EC:3.1.30.2 - FACTA Search

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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)

Optimal conditions for ligation of simian adenovirus type 7 (SA-7) DNA fragments formed under the effect of treatment of the intact molecule with Eco RI endonuclease were established. It was shown that up to 30% of the original material may be ligated and transferred into a structure with molecular weight 23 X 10(6) daltons which corresponded to the molecular weight of the intact SA-7 DNA. The data of the existence of one recognition site for Eco RI in SA-7 DNA were confirmed. The biological activity of the ligated material was demonstrated on lambda-III phage DNA.
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PMID:[Splitting and rejoining simian adenovirus type 7 DNA by using Eco RI restriction endonuclease and DNA-ligase]. 33 66

Enzymatic activities capable of degrading double-stranded RNA have been solubilized from whole 9-day-old chick embryos and separated by ion exchange chromatography on DEAE-cellulose into two classes, designated nucleases DI and DII. Nuclease DI exhibits an absolute requirement for Mn2+ in the range of 5 to 10 mM. Monovalent cations, including K+, Na+, and NH4+, are inhibitory. The molecular weight of DI is 60,000 to 62,500 as estimated from sedimentation in sucrose density gradients. Following gradient fractionation, nuclease DI possesses the ability to degrade several substrates exhibiting a 250-fold preference for poly(rC) as compared to poly(rC)-poly(rG). The activity responsible for degrading double-stranded RNA functions as an endonuclease generating oligonucleotides with 5'-phosphate termini. Nuclease DII requires both monovalent and divalent cations. Optimal degradation of poly[r(A-U)] is seen at 75 to 100 mM salt and 0.5 to 1.0 mM MgCl2 or MnCl2. The molecular weight estimated from sucrose gradient sedimentation is in the range of 38,000 to 40,000. Nuclease DII acts endonucleolytically producing oligonucleotides terminating in 5'-phosphates. During the isolation and characterization of nucleases DI and DII, a third activity was detected which degrades single-stranded RNA substrates but which, in the presence of either DII or RNase H, significantly enhances the degradation of poly[r(A-U)] or poly(rA)-poly(dT) substrates.
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PMID:Isolation and characterization of two enzymatic activities from chick embryos which degrade double-stranded RNA. 55 81

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

An endonucleolytic activity is associated with purified PM(2) bacteriophages. It converts the double-stranded supercoiled PM(2) DNA mostly into the linear form that sediments as a homogenous peak in alkaline sucrose gradients. The same activity is found in intact or detergent-lysed phages. Optimal activity is observed between pH 6.8 and 7.5 at 28 degrees . Divalent cations, Mg(2+) or Mn(2+), are necessary for activity, and the enzyme is inhibited by RNA. The endonuclease has no appreciable activity on linear DNA molecules, but it attacks single-stranded circular DNA.
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PMID:Endonuclease activity associated with purified PM2 bacteriophages. 453 Oct 30

The site specific endonuclease Bam HI which is composed of subunits of a molecular weight of 22 000 [1] can aggregate to complexes of a molecular weight of 360 000. It is an acidic protein with an isoelectric point at pH 5.3. Optimal activity is reached at 13 mM MgCl2. A very simple method is presented to determine kinetic constants of restriction enzymes directly from agarose gel photographs without any further equipment applying the integrated Michaelis Menten equation. With pJC 80 DNA as a substrate KM was found to be 3.6 10(-10) M. The method can be used to redefine the unit activity of site specific endonucleases unambigously.
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PMID:Physical and kinetic properties of the site specific endonuclease Bam HI from Bacillus amylolique-faciens. 625 48

An endonuclease has been purified more than 300-fold from Escherichia coli infected with bacteriophage T4. The enzyme degrades rapidly sedimenting (greater than 1000 S) DNA in vitro by introducing a limited number of breaks. The substrate is the replicative DNA isolated from cells infected with gene-49-defective phage [Kemper, B, and Janz, E. (1976) J. Virol. 18, 992-999]. Molecules of approximately a third the size of unit-length T4 DNA are exclusively found in a limit digest. The enzyme also reacts with single-stranded DNA from various sources. Heat-denatured T4 DNA is converted into acid-soluble oligonucleotides. Circular single-stranded M13 DNA is linearized by endonucleolytic cleavage causing a reduction of infectivity during transfection. The enzyme behaves like a typical late-gene product. Its activity is 100-fold reduced in cells infected with gene-55-defective phage (defect in expression of late functions). A 30-fold reduction in its specific activity was found in cells infected with gene-49-defective phage suggesting that gene 49 codes for the enzyme or controls its expression. The purified enzyme binds to native or denatured DNA from various sources. The protein has a molecular weight of 42000 as determined by gel filtration and sedimentation analysis. Optimal activity on rapidly sedimenting DNA is obtained at pH 8.6 in Tris/HCl buffer in the presence of 10 mM MgCl2. Some 75% of the activity can be obtained with 7 mM MnCl2. 5 mM CaCl2 has a stimulatory effect on the reaction with MgCl2 or MnCl2 each present at its individual optimal concentration. The enzyme does not require the addition of sulfhydryl reagent for full activity. The reaction can be inhibited by compounds like KCl, spermidine, p-hydroxymercuribenzoate or tRNA.
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PMID:Studies on T4-head maturation. 1. Purification and characterization of gene-49-controlled endonuclease. 626 77

The reaction requirements and kinetic properties of the in vitro endonuclease activity of the bacteriophage lambda terminase and its large subunit, gene product (gp) A, have been analyzed. Optimal cleavage reaction activity for both proteins requires Mg2+, a pH between 8.5 and 9.0, and is enhanced by ATP or ATP analogs. Under these conditions both terminase and gpA generate aberrant nicks in and around cosN. Optimal nicking specificity of terminase is observed under conditions of 50-100 mM salt, 5 mM spermidine, 1.5 mM ATP, and a pH between 7.0 and 7.5. Specific activity of terminase is greatly reduced under these conditions, and gpA is completely inactive at all protein concentrations tested. Under optimal reaction conditions, gpA endonuclease activity differs from that of the holoenzyme in that it can only be detected at high concentrations, is strongly protein concentration-dependent, and can not be stimulated by the Escherichia coli protein integration host factor. Addition of purified gpNu1 partially, but not completely, minimized these differences, suggesting that the role of gpNu1 in the holoenzyme is to modulate the basal endonuclease of gpA.
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PMID:The in vitro endonuclease activity of gene product A, the large subunit of the bacteriophage lambda terminase, and its relationship to the endonuclease activity of the holoenzyme. 817 93

We report the characterization and partial purification of potato mitochondrial RNase Z, an endonuclease that generates mature tRNA 3' ends. The enzyme consists of one (or more) protein(s) without RNA subunits. Products of the processing reaction are tRNA molecules with 3' terminal hydroxyl groups and 3' trailers with 5' terminal phosphates. The main processing sites are located immediately 3' to the discriminator and one nucleotide further downstream. This endonucleolytic processing at and close to the tRNA 3' end in potato mitochondria suggests a higher similarity to the eukaryotic than to the prokaryotic tRNA 3' processing pathway. Partial purification and separation of RNase Z from the 5' processing activity RNase P allowed us to determine biochemical characteristics of the enzyme. The activity is stable over broad pH and temperature ranges, with peak activity at pH 8 and 30 degrees C. Optimal concentrations for MgCl2 and KCl are 5 mM and 30 mM, respectively. The potato mitochondrial RNase Z accepts only tRNA precursors with mature 5' ends. The precursor for tRNAPhe requires RNA editing for efficient processing by RNase Z.
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PMID:5' end maturation and RNA editing have to precede tRNA 3' processing in plant mitochondria. 941 37

Prokaryotic DNA repair nucleases are useful reagents for detecting DNA lesions. Escherichia coli UvrABC endonuclease can incise DNA containing UV photoproducts and bulky chemical adducts. The limited stability of the E. coli UvrABC subunits leads to difficulty in estimating incision efficiency and quantitative adduct detection. To develop a more stable enzyme with greater utility for the detection of DNA adducts, thermoresistant UvrABC endonuclease was cloned from the eubacterium Bacillus caldotenax (Bca) and individual recombinant protein subunits were overexpressed in and purified from E. coli. Here, we show that Bca UvrC that had lost activity or specificity could be restored by dialysis against buffer containing 500 mM KCl and 20mM dithiothreitol. Our data indicate that UvrC solubility depended on high salt concentrations and UvrC nuclease activity and the specificity of incisions depended on the presence of reduced sulfhydryls. Optimal conditions for BCA UvrABC-specific cleavage of plasmid DNAs treated with [3H](+)-7R,8S-dihydroxy-9S,10R-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) (1-5 lesions/plasmid) were developed. Preincubation of substrates with UvrA and UvrB enhanced incision efficiency on damaged substrates and decreased non-specific nuclease activity on undamaged substrates. Under optimal conditions for damaged plasmid incision, approximately 70% of adducts were incised in 1 nM plasmid DNA (2 BPDE adducts/5.4 kbp plasmid) with UvrA at 2.5 nM, UvrB at 62.5 nM, and UvrC at 25 nM. These results demonstrate the potential usefulness of the Bca UvrABC for monitoring the distribution of chemical carcinogen-induced lesions in DNA.
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PMID:Reduced sulfhydryls maintain specific incision of BPDE-DNA adducts by recombinant thermoresistant Bacillus caldotenax UvrABC endonuclease. 1296 45

Human DNA apurinic/apyrimidinic (AP-) endonuclease 1 (APE1) is involved in the base excision repair (BER) pathway. The enzyme hydrolyzes DNA from the 5 side of the AP site. In addition to endonuclease activity, APE1 also possesses other slight activities including 3 -5 exonuclease activity. The latter is preferentially exhibited towards mispaired (non-canonical) nucleotides, this being the reason why APE1 is considered as a proofreading enzyme correcting the misincorporations introduced by DNA polymerase beta. We have studied 3 -5 exonuclease activity of APE1 towards dCMP and dTMP residues and modified dCMP analogs with photoreactive groups at the 3 end of the nicked DNA. Photoreactive dNMP residues were incorporated at the 3 end of the lesion using DNA polymerase beta and photoreactive dNTPs. The dependence of exonuclease activity on the "canonicity" of the base pair formed by dNMP flanking the nick at the 3 end, on the nature of the group flanking the nick at the 5 end, and on the reaction conditions has been determined. Optimal reaction conditions for the 3 -5 exonuclease hydrolysis reaction catalyzed by APE1 in vitro have been established, and conditions when photoreactive residues are not removed by APE1 have been chosen. These reaction conditions are suitable for using photoreactive nicked DNAs bearing 3 -photoreactive dNMP residues for photoaffinity labeling of proteins in cellular/nuclear extracts and model APE1-containing systems. We recommend using FAPdCTP for photoaffinity modification in APE1-containing systems because the FAPdCMP residue is less prone to exonuclease degradation, in contrast to FABOdCTP, which is not recommended.
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PMID:3'-5' exonuclease activity of human apurinic/apyrimidinic endonuclease 1 towards DNAs containing dNMP and their modified analogs at the 3 end of single strand DNA break. 1648 26

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