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)

In toluene-treated Escherichia coli incision breaks accumulate during post-irradiation incubation in the presence of adenosine 5'-triphosphate (ATP). It is shown that incised deoxyribonucleic acid (DNA) is converted to high-molecular-weight DNA during reincubation in the presence of the four deoxyribonucleoside triphosphates (dNTP's) and nicotinamide adenine dinucleotide (NAD). This restitution process is ATP independent and N-ethylmaleimide insensitive and takes place only in polA+ strains. It is defective in strains carrying a mutation in the 5' leads to 3' exonucleolytic activity associated with DNA polymerase I. Repair of accumulated incision breaks differs from repair in which all the steps of the excision repair process occur simultaneously or in rapid succession. The latter is observed if toluene-treated E. coli are incubated immediately after irradiation in the presence of the four dNTP's, NAD, and ATP. It is shown that under these conditions dimer excision occurs to a larger extent than during repair of accumulated incision breaks and that, except in strains defective in polynucleotide ligase, incision breaks do not accumulate. This consecutive mode of repair is detectable in polA+ strains and at low doses also in polA mutants.
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PMID:Two modes of excision repair in toluene-treated Escherichia coli. 16 27

In a toluene-treated mutant of Escherichia coli K-12 having a temperature-sensitive, conditionally lethal mutation in the structural gene for deoxyribonucleic acid (DNA) ligase, an extensive DNA repair synthesis occurred in X-irradiated cells at the nonpermissive temperature, 42 C. At the permissive temperature, 30 C, nearly normal semiconservative synthesis and limited repair synthesis were observed when DNA ligase was activated by the addition of nicotinamide adenine dinucleotide.
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PMID:Role for deoxyribonucleic acid ligase in deoxyribonucleic acid polymerase i-dependent repair synthesis in toluene-treated escherichia coli. 17 Feb 52

DNA synthesis after ultraviolet irradiation is low in wild type toluene-treated cells. The level of repair incorporation is greater in strains deficient in DNA polymerase I. The low level of repair synthesis is attributable to the concerted action of DNA polymerase I and polynucleotide ligase. Repair synthesis is stimulated by blocking ligase activity with the addition of nicotinamide mononucleotide (NMN) or the use of a ligase temperature-sensitive mutant. NMN stimulation is specific for DNA polymerase I-mediated repair synthesis, as it is absent in isogenic strains deficient in the polymerase function or the 5' leads to 3' exonuclease function associated with DNA polymerase I. DNA synthesis that is stimulated by NMN is proportional to the ultraviolet exposure at low doses, nonconservative in nature, and is dependent on the uvrA gene product but is independent of the recA gene product. These criteria place this synthesis in the excision repair pathway. The NMN-stimulated repair synthesis requires ATP and is N-ethylmaleimide-resistant. The use of NMN provides a direct means for evaluating the involvement of DNA polymerase I in excision repair.
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PMID:DNA polymerase I-mediated ultraviolet repair synthesis in toluene-treated Escherichia coli. 34 Apr 56

The selective excision of products of the 5,6-dihydroxy-dihydrothymine type (t') from gamma-irradiated or OSO4-oxidized DNA or synthetic poly[d(A-T)] was observed with crude extracts of Escherichia coli and isolated nuclei from human carcinoma HeLa S-3 and Chinese hamster ovary cells. The results with E. coli extracts allow the following conclusion: (1) The uvrA-gene product is not required for t' excision. (2) Radiation-induced strand breakage is not required for product excision. (3) Experiments with extracts of E. coli polAexl showed that the 5' in equilibrium 3' exonuclease associated with polymerase I is responsible for the removal of t'. (4) Experiments with extracts of E. coli endo I lig 4 and the ligase inhibitor nicotinamide mononucleotide showed that polynucleotide ligase accomplishes the last strand resealing step in the excision-repair of t'. Isolated nuclei from HeLa and Chinese hamster ovary cells possess the necessary enzymes for the selective excision of t' from gamma-irradiated or osmium tetroxide oxidized DNA. Approximately 25 to 35% of the products were removed from DNA within 60 min. Unspecific DNA degradation was very low. Radiation-induced strand breakage is not required for product removal.
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PMID:Excision-repair of gamma-ray-damaged thymine in bacterial and and mammalian systems. 110 54

Several hepatotoxic agents damage Ca++ regulation and produce toxic cell death in a manner consistent with a cause-and-effect relationship; however, vital targets of Ca++ remain unidentified. Recent results show that DNA may be the chief Ca++ target during apoptosis, a form of cell death considered distinct from toxic cell death or necrosis. The present studies explored whether nuclear Ca++ regulation is lost before dimethylnitrosamine-induced necrosis, whether DNA is attacked by Ca(++)-dependent endonucleases and whether inhibitors of Ca(++)-endonuclease activity and the DNA repair enzyme poly(ADP-ribose)polymerase affect necrosis. Adult male ICR mice received 100 mg/kg of dimethylnitrosamine i.p. By 2 to 4 hr, total nuclear Ca++ reached 150 to 180% of control and DNA fragmentation was 140 to 170% of control. Electrophoresis of DNA revealed a sharp decline in genomic DNA with the appearance of DNA fragments in a ladder-like pattern. Ca++ elevation and DNA fragmentation preceded toxic cell death by 4 hr or more and reached peak values at 18 to 24 hr, coincident with maximal alanine aminotransferase leakage. Aurintricarboxylic acid, a Ca(++)-endonuclease inhibitor, reduced toxicity 67%. 3-Aminobenzamide, nicotinamide adenine dinucleotide and theophylline, inhibitors of poly(ADP-ribose)polymerase-mediated DNA repair, potentiated liver damage 2-fold. These results support the hypothesis that DNA fragmentation plays a contributing role in toxic cell death induced by dimethylnitrosamine. Furthermore, the findings suggest that new opportunities may exist to moderate the toxicity of alkylating hepatotoxins by altering DNA regulation.
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PMID:Ca(++)-activated DNA fragmentation and dimethylnitrosamine-induced hepatic necrosis: effects of Ca(++)-endonuclease and poly(ADP-ribose) polymerase inhibitors in mice. 132 12

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

To investigate whether target cell DNA injury participates in cytolysis by human neutrophil defensins (HNP), we analyzed HNP-treated cells for single strand breaks by the alkaline unwinding assay and the activation of ADPribose polymerase, a DNA repair enzyme. Strand breaks and ADP-ribosylation were first detected in K562 and Raji targets 6-8 hr after incubation with HNP and increased to maximal levels by 18 hr. DNA was not degraded into nucleosome-sized fragments. To assess the impact of DNA injury on cytolysis, we increased strand breakage by coincubating targets with HNP and two inhibitors of ADPribose polymerase, 3-aminobenzamide, or nicotinamide. Concurrently with inhibiting polymerase activity and increasing DNA injury, these agents significantly enhanced HNP-mediated cytolysis. Enhancement occurred only at time points (over 6 hr) and in targets (only nucleated targets) where HNP-induced DNA injury could be occurring. These data indicate that neutrophil defensins can induce DNA injury in targets and suggest such injury may be involved in target cell death.
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PMID:Human neutrophil peptide defensins induce single strand DNA breaks in target cells. 191 32

An in vitro Escherichia coli oriC-specific DNA replication system was used to investigate the DNA replication pathways of oriC plasmids. When this system was perturbed by the DNA ligase inhibitor nicotinamide mononucleotide (NMN), alterations occurred in the initiation of DNA synthesis and processing of intermediates and DNA products. Addition of high concentrations of NMN soon after initiation resulted in the accumulation of open circular dimers (OC-OC). These dimers were decatenated to open circular monomers (form II or OC), which were then processed to closed circular supercoiled monomers (form I or CC) products. After a delay, limited ligation of the interlinked dimers (OC-OC to CC-OC and CC-CC) also occurred. Similar results were obtained with replication protein extracts from polA mutants. The presence of NMN before any initiation events took place prolonged the existence of nicked template DNA and promoted, without a lag period, limited incorporation into form II molecules. This DNA synthesis was nonspecific with respect to oriC, as judged by DnaA protein dependence, and presumably occurred at nicks in the template DNA. These results are consistent with oriC-specific initiation requiring closed supercoiled molecules dependent on DNA ligase activity. The results also show that decatenation of dimers occurs readily on nicked dimer and represents an efficient pathway for processing replication intermediates in vitro.
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PMID:Segregation of relaxed replicated dimers when DNA ligase and DNA polymerase I are limited during oriC-specific DNA replication. 254 56

Oxidants are generated in vivo by multiple mechanisms, including stimulation of leukocytes, hyperoxia, metabolism of arachidonic acid, and the activation of various oxidases. When the biochemical defences to the oxidants are inadequate, injury of tissues results. This injury was observed in rabbits and rhesus monkeys when pulmonary inflammation was induced with phorbol esters or formylated peptide given intrabronchially. We have recently investigated metabolic changes in various cells exposed to oxidants that are generated from stimulated leukocytes, including H2O2, O2, and HOCl. The target cells used were P388D1 murine macrophage-like tumour cells, human peripheral lymphocytes, GM 1380 human fibroblasts and rabbit alveolar macrophages. The oxidants used were H2O2 and PMA stimulated PMNs or neutroplasts. Lysis could only be prevented when catalase was added within the first 30-40 min of H2O2 exposure indicating that early metabolic changes determined the fate of the cell. Within seconds after the addition of H2O2 to P388D1 cells activation of the hexose monophosphate shunt (HMPS) was observed indicative of increased glutathione cycle activity. At the same time DNA strand breaks (determined by an alkaline unwinding technique) were detected. They resulted in the activation of the DNA repair enzyme poly-ADP-ribose polymerase (pADP-RP) within minutes after the addition of H2O2. At the same time ATP and NAD (the substrate of pADP-RP) concentrations dropped and nicotinamide accumulated extracellularly. 10-15 min after oxidant exposure free intracellular Ca++ concentrations determined by Quin 2 fluorescence started to increase due to release from intracellular stores.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidant and protease injury of the lung. 369 17

When niacin-requiring E. coli was starved of niacin, a precursor of nicotinamide adenine dinucleotide (NAD), the cells elongated and synthesis of DNA was inhibited while syntheses of RNA and protein continued. The cellular NAD concentration decreased to less than one tenth of the normal level in niacin deficiency, but no change in DNA ligase level was detected. The apparent inhibition of DNA synthesis can be explained as due to reduction in the activity of the cofactor, NAD, for the enzyme. The DNA synthesized in this state was small in an alkaline sucrose gradient but of normal size in a neutral sucrose gradient. The molecules had a double-stranded structure, as judged by hydroxyapatite chromatography. The small pieces of DNA were integrated into normal-size DNA molecules on addition of niacin, when the cellular NAD concentration was restored to the normal level but DNA synthesis was not. It is suggested that this small DNA is an intermediate in DNA replication.
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PMID:Replication and properties of DNA in nicotinamide adenine dinucleotide deficiency of Escherichia coli cells. 431 May 16

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