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)

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

5'-Polyphosphates of N2-(p-n-butylphenyl)-2'-deoxyguanosine and -guanosine which contain a difluoromethylene group in place of a phosphoanhydride oxygen have been synthesized. 5'-[beta,gamma-(Difluoromethylene)triphosphates], including that of 2'-deoxyguanosine, were prepared by reaction of the corresponding 5'-phosphates, activated by 1,1'-carbonyldiimidazole, with difluoromethanediphosphonate. The 5'-[(difluoromethylene)diphosphate] of N2-(p-n-butylphenyl)guanosine was prepared by treatment of a protected 5'-tosyl nucleoside with difluoromethanediphosphonate, followed by deprotection. Condensation of this nucleotide, activated with 1,1'-carbonyldiimidazole, with orthophosphate gave N2-(p-n-butylphenyl)guanosine 5'-[(alpha,beta-difluoromethylene)triphosphate]. Products were characterized by 31P and 19F NMR spectroscopy. The phosphonates were tested for their ability to displace [3H]GDP from the GTP binding proteins cellular (EC) and oncogenic (Leu-61) Ha-ras p21, and for their ability to inhibit DNA polymerase alpha from Chinese hamster ovary cells. The p21s bound weakly to a triphosphonate when the CF2 group was in the beta,gamma position, but not when it was in the alpha,beta position, and they did not bind to the corresponding (difluoromethylene)diphosphate. In contrast, the CF2 group had no effect on inhibition of DNA polymerase alpha by N2-(p-n-butylphenyl)-2'-deoxyguanosine 5'-[(beta,gamma-difluoromethylene)triphospate]. 2'-Deoxyguanosine 5'-[(beta,gamma-difluoromethylene)triphosphate] was found to be a bona fide substrate for several DNA polymerases and had a lower apparent Km than dGTP with Bacillus subtilis DNA polymerase III.
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PMID:(Difluoromethylene)phosphates of guanine nucleosides as probes of DNA polymerases and G proteins. 211 2

Transferred nuclear Overhauser effects (NOEs) and selective T1 measurements were used to determine interproton distances in the substrates Mg2+dATP and Mg2+TTP bound to the large fragment of DNA polymerase I (Pol I). The distances are consistent with high anti, O1' endo conformations for the enzyme-bound substrates, similar to nucleotides of B-DNA. These substrate conformations show little or no change when the complementary RNA templates (rU)57 or (rA)50 are bound. In contrast, multiple conformations, including syn and anti species, are required to fit the interproton distances measured on the enzyme-bound guanine nucleotide substrates Mg2+dGTP and Mg2+ddGTP. These multiple substrate conformations simplify to a single high anti, O1' endo conformation when the complementary template (rC)37 is bound, possibly due to base-pairing with the template, as in the active complex. In the presence of both template and primer, enzyme-bound Mg2+ddGTP reverts to multiple conformations. This ability of Pol I to decrease the fraction of bound substrate which is appropriate for primer elongation may be an error-preventing mechanism. In all cases, the conformations of the average nucleotide of the enzyme-bound RNA templates are also B-like. Transferred NOEs from protons of the enzyme to those of bound dNTP substrates suggest hydrophobic (Ile, Leu) and an aromatic amino acid (Tyr) at the substrate binding site. Peptide I, a synthetic 50-residue peptide based on residues 728 to 777 of the Pol I sequence, containing the conserved sequence L-I-Y-G, retains significant secondary and tertiary structure in solution as found by circular dichroism (CD) and 2D NMR. While the X-ray structure shows 48% helix in this region, the sequence specific NOESY analysis suggests 18% helix, and the preservation of two of the three beta turns. Peptide I shows tight binding of dNTP substrates, the substrate analog 2',3'-trinitrophenyl-ATP, and duplex DNA, providing direct evidence that the active site for polymerization lies in this region of the enzyme, with the substrate binding along the O-helix near Leu-764, Ile-765, and Tyr-766. Another synthetic peptide, peptide II, based on residues 840 to 888 of the Pol I sequence also retains much secondary structure as detected by CD but does not bind the substrate analog TNP-ATP.
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PMID:NMR studies of the active site of DNA polymerase I and of a 50-residue peptide fragment of the enzyme. 219 83

The carcinogenic and mutagenic N-nitroso compounds produce GC to AT and TA to GC transition mutations because they alkylate O6 of guanine and O4 of thymine. It has been generally assumed that these mutations occur because O6-alkylguanine forms a stable mispair with thymine and O4-alkylthymine forms a mispair with guanine. Recent studies have shown that this view is mistaken and that the alkylG.T and alkylT.G mispairs are not more stable than their alkylG.C or alkylT.A counterparts. Two possible explanations based on recent structural studies are put forward to account for the miscoding. The first possibility is that the DNA polymerase might mistake O6-alkylguanine for adenine, and O4-alkylthymine for cytosine, because of the physical similarity of these bases. O6-Methylguanine and adenine are similarly lipophilic and X-ray crystallography of the nucleosides has shown a close similarity in bond angles and lengths between O6-methylguanine and adenine, and between O4-methylthymine and cytosine. The second possible explanation is that the important factor in the miscoding is that the alkylG.T and alkylT.G mispairs retain the Watson-Crick alignment with N1 of the purine juxtaposed to N3 of the pyrimidine while the alkylG.C and alkylT.A pairs adopt a wobble conformation. 31P NMR of DNA duplexes show that the phosphodiester links both 3' and 5' to the C have to be distorted to accommodate the O6-ethylguanine:C pair, whereas there is less distortion of the phosphodiesters 3' and 5' to the T in an ethylG.T pair. Recent kinetic measurements show that the essential aspect of base selection in DNA synthesis is the ease of formation of the phosphodiester links on both the 3' and 5' side of the incoming base. The Watson-Crick alignment of the alkylG.T and alkylT.G mispairs may facilitate formation of these phosphodiester links, and this alignment rather than the strength of the base pairs and the extent of hydrogen bonding between them may be the crucial factor in the miscoding. If either hypothesis is correct it suggests that previously too much emphasis has been placed on the stability of the normal pairs in the replication of DNA.
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PMID:Why do O6-alkylguanine and O4-alkylthymine miscode? The relationship between the structure of DNA containing O6-alkylguanine and O4-alkylthymine and the mutagenic properties of these bases. 223 15

Polysomal poly(A)+-RNA prepared from isolated calf liver polysomes by deproteinization and affinity chromatography on oligo(dT)-Sepharose at pH 6 contains low molecular weight peptides (between 600-1500 daltons) bound noncovalently. These peptides were extracted from the poly(A)+-RNA-peptides complex by precipitation of the nucleic acids with 80% (v/v) ethanol at alkaline pH (9.5) and purified on Sephadex G-25 and G-15 columns. Further fractionation was performed by silica gel chromatography and high performance liquid chromatography (h.p.l.c.). The amino acid composition of the isolated peptidic fraction was compared with similar peptides obtained from rat liver, rabbit reticulocyte and calf thymus polysomes. Effluent (ribosomal) RNA contains only negligible amount of peptides. Isolated polysomal RNA peptides were named "deprimerones" (from Latin "deprimere"), since they have a general depressing effect on gene expression in vitro (Hillar & Przyjemski, 1979). Isolated deprimerones not only inhibit DNA transcription, RNA translation in reconstituted cell-free systems, but also DNA replication by DNA polymerase beta with single- and double-stranded DNA template and synthetic deoxyribonucleotide polymers. The inhibitory effect on replication was correlated with the inhibition of [3H]-deoxyribonucleotide incorporation in isolated chromatin and in stimulated lymphocyte cell cultures. The isolated deprimerones are characterized by similar amino acid compositions in various species.
Physiol Chem Phys Med NMR 1985
PMID:Small peptides bound to polysomal RNA inhibit gene expression in cell-free systems, replication of stimulated lymphocytes and DNA repair in isolated chromatin. 241 32

5-(p-Chlorobenzyl)-6-aminouracil (5-ClAU) inhibited RNA-dependent DNA polymerase (reverse transcriptase) from avian myeloblastosis virus. Inhibition was expressed only in the presence of a polyribonucleotide template such as mRNA or poly(rA), and kinetic analysis suggested that the action of 5-ClAU is competitive with template:primer. 5-ClAU did not inhibit HeLa DNA polymerase gamma, an enzyme that efficiently copies polyribonucleotide templates. A mechanism is proposed in which a 5-ClAU:template complex interferes with enzyme function, based partly on NMR studies indicating that 5-ClAU can form a hydrogen-bonded complex with deoxyadenosine in solution.
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PMID:Inhibition of RNA-directed DNA polymerase from avian myeloblastosis virus by a 5-benzyl-6-aminouracil. 257 88

From extracts of microplasmodia of Physarum polycephalum and their culture medium, an unusual substance was isolated which inhibited homologous DNA polymerase alpha of this slime mold but not beta-like DNA polymerase and not heterologous DNA polymerases. Analysis, especially NMR spectroscopy, revealed the major component to be an anionic polyester of L-malic acid and the inhibition to be due to poly(L-malate) in binding reversibly to DNA polymerase alpha. The mode of inhibition is competitive with substrate DNA and follows an inhibition constant Ki = 10 ng/mL. Inhibition is reversed in the presence of spermine, spermidine, poly(ethylene imine), and calf thymus histone H1. According to its ester nature, the inhibitor is slightly labile at neutral and instable at acid and alkaline conditions. Its largest size corresponds to a molecular mass of 40-50 kDa, but the bulk of the material after purification has lower molecular masses. The inhibitory activity depends on the polymer size and has a minimal size requirement.
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PMID:An unusual polyanion from Physarum polycephalum that inhibits homologous DNA polymerase alpha in vitro. 276 32

The antiherpetic agent 9-[(2,3-dihydroxy-1-propoxy)methyl]guanine (iNDG) is phosphorylated by HSV1 thymidine kinase, and its phosphorylated products inhibit DNA polymerase activity. iNDG exists in two enantiomeric forms, each with a primary and a secondary hydroxyl; thus, a number of possibilities for preferential phosphorylation exist, which were explored in this study. HSV1 thymidine kinase phosphorylates the primary hydroxyl of both the R and the S isomers of iNDG. This was established by comparison with analogues in which either the primary or the secondary hydroxyl was replaced by fluorine or hydrogen and also by a study of the NMR spectrum of the monophosphate. GMP kinase phosphorylates the R and the S monophosphates to the respective diphosphates. Further phosphorylation, however, is much more efficient with the S than with the R isomer. Furthermore, (S)-iNDG triphosphate is a more potent inhibitor of HSV1 DNA polymerase than (R)-iNDG triphosphate. These differences in the biochemical specificities of the two isomers account for the observed higher antiviral potency of (S)-iNDG as compared to that of (R)-iNDG.
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PMID:Enzymatic phosphorylation of the antiherpetic agent 9-[(2,3-dihydroxy-1-propoxy)methyl]guanine. 300 16

A photoactive nucleotide analogue of dUTP, 5-azido-2'-deoxyuridine 5'-triphosphate (5-N3dUTP), was synthesized from dUMP in five steps. The key reaction in the synthesis of 5-N3dUTP is the nitration of dUMP in 98% yield in 5 min at 25 degrees C using an excess of nitrosonium tetrafluoroborate in anhydrous dimethylformamide. Reduction of the resulting 5-nitro compound with zinc and 20 mM HCl gave 5-aminodeoxyuridine monophosphate (5-NH2dUMP). Diazotization of 5-NH2dUMP with HNO2 followed by the addition of NaN3 to the acidic diazonium salt solution gave a photoactive nucleotide derivative in 80-90% yield. The monophosphate product was identified as 5-N3dUMP by proton NMR, UV, IR, and chromatographic analysis as well as by the mode of synthesis and its photosensitivity. After formation of 5-N3dUTP through a chemical coupling of pyrophosphate to 5-N3dUMP, the triphosphate form of the nucleotide was found to support DNA synthesis by Escherichia coli DNA polymerase I at a rate indistinguishable from that supported by dTTP. When UMP was used as the starting compound, 5-N3UTP was formed in an analogous fashion with similar yields and produced a photoactive nucleotide which is a substrate for E. coli RNA polymerase. To prepare [gamma-32P]-5-N3dUTP for use as an active-site-directed photoaffinity labeling reagent, a simple method of preparing gamma-32P-labeled pyrimidine nucleotides was developed. [gamma-32P]-5-N3dUTP is an effective photoaffinity labeling reagent for DNA polymerase I and was found to bind to the active site with a 2-fold higher affinity than dTTP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Synthesis and biological properties of 5-azido-2'-deoxyuridine 5'-triphosphate, a photoactive nucleotide suitable for making light-sensitive DNA. 354 18

Internucleotide phosphotriesters comprise an important class of DNA lesions produced by carcinogenic alkylating agents. To avoid confusion resulting from the presence of other DNA lesions, synthetically prepared oligonucleotides containing ethylated internucleotide phosphates as the sole form of damage were employed to investigate several chemical and biochemical properties of DNA alkyl phosphotriesters. A total of four oligonucleotides were synthesised for this study, the dimers Tp(Et)T and pTp(Et)T and the decamer d-TpTpTp(Et)TpCpTpApTpTpT together with its unmodified analogue. The dimers were characterized by UV and phosphorus NMR spectroscopy and the decamers by two-dimensional homochromatography, alkali hydrolysis, and variable-temperature circular dichroism (CD). Alkali hydrolysis of the ethylated decamer produced strand breaks in approximately 75% of the molecules. This is in close agreement with data previously obtained for dinucleoside ethyl phosphotriesters and triesters in alkylated cellular DNA. Results from the CD study suggest that the ethyl substituent does not disrupt base stacking within the oligomer. The interactions of two enzymes with the alkylated oligonucleotides were examined. First, it was found that ethylation of the internucleotide phosphate renders TpT inactive as a substrate for T4 polynucleotide kinase, implying that a negative charge is required on the 3'-phosphate group of the nucleotide to be phosphorylated. Hence, postlabeling assays of DNA damage that depend upon enzymatic phosphorylation of modified 3'-nucleotides cannot be applied to dinucleoside alkyl phosphotriesters. Second, both decamers, when annealed to a single-stranded plasmid template, were able to prime DNA synthesis, catalyzed by Escherichia coli DNA polymerase I, with equal effectiveness. The use of this reaction as a means of site-specifically incorporating phosphotriesters into viral vectors is recognized.
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PMID:Synthesis and properties of oligodeoxyribonucleotides containing an ethylated internucleotide phosphate. 376 34

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