Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A nuclease that could be recovered from the supernatant of cultures, as well as from cell-free extracts, of the cyanobacterium Anabaena sp. PCC 7120 was identified as a 29 kDa polypeptide by its ability to degrade DNA after electrophoresis in DNA-containing SDS-polyacrylamide gels. Some clones of a gene library of strain PCC 7120 established in Escherichia coli were found to produce the 29 kDa nuclease. The nucA gene encoding this nuclease was subcloned and sequenced. The deduced polypeptide, NucA, had a molecular weight of 29,650, presented a presumptive signal peptide in its N-terminal region and showed homology to the products of the nuc gene from Serratia marcescens and the NUC1 gene from Saccharomyces cerevisiae. The NucA protein from Anabaena itself, or from the cloned nucA gene expressed in E. coli, catalysed the degradation of both RNA and DNA, had the potential to act as an endonuclease, and functioned best in the presence of Mn2+ or Mg2+. An Anabaena nucA insertional mutant was generated which failed to produce the 29 kDa nuclease.
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PMID:Identification, genetic analysis and characterization of a sugar-non-specific nuclease from the cyanobacterium Anabaena sp. PCC 7120. 134 21

The restriction endonuclease AatII was purified from cell-free extracts of Acetobacter aceti IFO 3281 by streptomycin treatment, ammonium sulfate fractionation, combined column chromatographies on DEAE-Toyopearl 650S, heparin-Sepharose CL-6B and DEAE-Sepharose CL-6B and FPLC on Mono Q and on Superose 12 (gel filtration). The purified enzyme was homogeneous on SDS-polyacrylamide gel disk electrophoresis. The relative molecular mass of the purified enzyme was 190,000 daltons by gel filtration. The SDS-polyacrylamide gel disk electrophoresis gave the relative molecular mass of 47,500 daltons. These data indicated that the purified, native enzyme is a tetramer (190,000 daltons) composed of four 47,500-dalton subunits. The isoelectric point of the enzyme was 6.0. The purified enzyme was intensely activated by manganese ion (50-fold increase or more when compared with magnesium ion). The enzyme worked best at 37 degrees C and pH 8.5 in a reaction mixture (50 microliters) containing 1.0 micrograms lambda DNA, 10 mM Tris-HCl, 7 mM 2-mercaptoethanol, 7 mM MnCl2 and 50 mM NaCl. The enzyme recognizes the same palindromic hexanucleotide sequence 5'-GACGTC-3', cuts between T and C and produces a 3'-tetranucleotide extension in the presence of MnCl2, as it does in the presence of MgCl2.
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PMID:Purification of restriction endonuclease from Acetobacter aceti IFO 3281 (AatII) and its properties. 136 9

HIV-IN protein, tagged with a hexahistidine tail was expressed in Escherichia coli and purified by a one-step nickel chelate affinity chromatography procedure. The purified IN protein was characterized in terms of its endonuclease and integrase properties in vitro. Specific cleavage and integration of HIV U5 LTR ends were observed in the presence of 2-5 mM Mg2+ or Ca2+. In the presence of 2 mM Mn2+, cleavage and integration occurred at additional sites indicating a decreased specificity. The properties of mutant IN proteins were examined in vitro. Deletion of 39 amino acids from the N-terminus and a minimum of 25 residues from the C-terminus impaired IN-mediated cleavage and integration activities. The results of site-directed mutagenesis experiments showed that residues critical for IN function are highly conserved. Mutations of conserved residues Asp64, Pro109, Asp116, and Glu152 adversely affected IN function in vitro. Mutations of nonconserved residues Gly189 and Thr112 had no effect. Mutation of a conserved Thr115 to Ala caused a near complete loss of Mg(2+)-dependent integration activity, but only partially effected endonucleolytic cleavage activity of IN. These results suggest that not all conserved residues are involved in both endonucleolytic cleavage and integration activities of HIV-IN.
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PMID:Identification of amino acid residues critical for endonuclease and integration activities of HIV-1 IN protein in vitro. 158 29

In the absence of magnesium ions, the EcoRV restriction endonuclease binds all DNA sequences with equal affinity but cannot cleave DNA. In the presence of Mg2+, the EcoRV endonuclease cleaves DNA at one particular sequence, GATATC, at least a million times more readily than any other sequence. To elucidate the role of the metal ion, the reactions of the EcoRV restriction enzyme were studied in the presence of MnCl2 instead of MgCl2. The reaction at the EcoRV recognition site was slower with Mn2+. This was caused partly by reduced rates for phosphodiester hydrolysis but also by the translocation of the enzyme along the DNA after cleaving it in one strand. In contrast, alternative sites that differ from the recognition site by one base pair were cleaved faster in the presence of Mn2+ relative to Mg2+. When located at an alternative site on the DNA, the EcoRV enzyme bound Mn2+ ions readily but had a very low affinity for Mg2+. The EcoRV nuclease is thus restrained from cleaving DNA at alternate sites in the presence of Mg2+, but the restraint fails to operate with Mn2+. A discrimination factor, which measures the ratio of the activity of the EcoRV nuclease at its recognition site over that at an alternative site, had values of 3 x 10(5) in MgCl2 and 6 in MnCl2.
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PMID:EcoRV restriction endonuclease: communication between catalytic metal ions and DNA recognition. 162 51

A genetic system was constructed for the mutagenesis of the EcoRV restriction endonuclease and for the overproduction of mutant proteins. The system was used to make two mutants of EcoRV, with Ala in place of either Asn185 or Asn188. In the crystal structure of the EcoRV-DNA complex, both Asn185 and Asn188 contact the DNA within the EcoRV recognition sequence. But neither mutation affected the ability of the protein to bind to DNA. In the absence of metal ion cofactors, the mutants bound DNA with almost the same affinity as that of the wild-type enzyme. In the presence of Mg2+, both mutants retained the ability to cleave DNA specifically at the EcoRV recognition sequence, but their activities were severely depressed relative to that of the wild-type. In contrast, with Mn2+ as the cofactor, the mutant enzymes cleaved the EcoRV recognition site with activities that were close to that of the wild-type. When bound to DNA at the EcoRV recognition site, the mutant proteins bound Mn2+ ions readily, but they had much lower affinities for Mg2+ ions than the wild-type enzyme. This was the reason for their low activities with Mg2+ as the cofactor. The arrangement of the DNA recognition functions, at one location in the EcoRV restriction enzyme, are therefore responsible for organizing the catalytic functions at a separate location in the protein.
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PMID:EcoRV restriction endonuclease: communication between DNA recognition and catalysis. 162 52

Porcine liver DNA polymerase gamma was shown previously to copurify with an associated 3' to 5' exonuclease activity (Kunkel, T. A., and Mosbaugh, D. W. (1989) Biochemistry 28, 988-995). The 3' to 5' exonuclease has now been characterized, and like the DNA polymerase activity, it has an absolute requirement for a divalent metal cation (Mg2+ or Mn2+), a relatively high NaCl and KCl optimum (150-200 mM), and an alkaline pH optimum between 7 and 10. The exonuclease has a 7.5-fold preference for single-stranded over double-stranded DNA, but it cannot excise 3'-terminal dideoxy-NMP residues from either substrate. Excision of 3'-terminally mismatched nucleotides was preferred approximately 5-fold over matched 3' termini, and the hydrolysis product from both was a deoxyribonucleoside 5'-monophosphate. The kinetics of 3'-terminal excision were measured at a single site on M13mp2 DNA for each of the 16 possible matched and mismatched primer.template combinations. As defined by the substrate specificity constant (Vmax/Km), each of the 12 mismatched substrates was preferred over the four matched substrates (A.T, T.A, C.G, G.C). Furthermore, the exonuclease could efficiently excise internally mismatched nucleotides up to 4 residues from the 3' end. DNA polymerase gamma was not found to possess detectable DNA primase, endonuclease, 5' to 3' exonuclease, RNase, or RNase H activities. The DNA polymerase and exonuclease activities exhibited dissimilar rates of heat inactivation and sensitivity to N-ethylmaleimide. After nondenaturing activity gel electrophoresis, the DNA polymerase and 3' to 5' exonuclease activities were partially resolved and detected in situ as separate species. A similar analysis on a denaturing activity gel identified catalytic polypeptides with molecular weights of 127,000, 60,000, and 32,000 which possessed only DNA polymerase gamma activity. Collectively, these results suggest that the polymerase and exonuclease activities reside in separate polypeptides, which could be derived from separate gene products or from proteolysis of a single gene product.
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PMID:Properties of the 3' to 5' exonuclease associated with porcine liver DNA polymerase gamma. Substrate specificity, product analysis, inhibition, and kinetics of terminal excision. 166 14

An endonuclease specific for apurinic/apyrimidinic (AP) sites was identified and purified from extracts of Deinococcus radiodurans. The enzyme is 34.5 kD, has no activity towards normal, alkylated, uracil-containing, or UV-irradiated DNA, and is active in the presence of EDTA. The addition of up to 10 mM Mg2+ or Mn2+ did not affect activity, but higher concentrations were inhibitory. There is no associated exonuclease activity, either in the presence or absence of divalent cation. Optimal reaction conditions were 150 mM NaCl and pH 7.5. A uracil DNA glycosylase was also detected, active in the presence of EDTA, selectively removing uracil from DNA without generating other byproducts. The optimal reaction conditions were 50 mM NaCl and pH 7.5. Implications for base excision repair in D. radiodurans are discussed.
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PMID:AP endonuclease and uracil DNA glycosylase activities in Deinococcus radiodurans. 171 Nov 52

Escherichia coli endonuclease IV and its Saccharomyces cerevisiae homologue Apn1, two DNA repair enzymes for free radical damages, were previously shown to be inactivated by metal-chelating agents. In the present study, atomic absorption spectrometry of endonuclease IV revealed the presence of 2.4 zinc and 0.7 manganese atoms, whereas Apn1 contained 3.3 zinc atoms and no significant manganese. EDTA-inactivated endonuclease IV retained 0.7 zinc atom but little detectable manganese. ZnCl2 reactivated 1,10-phenanthroline-treated Apn1, but was ineffective with endonuclease IV treated with either 1,10-phenanthroline or EDTA. In contrast, enzymatic activity was restored to both enzymes after EDTA treatment by incubation with CoCl2 and to a lesser extent by MnCl2. Endonuclease IV, reactivated with CoCl2 or MnCl2, regained all of the activities characteristic of the native enzyme. MnCl2 was as effective as CoCl2 at restoring activity to the 1,10-phenanthroline-treated enzymes. The results indicate that intrinsic metals play critical roles in both endonuclease IV and Apn1 and that manganese may perform a special function in endonuclease IV. Possible mechanistic roles for the metals in these DNA repair enzymes are discussed.
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PMID:Metalloenzymes in DNA repair. Escherichia coli endonuclease IV and Saccharomyces cerevisiae Apn1. 172 Jul 75

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

A mutant BamHI endonuclease, E77K, belongs to a class of catalytic mutants that bind DNA efficiently but cleave DNA at a rate more than 10(3)-fold lower than that of the wild-type enzyme (S. Y. Xu and I. Schildkraut, J. Biol. Chem. 266:4425-4429, 1991). The preferred cofactor for the wild-type BamHI is Mg2+. BamHI is 10-fold less active with Mn2+ as the cofactor. In contrast, the E77K variant displays an increased activity when Mn2+ is substituted for Mg2+ in the reaction buffer. Mutations that partially suppress the E77K mutation were isolated by using an Escherichia coli indicator strain containing the dinD::lacZ fusion. These pseudorevertant endonucleases induce E. coli SOS response (as evidenced by blue colony formation) and thus presumably nick or cleave chromosomal DNA in vivo. Consistent with the in vivo result, the pseudorevertant endonucleases in the crude cell extract display site-specific partial DNA cleavage activity. DNA sequencing revealed two unique suppressing mutations that were located within two amino acid residues of the original mutation. Both pseudorevertant proteins were purified and shown to increase specific activity at least 50-fold. Like the wild-type enzyme, both pseudorevertant endonucleases prefer Mg2+ as the cofactor. Thus, the second-site mutation not only restores partial cleavage activity but also suppresses the metal preference as well. These results suggest that the Glu-77 residue may play a role in metal ion binding or in enzyme activation (allosteric transition) following sequence-specific recognition.
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PMID:Cofactor requirements of BamHI mutant endonuclease E77K and its suppressor mutants. 190 65


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