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)

Adenine residues in DNA are oxidized under the action of ionizing radiation at the C-8 position to give 7,8-dihydro-8-oxoadenine. The formation of this lesion can be considered a cause of mutations and carcinogenesis. Oligodeoxyribonucleotides 39 and 47 bases long containing a single 7,8-dihydro-8-oxoadenine (8-hydroxyadenine) residue were synthesized by using nucleoside phosphoramidites. They were used as templates to study the copies obtained in vitro by the Klenow fragment and the thermostable Taq DNA polymerase. 7,8-Dihydro-8-oxoadenine does not block the replication and thymine is incorporated opposite the damage. The modifications of the DNA duplex conformation provoked by 7,8-dihydro-8-oxoadenine are minor. 1H-NMR spectroscopy shows that the duplex is in a B form, the sugar in a normal position in the helix and the modified base in the anti position. NMR confirms that 7,8-dihydro-8-oxoadenine exists predominantly in the keto form.
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PMID:Structure and in vitro replication of DNA templates containing 7,8-dihydro-8-oxoadenine. 185 59

The current progress in antiviral therapy is related to our better understanding of the viral multiplication, with potential targets for specific antiviral action at each step of the multiplication cycle inside the infected cell. Amantadine and Rimantadine are anti-influenza A drugs interfering with the penetration and the release of the virus. Most of the other antiviral drugs which are clinically available have the same target in common, namely the viral DNA polymerase. This holds true for modified nucleosides such as Acycloguanosine (Acyclovir), DHPG, Adenine-Arabinoside, Azidothymidine as well as pyrophosphate derivatives such as phosphonoformic acid. Unfortunately the antiviral chemotherapy must confront 3 obstacles: 1) a possible interference with the normal cellular metabolism, leading to residual cytotoxic side effects; 2) the genetic variability of the viruses, producing drug-resistant mutants and 3) the inability of any antiviral chemotherapeutic agent known to date to eradicate latent viral infection. A new approach of the control of latent infection is suggested with anti sense oligonucleotides of hybridons.
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PMID:Perspectives in antiviral chemotherapy. 221 May 92

Adenine residues of 70S avian myeloblastosis virus (AMV) RNA are modified when reacted with chloroacetaldehyde. This modification introduces characteristic fluorescent epsilon-adenosine (epsilonA) probes which were used to monitor the reaction. Under suitable conditions, modified 70S(epsilonA) RNA was maintained intact and was inactive as a template for the AMV DNA polymerase. Furthermore, it inhibited the reaction catalyzed by AMV polymerase when 70S RNA was used as template-primer and had no effect on the two tested bacterial polymerases. Protection against the 70S (epsilonA) RNA inhibition was observed when 70S RNA was primed with oligo(dT) indicating preference of the polymerase for the oligo(dT) primed regions.
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PMID:Effect of chemically modified 70S RNA from avian myeloblastosis virus (AMV) upon the activity of AMV DNA polymerase. 437 90

Nucleotide incorporation opposite an oxidative form of adenine, 2-hydroxyadenine (2-OH-Ade) was investigated. When a primed template with 2-OH-Ade was treated with an exonuclease-deficient Klenow fragment of Escherichia coli DNA polymerase I (KFexo-), recombinant rat DNA polymerase beta (pol beta) or calf thymus DNA polymerase alpha (pol alpha), incorporation of dTMP and dAMP was observed. In addition, KFexo- inserted dGMP as well. A steady-state kinetic study indicated that the insertion of dAMP and dTMP opposite the DNA lesion occurred with similar frequency with KFexo- and pol beta. Insertion of dTMP opposite 2-OH-Ade was favored to that of dAMP by pol alpha. Chain extension from the A.2-OH-Ade pair is less favored than that from the T.2-OH-Ade pair by all three DNA polymerase. Analysis of full-length products of in vitro DNA synthesis showed that dTMP and dAMP were incorporated by DNA polymerases and that exonuclease-proficient and -deficient Klenow fragments also inserted dGMP opposite 2-OH-Ade. These results suggest that formation of 2-OH-Ade from A in DNA will induce A-->T and A-->C transversions in cells.
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PMID:Misincorporation of dAMP opposite 2-hydroxyadenine, an oxidative form of adenine. 770 90

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

In our experiments we found that hydroxylation occurs at the C-2 position of adenine by oxygen radical treatment (Fe(2+)-EDTA) of dA, dATP, and single- and double-stranded DNA. This oxidatively damaged base, 2-hydroxyadenine (also known as isoguanine), was produced more efficiently in monomers than in polynucleotides. 2-Hydroxydeoxyadenosine triphosphate was incorporated opposite T and C in a DNA template by DNA polymerase alpha and only opposite T by the Klenow fragment. The Klenow fragment, DNA polymerases alpha and beta incorporated dTMP and other nucleotides opposite 2-OH-Ade in DNA templates in vitro in a sequence-dependent manner. These results suggest that the formation of 2-OH-Ade in DNA will induce mutations in cells.
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PMID:2-Hydroxyadenine (isoguanine) as oxidative DNA damage: its formation and mutation inducibility. 884 37

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

Oxanine (Oxa) is a deaminated base lesion derived from guanine in which the N(1)-nitrogen is substituted by oxygen. This work reports the mutagenicity of oxanine as well as oxanine DNA glycosylase (ODG) activities in mammalian systems. Using human DNA polymerase beta, deoxyoxanosine triphosphate is only incorporated opposite cytosine (Cyt). When an oxanine base is in a DNA template, Cyt is efficiently incorporated opposite the template oxanine; however, adenine and thymine are also incorporated opposite Oxa with an efficiency approximately 80% of a Cyt/Oxa (C/O) base pair. Guanine is incorporated opposite Oxa with the least efficiency, 16% compared with cytosine. ODG activity was detected in several mammalian cell extracts. Among the known human DNA glycosylases tested, human alkyladenine glycosylase (AAG) shows ODG activity, whereas hOGG1, hNEIL1, or hNEIL2 did not. ODG activity was detected in spleen cell extracts of wild type age-matched mice, but little activity was observed in that of Aag knock-out mice, confirming that the ODG activity is intrinsic to AAG. Human AAG can excise Oxa from all four Oxa-containing double-stranded base pairs, Cyt/Oxa, Thy/Oxa, Ade/Oxa, and Gua/Oxa, with no preference to base pairing. Surprisingly, AAG can remove Oxa from single-stranded Oxa-containing DNA as well. Indeed, AAG can also remove 1,N(6)-ethenoadenine from single-stranded DNA. This study extends the deaminated base glycosylase activities of AAG to oxanine; thus, AAG is a mammalian enzyme that can act on all three purine deamination bases, hypoxanthine, xanthine, and oxanine.
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PMID:Oxanine DNA glycosylase activity from Mammalian alkyladenine glycosylase. 1524 9

The effects of N2-isopropylGua and N6-isopropylAde adducts in template DNA on polymerization by the human replicative DNA polymerase alpha (B-family) and the translesion synthesis DNA polymerases eta and iota (Y-family) were investigated. A direct comparison between the accuracies of DNA synthesis using catalytic fragments of the human DNA polymerases eta and iota is reported. We show that the N2-isopropylGua adduct is a powerful block to polymerization by DNA polymerase alpha. In contrast, the DNA polymerases eta and iota synthesize DNA past the N2-isopropylGua lesion with efficiencies and accuracies opposite the lesion comparable to the unadducted Gua. All three DNA polymerases bypass the N6-isopropylAde adduct with only modest effects on efficiencies and accuracy. These results illustrate the dramatically different consequences to polymerization conferred by the position of the isopropyl adduct when catalyzed by DNA polymerase alpha and the lack of this effect on polymerization by the translesion synthesis DNA polymerases eta and iota. A steady-state kinetic analysis of nucleotide insertion opposite the N2-isopropylGua and the N6-isopropylAde by the DNA polymerases eta and iota was performed to measure the accuracy of DNA synthesis at these lesions. This analysis showed that the DNA polymerases eta and iota preferably insert the correct nucleotide Cyt opposite the N2-isopropylGua lesion and the correct nucleotide Thy opposite the N6-isopropylAde with levels of accuracy similar to those detected opposite the unadducted nucleotides, thus, demonstrating minimal blocking and mutagenic potential by these lesions to the translesion synthesis polymerases. Similarly, a kinetic analysis of polymerization opposite the N6-isopropylAde by the DNA polymerase alpha showed comparable levels of insertion accuracy relative to the unadducted Ade. These results suggest that positioning of the isopropyl adduct on the purine ring to locate this group into the minor groove of the DNA is an important determinant to effect blocked replication by a replicative (B-family) polymerase, but not to affect replication by a translesion synthesis (Y-family) polymerase.
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PMID:Polymerization past the N2-isopropylguanine and the N6-isopropyladenine DNA lesions with the translesion synthesis DNA polymerases eta and iota and the replicative DNA polymerase alpha. 1616 38

Oligonucleotides containing a site-specific N(6)-(2-deoxy-d-erythro-pentofuranosyl)-2,6-diamino-3,4-dihydro-4-oxo-5-N-methylformamidopyrimidine (MeFapy-dGuo) lesion were synthesized, and their in vitro replication by Escherichia coli DNA polymerase I Klenow fragment (exo(-)) and Sulfolobus solfataricus P2 DNA polymerase IV (Dpo4) resulted in the misincorporation of Ade, Gua, and Thy opposite the MeFapy-dGuo lesion in addition to the correct insertion of Cyt. However, sequencing of the full-length extension products revealed that the initial insertion of Cyt opposite the lesion was extended most efficiently. Two sequences were examined, and the misincorporation was sequence-dependent. Improvements in the method for the mass spectrometric sequencing of the extension products were developed; a 5'-biotinylated primer strand was used that contained a dUrd near the template-primer junction. The extended primer was immobilized with streptavidin-coated beads, allowing it to be washed free of polymerase, the template strand, and other reagents. The extended primer was cleaved from the solid support with uridine DNA deglycosylase and piperidine treatment, and the extension products were sequenced by LC-ESI-MS-MS. The purification steps afforded by the biotinylated primer resulted in improved sensitivity for the MS analysis. Translesion synthesis of a template with a local 5'-T-(MeFapy-dGuo)-G-3' sequence resulted in only error-free bypass and extension, whereas a template with a local 5'-T-(MeFapy-dGuo)-T-3' sequence also resulted in an interesting deletion product and the misincorporation of Ade opposite the MeFapy-dGuo lesion.
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PMID:Replication past the N5-methyl-formamidopyrimidine lesion of deoxyguanosine by DNA polymerases and an improved procedure for sequence analysis of in vitro bypass products by mass spectrometry. 1939 82


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