EC:2.7.7.7 - FACTA Search

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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)

Human cytomegalovirus-induced DNA polymerase and cellular DNA polymerase alpha were purified by successive chromatography on DEAE-cellulose, phosphocellulose, heparin agarose, and single-stranded DNA agarose columns. The purified virus-induced DNA polymerase was resolved to consist of two polypeptides corresponding to molecular weights of 140,000 and 58,000, as analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Virus-induced DNA polymerase and cellular alpha polymerase were examined for their sensitivities to the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil (FMAUTP), -5-iodocytosine (FIACTP), and -5-methylcytosine (FMACTP). The inhibitive effects of these triphosphates on the DNA polymerases were competitive with regard to the natural substrates; thus FMAUTP competes with dTTP, and FIACTP and FMACTP compete with dCTP. The inhibition constants (Ki) for FMAUTP, FIACTP, and FMACTP of virus-induced DNA polymerase are 0.06, 0.30, and 0.47 microM, respectively. Cellular DNA polymerase alpha is much less sensitive to these inhibitors, and its Ki values for FMAUTP, FIACTP, and FMACTP are 0.45, 3.10, and 2.90 microM, respectively. In addition, human cytomegalovirus-induced DNA polymerase, but not cellular DNA polymerase alpha, can utilize these analog triphosphates as alternate substrates for their corresponding natural deoxyribonucleoside triphosphates in in vitro DNA synthesis.
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PMID:Human cytomegalovirus-induced DNA polymerase and its interaction with the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil, -5-iodocytosine, and -5-methylcytosine. 299 40

For the preparation of gene libraries, DNA from lambda EMBL3 phage was digested with SalI and EcoRI, and the cohesive ends partially filled-in by addition of dTTP, dCTP and Klenow fragment of DNA polymerase I (PolIk). Genomic DNA was cleaved partially with Sau3A and subsequently incubated with dATP, dGTP and PolIk. The phage and genomic DNAs were then mixed and ligated. The recombinant DNAs were packaged in vitro. The efficiency of packaging was 10(5)-10(6) of infectious phage lambda particles per microgram of the genomic DNA (as compared to approx. 10(7) per microgram for the wild-type lambda DNA). This procedure is very rapid and requires only microgram quantities of genomic DNA for preparing an entire gene library. The other important advantage is that multiple independent insertions of genomic DNA cannot occur in a single recombinant phage and self-ligation of phage DNA is blocked. It is also applicable for other SalI-containing vectors.
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PMID:An improved technique for the efficient construction of gene libraries by partial filling-in of cohesive ends. 301 27

A number of nucleoside 5'-triphosphate analogs were tested with Escherichia coli DNA polymerase I and Klenow fragment of the enzyme, bacteriophage T4 DNA polymerase and calf thymus DNA polymerase alpha. It was shown that 3'-amino-2',3'-dideoxynucleoside 5'-triphosphates as well as a number of 3'-derivatives of dTTP(3'NH2) are able to terminate DNA synthesis catalyzed by each enzyme if the reaction is performed in the absence of natural substrates. ddNTP and dNTP(3'F) were found to be inactive with DNA polymerase alpha only, but araNTP(3'NH2) was inactive with E. coli DNA polymerase I. dTTP(3'N3), dGTP(3'N'3), dCTP(3'N3), araNTP(3'N3) and (alpha-thio)dTTP(3'F) were unable to inhibit any of the above-mentioned DNA polymerases, in contrast to reverse transcriptase, accessible to the most nucleotide analogs tested.
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PMID:Nucleoside 5'-triphosphates with modified sugars as substrates for DNA polymerases. 302 Dec 25

The mutagenicity of the DNA base O-alkylation adduct, O4-ethylthymine, specifically incorporated into the plasmid vector pUC8 at the unique SalI and HincII recognition sites, was studied in vivo. Escherichia coli, Micrococcus luteus and AMV DNA polymerases catalyze the incorporation of O4-ethylTMP against template adenine and guanine residues, resulting in DNA sequence alteration during subsequent replication in the host E. coli K-12 strain JM83. The greatest mutation frequency was observed with error-prone AMV DNA polymerase. High levels of cognate restriction endonuclease-resistant mutant plasmid isolates were obtained by gap replication repair in the presence of O4-ethylTTP. The yields of mutant isolates were dependent upon the relative concentration of the competing pyrimidine deoxynucleoside triphosphates, TTP and dCTP, in the misreplication reaction. Repair of incorporated O4-ethylTMP of plasmid DNA by in vitro treatment with specific alkyltransferase, prior to transformation in the host, effectively increases the mutagenic efficiency of the adduct. The results obtained are consistent with the high miscoding potential O4-ethylthymine observed in in vitro studies and its ability to base-pair with noncomplementary guanine residues in DNA.
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PMID:Site-specific gap-misrepair mutagenesis by O4-ethylthymine. 302 82

The 31mer 5'-TCA ACG CTA GAA TTC GGA TCC ATC GCT TGG T, the complementary 33mer 5'-CCA AGC GAT GGA TCC GAA TTC TAG CGT TGA GAT, the 40mer 5'-GGC CAG GAT GGT GAA GAA TTC GAT CCG GTA CGT AGC TAA G, and the complementary 42mer 5'-TAC TTA GCT ACG TAC CGG ATC GAA TTC TTC ACC ATC CTG GCC were synthesized and their reactivity towards EcoRI was studied. It was found that the 31mer and the 40mer were cleaved at a comparable rate to the 31mer-33mer hybrid and the 40mer-42mer hybrid, respectively. The rate of cleavage of the 33mer and the 42mer was an order of magnitude lower. To rule out possible intermolecular duplex formation, the 33mer was immobilized on cellulose by ligation and labeled with alpha 32P-dCTP using Klenow fragment of E. coli DNA polymerase. EcoRI cleaved this immobilized oligomer into specific fragments.
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PMID:Cleavage of single stranded oligonucleotides by EcoRI restriction endonuclease. 302 89

We have isolated a highly enriched preparation of the multienzyme complex which synthesizes deoxyribonucleoside triphosphates (dNTPs) from bacteriophage T4-infected bacteria. By a combination of SDS polyacrylamide gel electrophoresis and assays for specific enzyme activities, we have been able to identify in our final preparation ten different gene products which were previously identified as constituents of this complex, based upon studies with crude preparations. The complex dissociates at high concentrations of NaCl and MgCl2 but is stable under ionic conditions thought to exist in vivo. The purified complex catalyzes the efficient five-step conversion of dCTP to dTTP. Experiments with several T4 mutants have demonstrated that gene products encoded by cd, regA, nrdA, and nrdB are necessary to retain physical integrity of the complex throughout the preparative procedure, while gp44, gp55, and gppseT are not required. We conclude from this evidence that the T4 early gene products which function in dNTP biosynthesis are, in fact, physically linked as a multienzyme complex, and that regA contributes to the integrity of this complex. However, the dNTP-synthesizing complex as we isolate it contains no detectable DNA polymerase, nor have other known replication proteins been detected.
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PMID:T4 phage deoxyribonucleoside triphosphate synthetase: purification of an enzyme complex and identification of gene products required for integrity. 307 39

The mode of action of aphidicolin on DNA synthesis catalysed by the DNA polymerase of Methanococcus vannielii is competitive for dCTP, noncompetitive for dATP, dGTP and dTTP and uncompetitive for activated DNA. The kinetic data are accounted for by a mechanism in which dCTP and aphidicolin compete for the dCTP-specific binding site on the DNA polymerase. The dissociation constant for the aphidicolin--DNA-polymerase complex is 0.04-0.07 microM. Similar modes of inhibition of DNA synthesis exist for DNA polymerase alpha of higher eucaryotes but not for eubacteria or viruses and suggests a close functional relationship between the DNA polymerase of eucaryotes and of the archaebacterium M. vannielii.
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PMID:Mode of inhibition of the DNA polymerase of Methanococcus vannielii by aphidicolin. 310 39

Prior reports demonstrated more than additive cytotoxic effects of cis-diamminedichloroplatinum(II) (CDDP) and 1-beta-D-arabinofuranosylcytosine (ara-C) in LoVo colon carcinoma cells. We have extended these findings by analyzing mechanisms that may underlie the effect of ara-C on CDDP-induced cytotoxicity. In contrast to a previous study, ara-C neither enhances DNA interstrand cross-link formation by CDDP nor affects the excision of platinum from DNA. Features peculiar to ara-C, such as its misincorporation into DNA, probably contribute since more than additive cytotoxic effects do not occur by combinations of CDDP with inhibitors of DNA synthesis that are not incorporated into DNA. Also, while ara-C does not significantly enhance the degree of inhibition of DNA synthesis caused by CDDP, the recovery of DNA synthesis after drug removal is significantly slowed when cells are exposed to both drugs. These findings contrast with those obtained with CDDP and aphidicolin (the latter agent resembles ara-C in competing with dCTP for binding to DNA polymerase alpha but, unlike ara-C, is not incorporated into DNA). Lastly, ara-C is incorporated into LoVo cell DNA undergoing replicative synthesis as well as into DNA undergoing repair synthesis after CDDP-induced induced DNA damage.
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PMID:Interactions of cis-diamminedichloroplatinum(II) with 1-beta-D-arabinofuranosylcytosine in LoVo colon carcinoma cells. 310 9

From among a series of stable, aphidicolin-resistant mutant strains of mouse teratocarcinoma, derived from a multipotent parental line (PSA-1-80), three were selected for further study on the basis of their comparatively high degrees of resistance and elevated frequencies of spontaneous forward mutation to 6-thioguanine and ouabain resistance. Fluctuation tests confirmed that they were mutator strains. Since each of the three mutants was isolated after multiple rounds of selection, and since a variety of biochemical abnormalities were observed, it is likely that a number of mechanisms, probably consisting of overlapping subsets, determine the phenotypes. Abnormalities in the metabolism of the nucleotide substrates for polymerization are likely to be of major importance in mutants designated Aph-2 and Aph-3, as there were marked alterations in the dCTP and dATP pool sizes. The specific activity of DNA polymerase alpha was also increased. For the case of Aph-3, which exhibited the greatest (400-fold) increase in resistance to aphidicolin, a mutation in the structural gene for DNA polymerase alpha may be an additional important component, since in vitro assays revealed that the isolated enzyme was resistant to aphidicolin. For the case of Aph-1 however, only minor alterations in dNTP pools were observed, and there was no increase in the specific activity of DNA polymerase alpha or in the aphidicolin resistance of the isolated DNA polymerase alpha, suggesting yet another mechanism(s) underlying the aphidicolin resistance/mutator phenotype. All three mutants formed subcutaneous tumors in syngeneic mice; both Aph-1 and Aph-2 were multipotent; whereas Aph-3 was nullipotent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Aphidicolin-resistant mutator strains of mouse teratocarcinoma. 311 23

17-Acetylaphidicolin was 10-fold weaker and two derivatives lacking hydroxyl groups at the 16 and 17 positions were 100-fold weaker than aphidicolin as inhibitors of DNA polymerase alpha from HeLa and Chinese hamster ovary cells. 17,18-Diacetyl, 3,17,18-triacetyl and 3-epi derivatives of aphidicolin were inactive. Active compounds were, like aphidicolin, competitive with dCTP and did not inhibit aphidicolin-resistant DNA polymerases.
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PMID:Inhibition of DNA polymerase alpha by aphidicolin derivatives. 313 39

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