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)

The size of the repair patch produced by E. coli DNA polymerase (Pol I) following the removal of a pyrimidine dimer from DNA in response to the nicking activity of T4 endonuclease (T4 endo V) was determined. A 48-bp DNA containing a pyrimidine dimer at a defined location was labelled in the damaged strand and incubated with T4 endo V and E. coli endonuclease IV. Subsequently, DNA synthesis by DNA Pol I was carried out in the presence of four dNTPs, ATP and DNA ligase. Analysis of the reaction products on a sequencing gel revealed a ladder of only 4-oligonucleotides, 1-4 nucleotides greater in length than the fragment generated by the combined nicking activities of T4 endo V and E. coli endonuclease IV. Thus we conclude that the in vitro repair patch size of T4 endo V is 4 nucleotides and that in some cases the repaired DNA is not ligated.
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PMID:In vitro characterization of repair synthesis initiated by T4 endonuclease V on a synthetic DNA substrate. 151 8

Cytosine arabinoside (araC) is a potent antileukemic agent that is misincorporated into DNA in the course of its action. We have developed a chemical synthetic method that allows site-specific introduction of araC into synthetic DNA oligomers. We describe here the utilization of these oligomers as primer/template substrates for in vitro DNA synthesis reactions and as fragments for DNA ligation. These studies were undertaken to investigate the manner in which sites of araC misincorporation constitute sites of DNA dysfunction. AraCMP at the primer terminus dramatically reduced the rate of next nucleotide addition for Escherichia coli polymerase I (Klenow fragment) (Pol I), T4 polymerase, HeLa cell polymerase alpha 2 (Pol alpha 2), and AMV reverse transcriptase. Polymerases with associated 3'-5' exonuclease activity preferentially excised araCMP from the primer terminus prior to chain elongation. AraCMP-terminated fragments were ligated more slowly than control fragments by T4 DNA ligase. AraCMP located at an internucleotide site in the template markedly slowed replicative bypass for Pol I, T4 polymerase, and Pol alpha 2, but not for reverse transcriptase. Synthesis was partially arrested after insertion of the correct nucleotide opposite the lesion site. These results suggest a complex mechanism for the inhibition of DNA replication by araC when it is misincorporated into DNA.
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PMID:Functional consequences of the arabinosylcytosine structural lesion in DNA. 245 56

Repair of alkylated bases in DNA is performed by O6-methylguanine-DNA methyltransferase (MGMT) and a set of enzymes of the base excision repair pathway involving N-methylpurine-DNA glycosylase (MPG), apurinic endonuclease (APE), DNA polymerase beta (Pol beta) and DNA ligase. The level of expression of these enzymes may exert a profound effect on resistance of cells towards alkylating drugs. We have comparatively analyzed the expression of MGMT and the different base excision repair genes in rat hepatoma cells (line H4IIE) after exposure to alkylating agents, X-rays and the glucocorticoid hormone dexamethasone. Furthermore, the effect of these agents on the activity of the cloned human MGMT promoter was assayed. Exposure of cells to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) or ionizing radiation increased MGMT mRNA levels up to 4.5-fold. Under the same conditions of treatment, exerting only a weak toxic effect, MPG and DNA ligase I mRNA levels were not enhanced, whereas the amounts of APE and Pol beta mRNA transiently increased by approximately 2-fold after X-ray and MNNG treatment, respectively. Dexamethasone induced both MGMT, APE and Pol beta mRNA and the induction paralleled the increase in mRNA of the glucocorticoid-dependent gene tyrosine aminotransferase. The observed increase in MGMT mRNA was due to promoter activation, which was shown in transient transfection assays with MGMT promoter-CAT reporter constructs in H4IIE cells. In these assays, the human MGMT promoter was found to be induced by methylating agents (MNNG and methyl methanesulfonate), ionizing radiation and dexamethasone. Weak induction of the promoter was observed after UV irradiation. Treatment with the tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate was ineffective in promoter activation. The transfected MGMT promoter was not inducible by mutagens in HeLa S3 cells, which do not respond with induction of the endogenous MGMT gene. This is the first report showing hormone induction of a DNA repair gene (MGMT). The induction of MGMT and other genes encoding enzymes involved in DNA alkylation damage repair may be relevant in cancer therapy by causing resistance of tumor cells to alkylating drugs.
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PMID:Induction of the alkyltransferase (MGMT) gene by DNA damaging agents and the glucocorticoid dexamethasone and comparison with the response of base excision repair genes. 896 45

Two forms of DNA base excision-repair (BER) have been observed: a 'short-patch' BER pathway involving replacement of one nucleotide and a 'long-patch' BER pathway with gap-filling of several nucleotides. The latter mode of repair has been investigated using human cell-free extracts or purified proteins. Correction of a regular abasic site in DNA mainly involves incorporation of a single nucleotide, whereas repair patches of two to six nucleotides in length were found after repair of a reduced or oxidized abasic site. Human AP endonuclease, DNA polymerase beta and a DNA ligase (either III or I) were sufficient for the repair of a regular AP site. In contrast, the structure-specific nuclease DNase IV (FEN1) was essential for repair of a reduced AP site, which occurred through the long-patch BER pathway. DNase IV was required for cleavage of a reaction intermediate generated by template strand displacement during gap-filling. XPG, a related nuclease, could not substitute for DNase IV. The long-patch BER pathway was largely dependent on DNA polymerase beta in cell extracts, but the reaction could be reconstituted with either DNA polymerase beta or delta. Efficient repair of gamma-ray-induced oxidized AP sites in plasmid DNA also required DNase IV. PCNA could promote the Pol beta-dependent long-patch pathway by stimulation of DNase IV.
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PMID:Second pathway for completion of human DNA base excision-repair: reconstitution with purified proteins and requirement for DNase IV (FEN1). 921 49

Alterations in gene expression may represent an underlying cause of undesired side-effects mediated by the immunosuppressant cyclosporin A (CsA). We employed the method of differential display PCR to identify new genes whose expression is modulated by CsA. Human peripheral blood mononuclear cells (PBMCs), or subpopulations thereof, were simultaneously stimulated with the phorbol ester 4beta-phorbol 12-myristate 13-acetate (PMA) and the calcium ionophore ionomycin, in the presence or absence of therapeutic concentrations of CsA. We identify the gene encoding the DNA repair enzyme DNA polymerase beta (Pol beta) as a novel CsA-sensitive transcription unit. Our data show that transcription of pol beta mRNA is induced by Ca2+ and that CsA significantly inhibits PMA/ionomycin- and ionomycin-mediated upregulation of both pol beta mRNA and Pol beta protein. The CsA-mediated inhibition of pol beta upregulation is maintained for at least 21 h after gene activation and is exerted via the phosphatase calcineurin. FK506, another immunosuppressant that targets calcineurin, also inhibits pol beta upregulation, while rapamycin competes with FK506 action. This work identifies Ca2+ as an inducer of pol beta gene activity in primary blood cells. The demonstrated CsA sensitivity of this process suggests a novel molecular mechanism that may contribute to the increased tumor incidence in patients receiving CsA treatment.
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PMID:Cyclosporin A inhibits Ca2+-mediated upregulation of the DNA repair enzyme DNA polymerase beta in human peripheral blood mononuclear cells. 1049 Nov 44

In mammalian cells the majority of altered bases in DNA are processed through a single-nucleotide patch base excision repair mechanism. Base excision repair is initiated by a DNA glycosylase that removes a damaged base and generates an abasic site (AP site). This AP site is further processed by an AP endonuclease activity that incises the phosphodiester bond adjacent to the AP site and generates a strand break containing 3'-OH and 5'-sugar phosphate ends. In mammalian cells, the 5'-sugar phosphate is removed by the AP lyase activity of DNA polymerase beta (Pol beta). The same enzyme also fills the gap, and the DNA ends are finally rejoined by DNA ligase. We measured repair of oligonucleotide substrates containing a single AP site in cell extracts prepared from normal and Pol beta-null mouse cells and show that the reduced repair in Pol beta-null extracts can be complemented by addition of purified Pol beta. Using this complementation assay, we demonstrate that mutated Pol beta without dRPase activity is able to stimulate long patch BER. Mutant Pol beta deficient in DNA synthesis, but with normal dRPase activity, does not stimulate repair in Pol beta-null cells. However, under conditions where we measure base excision repair accomplished exclusively through a single-nucleotide patch BER, neither dRPase nor DNA synthesis mutants of Pol beta alone, or the two together, were able to complement the repair defect. These data suggest that the dRPase and DNA synthesis activities of Pol beta are coupled and that both of these Pol beta functions are essential during short patch BER and cannot be efficiently substituted by other cellular enzymes.
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PMID:DNA synthesis and dRPase activities of polymerase beta are both essential for single-nucleotide patch base excision repair in mammalian cell extracts. 1117 Mar 98

This study compares a number of parameters that are important in the ligation of the polymerase chain reaction-amplified DNA inserts into plasmid vectors and their efficient transformation to bacterial cells. The parameters covered were: T4 polynucleotide kinase treatment followed by either the large fragment of E. coli DNA polymerase or T4 DNA polymerase reactions, the amount of T4 DNA ligase, temperature and duration of ligation, molar ratio of insert to vector as well as the total DNA concentration. The results show that the T4 polynucleotide kinase-treated group without further enzymatic manipulation, at an insert to vector ratio of 3:1 gave the highest recombination efficiency when 10 microg/ml DNA and 20 units T4 DNA ligase were applied for ligation for 12 h at 4 degrees C.
Acta Biochim Pol 2000
PMID:An optimized recipe for cloning of the polymerase chain reaction-amplified DNA inserts into plasmid vectors. 1131 Sep 83

Three mammalian genes encoding DNA ligases--LIG1, LIG3, and LIG4--have been identified. Genetic, biochemical, and cell biology studies indicate that the products of each of these genes play a unique role in mammalian DNA metabolism. Interestingly, cell lines deficient in either DNA ligase I (46BR.1G1) or DNA ligase III (EM9) are sensitive to simple alkylating agents. One interpretation of these observations is that DNA ligases I and III participate in functionally distinct base excision repair (BER) subpathways. In support of this idea, extracts from both DNA ligase-deficient cell lines are defective in catalyzing BER in vitro and both DNA ligases interact with other BER proteins. DNA ligase I interacts directly with proliferating cell nuclear antigen (PCNA) and DNA polymerase beta (Pol beta), linking this enzyme with both short-patch and long-patch BER. In somatic cells, DNA ligase III alpha forms a stable complex with the DNA repair protein Xrcc1. Although Xrcc1 has no catalytic activity, it also interacts with Pol beta and poly(ADP-ribose) polymerase (PARP), linking DNA ligase III alpha with BER and single-strand break repair, respectively. Biochemical studies suggest that the majority of short-patch base excision repair events are completed by the DNA ligase III alpha/Xrcc1 complex. Although there is compelling evidence for the participation of PARP in the repair of DNA single-strand breaks, the role of PARP in BER has not been established.
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PMID:Completion of base excision repair by mammalian DNA ligases. 1155 94

The African swine fever virus DNA polymerase X (ASFV Pol X or Pol X), the smallest known nucleotide polymerase, has recently been reported to be an extremely low fidelity polymerase that may be involved in strategic mutagenesis of the viral genome. Here we report the solution structure of Pol X. The structure, unique within the realm of nucleotide polymerases, consists of only palm and fingers subdomains. Despite the absence of a thumb subdomain, which is important for DNA binding in other polymerases, we show that Pol X binds DNA with very high affinity. Further structural analyses suggest a novel mode of DNA binding that may contribute to low fidelity synthesis. We also demonstrate that the ASFV DNA ligase is a low fidelity ligase capable of sealing a nick that contains a G-G mismatch. This supports the hypothesis of a virus-encoded, mutagenic base excision repair pathway consisting of a tandem Pol X/ligase mutator.
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PMID:Solution structure of a viral DNA polymerase X and evidence for a mutagenic function. 1168 31

To address the different functions of Pol delta and FEN1 (Rad27) in Okazaki fragment maturation, exonuclease-deficient polymerase Pol delta-01 and Pol delta-5DV (corresponding to alleles pol3-01-(D321A, E323A) and pol3-5DV-(D520V), respectively) were purified and characterized in this process. In the presence of the replication clamp PCNA, both wild-type and exo(-) Pol delta carried out strand displacement synthesis with similar rates; however, initiation of strand displacement synthesis was much more efficient with Pol delta-exo(-). When Pol delta-exo(-) encountered a downstream primer, it paused with 3-5 nucleotides of the primer displaced, whereas the wild type carried out precise gap filling. Consequently, in the absence of FEN1, Pol delta exonuclease activity was essential for closure of simple gaps by DNA ligase. Compared with wild type, Okazaki fragment maturation with Pol delta-exo(-) proceeded with an increased duration of nick translation prior to ligation. Maturation was efficient in the absence of Dna2 and required Dna2 only when FEN1 activity was compromised. In agreement with these results, the proposed generation of double strand breaks in pol3-exo(-) rad27 mutants was suppressed by the overexpression of DNA2. Further genetic studies showed that pol3-exo(-) rad27 double mutants were sensitive to alkylation damage consistent with an in vivo defect in gap filling by exonuclease-deficient Pol delta.
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PMID:Okazaki fragment maturation in yeast. II. Cooperation between the polymerase and 3'-5'-exonuclease activities of Pol delta in the creation of a ligatable nick. 1242 37

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