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)

Base excision repair (BER) is one of the cellular defense mechanisms repairing damage to nucleoside 5'-monophosphate residues in genomic DNA. This repair pathway is initiated by spontaneous or enzymatic N-glycosidic bond cleavage creating an abasic or apurinic-apyrimidinic (AP) site in double-stranded DNA. Class II AP endonuclease, deoxyribonucleotide phosphate (dRP) lyase, DNA synthesis, and DNA ligase activities complete repair of the AP site. In mammalian cell nuclear extract, BER can be mediated by a macromolecular complex containing DNA polymerase beta (beta-pol) and DNA ligase I. These two enzymes are capable of contributing the latter three of the four BER enzymatic activities. In the present study, we found that AP site BER can be reconstituted in vitro using the following purified human proteins: AP endonuclease, beta-pol, and DNA ligase I. Examination of the individual enzymatic steps in BER allowed us to identify an ordered reaction pathway: subsequent to 5' "nicking" of the AP site-containing DNA strand by AP endonuclease, beta-pol performs DNA synthesis prior to removal of the 5'-dRP moiety in the gap. Removal of the dRP flap is strictly required for DNA ligase I to seal the resulting nick. Additionally, the catalytic rate of the reconstituted BER system and the individual enzymatic activities was measured. The reconstituted BER system performs repair of AP site DNA at a rate that is slower than the respective rates of AP endonuclease, DNA synthesis, and ligation, suggesting that these steps are not rate-determining in the overall reconstituted BER system. Instead, the rate-limiting step in the reconstituted system was found to be removal of dRP (i.e. dRP lyase), catalyzed by the amino-terminal domain of beta-pol. This work is the first to measure the rate of BER in an in vitro reaction. The potential significance of the dRP-containing intermediate in the regulation of BER is discussed.
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PMID:Mammalian abasic site base excision repair. Identification of the reaction sequence and rate-determining steps. 969 77

Two enzymes of base excision repair (BER), uracil DNA glycosylase (UDG) and DNA polymerase beta (beta pol), from HeLa cells co-eluted from Superose 12 FPLC columns. The UDG was completely displaced from 150-180-kDa fractions to 30- 70-kDa fractions by brief treatment with 0.5 N NaCl, pH 3.0, as expected when protein-protein associations are disrupted, but beta pol was not displaced by this treatment. UDG was not essential to the presence of beta pol in the 150-180-kDa enzyme complex. beta pol and UDG apparently reside in separate but co-eluting structures. Immunoaffinity chromatography showed that the association of UDG and beta pol was accounted for by attachment in common to DNA and that the association was abolished by eliminating DNA. Evidence for base excision repairosomes containing UDG and beta pol in protein-protein assemblies was not found. However, UDG and human AP endonuclease (HAP1) were associated with HSP70 and HSP27, which are present in 150-180-kDa and 30-70-kDa proteins of cell sonicates. The association of HSPs with BER enzymes was confirmed by hydroxyl radical protein-protein footprinting and immunoaffinity tests. The association of HSPs and BER enzymes is a novel finding. HSP binding may account for the presence of BER enzymes in the two large size class fractions and HSPs may have functional roles in BER.
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PMID:Heat-shock proteins associated with base excision repair enzymes in HeLa cells. 1062 18

The DNA polymerase gene of Thermococcus fumicolans harbors two intein genes. Both inteins have been produced in Escherichia coli and purified either as naturally spliced products from the expression of the complete DNA polymerase gene or directly from the cloned inteins genes. Both recombinant inteins exhibit endonuclease activity, with an optimal temperature of 70 degrees C. The Tfu pol-1 intein, which belongs to the Psp KOD pol-1 allelic family, recognizes and cleaves a minimal sequence of 16 base pairs (bp) on supercoiled DNA with either Mn(2+) or Mg(2+) as cofactor. It cleaves linear DNA only with Mn(2+) and requires a 19-bp minimal recognition sequence. The Tfu pol-2 intein, which belongs to the Tli pol-2 allelic family, is a highly active homing endonuclease using Mg(2+) as cofactor. Its minimal recognition and cleavage site is 21 bp long either on linear or circular DNA substrates. Its endonuclease activity is strongly inhibited by the 3' digestion product, which remains bound to the enzyme after the cleavage reaction. According to current nomenclature, these endonucleases were named PI-TfuI and PI-TfuII. These two inteins thus exhibit different requirements for metal cofactor and substrate topology as well as different mechanism of action.
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PMID:Inteins of Thermococcus fumicolans DNA polymerase are endonucleases with distinct enzymatic behaviors. 1064 83

Mammalian cells repair apurinic/apyrimidinic (AP) sites in DNA by two distinct pathways: a polymerase beta (pol beta)-dependent, short- (one nucleotide) patch base excision repair (BER) pathway, which is the major route, and a PCNA-dependent, long- (several nucleotide) patch BER pathway. The ability of a cell-free lysate prepared from asexual Plasmodium falciparum malaria parasites to remove uracil and repair AP sites in a variety of DNA substrates was investigated. We found that the lysate contained uracil DNA glycosylase, AP endonuclease, DNA polymerase, flap endonuclease, and DNA ligase activities. This cell-free lysate effectively repaired a regular or synthetic AP site on a covalently closed circular (ccc) duplex plasmid molecule or a long (382 bp), linear duplex DNA fragment, or a regular or reduced AP site in short (28 bp), duplex oligonucleotides. Repair of the AP sites in the various DNA substrates involved a long-patch BER pathway. This biology is different from mammalian cells, yeast, Xenopus, and Escherichia coli, which predominantly repair AP sites by a one-nucleotide patch BER pathway. The apparent absence of a short-patch BER pathway in P. falciparum may provide opportunities to develop antimalarial chemotherapeutic strategies for selectively damaging the parasites in vivo and will allow the characterization of the long-patch BER pathway without having to knock-out or inactivate a short-patch BER pathway, which is necessary in mammalian cells.
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PMID:DNA base excision repair in human malaria parasites is predominantly by a long-patch pathway. 1065 42

In mammalian cells, single-base lesions, such as uracil and abasic sites, appear to be repaired by at least two base excision repair (BER) subpathways: "single-nucleotide BER" requiring DNA synthesis of just one nucleotide and "long patch BER" requiring multi-nucleotide DNA synthesis. In single-nucleotide BER, DNA polymerase beta (beta-pol) accounts for both gap filling DNA synthesis and removal of the 5'-deoxyribose phosphate (dRP) of the abasic site, whereas the involvement of various DNA polymerases in long patch BER is less well understood. Recently, we found that beta-pol plays a role in mammalian cell extract-mediated long patch BER, in that formation of a key excision product, 5'-dRP-trinucleotide (5'-dRP-N(3)), is dependent upon beta-pol (Dianov, G. L., Prasad, R., Wilson, S. H., and Bohr, V.A. (1999) J. Biol. Chem. 274, 13741-13743). The structure-specific endonuclease flap endonuclease 1 (FEN1) has also been suggested to be involved in long patch BER excision. Here, we demonstrate by immunodepletion experiments that 5'-dRP-N(3) excision in long patch BER of uracil-DNA in a human lymphoid cell extract is, indeed, dependent upon FEN1. Next, we reconstituted the excision step of long patch BER using purified human proteins and an oligonucleotide substrate with 5'-dRP at the margin of a one-nucleotide gap. Formation of the excision product 5'-dRP-N(3) was dependent upon both strand displacement DNA synthesis by beta-pol and FEN1 excision. FEN1 stimulated strand displacement DNA synthesis of beta-pol. FEN1 acting either alone, or without DNA synthesis by beta-pol, produced a two-nucleotide excision product, 5'-dRP-N(1), but not 5'-dRP-N(3). These results demonstrate that human FEN1 and beta-pol can cooperate in long patch BER excision and specify the predominant excision product seen with a cell extract.
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PMID:FEN1 stimulation of DNA polymerase beta mediates an excision step in mammalian long patch base excision repair. 1066 Jun 19

Mitochondrial DNA polymerase gamma (pol gamma) is active in base excision repair of AP (apurinic/apyrimidinic) sites in DNA. Usually AP site repair involves cleavage on the 5' side of the deoxyribose phosphate by AP endonuclease. Previous experiments suggested that DNA pol gamma acts to catalyze the removal of a 5'-deoxyribose phosphate (dRP) group in addition to playing the conventional role of a DNA polymerase. We confirm that DNA pol gamma is an active dRP lyase and show that other members of the family A of DNA polymerases including Escherichia coli DNA pol I also possess this activity. The dRP lyase reaction proceeds by formation of a covalent enzyme-DNA intermediate that is converted to an enzyme-dRP intermediate following elimination of the DNA. Both intermediates can be cross-linked with NaBH(4). For both DNA pol gamma and the Klenow fragment of pol I, the enzyme-dRP intermediate is extremely stable. This limits the overall catalytic rate of the dRP lyase, so that family A DNA polymerases, unlike pol beta, may only be able to act as dRP lyases in repair of AP sites when they occur at low frequency in DNA.
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PMID:Characterization of a catalytically slow AP lyase activity in DNA polymerase gamma and other family A DNA polymerases. 1077 38

THY Pol-2 intein, from Thermococcus hydrothermalis, belongs to the same allelic family as TLI Pol-2 (PI-TLII), Tfu Pol-2 (PI-TFUII) and TspTY Pol-3 mini-intein, all inserted at the pol-c site of archaeal DNA polymerase genes. This new intein was cloned, expressed in Escherichia coli and purified. The intein is a specific endonuclease (PI-THY:I) which cleaves the inteinless sequence of the THY DNA pol gene. Moreover, PI-TLII, PI-TFUII and PI-THYI are very similar endonucleases which cleave DNA in the same optimal conditions at 70 degrees C yielding similar 3'-hydroxyl overhangs of 4 bp and the reaction is subject to product inhibition. The three enzymes are able to cleave the three DNA sequences spanning the pol-c site and a 24 bp consensus cleavage site was defined for the three isoschizomers. However, the exact size of the minimal cleavage site depends both on the substrate sequence and the endonuclease. The inability of the isoschizomers to cleave the inteinless DNA polymerase gene from Pyrococcus spp. KOD is due to point substitutions on the 5' side of the pol-c site, suggesting that the absence of inteins of this allelic family in DNA polymerase genes from Pyrococcus spp. can be linked to small differences in the target site sequence.
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PMID:The thy pol-2 intein of Thermococcus hydrothermalis is an isoschizomer of PI-TliI and PI-TfuII endonucleases. 1105 40

Wild-type p53 protein can markedly stimulate base excision repair (BER) in vitro, either reconstituted with purified components or in extracts of cells. In contrast, p53 with missense mutations either at hot-spots in the core domain or within the N-terminal transactivation domain is defective in this function. Stimulation of BER by p53 is correlated with its ability to interact directly both with the AP endonuclease (APE) and with DNA polymerase beta (pol beta). Furthermore, p53 stabilizes the interaction between DNA pol beta and abasic DNA. Evidence that this function of p53 is physiologically relevant is supported by the facts that BER activity in human and murine cell extracts closely parallels their levels of endogenous p53, and that BER activity is much reduced in cell extracts immunodepleted of p53. These data suggest a novel role for p53 in DNA repair, which could contribute to its function as a key tumor suppressor.
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PMID:A role for p53 in base excision repair. 1117 35

In higher eukaryotes, base excision repair can proceed by two alternative pathways: a DNA polymerase beta-dependent pathway and a proliferating cell nuclear antigen (PCNA)-dependent pathway. Recently, we have reconstituted the PCNA-dependent AP site repair reaction with six purified human proteins: AP endonuclease, replication factor C (RFC), PCNA, flap endonuclease 1 (FEN1), DNA polymerase delta (pol delta), and DNA ligase I. In this reconstituted system, the number of nucleotides replaced during the repair reaction (patch size) was predominantly two nucleotides. PCNA can directly interact with RFC, pol delta, FEN1 and DNA ligase I. These interactions are partly through a consensus motif, QXX(I/L/M)XX(F/H)(F/Y), found in each of the four proteins. PCNA functions as a molecular adaptor for recruiting these factors to the site of DNA repair. Two DNA-N-glycosylases among those so far cloned from human, UNG2 and MYH, are found to have the same PCNA-binding motif. Major substrates of these enzymes, a uracil opposite an adenine for UNG2 and an adenine opposite an 8-oxoguanine for MYH, are formed during DNA replication. Therefore, UNG2 and MYH may serve for replication-coupled base excision repair through the direct interaction with PCNA in the replication machinery.
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PMID:Molecular mechanism of PCNA-dependent base excision repair. 1155 92

A number of laboratories have shown that those types of DNA damage that are generally reparable by base excision repair are efficiently repaired in mtDNA. In contrast, most types of damage that require other sorts of repair machinery are not effectively repaired in mtDNA. We have shown that a set of highly purified mitochondrial proteins, including AP endonuclease (APE), DNA polymerase gamma, and mtDNA ligase, is capable of efficiently repairing abasic (AP) sites in mtDNA. These three enzymes appear to conduct all four steps in a conventional BER mechanism: incision, removal of the 5'-deoxyribosephosphate by dRP lyase, polymerization, and ligation. Both DNA polymerase gamma and mtDNA ligase possess some dRP lyase activity. DNA polymerase gamma is a member of the family A of DNA polymerases, with clear homology to DNA pol I of E. coli, while mtDNA ligase is an alternatively expressed form of DNA ligase III. The dRP lyase activities discovered in these mitochondrial enzymes are not unique, but are found in all representatives tested of the family-A DNA polymerases and of the ATP-dependent DNA ligases. These dRP lyase activities have low turnover rates that may have important implications for the overall process of BER. All proteins involved in maintenance of mtDNA are encoded in the nuclear genome and must be directed to mitochondria in order to act on mtDNA. Thus, it is evident that the scope of DNA repair activities undertaken within mitochondria is determined by the set of nucleus-encoded DNA repair enzymes that are capable of being imported into the organelle. A review of DNA repair proteins that may be imported into mitochondria in various organisms will be presented.
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PMID:Enzymology of mitochondrial base excision repair. 1155 2

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