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 have devised a method to evaluate the capacity of mammalian cell extracts to incise damaged DNA in vitro. The assay uses damaged-plasmid DNA as a substrate for nucleotide excision repair by cell extracts. During this process, enzymatic incision of the damaged DNA is followed by DNA resynthesis. Under our assay conditions, the DNA synthesis stage of excision repair is prevented by limiting dNTP concentration and including the specific DNA polymerase inhibitor aphidicolin. Incisions are quantitatively detected by [alpha-32P]dAMP incorporation catalysed by the Klenow fragment of E. coli DNA pol I at nicked sites in plasmids purified from incision reactions. Lesion-specific incision is an ATP-dependent process; it was observed in plasmids modified with three different DNA damaging agents and damage-dependent incisions were abolished with extracts from xeroderma pigmentosum excision-repair deficient cell lines, indicating that this in vitro incision assay is dealing with true nucleotide excision repair.
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PMID:Measurement of damage-specific DNA incision by nucleotide excision repair in vitro. 804 50

An octadecadeoxynucleotide, modified site-specifically with N-(deoxyguanosin-N2-yl)-2-(acetylamino)fluorene (dG-N2-AAF), was prepared by enzymatic synthesis from a comparably modified decamer and then used as a DNA template in primer extension reactions catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I containing (exo+) or lacking (exo-) 3'-->5' exonuclease activity. Using exo- Klenow fragment and all four deoxynucleotide triphosphate (dNTPs), primer extension is blocked one base before and opposite dG-N2-AAF. A small fraction of the reaction product represents translesional synthesis, in which dAMP is incorporated opposite the lesion. Kinetic studies of base insertion and chain extension indicate that the frequency of dAMP insertion opposite dG-N2-AAF is higher than that of other deoxynucleotide monophosphates (dNMPs) and of N-(deoxyguanosin-8-yl)-2-(acetylamino)-fluorene (dG-C8-AAF); however, the rate of extension of dA.dG-N2-AAF from the 3' terminus was much lower than that of dA.dG-C8-AAF. We conclude that dG-N2-AAF is a miscoding lesion and capable of generating G-->T transversion mutations in cells.
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PMID:Nucleotide misincorporation on DNA templates containing N-(deoxyguanosin-N2-yl)-2-(acetylamino)fluorene. 811 21

The effects of nearest neighbor interactions between a nucleotide base at the primer 3'-terminus and an incoming deoxyribonucleoside triphosphate on DNA polymerase catalyzed insertion were examined. Kinetics of inserting the fluorescent nucleotide analog 2-aminopurine deoxyribonucleotide (dAPMP) and dAMP opposite a template T by 3'-->5' exonuclease-deficient mutants of Klenow fragment (KF-) were measured on primer/templates of identical sequence except for the base pair at the 3'-primer terminus. In addition to its fluorescence properties, 2-aminopurine (AP) is an attractive probe because it is misinserted opposite T by polymerases at much higher frequencies than natural nucleotides. Misinsertion frequencies for AP are on the same order of magnitude as variations in misinsertion frequencies due to changes in local DNA sequence, which makes the statistical significance of these variations easier to document. We have established that changes in the fluorescence of AP can be used to follow the insertion of dAPMP on both steady-state and pre-steady-state time scales. Rates of insertion of dAPMP measured by fluorescence and by a polyacrylamide gel assay were similar and are sensitive to the identity of the base at the 3'-primer twice as fast as insertion following a primer terminus T. The difference in rates arises primarily from differences in kcat values, which were fastest next to G and slowest next to T, while apparent Km values were similar next to each of the 4 different nearest neighbors. The gel assay was used to measure AP misinsertion efficiencies by two methods: (1) by having dAPTP and dATP directly compete for insertion opposite T in the same reaction and (2) by measuring Vmax/Km values for each substrate in separate reactions. The results from the direct competition and separate kinetics measurements are similar. The misinsertion efficiency of dAPMP relative to dAMP opposite a template T was significantly higher next to a 3'-primer terminus G (f(ins) = 0.31 +/- 0.06) than next to T (f(ins) = 0.15 +/- 0.03) for the KF- single mutant (D42A). The corresponding misinsertion efficiencies next to a 3'-primer terminus G and T were 0.20 +/- 0.02 and 0.16, respectively, for the KF- double mutant (D355A, E357A). Relative rates of insertion of dAPMP and dAMP correlate with melting temperatures calculated for nearest neighbor doublets which reflect the relative base-stacking energies. In addition to changes in insertion kinetics, polymerase-DNA dissociation rates varied with the identity of the 3'-primer terminus, differing by as much as 7-20-fold depending on the polymerase and the primer/template.
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PMID:Influence of 5'-nearest neighbors on the insertion kinetics of the fluorescent nucleotide analog 2-aminopurine by Klenow fragment. 821 90

An experimental system has been developed by which base substitutions and frameshift deletions can be quantitated in vitro, using two-phase 20% polyacrylamide gel electrophoresis. Oligodeoxynucleotides, modified site-specifically, were used as templates in primer extension reactions catalyzed by DNA polymerase alpha, polymerase beta, and the Klenow fragment of Escherichia coli DNA polymerase I, with and without 3'-->5' exonuclease activity. Lesions studied included 7,8-dihydro-8-oxodeoxyguanosine, 7,8-dihydro-8-oxodeoxyadenosine, O6-methyldeoxyguanosine, N-(deoxyguanosin-8-yl)-2-(acetylamino)fluorene, and N-(deoxyguanosin-8-yl)-2- aminofluorene. Products of translesional synthesis contained dC, dA, dG, or dT opposite the lesion or one- and two-base deletions and were separated using a two-phase polyacrylamide gel system. When a template containing 8-oxoguanine was used, dAMP and/or dCAMP was incorporated opposite the lesion, the relative amounts depending on the DNA polymerase used. In contrast, the nonmutagenic base, dTMP, was incorporated exclusively opposite 8-oxodA in reactions catalyzed by Klenow fragment and pol alpha. The improved resolution provided by the two-phase gel system revealed misincorporation of dGMP opposite 8-oxodA in reactions catalyzed by pol beta. dTMP and small amounts of dCMP were incorporated opposite the lesion on an O6MedG-modified template. The bulky adduct, dG-C8-AAF, principally produced deletions; in contrast, dG-C8-AF promoted incorporation of dCMP, a nonmutagenic base. This experimental system should prove useful for establishing the miscoding potential of defined lesions in DNA templates and in correlating this information with the mutagenic properties of DNA adducts observed in cells.
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PMID:Quantitation of base substitutions and deletions induced by chemical mutagens during DNA synthesis in vitro. 829 39

Oligodeoxynucleotides modified site-specifically with dG-(+)-trans- and dG-(+)-cis-anti-BPDE (7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene) or dG-(-)-trans- and dG-(-)-cis-anti-BPDE were used as templates in primer extension reactions catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I. The primer could be extended past the dG-(-)-trans-BPDE adduct with small amounts of dAMP incorporated opposite the lesion. A small amount of base deletions was also observed while, with the dG-(-)-cis-BPDE adduct, one- and two-base deletions predominated. When templates containing dG-(+)-trans-BPDE were used, small amounts of products containing one-base deletions were observed; with dG-(+)-cis-BPDE, substitution of dAMP opposite the lesion was also detected. The frequency of nucleotide insertion for dAMP opposite dG-(-)-trans-BPDE and the frequency of extension from the primer terminus containing the dA:dG-(-)-trans-BPDE pair were much higher than those observed with the other, stereochemically different BPDE adducts. Kinetic studies were in agreement with the results of the primer extension study. When the base flanking the 5' side of dG-BPDE was changed from dC to dT, the frequency of one-base deletions increased. We conclude that the trans- or cis-addition product of dG-(-)-anti-BPDE has a higher miscoding potential than dG-(+)-anti-BPDE in our model system and that G-->T transversions and deletions predominate. These observations are consistent with the types of mutations observed in vivo.
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PMID:Translesional synthesis on a DNA template containing a single stereoisomer of dG-(+)- or dG-(-)-anti-BPDE (7,8-dihydroxy-anti-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene). 833 50

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

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

Incorporation of the anticancer drug fludarabine (9-beta-D-arabinofuranosyl-2-fluoroadenine 5'-monophosphate; F-ara-AMP) into the 3'-end of DNA during replication causes termination of DNA strand elongation and is strongly correlated with loss of clonogenicity. Because the proofreading mechanisms that remove 3'-F-ara-AMP from DNA represent a possible means of resistance to the drug, the present study investigated the excision of incorporated F-ara-AMP from DNA by the 3' --> 5'-exonuclease activity of DNA polymerase epsilon from human leukemia CEM cells. Using the drug-containing and normal deoxynucleotide oligomers (21-base) annealed to M13mp18(+) DNA as the excision substrates, we demonstrated that DNA polymerase epsilon was unable to effectively remove F-ara-AMP from the 3'-end of the oligomer. However, 3'-terminal dAMP and subsequently other deoxynucleotides were readily excised from DNA in a distributive fashion. Kinetic evaluation demonstrated that although DNA polymerase epsilon has a higher affinity for F-ara-AMP-terminated DNA (Km = 7.1 pM) than for dAMP-terminated DNA of otherwise identical sequence (Km = 265 pM), excision of F-ara-AMP proceeded at a substantially slower rate (Vmax = 0.053 pmol/min/mg) than for 3'-terminal dAMP (Vmax = 1.96 pmol/min/mg). When the 3'-5' phosphodiester bond between F-ara-AMP at the 3'-terminus and the adjacent normal deoxynucleotide was cleaved by DNA polymerase epsilon, the reaction products appeared to remain associated with the enzyme but without the formation of a covalent bond. No further excision of the remaining oligomers was observed after the addition of fresh DNA polymerase epsilon to the reaction. Furthermore, the addition of DNA polymerase alpha and deoxynucleoside triphosphates to the excision reaction failed to extend the oligomers. After DNA polymerase epsilon had been incubated with 3'-F-ara-AMP-21-mer for 10 min, the enzyme was no longer able to excise 3'-terminal dAMP from a freshly added normal 21-mer annealed to M13mp18(+) template. We conclude that the 3' --> 5' exonuclease of human DNA polymerase epsilon can remove 3'-terminal F-ara-AMP from DNA with difficulty and that this excision results in a mechanism-mediated formation of "dead end complex."
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PMID:Inhibition of the 3' --> 5' exonuclease of human DNA polymerase epsilon by fludarabine-terminated DNA. 870 31

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

Oxidative stress occurs in cells when the equilibrium between prooxidant and antioxidant species is broken in favor of the prooxidant state. It is due to reactive oxygen species (ROS) generated either by the cellular metabolism such as phagocytosis, mitochondrial respiration, xenobiotic detoxification, or by exogenous factors such as ionizing radiation or chemical compounds performing red-ox reactions. Some ROS are extremely reactive and interact with all the macromolecules including lipids, nucleic acids and proteins. Cells have numerous defence systems to counteract the deleterious effects of ROS. Proteins and small molecules specifically eliminate ROS when they are formed. There are three species of superoxyde dismutases which transform the superoxyde anion O2- in hydrogen peroxyde H2O2 which in turn will be destroyed by peroxysomal catalase or by various peroxydases. There are numerous small molecules in the cell such as glutathion, alpha-tocopherol, vitamines A and C, melanine, etc. which are antioxydant molecules. ROS escaping destruction generate various lesions in DNA such as base modifications, degradation products of deoxyribose, chain breaks. These various lesions have been characterized and it is possible to quantitate them in the DNA of cells which have been irradiated or treated by free radical generating systems. The biological properties of the bases modified by ROS have been established. For example C8-hydroxyguanine (8-oxoG) is promutagenic since, if present in DNA during replication, it leads to incorporation of dAMP residues, leading to transversion mutation (GC-->TA). Purines whose imidazole ring is opened (Fapy residues) are stops for the DNA polymerase during DNA replication and are therefore potentially lethal lesions for the cell. Oxidized pyrimidines have comparable coding properties. Efficient DNA repair mechanisms remove these oxidized bases. In Escherichia coli cells, endonuclease III (NTH protein) and endonuclease VIII (NEI protein) excise many oxidized pyrimidines, whereas the FPG protein (formamidopyrimidine-DNA-glycosylase) eliminates 8-oxoG and Fapy lesions. Besides its DNA glycosylase activity, the protein FPG has a beta-lyase activity incising DNA at abasic site by a beta-delta elimination mechanism, and a dRPase activity. The FPG protein has a zinc finger motive which is mandatory for the recognition of its substrate. Mammalian cells have similar DNA repair proteins and it should be emphazized that there is conservation of the different functions and in most cases a remarquable homology of the amino acids sequences from E. coli to man.
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PMID:Role of DNA repair enzymes in the cellular resistance to oxidative stress. 873 95


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