EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The accessibility of extracellular and nuclear simian virus 40 (SV40-M and SV40-I, respectively) virion chromatin DNAs to micrococcal nuclease, DNase I, BglI, EcoRI, and RNA polymerase was examined. Our results support the following conclusions: (i) the intranucleosomal DNA of SV40-I chromatin, similar to the precursor 75S chromatin complex, is resistant to enzymatic activity; and (ii) SV40-M virion chromatin is modified in a manner which increases the accessibility of viral DNA to enzymes, and the distinction between nucleosomal DNA and linker DNA is absent. Micrococcal nuclease digestion of SV40-I virion chromatin gave a typical nucleosomal DNA ladder pattern with a repeat unit of 205 base pairs of DNA. SV40-I chromatin was sensitive to cleavage with endonuclease BglI, but not with EcoRI. When SV40-I virion chromatin was used as a template, the rate of incorporation of ribonucleoside triphosphates into RNA was 5% of that obtained with naked form SV40 form I DNA. Micrococcal nuclease digestion of SV40-M virion chromatin resulted in submonomeric DNA fragments of approximately 55 base pairs, but no larger repeating unit of DNA was observed. SV40-M virion chromatin was sensitive to cleavage with either BglI or EcoRI and was approximately 20% more susceptible to digestion with DNase I than was SV40-I virion chromatin. The transcriptional efficiency of the extracellular virion chromatin was almost equivalent to that of naked SV40 form I DNA and was 16-fold higher than the rate observed with nuclear virion chromatin. The increased transcriptional activity was dependent upon the presence of nonhistone viral protein VP1 or VP2 or both.
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PMID:Simian virus 40 maturation: chromatin modifications increase the accessibility of viral DNA to nuclease and RNA polymerase. 626 46

A method for DNA sequencing has been developed that utilises libraries of cloned randomly-fragmented DNA. The DNA to be sequenced is first subjected to limit attach by a non-specific endonuclease (DNase I in the presence of Mn++), fractionated by size and cloned in a single-stranded phage vector. Clones are then picked at random and used to provide a template for sequencing by the dideoxynucleotide chain termination method. This technique was used to sequence completely a 4257 bp EcoRI fragment of bovine mitochondrial DNA. The cloned fragments were evenly distributed with respect to the EcoRI fragment, and completion of the entire sequence required the construction of only a single library. In general, once a clone library has been prepared, the speed of this approach (greater than 1000 nucleotides of randomly selected sequence per day) is limited mainly by the rate at which the data can be processed. Because the clones are selected randomly, however, the average amount of new sequence information per clone is substantially diminished as the sequence near completion.
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PMID:Shotgun DNA sequencing using cloned DNase I-generated fragments. 626 69

We have investigated the association of the triiodothyronine (T3) nuclear receptor with rat liver chromatin by the use of selective endonuclease digestion and differential solubilization. The T3 receptor was found in a fraction of chromatin having some of the characteristics of active chromatin: (a) It is highly sensitive to DNase I and micrococcal nuclease digestion; (b) it is enriched in nonhistone proteins and depleted of histone (H-1). Micrococcal nuclease and pancreatic DNase I excised two receptor-containing fragments from chromatin, a minor (12--14 S) form and a major (5.5--6.0 S) form. The latter structure has a Stokes radius of 42 +/- 2 A and an estimated molecular weight of 95400 when a partial specific volume of 0.725 cm3/g for protein is used. It contains DNA but no histones. Similar receptor-containing fragments were excised from chromatin of other rat tissues, including brain, kidney, and heart. Both the 5.5--6 S and the 12--14 S receptor-containing chromatin structures are converted by 0.5 M KCl to the 3.5 S form (R0 35 A molecular weight 50500). Titration with micrococcal nuclease and pancreatic DNase I revealed that the 5.5--6 S form is preferentially excised by endonuclease. Neither receptor occupancy nor thyroidal status had an apparent effect on the susceptibility of chromatin to endonucleolytic digestion nor did they influence the distribution of T3 receptors in chromatin. Our results suggest that T3 receptors are not tightly associated with nucleosomes, the basic subunit of chromatin, but are associated with the DNA-linking nucleosomes in structurally modified regions of chromatin in rat liver nuclei. The T3 receptor-containing fragment may well represent a higher order of structural complexity necessary for T3 action at the cellular level.
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PMID:Association of the thyroid hormone receptor with rat liver chromatin. 627 79

Simian virus 40 nucleoprotein isolated from the nuclei of infected cells contains a nuclease-sensitive site adjacent to the viral origin of replication (between 0.66 and 0.73 map unit). Nuclear extracts were subfractionated by sucrose gradient centrifugation to yield provirions (200S) and simian virus 40 chromatin (80S). The 80S fraction was cleaved either by DNase I or by an endonuclease endogenous to BSC-1 cells with high preference for the 0.66 to 0.73 region. The 200S fraction was treated to release core particles that were sensitive to nuclease cleavage; however, DNase I showed little or no preference for the 0.66 to 0.73 region of the provirion core nucleoprotein.
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PMID:Nuclease-sensitive sites in the two major intracellular simian virus 40 nucleoproteins. 630 35

We have determined the nucleotide sequence of a 4.0-kilobase DNA fragment containing the genes of the PstI restriction-modification system. Two large open reading frames were identified within the sequence and were ascribed to the restriction enzyme and methylase by the analysis of a series of deletion mutants. The two genes are encoded on opposite DNA strands, and hence must be transcribed from separate promoters rather than as a polycistronic message. The sequence of the first 10 amino acids of the restriction endonuclease was determined by sequential Edman degradation of the purified protein, permitting the alignment of the polypeptide with the DNA sequence. The NH2 terminus of the modification enzyme was established by sequential Edman degradation of the protein synthesized in bacterial minicells with different radiolabeled amino acids. The initiation codons of the two genes are separated by 130 base pairs. The deduced amino acid sequences indicate that the restriction endonuclease contains 326 amino acids with a calculated Mr = 37,370; the modification enzyme is composed of 507 amino acids with a calculated Mr = 56,830. There is no significant homology between the two proteins at the level of the primary structure. Antibody raised against the purified restriction endonuclease did not immunoprecipitate the modification enzyme. The transcription initiation sites were mapped using mung bean nuclease. Both of the transcripts begin with adenosine. The initiation sites are separated by only 70 base pairs. This close proximity suggests that the promoters for the two divergent genes overlap. DNase I protection experiments show that Escherichia coli RNA polymerase has a higher affinity for the methylase promoter than for the restriction enzyme promoter.
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PMID:The organization and complete nucleotide sequence of the PstI restriction-modification system. 633 92

Some characteristics of the postirradiation degradation of chromatin in the thymuses of mice were studied. The results proved that the main wave of chromatin degradation becomes evident between 2 and 4 h postirradiation, when considerable amounts of degradation products leach from nuclei during their isolation and are solubilized by lysis of nuclei. Similarly the degradation is manifested in the increase of salt-soluble chromatin fraction as well as of the fractions released from chromatin by various solutions (EDTA, heparin, deoxycholate, alkaline buffer). Later on, within 24 h after irradiation, only little changes in the relative amounts of the degradation products take place. Evidently only a certain thymocyte population is involved. Electrophoretic analyses of DNA fragments from various fractions in native and denatured state demonstrated that chromatin was degraded into nucleosomes and their oligomers by an endonuclease activity. The DNA bears, however, no signs of intranucleosomal regular single-strand fragmentation. This fact makes improbable the participation in this process of DNase I, DNase II and Ca,Mg-dependent endonuclease. No appreciable amount of smaller DNA fragments (products of further degradation of nucleosomes) were found even at 24 h postirradiation interval. Thus the nucleosomes and their oligomers must be considered as the only "long-lived" chromatin fragments in damaged lymphoid cells.
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PMID:On the degradation of chromatin to nucleosomes in the thymocytes of X-irradiated mice. 637 91

Treatment of rats with the hepatocarcinogen, N-2-acetylaminofluorene (AAF) results in development of malignant tumors derived primarily from hepatic parenchymal cells. Following administration of AAF, or its N-hydroxy derivative, in vivo nuclei from parenchymal cell and non-parenchymal cell populations (NI and NII nuclei populations, respectively) were isolated and treated with the endonuclease DNase I. The binding of carcinogen residues to the DNA of nuclease-accessible vs. nuclease-resistant regions of chromatin was evaluated on the basis of the selectivity of DNase I for transcriptionally active DNA. Under the experimental conditions employed DNase I digested approx. 50-60% of the genome of NI nuclei while only 10-20% of the DNA from non-parenchymal cell nuclei (NII) was susceptible to this enzyme. When the DNA of NI and NII nuclei were nick translated following limited digestion with DNase I, a greater degree of transcriptional activity (nuclease accessibility) was found in parenchymal cell nuclei (NI). Following a single injection of rats with [ring-3H]AAF or its N-hydroxy metabolite (N-[ring-3H]-OH-AAF) (1.8 mumol carcinogen/100 g), adducts were preferentially associated with DNA of DNase I resistant regions of target cell nuclei (NI), while preferentially associated with nuclease-accessible regions of non-target cell nuclei (NII). Damage following a single injection persisted for up to 3 days in DNase I-resistant DNA of NI nuclei, carcinogen adducts were rapidly lost from DNase I-accessible DNA of NII nuclei. These studies stress the importance of investigating specificity of carcinogens for particular regions of the genome of cell subpopulations within the target organ.
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PMID:Non-random interaction of N-2-acetylaminofluorene and its N-hydroxy metabolite with DNA of rat hepatic parenchymal and non-parenchymal cell nuclei following in vivo administration of carcinogen. 669 93

In order to investigate the regulation of actin gene transcription during early sea urchin development, a specific hybridization probe for actin sequences is required. Such a probe was produced by cloning cDNA transcribed from a sea urchin poly(A)-containing mRNA preparation enriched for actin message. Double-stranded DNA was ligated into the BamHI restriction site of plasmid pBR322, and the resulting hybrid molecules were used to transform the Escherichia coli strain ML100. After preliminary screening of bacterial colonies by antibiotic sensitivity and hybridization back to the original cDNA, clones containing sea urchin DNA were further characterized by a positive translation assay in which total sea urchin mRNA was hybridized to plasmid, and the hybridized message then was eluted and translated in a reticulocyte cell-free protein-synthesizing system. In this way, one clone (pSA38) was found to hybridize selectively to sea urchin mRNA coding for a protein of 43,000 daltons. This protein was identified as actin by three criteria: electrophoretic migration in two-dimensional polyacrylamide gels, affinity for DNase I, and peptide mapping. Restriction endonuclease and heteroduplex mapping of pSA38 indicate that it contains a 1.5-kilobase-pair insert and is therefore likely to contain a large portion of the actin coding sequence. By using pSA38 as a hybridization probe, it has been found that the level of actin-specific RNA sequences increases dramatically during early sea urchin development.
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PMID:Cloning of sea urchin actin gene sequences for use in studying the regulation of actin gene transcription. 692 77

An endodeoxyribonuclease has been purified to near homogeneity from rat small intestinal mucosa by a procedure involving Con A-Sepharose affinity chromatography. During the initial steps of purification, the presence of 5 mM CaCl2 was essential for stability of the enzyme activity. The enzyme has a molecular weight of 32 000 and an isoelectric point of 4.7. NaCl, sulfhydryl reagents, and iodoacetate strongly inhibited the reaction, but tRNA did not. The enzyme required divalent cations for activity and had a pH optimum of pH 6.2 with Co2+ and pH 7.7 with Mn2+. In both optimum conditions, the enzyme hydrolyzed native DNA more rapidly than denatured DNA, and the average chain lengths of limit digestion products of native and denatured DNA were 8 and 10, respectively, at pH 6.2 and 9 and 11, respectively, at pH 7.7. The enzyme activity to produce acid-soluble fractions from linear DNA substrate was similar in the two optimum conditions, but the activity to nick double-stranded, superhelical circular DNA substrate was significantly higher at pH 6.2 than at pH 7.7. The endonuclease formed single-strand breaks making 5'-phosphoryl and 3'-hydroxyl termini, and deoxythymidine was present at the 5' termini with a frequency of about 50% in both optimum conditions. Bovine pancreatic DNase I antibody and G-action inhibited the enzyme activity. Thus this endonuclease is classified as a DNase I.
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PMID:Purification and properties of a neutral endodeoxyribonuclease from rat small intestinal mucosa. 707 91

All of the clinically available nitrosourea antitumor agents produce serious treatment-limiting bone marrow toxicity. A reduction in this toxicity can be achieved by attaching the chloroethylnitrosourea cytotoxic group to C2 (chlorozotocin) or C1 (1-(2-chloroethyl)-3-(beta-D-glucopyranosyl)-1-nitrosourea, GANU) of glucose. Both glucose analogs are less myelotoxic in mice than 1-(2-chloroethyl)-3-cyclohepyl-1-nitrosourea (CCNU) or 1-(4-amino-2-methylpyrimidin-5-yl)methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU), while retaining comparable antitumor activity against the murine L1210 leukemia. To define the nuclear mechanisms for this reduced myelotoxicity, alkylation of L1210 and murine bone marrow DNA was quantitated. With the use of the endonuclease micrococcal nuclease and DNase I, the sites of alkylation within the chromatin substructure were determined. Experiments were performed on L1210 leukemia or bone marrow cells that had been incubated in vitro for 2 hr with 0.1 mM [14C]chloroethyl drug. The quantitative alkylation of DNA by GANU was 1.3-fold greater in L1210, as compared to bone marrow, cells. This ratio of DNA alkylation is comparable to the 1.3 ratio we previously reported for chlorozotocin [L. C. Panasci, D. Green and P. S. Schein, J. clin. Invest. 64, 1103 (1979)]. In contrast, the ratio of alkylation (L1210:bone marrow DNA) for the myelotoxic ACNU was 0.66, similar to 0.59 for CCNU. Nuclease digestion experiments demonstrated that chlorozotocin and GANU preferentially alkylated internucleosomal linker regions of bone marrow chromatin, while nucleosome core particles were the preferred targets of CCNU and ACNU. The reduced myelotoxicity of chlorozotocin and GANU may be correlated with the advantageous ratio of L1210:bone marrow DNA alkylation and preferential alkylation of internucleosomal regions of bone marrow chromatin.
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PMID:Correlation of nitrosourea murine bone marrow toxicity with deoxyribonucleic acid alkylation and chromatin binding sites. 710 31

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