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)

We have fractionated from human aneuploid cell cultures three different enzyme fractions degrading single-stranded DNA. We have purified and characterized one of these DNases; this is an endonuclease working at alkaline pH (around 9.5) and requiring Mg2+ for its activity. The enzyme degrades denatured DNA over 100 times more efficiently than native DNA in optimal conditions. The termini produced by the enzyme have 5'P and 3'OH ends. The enzyme can attack, though at reduced rate, the supertwisted circular molecule of Simian virus 40 DNA, whereas it is inactive on the nicked circular molecule. The ultraviolet irradiation of DNA, whether native or denatured, does not affect its efficiency as substrate of the DNase. The properties of this endonuclease distinguish it from those of the other DNases described previously in mammalian cells; the denomination DNase VI is therefore proposed. Its properties are similar to those of DNases described in Ustilago maydis and Bacillus subtilis, for which an essential role in recombination seems likely.
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PMID:A novel endonuclease of human cells specific for single-stranded DNA. 100 31

An endogenous Ca2+, Mg2+-dependent factor of enzymic nature (apparently an endonuclease) digests a part of chromatin in the rat liver nuclei producing DNA fragments of an uniform size. After 60 min of incubation at 15 degrees C and pH 7.50 in the presence of 5 mM MgCl2 and 2 mM CaCl2 87-93% of the total chromatin becomes soluble. The insoluble chromatin however contains 70-85% of the in vivo newly synthesized RNA. In regenerating liver the proportion of the insoluble residual chromatin increases while the radioactivity of the newly synthesized DNA in this fraction is highest. Residual chromatin can be solubilized by ultrasonic treatment only. The Ca2+, Mg2+-dependent dissolving factor is not present either in brain or in PMN leucocyte nuclei.
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PMID:[Solubilization of chromatin by an endogenous enzymic Ca2+, Mg2+-dependent factor. Activity of residual chromatin]. 105 86

The restriction endonuclease from Escherichia coli K specifically cleaves foreign DNA in the presence of S-adenosylmethionine, ATP, and Mg2+. The role of S-adenosylmethionine in this reaction has been studied by following the specific binding of the enzyme to unmodified DNA. The results indicate that S-adenosylmethionine acts as an allosteric effector. However, the rate-limiting step in the activation of the enzyme is not the binding of the effector itself, but an event subsequent to it. The interaction of the S-adenosylmethionine with two mutant K restriction endonucleases isolated previously has also been investigated. One of them, which is defective in restriction, can be activated in a manner similar to the wild type enzyme, while the other one, which lacks both restriction and modification activities (due to a mutation in the subunit responsible for DNA recognition), shows no such effect.
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PMID:The role of S-adenosylmethionine in the cleavage of deoxyribonucleic acid by the restriction endonuclease from Escherichia coli K. 109 85

RNAase III, an endonuclease specific for double-stranded substrates, has been obtained in a highly purified form from extracts of Salmonella typhimurium. Poly (I-C) and a mixture of poly(A) and poly(U) (1 : 1), the latter in presence of 5 mM Mg2+, act as excellent substrates. Poly(I-C) is only partially hydrolysed by RNAase III and the product or products are acted upon by both RNAase I and RNAase II indicating that the products may be oligonucleotides. This conclusion is supported by two-dimensional chromatography on DEAE paper.
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PMID:Substrate specificity of Salmonella typhimurium RNAase III and the nature of products formed. 110 68

DNA isolated from (a) liver chromatin digested in situ with endogenous Ca2+, Mg2+-dependent endonuclease, (b) prostate chromatin digested in situ with micrococcal nuclease or pancreatic DNAase I, and (c) isolated liver chromatin digested with micrococcal nuclease or pancreatic DNAase I has been analyzed electrophoretically on polyacrylamide gels. The electrophoretic patterns of DNA prepared from chromatin digested in situ with either endogenous endonuclease (liver nuclei) or micrococcal nuclease (prostate nuclei) are virtually identical. Each pattern consists of a series of discrete bands representing multiples of the smallest fragment of DNA 200 +/- 20 base pairs in length. The smallest DNA fragment (monomer) accumulates during prolonged digestion of chromatin in situ until it accounts for nearly all of the DNA on the gel; approx. 20% of the DNA of chromatin is rendered acid soluble during this period. Digestion of liver chromatin in situ in the presence of micrococcal nuclease results initially in the reduction of the size of the monomer from 200 to 170 base pairs of DNA and subsequently results in its conversion to as many as eight smaller fragments. The electrophoretic pattern obtained with DNA prepared from micrococcal nuclease digests of isolated liver chromatin is similar, but not identical, to that obtained with liver chromatin in situ. These preparations are more heterogeneous and contain DNA fragments smaller than 200 base pairs in length. These results suggest that not all of the chromatin isolated from liver nuclei retains its native structure. In contrast to endogenous endonuclease and micrococcal nuclease digests of chromatin, pancreatic DNAase I digests of isolated chromatin and of chromatin in situ consist of an extremely heterogeneous population of DNA fragments which migrates as a continuum on gels. A similar electrophoretic pattern is obtained with purified DNA digested by micrococcal nuclease. The presence of spermine (0.15 mM) and spermidine (0.5 mM) in preparative and incubation buffers decreases the rate of digestion of chromatin by endogenous endonuclease in situ approx. 10-fold, without affecting the size of the resulting DNA fragments. The rates of production of the smallest DNA fragments, monomer, dimer, and trimer, are nearly identical when high molecular weight DNA is present in excess, indicating that all of the chromatin multimers are equally susceptible to endogenous endonuclease. These observations points out the effects of various experimental conditions on the digestion of chromatin by nucleases.
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PMID:Structure of eukaryotic chromatin. Evaluation of periodicity using endogenous and exogenous nucleases. 124 19

DNA polymerases from Bacillus stearothermophilus, Bacillus caldotenax, and Bacillus caldovelox were purified by chromatography on DEAE-cellulose, phosphocellulose, and heparin-Sepharose and obtained in high yield. The enzyme preparations are free of exo- and endonuclease activities. Additional purification steps, e.g., hydrophobic interaction chromatography and chromatography on a Mono Q column or sucrose density gradient centrifugation, are needed to obtain the enzymes in the form of homogeneous 95-kDa proteins. Each of the three organisms possesses a major DNA polymerase activity comparable to DNA polymerase I. The enzymes require Mg2+ (10 to 30 mM) for optimal activity, although 0.4 mM Mn2+ could substitute for magnesium. The optimal reaction temperatures were lowest in B. stearothermophilus (60 to 65 degrees C) and about equal in B. caldovelox and B. caldotenax (65 to 70 degrees C). The thermal stabilities of the enzymes increased in the same order. The DNA polymerase from Thermus thermophilus was isolated for comparison by using a similar procedure. The enzyme was obtained as a homogeneous 85-kDa protein that was also free of exo- and endonucleolytic activities.
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PMID:Purification and characterization of DNA polymerases from Bacillus species. 132 Jun 8

A mitochondrial endonuclease from Drosophila melanogaster embryos was purified to near homogeneity by successive fractionation with DEAE-cellulose and heparin--avidgel-F, followed by FPLC chromatography on mono S, Superose 12 and a second mono S column. This enzyme digests double-stranded DNA more efficiently than heat-denatured DNA. The endonuclease activity has a molecular mass of 44 kDa, as determined under native conditions using a gel-filtration Superose 12 column. The prominent peptide detected by SDS/polyacrylamide gel electrophoresis likewise has a molecular mass of 44 kDa, suggesting a monomeric protein. The enzyme has an absolute requirement for divalent cations, preferring Mg2+ over Mn2+. No activity could be detected when these cations were replaced by Ca2+ or Zn2+. The pH optimum for this enzyme activity is 6.5-7.4 and its isoelectric point is 4.9. Both single-strand and double-strand breaks are introduced simultaneously into a supercoiled substrate in the presence of MgCl2 or MnCl2. Endonuclease-treated DNA serves as a substrate for DNA polymerase I from Escherichia coli, suggesting that 3'-OH termini are generated during cleavage. The enzyme is free from any detectable DNA exonuclease activity but not from RNase activity. Partial inhibition by antibodies raised against mitochondrial endonucleases derived from bovine heart and Saccharomyces cerevisiae have revealed a potential structural homology between these nucleases.
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PMID:Purification and characterization of a mitochondrial endonuclease from Drosophila melanogaster embryos. 133 52

The Eco57I restriction endonuclease and methylase were purified to homogeneity from the E.coli RR1 strain carrying the eco57IRM genes on a recombinant plasmid. The molecular weight of the denaturated methylase is 63 kDa. The restriction endonuclease exists in a monomeric form with an apparent molecular weight of 104-108 kDa. R.Eco57I also possesses methylase activity. The methylation activities of both enzymes modify the outer A residue in the target sequence 5'CTGAAG yielding N6-methyladenine. M.Eco57I modifies both strands of the substrate while R.Eco57I modifies only one. Only the methylase enzyme is stimulated by Ca2+. The restriction endonuclease shows an absolute requirement for Mg2+ and is stimulated by AdoMet. ATP has no influence on either activity of the enzymes. The subunit structure and enzymatic properties of the Eco57I enzymes distinguish them from all other restriction-modification enzymes that have been described previously. Therefore, RM.Eco57I may be regarded as a representative of a novel class of restriction-modification systems, and we propose to classify it as type IV.
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PMID:Purification and properties of the Eco57I restriction endonuclease and methylase--prototypes of a new class (type IV). 133 60

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

Gradual degradation of internucleosomal DNA is a hallmark of apoptosis and can be simulated by incubating isolated thymocyte nuclei in the presence of 5 mM Mg2+ and 5 mM Ca2+ at 37 degrees C. Staining of nuclei with the DNA binding fluorescent dye propidium iodide (PI) showed that intensity of fluorescence correlated with the extent of DNA degradation. PI fluorescence was increased in the presence of DNase I. Thus it seems that the cleavage of chromatin DNA by DNase 1 or by the endogenous enzyme increases the accessibility of DNA for the dye. No increase of fluorescence was observed in the presence of the known inhibitors of the endogenous endonuclease: Zn2+ and EGTA. However, the presence of Zn2+ led to decreased staining of the nuclei by PI and caused a shift in the scatter profile of the nuclei, suggesting that a conformational change of chromatin is induced by this ion. This correlation between intensity of PI staining and DNA degradation should be useful to compare endogenous nuclease levels in lymphocyte populations.
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PMID:Propidium iodide staining correlates with the extent of DNA degradation in isolated nuclei. 137 3

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