EC:6.5.1.2 - FACTA Search

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Query: EC:6.5.1.2 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The specificities of the DNA repair enzyme O6-alkylguanine-DNA alkyltransferase from brain and liver cells of the chick embryo and of DNase I were demonstrated in vitro by their response to substrate DNA pretreated with monofunctional alkylating agents of different O6-guanine alkylating ability and some antineoplastic agents. Treatment of DNA with ethidium bromide, Hoechst 33258, doxorubicin, Fe2+/bleomycin, and suramin resulted in a dose-dependent diminution of alkyltransferase activity (DE50 approximately 5 micrograms/ml, 15 micrograms/ml, 5 micrograms/ml, 5 micrograms/ml, 100 micrograms/ml, respectively). Apart from bleomycin, comparable results were obtained with DNase I. Thermal denaturation of the substrate DNA reduced both alkyltransferase and DNase I activity. No effect was seen with X-irradiation. Cisplatin decreased only DNase I activity. Some topoisomerase II and/or gyrase inhibitors remained without significant effects on the alkyltransferase reaction whereas DNA catabolism by DNase I was diminished in a dose-dependent manner (DE50 between 6.5 and 19 micrograms/ml).
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PMID:Inhibition of O6-alkylguanine-DNA alkyltransferase and DNase I activities in vitro by some alkylating substances and antineoplastic agents. 172 Jul 84

The activity of DAPI, on a number of DNA-directed enzymes involved in DNA topology, transcription, replication and repair, is reported in this paper. DAPI was always more inhibitory than ethidium bromide, in particular against RNA polymerase and DNA ligase, which seemed to be specifically affected. While the effect on RNA polymerase is likely due to a preferential occupancy of the promoter region, that on DNA ligase could rely upon a mechanism of steric hindrance in the minor groove. These phenomena, independently from an alteration of the tertiary structure of DNA by the ligand, can account for the previously reported inhibition of plasmid expression in Escherichia coli.
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PMID:The effect of the minor groove binding agent DAPI (4,6-diamidino-2-phenyl-indole) on DNA-directed enzymes: an attempt to explain inhibition of plasmid expression in Escherichia coli [corrected]. 216 Mar 98

Transcription of synthetic DNA by T7 RNA polymerase was used to obtain oligoribonucleotides of defined sequence. The enzyme's ability to transcribe DNA immobilized on hydrazide-sepharose was revealed. DNA templates used in such synthesis can be constructed by means of enzymatic (DNA ligase) or chemical ligation (cyanogen bromide).
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PMID:[RNA synthesis using T7 phage RNA polymerase: transcription of synthetic DNA templates in solution and on polymer support]. 247 95

Three linear 21-nt oligonucleotides (C2, C3, C7) have been synthesized with different sequences of A and T residues. One pairwise combination, (C3, C7), hybridizes to form a conventional antiparallel duplex (aps-C3.C7), whereas the pair C2, C3 forms a duplex (ps-C2.C3) in which the two strands are in a parallel orientation and the A.T base-pairs in a reverse Watson-Crick configuration. The existence of the novel ps helical structure was established from the following criteria: (i) The electrophoretic mobilities of the ps and aps duplexes in native and denaturing polyacrylamide gels are similar. (ii) The ps duplex is not a substrate for T4 DNA ligase. (iii) Salt-dependent thermal transitions are observed for the two duplexes, but the melting temperatures of the ps molecules are 15 degrees C lower. (iv) The ultraviolet absorption and circular dichroism spectra of the ps duplex are indicative of a base-paired structure, but differ systematically from that of the aps helix. (v) Based on fluorescent measurements, the bis-benzimidazole drug BBI-258 shows a lower affinity for the ps compared to the aps duplex, whereas the opposite preference holds for the intercalator ethidium bromide. We conclude from the present study that parallel stranded DNA is a stable conformation which can arise by interaction between two conventional strands with appropriate sequence homology.
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PMID:Parallel stranded duplex DNA. 339 11

A series of four hairpin deoxyoligonucleotides was synthesized with a four-nucleotide central loop (either C or G) flanked by the complementary sequences d(T)10 and d(A)10. Two of the molecules contain either a 3'-p-3' or 5'-p-5' linkage in the loop, so that the strands in the stem have the same, that is, parallel (ps) polarity. The pair of reference oligonucleotides have normal phosphodiester linkages throughout and antiparallel (aps) stem regions. All the molecules adopt a duplex helical structure in that (i) the electrophoretic mobilities in polyacrylamide gels of the ps and aps oligomers are similar. (ii) The ps hairpins are substrates for T4 polynucleotide kinase, T4 DNA ligase, and Escherichia coli exonuclease III. (iii) Salt-dependent thermal transitions are observed for all hairpins, but the ps molecules denature 10 degrees C lower than the corresponding aps oligomers. (iv) The ultraviolet absorption and circular dichroism spectra are indicative of a base-paired duplex in the stems of the ps hairpins but differ systematically from those of the aps counterparts. (v) The bis-benzimidazole drug Hoechst-33258, which binds in the minor groove of B-DNA, exhibits very little fluorescence in the presence of the ps hairpins but a normal, enhanced emission with the aps oligonucleotides. In contrast, the intercalator ethidium bromide forms a strongly fluorescent complex with all hairpins, the intensity of which is even higher for the ps species. (vi) The pattern of chemical methylation is the same for both the ps and aps hairpins. The combined results are consistent with the prediction from force field analysis of a parallel stranded right-handed helical form of d(A)n.d(T)n with a secondary structure involving reverse Watson-Crick base pairs and a stability not significantly different from that of the B-DNA double helix. Models of the various hairpins optimized with force field calculations are described.
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PMID:Parallel stranded DNA. 339 90

Plasmids extracted from bacterial cells by alkaline extraction can easily be isolated from linear DNA by isopycnic centrifugation in CsTFA. This is a fast and simple method which circumvents the use of the intercalating dye, ethidium bromide, and consequently the problems associated with its removal. The buoyant densities for covalently closed circular DNA and linear DNA in CsTFA are 1.60 g/ml and 1.65 g/ml, respectively. The isolation is achieved regardless of plasmid size and can be accomplished at temperatures of between 4 and 30 degrees C. Plasmid DNA isolated in gradients of CsTFA are of a high purity and have been found to be intact when cleaved with restriction enzymes and ligated with T4 DNA ligase.
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PMID:Isolation of bacterial plasmids by density gradient centrifugation in cesium trifluoroacetate (CsTFA) without the use of ethidium bromide. 388 42

Cycloheximide addition at various times from 24 to 36 hr after virus infection markedly inhibits the rate of simian virus 40 (SV40) deoxyribonucleic acid (DNA) synthesis in monkey kidney (CV-1) cultures. To determine whether superhelical (form I) SV40 DNA was synthesized in the cycloheximide-inhibited cultures, extracts were prepared by the method of Hirt from cultures labeled with (3)H-thymidine ((3)H-dT) and were analyzed by cesium chloride-ethidium bromide (CsCl-EtBr) equilibrium centrifugation and by velocity sedimentation in neutral sucrose gradients. When control or cycloheximide-treated cultures were labeled for 2 or 4 hr with (3)H-dT at 36 or 37 hr after infection, 71 to 83% of the radioactivity soluble in 1 m NaCl was detected in closed-circular SV40 DNA (form I). Cycloheximide treatment did not generate an increase of higher multiple circular forms of SV40 DNA. In pulse-chase experiments with or without cycloheximide treatment, radioactivity first appeared in nicked molecular forms sedimenting faster than open-circular SV40 DNA (form II), and then was chased into superhelical form I SV40 DNA. These results suggest that in cycloheximide-treated SV40-infected cultures: (i) polynucleotide ligase concentrations are adequate, and (ii) duplication errors causing formation of circular oligomers of SV40 DNA are not enhanced.
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PMID:Analysis of the molecular forms of simian virus 40 deoxyribonucleic acid synthesized in cycloheximide-treated cell cultures. 554 35

Our recent structure-activity analysis of Fpg protein of Escherichia coli, using oligodeoxynucleotides containing various 8-oxopurine derivatives, has allowed us to postulate an enzyme mechanism involving protonation of 8-oxoguanine at O-6 and nucleophilic attack of the deoxyribose moiety at C-1' leading to the formation of an enzyme-substrate Schiff base intermediate (Tchou, J., Bodepudi, V., Shibutani, S., Antoshechkin, I., Miller, J., Grollman, A. P., and Johnson, F. (1994) J. Biol. Chem. 269, 15318-15324). In this paper, sodium cyanoborohydride has been used to convert the transient intermediate to a covalent enzyme-DNA complex. The location of the active site of Fpg protein is further delineated using two approaches. 1) A radiolabeled DNA substrate is used to tag the active site of Fpg protein, using sodium cyanoborohydride. The active site is mapped to the first 73 amino acid residue fragment by cyanogen bromide cleavage analysis. 2) A maltose-binding protein fusion system is used to generate amino-terminal modifications of Fpg protein to explore the role of the amino-terminal region in DNA binding and catalysis. Results support the conclusion that the active site of Fpg protein is located at or near the amino terminus. Thus, Fpg protein may act in a similar fashion as T4 endonuclease V, a DNA repair enzyme that uses its amino-terminal alpha-amino group of threonine to carry out catalysis via Schiff base formation (Dodson et al., 1993).
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PMID:The catalytic mechanism of Fpg protein. Evidence for a Schiff base intermediate and amino terminus localization of the catalytic site. 774 6

Our working hypothesis states that DNA damage is a critical step in toxic cell death. The DNA hypothesis was tested in cultured mouse hepatocytes by examining whether inhibitors of DNA repair would increase dimethylnitrosamine toxicity and DNA damage in parallel. Inhibitors were chosen for selectivity toward DNA polymerase alpha (aphidicolin, myricetin), DNA ligase (ethidium bromide), or multiple repair enzymes (ara-C, doxorubicin). Dimethylnitrosamine caused concentration-dependent DNA damage at 6 hr and cell death at 24 hr (35% ALT release vs. 8.8% in control cultured hepatocytes). Each repair inhibitor increased dimethylnitrosamine-induced DNA damage and toxic cell death in parallel. Doxorubicin maximally elevated DNA fragmentation and toxicity (57% ALT release). Repair inhibitors alone failed to damage DNA or cause cell death in this model system. These data support the hypothesis that DNA damage is an early causal event in toxic cell death caused by alkylating hepatotoxicants.
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PMID:DNA as a critical target in toxic cell death: enhancement of dimethylnitrosamine cytotoxicity by DNA repair inhibitors. 799 86

Vaccinia DNA ligase and mammalian DNA ligases II and III comprise a distinct subgroup of structurally homologous enzymes within the eukaryotic DNA ligase family. The specificity and fidelity of the viral enzyme were investigated using purified recombinant ligase and synthetic duplex DNA substrates containing a single strand discontinuity. Vaccinia ligase catalyzed efficient strand joining on nicked DNAs in the presence of magnesium and ATP (Km = 95 microM). dATP, ITP, AMPPCP, 3'dATP, and ATP alpha S could not substitute for ATP; of these, 3'dATP and ATP alpha S were inhibitors of ligation. The vaccinia enzyme was unable to seal strands across a 1 nt (nucleotide) or 2 nt gap. Ligase action at a 1 nt gap resulted in accumulation of high levels of the normally undetectable DNA-adenylate reaction intermediate. In contrast, no DNA-adenylate was formed at a 2 nt gap. A native gel mobility shift assay showed that vaccinia DNA ligase was capable of discriminating between nicked and gapped DNAs at the substrate binding step. The ligase was fairly tolerant of mismatches at a nick involving the 5' phosphate donor terminus but was inhibited strongly by mismatches at the 3' OH acceptor terminus, especially by purine.-purine mispairs. These findings underscore the importance of a proper 3' OH terminus in substrate recognition and reaction chemistry but also raise the possibility that ligase may generate mutations during DNA repair by sealing DNA molecules with mispaired ends. Ligase was inhibited by several DNA binding drugs, including, in order of decreasing potency, distamycin, ethidium bromide, and actinomycin. Strand joining by purified ligase was not affected by etoposide, a drug that inhibits vaccinia virus replication in vivo and which depends on the presence of vaccinia ligase for its antiviral action.
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PMID:Vaccinia virus DNA ligase: specificity, fidelity, and inhibition. 851 71

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