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)

Bacillus subtilis Marburg TI (thy,trpC2) has at least four endonuclease activities as assayed by measuring the conversion of single-stranded circular f1 DNA to the linear form by agarose gel electrophoresis. One of them, which is specific for single-stranded DNA (named endonuclease MII), was purified about 320 times by two chromatographic steps and gel filtration, thereby eliminating exonuclease and phosphomonoesterase activities. This activity requires divalent cations but does not require ATP. The molecular weight estimated by gel filtration was about 57,000 daltons. The cleavage products have 5'-phosphoryl termini. At low concentrations, double-stranded DNA is not split to any detectable extent. At high concentrations, however, double-stranded superhelical DNA is attacked to yield open-circular and linear DNA's. The activity of the enzyme towards single-stranded circular DNA relative to that towards double-stranded linear DNA was calculated to be approximately 5,000:1 by comparing the initial rates of introducing single-strand breaks into the DNA's.
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PMID:Purification and characterization of an endonuclease specific for single-stranded DNA from Bacillus subtilis Marburg. 4 35

A ribonuclease (ribonucleate 3-pyrimidine-oligonucleotidohydrolase, EC 3.1.4.22) was purified 8300-fold from soluble fraction of beef brain and its properties were investigated. The enzyme is an endonuclease capable of hydrolyzing tRNA, rRNA, poly(C), but shows no activity towards poly(U), poly(A), and poly(G). The preparation is free of deoxyribonuclease, non-specific phosphodiesterase and phosphomonoesterase activity. The enzyme has a pH optimum of 7.6, is not heat stable, has a molecular weight of 25 000, and has a K-m of 134 mu rRNA and K-m of 1600 mug poly(C) per ml.
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PMID:Purification of an alkaline ribonuclease from soluble fraction of beef brain. 23 61

1. An endonuclease has been isolated from the nuclei of rye (Secale cereale L) germ and partially purified. The enzyme shows optimum activity over the pH range 5.4-7.4 towards both DNA and RNA, and has no phosphomonoesterase or phosphodiesterase activity. 2. DNA is degraded by the rye germ nuclease to oligonucleotides of similar size, and RNA to oligonucleotides and mononucleotides containing a C-terminal 5'-phosphate group. 3. The rate of hydrolysis of nuclear acids by the enzyme decreases in the following order: native DNA greater than denatured DNA greater than RNA. Synthetic polynucleotides are hydrolysed at a rate decreasing in the order: poly(A) greater than poly(U) greater than poly(C) greater than poly(G).
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PMID:Purification and some properties of a nuclease from rye germ nuclei. 61 Feb 81

Alkaline phosphatase was the first zinc enzyme to be discovered in which three closely spaced metal ions (two Zn ions and one Mg ion) are present at the active center. Zn ions at all three sites also produce a maximally active enzyme. These metal ions have center-to-center distances of 3.9 A (Zn1-Zn2), 4.9 A (Zn2-Mg3), and 7.1 A (Zn1-Mg3). Despite the close packing of these metal centers, only one bridging ligand, the carboxyl of Asp51, bridges Zn2 and Mg3. A crystal structure at 2.0-A resolution of the noncovalent phosphate complex, E.P, formed with the active center shows that two phosphate oxygens form a phosphate bridge between Zn1 and Zn2, while the two other phosphate oxygens form hydrogen bonds with the guanidium group of Arg166. This places Ser102, the residue known to be phosphorylated during phosphate hydrolysis, in the required apical position to initiate a nucleophilic attack on the phosphorous. Extrapolation of the E.P structure to the enzyme-substrate complex, E.ROPO4(2-), leads to the conclusion that Zn1 must coordinate the ester oxygen, thus activating the leaving group in the phosphorylation of Ser102. Likewise, Zn2 appears to coordinate the ester oxygen of the seryl phosphate and activate the leaving group during the hydrolysis of the phosphoseryl intermediate. Both of these findings suggest that there may be a significant dissociative character to each of the two displacements at phosphorous catalyzed by alkaline phosphatase. A water molecule (or hydroxide) coordinated to Zn1 following formation of the phosphoseryl intermediate appears to be the nucleophile in the second step of the mechanism. Dissociation of the product phosphate from the E.P intermediate is the slowest, 35 s-1, and therefore the rate-limiting, step of the mechanism at alkaline pH. Since the determination of the initial crystal structure of alkaline phosphatase, two other crystal structures of enzymes involved in phosphate ester hydrolysis have been completed that show a triad of closely spaced zinc ions present at their active centers. These enzymes are phospholipase C from Bacillus cereus (structure at 1.5-A resolution) (43) and P1 nuclease from Penicillium citrinum (structure at 2.8-A resolution) (74). Both enzymes hydrolyze phosphodiesters. Substrates for phospholipase C are phosphatidylinositol and phosphatidylcholine, while P1 nuclease is an endonuclease hydrolyzing single stranded ribo- and deoxyribonucleotides. P1 nuclease also has activity as a phosphomonoesterase against 3'-terminal phosphates of nucleotides. The Zn ions in both enzymes form almost identical trinuclear sites.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure and mechanism of alkaline phosphatase. 152 73

Isolation and general properties of 3'-5' exonucleases I and II (EC 3.1.4.26), which are specific to single-stranded DNA, are described. Such enzymes, being components of replication complexes, could correct replication errors. Homogeneous exonucleases I and II consist of a single subunit with molecular mass of 50 and 40 kDa, respectively. These enzymes are located preferentially in the nuclear membrane and chromatin. They form complexes with nuclear DNA polymerases and some other proteins and are not observed practically in a free state. Molecular masses of the complexes amount from 70 to 1.500 kDa. The complexes dissociate as a result of solution hydrophobization and can be reconstituted after the decrease of hydrophobization. The heavy membrane complex form of 3'----5' exonuclease I manifests enzymatic activities of DNA polymerase alpha (EC 2.7.7.7), non-specific nucleoside triphosphatase (EC 3.1.3.2), nucleotidase (EC 3.1.3.31) and faint activity of endonuclease (EC 3.1.4.5). Complexes under study do not display activity of thymidine kinase (EC 2.7.1.21), marker protein of replitase, neither in G0 nor in S-period.
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PMID:[Homogeneous 3'----5'-exonucleases and their multienzyme complexes from the rat liver]. 234 19

Two species of apurinic/apyrimidinic (AP) endonuclease have been purified approximately 400-fold from extracts of Drosophila embryos. AP endonuclease I, which flows through phosphocellulose columns, has an apparent subunit molecular weight of 66,000 as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, whereas AP endonuclease II, which is retained by phosphocellulose, has a subunit molecular weight of 63,000. The molecular weight determinations were made possible in part by the finding that both Drosophila enzymes, along with Escherichia coli endonuclease IV, cross-react with an antibody prepared toward a human AP endonuclease (Kane, C. M., and Linn, S. (1981) J. Biol. Chem. 256, 3405-3414). The nature of phosphodiester bond breaks produced by the two partially purified AP endonucleases from Drosophila have been investigated. Nicks introduced into partially depurinated PM2 DNA by Drosophila AP endonuclease I did not support DNA synthesis by E. coli DNA polymerase I, whereas nicks created by AP endonuclease II were able to support DNA synthesis, but at a rate far less than that observed for nicks introduced by E. coli endonuclease IV. The priming activity of DNA incised by either of the Drosophila enzymes can be enhanced, however, by an additional incubation with E. coli endonuclease IV, which is known to cleave depurinated DNA on the 5'-side of an apurinic site. These results suggest that the Drosophila enzymes cleave depurinated DNA on the 3'-side of the apurinic site. This suggestion was strengthened by the observation that the combined action of AP endonuclease II and E. coli endonuclease IV resulted in the removal of [32P]dAMP from partially depyrimidinated [dAMP-5'-32P,uracil-3H]poly(dA-dT). Taken together, these results propose that Drosophila AP endonuclease II produces 3'-deoxyribose and 5'-phosphomonoester nucleotide termini. Conversely, the absolute inability to detect priming activity for DNA cleaved by AP endonuclease I alone suggested a different mechanism, possibly the formation of a deoxyribose-3'-phosphate terminus. When apurinic DNA cleaved by AP endonuclease I was subsequently treated with bacterial alkaline phosphatase, DNA synthesis was now detected at levels similar to that observed for AP endonuclease II alone. Additionally, DNA nicked by AP endonuclease I was susceptible to 5'-end labeling by polynucleotide T4 kinase without prior phosphomonoesterase treatment. These results suggest that AP endonuclease I forms deoxyribose 3'-phosphate and 5'-OH termini upon cleaving depurinated DNA.
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PMID:Drosophila apurinic/apyrimidinic DNA endonucleases. Characterization of mechanism of action and demonstration of a novel type of enzyme activity. 241 27

Effect of pressure on plant endonucleases, nuclease P1 from penicillium and an endonuclease from potato, was investigated especially on the influence on phosphomonoesterase and phosphodiesterase activities shown on substrates of XpYp type, as well as their intrinsic pressure-stability. The potato enzyme was found to be far less pressure-sensitive in both senses.
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PMID:Effect of pressure on plant endonuclease reactions. 255 49

DNA-dependent ATPase IV has been purified to near homogeneity from the Novikoff rat hepatoma. The enzyme is devoid of DNA polymerase, RNA polymerase, exonuclease, endonuclease, phosphomonoesterase, 3'- or 5'-phosphodiesterase, polynucleotide kinase, protein kinase, topoisomerase, helicase or DNA reannealing activities at a detection level of 10(-5) to 10(-7) relative to the ATPase activity. The enzyme is a monomer of Mr 110,000, has a sedimentation coefficient of 5.9 S, a Stokes radius of 40 A and a frictional coefficient of 1.32. In the presence of Mg2+ ion and a polynucleotide effector, ATPase IV hydrolyzes either ATP or dATP to the nucleoside diphosphate plus Pi. Other ribo- or deoxyribonucleoside triphosphates are not substrates. ATPase IV utilizes double-stranded DNA and single-stranded DNA as effector; however, it does not utilize poly(dT). The Km for dsDNA or ssDNA is 2.2 microM (nucleotide). A variety of ATP analogues were found to be competitive inhibitors of ATPase IV.
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PMID:Purification and enzymological characterization of DNA-dependent ATPase IV from the Novikoff hepatoma. 296 5

A method for purification of beef spleen exonuclease is described, leading to electrophoretically homogeneous enzyme preparation. The method consists of three step fractionation of crude enzyme (after ammonium sulfate precipitation) as follows - ion exchange chromatography on ECTEOLA-cellulose, affinity chromatography on Concanavalin A-Sepharose and molecular sieving. The enzyme thus obtained is practically free of any contaminating activities - endonuclease or phosphomonoesterase. The molecular weight of the exonuclease was determined (98 000 +/- 3 000 daltons) and some other parameters of the enzyme were calculated. The investigation of the pH and thermo-stabilities showed significantly narrow limits of the exonuclease activity. The effect of the urea on the enzyme activity has also been evaluated.
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PMID:Simple purification and some properties of beef spleen exonuclease. 628 92

Two EcoRI restriction fragments carrying Saccharomyces cerevisiae repressible acid phosphatase genes were analyzed. Transcripts were mapped by restriction endonuclease cleavage of glyoxal-stabilized R-loops and by gel blot hybridizations to cDNA. Homology between the two fragments was examined by gel blots and heteroduplex analysis. Each fragment carried a region of about 1.5 kilobases that coded for a repressible acid phosphatase, and these regions showed homology to one another. In addition, one fragment carried a second region of somewhat lower homology that probably codes for the so-called constitutive acid phosphatase.
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PMID:RNA and homology mapping of two DNA fragments with repressible acid phosphatase genes from Saccharomyces cerevisiae. 634 39

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