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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)

Several novel imidotriphosphate analogues of thymidine have been synthesized and have been shown to be effective inhibitors of human immunodeficiency virus-1 reverse transcriptase (HIV-1 RT). When the alpha,beta-bridging oxygens of thymidine triphosphate (TTP) and 3'-azido-3'-deoxythymidine 5'-triphosphate (AZTTP) were replaced by a nitrogen, the resulting analogues were no longer substrates but instead became competitive inhibitors of HIV-1 RT. The most potent of the alpha,beta-imidotriphosphate derivatives tested was thymidine 5'-[alpha,beta-imido]triphosphate (TMPNPP, 1a). This analogue has a Ki value of 2.4 microM, inhibiting HIV-1 RT 400-fold more potently than it inhibits DNA polymerase I large fragment (Klenow). 3'-Azido-3'-deoxythymidine 5'-[alpha,beta-imido]triphosphate (AZTMPNPP, 1b) gave a Ki value about 10-fold greater than that for TMPNPP, indicating that a 3'-azido substituent decreases the affinity of AZTTP to HIV-1 RT relative to the normal 3'-OH substituent. Dideoxythymidine 5'-[alpha,beta-imido]triphosphate (ddTMPNPP, 1c) was intermediate in potency, giving a Ki value of 15 microM. In contrast, substitution at the beta,gamma-bridging oxygen by nitrogen did not block the enzymatic cleavage of the adjacent alpha,beta-phosphate linkage, and 3'-azidothymidine 5'-[beta,gamma-imido]triphosphate (AZTMPPNP, 1e), the 5'-[beta,gamma-imido]triphosphate analogue of AZTTP, is therefore both a substrate for and a potent inhibitor of HIV-1 RT with an observed Ki value of 87 nM. Further nitrogen substitution of the bridging oxygens in the phosphate chain decreases the inhibitory potency by approximately 10-fold, as in the case of thymidine 5'-[alpha,beta:beta,gamma-diimido]triphosphate (TMPNPNP, 1d).
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PMID:New thymidine triphosphate analogue inhibitors of human immunodeficiency virus-1 reverse transcriptase. 137 62

In vitro DNA synthesis on single stranded templates damaged by singlet oxygen was investigated in the supF tRNA gene sequence, using several DNA polymerases. Singlet oxygen was generated by the thermal decomposition of the water soluble with the endoperoxide of disodium 3,3'-(1,4-naphthylidene) dipropionate (NDPO2). The data demonstrated that damage at deoxyguanosine residues interrupts DNA polymerization. Modified T7 phage and Thermus aquaticus DNA polymerases were found to synthesize DNA fragments which terminated opposite deoxyguanosine, while T4 phage DNA polymerase and avian myeloblast virus reverse transcriptase were blocked one nucleotide 3' to deoxyguanosine positions on the template. DNA polymerase I (Klenow fragment) from Escherichia coli was inhibited at both positions, before and at the putative damaged sites. The blocking lesions, induced by 5 mM NDPO2, were estimated to be approximately 1.5 per 260 nucleotides, corresponding to 2% of deoxyguanosines. The distribution of lesions in the supF gene did not reveal any specific sequence context which showed distinct susceptibility to the attack of singlet oxygen.
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PMID:DNA synthesis blocking lesions induced by singlet oxygen are targeted to deoxyguanosines. 137 92

The biological activity of some benzopsoralen derivatives, prepared with the aim of obtaining new drugs for photochemotherapy, has been studied. The more interesting compounds are 4-hydroxymethyl-4',5'-benzopsoralen and 4-hydroxymethyl-4',5'-tetrahydro-benzopsoralen, which were found to be active in the dark also: DNA and RNA synthesis were both inhibited in Ehrlich cells, even if in a partially reversible fashion, while protein synthesis remained unaffected. In Chinese hamster ovary cells cultured in vitro, the clonal growth was strongly inhibited by incubation in the dark with both drugs, while a number of chromosomal aberrations was observed in the fraction of growing cells. Using alkaline elution, DNA strand breaks were detected. In addition, in the presence of aphidicolin, a specific inhibitor of DNA polymerase, the clonal growing capacity was completely restored; in contrast, the number of DNA strand breaks remained unchanged. All these results suggest that DNA topoisomerases are probably the target of these two benzopsoralens. These compounds are also good sensitizers; by UV-A irradiation they have a good capacity to produce singlet oxygen, but they appeared to be unable to induce erythemas on guinea-pig skin. Under UV-A light, they induced a strong inhibition of DNA synthesis in Ehrlich cells. Thus, benzopsoralens appear to be capable of inducing strong antiproliferative effects by two different mechanisms, by UV-A irradiation and in the dark.
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PMID:Biological properties of some benzopsoralen derivatives. 154 3

To continue our mutagenesis study of the polymerase active site of the Klenow fragment of DNA polymerase I, we have characterized new mutants with substitutions at Asp705, Glu710, and Glu883, and have investigated further the mutations in residues Arg668, Gln849, and Asp882, which showed strong Kcat effects in our previous study. To determine which step of the reaction is rate-limiting for each mutant protein, we measured the effect on the reaction rate of an alpha-thio-substituted dNTP. One group of mutants showed a substantial sulfur elemental effect, while a second group, like wild-type Klenow fragment, was unaffected by the phosphorothioate substitution. Consistent with earlier data, these results imply that, between formation of the enzyme-DNA-dNTP ternary complex and completion of phosphodiester bond formation, there are two kinetically distinct steps, only one of which is sensitive to sulfur substitution. The rather complex elemental effect data obtained with the mutant derivatives of Klenow fragment are more consistent with the elemental effect being the result of a steric clash in one of the transition states than with explanations based on electronegativity differences between sulfur and oxygen. The data suggest that the side chain of Asp882 is involved in the proposed steric clash, and that Gln849 and Glu883 participate in the sulfur-sensitive step of the reaction. Based on our results, and comparisons with other phosphoryl transfer enzymes, possible mechanisms for the polymerase reaction are discussed.
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PMID:Side chains involved in catalysis of the polymerase reaction of DNA polymerase I from Escherichia coli. 156 92

A series of reagents containing 3- or 4-nitrobenzamido ligands tethered to 9-aminoacridine via variable-length linkers have been prepared and their properties as photochemical DNA cleavers (photonucleases) examined. When irradiated with approximately 300-nm light, where the nitrobenzamido ligand can absorb, they cleave DNA in an oxygen-independent reaction presumably involving oxygen transfer from the nitro group to the deoxyribose units of the DNA backbone (Nielsen et al., 1988b). This reaction is pH independent and only slightly affected by the linker length, and the DNA fragments are not substrates for DNA polymerase. When approximately 420-nm light is used, were only the 9-aminoacridinyl ligands absorb, the DNA cleavage is also oxygen-independent but pH dependent, requires DNA saturation with the reagent (base pair:reagent less than or equal to 2), and is most efficient with the longer linkers. The cleavage is specific for guanine residues and results in 5'-phosphate termini and heterogeneous (more than four products) 3'-termini. One of the products is presumably 3'-hydroxy since DNA photocleaved with nitrobenzamido acridine reagents and 420-nm radiation are substrates for DNA polymerase in a nick translation assay as well as for the Klenow fragment. An electron-transfer mechanism is suggested.
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PMID:Photolytic cleavage of DNA by nitrobenzamido ligands linked to 9-aminoacridines gives DNA polymerase substrates in a wavelength-dependent reaction. 165 88

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

We report here spectroscopic and biochemical data of a novel series of sugar-modified oligodeoxy-nucleotides, the carbocyclic oligothymidylates, c(dT)3-20. In c(dT)n a methylene group has been substituted for the oxygen atom of the deoxyribose ring of the natural thymidylate unit. c(dT)10-20 form helical structures, in contrast with oligothymidylates or poly(dT), based on absorbance versus temperature melting profiles. Secondary structure of c(dT)n, where n greater than 10 is assumed to be double helix. In addition to this, c(dT)n forms as a stable duplex with complementary poly(dA) as does parent (dT)n. On the other hand, c(dT)n-containing oligo/poly duplex is nearly inactive either as a template or as a primer in various DNA polymerase systems, and c(dT)n inhibits DNA replication as well. c(dT)n can efficiently be extended by terminal transferase and shows an increased nuclease stability compared to (dT)n. Base-pairing ability and nuclease stability of c(dT)n suggest that (+)-carbocyclic nucleoside-containing oligomers could be new potential antisense oligodeoxynucleotides.
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PMID:Biochemical properties of oligo [(+)-carbocyclic-thymidylates] and their complexes. 215 40

The DNA polymerase III holoenzyme of Escherichia coli contains a potent 3'----5' exonuclease that removes the terminal nucleotide from a synthetic deoxyoligonucleotide primer with a half-life of approximately 2 s. Degradation of primers could not be effectively prevented by permitting the holoenzyme to "idle" at the primer terminus in the presence of limited deoxynucleoside triphosphates. To further characterize this exonuclease and to develop stable primers to facilitate experimental manipulations, we synthesized a series of twelve 25-mer oligonucleotides that differed only in the two 3'-terminal residues. The penultimate position contained either a CMP or a dCMP residue, while at the terminal position either AMP, dAMP, 2',3'-dideoxyAMP, cordycepin (3'-dAMP), dAMP alpha S, or 2',3'-dideoxyAMP alpha S was incorporated. No single change at either the 3'-penultimate or 3'-terminal positions resulted in a decrease in the exonuclease rate greater than 10-fold; however, combined changes at these two sites resulted in a strong synergistic effect. Placing a ribonucleotide at the penultimate position coupled by a phosphorothioate linkage to a terminal 2',3'-dideoxynucleotide reduced the rate of exonucleolytic activity almost 30,000-fold (half-life approximately 16 h). If only the ribonucleotide and phosphorothioate substitutions were made, a primer capable of being efficiently elongated was generated that exhibited a 500-fold increase in stability (half-life = 40 min). The elemental effect observed by substituting a nonbridging oxygen in the terminal phosphodiester bond for sulfur increased from 1.5 to 200 as other substitutions were made that decreased the exonuclease rate. This was consistent with a change in the rate-limiting step of the exonuclease reaction from a conformational change to the chemical step where the covalent bond is cleaved. At least part of this effect appears to be due to perturbations within the enzyme's active site and not solely due to changes in electrophilicity.
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PMID:Reduction of the potent DNA polymerase III holoenzyme 3'----5' exonuclease activity by template-primer analogues. 217 42

We have studied the specificity of singlet oxygen (1O2) mutagenesis in single-stranded DNA phage by analysing 1O2-induced mutations in the lac insert of the M13 mp 19 hybrid phage. 107 lac mutants were analysed showing mainly single-base substitutions with a total of 93% and 7% of 40-50 base deletion mutations. Most of the substitutions are G----T and C----A transversions with respectively 27 and 54% of the mutations. The replicative form of the M13 mp 19 DNA (RFDNA) was used as substrate for the 1O2 reactions, there are then two types of progeny phages DNA's. As guanine residues are the targets of the oxidation, it appears that both types of transversions are provided by one type of lesion: the guanine oxidised by 1O2 is read like a thymine by E. coli DNA polymerase-I.
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PMID:Singlet oxygen mutagenicity induced in the lac operon. 244 Apr

Agents that act via oxygen-derived free radicals form DNA strand breaks with fragmented sugar residues that block DNA repair synthesis. Using a synthetic DNA substrate with a single type of sugar fragment, 3'-phosphoglycolaldehyde esters, we show that in Escherichia coli extracts the only EDTA-resistant diesterase for these damages depends on the bacterial nfo (endonuclease IV) gene. Endonuclease IV was purified to physical homogeneity (Mr = 31,000) from an E. coli strain carrying the cloned nfo gene and in which the enzyme had been induced with paraquat. Although heat-stable and routinely assayed in the presence of EDTA, endonuclease IV was inactivated in the absence of substrate at 23-50 degrees C by either EDTA or 1,10-phenanthroline, suggesting the presence of an essential metal tightly bound to the protein. Purified endonuclease IV released phosphoglycolaldehyde, phosphate, and intact deoxyribose 5-phosphate from the 3'-end of DNA, all with apparent Km of 5-10 nM. The optimal KCl or NaCl concentration for 3'-phosphoglycolaldehyde release was 50-100 mM. The purified enzyme had endonuclease activity against partially depurinated DNA but lacked significant nonspecific nuclease activities. Endonuclease IV also activated H2O2-damaged DNA for repair synthesis by DNA polymerase I. Thus, endonuclease IV can act on a variety of oxidative damages in DNA, consistent with a role for the enzyme in combating free-radical toxicity.
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PMID:Homogeneous Escherichia coli endonuclease IV. Characterization of an enzyme that recognizes oxidative damage in DNA. 245 10

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