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)

Damaged DNA strands are repaired by base excision (BER) in organisms, a process initiated by repair enzymes, which include DNA glycosylases and endonucleases. We expressed and characterized two putative endonuclease genes from Methanobacterium thermoautotrophicum, Mt0764 and Mt1010, encoding homologues of endonuclease III (endo III) and endonuclease IV (endo IV) of Escherichia coli. The Mt0764 and Mt1010 proteins showed endo III activity by removing thymine glycol from DNA strand and AP endonuclease activity, respectively. The Mt0764 protein not only cleaved the oligonucleotide duplex, containing a thymine glycol/adenine pair efficiently, but also showed activity on the 8-oxoguanine-containing oligonucleotide duplex. In this study, we report upon the stimulation of endo III activity by endo IV using two recombinant proteins (Mt1010 and Mt0764) from M. thermoautotrophicum. Mt1010 stimulated the DNA glycosylase activity of Mt0764 for DNA substrates containing 8-oxoguanine residues and increasing the formation of the Mt0764 protein-DNA complex. The interaction between Mt1010 and Mt0764 was observed by using an in vitro binding assay. These results suggest that association between endo III and endo IV may occur in vivo, and this contributes to efficient base excision repair for the oxidative damage of DNA.
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PMID:Endonuclease IV enhances base excision repair of endonuclease III from Methanobacterium thermoautotrophicum. 1271 7

Saccharomyces cerevisiae possesses two Escherichia coli endonuclease III homologs, NTG1 and NTG2, whose gene products function in the base excision repair pathway and initiate removal of a variety of oxidized pyrimidines from DNA. Although the glycosylase activity of these proteins has been well studied, the in vivo importance of the AP lyase activity has not been determined. Previous genetic studies have suggested that the AP lyase activities of Ntg1p and Ntg2p may be major contributors in the initial processing of abasic sites. We conducted a biochemical characterization of the AP lyase activities of Ntg1p and Ntg2p via a series of kinetic experiments. Such studies were designed to determine if Ntg1p and Ntg2p prefer specific bases located opposite abasic sites and whether these lesions are processed with a catalytic efficiency similar to Apn1p, the major hydrolytic AP endonuclease of yeast. Our results indicate that Ntg1p and Ntg2p are equally effective in processing four types of abasic site-containing substrates. Certain abasic site substrates were processed with greater catalytic efficiency than others, a situation similar to Apn1p processing of such substrates. These biochemical studies strongly support an important biological role for Ntg1p and Ntg2p in the initial processing of abasic sites and maintenance of genomic stability.
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PMID:Characterization of AP lyase activities of Saccharomyces cerevisiae Ntg1p and Ntg2p: implications for biological function. 1450 Aug 18

DNA base excision repair (BER) is initiated by DNA glycosylases that recognize and remove damaged bases. The phosphate backbone adjacent to the resulting apurinic/apyrimidinic (AP) site is then cleaved by an AP endonuclease or glycosylase-associated AP lyase to invoke subsequent BER steps. We have used a genetic approach in Saccharomyces cerevisiae to determine whether or not AP sites are blocks to DNA replication and the biological consequences if AP sites persist in the genome. We previously reported that yeast cells deficient in the two AP endonucleases (apn1 apn2 double mutant) are extremely sensitive to killing by a model DNA alkylating agent methyl methanesulfonate (MMS) and that this sensitivity can be reduced by deleting the MAG1 3-methyladenine DNA glycosylase gene. Here we report that in the absence of the AP endonucleases, deletion of two Escherichia coli endonuclease III homologs, NTG1 and NTG2, partially suppresses MMS-induced killing, which indicates that the AP lyase products are deleterious unless they are further processed by an AP endonuclease. The severe MMS sensitivity seen in AP endonuclease deficient strains can also be rescued by treatment of cells with the AP lyase inhibitor methoxyamine, which suggests that the product of AP lyase action on an AP site is indeed an extremely toxic lesion. In addition to the AP endonuclease interactions, deletion of NTG1 and NTG2 enhances the mag1 mutant sensitivity to MMS, whereas overexpression of MAG1 in either the ntg1 or ntg2 mutant severely affects cell growth. These results help to delineate alkylation base lesion flow within the BER pathway.
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PMID:Involvement of two endonuclease III homologs in the base excision repair pathway for the processing of DNA alkylation damage in Saccharomyces cerevisiae. 1469 59

2-Deoxyribonolactone (L) and the C4'-oxidized abasic site (C4-AP) are produced by a variety of DNA-damaging agents. If not repaired, these lesions can be mutagenic. Exonuclease III and endonuclease IV are the major enzymes in E. coli responsible for 5'-incision of abasic sites (APs), the first steps in AP repair. Endonuclease III efficiently excises AP lesions via intermediate Schiff-base formation. Incision of L and C4-AP lesions by exonuclease III and endonuclease IV was determined under steady-state conditions using oligonucleotide duplexes containing the lesions at defined sites. An abasic lesion (AP) in an otherwise identical DNA sequence was incised by exonuclease III or endonuclease IV approximately 6-fold more efficiently than either of the oxidized abasic sites (L, C4-AP). Endonuclease IV incision efficiency of 2-deoxyribonolactone or C4-AP was independent of whether the lesion was opposite dA or dG. 2-Deoxyribonolactone is known to cross-link to endonuclease III (Hashimoto, M. (2001) J. Am. Chem. Soc. 123, 3161.). However, the C4-AP lesion is efficiently excised by endonuclease III. Oxidized abasic site repair by endonuclease IV and endonuclease III (C4-AP only) is approximately 100-fold less efficient than repair by exonuclease III. These results suggest that the first step of C4-AP and L oxidized abasic site repair will be the same as that of regular AP lesions in E. coli.
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PMID:Repair of oxidized abasic sites by exonuclease III, endonuclease IV, and endonuclease III. 1520 14

The paradigm for repair of oxidized base lesions in genomes via the base excision repair (BER) pathway is based on studies in Escherichia coli, in which AP endonuclease (APE) removes all 3' blocking groups (including 3' phosphate) generated by DNA glycosylase/AP lyases after base excision. The recently discovered mammalian DNA glycosylase/AP lyases, NEIL1 and NEIL2, unlike the previously characterized OGG1 and NTH1, generate DNA strand breaks with 3' phosphate termini. Here we show that in mammalian cells, removal of the 3' phosphate is dependent on polynucleotide kinase (PNK), and not APE. NEIL1 stably interacts with other BER proteins, DNA polymerase beta (pol beta) and DNA ligase IIIalpha. The complex of NEIL1, pol beta, and DNA ligase IIIalpha together with PNK suggests coordination of NEIL1-initiated repair. That NEIL1/PNK could also repair the products of other DNA glycosylases suggests a broad role for this APE-independent BER pathway in mammals.
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PMID:AP endonuclease-independent DNA base excision repair in human cells. 1526 Sep 72

Abasic lesions are unable to form Watson-Crick hydrogen bonds with nucleotides. Nonetheless, polymerase and repair enzymes distinguish between various oxidized abasic lesions, as well as from nonoxidized abasic sites (AP). The C2-AP lesion is produced when DNA is exposed to gamma-radiolysis. Its effects on polymerases and repair enzymes are unknown. A recently reported method for the chemical synthesis of oligonucleotides containing C2-AP at a defined site was utilized for studying the activity of Klenow exo(-) and repair enzymes on templates containing the lesion. The C2-AP lesion has a similar effect on Klenow exo(-) as do AP and C4-AP sites. Deoxyadenosine is preferentially incorporated opposite C2-AP, but extension of the primer past the lesion is strongly blocked. C2-AP is incised less efficiently by exonuclease III and endonuclease IV than are other abasic lesions. Furthermore, although a Schiff base between C2-AP and endonuclease III can be chemically trapped, the location of the 3'-phosphate alpha with respect to the aldehyde prevents beta-elimination associated with the lyase activity of type I base excision repair enzymes. The interactions of the C2'-oxidized abasic site with Klenow exo(-) and repair enzymes suggest that the lesion will be mutagenic and that it will be removed by strand displacement synthesis and flap endonuclease processing via a long patch repair mechanism.
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PMID:In vitro replication and repair of DNA containing a C2'-oxidized abasic site. 1556 14

Generation of DNA damage is considered to be an important initial event in carcinogenesis. A considerable battery of assays exists for the detection of different genotoxic effects of compounds in experimental systems, or for investigations of exposure to genotoxic agents in environmental or occupational settings. Some of the tests may have limited use because of complicated technical setup or because they only are applicable to a few cell types. The single cell gel electrophoresis (comet) assay is technically simple, relatively fast, cheap, and DNA damage can be investigated in virtually all mammalian cell types without requirement for cell culture. The aim of this thesis was to evaluate the comet assay as a genotoxicity test in genetic toxicology of environmental agents, encompassing both experimental animal models and biomonitoring. The comet assay detects strand breaks (SB). The cells are embedded in agarose and lysed, generating nucleus-like structures in the gel (referred to as nucleoids). Following alkaline electrophoresis, the DNA strands migrate toward the anode, and the extent of migration depends on the number of SB in the nucleoid. The migration is visualized and scored in a fluorescence microscope after staining. Broad classes of oxidative DNA damage can be detected as additional SB if nucleoids are incubated with bacterial DNA glycosylase/endonuclease enzymes. Oxidized pyrimidines and purines can be detected by incubation with endonuclease III and formamidopyrimidine DNA glycosylase, respectively. The animal experimental studies indicated that the comet assay was able to detect genotoxic effects of diesel exhaust particles in lung tissue, 2-amino-3-methylimidazo[4,5-f]quinoline (IQ)-induced DNA damage in colon epithelial cells and liver tissue, and benzene-induced damage in bone marrow and liver cells. The strength of the comet assay was further outlined by application of repair enzymes, indicating no oxidative DNA base damage following IQ treatment. High levels of oxidative DNA lesions were detected after exposure to benzene or X-ray irradiation. The comet assay did not detect DNA damage in colon or liver following ingestion of diets containing of high contents of animal fat or sucrose, although other indices of DNA damage were found. Determined from the results of a large Japanese study, the discrimination between carcinogens and non-carcinogens appears to be similar between the comet assay and alkaline elution, which also detects SB. This suggests that the comet assay is a reliable genotoxicity test in animal experimental systems. In the biomonitoring studies, we investigated the effect of common exposures and lifestyle factors (rather than effects of known carcinogens) on the level of oxidative DNA damage in mononuclear blood cells of humans. In the first study, based on repeated measurements, it was shown that interindividual variation and seasonal variation were major determinants for the basal level of SB, whereas no effect of age, exercise, or antioxidant intake could be detected. The effect of exercise was further investigated under both normoxic and hypoxic circumstances, showing a strong effect of hypoxia, and only effect of exercise in terms of SB in hypoxia. In a placebo-controlled parallel dietary fruit and vegetable (or the corresponding amount of antioxidants) intervention study, no effects of the level of oxidative DNA damage or sensitivity to hydrogen peroxide were observed. Although this may seem in contrast to other antioxidant intervention studies, a critical literature survey of antioxidant intervention studies on oxidative DNA damage suggested that well-controlled studies tended to show no effect of antioxidant supplementation. In summary, the aggregated data from the publications included in this thesis, and other publications encompassing the comet assay, indicate that the comet assay is a reliable method for detection of DNA damage in tissues of experimental animals. Although not all types of genotoxic exposures should be expected to result in DNA damage in mononuclear blood cells, the comet assay seems to be a valuable tool for detection of genotoxic exposure in humans. The comet assay indicates that DNA damage is abundant in mammalian cells and affected by lifestyle and many environmental exposures, including diet, exercise, hypoxia, and sunlight.
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PMID:Genotoxicity of environmental agents assessed by the alkaline comet assay. 1585 9

Schizosaccharomyces pombe Nthpl, an ortholog of the endonuclease III family, is the sole bifunctional DNA glycosylase encoded in its genome. The enzyme removes oxidative pyrimidine and incises 3' to the apurinic/apyrimidinic (AP) site, leaving 3'-alpha,beta-unsaturated aldehyde. Analysis of nth1 cDNA revealed an intronless structure including 5'- and 3'-untranslated regions. An Nth1p-green fluorescent fusion protein was predominantly localized in the nuclei of yeast cells, indicating a nuclear function. Deletion of nth1 confirmed that Nth1p is responsible for the majority of activity for thymine glycol and AP site incision in the absence of metal ions, while nth1 mutants exhibit hypersensitivity to methylmethanesulfonate (MMS). Complementation of sensitivity by heterologous expression of various DNA glycosylases showed that the methyl-formamidopyrimidine (me-fapy) and/or AP sites are plausible substrates for Nth1p in repairing MMS damage. Apn2p, the major AP endonuclease in S. pombe, also greatly contributes to the repair of MMS damage. Deletion of nth1 from an apn2 mutant resulted in tolerance to MMS damage, indicating that Nth1p-induced 3'-blocks are responsible for MMS sensitivity in apn2 mutants. Overexpression of Apn2p in nth1 mutants failed to suppress MMS sensitivity. These results indicate that Nth1p, not Apn2p, primarily incises AP sites and that the resultant 3'-blocks are removed by the 3'-phosphodiesterase activity of Apn2p. Nth1p is dispensable for cell survival against low levels of oxidative stress, but wild-type yeast became more sensitive than the nth1 mutant at high levels. Overexpression of Nth1p in heavily damaged cells probably induced cell death via the formation of 3'-blocked single-strand breaks.
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PMID:Roles of base excision repair enzymes Nth1p and Apn2p from Schizosaccharomyces pombe in processing alkylation and oxidative DNA damage. 1607 63

Repair of damaged DNA is of great importance in maintaining genome integrity, and there are several pathways for repair of damaged DNA in almost all organisms. Base excision repair (BER) is a main process for repairing DNA carrying slightly damaged bases. Several proteins are required for BER; these include DNA glycosylases, AP endonuclease, DNA polymerase, and DNA ligase. In some bacteria the single-stranded specific exonuclease, RecJ, is also involved in BER. In this research, six Chlamydiophila pneumoniae (C. pneumoniae) genes, encoding uracil DNA glycosylase (CpUDG), endonuclease IV (CpEndoIV), DNA polymerase I (CpDNApolI), endonuclease III (CpEndoIII), single-stranded specific exonuclease RecJ (CpRecJ), and DNA ligase (CpDNALig), were inserted into the expression vector pET28a. All proteins, except for CpDNALig, were successfully expressed in E. coli, and purified proteins were characterized in vitro. C. pneumoniae BER was reconstituted in vitro with CpUDG, CpEndoIV, CpDNApolI and E. coli DNA ligase (EcDNALig). After uracil removal by CpUDG, the AP site could be repaired by two BER pathways that involved in the replacement of either one (short patch BER) or multiple nucleotides (long patch BER) at the lesion site. CpEndoIII promoted short patch BER via its 5'-deoxyribophosphodiesterase (5'-dRPase) activity, while CpRecJ had little effect on short patch BER. The flap structure generated during DNA extension could be removed by the 5'-exonuclease activity of CpDNApolI. Based on these observations, we propose a probable mechanism for BER in C. pneumoniae.
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PMID:The mechanism of base excision repair in Chlamydiophila pneumoniae. 1608 68

Generation of DNA damage is considered to be an important initial event in carcinogenesis. The single cell gel electrophoresis (comet) assay is a technically simple and fast method that detects genotoxicity in virtually any mammalian cell type without requirement for cell culture. This review discusses the strength of the comet assay in biomonitoring at its present state of validation. The simple version of the alkaline comet assay detects DNA migration caused by strand breaks, alkaline labile sites, and transient repair sites. By incubation with bacterial glycosylase/endonuclease enzymes, broad classes of oxidative DNA damage, alkylations, and ultraviolet light-induced photoproducts are detected as additional DNA migration. The most widely measured enzyme sensitive sites have been those detected by formamidopyrimidine DNA glycosylase (FPG) and endonuclease III (ENDOIII). Reports from biomonitoring studies show that the basal level of DNA damage in leukocytes is influenced be a variety of lifestyle and environmental exposures, including exercise, air pollution, sunlight, and diet. Although not all types of carcinogenic exposures should be expected to damage DNA in leukocytes, the comet assay is a valuable method for detection of genotoxic exposure in humans. However, the predictive value of the comet assay is unknown because it has not been investigated in prospective cohort studies. Also, it is important that the performance of the assay is investigated in multi-laboratory validation trials. As a tool in risk assessment the comet assay can be used in characterization of hazards.
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PMID:The alkaline comet assay: towards validation in biomonitoring of DNA damaging exposures. 1662 55

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