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)

Covalently closed relaxed SV40 DNA [SV40(I')] generated by polynucleotide ligase closure of nicked circular SV40 DNA was analyzed by agarose gel electrophoresis. The DNA can be resolved into a series of bands differing in superhelical density whose intensities are approximately symmetrical about a central most intense band. Densitometric analysis of the gel pattern has revealed that the distribution of DNA species conforms to a Boltzmann distribution and has enabled us to derive an equation for the free energy of superhelix formation for SV40 DNA. We believe the observed bands reflect the time-averaged distribution of thermally induced fluctuations in DNA chain conformation in solution at the time of ligase catalyzed phosphodiester bond formation. Densitometric analysis of native supercoiled SV40 DNA, partially unwound in the presence of ethidium bromide, demonstrates that the separation between adjacent bands is approximately half that seen with SV40(I'). Agarose gel electrophoresis was also used to measure the change in average base rotation angle as a function of temperature by a procedure independent of ethidium dye binding.
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PMID:Electrophoretic analysis of covalently closed SV40 DNA: Boltzmann distributions of DNA species. 17 58

The poly(dA) dependent T4 polynucleotide ligase catalyzed polymerization of oligodeoxythymidylates is dependent upon duplex stability. The antibiotics ethidium bromide, netropsin and Hoechst 33258 stabilize the duplex poly(dA) . P(dT)n (n = 6-10) to thermal denaturation. Ethidium bromide to DNA ratio of 1.25 and netropsin or Hoechst 33258 to DNA ratio of 0.1 the Tm of d(pT) 10 . poly (dA) was increased by 10 degrees and 25 degrees C respectively. The T4 polynucleotide ligase activity was not inhibited under these conditions and temperature optimum of joining of d(pT) 10 . poly(dA) was increased 5 degrees to 10 degrees by the binding of the antibiotics. Duplexes containing shorter oligodeoxythymidylates required lower concentrations of the antibiotics netropsin or Hoechst 33258 to show no inhibition of T4 polynucleotide ligase. The temperature optima of joining the duplexes d(pT)6 . POLY(DA) and d(pT) 8 . poly(dA) were increased by 5 degrees C upon binding of the antibiotics. Polyacrylamide gel analysis of the T4 polynucleotide ligase catalyzed joining of the oligodeoxythymidylates showed that the presence of antibiotics affected the product distribution of the polymerized oligomers.
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PMID:The effect of antibiotics on the T4 polynucleotide ligase catalyzed template dependent polymerization of oligodeoxythymidylates. 45 Jul 17

We describe a method leading to the formation of closed circles of rDNA starting from total DNA of Xenopus laevis. Linear DNA molecules were digested with exonuclease 3 and self-annealed. Open circles were enriched and covalently closed by the simultaneous use of polynucleotide kinase, DNA polymerase and polynucleotide ligase. Closed circles of rDNA1 were shown to be alkali-resistant, to have higher density than linear molecules in cesium chloride density gradients containing ethydium bromide, and to have the sedimentation constant expected for a single repeat unit of rDNA comprehensive of its spacer.
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PMID:Preparation and isolation of covalently closed circular rDNA molecules from DNA of Xenopus laevis. 67 51

A chimeric plasmid has been constructed in vitro from colicin E1 factor (Col E1), nontransmissible R-factor RSF-1010, and Drosophila melanogaster DNAs by the sequential action of Escherichia coli endonuclease RI(Eco RI) and T4 phage DNA ligase. The chimeric plasmid was assembled in two stages--first, a composite plasmid consisting of Col E1 and RSF 1010 was constructed, followed by partial digestion of the composite with Eco RI (in order to open one of the susceptible cleavage sites) and ligation with an Eco RI-digested D. melanogaster DNA preparation. The chimeric plasmid was selected and amplified in vivo by sequential transformation of E. COLI C with the ligated mixture, selection of transformants in medium containing streptomycin plus colicin E1, followed by amplification in the presence of chloramphenicol and purification of the extracted plasmid by dye-buoyant density gradient centrifugation in ethidium bromide-CsCl solution. Treatment of the chimeric plasmid with Eco RI yields three fragments with mobilities corresponding to the linear forms of the constituents--COL E1, mol wt 4.2 times 106, RSF 1010, mol wt 5.5 times 106 and D. melanogaster DNA, mol wt 4.0 times 106. The buoyant densities of the three constituents are respectively 1.706, 1.719, and 1.697 g/cm3, while the buoyant density of the composite factor is 1.712 and that of the chimeric plasmid is 1.705. Serratia marscesens endonuclease R (Sma) which introduces a single cut in Col E1, but not in RSF 1010, converts the chimeric plasmid to a single linear molecule (mol wt 13.7 times 106) and sequential digestion with both Sma and Hin III yields two distinct fragments, mol wt 3.7 and 10.0 times 10.6, respectively; this implies that the two sites are unique and occur at distinctly different positions. Sequential digestion with both Hin III and Eco RI reveals that the Hin III cut is in the D. melanogaster segment; neither Col E1 nor RSF 1010 contain sites susceptible to digestion with Hin III. In the presence of chloramphenicol, the chimeric plasmid continues toreplicate for 9 hr while bacterial chromosomal DNA replicates at a much slower rate. As in the case of the composite plasmid, continued synthesis is the presence of chloramphenicol suggests that the replicator of Col E1 is functional in the chimeric plasmid as well. Examination of the chimeric plasmid by partial denaturation mapping permits identification of its constituents, each of which presents a characteristic profile. The D. melanogaster segment reveals a wealth of detail at the molecular level pertaining to the distribution of AT-rich regions.
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PMID:Construction and characterization of a chimeric plasmid composed of DNA Pfrom Escherichia coli and Drosophila melanogaster. 80 34

The mitochondrial DNA of the protozoan Leishmania tarentolae, known as kinetoplast DNA, contains thousands of minicircles linked in a two-dimensional network. When kinetoplast DNA from exponentially growing cells is centrifuged to equilibrium in a CsCl/ethidium bromide gradient, it is resolved into two discrete components, Form I and Form II. Nearly all of the minicircles in Form I networks are covalently closed and all of those in Form II networks are open. These forms are indistinguishable from each other when examined by electron microscopy and they appear identical when analyzed by gel electrophoresis after digestion with the restriction enzymes Hae III or Hpa II. However, Form II networks sediment roughly 50% faster than Form I networks on a neutral sucrose gradient, indicating that Form II networks are larger in size or more compact in conformation, or both. Analysis of denatured Form II DNA by sedimentation or electron microscopy indicates that nearly all of its minicircles have one or more interruptions in both strands. Since the majority of the Form II minicircles can be closed by DNA ligase, most of these interruptions must be nicks. Experiments with S1 nuclease indicate that some small gaps may also exist in Form II minicircles. 5'-Terminal nucleotide analysis of Form II kinetoplast DNA does not suggest that the interruptions are at specific locations in the minicircles. The significance of the two forms of kinetoplast DNA has not yet been determined, but it is possible that Form II is an intermediate in replication of this DNA.
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PMID:A nicked form of kinetoplast DNA in Leishmania tarentolae. 89 2

Breaks are introduced into DNA strands when DNA solutions containing ethidium bromide (EB) are exposed to incandescent light. The nicking rate is sensitive to the concentration of EB and the light intensity. At short exposure times, this rate is limited by photon capture and formation of an intermediate capable of nicking DNA and zero-order nicking kinetics are observed. If the EB is pre-irradiated, the nicking rate is limited by DNA concentration and first-order nicking kinetics are observed. The nicking rate is not greatly affected by the presence of a low frequency of ribonucleotides in the duplex structure. The nicking reaction produces neither double-strand breaks nor interstrand crosslinks. The nicks produced cannot be closed by DNA ligase. The fluorescent light intensities under normal laboratory conditions are insufficient to induce significant nicking.
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PMID:Strand breakage in solutions of DNA and ethidium bromide exposed to visible light. 89 66

A composite plasmid has been constructed in vitro from colicin E1 factor (mass of 4.2 megadaltons [Md]) and nontransmissible resistance factor RSF 1010 (mass, 5.5. Md) deoxyribonucleic acids (DNAs) by the sequential action of Escherichia coli endonuclease (RI (Eco RI) and T4 phage DNA ligase on the covalently closed circular forms of the constituents. The composite plasmid was selected and amplified in vivo by sequential transformation of E. coli C600 with the ligated mixture and selection of transformants in medium containing streptomycin plus colicin E1, followed by amplification in the presence of chloramphenicol and purification of the extracted plasmid by dye-buoyant density gradient centrifugation in ethidium bromide-cesium chloride solution. Treatment of the composite plasmid with Eco RI yielded two fragments with mobilities corresponding to the linear forms of the parental plasmids, whereas Serratia marscesens endonuclease R (SmaR), which introduces a single scission in the colicin E1 factor but not in RSF 1010, convErted the composite plasmid to a single linear molecule (mass, 9.7 Md). Sequential degradation of colicin E1 factor with Sma R and Eco RI produced two fragments with masses of 3.5 and 0.7 Md; sequential degradation of RSF 1010 produced only one fragment (due to the cleavage with Eco RI), and sequential degradation of the composite plasmid produced the expected three fragments--an RSF 1010 Eco RI linear and the two expected products from the colicin E1 factor moiety. The composite plasmid conferred on the host cell resistance to streptomycin, sulfonamides, and colicin E1, but colicin E1 itself was not synthesized. In contrast, colicin E1 was synthesized by cells containing simultaneously both colicin E1 factor and RSF 1010 as separate entities. In the presence of chloramphenicol, the composite plasmid continued to replicate for 6 h. whereas replication of RSF 1010 and chromosomal DNA stopped within 2 h. Continued replication in the presence of chloramphenicol suggests that the replicator of the colicin E1 factor is functional in the composite plasmid.
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PMID:Construction of a colicin E1-R factor composite plasmid in vitro: means for amplification of deoxyribonucleic acid. 109 May 74

A protein, called relaxation protein because of its ability to remove superhelical turns in closed-circular DNA, has been isolated and partially characterized from the nuclei of LA9 mouse and HeLa cells. The purification was facilitated by an assay method, with PM2 DNA, which used the fluorescence enhancement of the intercalating dye ethidium bromide upon binding to the closed-circular DNA. The amount of dye bound depends upon the degree of the superhelix density of the DNA. The relaxation products were analysed by the buoyant separation method in CsCl containing ethidium bromide and were shown to be completely relaxed. The purification resulted in a single band in a dodecylsulfate gel electrophoresis with an apparent molecular weight of 37000. The pH optimum is 7.0 and the optimal salt concentration is 0.2 M NaCl. The relaxation protein removes negative as well as positive supercoils, the latter generated by the interaction of ethidium bromide with closed-circular DNA. Relaxation of positive supercoils results, after removal of the dye, in the formation of molecules with superhelix densities exceeding that of native PM2 DNA (0.054). The highest negative superhelix density observed was -0.098 +/- 0.001. The corresponding positive superhelix density has been calculated to be + 0.023. A nicking--swivelling--closing mechanism is postulated, but nicked intermediates have so far not been demonstrated. The relaxation protein is not inhibited by known mammalian endonuclease I inhibitors, except for denatured DNA, and does not possess a conventional polynucleotide ligase activity. The relaxation activity was found to be predominantly in the nuclei, with only small amounts present in the cytoplasm and mitochondria. The biological function of transient swivels induced by the relaxation protein is not known. However, transient swivels are considered necessary or useful in the replication of closed-circular DNA or long linear DNA, respectively. Relaxation protein could replace the combined action of an endonuclease and a ligase ahead of the replication fork. Alternatively, transient swivels could be involved in the transcription process.
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PMID:Isolation and partial characterisation of the relaxation protein from nuclei of cultured mouse and human cells. 110 Mar 83

The endothelium-associated enzyme xanthine oxidase is known to generate reactive oxygen intermediates which may damage the surrounding tissue. We investigated whether reactive oxygen intermediates released by xanthine oxidase exert a toxic effect on isolated rat islet cells. The xanthine oxidase (25 mU/ml)/hypoxanthine (0.5 mmol/l) system released reactive oxygen intermediates in vitro as detected by luminol in a chemiluminescence analysing system. The addition of nicotinamide inhibited the release of reactive oxygen intermediates in a dose-dependent manner (50% inhibition at 20 mmol/l). Exposure of islet cells to enzyme generated reactive oxygen intermediates caused lysis of 39% of the cells within 15 h. Monitoring the mitochondrial function of islet cells by the conversion of tetrazolium bromide to its formazan product revealed a significant reduction of the respiratory activity down to 51% of that of the controls by 30 min after the initiation of the xanthine oxidase reaction. Mitochondrial dysfunction preceded plasma membrane damage. The addition of nicotinamide, a radical scavenger and inhibitor of the DNA repair enzyme poly(ADP-ribose) synthetase protected the islet cells from lysis and partially preserved their mitochondrial activity in the presence of reactive oxygen intermediates. We conclude that activation of the endothelial enzyme xanthine oxidase, known to be induced by mediators of immune cells or by episodes of ischaemia and reperfusion causes islet cell damage with subsequent cell death in early phases of pancreatic islet cell destruction.
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PMID:Oxygen radicals generated by the enzyme xanthine oxidase lyse rat pancreatic islet cells in vitro. 147 12

We established a simple and rapid plasmid DNA purification method. Crude plasmid DNA preparations are treated with 4 M LiCl in the presence of 0.6 mg/ml ethidium bromide to precipitate RNA and proteins contained in the DNA preparations. After removal of RNA and protein precipitates, the supernatant is filtered through a Sepharose CL6B column to remove low-molecular-weight contaminants. This procedure takes only 30 min and provides pure plasmid DNA preparations that consist mainly of covalently closed circular plasmid DNA but have no detectable RNA and protein. The purified DNA preparations are susceptible to various six- and four-base-recognition restriction endonucleases, T4 DNA ligase, the Klenow fragment of DNA polymerase I, and T7 and Taq DNA polymerase. Since no special equipment is needed for this purification method, 20 or more samples of microgram to milligram levels can be treated in parallel.
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PMID:Rapid isolation of plasmid DNA by LiCl-ethidium bromide treatment and gel filtration. 166 16

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