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)

Endonuclease V, a pyrimidine dimer-specific DNA repair enzyme, was chemically modified by reductive methylation, a technique that specifically methylates primary amino groups. Upon reaction of endonuclease V with [14C]formaldehyde (14CH2O) in the presence of the reducing agent sodium cyanoborohydride (Na-CNBH3), it was discovered that 0.8 methylation/endonuclease V molecule was required to reduce both the glycosylase and the phosphodiester lyase activities by 70-80%. Pyrimidine dimer-specific binding was not eradicated at a level of methylation equivalent to 0.8 CH3/endonuclease V molecule but was eradicated at higher levels of methylation. Endonuclease V that had been modified with an average of 1.6 CH3/molecule was digested with Staphylococcus aureus strain V8 protease and the peptides subsequently separated by reverse-phase high performance liquid chromatography. Radiolabel was found exclusively on the peptide including the amino terminus, as determined by the percent amino acid composition. Neither intact CH3-endonuclease V nor radiolabeled peptides were able to be sequenced by Edman degradation indicating blockage of the amino terminus by methylation. This study shows strong evidence for the unusual involvement of the alpha NH2 moiety in the chemical mechanisms of endonuclease V. A reaction mechanism that incorporates these findings is presented.
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PMID:Reductive methylation of the amino terminus of endonuclease V eradicates catalytic activities. Evidence for an essential role of the amino terminus in the chemical mechanisms of catalysis. 189 43

The Mr = 38,300 polypeptide of the purified recombinant rat DNA polymerase beta served as an excellent substrate for protein kinase C (PKC) in vitro but not for the catalytic subunit of cAMP-dependent protein kinase. The phosphorylation by PKC resulted in inactivation of DNA polymerase beta activity, and recovery was achieved by dephosphorylation with alkaline phosphatase. Since the phosphorylated DNA polymerase beta was retained with use of a single-stranded DNA-cellulose column, inactivation might occur at a site different from that for the DNA binding. Amino acid sequence analysis of the phosphopeptides revealed that the phosphorylated sites were 2 serine residues at positions 44 and 55 from the NH2 terminus, either or both of which might be involved in the catalytic activity of DNA polymerase beta. Thus, the inactivation of the DNA repair enzyme, DNA polymerase beta, by PKC may be an important process in the modification of DNA metabolism in the nucleus through signal transduction processes.
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PMID:Inactivation of DNA polymerase beta by in vitro phosphorylation with protein kinase C. 204 Jun 2

Duplex oligonucleotides containing a single intrastrand [Pt(NH3)2]2+ cross-link or monofunctional adduct and either 15 or 22 bp in length were synthesized and chemically characterized. The platinum-modified and unmodified control DNAs were polymerized in the presence of DNA ligase and the products studied on 8% native polyacrylamide gels. The extent of DNA bending caused by the various platinum-DNA adducts was revealed by their gel mobility shifts relative to unplatinated controls. The bifunctional adducts cis-[Pt(NH3)2[d(GpG)]]+, cis-[Pt(NH3)2[d(ApG)]]+, and cis-[Pt(NH3)2[d(G*pTpG*)]], where the asterisks denote the sites of platinum binding, all bend the double helix, whereas the adduct trans-[Pt(NH3)2[d(G*pTpG*)]] imparts a degree of flexibility to the duplex. When modified by the monofunctional adduct cis-[Pt(NH3)2(N3-cytosine)(dG)]Cl the helix remains rod-like. These results reveal important structural differences in DNAs modified by the antitumor drug cisplatin and its analogs that could be important in the biological processing of the various adducts in vivo.
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PMID:Bending studies of DNA site-specifically modified by cisplatin, trans-diamminedichloroplatinum(II) and cis-[Pt(NH3)2(N3-cytosine)Cl]+. 239 72

The ada gene of Escherichia coli encodes a 39-kDa protein which serves both as a transcriptional activator of the adaptive response to alkylating agents and as a DNA repair enzyme demethylating O6-methyl-guanine and phosphotriester residues. Here, the isolated Ada protein was found to be readily cleaved into two fragments of similar size by treatment with trypsin, chymotrypsin, subtilisin, or V8 protease. The fragments retained their respective methyltransferase activities. The Ada protein is, therefore, comprised of two stable active domains united by a central hinge region of about 10 amino acids. Post-translational modification of the Ada protein by methylation of a specific cysteine residue in the NH2-terminal domain is known to convert it to an efficient transcriptional activator. This residue has now been identified as Cys-69.
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PMID:Functional domains and methyl acceptor sites of the Escherichia coli ada protein. 316 36

Reductive methylation of the alpha NH2 moiety of the DNA repair enzyme T4 endonuclease V has been shown previously to eradicate both the N-glycosylase and apyrimidinic/apurinic lyase activities of the enzyme (Schrock, R. D., III, and Lloyd, R. S. (1991) J. Biol. Chem. 266, 17631-17639). The present study uses the technique of site-directed mutagenesis to investigate the important parameters involved in the cleavage mechanism. The prediction was that the addition of an amino acid in the immediate NH2-terminal region of the protein would alter the proximity of the alpha NH2 moiety of Thr2 to its target, thereby severely compromising the enzyme's catalytic activity. However, substitutions in this region generally should be tolerated. To test this hypothesis, three substitutions of the NH2-terminal amino acid were produced: Ser2 (T2S), Val2 (T2V), and Pro2 (T2P). An addition mutant was also produced by adding a glycine between the first and second amino acids of the protein (Thr2-Gly-Arg3) (+Gly). The T2P and +Gly mutants had negligible pyrimidine dimer-specific N-glycosylase activity as well as negligible pyrimidine dimer-specific nicking activity in vitro. Conversely, the T2S enzyme exhibited wild type levels of activity and the T2V exhibited intermediate levels of activity in vitro. Results from ultraviolet (UV) survival studies of the mutant enzymes indicated that the in vivo activities of these enzymes were directly correlated to the enzymes' ability to cleave at pyrimidine dimers in vitro. These results indicate that a critical parameter for the functionality of endonuclease V is the relative distance between the primary alpha NH2 group in the active site of the enzyme and those elements responsible for DNA binding and pyrimidine dimer recognition.
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PMID:Site-directed mutagenesis of the NH2 terminus of T4 endonuclease V. The position of the alpha NH2 moiety affects catalytic activity. 841 66

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.
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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

Pseudomonas aeruginosa DNA ligase D (PaeLigD) exemplifies a family of bacterial DNA end-joining proteins that consist of a ligase domain fused to a polymerase domain and a putative nuclease module. The LigD polymerase preferentially adds single ribonucleotides at blunt DNA ends and, as we show here, is also capable of adding up to 4 ribonucleotides to a DNA primer-template. We report that PaeLigD has an intrinsic ability to resect the short tract of 3'-ribonucleotides of a primer-template substrate to the point at which the primer strand has a single 3'-ribonucleotide remaining. The failure to digest beyond this point reflects a requirement for a 2'-OH group on the penultimate nucleoside of the primer strand. Replacing the 2'-OH by a 2'-F, 2'-NH2, 2'-OCH3, or 2'-H abolishes the resection reaction. The ribonucleotide resection activity resides within a 187-amino acid N-terminal nuclease domain and is the result of at least two component steps: (i) the 3'-terminal nucleoside is first removed to yield a primer strand with a ribonucleoside 3'-PO4 terminus, and (ii) the 3'-PO4 is hydrolyzed to a 3'-OH. The 3'-ribonuclease and 3'-phosphatase activities are both dependent on a divalent cation, specifically manganese. PaeLigD preferentially remodels the 3'-ends of a duplex primer-template substrate rather than a single strand of identical composition, and it prefers DNA primer strands containing a short 3'-ribonucleotide tract to an all-RNA primer. The nuclease domain of PaeLigD and its bacterial homologs has no apparent structural or mechanistic similarity to previously characterized nucleases. Thus, we surmise that it exemplifies a novel phosphoesterase family, defined in part by conserved residues Asp-50, Arg-52, and His-84, which are essential for the 3'-ribonuclease and 3'-phosphatase reactions.
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PMID:Novel 3'-ribonuclease and 3'-phosphatase activities of the bacterial non-homologous end-joining protein, DNA ligase D. 1589 97

The total cDNA obtained through reverse transcription of F. oxysporum CGMCC 0536 mRNA used as template, a fragment about 1.5kb was amplied with oligo(dT)15 primer and a gene specific primer designed on the base of the sequence of both NH2-terminus and the cDNA sequence encoding D-lactonohydrolase of Fusarium oxysporum reported on the NCBI, then the fragment was cloned to the pMD18-T vector and sequenced. The sequence encoding D-lactonohydrolase of F. moniliforme CGMCC 0536 shows a high homology of 90.06% with that of F. oxysporum indicating that the gene encoding D-lactonohydrolase is highly conservative. Two specific primers were designed according to the sequence result, and a fragment, 1146bp, was amplied using hot start PCR with these two specific primers. Subsequently, the resulting products were digested with EcoR I and Sal I and ligated to the pTrc99a vector digested with the same enzymes using T4 DNA ligase. the recombinant plasmid, pTrc99a-LAC, was transformed into Escherichia coli JM109. The two positive clones were induced with IPTG, and enzymes expressed in Escherichia coli JM109, the enzyme activity was about 37U and 41U respectively. The expression products were analyzed by SDS-polyacrylamide gel electrophoresis indicating that about 40kD protein was obtained.
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PMID:[Cloning and expression of Fusarium moniliforme CGMCC 0536 D-lactonohydrolase gene in Escherichia coli]. 1610 62

T4 DNA ligase and the ubiquitin activating enzyme (E1), catalyze the synthesis of ATP beta,gamma-bisphosphonate derivatives. Concerning T4 DNA ligase: (i) etidronate (pC(OH)(CH(3))p) displaced the AMP moiety of the complex E-AMP in a concentration dependent manner; (ii) the K(m) values and the rate of synthesis k(cat) (s(-1)), determined for the following compounds were, respectively: etidronate, 0.73+/-0.09 mM and (70+/-10)x10(-3) s(-1); clodronate (pCCl(2)p), 0.08+/-0.01 mM and (4.1+/-0.3)x10(-3) s(-1); methylenebisphosphonate (pCH(2)p), 0.024+/-0.001 mM and (0.6+/-0.1)x10(-3) s(-1); tripolyphosphate (P(3)) (in the synthesis of adenosine 5'-tetraphosphate, p(4)A), 1.30+/-0.30 mM and (6.2+/-1.1)x10(-3) s(-1); (iii) in the presence of GTP and ATP, inhibition of the synthesis of Ap(4)G was observed with clodronate but not with pamidronate (pC(OH)(CH(2)-CH(2)-NH(3))p). Concerning the ubiquitin activating enzyme (E1): methylenebisphosphonate was the only bisphosphonate, out of the ones tested, that served as substrate for the synthesis of an ATP derivative (K(m)=0.36+/-0.09 mM and k(cat)=0.15+/-0.02 s(-1)). None of the above bisphosphonates were substrates of the reaction catalyzed by luciferase or by acyl-CoA synthetase. The ability of acetyl-CoA synthetase to use methylenebisphosphonate as substrate depended on the commercial source of the enzyme. In our view this report widens our knowledge of the enzymes able to metabolize bisphosphonates, a therapeutic tool widely used in the treatment of osteoporosis.
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PMID:Synthesis of bisphosphonate derivatives of ATP by T4 DNA ligase, ubiquitin activating enzyme (E1) and other ligases. 1837 15

There is growing interest in biodiesel and this results in the accumulation of glycerol. The exploitation and application of glycerol has attracted more and more attention. In the current study, glycerol was biotransformed to produce 3-hydroxypropionaldehyde by genetic engineering bacteria. It is known that 3-hydroxypopionaldehyde has been widely used as an important intermediate for chemicals, effective antimicrobial agent, and fix agent for tissues. A pair of primers was designed on the basis of the sequence of both NH2-terminus and the amino acid sequence of glycerol dehydratase reported by NCBI, and a fragment about 1.6 kb was obtained by PCR amplification using the total genome DNA of Lactobacillus reuteri as template, then the fragment was cloned to the pMD18-T vector and sequenced. Two specific primers were designed according to the obtained sequence, and a fragment with length of 1674 bp was amplified using PCR with these two specific primers. Consequently, the resulting products were digested with EcoR I and Hind III and ligated using T4 DNA ligase to the pET28b vector digested with the same enzymes. The recombinant plasmid, named pET28b-dhaB, was transformed into E. coli BL21. The positive clones were induced with IPTG and the expression products were further analyzed by SDS-PAGE, indicating that protein with a molecule weight of around 65 kD was obtained. Furthermore, the glycerol dehydratase activity was evaluated and compared with the wild type strain as well.
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PMID:[Cloning and expression of Lactobaceillus reuteri glycerol dehydratase gene in Escherichia coil]. 2035 78

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