Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The DNAase in human urine was purified about 30-fold with a recovery of 28%. This involved DEAE-cellulose and phosphocellulose chromatography steps and gel filtration on Sephadex G-75. The enzyme required divalent cations such as Co2+, Mg2+, Mn2+ and Zn2+ for activity, but Ca2+, Cu2+ and Fe2+ were ineffective. EDTA and G-actin inhibited the reaction. The maximum activity was observed at pH 5.5 in acetate buffer plus Co2+ or Mg2+ and Ca2+. It had a molecular weight of approximately 38 000, estimated by gel filtration on Sephadex G-75 and isoelectric point of around pH 3.9. The enzyme is an endonuclease which hydrolyzes native, double-stranded DNA about 3 to 4 times faster than thermally denatured DNA to produce 5'-phosphoryl- and 3'-hydroxyl-terminated oligonucleotides. The final preparation was free of non-specific acid and alkaline phosphatases, phosphodiesterase and ribonuclease activities.
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PMID:Purification and properties of deoxyribonuclease from human urine. 2 31

Deoxyribonucleic acid polymerase-beta (EC 2.7.7.7) has been purified over 100 000-fold from a whole cell extract of guinea pig liver. The enzyme yields a single stainable band when subjected to non-denaturing polyacrylamide gel electrophoresis, and this band corresponds to the DNA polymerase activity when a sister gel is sliced and assayed. The final fraction has a specific activity of 21 000 units/mg; this value can be increased significantly by addition of various components, including glycols, polyamines or any of several protein factors which can be purified from the crude extract. The DNA polymerase-beta lacks detectable exonuclease or endonuclease activity, has an alkaline pH optimum and has a requirement for all four deoxyribonucleoside triphosphates, a divalent cation and a primer-template for maximal activity. While activated DNA is the preferred primer-template, the enzyme is capable of utilizing native and denatured DNA as well as several synthetic polynucleotides as primer-templates. The latter are especially effective when manganese is the divalent cation. Magnesium, at 10 mM, is the preferred divalent cation when activated DNA is used. Manganese, and to a lesser extent cobalt, can substitute for magnesium while zinc and calcium cannot. The beta-polymerase has a half-life of 10 min at 40 degrees C and this is increased in the presence of either DNA or NaCl. The enzyme is stimulated by glycols, polyamines and NaCal or KCl, and is inhibited by several known inhibitors of DNA polymerase activity including o-phenanthroline, heparin, organic solvents and sulfhydryl blocking agents. Guinea pig liver DNA polymerase-beta is remarkably similar to the rat Novikoff hepatoma beta-polymerase with respect to its isoelectric point of 8.4 and its molecular weight of 32 000 as determined by sucrose gradient centrifugation under high or low salt conditions or sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This similarity is further extended to the removal, at the final step in purification, of a protein capable of stimulating the homogeneous enzyme. Removal of this protein could explain the lower molecular weight of the guinea pig and other rodent-derived beta-polymerases, when compared to the beta-polymerases from other systems.
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PMID:Purification and properties of DNA polymerase-beta from guinea pig liver. 70 39

An endonuclease stimulated by manganese or calcium ions was isolated from Bacillus subtilis. This enzyme attacked double- or single-stranded deoxyribonucleic acid from a variety of sources, including B. subtilis, and was purified from the material released into the medium during protoplast formation. The enzyme appeared as a single peak after glycerol gradient centrifugation and comprised approximately 30 to 35% of the protein in the most purified preparations, as estimated by gel electrophoresis. It had a molecular weight of about 46,000. The mode of action of the enzyme was endonucleolytic, and circular deoxyribonucleic acid was readily cleaved. The enzyme introduced a limited number of both double- and single-strand breaks into native deoxyribonucleic acid, generally yielding products of 1 X 10(6) daltons or more in size. The reasons for this limitation of cleavage were not clear. The activity of the enzyme was inhibited by low levels of Cu2+, Co2+, Hg2+, and Zn2+. It was also inhibited by high concentrations of NaCl. A role for this enzyme in bacterial transormation is suggested.
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PMID:Purification and properties of a manganese-stimulated endonuclease from Bacillus subtilis. 81 79

After five purification steps a homogeneous preparation of endonuclease MboII was obtained, and several properties of the enzyme were determined. MboII is a monomer, with Mr under native and denaturing conditions being 47-49 x 10(3) Da. Endonuclease MboII is a basic protein (pI 8.3) which remains active when Mg2+ is replaced by Mn2+, Co2+, Ca2+, or Fe2+. MboII exhibits a star activity in the presence of some of the following reagents or ions: DMSO, glycerol, ethanol (and Co2+ or Mn2+ at pH 6). MboII does not bend DNA and is heat sensitive, losing activity after 15 min at 50 degrees C.
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PMID:Purification and properties of the MboII, a class-IIS restriction endonuclease. 174 Dec 76

We have been investigating the structure, dynamics, and ligand-binding properties of the interface that exists between a right-handed conformation and a left-handed conformation (i.e., a B-Z junction) in synthetic DNA oligomers. Since exo- and endonuclease activity is known to be sensitive to the conformation of the template DNA, we have designed and synthesized a DNA oligonucleotide of 20 base pairs (designated as BZ-III) with an MboI recognition site (GATC) at the location of a potential B-Z junction. The activity of the MboI enzyme toward this molecule and DNA oligomers that contain multiple MboI sites located at B-Z junctions was monitored in the absence and presence of the Z-conformation-inducing reagent cobalt hexaammine. In all cases, the activity of the enzyme was enhanced in the presence of cobalt hexaammine. The activity of MboI toward BZ-III, in the presence and absence of cobalt hexaammine, was also examined when the DNA oligomer is also in the presence of the DNA binding drugs actinomycin D, ametantrone, or ethidium bromide. In all cases, the activity of the enzyme was inhibited in the presence of drug. The results suggest that B-Z junctions are structurally unique and that this uniqueness may alter nuclease activity at sites in or near the junction.
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PMID:Enhanced reactivity of a B-Z junction for cleavage by the restriction enzyme MboI. 193 82

The 163-kilobase-pair (kb) plasmid pMOL28, which determines inducible resistance to nickel, cobalt, chromate, and mercury salts in its native host Alcaligenes eutrophus CH34, was transferred to a derivative of A. eutrophus H16 and subjected to cloning procedures. After Tn5 transposon mutagenesis, restriction endonuclease analysis, and DNA-DNA hybridization, two DNA fragments, a 9.5-kb KpnI fragment and a 13.5-kb HindIII fragment (HKI), were isolated. HKI contained EK1, the KpnI fragment, as a subfragment flanked on both sides by short regions. Both fragments were ligated into the suicide vector pSUP202, the broad-host-range vector pVK101, and pUC19. Both fragments restored a nickel-sensitive Tn5 mutant to full nickel and cobalt resistance. The hybrid plasmid pVK101::HKI expressed full nickel resistance in all nickel-sensitive derivatives, either pMOL28-deficient or -defective, of the native host CH34. The hybrid plasmid pVK101::HKI also conferred nickel and cobalt resistance to A. eutrophus strains H16 and JMP222, Alcaligenes hydrogenophilus, Pseudomonas putida, and Pseudomonas oleovorans, but to a lower level of resistance. In all transconjugants the metal resistances coded by pVK101::HKI were expressed constitutively rather than inducibly. The hybrid plasmid metal resistance was not expressed in Escherichia coli. DNA sequences responsible for nickel resistance in newly isolated strains showed homology to the cloned pMOL28-encoded nickel and cobalt resistance determinant.
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PMID:Cloning of pMOL28-encoded nickel resistance genes and expression of the genes in Alcaligenes eutrophus and Pseudomonas spp. 254 12

The restriction endonuclease FokI from Flavobacterium okeanokoites was purified to homogeneity. Based on gel filtration, sedimentation and sodium dodecyl sulfate-polyacrylamide-gel electrophoresis, the following properties of the enzyme were determined: FokI exists in one active monomeric form, and has an Mr of 64-65.4 x 10(3).FokI is a strongly basic protein with an isoelectric point of 9.4. The enzyme exhibits restriction activity in the pH range 5.0 to 10.5 (maximum level at pH 7.0-8.5) and its divalent cation requirement is satisfied not only by Mg2+, but also by Co2+, Mn2+, Ni2+, Cd2+, Zn2+ and Fe2+.
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PMID:Purification and characterization of the FokI restriction endonuclease. 258 11

The effects of cobalt-60 gamma-rays, 10 MeV electrons and 52 MeV deutrons on the survival of plaque-forming ability has been studied in various strains of herpes simplex virus (HSV). The results show that the D0 for the loss of plaque-forming ability in different HSV strains lies in the range 1-3 kGy. Irradiation of isolated HSV-1 DNA with cobalt-60 gamma-rays resulted in damage, as indicated by electrophoresis of purified viral DNA and by restriction endonuclease analysis, at doses of 1 kGy, with complete loss of structure at doses above 4 kGy. The infectivity of the irradiated naked DNA was lost at doses above 4 kGy, but after irradiation of the intact virus some plaque-forming ability was retained after doses of 10 or even 40 kGy. Thus the organization within the viral capsid may play a protective role by modifying the severity of the radiation damage, and preserving at least some degree of infectivity.
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PMID:Influencing of ionizing radiation on herpes simplex virus and its genome. 282 93

A conformational change in the DNA plasmid ColE1 appears to occur upon specific binding of the restriction endonuclease EcoRI. Enzyme association alters the chiral discrimination found in binding metallointercalators to DNA sites. The complexes tris(1,10-phenanthroline)ruthenium(II), Ru(phen)3(2+), tris(4,7-diphenyl-1,10-phenanthroline)ruthenium(II), Ru(DIP)3(2+), and tris(4,7-diphenyl-1,10-phenanthroline)cobalt(III), Co(DIP)3(3+), in general, bind stereoselectively to DNA helices, with enantiomers possessing the delta configuration bound preferentially by right-handed B-DNA. In the presence of EcoRI, however, this enantioselectivity is altered. The chiral intercalators, at micromolar concentrations, inhibit the reaction of EcoRI, but for each enantiomeric pair it is the lambda enantiomer, which binds only poorly to a B-DNA helix, that inhibits EcoRI preferentially. Kinetic studies in the presence of lambda-Ru(DIP)3(2+) indicate that the enzyme inhibition occurs as a result of the lambda enantiomer binding to the enzyme-DNA complex as well as to the free enzyme. Furthermore, photolytic strand cleavage experiments using Co(DIP)3(3+) indicate that the metal complex interacts directly at the protein-bound DNA site. Increasing concentrations of bound EcoRI stimulate photoactivated cleavage of the DNA helix by lambda-Co(DIP)3(3+), until a protein concentration is reached where specific DNA recognition sites are saturated with enzyme. Thus, although lambda-Co(DIP)3(3+) does not bind closely to the DNA in the absence of enzyme, specific binding of EcoRI appears to alter the DNA structure so as to permit the close association of the lambda isomer to the DNA helix. Mapping experiments demonstrate that this association leads to photocleavage of DNA by the cobalt complex at or very close to the EcoRI recognition site.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Restriction endonuclease EcoRI alters the enantiomeric preference of chiral metallointercalators for DNA: an illustration of a protein-induced DNA conformational change. 301 Oct 80

The self-complementing dodecamer 5'-CGCGAATTCGCG-3' and its complexes with the antibiotic netropsin and the restriction endonuclease EcoRI provide substrates of known three-dimensional structure to study the stereochemistry and mechanism of the artificial nuclease of 1,10-phenanthroline-copper ion [(OP)2Cu+]. Analysis of the reaction products with the 5'-32P dodecamer on 20% sequencing gels has demonstrated the presence of 3'-phosphoglycolate ends in addition to 3'-phosphomonoester ends expected from previous studies. A reaction intermediate, which is a precursor to 3'-phosphomonoester termini, has been trapped; in contrast, no comparable species for the 5'-phosphomonoester termini can be detected when 3'-labeled DNAs are utilized as substrates. The reactive oxidative species formed by the coreactants (OP)2Cu+ and hydrogen peroxide is distinguishable in its chemistry from the hydroxyl radicals produced by cobalt-60 gamma-irradiation. The freely diffusible hydroxyl radicals generated by cobalt-60 irradiation produce equivalent amounts of 3'-phosphomonoester and 3'-phosphoglycolate termini whereas the 3'-phosphomonoesters are the preferred product of (OP)2Cu+ and H2O2. On the basis of the structures of the products obtained, the principal site of attack of the coordination complex is on the C-1 of the deoxyribose within the minor groove. This conclusion is supported by the footprinting of netropsin binding to the dodecamer. Crystallographic results have demonstrated that netropsin binds to the minor groove at the central AATT residue. A clear protection of attack by the coordination complex at the deoxyriboses associated with A-5, T-6, T-7, and C-9 is fully consistent with attack from the minor groove without intercalation during the course of the cleavage reaction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nuclease activity of 1,10-phenanthroline-copper ion: reaction with CGCGAATTCGCG and its complexes with netropsin and EcoRI. 302 54


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