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)

A nuclease-sensitive fraction was obtained from chick reticulocyte chromatin by brief digestion with an endonuclease (DNAase II, deoxyribonucleate 3'-oligonucleotidohydrolase, EC 3.1.4.6). The nuclease-sensitive fraction typically contained less than 1% of the chromatin-DNA but about 50% or more of the nascent chromatin-bound RNA. Hybridization of chick globin complementary DNA to the DNA component of the nuclease-sensitive fraction of reticulocyte chromatin indicated a 3--5 fold enrichment for the globin coding region of the chromatin. The control experiment utilizing DNA from a nuclease-sensitive fraction of chick liver chromatin did not show a comparable enrichment for the globin coding region. This suggests that the endonuclease-effected enrichment for the globin coding region in the nuclease-sensitive fraction of reticulocyte chromatin is to some degree specific for structural genes transcribed in reticulocytes.
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PMID:Enrichment for the globin coding region in a chromatin fraction from chick reticulocytes by endonuclease digestion. 34 38

We have isolated and partially purified a DNA endonuclease from nuclei of the yeast Saccharomyces cerevisiae. Although purified on the basis of its ability to degrade denatured DNA, the enzyme can also attack native DNA. Denatured oligonucleotide products of the enzyme are sensitive to venom phosphodiesterase (EC3.1.4.1.) but not to bovine spleen phosphodiesterase (EC3.1.4.18). The enzyme has an estimated molecular weight of 6.6--7.5 X 10(4), more than twice as large as the endonucleases involved in DNA repair in Escherichia coli. When analyzed on glycerol gradients, the endonuclease sedimented as a single activity against both denatured DNA and closed circular DNA duplexes. The enzyme showed a 10-fold preference for denatured over native T7 DNA substrate, and appears to produce random nicks in a supercoiled replicative form of phiX174 DNA (RFI) with no discernable preference for the unpaired bases in the supercoiled duplex. The endonuclease appears to be distinct from the yeast endonucleases previously described.
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PMID:A DNA endonuclease isolated from yeast nuclear extract. 34 80

Membrane-associated folded chromosomes isolated from Escherichia coli in the presence of spermidine sedimented at about 5,800S. The folded chromosome and the membrane fragment were each stable in the absence of the other; a 1,700S folded chromosome was obtained after removal of the membrane by a Sarkosyl treatment, and a 4,000S membrane fragment remained after digestion of the chromosomal DNA with deoxyribonuclease I. The interaction between the folded chromosome and the membrane fragment was stable, and, even when the DNA was unfolded, both components remained associated and cosedimented. The large frictional effect of the unfolded DNA reduced the sedimentation rate of the complex to about 2,000S. Partial removal of this unfolded DNA with restriction endonucleases caused the membrane fragments and the remaining associated DNA to sediment faster, at about 3,500S. The DNA remaining associated with the membrane fragments after restriction endonuclease treatment, about 4.5% of the total DNA when EcoRI was used, was indistinguishable from the DNA released from the membranes by three criteria: (i) DNA size distribution in agarose gels after electrophoresis, (ii) reassociation kinetics, and (iii) thermal elution from hydroxylapatite. This finding, that random DNA sequences rather than specific ones were responsible for the majority of the DNA-membrane interactions, argues against the folded chromosome's being a static structure with specific DNA sequences interacting with the cell envelope.
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PMID:Association of the folded chromosome with the cell envelope of Escherichia coli: nature of the membrane-associated DNA. 35 Aug 39

For the study of DNA conformations, conformational transitions, and DNA-protein interactions, covalently closed supercoiled ColE1-plasmid DNA has been purified from cultures of Escherichia coli harboring this plasmid and grown in the presence of chloramphenicol according to the method of D.B. Clewell [J. Bact. 110 (1972)667]. The open circular and linear forms of the plasmid were prepared by digestion of the covalently closed, supercoiled form with pancreatic deoxyribonuclease and EcoRI-restriction endonuclease, respectively. The linear form was found to be very homogeneous by electron microscopy and sedimenting boundary analysis. Its physical properties (s0 20,w=16.3 S,D0 20,W=1.98 X 10(-8) cm2 s-1 and [eta]=2605 ml g-1) have been carefully determined in 0.2 M NaCl, 0.002 M NaPO4 pH 7.0,0.002 M EDTA, at 23 degrees C. Combination of s0 20, w (obtained by quasielastic laser light scattering) gave Ms,D=4.39 x 10(6). This value is in reasonable agreement with the molecular weight from total intensity laser light scattering M=4.30 x 10(6). The covalently closed and open circular forms of the ColE1-plasmid are less homogeneous due to slight cross-contamination and the presence of small amounts of dimers in these preparations. The weight fractions of the various components as determined by boundary analysis or electron microscopy are given together with the average quantities obtained in the same solvent for the supercoiled form ((s0 20,w)w=25.4 S, (D0 20,w)z=2.89 x 10(-8) cm2 s-1, [eta]= 788 ML G-1,Ms,D=4.69 x 10(6) and Mw=4.59 x 10(6)) and the open circular form (s0 20, w)w=20.1 S, (D0 20,w)z=2.45 x 10(-8) cm2 s-1, [eta]=1421 ml g-1,Ms,D=4.37 x 10(6) and Mw=4.15 x 10(6)). Midpoint analysis of the sedimenting boundaries allows unambiguous determination of the sedimentation coefficients of these two forms: s0 20,w=24.5 S and s0 20,w=18.8 S, respectively. Also deduced from total intensity light scattering were radii of gyration Rg (103.5, 134.2 and 186 nm) and second virial coefficients A2 (0.7, 4.8 AND 5.4 x 10(-4) mole ml/g2) for the supercoiled, the open circular and linear forms, respectively. The data presented are discussed in relation to the conformational parameters for the three forms in solution.
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PMID:Isolation and physical studies of the intact supercoiled, the open circular and the linear forms of ColE1-plasmid DNA. 35 26

Endonuclease alpha isolated from the nucleus of the yeast Saccharomyces cerevisiae is a DNA endonuclease which has been shown to act preferentially on denatured T7 DNA. The purified enzyme is more active with UV-irradiated native T7 DNA than with unirradiated substrate. The relation between damage, measured by pyrimidine dimer concentration, and excess endonuclease activity is most readily explained by local denaturation caused by presence of pyrimidine dimers. When three radiation sensitive mutants of yeast were tested for the level of endonuclease alpha present, none were found lacking the enzyme. However, nuclei of strain rad 1-1, a mutant that may be defective in heteroduplex repair as well as excision repair, were found to contain reduced levels of the endonuclease. The enzyme isolated from this strain had less than one half the specific activity of similar preparations from wild type yeast.
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PMID:Endonuclease alpha from Saccharomyces cerevisiae shows increased activity on ultraviolet irradiated native DNA. 36 83

An endonuclease (EtdBr DNase), which is more active in the presence of EtdBr, has been purified from yeast mitochondrial membrane (Jacquemin-Sablon, H., et al. (1979) Biochemistry 18 (preceding paper in this issue)). This paper deals with the analysis of the mechanism of this activation. Determination of the enzyme activity in the presence of intercalating and nonintercalating agents showed that the enzyme does not recognize the DNA structure modifiction provoked by drug intercalation. Studies carried out with a series of phenanthridinium derivatives led to the following model. The EtdBr DNase activation would result from the formation of a ternary complex, DNA--drug--Triton X-100. The activation capacity of a drug depends on its ability to bind simultaneoulsy to the DNA (not necessarily by intercalation) and the detergent. When this complex is formed, the DNA molecule is surrounded with Triton X-100 molecules which constitute an hydrophobic environment and make the substrate more prone to interaction with the enzyme. The implications of this model are discussed.
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PMID:Yeast mitochondrial deoxyribonuclease stimulated by ethidium bromide. 2. Mechanism of enzyme activation. 36 93

[3H]Thymidine (dThd)-labelled Hfr DNA was transferred by conjugation into Escherichia coli F- minicells harvested from an endonuclease I-deficient (endI-) strain and its iosgenic wild type (endI+) parent. The susceptibility of this DNA to attack by DNAase was examined. The kinetics of in vivo conversion of [3H]dThd-labelled DNA into acid soluble radioactivity was examined. This activity, attributed to exonuclease action was the same for both strains. Contribution of endonuclease I was measured by an analysis of changes in weight-average (Mw) and number-average (Mn) molecular weight distribution of DNA molecules recovered from minicells. Reduction in Mw was greater in the endI-strain. The ratio Mn/Mw changed drastically during the incubation period of endI- minicells, but remained unchanged in the endI+ strain. These experiments suggest that the presence of the endI- mutation in minicell-producing strain chi1268 leads to a greater loss in M2 of Hfr DNA conjugally transferred into the minicells.
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PMID:Escherichia coli Hfr-DNA degradation in endonuclease I-deficient minicells. 37 81

An endonuclease with DNA single-strand specificity has been purified from KB cells. The enzyme has a pH optimum at 9.2, requires Mg2+ for activity, and is inhibited by mono- or divalent cations. Its sedimentation coefficient of 4.6 S is based on sucrose gradient sedimentation, and it has a molecular weight of 54 000 as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The enzyme specifically catalyzes the endonucleolytic cleavage of denatured DNA, yielding acid-soluble oligonucleotides which contain 5'-phosphoryl termini. The rate of hydrolysis of poly(dT) is approximately eightfold greater than that observed with denatured DNA, although the Km for both substrates is 1.74 X 10(-5) M. The relative rates of hydrolysis of homopolymers by the endonuclease are: poly(dG) greater than poly(dT) greater than poly(dA) greater than poly (dC). Purified enzyme preparations also hydrolyze poly(U), releasing acid-soluble products. This activity cosediments in sucrose gradients with the DNA endonuclease activity, suggesting that both activities are contained in the same enzyme molecule.
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PMID:Purification and characterization of a DNA single strand specific endonculease from human cells. 62 6

The fate of [3H]DNA from Streptococcus sanguis str-r43 fus-s donors in [14C]S. sanguis str-s fus-r1 recipients was studied by examining the lysates prepared from such recipients at various times after 1 min of exposure to DNA. The lysates were analyzed in CsCl and 10 to 30% sucrose gradients; fractions from the gradients were tested for biological activity and sensitivity to nucleases, subjected to various treatments and retested for nuclease sensitivity, and run on 5 to 20% neutral and alkaline sucrose gradients. The results demonstrate that donor DNA bound to S. sanguis cells in a form resistant to exogenous deoxyribonuclease is initially single stranded and complexed to recipient material. Donor DNA can be removed from the complex upon treatment of the complex with Pronase, phenol, or isoamyl alcohol-chloroform. Within the complex, donor DNA is relatively insensitive to S1 endonuclease but can regain its sensitivity by treatment with phenol. With time the complex moves as a whole to associate physically with the recipient chromosome. After a noncovalent stage of synapsis, donor material is covalently bonded to and acquires the nuclease sensitivity of recipient DNA, while donor markers regain transforming activity and become linked to resident markers.
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PMID:Fate of homospecific transforming DNA bound to Streptococcus sanguis. 64 Oct 7

DNA-dependent RNA polymerase class C (or III) has been solubilized from either uninfected or adenovirus-2-infected HeLa cells and purified by chromatography on phosphocellulose, DNA-cellulose, CM-Sephadex and DEAE-Sephadex. The last column separated the enzyme into three forms CI, CII and CIII, which were completely free of RNA polymerases class A and B and of DNase and RNase. The total and the relative amount of these different enzyme C forms did not vary whether purified from uninfected or infected cells. Irrespective of the stage of purification, the three enzyme forms transcribed deproteinized adenovirus-2DNA very efficiently. This transcription was highly sensitive to elevated ionic strength (especially in the presence of Mg2+) and was accompanied by continuous reinitiation as shown by adding poly(rI), a potent inhibitor of initiation. In addition heparin-resistant initiation complexes could be formed at elevated temperature. The RNA synthesized in vitro on deproteinized intact adenovirus-2 DNA by the different forms of RNA polymerase class C, has been characterized. Analysis of the transcripts by gel electrophoresis, RNA self-annealing, hybridization to separated adenovirus-2 DNA strands and to restriction endonuclease (BamHI, HindIII), adenovirus-2 DNA fragments have demonstrated that restriction endonuclease (BamHI, HindIII), adenovirus-2 DNA fragments have demonstrated that the various regions of the adenovirus-2 genome were randomly transcribed. In addition, hybridization of RNA transcripts labelled at their 5' end by either [gamma32P]ATP or [gamma-32P]GTP indicated that not only elongation but also initiation occurred randomly through the entire adenovirus-2 genome, irrespective of the form of the enzyme and of the origin of the cells (normal or infected). The results are discussed in terms of the components which are possibly involved in specific transcription.
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PMID:Transcription in vitro of adenovirus-2 DNA by RNA polymerases class C purified from uninfected and adenovirus-infected HeLa cells. 71 Apr 51

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