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)

Terminal deoxynucleotidyl transferase (terminal transferase) was specifically modified in the DNA binding site by a photoactive DNA substrate (hetero-40-mer duplex containing eight 5-azido-dUMP residues at one 3' end). Under optimal photolabeling conditions, 27-40% of the DNA was covalently cross-linked to terminal transferase. The specificity of the DNA and protein interaction was demonstrated by protection of photolabeling at the DNA binding domain with natural DNA substrates. In order to recover high yields of modified peptides from limited amounts of starting material, protein modified with 32P-labeled photoactive DNA and digested with trypsin was extracted 4 times with phenol followed by gel filtration chromatography. All peptides not cross-linked to DNA were extracted into the phenol phase while the photolyzed DNA and the covalently cross-linked peptides remained in the aqueous phase. The 32P-containing peptide-DNA fraction was subjected to amino acid sequence analysis. Two sequences, Asp221-Lys231 (peptide B8) and Cys234-Lys249 (peptide B10), present in similar yield, were identified. Structure predictions placed the two peptides in an alpha-helical array of 39 A which would accommodate a DNA helix span of 11 nucleotides. These peptides share sequence similarity with a region in DNA polymerase beta that has been implicated in the binding of DNA template.
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PMID:Interactions of photoactive DNAs with terminal deoxynucleotidyl transferase: identification of peptides in the DNA binding domain. 200 41

Uracil DNA glycosylase excises uracil residues from DNA that can arise as a result of deamination of cytosine or incorporation of dUMP residues by DNA polymerase. We have carried out a detailed study to define the specificities and the kinetic parameters for its substrates by using a number of synthetic oligodeoxyribonucleotides of varying lengths and containing uracil residue(s) in various locations. The results show that the Escherichia coli enzyme can remove a 5'-terminal U from an oligomer only if the 5'-end is phosphorylated. The enzyme does not remove U residues from a 3'-terminal position, but U residues can be excised from oligonucleotides with either pd(UN)p or pd(UNN) 3'-termini. The oligomer d(UUUUT) can have the second or third U residues from the 5'-end excised even when the neighboring site is an abasic site (3' or 5', respectively). On the basis of these findings, pd(UN)p was anticipated to be the smallest size substrate. Results show detectable amounts of U release from the substrate pd(UT)p; however, significantly higher amounts of U release were observed from pd(UT-sugar) or pd(UTT). Determinations of the Km and Vmax values show that the different rates of U excision from oligomers of different sizes (trimeric to pentameric) but containing U in the same position are largely due to the differences in the Km values, whereas the different rates of U excision from the substrates of the same size but containing U in different positions are largely due to different Vmax values.
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PMID:Specificities and kinetics of uracil excision from uracil-containing DNA oligomers by Escherichia coli uracil DNA glycosylase. 201 71

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

Porcine liver DNA polymerase gamma has been demonstrated to preferentially incorporate dTMP over dUMP during in vitro DNA synthesis. When polymerase activity was measured in standard reactions containing saturating levels of either dTTP or dUTP, the polymerization rate was slightly faster in the reaction containing dTTP. However, under conditions where both dTTP and dUTP competed, at an equal molar concentration, approximately 3-times more thymine residues were incorporated than uracil residues into DNA. Similarly, preferential incorporation of dTMP was observed on several substrates including poly (dA).oligo p(dT), poly (rA).oligo p(dT) and poly (dA-dT). The discrimination against dUMP incorporation was even more apparent with reduced levels of dUTP. These observations were consistent with the finding that the Km for DNA polymerase gamma was about 3-fold lower for dTTP (0.4 microM) than for dUTP (1.1 microM). On the other hand, the Vmax for these two reactions was very similar. Discrimination against dUMP incorporation was also observed during inhibition of polymerase gamma by dideoxyribonucleoside triphosphates. Dideoxythymidine triphosphate preferentially inhibited dUMP incorporation compared to that of dTMP, whereas ddATP, ddCTP and ddGTP inhibited both reactions equally.
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PMID:Purification and characterization of porcine liver DNA polymerase gamma: utilization of dUTP and dTTP during in vitro DNA synthesis. 338 42

Previous results from this laboratory have shown that thymidylate deprivation results in dramatic elevation of intracellular dUTP and incorporation of dUMP into DNA. The goal of the present studies was to determine whether the latter changes may play a part in the associated cytotoxicity ("thymineless death"), which is ordinarily assumed to be a direct result of reduced intracellular dTTP. The approach used here was to increase intracellular dUTP without allowing dTTP to diminish and observe the effects on cell viability. dUMP pools were expanded by exposure of cells to deoxyuridine [in cell growth medium containing hypoxanthine, methotrexate, and thymidine (HAT medium)], resulting in accumulation of dUTP to levels that approached those of dTTP, which were at, or higher than, the levels in untreated cells. In conjunction with this the cells became nonviable, and newly synthesized DNA was fragmented, both of which occur with thymidylate depletion and, we assume, result from the active process of excision repair at the many uracil-containing sites in DNA. The results indicate that, although the relative importance of low dTTP remains unknown, elevated dUTP can account for the cytotoxicity caused by thymidine starvation. Most of the "dTTP" measured by the DNA polymerase assay in cells treated with methotrexate (MTX) (plus purine supplement) was, in fact, dUTP, which may explain some previous observations of only modest depression of dTTP in cells treated with MTX or similarly acting drugs.
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PMID:DNA fragmentation and cytotoxicity from increased cellular deoxyuridylate. 352 74

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

Heat treatment of poly(deoxycytidylic acid)-[poly(dC)] induces the formation of dUMP residues, which code for dAMP when replicated by Escherichia coli DNA polymerases I and III. The specificity of dUMP coding properties is indicated by the quantitative relation between the dAMP incorporated and the frequency of dUMP residues in the heat-treated poly(dC). The dAMP incorporation is prevented by preincubation of uracil containing poly(dC) with uracil-DNA glycosylase. The excision of uracil by uracil-DNA glycosylase leads to the formation of apyrimidinic sites (AP sites), which are barely replicated in vitro under physiological conditions. However, the alteration of E. coli DNA polymerase I fidelity of replication by Mn2+ greatly stimulates the replication of AP sites. There is a preferential incorporation of dAMP, as compared to dTMP, opposite the AP sites. The dAMP incorporation is prevented by preincubation of poly(dC) containing AP sites with Micrococcus luteus AP endonuclease B. The results show a close association between DNA repair by base excision and the prevention of mutagenic processes in vitro. Furthermore, since the alteration of DNA polymerase fidelity allows some replication of the noncoding DNA lesion (AP site), this could imply a role in SOS-induced mutagenesis in vivo.
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PMID:Coding properties of poly(deoxycytidylic acid) templates containing uracil or apyrimidinic sites: in vitro modulation of mutagenesis by deoxyribonucleic acid repair enzymes. 676 Aug 93

Thymidylate synthase-negative mutants of mouse FM3A cells were transformed to thymidine prototrophs by human DNA. The stable transformants had only human thymidylate synthase and segments of human DNA. They grew normally but had unusually high levels of the human enzyme. In two transformants examined, however, neither was the dTTP pool elevated nor the dCTP pool decreased. DNA synthesis in permeabilized cells of a transformant was more efficient than that in the wild type with dATP, dGTP, dCTP, and dUMP as substrates, but this was not so when dUMP was replaced by dTTP. Unlike the mouse enzyme, the human enzyme in the transformants did not co-sediment with DNA polymerase alpha and thymidine kinase in a sucrose gradient, suggesting that the human enzyme is not incorporated into a multienzyme complex for DNA replication. The high levels of the human enzyme in the transformants were suppressed to various degrees by fusion with a wild type mouse line. No active hybrid dimer enzyme was found between the human and mouse enzymes, which each consist of two identical subunits. Thus, the human enzyme in the transformants seems to behave differently from the mouse enzyme and its overproduction seems to be necessary for supporting the normal growth of the transformants.
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PMID:Unusual aspects of human thymidylate synthase in mouse cells introduced by DNA-mediated gene transfer. 684 16

1. Gently lysed human lymphoblastoid cells (HPB-ALL) catalysed incorporation of the distal DNA precursors [3H]thymidine, [3H]dTMP, and [3H]dUMP into DNA. Measurement of the [3H]dTTP, produced during the incorporation reactions, provided kinetic evidence for the channelling of the distal precursors into DNA by a multienzyme complex consisting of precursor-synthesizing enzymes and of DNA polymerase. 2. In the presence of the DNA polymerase inhibitor, 1-beta-D-arabinofuranosylcytosine triphosphate, incorporation of [3H]dTMP into DNA was abolished. However, there was no accumulation of [3H]dTTP, suggesting that the flow of substrates through the complex was regulated by the activity of DNA polymerase. 3. Multienzyme complexes were detected by chromatography of a lysate on a column of Sepharose 6B. These complexes retained the ability to channel [3H]thymidine and [3H]dTMP into DNA.
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PMID:Solubilization and partial characterization of a multienzyme complex of DNA synthesis from human lymphoblastoid cells. 714 Jul 48

Mercurated DNA was synthesized in vitro by substituting Hg-dCTP or Hg-dUMP for dCTP in one strand of M13mp8DNA in a DNA polymerase I reaction. Restriction enzymes, including Sma I, Pst I, Bam HI, Hind III, and Hinc II, were completely inactive when their recognition sites were fully substituted with Hg-dCMP, while Hg-dUMP containing DNA was hydroxlyzed to some extent. Under conditions favoring star activities, or when DNA was substituted with a low level of mercury-nucleotide, DNA was cleaved by restriction enzymes. Susceptibility to degrading and synthesizing enzymes and insensitivity to restriction endonucleases of fully mercurated DNA makes mercuration an attractive molecular "tag" for in vitro manipulation and selective isolation of Hg-DNA.
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PMID:Effect of mercury substitution of DNA on its susceptibility to cleavage by restriction endonucleases. 774 94

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