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)

High pressure reversed phase chromatography (RPC-5) at pH 12 was used for preparative separation of the complementary strands of the smaller DNA fragments which are generated by the Hae III restriction endonuclease digestion of Col El DNA. A single high pressure RPC-5 chromatographic step at neutral pH served to purify duplex fragments 70, 172, 250 and 440 base pairs long; each of these yielded two elution peaks upon chromatography under alkaline denaturing conditions.
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PMID:Preparative separation of the complementary strands of DNA restriction fragments by alkaline RPC-5 chromatography. 2 14

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

Duplex DNA containing oligo(dG.dC)-rich clusters can be isolated by specific binding to poly(rC)-Sephadex. This binding, probably mediated by the formation of an oligo(dG.dC)rC+ triple helix, is optimal at pH 5 in 50% formamide, 2 M LiCl; the bound DNA is recovered by elution at pH 7.5. Using this method we find that the viral DNAs PM2, lambda and SV40 contain at least 1, 1 and 2 sites for binding to poly(rC)-Sephadex, respectively. These binding sites have been mapped in the case of SV40; the binding sites can in turn be used for physical mapping studies of DNAs containing (dG.dC) clusters. Inspection of the sequence of the bound fragments of SV40 DNA shows that a (dG.dC)6-7 tract is required for the binding of duplex DNA to poly(rC)-Sephadex. Although about 60% of rabbit DNA cleaved with restriction endonuclease KpnI binds to poly(rC)-Sephadex, no binding is observed for the 5.1 kb DNA fragment generated by KpnI digestion, which contains the rabbit beta-globin gene. This indicates that oligo(dG.dC) clusters are not found close to the rabbit beta-globin gene.
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PMID:The isolation of duplex DNA fragments containing (dG.dC) clusters by chromatography on poly(rC)-Sephadex. 2 65

A ribonuclease H, an enzyme that specifically degrades the RNA moiety of RNA-DNA hybrid, has been partially purified from rat liver nuclei and characterized. Neither native or denatured DNA, nor single or double-stranded synthetic polyribonucleotides were degraded by the enzyme. The enzyme possesses a molecular weight of about 36,000 and requires alkaline pH, magnesium ions, and ammonium sulphate for maximum activity. The enzyme acts on the hybrid as an endonuclease, resulting in oligonucleotides with 3'-hydroxyl termini. The properties of this enzyme were distinct from those of the rat liver cytosol enzyme reported by Roewekamp and Sekeris in many respects, such as molecular weight, optimal pH and requirements for divalent cations. Preliminary experiments suggest that the nuclear enzyme is localized in the nucleoplasm and nucleoli. These results indicate that multiple forms of ribonuclease H exist in different regions of rat liver cells.
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PMID:Ribonuclease H from rat liver. I. Partial purification and characterization of nuclear ribonuclease H1. 2 89

The major fraction of deoxyribonuclease activity from human urinary protein was purified 40-fold in about 14% yield. The enzyme shows an isoelectric point at pH 4.2 and has a molecular weight of 33,600+/-3,000. Optimum activity was shown at pH 6.8 in the presence of 12.5 mmol/l Mg2+ plus 1 mmol/l Ca2+. The enzymic reaction is inhibited by high ionic strength (greater than 300 mmol/l Na+). The purified enzyme readily hydrolyzes native DNA to oligodeoxyribonucleotides with an average chain length of 5.3+/-0.2 after exhaustive digestion. Therefore, this endonuclease may be designated as neutral deoxyribonuclease (deoxyribonucleate oligonucleotidohydrolase, EC 3.1.4.5).
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PMID:The major fraction of deoxyribonuclease activity from human urinary proteins. Purification and properties. 3 20

Haemophilus influenzae Rf 232, showing the phenomena of restriction and modification, contains an endonuclease that inactivates in vitro the biological activity of DNAs lacking the strain-specific modification. This specific restriction endonuclease has been purified to near homogeneity by a procedure that includes DNA-agarose chromatography. This highly purified enzyme requires ATP and Mg2+ for activity and is stimulated by S-adenosylmethionine. The enzyme seems to cleave DNA at well-defined sites, since it produces a specific pattern of bands upon agarose gel electrophoresis. The enzyme has no ATPase activity. A methylase activity is observed in the course of the endonucleolytic reaction, which probably protects some of the DNA sites from cleavage.
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PMID:Purification and properties of a new restriction endonuclease from Haemophilus influenzae Rf. 3 45

Lysates of pneumococcal phage PG24 transferred genes from one host to another in a process with many of the properties of generalized transduction, in that the host genes were packaged in DNase-resistant particles that closely resembled infectious phage in physical properties, adsorbed to the recipient cells like phage, and were inhibited by antisera to the phage and by trypsin. However, phage processes did not complete the transfer of host DNA as they did phage DNA. Instead, gene transfer required development of competence and entry of the host DNA by the endonuclease-dependent pathway used for transforming and transfecting DNA. This process often occurred on the assay plate hours after adsorption of the particles to the cells, and the transfer was DNase sensitive if challenged at this time. Phenotypic expression was therefore also delayed. The product of entry was like that in transformation, a single strand of DNA that integrates by formation of a hex-sensitive donor-recipient heteroduplex. Whether this gene transfer process is unique to this system or is only the first one described is not clear. The term "pseudotransduction" may be useful in calling attention to its unexpected features. The DNA of PG24 phage has anomalous physical properties reflecting unusual bases.
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PMID:Bacteriophage-associated gene transfer in pneumococcus: transduction or pseudotransduction? 3 54

A study has been made of the factors and mechanism leading to appearance of the so-called EcoRI activity described by Polisky et al. (1975) in the restrictase EcoRI preparations. The preparations of purified restrictase EcoRI, precipitated at 0.9 ammonium sulphate saturation, as well as that obtained using standard techniques have been found to contain an admixture of an endonuclease which at neutral pH and high ionic strength multiply cleaves those DNAs which normally have only one recognition site for EcoRI. Under the standard conditions for EcoRI digestion this activity is found only when large amounts of freshly isolated enzyme are added to the incubation mixture and it is sharply enhanced by replacement of Mg2+ with Mn2+. The number and size of DNA fragments produced under such conditions practically do not differ from those found under the so-called EcoRI conditions, that is for alkaline pH values and low ionic strength. The optimum incubation mixture for the EcoRI activity has been found to be 10 mM Tris . HCl buffer (pH 8.8) + 2 mM Mn2+. Similar activity is induced also by addition to EcoRI solution of 40--50% glycerol or a number of organic solvents (dimethylacetamide (DMA), dimethylformamide (DMF), dimethylsulphoxide (DMSO), sulphalane (SP) in concentrations from 1 to 6%. The EcoRI activity induced by 50% glycerol or at alkaline pH values and low ionic strength is suppressed or sharply inhibited by 2--3 mM parachloromercuribenzoate (PCMB), while EcoRI is not sensitive to this agent. The DNA fragments cleaved by EcoRI have cohesive termini and can be easily ligated. It is suggested that the EcoRI activity can be due not only (or largely not) to modification of the "recognizing capacity" of the EcoRI restrictase but not activation of a latent specific endonuclease which is present in the restrictase preparation as an impurity.
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PMID:EcoRI activity: enzyme modification or activation of accompanying endonuclease? 3 71

Deoxyribonucleic acid (DNA) in lysates of both completent and noncompetent streptococcus pneumoniae cells was characterized by chromatography on benzoylated, naphthoylated diethylaminoethyl-cellulose columns, by sensitivity to Aspergillus oryzae S1 endonuclease, and by sucrose gradient analysis. The DNAs from both competent and noncompetent cells were found to contain similar extents of single-stranded regions. These single-stranded regions appeared to be intact, unpaired regions in double-stranded DNA rather than gaps, nicks, or unpaired ends in the DNA. Inhibition of cells with rifampin prior to lysis increased the amount of such single strandedness in the DNA. Lysates made at various times after [14C]thymidine-labeled cells had bound [3H]thymidine-labeled transforming DNA were also characterized by benzoylated, naphthoylated diethylaminoethyl-cellulose chromatography. Changes in the elution profiles of DNA from cells exposed to homospecific (S. pneumoniae) donor DNA were indicative of the formation of complexes between donor DNA and the single-stranded regions of recipient DNA. In contrast, profiles of DNA from cells exposed to heterospecific (S. sanguis) DNA did not show significant changes, indicating that few such donor-recipient complexes were formed during heterospecific transformation.
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PMID:Single-stranded regions in Streptococcus pneumoniae chromosomal deoxyribonucleic acid and their relation to transformation. 3 14

A simple and sensitive technique for detection of strand breaks in DNA has been further developed. The method has been used to follow UV-induced excision-repair in human fibroblasts. It has been possible to study the kinetics of enzymic reactions in intact cells, in which strand breaks in DNA are produced and sealed again. Hydroxyurea, 5-fluorodeoxyuridine and 1-beta-D-arabinofuranosylcytosine, potent inhibitors of DNA synthesis, drastically increased the number of breaks observed during the repair process. This was probably due to a decreased polymerase activity, which will cause the strand breaks formed by endonuclease to remain open longer. The initial rate of strand-break formation did not seem to be influenced by hydroxyurea or araC, and was about 4000 breaks per minute in a diploid genome, at a dose of 20 J/m2. After 5--30 min, depending on the dose of UV, the number of breaks reached a maximum and started to decrease again. Hydroxyurea decreased the rate of polymerization in the sites under repair. However, there was no concomitant reduction of repair-induced incorporation of [3H]thymidine and no reduction of the excision of pyrimidine dimers. It therefore seems that the action of the polymerase was not a rate-limiting event, but rather an earlier step. It is likely that the endonucleolytic activity determined the rate of repair. As a consequence, the endonuclease and polymerase cannot be bound in a permanent complex. Under certain assumptions, the time for repair of a site, i.e. the time from incision to final ligase sealing, can be estimated as between 3 and 10 min. Essentially no breaks were produced in Xeroderma pigmentosum cells belonging to complementation group A, and there was no enhancement by hydroxyurea. Cells from the variant type of Xeroderma pigmentosum behaved like normal cells in this respect.
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PMID:Single-strand breaks in DNA during repair of UV-induced damage in normal human and xeroderma pigmentosum cells as determined by alkaline DNA unwinding and hydroxylapatite chromatography: effects of hydroxyurea, 5-fluorodeoxyuridine and 1-beta-D-arabinofuranosylcytosine on the kinetics of repair. 3 44

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