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)

5-Bromo-2'-deoxyuridine triphosphate (Br-dUTP) and dTTP are used interchangeably for DNA synthesis in vitro by the Klenow fragment of Escherichia coli DNA polymerase I. When DNA containing Br-dUMP instead of dTMP at a few preselected sites is transfected into competent bacteria, no mutation occurs, indicating that in vivo E. coli DNA polymerase always places a dAMP residue in front of any unrepaired Br-dUMP residue. On the other hand, in vitro Br-dUTP can also replace dCTP, but only with difficulty: when dCTP is absent, Br-dUMP can be forced in front of a dGMP residue, but the Klenow polymerase pauses before and after addition of Br-dUMP. Transfection into E. coli of the substituted DNA leads to the expected G----A transitions. These mutations can easily be targeted by using a suitable primer and the correctly chosen mix of deoxynucleoside triphosphates containing Br-dUTP. When Br-dUMP has been placed in front of a dGMP residue, the mutation yield is not 100%, showing a partial repair of the transfected DNA before it is replicated. Advantage can be taken of this partial repair to prepare a set of different mutations within a target region in a single experiment.
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PMID:Pairing properties of bromouracil and repair of bromouracil-containing DNA. Possible utilization of bromodeoxyuridine triphosphate for site-directed mutagenesis. 317 34

Cisplatin was reacted with a 184-base-pair sequence, exon 3, of human HPRT DNA in vitro. The binding sites were mapped by a primer extension method with T4 DNA polymerase and radioactive dCTP. Binding sites of cisplatin were indicated by the lengths of synthesized polynucleotides as determined by gel electrophoresis. Neighboring GG dinucleotides were highly preferred sites of binding by cisplatin, while less binding was noted to GXG, GA, AAA, and GXA. Analysis by densitometry revealed a 5-fold difference in binding among the GG sequences. The relative binding to a GGG sequence exceeded that of a GGGGGG sequence, suggesting that the number of Gs in a run did not determine the relative binding.
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PMID:Binding of cisplatin to specific sequences of human DNA in vitro. 318 85

3'-Amino-2',3'-dideoxycytidine (3'-NH2-dCyd) produced an S-phase-specific block in exponentially growing L1210 leukemia cells. The monophosphate and triphosphate forms of the drug were detected within a few hours of 3'-NH2-dCyd treatment of intact cells. No significant change in the deoxynucleoside triphosphate levels was observed during the early stages of treatment. However, by 24 h a 2-fold increase in the amount of the deoxynucleoside triphosphates was seen. The triphosphate form of the drug competitively inhibited dCTP incorporation into calf thymus DNA using highly purified DNA polymerase alpha. The Ki was determined to be 9.6 microM with respect to dCTP. Incorporation of the analogue into DNA was not detected. On the other hand, sucrose gradient analysis suggested that incorporation of the analogue into actively synthesized DNA may account for the biological activity of this compound. Treatment with 3'-NH2-dCyd induced single-strand breaks in actively synthesized DNA, but no double-strand breaks were observed in the presence of the analogue. The data indicate that 3'-amino-2',3'-dideoxycytidine specifically interferes with DNA replication at the level of DNA polymerase by inhibiting chain elongation.
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PMID:Specific inhibition of DNA biosynthesis induced by 3'-amino-2',3'-dideoxycytidine. 324 12

We have studied the antiproliferative effects of gallium nitrate in cultured CCRF-CEM lymphoblasts. The 50% inhibitory dose for these cells was 120 microM, and after 24 h at a cytostatic concentration (480 microM) S-phase arrest was observed by DNA flow cytometry. Deoxyribonucleoside triphosphate pools were all reduced (dATP, dGTP, and dCTP by 50%, dTTP by 25%), suggesting inhibition of ribonucleotide reductase. Administration of tracer amounts (0.5 microM) of either [3H]uridine or [3H]deoxyuridine confirmed that DNA synthesis had been inhibited to 20% of control rates by gallium. Further, the flow of the ribonucleoside into the dTTP pool and DNA was selectively reduced compared to that of the deoxyribonucleoside. Gallium decreased the specific activity of dTTP labeled from uridine by 50%, whereas the specific activity of dTTP labeled from deoxyuridine was increased 2.5-fold. Thus counts in DNA derived from [3H]uridine were decreased by more than 80%, while counts in DNA derived from [3H]deoxyuridine were virtually unaltered. Uridine incorporation into RNA was not affected. Gallium did not significantly alter the capacity of permeabilized naive cells to incorporate [3H]dTTP into DNA, while 24-h gallium pretreatment (which increased the percentage of S-phase cells) produced a modest increase in [3H]dTTP incorporation, indicating that any effect of gallium on DNA polymerase alpha is minor. Gallium treatment did not induce or inhibit the repair of DNA single strand breaks. These data demonstrate that gallium inhibits replicative DNA synthesis, with the major specific enzyme target probably being ribonucleotide reductase.
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PMID:Effect of gallium on DNA synthesis by human T-cell lymphoblasts. 325 58

The modification of tyrosine residues of DNA polymerase I Klenow fragment from E. coli by acetylimidazole has been investigated. This reagent was shown to inactivate both polymerization and 3',5'-exonuclease activities but with different velocity. The poly(dT)-template and r(pA)10-primer each added separately to the enzyme have no notable influence on the rate of enzyme inactivation. Simultaneous presence of both template and primer increases the rate of inactivation. In the presence of poly(dT).r(pA) 10 there is not effect of dCTP and dTTP (noncomplementary to the template) on the rate of inactivation of polymerization activity. However, dATP complementary to the template, provides a complete protection. A weak protective action is detected in the presence of dADP. Orthophosphate, pyrophosphate and dAMP each taken separately increase the rate and the level of the enzyme inactivation. dAMP together with either ortho- or pyrophosphate have the same protective action as ATP. All data obtained allow to suggest the functional significance for polymerization activity of tyrosine located in the dNTP binding site of DNA polymerase I.
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PMID:[Modification of tyrosine residues of the Klenow fragment of DNA-polymerase I from Escherichia coli by acetylimidazole]. 329 95

To explore the potential use of a nucleoside analog, N4-aminocytidine, in studies of cellular biology, the mechanism of mutation induced by this compound in mouse FM3A cells in culture was studied. On treatment of cells in suspension with N4-aminocytidine, the mutation to ouabain resistance was induced. The major DNA-replicating enzyme in mammalian cells, DNA polymerase alpha, was used to investigate whether the possible cellular metabolite of N4-aminocytidine, N4-aminodeoxycytidine 5'-triphosphate (dCamTP), can be incorporated into the DNA during replication. Using [3H]dCamTP in an in vitro DNA-synthesizing system, we were able to show that this nucleotide analog can be incorporated into newly formed DNA and that it can serve as a substitute for either dCTP or dTTP. dCamTP in the absence of dCTP maintained the activated calf thymus DNA-directed polymerization of deoxynucleoside triphosphates as efficiently as in its presence. Even in the presence of dCTP, dCamTP was incorporated into the polynucleotide. When dCamTP was used as a single substrate in the poly(dA)-oligo(dT)-directed polymerase reaction, it was incorporated into the polynucleotide fraction. The extent of incorporation was 4% of that of dTTP incorporation when dTTP was used as a single substrate. Even in the presence of dTTP, dCamTP incorporation was observed. A copolymer containing N4-aminocytosine residues was shown to incorporate guanine residues opposite the N4-aminocytosines. However, we were unable to observe adenine incorporation opposite N4-aminocytosine in templates. These cell-free experiments show that an AT-to-GC transition can take place in the presence of dCamTP during DNA synthesis, strongly suggesting that the mutation induced in the FM3A cells by N4-aminocytidine is due to replicational errors.
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PMID:Induction of mutation in mouse FM3A cells by N4-aminocytidine-mediated replicational errors. 333 61

1-beta-D-Arabinofuranosylcytosine (ara-C) is an effective antileukemic agent which acts as an inhibitor of DNA synthesis. The precise mechanism responsible for this inhibitory effect, however, remains unclear. The present work has examined the effects of the triphosphate derivative, ara-CTP, on purified DNA polymerase beta. These studies were performed on M13 phage DNA templates of defined sequence. The results demonstrate that ara-C is incorporated into DNA by DNA polymerase beta. The results also demonstrate that the incorporated ara-C residue acts as a relative chain terminator. Moreover, the relative chain terminating effects of ara-C are sequence specific. In this regard, DNA strand elongation was progressively slowed at sequences of two, three, and four contiguous sites for cytosine incorporation. We also demonstrate that the inhibitory effects of ara-C are reversed by competition with deoxycytidine-triphosphate for incorporation into the DNA strand. Taken together, these findings are consistent with structural differences of the incorporated arabinosyl moiety which alter reactivity of the 3'-terminus and thereby inhibit chain elongation. These findings also provide new insights regarding the inhibitory effects of ara-C on elongation of specific DNA sequences.
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PMID:Effects of 1-beta-D-arabinofuranosylcytosine incorporation on elongation of specific DNA sequences by DNA polymerase beta. 334 22

In a previous paper, we reported that O4-methyl dTTP can be incorporated into poly(dA-dT) in place of thymidine without distortion of the helical structure, but on replication it could behave as deoxycytidine and misincorporate dGTP. Only weak interactions are possible for any O4-modified T X A pair. While O4-alkyl T X G pairing should be favored, experiments to detect the ability of Escherichia coli DNA polymerase I (pol I) to utilize the triphosphate as dCTP were ambiguous. dTTPs with larger alkyl groups (ethyl, isopropyl) have now been synthesized and tested for their recognition as dTTP by pol I. Enhanced steric hindrance could be expected, particularly for O4-isopropyl dTTP, which has a three-carbon branched chain. However, both compounds behaved qualitatively like O4-methyl dTTP, being incorporated into poly(dA-dT) and then directing deoxyguanosine misincorporation by pol I. Quantitative comparisons of mutagenicity were not possible because of the finding that, unlike polymers made with O4-methyl dTTP, those made with ethyl or isopropyl dTTP were resistant to hydrolysis by using a variety of nucleases. The frequent misincorporations of dGTP would be expected to produce transitions in vivo. O4-ethyldeoxythymidine is very poorly repaired in vivo, which would also be expected for repair of O4-isopropyldeoxythymidine. Therefore, under suitable conditions, these particular carcinogen products are likely to be initiators of carcinogenesis.
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PMID:O4-Methyl, -ethyl, or -isopropyl substituents on thymidine in poly(dA-dT) all lead to transitions upon replication. 345 56

We have synthesized the photoactive deoxyuridine nucleotide 5-azido-2'-deoxyuridine 5'-triphosphate (5-N3dUTP) and used it to synthesize light-sensitive DNA by enzymatic incorporation. In the absence of ultraviolet light, 5-N3dUTP is a substrate for Escherichia coli DNA polymerase I. In in vitro DNA synthesis reactions using bacteriophage M13 single-stranded DNA as the template and 5-N3dUTP in place of dTTP, a photoactive complementary strand was synthesized by DNA polymerase I. The complementary strand was not synthesized when the 5-N3dUTP was substituted for dCTP or when it was exposed to ultraviolet light prior to the addition of DNA polymerase I. Using a synthetic lac operator template of 26 bases and a 15-base primer, we generated a photoactive 26-base-pair lac operator by enzymatically incorporating 5-N3dUMP with DNA polymerase I. Crosslinking of this photoactive DNA fragment to lac repressor was totally dependent on the presence of UV light and was reduced 78% by 150 microM isopropyl beta-D-thiogalactoside. Under the same conditions no crosslinking to lac repressor was observed using a nonphotoactive 26-base-pair lac operator. Photoactivatable deoxyuridine analogs have potential application as reagents to crosslink DNA binding proteins to 5-azidouracil-containing DNA and as active-site-directed photoaffinity labelling reagents.
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PMID:5-Azido-2'-deoxyuridine 5'-triphosphate: a photoaffinity-labeling reagent and tool for the enzymatic synthesis of photoactive DNA. 346 38

To test whether vinyl chloride-induced mutagenesis might involve ambiguous base pairing of 1,N6-etheno-adenine (epsilon A) during DNA synthesis, we examined the base pairing potential of epsilon dATP during DNA synthesis catalyzed by Escherichia coli DNA polymerase I (Klenow fragment). An electrophoretic assay of chain elongation was used to assess the degree to which epsilon dATP could substitute for each of the normal dNTPs during elongation of a primer annealed to a bacteriophage template. Despite the fact that the etheno bridge completely blocks normal Watson-Crick pairing of epsilon A with T, we observed that epsilon dATP could substitute for dATP during primer elongation (although inefficiently). In addition, detectable substitution of epsilon dATP for dGTP and dCTP occurred, indicating that epsilon A exhibits ambiguous base pairing properties. The relative ease of epsilon dAMP incorporation (opposite template T, C and G) appeared to vary considerably at different positions along the template. The major form of epsilon A incorporation (replacement of A) was confirmed by measurements of epsilon dATP----epsilon dAMP turnover (a commonly used method for detecting misincorporation), and also by the demonstration that epsilon A was present in enzymatic hydrolysates prepared from DNA that was synthesized with epsilon dATP replacing dATP. A model for ambiguous base pairing of epsilon dATP is proposed, in which incorporation occurs via the protonated, syn form of epsilon dATP.
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PMID:Utilization of 1,N6-etheno-2'-deoxyadenosine 5'-triphosphate during DNA synthesis on natural templates, catalyzed by DNA polymerase I of Escherichia coli. 352 67

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