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

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

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

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

A 2'-deoxyuridine 5'-triphosphate analogue with a dansyl (5-dimethylaminonaphtalene 1-sulphonyl) residue in the 5-position of uracyl has been synthesised. This compound substitutes dTTP in the DNA synthesis catalyzed by Klenow's fragment of E. coli DNA polymerase I on the M13mp10 phage DNA as template with synthetic 14-member primer. When the synthesis is terminated by four termination substrates, structure of the synthesised DNA chain can be read. It demonstrates in principle possibility of determination of DNA sequence by means of fluorescence.
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PMID:[Incorporation, into the DNA, chain of a fluorescent derivative of 2-deoxyuridylic acid during catalysis of synthesis by DNA-polymerase A]. 361 54

An affinity chromatography technique using avidin monomer and biotin interaction was used for isolating a sequence specific DNA binding factor. This approach was used for purifying a transcription factor that binds to 152 to 160 base pairs upstream of the transcription start site of adenovirus IVa2 promoter. A 432 bp IVa2 promoter fragment was isolated and was incorporated with biotin at the 5' end using Bio-11-dUTP and Klenow fragment of DNA pol I, it was then bound with factor in vitro in reactions containing hela cell extract in optimized conditions. After incubation, reactions were loaded onto an avidin monomer column. Adenovirus IVa2 transcription factor was purified by 0.3M, 0.6M Nacl in binding buffer, band retardation assays demonstrated a 12,000 fold purification of factor was obtained.
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PMID:A rapid affinity method for isolation and characterization of sequence specific DNA binding factor. 363 82

The nick-translation procedure without external addition of DNase was performed in situ on sections of various rat organs to detect possible DNA single-strand breaks (nicks) in normal tissues. The freshly frozen sections were briefly fixed in ethanol/acetone and nick-translated in the presence of E. coli DNA polymerase I. A significant difference in the amount of nuclear reaction was found among the different cell populations as detected by autoradiography following incorporation of tritiated TTP as well as by histochemical staining following incorporation of biotin-dUTP into nuclei. Such incorporation of triphosphates was localized in the DNA and was entirely dependent on E. coli DNA polymerase I. The nuclei with the highest reactivity were found in skeletal muscle cells, lymphocytes in various lymphatic organs, the proliferative cells in the gastrointestinal tract, stratified squamous epithelial cells, duct epithelial cells of salivary gland and the maturing spermatids in the seminiferous tubules. These results suggest that, under the conditions adopted, the cells in various tissues reveal different chromatin structures resulting in varying rates of nick translation reaction. Such difference(s) in chromatin structure, presumably including that in the number of DNA single-strand breaks or in the level of endogenous nuclease activity, may be associated with the mechanisms involved in cell growth and differentiation.
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PMID:DNA strand breaks in rat tissues as detected by in situ nick translation. 377 92

A series of (E)-5-(1-alkenyl)-dUTPs as well as 5-vinyl-and (Z)-5-(1-propenyl)-dUTP have been synthesized to study steric requirements in DNA polymerase reactions. Experiments were carried out in E. coli DNA polymerase I Klenow fragment enzyme system. Substrates were characterized by KM and Vmax-values, initial incorporation rates as well as by total extent of incorporation of the analogues into poly(dA-dT) as a template-primer. Incorporation of the analogues could be best correlated with Vmax-values as well as the very similar initial incorporation rate values. Reactivity (Vmax/KM) showed no correlation with the extent of incorporation. 5-Vinyl-dUTP proved to be as good a substrate of the enzyme as dTTP, whereas (E)-5-(1-heptenyl)-and (E)-5-(1-octenyl)-dUTPs were very poor substrates, their incorporation was strongly limited and they also proved to be very efficient inhibitors of DNA replication, as shown by Ki-values. Substrate specificity of the Klenow enzyme can be explained by the steric hindrance of C-5 substituent, by the "orientational steric substituent effect" concept.
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PMID:Substrate specificity of DNA polymerases. I. Enzyme-catalysed incorporation of 5-'1-alkenyl)-2'-deoxyuridines into DNA. 382 38

A biotinylated nucleotide analog containing a disulfide bond in the 12-atom linker joining biotin to the C-5 of the pyrimidine ring has been synthesized. This analog, Bio-SS-dUTP, is an efficient substrate for Escherichia coli DNA polymerase I. Bio-SS-dUTP supported DNA synthesis in a standard nick-translation reaction at 35%-40% the rate of an equal concentration of the normal nucleotide, TTP. DNA containing this analog was bound to an avidin-agarose affinity column and subsequently eluted after reduction of the disulfide bond by dithiothreitol. The ability to recover biotinylated DNA from an avidin affinity column under nondenaturing conditions should prove useful in the isolation of specific protein-DNA complexes. As a demonstration of this approach, Bio-SS-DNA was reconstituted with histones to form 11S monomer nucleosomes. Bio-SS-nucleosomes were shown to selectively bind to avidin-agarose. Ninety percent of the bound Bio-SS-nucleosomes were recovered from the affinity column by elution with buffer containing 50-500 mM dithiothreitol. The recovered nucleosomes were shown to be intact 11S particles as judged by velocity sedimentation in a sucrose gradient. This approach may prove to be generally useful in the isolation of protein-DNA complexes in a form suitable for further analysis of their native unperturbed structure.
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PMID:A chemically cleavable biotinylated nucleotide: usefulness in the recovery of protein-DNA complexes from avidin affinity columns. 388 7

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