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)

Abasic (AP) sites in DNA are produced spontaneously and by many genotoxic agents. The repair of such damages is initiated by AP endonucleases, which are evidently ubiquitous. We employed the recently cloned cDNA, APE, that encodes the major human AP endonuclease, to isolate large genomic fragments that contain the intact APE gene. The sequence of 3 kb encompassing APE was determined (GenBank Accession No. M99703). The APE gene contains four small introns (ranging 130 to 566 bp) and five exons, the first of which is untranslated. The 0.5 kb of DNA sequence upstream of APE did revealed only a possible CCAAT box, but no other regulatory sites or a TATA box, consistent with the constitutive expression of AP endonuclease activity observed in other studies. The location of APE in the human genome was mapped to chromosome 14, bands q11.2-12, by fluorescence in situ hybridization of metaphase cells with DNA from the genomic clones and subclones. Although this locus has not been associated causally with genetic diseases of DNA repair, some translocations that affect 14q11.2-12 could compromise APE and lead to genetic instability.
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PMID:Human apurinic endonuclease gene (APE): structure and genomic mapping (chromosome 14q11.2-12). 128 93

Abasic (AP) sites are common, potentially mutagenic DNA damages that are attacked by AP endonucleases. The biological roles of these enzymes in metazoans have not been tested. We have cloned the human cDNA (APE) that encodes the main nuclear AP endonuclease. The predicted Ape protein, which contains likely nuclear transport signals, is a member of a family of DNA repair enzymes that includes two bacterial AP endonucleases (ExoA protein of Streptococcus pneumoniae and exonuclease III of Escherichia coli) and Rrp1 protein of Drosophila melanogaster. Purified Ape protein lacks the 3'-exonuclease activity against undamaged DNA that is found in the bacterial and Drosophila enzymes, but the lack of obvious amino acid changes to account for this difference suggests that the various enzyme functions evolved by fine tuning a conserved active site. Expression of the active human enzyme in AP endonuclease-deficient E. coli conferred significant resistance to killing by the DNA-alkylating agent methyl methanesulfonate. The APE cDNA provides a molecular tool for analyzing the role of this central enzyme in maintaining genetic stability in humans.
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PMID:Cloning and expression of APE, the cDNA encoding the major human apurinic endonuclease: definition of a family of DNA repair enzymes. 172 34

Apurinic/apyrimidinic endonuclease (APE; also referred to as Ref-1) repairs oxidative damage to DNA and regulates the redox state of DNA binding proteins. This later property influences the ability of DNA binding proteins, which include Fos and Jun, to bind to AP-1 complexes. Since DNA binding proteins may play important roles in regulating neuronal activity in the hypothalamus, we examined the expression of APE in the hypothalami of rats. In situ hybridization studies revealed high levels of APE mRNA expression in the suprachiasmatic nuclei (SCN), supraoptic nuclei (SON) and paraventricular nuclei (PVN). Since the SCN are the site of a biological clock, we examined whether APE gene expression was regulated by the circadian cycle or by light. Quantitative in situ hybridization studies showed that APE mRNA levels remained constant over the circadian cycle and were not increased by light exposure at night. We also tested if APE expression was under osmotic control in the SON and PVN. Hypertonic stimulus, however, did not induce further expression of APE mRNA in either the SON or the PVN. These findings identify the SCN, SON and PVN as sites of high level APE gene expression. These data suggest that APE may play an important role in these structures either to facilitate DNA repair or DNA binding protein action.
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PMID:Expression of a multifunctional DNA repair enzyme gene, apurinic/apyrimidinic endonuclease (APE; Ref-1) in the suprachiasmatic, supraoptic and paraventricular nuclei. 753 93

Expression of the mammalian major apurinic/apyrimidinic (AP) endonuclease (designated as APEX nuclease, or HAP1, APE or Ref-1 gene product) during mouse brain development was investigated by in situ and northern blot hybridizations. The enzyme is known to be a redox factor (Ref-1) stimulating DNA binding activity of AP-1 binding proteins such as Fos and Jun as well as a multifunctional DNA repair enzyme having 5' AP endonuclease, DNA 3' repair diesterase, 3'-5' exonuclease and DNA 3'-phosphatase activities. In the embryonic and postnatal development, APEX mRNA was expressed at high levels in the proliferative zone of various brain regions, with showing temporal and spatial changes. Its expression decreased in association with brain development to the basal expression level which was observed even in adulthood, with the exception of its expression in the hippocampal formation. The growth-dependent expression of APEX gene suggests that it has some roles on cell proliferation and/or differentiation in developmental brain. Its expression on the hippocampal formation became significant from postnatal day 7 and then increased. The pyramidal and granule cell layers expressed it at a higher level than most other brain regions at postnatal day 21. The developmental change of APEX gene expression was not necessarily associated with the changes of expression of c-fos and c-jun genes measured by northern blot hybridization. However, the present results suggested that APEX/Ref-1 gene product can interact with AP-1 binding proteins in brain, especially in the hippocampal formation, to regulate some brain functions by redox-activation.
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PMID:Developmental expression of APEX nuclease, a multifunctional DNA repair enzyme, in mouse brains. 765 3

Ionizing radiation produces a variety of DNA damage through active oxygen species such as the superoxide radical (O2.-), the hydroxyl radical (OH.), and hydrogen peroxide (H2O2). The removal of alkylation-induced apurinic (AP) sites and 3'-blocking deoxyribose fragments by exonuclease III (xth) and endonuclease IV (nfo) has been well demonstrated in E. coli. Very little information on the repair of radiation-induced DNA damage by human apurinic endonuclease is available. We examined the biological roles of the human AP endonuclease in the repair of radiation-induced DNA damage. An expression vector was constructed with human APE cDNA and transformed into radiation-sensitive E. coli mutants (xth- and nfo-). The radiation cytotoxicity was assayed by cell survival curves. Expression of human AP endonuclease in E. coli confirmed that AP endonuclease could complement exonuclease III functionally to diminish radiation cytotoxicity. In contrast, AP endonuclease was not able to increase resistance to H2O2, owing to a poor 3'-termini repair. We also tested whether AP endonuclease is a limiting factor for radiation cytotoxicity by using a plasmid nicking assay. Cell extracts from mutant cells with or without AP endonuclease expression were added to irradiated supercoiled plasmid DNA. The inability to convert supercoiled plasmid DNA to relaxed or linear forms suggested that there were large accumulations of AP sites in the mutant cell extracts. The AP endonuclease activities estimated from the plasmid nicking assays are 20-fold lower in the cell extracts of AP endonuclease-deficient mutant than in AP endonuclease-expressing cells. Therefore, AP endonuclease is a limiting step of base excision repair for the radiation-sensitive E. coli mutant, BW528. Our results conclude that AP endonuclease is responsible for the removal of AP sites from gamma-radiation-induced base damage in E. coli.
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PMID:Reduction of radiation cytotoxicity by human apurinic endonuclease in a radiation-sensitive Escherichia coli mutant. 769 Sep 78

Drosophila Rrp1 (Recombination repair protein 1) belongs to a family of DNA repair nucleases that includes Escherichia coli exonuclease III, Streptococcus pneumoniae exonuclease A, bovine BAP, mouse APEX endonuclease, and human APE. Within a 252 amino acid region, colinear homology is shared between all members. Rrp1 is unique in that it includes a 427 amino acid N-terminal region not related to any known sequence. The protein copurifies with an apurinic endonuclease and a double-stranded DNA 3'-exonuclease. In this study, a 5'-end-labeled 37 base pair oligonucleotide substrate containing a single apurinic site was used to characterize the endonuclease activity of Rrp1. This substrate is utilized efficiently by Rrp1: the specific activity observed is 1 x 10(5) units/mg. The abasic double-stranded DNA oligonucleotide is cleaved only at the abasic site to create a single-strand break. Strand breaks are not detected in the complementary strand, in the single-stranded DNA oligonucleotide, or in the base-paired control substrate. After endonucleolytic cleavage at the abasic site, exonucleolytic processing at the nick is slow and requires a molar excess of Rrp1, while exonuclease III degrades the nicked substrate more efficiently. The Rrp1 cleavage product comigrates with a DNaseI cleavage product, and the newly formed terminus supports DNA synthesis by DNA polymerase. Therefore, Rrp1 cleaves the phosphodiester backbone at one position 5' to the apurinic site and leaves a 3'-hydroxyl terminus. Rrp1 is a class II apurinic endonuclease and is likely to be important in DNA repair in Drosophila.
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PMID:Characterization of the apurinic endonuclease activity of Drosophila Rrp1. 769 63

Abasic (AP) sites in DNA are cytotoxic and mutagenic and their repair is initiated by AP endonucleases. The major AP endonuclease of mammalian cells is encoded by the APE gene. Ape protein has also been proposed to modulate the activity of some transcription factors independently of its AP endonuclease activity. We investigated whether APE expression is coordinated with cell division, which could diminish mutagenesis. The level of APE mRNA was followed during wound healing in porcine epidermis, in which surgical wounding prompts rapid cell proliferation followed by a differentiation program to regenerate normal skin. In situ hybridization with a probe from human APE cDNA revealed strongly decreased expression in rapidly proliferating migrating cells during the first 1-3 days following wounding, succeeded by sharply increased APE expression that exceeded the pre-wounding levels by days 9-17. These changes were not observed in the surrounding undamaged tissue. In contrast to the foregoing in vivo results, APE expression in cultured primary human fibroblasts (IMR90) or myeloid leukemia cells (K562) was not coordinated with cell division. This biphasic APE expression during wound healing could relate to transcription factor regulation or it could allow unhindered DNA synthesis or prepare the developing epidermis to handle DNA damage. However, if transient under-expression of APE-encoded repair enzyme does occur, it might render regenerating skin especially vulnerable to mutagenesis during the cell proliferation phase.
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PMID:Regulated expression of APE apurinic endonuclease mRNA during wound healing in porcine epidermis. 862 67

Abasic sites represent ubiquitous DNA lesions that arise spontaneously or are induced by DNA-damaging agents. They block DNA replication and are considered to be cytotoxic and mutagenic. The key enzymes involved in the repair of abasic sites are apurinic/apyrimidinic (AP) endonucleases which process these lesions in an error-free mechanism. To analyze the role of AP endonuclease in the protection of mammalian cells against DNA damaging agents, we have transfected both the human (APE) and the yeast (APN1) AP endonuclease in Chinese hamster cells and compared the effects of expression of these genes in stable transfectants as to survival of cells and formation of chromosomal aberrations. Although APE was markedly expressed on RNA and protein level, nuclear extracts of human APE transfectants did not show a higher AP endonuclease activity than the parental line and became not more resistant to the cell killing and clastogenic effect of methyl methanesulfonate (MMS) and hydrogen peroxide (H2O2). In contrast, cells transfected with the yeast APN1 gene expressed higher AP endonuclease activity and became clearly more resistant to the cytotoxic and chromosome breakage inducing activity of the agents. The results indicate that the excision repair capacity and correspondingly the mutagen resistance can be elevated by introducing, in mammalian cells, a yeast DNA repair gene and verify that AP sites are both cytotoxic and clastogenic lesions.
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PMID:Expression of yeast but not human apurinic/apyrimidinic endonuclease renders Chinese hamster cells more resistant to DNA damaging agents. 908 48

The multifunctional mammalian apurinic/apyrimidinic (AP) endonuclease (APE) is responsible for the repair of AP sites in DNA. In addition, this enzyme has been shown to function as a redox factor facilitating the DNA-binding capability of JUN and FOS, HeLa AP-1, and numerous other transcription factors, including Myb, members of the CREB family and nuclear factor-kappa B. Although previously presumed to be ubiquitously expressed at comparable levels in all tissues and cell types, recent evidence has shown APE to vary significantly in its expression between tissues and even within tissues. To further characterize APE expression at various stages of cervical neoplasia, we investigated the levels of APE protein expression using immunohistochemistry in normal cervix, pre-invasive and invasive squamous lesions of the cervix, as well as in cervical cancer cell lines. We report here that the APE protein is predominantly expressed in the nuclei of cells from both primary tumors and cervical cell lines, but the level of APE protein is significantly and dramatically elevated in cervical cancer tissue. These results implicate the use of anti-APE antibodies as an effective reagent in the early detection of premalignant and malignant cancer of the cervix. These findings are suggestive that the increase of a DNA repair enzyme in cancerous cells may allow these cells to be refractive to chemotherapy.
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PMID:The apurinic/apyrimidinic endonuclease (APE/ref-1) DNA repair enzyme is elevated in premalignant and malignant cervical cancer. 942 67

We investigated the minimal promoter of APEX, which encodes mouse apurinic DNA repair endonuclease. A 1.85-kb fragment with APEX upstream sequences and approximately 290 bp of the transcribed region linked to a chloramphenicol acetyltransferase (CAT) reporter gene was assayed by transient transfection in NIH-3T3 cells. The minimal APEX promoter was comprised of approximately 190 bp of upstream and approximately 170 bp of transcribed DNA (exon 1 and most of intron 1). This approximately 360-bp region contains two CCAAT boxes and other consensus protein binding sites, but no TATA box. Deletion of the 5'-most CCAAT box decreased activity approximately 5-fold. The second CCAAT box (situated in exon 1) may play an independent role in APEX expression. Transcription start sites have been identified downstream of the second CCAAT box, and DNase I footprinting demonstrated NIH-3T3 nuclear proteins binding this region, including an Spl site located between the CCAAT boxes. Electrophoretic mobility-shift assays indicated binding by purified Sp1. Mouse proteins did not bind three myc-like (USF) sites in the APEX promoter, in contrast to the APE promoter. The APEX and APE promoter had similar activity in Hela cells, but in mouse cells, the murine promoter had approximately 5-fold higher activity than did the human promoter. Both the APEX and APE promoters exhibited bidirectional activity in their cognate cells.
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PMID:Comparison of the promoters of the mouse (APEX) and human (APE) apurinic endonuclease genes. 950 86

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