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)

Nucleotides 2-(4-azidophenacyl)thio-1,N6-etheno-2'-deoxyadenosine 5'-triphosphate 1 and its tetrafluoro analog 2 inhibit HIV-1 reverse transcriptase (RT) competitively relative to template. These template-competitive RT inhibitors (TCRTIs) were analyzed for conformational properties by molecular modeling and NMR analysis. Both inhibitors prefer sugar conformations of C2'-endo/C3'-exo with a high-anti glycosidic bond rotation and +sc/ap phosphate conformation (gamma). The major effect of the etheno group is to favor an extended, fully staggered anti conformation in the N1-C2-S-CH2 psi1 side chain rotation, and NMR analysis detects a long range sugar H4' to side chain phenyl meta-H NOE, a result consistent with this compact structure as an important contributor to the solution structure. The binding model generated places the phenyl side chain in a lipophilic pocket in the template grip region of the RT polymerase domain with the Mg-triphosphate complexed to active site carboxylates. The structures of the TCRTIs are compared with that of the template-competitive DNA polymerase inhibitor 2-(4-azidophenacyl)thio-2'-deoxyadenosine 5'-triphosphate 3, and a theoretical model for selectivity is proposed.
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PMID:Conformational properties of nucleotide-based template-competitive HIV-1 reverse transcriptase inhibitors: analysis of enzyme binding modes. 1281 87

An extensive conformational analysis has been carried out for two diastereoisomeric pairs of model estrogen quinone-derived DNA adducts, N6-(2-hydroxyestron-6(alpha,beta)-yl)-2'-deoxyadenosine (2-OHE1-6(alpha,beta)-N6-dA) and N2-(2-hydroxyestron-6(alpha,beta)-yl)-2'-deoxyguanosine (2-OHE1-6(alpha,beta)-N2-dG), in a B-DNA duplex and at a primer-template junction in a pol alpha family DNA polymerase. In vitro primer extension studies in pol alpha [Terashima, I., et al. (1998) Biochemistry 37, 13807-13815] have shown that the adenine adducts can incorporate dT, together with a small proportion of the incorrect base dC opposite the lesion, and they block less strongly than the guanine adducts. We have carried out conformational searches with energy minimization for four DNA duplexes containing 2-OHE1-6alpha-N6-dA, 2-OHE1-6beta-N6-dA, 2-OHE1-6alpha-N2-dG, or 2-OHE1-6beta-N2-dG. Our searches revealed that the four-ring nonplanar 2-hydroxyestrone (2-OHE1) moiety strongly prefers to reside in the major groove of the adenine adducts or the minor groove of the guanine adducts in a B-DNA duplex, with stereochemistry-dependent orientational differences in each case. No low energy conformations involving intercalation of the 2-OHE1 moiety were located in the searches. This stems from the largely nonplanar, nonaromatic nature of the 2-OHE1 ring system and implies that the proclivity for such bulky, nonplanar adducts to reside at the DNA helix exterior is a plausible conformational feature of other structurally similar estrogen quinone-derived DNA adducts, independent of base sequence context. In addition, the adenine adduct isomers, located in the major groove, manifest serious disturbance to the Watson-Crick base pairs at and near the lesion site, suggesting repair susceptibility. Possible structures of these adducts in a pol alpha family polymerase were also investigated through molecular modeling. The results rationalized the experimental in vitro primer extension studies. In addition, poor accommodation of the beta-stereoisomers within the polymerase was noted, suggesting that these stereoisomers would be more prone to cause blockage. Stereochemistry-dependent differences in adduct orientation could be expected to produce different biochemical effects, as has been observed in adducts derived from polycyclic aromatic hydrocarbons.
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PMID:Structural and stereoisomer effects of model estrogen quinone-derived DNA adducts: N6-(2-hydroxyestron-6(alpha,beta)-yl)-2'-deoxyadenosine and N2-(2-hydroxyestron-6(alpha,beta)-yl)-2'-deoxyguanosine. 1502 1

Newly discovered human DNA polymerase (pol) eta and kappa are highly expressed in the reproductive organs, such as testis, ovary, and uterus, where steroid hormones are produced. Because treatment with estrogen increases the risk of developing breast, ovary, and endometrial cancers, miscoding events occurring at model estrogen-derived DNA adducts were explored using pol eta and a truncated form of human pol kappa (pol kappaDeltaC). These enzymes bypassed N(2)-[3-methoxyestra-1,3,5(10)-trien-6-yl]-2'-deoxyguanosine (dG-N(2)-3MeE) and N(6)-[3-methoxyestra-1,3,5(10)-trien-6-yl]-2'-deoxyadenosine (dA-N(6)-3MeE), which were embedded in site-specifically modified oligodeoxynucleotide templates. Quantitative analysis of base substitutions and deletions occurring at the lesion site showed that pol kappaDeltaC was more efficient at incorporating dCMP opposite the dG-N(2)-3MeE lesion than pol eta. Surprisingly, the frequency of translesion synthesis beyond the dC*dG-N(2)-3MeE pair was 13% of the normal dC*dG pair and was 4 and 6 orders of magnitude higher than that of dC*(+)-trans-dG-N(2)-benzo[a]pyrene and dC*dG-C8-acetylaminofluorene pairs, respectively, suggesting that dG-N(2)-3MeE is a natural substrate for pol kappa. In contrast, the bypass frequency beyond the dT*dA-N(6)-3MeE pair was 7 orders of magnitude less than that for the normal dT*dA pair. dA-N(6)-3MeE is a more miscoding lesion than dG-N(2)-3MeE. Pol eta promoted incorporation of dAMP and dCMP at the dA-N(6)-3MeE lesion, while with pol kappaDeltaC, deletions were more frequently observed, along with incorporation of dAMP and dCMP opposite the lesion. These observations were also supported by steady-state kinetic studies. When taken together, the properties of pol eta and kappa are consistent with the mutagenic events attributed to estrogen-derived DNA adducts.
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PMID:Translesion synthesis past estrogen-derived DNA adducts by human DNA polymerases eta and kappa. 1514 14

Nucleotide triphosphate alpha-(4-azidophenyl)-1,N6-etheno-dATP 3 and its monophosphate 3m were synthesized by condensation of 2-halo-2-(4-azidophenyl)acetaldehyes with dATP and dAMP, respectively. Structure analysis shows that the azidophenyl side chain is attached to the alpha-position of the etheno ring (i.e., the carbon attached to N1 of the purine), and conformation calculations show minima in the etheno-phenyl bond rotation at 50 and 130 degrees where the bulk of the phenyl ring projects out from the plane of the etheno group. Like DNA Pol inhibitor 2-(4-azidophenacyl)thio-2'-deoxyadenosine 5'-triphosphate 1, nucleotide 3 is a template-competitive DNA polymerase inhibitor (TCPI), with a competitive Ki for Pol I KF of 3.41 microM, but has only weak activity as an HIV RT inhibitor relative to the template-competitive reverse transcriptase inhibitor 2-(4-azidophenacyl)thio-1,N6-etheno-2'-deoxyadenosine 5'-triphosphate 2. Additionally, 3 photoinactivates KF in a time-dependent manner, confirming the kinetic data that 3 binds to the free form of KF. The TCPI activity of 3 provides evidence for an extended side chain conformational preference in the combined substrate polymerase inhibitors.
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PMID:Side-chain conformational restriction in template-competitive inhibitors of E. coli DNA polymerase I Klenow fragment: synthesis, structural characterization and inhibition activity. 1559 76

Replication of DNA containing 7,8-dihydro-8-oxo-2'-deoxyguanosine (OxodG) gives rise to G --> T transversions. The syn-isomer of the lesion directs misincorporation of 2'-deoxyadenosine (dA) opposite it. We investigated the role of the 2-amino substituent on duplex thermal stability and in replication using 7,8-dihydro-8-oxo-2'-deoxyinosine (OxodI). Oligonucleotides containing OxodI at defined sites were chemically synthesized via solid phase synthesis. Translesion incorporation opposite OxodI was compared with 7,8-dihydro-8-oxo-2'-deoxyguanosine (OxodG), 2'-deoxyinosine (dI) and 2'-deoxyguanosine (dG) in otherwise identical templates. The Klenow exo- fragment of Escherichia coli DNA polymerase I incorporated 2'-deoxyadenosine (dA) six times more frequently than 2'-deoxycytidine (dC) opposite OxodI. Preferential translesion incorporation of dA was unique to OxodI. UV-melting experiments revealed that DNA containing OxodI opposite dA is more stable than when the modified nucleotide is opposed by dC. These data suggest that while duplex DNA accommodates the 2-amino group in syn-OxodG, this substituent is thermally destabilizing and does not provide a kinetic inducement for replication by Klenow exo-.
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PMID:The effect of the 2-amino group of 7,8-dihydro-8-oxo-2'-deoxyguanosine on translesion synthesis and duplex stability. 1577 33

Fapy.dG and 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxo-dG) are formed in DNA by hydroxyl radical damage. In order to study replication past these lesions in cells, we constructed a single-stranded shuttle vector containing the lesion in 5'-TGT and 5'-TGA sequence contexts. Replication of the modified vector in simian kidney (COS-7) cells showed that Fapy.dG is mutagenic inducing primarily targeted Fapy.G-->T transversions. In the 5'-TGT sequence mutational frequency of Fapy.dG was approximately 30%, whereas in the 5'-TGA sequence it was approximately 8%. In parallel studies 8-oxo-dG was found to be slightly less mutagenic than Fapy.dG, though it also exhibited a similar context effect: 4-fold G-->T transversions (24% versus 6%) occurred in the 5'-TGT sequence relative to 5'-TGA. To investigate a possible structural basis for the higher G-->T mutations induced by both lesions when their 3' neighbor was T, we carried out a molecular modeling investigation in the active site of DNA polymerase beta, which is known to incorporate both dCTP (no mutation) and dATP (G-->T substitution) opposite 8-oxo-G. In pol beta, the syn-8-oxo-G:dATP pair showed greater stacking with the 3'-T:A base pair in the 5'-TGT sequence compared with the 3'-A:T in the 5'-TGA sequence, whereas stacking for the anti-8-oxo-G:dCTP pair was similar in both 5'-TGT and 5'-TGA sequences. Similarly, syn-Fapy.G:dATP pairing showed greater stacking in the 5'-TGT sequence compared with the 5'-TGA sequence, while stacking for anti-Fapy.G:dCTP pairs was similar in the two sequences. Thus, for both lesions less efficient base stacking between the lesion:dATP pair and the 3'-A:T base pair in the 5'-TGA sequence might cause lower G-->T mutational frequencies in the 5'-TGA sequence compared to 5'-TGT. The corresponding lesions derived from 2'-deoxyadenosine, Fapy.dA and 8-oxo-dA, were not detectably mutagenic in the 5'-TAT sequence, and were only weakly mutagenic (<1%) in the 5'-TAA sequence context, where both lesions induced targeted A-->C transversions. To our knowledge this is the first investigation using extrachromosomal probes containing a Fapy.dG or Fapy.dA site-specifically incorporated, which showed unequivocally that in simian kidney cells Fapy.G-->T substitutions occur at a higher frequency than 8-oxo-G-->T and that Fapy.dA is very weakly mutagenic, as is 8-oxo-dA.
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PMID:Genetic effects of oxidative DNA damages: comparative mutagenesis of the imidazole ring-opened formamidopyrimidines (Fapy lesions) and 8-oxo-purines in simian kidney cells. 1667 49

DNA damage blocks DNA polymerase progression and increases miscoding. In this study, we assessed the effects of specific lesions on Taq DNA polymerase fidelity and amplification efficiency. In the presence of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG), Taq DNA polymerase inserted dCMP and to a lesser extent dAMP. 8-Oxo-7,8-dihydro-2'-deoxyadenosine (8-oxodA) instructed the incorporation of dTMP and caused a pronounced n-1 deletion not observed in other systems. The presence of an abasic lesion led to dAMP incorporation and n-1 deletions. In addition, we introduce the mean modified efficiency (MME) as a more precise method for determining PCR amplification efficiency of damaged templates. Using this method, we were able to quantify reductions in amplification efficiency of templates containing 8-oxodG (single or multiple), 8-oxodA, or abasic sites. Because the MME method can detect small reductions in amplification efficiency, it may be useful in comparing the extent of damage in environmentally degraded or archival DNA specimens.
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PMID:DNA damage reduces Taq DNA polymerase fidelity and PCR amplification efficiency. 1730 74

Single-step aqueous cross-coupling reactions of nucleobase-halogenated 2'-deoxynucleosides (8-bromo-2'-deoxyadenosine, 7-iodo-7-deaza-2'-deoxyadenosine, or 5-iodo-2'-deoxy-uridine) or their 5'-triphosphates with 4-boronophenylalanine or 4-ethynylphenylalanine have been developed and used for efficient synthesis of modified 2'-deoxynucleoside triphosphates (dNTPs) bearing amino acid groups. These dNTPs were then tested as substrates for DNA polymerases for construction of functionalized DNA through primer extension and PCR. While 8-substituted adenosine triphosphates were poor substrates for DNA polymerases, the corresponding 7-substituted 7-deazaadenine and 5-substituted uracil nucleotides were efficiently incorporated in place of dATP or dTTP, respectively, by Pwo (Pyrococcus woesei) DNA polymerase. Nucleotides bearing the amino acid connected through the less bulky acetylene linker were incorporated more efficiently than those directly linked through a more bulky phenylene group. In addition, combinations of modified dATPs and dTTPs were incorporated by Pwo polymerase. Novel functionalized DNA duplexes bearing amino acid moieties were prepared by this two-step approach. PCR can be used for amplification of duplexes bearing large number of modifications, while primer extension is suitable for introduction of just one or several modifications in a single DNA strand.
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PMID:An efficient method for the construction of functionalized DNA bearing amino acid groups through cross-coupling reactions of nucleoside triphosphates followed by primer extension or PCR. 1748 8

MicroRNAs (miRNAs) as endogenous regulators of gene expression have spurred a surge of interest for their quantification and expression analysis. High-sensitivity and high-specificity miRNA detection techniques, such as real-time polymerase chain reaction and recently introduced bioluminescent miRNA detection, require systematic study of DNA polymerases for use with miRNAs. In this study, a variety of DNA polymerases were studied to assess their capabilities of using miRNA as a primer and incorporating 2'-deoxyadenosine-5'-O-(1-thiotriphosphate) as a dATP alternative during DNA strand extension. Five DNA polymerases were investigated: mesophilic DNA polymerase I large (Klenow) fragment, 3'-->5' exo(-) Klenow DNA polymerase, thermophilic Bst DNA polymerase large fragment, Therminator DNA polymerase, and Taq DNA polymerase. The experimental results show that, except for Taq DNA polymerase, the polymerases can use miRNA as a primer and have both common and divergent properties of the nucleotide analog incorporation and miRNA discrimination. DNA polymerase I large (Klenow) fragment showed no detectable polymerization product with the thio-modified dATP as a substrate. Thermophilic Bst DNA polymerase had the highest specificity for miRNA recognition on a DNA template. The study provides a novel method for miRNA detection without reverse transcription to complementary DNA that is faster, simpler, and less prone to biases and errors.
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PMID:Efficiency and specificity of microRNA-primed nucleotide analog incorporation by various DNA polymerases. 1944 43

The phototriggered cleavage of chemical bonds has found numerous applications in biology, particularly in the field of gene sequencing through photoinduced DNA strand scission. However, only a small number of modified nucleosides that are able to cleave DNA at selected positions have been reported in the literature. Herein, we show that a new photoactivable deoxyadenosine analogue, 3-nitro-3-deaza-2'-deoxyadenosine (d(3-NiA)), was able to induce DNA backbone breakage upon irradiation (lambda > 320 nm). The d(3-NiA) nucleoside was chemically incorporated at desired positions into 40-mer oligonucleotides as a phosphoramidite monomer and subsequent hybridization studies confirmed that the resulting modified duplexes display a behaviour that is close to that of the related natural sequence. Enzymatic action of the Klenow fragment exonuclease free revealed the preferential incorporation of dAMP opposite the 3-NiA base. On the other hand, incorporation of the analogous 3-NiA triphosphate to a primer revealed high enzyme efficiency and selectivity for insertion opposite thymine. Furthermore, only the enzymatically synthesized base pair 3-NiA:T was a substrate for further extension by the enzyme. All the hybridization and enzymatic data indicate that this new photoactivable 3-NiA triphosphate can be considered as a photochemically cleavable dATP analogue.
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PMID:Chemical synthesis, DNA incorporation and biological study of a new photocleavable 2'-deoxyadenosine mimic. 1958 34

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