EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of DNA to ionising radiation produces a variety of lesions. Double-strand breaks are repaired by recombinational pathways including a rapid single-strand annealing process which results in deletion of DNA sequences, and a double-strand break repair pathway which conserves genetic information. Single-strand breaks are repaired by the sequential action of a 3'-phosphodiesterase, DNA polymerase beta and a DNA ligase. Damaged bases are excised by DNA glycosylases, and a single-base gap introduced, either by the action of an AP endonuclease activity and a DNA deoxyribophosphodiesterase, or by the AP lyase activity of the glycosylase and an AP endonuclease. Repair is completed by DNA polymerase beta and a DNA ligase.
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PMID:The repair of ionising radiation-induced damage to DNA. 851 49

Ionizing radiation and normal cellular respiration form reactive oxygen species that damage DNA and contribute to a variety of human disorders including tumor promotion and carcinogenesis. A major product of free radical DNA damage is the formation of 8-oxoguanine, which is a highly mutagenic base modification produced by oxidative stress. Here, Drosophila ribosomal protein S3 is shown to cleave DNA containing 8-oxoguanine residues efficiently, The ribosomal protein also contains an associated apurinic/apyrimidinic (AP) lyase activity, cleaving phosphodiester bonds via a beta,delta elimination reaction. The significance of this DNA repair activity acting on 8-oxoguanine is shown by the ability of S3 to rescue the H2O2 sensitivity of an Escherichia coli mutM strain (defective for the repair of 8-oxoguanine) and to abolish completely the mutator phenotype of mutM caused by 8-oxoguanine-mediated G-->T transversions. The ribosomal protein is also able to rescue the alkylation sensitivity of an E.coli mutant deficient for the AP endonuclease activities associated with exonuclease III (xth) and endonuclease IV (nfo), indicating for the first time that an AP lyase can represent a significant source of DNA repair activity for the repair of AP sites. These results raise the possibility that DNA repair may be associated with protein translation.
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PMID:A Drosophila ribosomal protein contains 8-oxoguanine and abasic site DNA repair activities. 864 Dec 96

Ionizing radiation and other free radical-generating systems induce a great variety of oxidative damage to DNA bases. The major known lesions are repaired by two well-characterized DNA glycosylases of Escherichia coli, endonuclease III (Nth) and formamidopyrimidine-DNA glycosylase (Fpg), which have associated AP lyase activities. To detect and characterize potentially harmful oxidative base DNA lesions that may be repaired by alternative means, we exposed plasmid DNA to low doses of gamma-rays and removed the major base lesions by treatment with Nth and Fpg proteins. The closed circular DNA remaining after these treatments was used as a substrate of the UvrABC endonuclease complex from E. coli and as a template in a DNA polymerase arrest assay in vitro. The circular DNA contained lesions that were recognized and incised by the UvrABC nuclease and also lesions that blocked DNA polymerization in vitro. The blocking lesions were more abundant in DNA irradiated under nitrogen than under air and occurred mainly at tandem guanines; however, they were also frequent at tandem adenines and tandem cytosines.
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PMID:DNA base damage induced by ionizing radiation recognized by Escherichia coli UvrABC nuclease but not Nth or Fpg proteins. 878 61

The Escherichia coli Uvr(A)BC endonuclease (Uvr(A)BC) initiates nucleotide excision repair of a large variety of DNA damages. The damage recognition and incision steps by the Uvr(A)BC is a complex process utilizing an ATP-dependent DNA helix-tracking activity associated with the UvrA2B1 complex. The latter activity leads to the generation of highly positively supercoiled DNA in the presence of E. coli topoisomerase I in vitro. Such highly positively supercoiled DNA, containing ultraviolet irradiation-induced photoproducts (uvDNA), is resistant to the incision by Uvr(A)BC, whereas the negatively supercoiled and relaxed forms of the uvDNA are effectively incised. The E. coli gyrase can contribute to the above reaction by abolishing the accumulation of highly positively supercoiled uvDNA thereby restoring Uvr(A)BC-catalyzed incision. Eukaryotic (calf thymus) topoisomerase I is able to substitute for gyrase in restoring this Uvr(A)BC-mediated incision reaction. The inability of Uvr(A)BC to incise highly positively supercoiled uvDNA results from the failure of the formation of UvrAB-dependent obligatory intermediates associated with the DNA conformational change. In contrast to Uvr(A)BC, the Micrococcus luteus UV endonuclease efficiently incises uvDNA regardless of its topological state. The in vitro topodynamic system proposed in this study may provide a simple model for studying a topological aspect of nucleotide excision repair and its interaction with other DNA topology-related processes in E. coli.
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PMID:The topodynamics of incision of UV-irradiated covalently closed DNA by the Escherichia coli Uvr(A)BC endonuclease. 896 81

The gene of Micrococcus luteus UV endonuclease (cyclobutane pyrimidine dimer-DNA glycosylase/ abasic lyase) was cloned and characterized. The cloned gene, whose product had a predicted molecular mass of 17,120 Da, was found to be capable of complementing the Escherichia coli uvrA6 mutation in vivo with respect to resistance to acetonemediated molecular photosensitization, a treatment producing exclusively cyclobutane pyrimidine dimers in DNA. It also generated a nicking activity specific for photosensitization-treated DNA by in vitro transcription/translation. When expressed in E. coli cells, the gene produced a protein structurally identical with UV endonuclease and possessing an activity consistent with cyclobutane pyrimidine dimer-DNA glycosylase/abasic lyase with respect to the effect of inhibitors and the site of the DNA backbone scission. Furthermore, the UV endonuclease-deficient mutant DB7 was shown to regain the enzyme through transformation with the cloned gene. The deduced amino acid sequence of the gene product was at best 27% identical with that of endonuclease V of phage T4, an enzyme strikingly similar to UV endonuclease in molecular and catalytic properties. Despite this marginal overall similarity in amino acid sequence, four of the seven amino acid residues reported to be functionally important in the T4 enzyme were found to be conserved in the M. luteus enzyme. We propose that the gene be called uveA.
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PMID:UV endonuclease of Micrococcus luteus, a cyclobutane pyrimidine dimer-DNA glycosylase/abasic lyase: cloning and characterization of the gene. 901 29

Escherichia coli exonuclease III and endonuclease III are two distinct DNA-repair enzymes that can cleave apurinic/apyrimidinic (AP) sites by different mechanisms. While the AP endonuclease activity of exonuclease III generates a 3'-hydroxyl group at AP sites, the AP lyase activity of endonuclease III produces a 3'-alpha,beta unsaturated aldehyde that prevents DNA-repair synthesis. Saccharomyces cerevisiae Apn1 is the major AP endonuclease/3'-diesterase that also produces a 3'-hydroxyl group at the AP site, but it is unrelated to either exonuclease III or endonuclease III. apn1 deletion mutants are unable to repair AP sites generated by the alkylating agent methyl methane sulphonate and display a spontaneous mutator phenotype. This work shows that either exonuclease III or endonuclease III can functionally replace yeast Apn1 in the repair of AP sites. Two conclusions can be derived from these findings. The first of these conclusions is that yeast cells can complete the repair of AP sites even though they are cleaved by AP lyase. This implies that AP lyase can contribute significantly to the repair of AP sites and that yeast cells have the ability to process the alpha,beta unsaturated aldehyde produced by endonuclease III. The second of these conclusions is that unrepaired AP sites are strictly the cause of the high spontaneous mutation rate in the apn1 deletion mutant.
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PMID:Normal processing of AP sites in Apn1-deficient Saccharomyces cerevisiae is restored by Escherichia coli genes expressing either exonuclease III or endonuclease III. 919 99

Apurinic/apyrimidinic (AP) sites occur frequently in DNA as a result of spontaneous base loss or following removal of a damaged base by a DNA glycosylase. The action of many AP endonuclease enzymes at abasic sites in DNA leaves a 5'-deoxyribose phosphate (dRP) residue that must be removed during the base excision repair process. This 5'-dRP group may be removed by AP lyase enzymes that employ a beta-elimination mechanism. This beta-elimination reaction typically involves a transient Schiff base intermediate that can react with sodium borohydride to trap the DNA-enzyme complex. With the use of this assay as well as direct 5'-dRP group release assays, we show that T4 DNA ligase, a representative ATP-dependent DNA ligase, contains AP lyase activity. The AP lyase activity of T4 DNA ligase is inhibited in the presence of ATP, suggesting that the adenylated lysine residue is part of the active site for both the ligase and lyase activities. A model is proposed whereby the AP lyase activity of DNA ligase may contribute to the repair of abasic sites in DNA.
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PMID:The action of DNA ligase at abasic sites in DNA. 952 83

Apurinic/apyrimidinic (AP) endonuclease (APE; EC 4.2.99.18) plays a central role in repair of DNA damage due to reactive oxygen species (ROS) because its DNA 3'-phosphoesterase activity removes 3' blocking groups in DNA that are generated by DNA glycosylase/AP-lyases during removal of oxidized bases and by direct ROS reaction with DNA. The major human APE (APE-1) gene is activated selectively by sublethal levels of a variety of ROS and ROS generators, including ionizing radiation, but not by other genotoxicants-e.g., UV light and alkylating agents. Increased expression of APE mRNA and protein was observed both in the HeLa S3 tumor line and in WI 38 primary fibroblasts, and it was accompanied by translocation of the endonuclease to the nucleus. ROS-treated cells showed a significant increase in resistance to the cytotoxicity of such ROS generators as H2O2 and bleomycin, but not to UV light. This "adaptive response" appears to result from enhanced repair of cytotoxic DNA lesions due to an increased activity of APE-1, which may be limiting in the base excision repair process for ROS-induced toxic lesions.
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PMID:Activation of apurinic/apyrimidinic endonuclease in human cells by reactive oxygen species and its correlation with their adaptive response to genotoxicity of free radicals. 956 Feb 28

DNA polymerase beta (beta-pol) cleaves the sugar-phosphate bond 3' to an intact apurinic/apyrimidinic (AP) site (i.e. AP lyase activity). The same bond is cleaved even if the AP site has been previously 5'-incised by AP endonuclease, resulting in a 5' 2-deoxyribose 5-phosphate (i.e. dRP lyase activity). We characterized these lyase reactions by steady-state kinetics with the amino-terminal 8-kDa domain of beta-pol and with the entire 39-kDa polymerase. Steady-state kinetic analyses show that the Michaelis constants for both the dRP and AP lyase activities of beta-pol are similar. However, kcat is approximately 200-fold lower for the AP lyase activity on an intact AP site than for an AP endonuclease-preincised site. The 8-kDa domain was also less efficient with an intact AP site than on a preincised site. The full-length enzyme and the 8-kDa domain efficiently remove the 5' dRP from a preincised AP site in the absence of Mg2+, and the pH profiles of beta-pol and 8-kDa domain dRP lyase catalytic efficiency exhibit a broad alkaline pH optimum. An inhibitory effect of pyridoxal 5'-phosphate on the dRP lyase activity is consistent with involvement of a primary amine (Lys72) as the Schiff base nucleophile during lyase chemistry.
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PMID:Human DNA polymerase beta deoxyribose phosphate lyase. Substrate specificity and catalytic mechanism. 961 42

The endonuclease III from Escherichia coli is a repair enzyme which exhibits both a glycosylase and an endonuclease function. The activity of the enzyme can be assayed by measuring the released targeted bases in solution from a sample of modified DNA. In the present study, gas chromatography-mass spectrometry was used together with an HPLC prepurification step in order to single out the released bases. The prepurification was found to enhance the specificity and the sensitivity of the assay. Thus, the overall method allowed us to analyze separately 5-hydroxy-5,6-dihydrothymine from the cis and trans isomers of 6-hydroxy-5,6-dihydrothymine. Examples of application of the assay are provided with the measurement of the E. coli endonuclease III-mediated excision of 5-hydroxy-5,6-dihydrothymine and 5,6-dihydrothymine from samples of gamma-irradiated DNA in the presence of cysteine.
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PMID:Gas chromatography-mass spectrometry with high-performance liquid chromatography prepurification for monitoring the endonuclease III-mediated excision of 5-hydroxy-5,6-dihydrothymine and 5,6-dihydrothymine from gamma-irradiated DNA. 968 72

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