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)

Gemcitabine [2',2'-difluorodeoxycytidine (dFdCyd)], a potent antitumor agent, inhibits DNA synthesis and is incorporated internally into DNA. The effect of a template-incorporated dFdCyd molecule (dFdCyd-) on DNA polymerase function was examined. Two 25-base deoxyoligonucleotides were synthesized with either a single dFdCyd- or template-incorporated deoxycytidine molecule (dCyd-) at the same position. Each was annealed separately to an identical complementary 5'-32P-labeled primer and extended by the Klenow fragment (3'-->5' exo-) of DNA polymerase I. "Correct" insertion of dGMP was 80-fold less efficient opposite dFdCyd- than dCyd-. A comparison of misinsertion efficiencies opposite template dFdCyd gave values of 2.7 x 10(-2) for dAMP insertion, 1.1 x 10(-3) for dTMP insertion, and 5.9 x 10(-4) for dCMP insertion. A similar measurement opposite template dC gave values of 1.8 x 10(-4), 1.7 x 10(-4), and 2.9 x 10(-6) for dAMP, dTMP, and dCMP insertion, respectively. Thus, the presence of dFdCyd on the template strand inhibited "normal" DNA synthesis and increased deoxyribonucleotide misinsertion frequencies. Pausing during DNA synthesis occurred directly opposite template dFdCyd suggesting that dFdC.dG base pairs might be less stable than normal dC.dG pairs, resulting in a decreased rate of primer extension beyond this site. Consistent with kinetic data, thermal denaturation measurements using comparable surrounding sequences showed that dFdC.dG "correct" pairs were less stable than dC.dG base pairs. Measurements on base mispairs showed that dFdC.dC was more stable than dC.dC, while no measurable Tm differences were found between polymers containing dFdC.dA and dC.dA or dFdC.dT, and dC.dT.
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PMID:Effect of a template-located 2',2'-difluorodeoxycytidine on the kinetics and fidelity of base insertion by Klenow (3'-->5'exonuclease-) fragment. 840 31

This study was designed to establish the miscoding potential of 8-oxo-7,8-dihydrodeoxyadenosine (8-oxo-dA). Oligodeoxynucleotides modified site-specifically with 8-oxo-dA were used as templates in primer extension reactions catalyzed by DNA polymerase I (Klenow fragment), DNA polymerase alpha (pol alpha), or DNA polymerase beta (pol beta). dTMP or dGMP is incorporated opposite 8-oxo-dA when either of these dNTPs is provided as substrate for DNA polymerase. dTMP is incorporated exclusively opposite 8-oxo-dA when all four dNTPs are present in the reaction mixture at equimolar concentrations. Chain extension is catalyzed efficiently by Klenow fragment and pol beta under conditions where 8-oxo-dA is paired with dT at the 3' terminus of the primed DNA template. Chain extension catalyzed by pol alpha proceeds more slowly. As shown by steady-state kinetic experiments, incorporation of dGMP is higher in reactions catalyzed by pol beta than by Klenow fragment or pol alpha. The dG-8-oxo-dA pair is extended efficiently from the 3' terminus in the absence of dTTP. We conclude that DNA containing 8-oxo-dA is capable of miscoding; however, unlike 8-oxo-dG, the mutagenic potential of this lesion is limited.
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PMID:Translesional synthesis on DNA templates containing 8-oxo-7,8-dihydrodeoxyadenosine. 848 38

Template primers containing propanodeoxyguanosine (PdG) in two different sequence contexts (C-PdG-C and T-PdG-T) were replicated by the Klenow fragment of DNA polymerase I. The presence of PdG in the template strand reduced the extent of in vitro DNA synthesis 10(3) - 10(4)-fold compared with unmodified template primers. Partial blockade was observed 1 base 3' to the adduct and opposite the adduct. Purines were preferentially incorporated opposite the adduct; the Vmax/Kmvalues for incorporation of dGMP were similar in both sequence contexts, whereas the Vmax/Km for dAMP incorporation increased 4.7-fold when the base pair 3' to PdG was changed from C:G to T:A. Oligonucleotides containing 1- and 2-base deletions were major products of replication in both sequence contexts. Full-length products were observed with templates containing T-PdG-T but not C-PdG-C. The major full-length product resulted from incorporation of dAMP residues opposite PdG. Kinetic analysis revealed that the major factor contributing to the selective incorporation of dAMP in full-length products was preferential extension of template primers containing PdG:dA termini rather than preferential incorporation of dAMP opposite PdG. The observation of PdG --> T mutations in the T-PdG-T context but not the C-PdG-C context during in vitro DNA replication parallels findings of in vivo experiments that base pair substitutions are induced by PdG in the former sequence context but not the latter.
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PMID:Sequence-dependent induction of base pair substitutions and frameshifts by propanodeoxyguanosine during in vitro DNA replication. 862 68

In the crystal structure of a substrate complex, the side chains of residues Asn279, Tyr271, and Arg283 of DNA polymerase beta are within hydrogen bonding distance to the bases of the incoming deoxynucleoside 5'-triphosphate (dNTP), the terminal primer nucleotide, and the templating nucleotide, respectively (Pelletier, H., Sawaya, M. R., Kumar, A., Wilson, S. H., and Kraut, J. (1994) Science 264, 1891-1903). We have altered these side chains through individual site-directed mutagenesis. Each mutant protein was expressed in Escherichia coli and was soluble. The mutant enzymes were purified and characterized to probe their role in nucleotide discrimination and catalysis. A reversion assay was developed on a short (5 nucleotide) gapped DNA substrate containing an opal codon to assess the effect of the amino acid substitutions on fidelity. Substitution of the tyrosine at position 271 with phenylalanine or histidine did not influence catalytic efficiency (kcat/Km) or fidelity. The hydrogen bonding potential between the side chain of Asn279 and the incoming nucleotide was removed by replacing this residue with alanine or leucine. Although catalytic efficiency was reduced as much as 17-fold for these mutants, fidelity was not. In contrast, both catalytic efficiency and fidelity decreased dramatically for all mutants of Arg283 (Ala > Leu > Lys). The fidelity and catalytic efficiency of the alanine mutant of Arg283 decreased 160- and 5000-fold, respectively, relative to wild-type enzyme. Sequence analyses of the mutant DNA resulting from short gap-filling synthesis indicated that the types of base substitution errors produced by the wild-type and R283A mutant were similar and indicated misincorporations resulting in frequent T.dGTP and A.dGTP mispairing. With R283A, a dGMP was incorporated opposite a template thymidine as often as the correct nucleotide. The x-ray crystallographic structure of the alanine mutant of Arg283 verified the loss of the mutated side chain. Our results indicate that specific interactions between DNA polymerase beta and the template base, but not hydrogen bonding to the incoming dNTP or terminal primer nucleotide, are required for both high catalytic efficiency and nucleotide discrimination.
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PMID:Enzyme-DNA interactions required for efficient nucleotide incorporation and discrimination in human DNA polymerase beta. 864 5

Twelve oligonucleotides containing 2-hydroxyadenine (2-OH-Ade) with different neighboring bases were used as templates in DNA polymerase reactions,and the effects of the sequence contexts were investigated. DNA polymerases alpha and beta inserted dTMP and dCMP opposite 2-OH-Ade in most of the oligonucleotides tested. The Klenow fragment of DNA polymerase I primarily incorporated dTMP and dGMP. Effects of the 5'-flanking base of 2-OH-Ade was found when the 3'-flanking base of 2-OH-Ade was A or C. Incorporation of dAMP occurred when the oxidized base was located in a 5' -TA*A- 3' (A* represents 2-OH-Ade) sequence. These results suggest that the formation of 2-OH-Ade in DNA may induce all the mutations involving A (A-->G transition, and A-->T and A-->C transversions) in cells.
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PMID:Effect of sequence contexts on misincorporation of nucleotides opposite 2-hydroxyadenine. 870 96

8-Methyl-2'-deoxyguanosine (8-MedG) was synthesized by reacting dG under the methyl radical generating system and incorporated into oligodeoxynucleotides using phosphoramidite techniques. The site-specifically modified oligodeoxynucleotide containing a single 8-MedG was then used as a template for primer extension reactions catalyzed by the 3' --> 5' exonuclease-free (exo-) Klenow fragment of Escherichia Coli DNA polymerase I and mammalian DNA polymerase alpha. Primer extension catalyzed by the exo- Klenow fragment readily passed the 8-MedG lesion in the template while that catalyzed by pol alpha was retarded opposite the lesion. The fully extended products formed during DNA synthesis were analyzed to quantify the miscoding specificities of 8-MedG. Both DNA polymerases incorporated primarily dCMP, the correct base opposite the lesion, along with small amounts of incorporation of dGMP and dAMP. In addition, two-base deletion was observed only when the exo- Klenow fragment was used. The thermodynamic stability of 8-MedG in the duplex was also studied. The duplex containing 8-MedG:dG was more thermally and thermodynamically stable than that of dG:dG. The duplex containing 8-MedG:dA was more thermodynamically stable than that of dG:dA. We conclude that 8-MedG is a miscoding lesion and capable of generating G --> C and G --> T transversions and deletion in cells.
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PMID:Synthesis, miscoding specificity, and thermodynamic stability of oligodeoxynucleotide containing 8-methyl-2'-deoxyguanosine. 895 Dec 29

The miscoding properties of the model estrogen-derived DNA adducts, N2-[3-methoxyestra-1,3,5(10)-trien-6-yl]-2'-deoxyguanosine (dG-N2-3MeE) and N6-[3-methoxyestra-1,3,5(10)-trien-6-yl]-2'- deoxyadenosine (dA-N6-3MeE), have been explored, using an in vitro experimental system to quantify base substitutions and deletions. Site-specifically modified oligodeoxynucleotides containing a single dG-N2-3MeE or dA-N6-3MeE were prepared postsynthetically and used as templates in primer extension reactions catalyzed by Escherichia coli and mammalian DNA polymerases. When the 3'-->5' exonuclease free (exo-) Klenow fragment of DNA polymerase I was used, dG-N2-3MeE promoted mostly one- and two-base deletions, along with small amounts of incorporation of dAMP, dGMP, and dCMP opposite the lesion. dA-N6-3MeE promoted the incorporation of dTMP opposite the lesion as well as two-base deletions, accompanied by the incorporation of dAMP. Using pol alpha, primer extension reactions were blocked at dG-N2-3MeE; however, dA-N6-3MeE promoted preferential incorporation of dTMP opposite the lesion with small amounts of incorporation of dCMP and deletions. Primer extension reactions catalyzed by pol delta were blocked at these lesions. When pol beta was used, dG-N2-3MeE produced small amounts of incorporation of dAMP and deletions. dA-N6-3MeE promoted preferential incorporation of dTMP, along with incorporation of dCMP and two-base deletions. The miscoding specificities and frequencies varied depending on the DNA polymerase used. These results indicate that estrogen-DNA adducts have miscoding potential.
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PMID:Miscoding properties of model estrogen-DNA adducts in reactions catalyzed by mammalian and Escherichia coli DNA polymerases. 904 59

Cidofovir (CDV) (HPMPC) has potent in vitro and in vivo activity against human cytomegalovirus (HCMV), CDV diphosphate (CDVpp), the putative antiviral metabolite of CDV, is an inhibitor and an alternate substrate of HCMV DNA polymerase. CDV is incorporated with the correct complementation to dGMP in the template, and the incorporated CDV at the primer end is not excised by the 3'-to-5' exonuclease activity of HCMV DNA polymerase. The incorporation of a CDV molecule causes a decrease in the rate of DNA elongation for the addition of the second natural nucleotide from the singly incorporated CDV molecule. The reduction in the rate of DNA (36-mer) synthesis from an 18-mer by one incorporated CDV is 31% that of the control. However, the fidelity of HCMV DNA polymerase is maintained for the addition of the nucleotides following a single incorporated CDV molecule. The rate of DNA synthesis by HCMV DNA polymerase is drastically decreased after the incorporation of two consecutive CDV molecules; the incorporation of a third consecutive CDV molecule is not detectable. Incorporation of two CDV molecules separated by either one or two deoxynucleoside monophosphates (dAMP, dGMP, or dTMP) also drastically decreases the rate of DNA chain elongation by HCMV DNA polymerase. The rate of DNA synthesis decreases by 90% when a template which contains one internally incorporated CDV molecule is used. The inhibition by CDVpp of DNA synthesis by HCMV DNA polymerase and the inability of HCMV DNA polymerase to excise incorporated CDV from DNA may account for the potent and long-lasting anti-CMV activity of CDV.
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PMID:Effect of incorporation of cidofovir into DNA by human cytomegalovirus DNA polymerase on DNA elongation. 905 99

Site-specifically modified oligodeoxynucleotides containing a single natural abasic site or a chemically synthesized (tetrahydrofuran or deoxyribitol) model abasic site were used as templates for primer extension reactions catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I or by calf thymus DNA polymerase alpha. Analysis of the fully extended products of these reactions indicated that both polymerases preferentially incorporate dAMP opposite the natural abasic site and tetrahydrofuran, while DNA templates containing the ring-opened deoxyribitol moiety block translesional synthesis, promoting sequence context-dependent deletions. The frequency of nucleotide insertion opposite the three types of abasic sites follows the order dAMP > dGMP > dCMP > dTMP. The frequency of chain extension was highest when dAMP was positioned opposite a natural abasic site. The frequency of translesional synthesis past abasic sites follows the order tetrahydrofuran > deoxyribose > deoxyribitol. The Klenow fragment promotes blunt end addition of dAMP; this reaction was much less efficient than insertion of dAMP opposite an abasic site. We conclude that the miscoding potential of a natural abasic site in vitro closely resembles that of its tetrahydrofuran analog. Ring-opened abasic sites favor deletions. Studies with polymerase alpha in vitro predict preferential incorporation of dAMP at abasic sites in mammalian cells.
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PMID:Translesional synthesis on DNA templates containing a single abasic site. A mechanistic study of the "A rule". 915 53

The carcinogenicity of estrogens in rodents and man has been attributed to either alkylation of cellular macromolecules and/or redox-cycling, generation of active radicals and DNA damage. Metabolic activation of estradiol leading to the formation of catechol estrogens is believed to be a prerequisite for its genotoxic effects. 4-Hydroxyestradiol is a potent inducer of tumors in hamsters. Previous studies have shown that 3,4-estrone quinone (3,4-EQ) can redox-cycle and is capable of inducing exclusively single strand DNA breaks in MCF-7 breast cancer cells, as well as react with various nucleophiles including amino acids and nucleic acids to give Michael addition products. In this paper we examined the nature of the interaction of 3,4-EQ with COIII gene and analysed the estrogen-DNA adducts by 32P-post-labeling. The reaction of 3,4-EQ with the COIII gene followed by polymerase arrest assay showed several stop sites in which guanine was preferentially attacked by 3,4-EQ and, to a lesser extent, with Ade, Cyt and Thy. 32P-Post-labeling analysis of the reaction of 3,4-EQ with COIII gene gave one major adduct which was found to be identical to that obtained from reaction of dGMP with 3,4-EQ. The observation that obstruction of in vitro replication of COIII template bound to 3,4-EQ suggests that estrogen quinone adducted lesions can arrest DNA polymerase. These results indicate that 3,4-EQ may be genotoxic and may provide one possible explanation for the carcinogenic effects of estrogens.
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PMID:Estrogen-nucleic acid adducts: guanine is major site for interaction between 3,4-estrone quinone and COIII gene. 921 9

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