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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)
We have measured the fluorescence of the
DNA repair enzyme
endonuclease III to discover perturbation to its tryptophans by undamaged DNA and AP (apyrimidinic or apurinic) DNA and to estimate binding affinity for intact and AP DNAs. Endonuclease III has two tryptophans, Trp132 in a helix-hairpin-helix region of possible flexibility near the active site for
AP lyase
activity and Trp178 in the domain containing the iron-sulfur center of endonuclease III; Trp132 is the more solvent-accessible tryptophan [Kuo, C.-F., McRee, D. E., Fisher, C. L., O'Handley, S. F., & Cunningham, R. P. (1992) Science 258, 434-440]. The fluorescence emission peak wavelength near 350 nm (excitation at 290 nm) indicated an exposure of the fluorescing tryptophans to a polar environment. Quenching of tryptophan fluorescence by iodide demonstrated that there are indeed two tryptophans which are differently accessible to anionic quencher. Significant (approximately 60%) fluorescence quenching occurred when endonuclease III was titrated with high molecular weight duplex undamaged poly(dAdT). The apparent second-order nonspecific binding constant to poly(dAdT) was 4 x 10(7) M-1, and there were approximately 12 base pairs per endonuclease III binding site for binding to poly(dAdT). This nonspecific binding to duplex DNA had ionic character, and there was no fluorescence quenching brought on by single-stranded DNA. A comparison between fluorescence quenching titrations of high molecular weight duplex DNA and undamaged duplex 19-mer oligonucleotide showed that the binding constant to the high molecular weight DNA was approximately 400-fold larger than to the undamaged 19-mer.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Endonuclease III interactions with DNA substrates. 2. The DNA repair enzyme endonuclease III binds differently to intact DNA and to apyrimidinic/apurinic DNA substrates as shown by tryptophan fluorescence quenching. 787 34
Endonuclease VIII, a novel presumptive
DNA repair enzyme
, was isolated from Escherichia coli by FPLC1 purification. The enzyme was found in strains that contained or lacked endonuclease III and was purified by radial flow S-Sepharose, Mono S, phenyl-Superose, and Superose 12 FPLC. Examination of the properties of endonuclease VIII showed it to have many similarities to endonuclease III. DNA containing thymine glycol, dihydrothymine, beta-ureidoisobutyric acid, urea residues, or AP sites was incised by the enzyme; however, DNA containing reduced AP sites was not. HPLC analysis of the products formed by exhaustive enzymatic digestion of damage-containing DNA showed that endonuclease VIII released thymine glycol and dihydrothymine as free bases. Taken together, these data suggest that endonuclease VIII contains both N-glycosylase and
AP lyase
activities. Consistent with this idea, DNA containing AP sites or thymine glycols, that was enzymatically nicked by endonuclease VIII was not a good substrate for E. coli DNA polymerase I, suggesting that endonuclease VIII nicks damage-containing DNA on the 3' side of the lesion. Also, since monophosphates were not released after treating thymine glycol-containing DNA with endonuclease VIII, the enzyme does not appear to have exonuclease activity. The enzyme activity was maximal in 75 mM NaCl or 5 mM MgCl2. Analysis of endonuclease VIII by both Superose FPLC and Sephadex yielded native molecular masses of 28,000 and 30,000 Da, respectively. SDS-PAGE, in conjunction with activity gel analysis, gave a molecular mass of about 29,000 Da. Furthermore, renaturation of the putative active band from SDS-PAGE gave rise to an active enzyme.
...
PMID:Isolation and characterization of endonuclease VIII from Escherichia coli. 811 Jul 59
Deinococcus radiodurans is the most radioresistant bacterium discovered to date. Recently it has been demonstrated that this organism contains the
DNA repair enzyme
uracil-DNA glycosylase and an apurinic/apyrimidinic (AP) endonuclease that may function as part of a DNA base excision repair pathway. We demonstrate here that a DNA deoxyribophosphodiesterase activity that acts on incised AP sites in DNA to remove deoxyribose-phosphate groups is found in lysates prepared from D. radiodurans cells. The partially purified activity was found to be smaller in size than the E. coli dRpase activity, with an estimated molecular weight of 25-30 kDa. In addition, an activity that recognizes and cleaves DNA containing thymine glycols was also detected, with a molecular weight of approximately 30 kDa. This enzyme may be analogous to the thymine glycol glycosylase/
AP lyase
endonuclease III of E. coli.
...
PMID:DNA deoxyribophosphodiesterase and an activity that cleaves DNA containing thymine glycol adducts in Deinococcus radiodurans. 818 99
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
We purified a homologue of the Escherichia coli
DNA repair enzyme
endo nuclease III 5000-fold from calf thymus which, like endonuclease III, demonstrates DNA-glycosylase activity against pyrimidine hydrates and thymine glycol and
AP lyase
activity (DNA strand cleavage at AP sites via beta-elimination). The functional similarity between the enzymes suggested a strategy for definitive identification of the bovine protein based on the nature of its enzyme-substrate (ES) intermediate. Prokaryotic DNA glycosylase/AP lyases function through N-acylimine (Schiff's base) ES intermediates which, upon chemical reduction to stable secondary amines, irreversibly cross link the enzyme to oligodeoxynucleotides containing substrate modified bases. We incubated endonuclease III with a 32P- labeled thymine glycol-containing oligodeoxynucleotide in the presence of NaCNBH3. This resulted in an increase in the apparent molecular weight of the enzyme by SDS-PAGE. Phosphorimaging confirmed irreversible cross linking between enzyme and DNA. Identical treatment of the most purified bovine enzyme fraction resulted in irreversible cross linking of the oligodeoxynucleotide to a predominant 31 kDa species. Amino acid analysis of the 31 kDa species revealed homology to the predicted amino acid sequence of a Caenorhabditis elegans 27.8 kDa protein which, in turn, has homology to endonuclease III. The translated amino acid sequences of two partial 3' cDNAs, from Homo sapiens and Rattus sp., also demonstrate homology to the C. elegans and bovine sequences suggesting a homologous family of endonuclease III-like DNA repair enzymes is present throughout phylogeny.
...
PMID:Purification of a mammalian homologue of Escherichia coli endonuclease III: identification of a bovine pyrimidine hydrate-thymine glycol DNAse/AP lyase by irreversible cross linking to a thymine glycol-containing oligoxynucleotide. 861 53
Fpg protein (formamidopyrimidine/8-oxoguanine DNA N-glycosylase) is a
DNA repair enzyme
that catalyzes the removal of oxidized purines, most notably the mutagenic 7-hydro-8-oxoguanine (8oxoGua) lesion, by an N-glycosylase action. Additionally, Fpg protein catalyzes beta and delta elimination reactions subsequent to removal of the base lesions, as well as the analogous chemistry at abasic sites (AP sites). In this report, we show that of the two lysines that are conserved among the various putative prokaryotic Fpg proteins, a site specific alteration in one of them (lysine 155 changed to alanine) displays meaningful changes in substrate activities. However, lysine 155 is not required for the postulated covalent enzyme-substrate imine intermediate as demonstrated by trapping of the mutant protein-oligonucleotide complexes with cyanide or cyanoborohydride. The K155A mutant shows a decrease in activity with the 8oxoGua-substrate of approximately 50-fold under both k(cat)/Km and k(cat) conditions. This mutant also displays a similar reduction in activity with an oligonucleotide substrate possessing a single 2'-deoxy-8-oxonebularine site. In contrast, activity for a site specific 7-methylformamidopyrimidine-modified oligonucleotide is reduced approximately 3-4-fold, a much more modest decrease in activity. Interestingly, there is a concomitant increase in
AP lyase
activity above wild-type for the K155A mutant (1.6-fold increase in k(cat), 32-fold increase in k(cat)/Km), demonstrating retention of functional beta and delta lyase activities. Together these observations are readily accommodated by a model requiring a direct interaction of lysine 155 with the C8 oxygen of 8-oxopurines. Thus, conservation of this amino acid residue during evolution appears to be essential for specific incision of the mutagenic 8oxoGua base lesion by Fpg protein.
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PMID:Mechanism of action of base release by Escherichia coli Fpg protein: role of lysine 155 in catalysis. 912 31
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.
...
PMID:The action of DNA ligase at abasic sites in DNA. 952 83
Endonuclease III (endoIII; nth gene product) of Escherichia coli is known to be a
DNA repair enzyme
having a relatively broad specificity for damaged pyrimidine bases of DNA. Here, we describe the cloning and characterization of the cDNA and the gene for a mouse homologue (mNthl1/mNth1) of endoIII. The cDNA was cloned from a mouse T-cell cDNA library with a probe prepared by PCR using the library and specific PCR primers synthesized based on the reported information of partial amino acid sequences of bovine NTHL1/NTH1 and of EST Data Bases. The cDNA is 1025 nucleotides long and encodes a protein consisting of 300 amino acids with a predicted molecular mass of 33.6 kDa. The amino acid sequence exhibits significant homologies to those of endoIII and its prokaryotic and eukaryotic homologues. The recombinant mNthl1 with a hexahistidine tag was overexpressed in a nth::cmr nei::Kmr double mutant of E. coli, and purified to apparent homogeneity. The enzyme showed thymine glycol DNA glycosylase, urea DNA glycosylase and
AP lyase
activities. Northern blot analysis indicated that mNthl1 mRNA is about 1 kb and is expressed ubiquitously. A 15 kb DNA fragment containing the mNthl1 gene was cloned from a mouse genomic library and sequenced. The gene consists of six exons and five introns spanning 6.09 kb. The sequenced 5' flanking region lacks a typical TATA box, but contains a CAAT box and putative binding sites for several transcription factors such as Ets, Sp1, AP-1 and AP-2. The mNthl1 gene was shown to lie immediately adjacent to the tuberous sclerosis 2 (Tsc2) gene in a 5'-to-5' orientation by sequence analysis and was assigned to chromosome 17A3 by in situ hybridization.
...
PMID:Cloning and characterization of a mouse homologue (mNthl1) of Escherichia coli endonuclease III. 974 25
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.
...
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
In mammalian cells, repair of the most abundant endogenous premutagenic lesion in DNA, 7,8-dihydro-8-oxoguanine (8-oxoG), is initiated by the bifunctional DNA glycosylase OGG1. By using purified human proteins, we have reconstituted repair of 8-oxoG lesions in DNA in vitro on a plasmid DNA substrate containing a single 8-oxoG residue. It is shown that efficient and complete repair requires only hOGG1, the AP endonuclease HAP1, DNA polymerase (Pol) beta and DNA ligase I. After glycosylase base removal, repair occurred through the
AP lyase
step of hOGG1 followed by removal of the 3'-terminal sugar phosphate by the 3'-diesterase activity of HAP1. Addition of PCNA had a slight stimulatory effect on repair. Fen1 or high concentrations of Pol beta were required to induce strand displacement DNA synthesis at incised 8-oxoG in the absence of
DNA ligase
. Fen1 induced Pol beta strand displacement DNA synthesis at HAP1-cleaved AP sites differently from that at gaps introduced by hOGG1/HAP1 at 8-oxoG sites. In the presence of DNA ligase I, the repair reaction at 8-oxoG was confined to 1 nt replacement, even in the presence of high levels of Pol beta and Fen1. Thus, the assembly of all the core proteins for 8-oxoG repair catalyses one major pathway that involves single nucleotide repair patches.
...
PMID:Reconstitution of the base excision repair pathway for 7,8-dihydro-8-oxoguanine with purified human proteins. 1200 Aug 32
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