained led to suggestion that an electrostatic contact (most likely, Me2+-dependent) of phosphodiester group with the enzyme takes place. The type of contact is confirmed by Gibbs' energy change 1.1-1.4 kcal/mole. Formation of a hydrogen bond with the oxygen atom of P = O group of the same phosphate is also assumed (delta G =--4.4 . . .--4.5 kcal/mole). The other internucleotide phosphates and all bases of oligonucleotides form neither hydrogen bonds nor electrostatic contacts with the template binding site. Gibbs' energy changes by 0.32 kcal/mole when the template is lengthened by one unit. We suppose that this value characterizes the energy gain in the transition of oligonucleotide template from aquous medium to the hydrophobic environement of the enzyme active site. Comparison of Km values of oligothymidylates and their partially or completely ethylated analogues as templates in the reaction of DNA polymerization catalysed by DNA polymerase alpha from human placenta and Klenow's fragment of E. coli DNA polymerase I suggests a similar mechanism of template recognition by both enzymes.
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PMID:[Eukaryotic and prokaryotic DNA-polymerase. II. The role of internucleotide phosphate groups of a template in its binding with the enzyme]. 355 64

The processivity of the DNA polymerase alpha-primase complex from calf thymus was analyzed under various conditions. When multi-RNA-primed M13 DNA was used as the substrate, the DNA polymerase alpha-primase complex was found to incorporate 19 +/- 3 nucleotides per primer binding event. This result was confirmed by product analysis on sequencing gels following DNA synthesis on poly(dT) X (rA)10. The processivity depends strongly on the assay conditions but does not correlate with enzymic activity. Lowering the concentration of Mg2+ ions to less than 2 mM increases the processivity to 60. Replacing Mg2+ by 0.2 mM Mn2+ results in 90 nucleotides being incorporated per primer binding event. Neither the presence of ATP nor the addition of noncognate deoxynucleotide triphosphates affects the processivity of the DNA polymerase alpha-primase complex. Lower processivity was induced by lowering the reaction temperature, by adding spermine, spermidine, or putrescine, in the presence of the antibiotics novobiocin and ciprofloxacin, by adding Escherichia coli single-stranded DNA binding protein, or by adding calf thymus topoisomerase II and RNase H. Three single-stranded DNA binding proteins from calf thymus, including unwinding protein 1, do not affect processivity to any significant extent. Freshly prepared DNA polymerase alpha-primase complex exhibits in addition to its processivity of 20 further discrete processivities of about 55, 90, and 105. This result suggest that further subunits of the polymerase alpha-primase complex are necessary to reconstitute the holoenzyme form of the eukaryotic replicase.
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PMID:Processivity of the DNA polymerase alpha-primase complex from calf thymus. 360 95

The ability of Escherichia coli DNA polymerase I and T7 DNA polymerase to bypass bulky C-8 guanyl-2-aminofluorene adducts in DNA was studied by in vitro DNA synthesis reactions on a site-specific aminofluorene-modified M13mp9 template. This site-specifically modified DNA was prepared by ligating an oligonucleotide containing a single aminofluorene adduct into a gapped heteroduplex of M13mp9 DNA (Johnson, D. L., Reid, T. M., Lee, M.-S., King, C. M., and Romano, L. J. (1986) Biochemistry 25, 449-456). The resulting covalently closed duplex DNA molecule was then cleaved with a restriction endonuclease, denatured, and annealed to a primer on the 3' side of the adduct to form a template specifically designed to study bypass. In this system, any synthesis that was not blocked by the bulky aminofluorene adduct would proceed to the 5' terminus of the single-stranded template, while synthesis interrupted by the adduct would terminate at or near the adduct location. We have measured DNA synthesis on this template and find that the amount of radiolabeled nucleotide incorporated by either E. coli DNA polymerase I (large fragment) or T7 DNA polymerase was much greater than would be predicted if the aminofluorene adduct were an absolute block to DNA synthesis. Furthermore, the products of similar reactions electrophoresed on polyacrylamide gels showed conclusively that the majority of the DNA synthesized by either the T7 DNA polymerase or E. coli DNA polymerase I bypassed the aminofluorene lesion. Substitution of Mn2+ for Mg2+ as the divalent cation resulted in even higher levels of translesion synthesis.
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PMID:Evidence for in vitro translesion DNA synthesis past a site-specific aminofluorene adduct. 366 96

Bis(diphenylphosphine)ethane (DPPE) and its bis[chlorogold(I)] [DPPE(Au2Cl2)], and bis[trichlorogold(III)] [DPPE(Au2Cl6)], complexes have in vivo antitumor activity. To determine if interaction with metals in situ can play a role in the antitumor activity of DPPE, we have studied the effects of DPPE, DPPE(Au2Cl2), DPPE(Au2Cl6) and mixtures of DPPE with metal salts on in vitro and in vivo biological systems. The in vitro cytotoxic potencies of the two DPPE-gold complexes were approximately 10-fold greater than that of DPPE. In addition, the cytotoxic potency of DPPE was increased when incubated with cells in the presence of Au(III) and Cu(II) salts, whereas Mg(II), Zn(II), Mn(II), Fe(II), Co(II), and Cd(II) had no effect. The effects of DPPE, DPPE(Au2Cl2) and mixtures of DPPE and metal salts on the activity of a model enzyme system, DNA polymerase alpha were measured. While DPPE did not inhibit the activity of DNA polymerase alpha, the DPPE(Au2Cl2) complex and mixtures of DPPE and Cu(II) salts inhibited the activity of the enzyme. Consistent with the effects observed in vitro, coadministration of Cu(II) or Au(III) increased the in vivo potency of DPPE in mice bearing i.p. P388 leukemia. Fifteen other DPPE analogues were evaluated for in vivo antitumor activity and for the effect of Cu(II) on their in vitro cytotoxic potency; there was a relationship between the ability of Cu(II) to potentiate the cytotoxic activities of DPPE analogues and their having in vivo antitumor activity.
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PMID:Modulation of the antitumor and biochemical properties of bis(diphenylphosphine)ethane with metals. 375 63

Binding of deoxyribonucleoside 5'-triphosphates to DNA polymerase I of Escherichia coli was measured by using a microscale nonequilibrium dialysis method. It allowed rapid and economic measurement of dissociation constants, with negligible interfering side reactions. A stoichiometry of 1 mol of nucleoside 5'-triphosphate/mol of DNA polymerase was measured, and the occurrence of a single binding site was established, for which the nucleotides competed in the binary complex with the polymerase. Binding affinities decreased in the order dGTP greater than or equal to dATP greater than dCTP congruent to dTTP. These results are in agreement with previous findings [Englund, P. T., Huberman, J. A., Jovin, T. M., & Kornberg, A. (1969) J. Biol. Chem. 244, 3038-3044] except that, in a few cases, values of dissociation constants were smaller by factors of 2-3. The cations Mg2+ and Mn2+, as well as spermine, slightly enhanced complex stability at low levels and decreased it at high concentrations, while NaCl and Hg2+ had only destabilizing effects. Recognition between nucleoside 5'-triphosphates and nucleotide templates was studied by titration of the polymerase-[3H]dGTP complex with polynucleotide homopolymers. Complementary poly(dC) did not affect binding of dGTP, and non-complementary templates caused rejection of the nucleotide. Rejection of dGTP followed a saturation dependence with an equivalence of 110 +/- 10 monomer units of polynucleotides bound per molecule of DNA polymerase. The results favor a model by which recognition arises chiefly from the stereogeometrical fit of complementary template and nucleoside 5'-triphosphate into a rigid binding site.
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PMID:Interaction of DNA polymerase I of Escherichia coli with nucleotides. Antagonistic effects of single-stranded polynucleotide homopolymers. 389 70

Thymine glycols were produced in M13 DNA in a concentration dependent manner by treating the DNA with osmium tetroxide (OsO4). For the formation of urea-containing M13 DNA, OsO4-oxidized DNA was hydrolyzed in alkali (pH 12) to convert the thymine glycols to urea residues. With both thymine glycol- and urea-containing M13 DNA, DNA synthesis catalyzed by Escherichia coli DNA polymerase I Klenow fragment was decreased in proportion to the number of damages present in the template DNA. Sequencing gel analysis of the products synthesized by E. coli DNA polymerase I and T4 DNA polymerase showed that DNA synthesis terminated opposite the putative thymine glycol site and at one nucleotide before the putative urea site. Substitution of manganese for magnesium in the reaction mix resulted in increased processivity of DNA synthesis so that a base was incorporated opposite urea. With thymine glycol-containing DNA, processivity in the presence of manganese was strongly dependent on the presence of a pyrimidine 5' to the thymine glycol in the template.
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PMID:Thymine glycols and urea residues in M13 DNA constitute replicative blocks in vitro. 390 66

The conformations and binding site environments of Mg2+TTP and Mg2+dATP bound to Escherichia coli DNA polymerase I and its large (Klenow) fragment have been investigated by proton NMR. The effect of the large fragment of Pol I on the NMR line widths of the protons of Mg2+TTP detected one binding site for this substrate with a dissociation constant of 300 +/- 100 microM and established simple competitive binding of deoxynucleoside triphosphates at this site in accord with previous equilibrium dialysis experiments with whole Pol I [Englund, P. T., Huberman, J.A., Jovin, T.M., & Kornberg, A. (1969) J. Biol. Chem. 244, 3038]. Primary negative nuclear Overhauser effects were used to calculate interproton distances on enzyme-bound Mg2+dATP and Mg2+TTP. These distances established that each substrate was bound with an anti-glycosidic torsional angle (chi) of 50 +/- 10 degrees for Mg2+dATP and 40 +/- 10 degrees for Mg2+TTP. The sugar pucker of both substrates was predominantly O1'-endo, with a C5'-C4'-C3'-O3' exocyclic torsional angle (delta) of 95 +/- 10 degrees for Mg2+dATP and 100 +/- 10 degrees for Mg2+TTP. The consistency of these conformations with those previously proposed, on the basis of distances from Mn2+ at the active site [Sloan, D. L., Loeb, L. A., Mildvan, A.S., & Feldman, R.J. (1975) J. Biol. Chem. 250, 8913], indicates a unique conformation for each bound nucleotide. The chi and delta values of the bound substrates are appropriate for nucleotide units of B DNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nuclear Overhauser effect studies of the conformations and binding site environments of deoxynucleoside triphosphate substrates bound to DNA polymerase I and its large fragment. 390 5


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