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)

An endonuclease, present in the microplasmodia of Physarum polycephalum, has been partially purified from isolated nuclei by DEAE-cellulose and Sephadex G-75 chromatography. 1. The endonuclease produced single-strand scissions in double-stranded DNA which resulted in the generation of 5'-phosphoryl and 3'-hydroxyl termini. No activity was observed with single-stranded DNA as substrate. 2. The pH optimum was approximately 8.5. 3. Divalent cations were essential for enzyme activity. MnCl2 and MgCl2 gave maximal activity. CaCl2, ZnCl2 or CoCl2 did not activate the enzyme. 4. The endonuclease activity was highly sensitive to monovalent cations. 5. Endonuclease activity was found in two forms after gel filtration: an activity in a homogeneous peak with a molecular weight of approx. 20 000, and an activity that had a heterogeneous molecular weight and which was isolated in a complex with DNA. A possible function of the endonuclease in DNA replication is discussed.
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PMID:Endonuclease activity in nuclei of Physarum polycephalum. Partial purification and characterization. 2 Jan 46

The endonuclease DNase II preferentially attacks a limited and tissue-specific portion of chromosomal DNA. This material may be separated from the bulk of chromatin DNA by virtue of its solubility in 2 mM MgCl2. The Mg2+ soluble fraction forms a specific subset of DNA sequences and is enriched four to sevenfold in sequences coding for cytoplasmic poly(A)-containing RNA and globin messenger RNA (in globin-producing cells). The bulk (70--90%) of rapidly labelled RNA is found associated with the Mg2+-soluble fraction. Transcriptionally active, Mc2+-soluble chromatin is organized into repeating subunits of DNA (200 +/- 5 base pairs) and histone. Mc2+-soluble active subunits differ from the subunits or nucleosomes of non-transcribed regions in many respects: namely, chemical composition (non-histone protein and RNA), sedimentation properties, differential sensitivity to DNase I and the single-strand-specific nuclease S1, and optical melting behaviour. These results suggest that chromatin subunits adopt a new configuration during the process of transcription.
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PMID:Organization of transcribed regions of chromatin. 2 80

Thymus, spleen and liver nuclei released a large fraction of soluble chromatin in vitro when incubation was carried out in sucrose media containing low concentrations of CaCl2 and/or MgCl2. A significant fraction of deoxyribopolynucleotides (DPN) was also extracted from nuclei. After 30 min of incubation at 37 degrees C, the maximum release of soluble chromatin was observed near a pH of 8, which corresponds to the optimum pH of the alkaline endonuclease activity from thymus, spleen and liver. The soluble chromatin and DPN were precipitated by increasing the bivalent ion concentration of the medium. The protein/DNA ratio and the molecular weight of DNA suggest that the soluble chromatin and DPN represent nucleosome-like particles. The release of soluble chromatin in the first 4 hours of incubation was significantly increased if the nuclear fraction was isolated from the thymus and spleen of whole-body irradiated mice (1000 rad). This effect was absent in the liver nuclei.
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PMID:Role of alkaline endonucleases in the release of soluble chromatin from thymus, spleen and liver nuclei of normal and irradiated mice. 3 58

The DNA polymerase induced by Bacillus subtilis bacteriophage PBS2 has a Stokes radius of 7.2 in buffers of high ioninc strength, suggesting a molecular weight in the range 145,000 to 195,000. The polypeptide bands observed on gel electrophoresis in dodecyl sulfate have apparent molecular weights of 78,000 and 69,000 (and possibly another 27,000) in equimolar amounts. In buffers of low ionic strength, the enzyme appears to form large aggregates and even precipitates, with about 90% loss of activity. A nuclease activity co-purifies with the PBS2 DNA polymerase and shows similar responses to changes in pH, MgCl2, N-ethylmaleimide, temperature, and dextran sulfate levels. The nuclease produces deoxyribonucleoside 5'monophosphates from denatured DNA containing thymine or uracil. No endonuclease activity is detectable on supercoiled DNA. The inhibition of nuclease activity by added deoxyribonucleoside triphosphates, the DNA-dependent turnover of triphosphates, to free monophosphates during DNA polymerization, the inhibition of nuclease activity by 3'-phosphates on the DNA template-primer, and the pattern of digestion of 5'-[32P]phosphate-labeled DNA all indicate that the PBS2 DNA polymerase-associated hydrolytic activity is a 3' leads to 5'-exonuclease.
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PMID:Characterization of the Bacillus subtilis bacteriophage PBS2-induced DNA polymerase and its associated exonuclease activity. 10 39

An endonuclease activity making single-strand breaks into depurinated and alkylated DNA has been purified 500-fold from carcinogen-transformed mouse epidermal cells. The enzyme was active only at apurinic/apyrimidinic sites, regardless of whether they were produced by heating at an acidic pH or by alkylation with the ultimate carcinogen MeSO2OMe. The enzyme did not act on native DNA nor on ultraviolet-induced pyrimidine-dimers nor on steric distortions caused by modification of DNA with the carcinogen (Ac)2ONFln. The enzyme was active in the presence of 1 mM EDTA; however, at pH 7.4 optimal conditions were: 6mM MgCl2 and 40--120 mM KCl or 10--40 mM potassium phosphate. The enzyme eluted from hydroxyapatite, phosphocellulose and heparin-cellulose between 100--250 mM potassium phosphate but did not bind to DEAE-cellulose. Using four chromatographic steps the endonuclease was obtained free of exonuclease, demethylase and DNA glycosylase activity specific for DNA bases methylated with MeSO2OMe or MeNOUr. The molecular weight was 31 000 +/- 3000 as calculated from the diffusion coefficient (8.2 x 10-7 cm2/s) and the sedimentation value (2.7 S).
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PMID:Apurinic acid endonuclease activity from mouse epidermal cells. 11 Dec 31

A nuclease activity has been found to appear in preparations of T4 induced polynucleotide kinase which had originally been nuclease free. The nuclease introduced random nicks into T7 DNA suggesting that it was an endonuclease. Destabilization of the kinase molecule by osmotic shock or by the removal of reducing agents, ATP or salts was shown to stimulate the endonuclease appearance. The molecular weight was found to be 32,000 +/- 10% by gel filtration on G100 Sephadex. The nuclease was active over a wide pH range from pH 5.0 to pH 9.2 in a number of buffer systems and required MgCl2 and reducing agent for maximum activity. Sodium azide did not affect the nuclease appearance.
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PMID:Partial characterization of an endonuclease activity which appears in nuclease free T4 polynucleotide kinase. 18 16

The substrate specificity of the EcoRI restriction endonuclease can be varied in vitro by changing the pH and the ionic environment of the reaction. Phosphodiester bond cleavage occurs at a DNA hexanucleotide sequence d(N-G-A-A-T-T-C-N)/d(N-C-T-T-A-A-G-N) when the ionic strength is high, 100 mM Tris-HCl, 50 mM NaCl, 5 mM MgCl2, and the pH is approximately 7.3. Lowering the ionic strength to 25 mM Tris-HCl, 2 mM MgCl2, and adjusting the pH to 8.5 reduces the recognition specificity of the EcoRI endonuclease to the tetranucleotide sequence, d(N-A-A-T-T-N)/d(N-T-T-A-A-N). The enzymatic activity responsible for this substrate recognition is referred to as EcoRI. Cleavage of pVH51 plasmid DNA under EcoRI conditions results in a number of partial digest fragments, some of which disappear slowly over a prolonged digestion period. This suggests that different recognition sites are cleaved at different rates. Comparison of DNA fragment patterns of modified and unmodified pVH51 DNA indicates that the canonical EcoRI sequence is the most rapidly cleaved site under EcoRI conditions. DNA modified in vivo by the EcoRI methylase is not cleaved by the EcoRI endonuclease under standard conditions, but is cleaved under EcoRI conditions at sites other than the standard EcoRI substrate.
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PMID:Specificity of substrate recognition by the EcoRI restriction endonuclease. 24 1

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

The activity of damage-dependent endonuclease in mouse plasmacytoma cells (line MPC-11) has been studied using damaged phi X 174 RFI DNA as substrate. The DNA was treated with ultraviolet light, acid, or osmium tetroxide to introduce different types of lesions. Ultraviolet light-damaged DNA was cleaved at approx. 1.1 sites per 35 thymine-containing dimers by the extract, which indicates no specificity towards this type of lesion. The acid-treated DNA, which contains apurinic sites, was enzymatically broken in every alkalilabile site and this strongly suggests the presence of an apurinic-specific endonuclease activity in the nuclear extract. The activity which acts on ultraviolet-irradiated DNA and that which acts on acid-treated DNA have different specificities as shown by their salt requirements and the extent to which they are stimulated by magnesium. While the ultraviolet-endonuclease activity was very little affected by reducing the KCl concentration, the apurinic-specific activity was almost completely abolished. Osmium tetroxide renders the DNA an excellent substrate for endonucleolytic activity in the mouse cell extract. The response to KCl and MgCl2 of the osmium tetroxide-specific endonuclease activity is qualitatively similar to that of the endonuclease activity, which acts on ultraviolet-irradiated DNA. Treatment of DNA with osmium tetroxide is known to produce 5,6-dihydroxydihydrothymine which is a minor photoproduct in DNA after irradiation, suggesting that the ultraviolet-specific endonuclease activity acts upon this lesion.
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PMID:Endonuclease activities from a permanently established mouse cell line that act upon DNA damaged by ultraviolet light, acid and osmium tetroxide. 69 23

An endonuclease (AP-endonuclease II) that specifically attacks double stranded or single stranded depurinated DNA, resulting in single-strand nicks, has been purified 320-fold from Micrococcus luteus. The enzyme is not stimulated by 0.002 M MgCl2, it induces 3'OH-5'PO4 breaks on the 5' side of apurinic sites, it has no activity towards UV-irradiated DNA and has a molecular weight of about 30 000. In cooperation with DNA-polymerase from M. luteus and T4 DNA ligase, AP-endonuclease II has been shown capable of carrying out complete excision repair of depurinated DNA in vitro.
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PMID:[Isolation and properties of Micrococcus luteus endonucleas acting in DNA depurinization but inactive with pyrimidine dimers]. 88 77

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