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)

We report the covalent addition of [32P]dCMP to a protein from group A adenovirus 12 (Ad12)-infected human (KB) cells in vitro, using crude extracts. Synthesis of the 60K protein-dCMP complex required a DNA template containing a terminally located adenovirus replication origin; the protein-dCMP bond was alkali-labile but acid-stable. We therefore conclude that this product is the Ad12 terminal protein precursor (pTP)-dCMP initiation complex for DNA replication. Synthesis of Ad12 pTP-dCMP was specific for dCTP but was stimulated by dATP. In contrast to Ad2, the Ad12 initiation reaction required ATP. Antipeptide antiserum targeted to Ad DNA polymerase inhibited Ad12 pTP-dCMP synthesis in vitro, providing evidence that Ad DNA polymerase catalyse dCMP addition to pTP during initiation.
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PMID:Formation in vitro of the pTP-dCMP initiation complex of human adenovirus type 12. 199 80

The fate of G.T mismatches and frameshifts, present at the 3'-terminus of primer-template or internally, has been studied with a combined transfection and electrophoretic assay following in vitro polymerization by DNA polymerase I (Klenow enzyme) of Escherichia coli. Several synthetic oligodeoxynucleotide primers were synthesized and annealed to uracil-containing single-stranded DNA of M13 phage bearing the lacI gene, to produce 1-3 consecutive G.T mismatches in the middle of the duplex region or at the 3'-OH end of the primer. Additional mismatched primer-templates were prepared, in which the primer had a deleted nucleotide, an extra nucleotide or both G.T mismatch and an extra nucleotide. The extension or degradation of these primers during in vitro DNA synthesis in the presence of all 4 dNTPs ('complete' reaction) or in the absence of dATP ('-A' reaction) was monitored by gel electrophoresis. Duplex DNA products were used in a transfection assay and the nucleotide changes in i-mutant progeny were determined by sequence analysis. The results suggest that whereas a single 3'-terminal G.T mismatch is relatively stable in chain elongation by Klenow enzyme, multiple terminal G.T mismatches are degraded by the 3'-exonuclease activity of this polymerase prior to primer extension. This editing activity is increased with the number of 3'-terminal mispairs. Single, double and triple T----C base substitutions were efficiently recovered when the mismatches occurred internally. Also, single-base eliminations or additions were readily recovered when the mutagenic primers contained an internal base deletion or addition, respectively. When products of the '-A' misincorporation reaction (catalyzed by Klenow enzyme) were assayed by transfection, base substitutions (exclusively T----C), but no frameshifts, were recovered. The results indicate that the absence of multiple tandem base substitutions among i- mutants recovered following primer elongation under mutagenic 'minus' conditions was due to the efficient action of the 3'-exonuclease activity of the Klenow enzyme on multiple terminal mismatches during in vitro polymerization, rather than to in vivo events (lack of expression or occurrence of mismatch repair) in the M13-lacI transfection assay.
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PMID:In vitro mutagenesis in the lacI gene of Escherichia coli: fate of 3'-terminal mispairs versus internal base mispairs in a transfection assay. 200 5

Purine and pyrimidine adducts of alpha-methylene-gamma-lactone demonstrated potent cytotoxicity against murine L1210 lymphoid leukemia growth as well as a variety of human tissue cultured tumors. The most potent compound, 9-[(2-methyl-4-methylene-5-oxotetrahydrofuran-2-yl)-methyl 1] adenine 1 demonstrated significant inhibition of DNA synthesis in L1210 leukemic cells with moderate inhibition of protein synthesis. The major enzyme activities inhibited by 1 were DNA polymerase alpha, ribonucleoside reductase and t-RNA polymerase with marginal inhibition of thymidine kinase, TMP kinase, PRPP amidotransferase and IMP dehydrogenase. The inhibition of DNA polymerase alpha activity by 1 was evident at the lowest concentration 25 microM and was evident within 15 min incubation at 100 microM. The magnitude of enzyme inhibition was consistent with the observed DNA synthesis inhibition by 1. The only deoxyribonucleotide level reduced by 1 was the dATP pool level. U.V. absorption of DNA after interacting with 1 demonstrated a hyperchromic effect and L1210 DNA strand scission was observed after 24 hr incubation with 1 suggesting some type of interference with the DNA template by the drug.
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PMID:The effects of alpha-methylene-gamma-lactone purines and pyrimidines on L1210 lymphoid leukemia nucleic acid metabolism. 201 69

Calf thymus DNA polymerase alpha (pol alpha) and bacteriophage T4 DNA polymerase (pol T4) were exploited as model enzymes to investigate the molecular mechanism of inhibitory action of N2-(p-n-butylphenyl)dGTP (BuPdGTP) and 2-(p-n-butyl-anilino)dATP (BuAdATP) on the BuPdNTP-susceptible alpha polymerase family. Kinetic analysis of inhibition of pol alpha with mixtures of complementary and noncomplementary template:primers indicated that both nucleotides induced the formation of a polymerase: inhibitor:primer-template complex. Primer extension experiments using the guanine form as the model analog indicated that pol alpha cannot utilize these nucleotides to extend primer termini. In contrast, pol T4 polymerized BuPdGTP, indicating that resistance to polymerization is not a common feature of the inhibitor mechanism among the broad membership of the alpha polymerase family.
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PMID:The molecular mechanism of inhibition of alpha-type DNA polymerases by N2-(butylphenyl)dGTP and 2-(butylanilino)dATP: variation in susceptibility to polymerization. 202 70

To study the proliferative response of hematopoietic cells to growth factors at the molecular level, we developed a cell-free system for growth factor-dependent initiation of genomic DNA replication. Nuclei were isolated from the IL-3-dependent cell line NFS/N1-H7 after a 10-h period of IL-3 deprivation. Cytosolic and membrane-containing subcellular fractions were prepared from proliferating NFS/N1-H7 cells. Nuclei from the nonproliferating cells (+/- IL-3) showed essentially no incorporation of [3H]thymidine during a 16-h incubation with a mixture of unlabeled GTP, ATP, UTP, CTP, dGTP, dATP, dCTP, and [3H]dTTP. When the combination of IL-3, a cytosolic fraction, and a membrane-containing fraction from proliferating cells was added to nuclei from nonproliferating cells, a burst of [3H]thymidine incorporation into DNA began after a 12-h lag period, attained a maximal rate at 16 h, and reached a level of 860 pmol thymidine/10(6) nuclei at 24 h (corresponding to replication of approximately 56% total mouse genomic DNA). This DNA synthesis was inhibited approximately 90% by the specific DNA polymerase alpha inhibitor aphidicolin. Deletion of a single cellular component or IL-3 from the system resulted in a marked reduction of DNA replication (-membrane, 80 +/- 4%; -cytosol, 90% +/- 4%; -IL-3, 74 +/- 7% inhibition). This model requires a growth factor (IL-3), a sedimentable cell fraction containing its receptor and possibly additional membrane-associated components, and a cytosolic fraction. It appears to recapitulate the molecular events required for progression from early G1 to S phase of the cell cycle induced by IL-3 binding to its receptor.
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PMID:Growth factor-dependent initiation of DNA replication in nuclei isolated from an interleukin 3-dependent murine myeloid cell line. 210 81

Synthesis of a 25-mer oligonucleotide template containing O4-methylthymine (m4T) at a unique site is reported. The sequence used is analogous to that studied previously to determine the mutation frequency of O6-methylguanine in vitro and in vivo. The templates containing m4T or unmodified T were used in a primer-extension gel assay to determine kinetic parameters for incorporation by DNA polymerases of dGTP and dATP opposite either m4T or T. Both Escherichia coli DNA polymerase I (Klenow fragment, Kf) and Drosophila melanogaster polymerase alpha-primase complex (pol alpha) were used. On the basis of the Vmax/Km ratios, the pairing of m4T.G was preferred over that of both m4T.A and T.G by more than 10-fold. The two polymerases gave almost identical values for the frequency of formation of all pairs investigated including m4T.G pairs, suggesting that the 3'----5' exonuclease activity of the Klenow fragment does not efficiently edit such pairs. Extension beyond m4T.G was demonstrated with both Klenow and pol alpha. In similar kinetic experiments, bacteriophage T4 DNA polymerase, which has a very high 3'----5' exonuclease activity, allows stable incorporation of G opposite m4T in contrast to G opposite T. This kinetic approach allows quantitation of the mutagenic potential in the absence of alkylation repair and additionally provides qualitative data on mutagenesis that are in accord with our previous in vivo studies showing that replication of m4T causes T----C transitions.
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PMID:Comparative efficiency of forming m4T.G versus m4T.A base pairs at a unique site by use of Escherichia coli DNA polymerase I (Klenow fragment) and Drosophila melanogaster polymerase alpha-primase complex. 211 81

AMP and NaF each taken separately were shown to activate DNA polymerization catalyzed by Klenow fragment of DNA polymerase I by means of interaction of AMP or NaF with 3'----5'-exonuclease center of the enzyme. In the presence of NaF which is a selective inhibitor of 3'----5'-exonuclease center, AMP is an inhibitor of polymerization competitive with respect to dATP. Ki values and the pattern of inhibition with respect to dATP were determined for AMP, ADP, ATP, carboxymethylphosphonyl-5'-AMP, Pi, PPi, PPPi, methylenediphosphonic acid and its ethylated esters, phosphonoformic acid, phosphonoacetic acid and its ethylated esters as well as for some bicarbonic acids in the reactions of DNA polymerization catalyzed by Klenow fragment of DNA polymerase I (in the presence of NaF) and DNA polymerase alpha from human placenta in the presence of poly(dT) template and r(pA)10 primer. All nucleotides and their analogs were found to be capable of competing with dATP for the active center of the enzyme. Most of the analogs of PPi and phosphonoacetic acid are inhibitors of Klenow fragment competitive with respect to dATP. Nowever these analogs display a mixed-type inhibition in the case of human DNA polymerase alpha. We postulated a similar mechanism of interaction for dNTP with both DNA-polymerases. It is suggested that each phosphate group of PPi makes equal contribution to the interaction with DNA polymerases and that the distance between the phosphate groups is important for this interaction. beta-phosphate of NTP or dNTP is suggested to make negligible contribution to the efficiency of the formation of enzyme complexes with dNTP. beta-phosphate is likely to be an essential point of PPi interaction with the active center of proteins during the cleavage of the alpha-beta-phosphodiester bond of dNTP in the reaction of DNA polymerization.
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PMID:[Interaction of dNTP-binding sites of human DNA polymerase alpha and The Klenow fragment of Escherichia coli DNA polymerase I with nucleotides, pyrophosphate and their analogs]. 216 89

DNA primase has been partially purified from wheat germ. This enzyme, like DNA primases characterized from many procaryotic and eucaryotic sources, catalyses the synthesis of primers involved in DNA replication. However, the wheat enzyme differs from animal DNA primase in that it is found partially associated with a DNA polymerase which differs greatly from DNA polymerase alpha. Moreover, the only wheat DNA polymerase able to initiate on a natural or synthetic RNA primer is DNA polymerase A. In this report we describe in greater detail the chromatographic behaviour of wheat DNA primase and its copurification with DNA polymerase A. Some biochemical properties of wheat DNA primase such as pH optimum, Mn + 2 or Mg + 2 optima, and temperature optimum have been determined. The enzyme is strongly inhibited by KCI, cordycepine triphosphate and dATP, and to a lesser extent by cAMP and formycine triphosphate. The primase product reaction is resistant to DNAse digestion and sensitive to RNAse digestion. Primase catalyses primer synthesis on M13 ssDNA as template allowing E.coli DNA polymerase I to replicate the primed M13 single-stranded DNA leading to double-stranded M13 DNA (RF). M13 replication experiments were performed with wheat DNA polymerases A, B, CI and CII purified in our laboratory. Only DNA polymerase A is able to recognize RNA-primed M13 ssDNA.
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PMID:Further biochemical characterization of wheat DNA primase: possible functional implication of copurification with DNA polymerase A. 216 40

The inhibition of HSV-1 DNA polymerase and HeLa DNA polymerases alpha and beta by diphosphoryl derivatives of acyclic phosphonylmethoxyalkyl nucleotide analogues was studied and compared with the inhibition by ACV-TP, araCTP, ddTTP and AZT-TP. In the series of phosphonylmethoxyethyl (PME-) derivatives of heterocyclic bases, the inhibitory effect of their diphosphates on HSV-1 DNA polymerase decreased in the order 2-amino-PMEApp (Ki = 0.03 microM) much greater than PMEGpp greater than PMEApp greater than PMETpp much greater than PMECpp much greater than n8z7PMEApp greater than PMEUpp. The diphosphate derivative of the antiherpes agent (S)-9-(3-hydroxy-2-phosphonylmethoxypropyl) adenine (HPMPA) proved to be a relatively weak inhibitor of HSV-1 DNA polymerase (Ki = 1.4 microM). The inhibitors could be divided into three groups: (a) the diphosphoryl derivatives of acyclic nucleotide analogues (PME-type and HPMPA) and ACV-TP specifically inhibit HSV-1 DNA polymerase and DNA polymerase alpha and do not significantly inhibit DNA polymerase beta; (b) AZT-TP and ddTTP are effective only against DNA polymerase beta, and (c) araCTP inhibits all three enzymes. When dATP was omitted from the reaction mixture, the addition of HPMPApp stimulated DNA synthesis by HSV-1 DNA polymerase indicating that HPMPApp is an alternative substrate for in vitro DNA synthesis catalyzed by this enzyme.
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PMID:Inhibition of herpes simplex virus DNA polymerase by diphosphates of acyclic phosphonylmethoxyalkyl nucleotide analogues. 216 89

The 3',5'-exonuclease center of the Klenow fragment of E. coli DNA polymerase I (FK) was selectively blocked by NaF. The latter was shown to forbid the binding of nucleotides and their analogs to the enzyme exonuclease center. In the presence of poly(dT).r(pA)10 template.primer complex and NaF, we observed AMP, ADP, ATP, PPi and dATP to be competitive inhibitors of the FK-catalyzed DNA polymerization. The interactions of the nucleotides with FK and human DNA polymerase alpha were compared to reveal similarity of binding to the DNA polymerizing centers. Structural components of dNTP and PPi playing key roles in forming complexes with pro- and eukaryotic DNA polymerases were identified.
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PMID:Interaction of dNTP, pyrophosphate and their analogs with the dNTP-binding sites of E. coli DNA polymerase I Klenow fragment and human DNA polymerase alpha. 217 14


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