Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A method for the isolation of T4-amber-N82-induced DNA ligase is described which results in a nearly homogeneous enzyme preparation after two column chromatographic steps. The enzyme is detected during the purification by its ability to form a stable acid-precipitable enzyme-adenylate complex. Some properties of the assay, such as the effect of salt, temperature and incubation time, are presented. The isolated enzyme and its adenylate complex are characterized by acrylamide gel electrophoresis under native and denaturing conditions, as well as by isoelectric focusing. The purified enzyme exhibits a molecular weight of approximatel 60000. Isoelectric focusing yields at least 5 protein components, which are able to form an enzyme-adenylate complex. The main activity possesses a p1 of 6. The enzyme preparation is capable of repairing T5+ DNA known to contain about 4 or 5 single-strand breaks, to circularize lambda DNA and to join Hind111 and EcoR1 fragments.
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PMID:Simple isolation method and assay for T4 DNA ligase and characterization of the purified enzyme. 32 8

A protein, called relaxation protein because of its ability to remove superhelical turns in closed-circular DNA, has been isolated and partially characterized from the nuclei of LA9 mouse and HeLa cells. The purification was facilitated by an assay method, with PM2 DNA, which used the fluorescence enhancement of the intercalating dye ethidium bromide upon binding to the closed-circular DNA. The amount of dye bound depends upon the degree of the superhelix density of the DNA. The relaxation products were analysed by the buoyant separation method in CsCl containing ethidium bromide and were shown to be completely relaxed. The purification resulted in a single band in a dodecylsulfate gel electrophoresis with an apparent molecular weight of 37000. The pH optimum is 7.0 and the optimal salt concentration is 0.2 M NaCl. The relaxation protein removes negative as well as positive supercoils, the latter generated by the interaction of ethidium bromide with closed-circular DNA. Relaxation of positive supercoils results, after removal of the dye, in the formation of molecules with superhelix densities exceeding that of native PM2 DNA (0.054). The highest negative superhelix density observed was -0.098 +/- 0.001. The corresponding positive superhelix density has been calculated to be + 0.023. A nicking--swivelling--closing mechanism is postulated, but nicked intermediates have so far not been demonstrated. The relaxation protein is not inhibited by known mammalian endonuclease I inhibitors, except for denatured DNA, and does not possess a conventional polynucleotide ligase activity. The relaxation activity was found to be predominantly in the nuclei, with only small amounts present in the cytoplasm and mitochondria. The biological function of transient swivels induced by the relaxation protein is not known. However, transient swivels are considered necessary or useful in the replication of closed-circular DNA or long linear DNA, respectively. Relaxation protein could replace the combined action of an endonuclease and a ligase ahead of the replication fork. Alternatively, transient swivels could be involved in the transcription process.
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PMID:Isolation and partial characterisation of the relaxation protein from nuclei of cultured mouse and human cells. 110 Mar 83

A protein inhibitor for human DNA ligase I has recently been identified. It was copurified with a fraction of the enzymes from HeLa cells through several steps of chromatography. The inhibitor was first identified by the absence of ligation activity of the associated enzyme, while it retained the ability to form the ligase-[32P]AMP adducts. The inhibitor was eluted as a single peak at approximately 0.25-0.30 M NaCl from a Mono S column. It inhibited the ligation of both double-stranded and single-stranded breaks by purified DNA ligase I but not by T4 DNA ligase and DNA ligase II. Subsequent gel-filtration chromatography indicated that this inhibitor, with a molecular mass of 55-75 kDa, could form a complex with DNA ligase I and inhibited the DNA ligation activity. Rechromatography of the ligase I-inhibitor complex in high-salt conditions resulted in the dissociation of the complex and the restoration of enzyme activity, indicating that the physical interaction of inhibitor with DNA ligase I is one of the mechanisms of inhibition. These data indicate that this protein inhibitor for DNA ligase I may play a specific role in regulating DNA ligation during replication, repair, or recombination.
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PMID:Identification of a specific inhibitor for DNA ligase I in human cells. 154 87

Saintopin is an antitumor antibiotic recently discovered in mechanistically oriented screening using purified calf thymus DNA topoisomerases. Saintopin induced topoisomerase I mediated DNA cleavage comparable to that of camptothecin, and topoisomerase II mediated DNA cleavage equipotent to those of 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA) or 4'-demethylepipodophyllotoxin 9-(4,6-O-ethylidene-beta-D-glucopyranoside) (VP-16). Treatment of a reaction mixture containing saintopin and topoisomerase I or II with either elevated temperature (65 degrees C) or higher salt concentration (0.5 M NaCl) resulted in a substantial reduction in DNA cleavage, suggesting that the topoisomerase I and II mediated DNA cleavage induced by saintopin is through the mechanism of stabilizing the reversible enzyme-DNA "cleavable complex". Consistent with the cleavable complex formation with both topoisomerases, saintopin inhibited catalytic activities of both topoisomerase I and topoisomerase II. The DNA cleavage intensity pattern induced by saintopin with topoisomerase I was different from that by camptothecin. A difference in cleavage pattern was also detected between saintopin and m-AMSA or VP-16 in topoisomerase II mediated DNA cleavage. DNA unwinding assay using T4 DNA ligase showed that saintopin is a weak DNA intercalator like m-AMSA. Thus, saintopin represents a new class of antitumor agent that can induce both mammalian DNA topoisomerase I and mammalian DNA topisomerase II mediated DNA cleavage.
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PMID:Induction of mammalian DNA topoisomerase I and II mediated DNA cleavage by saintopin, a new antitumor agent from fungus. 164 1

The mammalian DNA repair enzyme beta-polymerase is encoded by a single-copy gene that is expressed in all tissues and cell lines studied to date. A protein fraction with high binding affinity for an ATF/CREB-like binding element, GTGACGTCAC, at -49 to -40 in the core beta-polymerase promoter has been purified to near-homogeneity from a nuclear extract of bovine testes. The major binding activity, as monitored by gel mobility shift assay, is recovered in 20% yield by a procedure involving oligonucleotide affinity chromatography. The purified protein yields DNase I footprinting and gel shift binding patterns indistinguishable from the activity in crude extracts. The final fraction activates transcription in an in vitro transcription reaction. The native molecular weight of the purified binding activity is about 100-120K as measured by gel filtration. SDS-PAGE of the purified fraction revealed that it contains several polypeptides in the molecular weight range of 30-52K, yet two of these peptides (Mr 49K and 52K) are predominant. Specific binding to the palindrome is salt-sensitive and is consistent with the formation of nine ion pairs (from log KA vs log KCl plots) and has a KA at 200 mM KCl of 5.8 X 10(11) M-1. Kinetic studies with synthetic oligonucleotides as binding ligands indicate that the purified protein can bind tighter to or discriminate between the beta-polymerase ATF/CREB element and similar elements derived from somatostatin and chorionic gonadotropin genes.
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PMID:Mammalian beta-polymerase promoter: large-scale purification and properties of ATF/CREB palindrome binding protein from bovine testes. 182 81

Several DNA-interactive proteins, including the DNA repair enzyme T4 endonuclease V, have been shown to locate their target recognition sites utilizing an electrostatically mediated facilitated diffusion mechanism. Previous work indicates that a decrease in the affinity of endonuclease V for nontarget DNA results in an increased nontarget dissociation rate. This study was designed to investigate the effect of an increase in the affinity of endonuclease V for nontarget DNA. Using a working structural model of the enzyme as a guide, the electrostatic character of endonuclease V was altered. Substitution of Thr-7 with Lys-7 resulted in an enzyme with wild type in vitro characteristics. Mutations which increased the positive charge along a proposed solvent-exposed alpha-helical face had significant effects. The mutants Ala-30, Val-31----Lys-30, Leu-31 and Asn-37----Lys-37 displayed wild type in vitro apurinic-specific and dimer-specific nicking activities. Although the processive dimer-specific nicking rate of the Lys-37 mutant resembled that of wild type, the rate of the Lys-30, Leu-31 mutant was reduced by 60%. In addition, the salt concentration range over which these mutants processively nick dimer-containing DNA has been greatly expanded. Both mutants are shown to have an increased affinity for nontarget DNA.
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PMID:Substitution of basic amino acids within endonuclease V enhances nontarget DNA binding. 200 4

A sedimentable complex of enzymes for DNA synthesis was partially purified from the combined low-salt nuclear extract-postmicrosomal supernatant solution of HeLa cell homogenates by poly(ethylene glycol) precipitation in the presence of 2 M KCl, discontinuous gradient centrifugation, Q-Sepharose chromatography, and velocity gradient centrifugation. In addition to the previously described 640-kDa multiprotein DNA polymerase alpha-primase complex [Vishwanatha et al. (1986) J. Biol. Chem. 261, 6619-6628], the enzyme complex also has associated topoisomerase I, DNA-dependent ATPase, RNase H, DNA ligase, a simian virus 40 origin recognition, dA/dT sequence binding protein [Malkas & Baril (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 70-74], and proliferating cell nuclear antigen. Essentially all of the T antigen dependent simian virus 40 in vitro replication activity in the combined nuclear extract-postmicrosomal supernatant solution resides with the sedimentable complex of enzymes for DNA synthesis. Sedimentation analysis on a 10-35% glycerol gradient in the presence of 0.5 M KCl indicates that the enzyme complex is 21S. The associated enzymes for DNA synthesis and in vitro simian virus 40 replication activity cofractionate throughout the purification of the 21S complex. The DNA polymerase and in vitro simian virus 40 replication activities are both inhibited by monoclonal antibody (SJK 132-20) to human DNA polymerase alpha and by 5-10 microM butylphenyl-dGTP, indicating that the association of DNA polymerase alpha with the 21S enzyme complex is essential for the initiation of SV40 DNA replication in vitro.
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PMID:A 21S enzyme complex from HeLa cells that functions in simian virus 40 DNA replication in vitro. 216 68

We made use of enhancement of fluorescence anisotropy of protein upon DNA binding to analyze interactions between Ada protein and DNA. Ada protein is a DNA repair enzyme that also acts as a transcription regulator. The isotropic fluorescence was not significantly affected upon interaction with DNA and could not be used as a signal for detection of the binding. The anisotropy did became larger because the binding to DNA reduces diffusion of the protein. The change was reproducible and independent of protein concentration and also independent of the degree of saturation of DNA with the protein when DNA was large; these values can readily be converted to the proportion of the complexed protein. The binding parameters were then determined by direct comparison between experimental and theoretical variations of anisotropy, with increasing concentrations of DNA. The theoretical variations were computed by considering the overlap of potential binding sites on the DNA lattice [McGhee & von Hippel (1974) J. Mol. Biol. 86, 469-489]. Binding does not seem to occur in a cooperative manner. The number of base pairs covered by a protein monomer was 7 +/- 1; this number is independent of the salt concentration. The equilibrium association constant decreased from 4 X 10(7) to 3 X 10(5) M-1 for an increase of NaCl concentration from 0.1 to 0.2 M, thereby indicating the possible involvement of ionic interactions between phosphate groups of DNA and the protein.
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PMID:Interaction of Ada protein with DNA examined by fluorescence anisotropy of the protein. 235 46

Previous structure/function analyses of the DNA repair enzyme, T4 endonuclease V, have suggested that the extreme carboxyl portion of the enzyme is associated with pyrimidine dimer-specific binding (Recinos and Lloyd, and Stump and Lloyd, Biochemistry 27:1832-1838 and 1839-1843, 1988, respectively). Within the final 11 amino acids there are 5 aromatic, 2 basic, and no acidic residues and it has been proposed that these residues stack with and electrostatically interact with the kinked DNA at the site of a pyrimidine dimer. The role of the tyrosine residue at position 129 has been investigated by oligonucleotide site-directed mutagenesis in which the codon for Tyr-129 has been altered to reflect conservative changes of Trp and Phe and more dramatic changes of Ser, a stop codon, deletion of the codon or introduction of a frameshift. Both changes to the aromatic amino acids resulted in proteins which accumulated well in E. coli and not only significantly enhanced the UV survival of repair-deficient cells but also complemented a defective denV gene within UV-irradiated T4 phage. Partially purified preparations of the Tyr-129----Trp and Tyr-129----Phe mutants were assayed for their ability to processively incise UV-irradiated plasmid DNA (a nicking reaction carried out at low 25 mM salt concentrations). The mutant enzymes Tyr-129----Phe and Tyr-129----Trp displayed a 1000% and 500% enhanced specific nicking activity, respectively. These reactions were also shown to be completely processive. Assays performed at higher (100 mM) salt concentrations reduced the specific activities of the mutant enzymes approximately to that of wild type for the Tyr-129----Phe mutant and to 20% that of wild type for the Tyr-129----Trp mutant.
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PMID:Site-directed mutagenesis of the T4 endonuclease V gene: mutations which enhance enzyme specific activity at low salt concentrations. 269 26

Bacteriophage T4 DNA ligase effectively joins two adjacent, short synthetic oligodeoxyribonucleotides (oligos), as guided by complementary oligo, plasmid and genomic DNA templates. When a single bp mismatch exists at either side of the ligation junction, the efficiency of the enzyme to ligate the two oligos decreases. Mismatch ligation is approximately five-fold greater if the mismatch occurs at the 3' side rather than at the 5' side of the junction. During mismatch ligation the 5' adenylate of the 3' oligo accumulates in the reaction. The level of the adenylate formation correlates closely with the level of the mismatch ligation. Both mismatch ligation and adenylate formation are suppressed at elevated temperatures and in the presence of 200 mM NaCl or 2-5 mM spermidine. The apparent Km for the oligo template in the absence of salt is 0.05 microM, whereas the Km increases to 0.2 microM in the presence of 200 mM of NaCl. In this report, we demonstrate these properties of T4 DNA ligase for oligo pairs complementary to the beta-globin gene at the sequence surrounding the single bp mutation responsible for sickle-cell anemia. Because of the highly specific nature of the nick-closing reaction, ligation of short oligos with DNA ligase can be used to distinguish two DNA templates differing by a single nucleotide.
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PMID:Specificity of the nick-closing activity of bacteriophage T4 DNA ligase. 275 55


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