Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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

Some properties of DNA condensed with spermidine have been compared with the properties of DNA condensed with Co3+(NH3)6 to determine whether condensation of DNA with these trivalent cations protects DNA against the action of DNase I and increases transcription and encapsulation of DNA into liposomes. It was shown that DNA condensed with Co3+(NH3)6 was resistant to the action of the endonuclease DNase I such as DNA condensed with spermidine was. However, DNA condensed with Co3+(NH3)6 was significantly less active in transcription with the E. coli RNA polymerase than DNA-spermidine condensed forms. In addition, it was demonstrated that both compacted forms of DNA were more efficiently encapsulated into neutral liposomes; however, negatively, charged liposomes were scarcely formed in the presence of DNA condensed with Co3+(NH3)6. These experiments and the well documented properties of polyamines increasing the resistance to radiations and hydrolysis of nucleic acids, as well as their biological activities, such as replication, transcription, and translation, together with the low concentration of Co3+ in the environment, lead us to propose spermidine as a plausible prebiotic DNA condensing agent rather than Co3+ and the basic proteins proposed by other authors. Then, we consider the possible role and relevance of the polyamine-nucleic acids complexes in the evolution of life.
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PMID:Possible prebiotic significance of polyamines in the condensation, protection, encapsulation, and biological properties of DNA. 166 78

A practical and effective method for the extraction of mitochondrial DNA from Candida species was developed. Zymolyase was used to induce yeast protoplasts, and mitochondrial DNA was extracted from DNase I-treated mitochondrial preparations. Restriction endonuclease analyses of mitochondrial DNAs from 19 isolates representing seven species of Candida (C. albicans, C. kefyr, C. lusitaniae, C. maltosa, C. parapsilosis, C. shehatae, and C. tropicalis) and Lodderomyces elongisporus revealed different cleavage patterns that appeared to be specific for the species. Few common restriction fragments were evident. The genome sizes of the mitochondrial DNAs ranged from 26.4 to 51.4 kilobase pairs, and the guanine-plus-cytosine contents ranged from 20.7 to 36.8 mol%. There was no correlation between the base compositions of nuclear and mitochondrial DNAs. Eight isolates of C. parapsilosis, including the type culture, and an ascosporogenous strain of L. elongisporus, which was once proposed as the teleomorph of C. parapsilosis, had similar mitochondrial DNA molecular sizes (30.2 and 28.8 kilobase pairs); however, restriction endonuclease patterns of these organisms were distinct. These data provide additional support for discrimination of these two species. The results of our experiments demonstrate that mitochondrial DNA analyses may provide useful criteria for the differentiation of yeast species.
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PMID:Characterization of mitochondrial DNA in various Candida species: isolation, restriction endonuclease analysis, size, and base composition. 184 96

The Escherichia coli UvrABC endonuclease is capable of initiating the repair of a wide variety of DNA damages. To study the binding of the UvrAB complex to the DNA at the site of a lesion we have constructed a synthetic DNA fragment with a defined cis-diamminedichloroplatinum(II) (cis-Pt).GG adduct. The cis-Pt.GG is the major adduct after treatment of DNA with the antitumor agent cisplatin. Binding to the DNA at the site of the defined lesion was studied with DNase I and MPE.Fe(II) hydroxyl radical footprinting. The results indicate that the UvrAB complex binds to the convex side of the kink in the DNA caused by the cis-Pt.GG adduct. Concerted incisions of the damaged strand by the UvrABC endonuclease were at the 8th phosphodiester bond 5' to and at the 4th bond 3' of the adjacent guanines. An additional incision was found at the 15th phosphodiester bond 5' to the damaged site. This extra incision was stimulated by a high concentration of UvrC.
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PMID:Uvr excision repair protein complex of Escherichia coli binds to the convex side of a cisplatin-induced kink in the DNA. 185 Apr 13

The inactivation efficiency and repair of single-strand breaks was investigated using model strand breaks created by endonucleolytic incision of damaged DNA. Phi X-174 duplex transfecting DNA containing either thymine glycols, urea residues, or abasic (AP) sites was incubated with AP endonucleases that produce breaks on the 3' side, the 5' side, or both sides of the lesion. For each lesion, incubation with Escherichia coli endonuclease III results in a single-strand break containing a 3' alpha, beta-unsaturated aldehyde (4-hydroxy-2-pentenal), while treatment of AP- or urea-containing DNA with E. coli endonuclease IV results in a single-strand break containing a 5' deoxyribose or a 5' deoxyribosylurea moiety, respectively. Incubation of lesion-containing DNA with both enzymes results in a base gap. Ligatable nicks containing 3' hydroxyl and 5' phosphate moieties were produced by subjecting undamaged DNA to DNase I. When the biological activity of these DNAs was assessed in wild-type cells, ligatable nicks were not lethal, but each of the other strand breaks tested was lethal, having inactivation efficiencies between 0.12 and 0.14. These inactivation efficiencies are similar to those of the base lesions from which the strand breaks were derived. In keeping with the current model of base excision repair, when phi X duplex DNA containing strand breaks with a blocked 3' terminus was transfected into an E. coli double mutant lacking the major 5' cellular AP endonucleases, a greater than twofold decrease in survival was observed. Moreover, when this DNA was treated with a 5' AP endonuclease prior to transfection, the survival returned to that of wild type. As expected, when DNA containing strand breaks with a 5' blocked terminus or DNA containing base gaps was transfected into the double mutant lacking 5' AP endonucleases, the survival was the same as in wild-type cells. The decreased survival of transfecting DNA containing thymine glycols, urea, or AP sites observed in appropriate base excision repair-defective mutants was also obviated if the DNA was incubated with the homologous enzyme prior to transfection. Thus, in every case, with both base lesions and single-strand breaks, the lesion was repaired in the cell by the enzyme that recognizes it in vitro. Furthermore, the repair step in the cell could be eliminated if the appropriate enzyme was added in vitro prior to transfection.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Processing of model single-strand breaks in phi X-174 RF transfecting DNA by Escherichia coli. 185 23

Mobility of the phage T4 td intron depends on activity of an intron-encoded endonuclease (I-TevI), which cleaves a homologous intronless (delta In) target gene. The double-strand break initiates a recombination event that leads to intron transfer. We found previously that I-TevI cleaves td delta In target DNA 23-26 nucleotides upstream of the intron insertion site. DNase I-footprinting experiments and gel-shift assays indicate that I-TevI makes primary contacts around the intron insertion site. A synthetic DNA duplex spanning the insertion site but lacking the cleavage site was shown to bind I-TevI specifically, and when cloned, to direct cleavage into vector sequences. The behavior of the cloned duplex and that of deletion and insertion mutants support a primary role for sequences surrounding the insertion site in directing I-TevI binding, conferring cleavage ability, and determining cleavage polarity. On the other hand, sequences around the cleavage site were shown to influence cleavage efficiency and cut-site selection. The role of cleavage-site sequences in determining cleavage distance argues against a strict "ruler" mechanism for cleavage by I-TevI. The complex nature of the homing site recognized by this unusual type of endonuclease is considered in the context of intron spread.
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PMID:I-TevI, the endonuclease encoded by the mobile td intron, recognizes binding and cleavage domains on its DNA target. 188 13

A 66 base-pair (bp) DNA template carrying a site-specifically placed psoralen cross-link downstream from a phage T7 promoter was constructed. This template can support transcription by T7 RNA polymerase. Transcription was blocked specifically at the psoralen cross-link. We studied the characteristics of elongation complexes, formed in this manner, by enzymatic and chemical footprinting and by a nitrocellulose filter-binding assay. The DNase I footprint of the elongation complex was quantified on a residue by residue basis. It was found that T7 RNA polymerase made the strongest contacts in the central region of the footprint whereas the leading and lagging edges of the polymerase were weakly bound to the DNA. Reducing the NaCl concentration in the transcription reaction resulted in the visualization of two T7 RNA polymerase molecules bound to the same template. A leading polymerase molecule, arrested at the psoralen cross-link, showed a much smaller DNase I footprint than a lagging polymerase molecule that was bound upstream. This upstream polymerase molecule occupied approximately one-half of the promoter region and therefore did not achieve complete promoter clearance. These experiments suggest that complete promoter clearance is required for a gross conformational change in the polymerase, consisting of a contraction in the size of its footprint to occur. DNase I footprinting also revealed that an elongation complex arrested at a psoralen cross-link undergoes several subtle changes in structure in a time-dependent manner and therefore can be considered to be in a state of dynamic flux. Methylation protection showed that some G residues in the top (non-coding) strand are protected against attack by dimethylsulfate, whereas the G residues on the bottom (coding) strand appear not to be protected from reaction with dimethylsulfate. We probed the transcribing complexes for single-stranded regions with T7 gene 3 endonuclease. From the pattern of sensitivity to T7 gene 3 endonuclease on the template strand, we conclude that the RNA-DNA hybrid in the elongation complex is about 7 bp. A nitrocellulose filter-binding assay showed that the elongation complex, consisting of a 36 (+1) nucleotide RNA, the 66 bp DNA template and the T7 RNA polymerase was stable for at least 30 minutes at high salt concentrations. Heparin caused the quantitative release of 36 (+1) RNA nucleotides within 30 seconds, but the DNA was not simultaneously released from the elongation complex under these conditions.
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PMID:Studies on the interaction of T7 RNA polymerase with a DNA template containing a site-specifically placed psoralen cross-link. I. Characterization of elongation complexes. 194 44

Two Holliday junction analogs, JA and JP, containing identical base-paired arms have been constructed from oligonucleotides. The former is constrained to adopt an antiparallel Sigal-Alberts structure, and the latter a parallel structure, by means of single strand d(T)9 tethers. We evaluate here the free energy difference between JA and JP using two different methods. One is a direct measurement of the ratio of the equilibrium constants for formation of branched structures from intact duplexes using one labeled strand and a competition assay. The second method estimates the difference in stability from the difference in thermal denaturation temperatures of JA and JP, using urea to shift the tm of the complexes. Both methods reveal a small free energy difference between the two complexes: JA is more stable than JP by -1.1(+/- 0.4) kcal (mol junction)-1, at 25 degrees C, 5 mM-Mg2+, from the first method, and by -1.6(+/- 0.3) kcal (mol junction)-1, according to the second. DNase I and the resolvase, endonuclease I from phage T7, cleave JA differently from JP in the vicinity of the branch, indicating that the structures of these two models differ at this site. Diethyl pyrocarbonate also reveals a difference in the major grooves. Comparison of the scission patterns of JA and JP by the reactive chemical probes methidium-propyl-EDTA..Fe(II), [MPE.Fe(II)] and Cu(I)-[o-phenanthroline]2,[(OP)2Cu(I)], indicates that in both cases the branch point is a site of enhanced binding for drugs, as it is in the untethered four-arm junction containing the same core sequence at the branch.
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PMID:Parallel and antiparallel Holliday junctions differ in structure and stability. 194 60

Ligation-mediated polymerase chain reaction (LMPCR) provides adequate sensitivity for nucleotide-level analysis of single-copy genes. Here, we report that chromatin structure can be studied by enzyme treatment of permeabilized cells followed by LMPCR. DNase I treatment of lysolecithin-permeabilized cells was found to give very clear footprints and to show differences between active and inactive X chromosomes (Xa and Xi, respectively) at the human X-linked phosphoglycerate kinase (PGK-1) locus. Beginning 380 bp upstream and continuing 70 bp downstream of the major transcription start site of PGK-1, we analyzed both strands of this promoter and CpG island and discovered the following: (1) The transcriptionally active Xa in permeabilized cells has several upstream regions that are almost completely protected on both strands from DNase I nicking. (2) Nuclei isolated in polyamine-containing buffers lack these footprints, suggesting that data from isolated nuclei can be flawed; other buffers are less disruptive. (3) The Xa has no detectable footprints at the transcription start and HIP1 consensus sequence. (4) The heterochromatic and transcriptionally inactive Xi has no footprints but has two regions showing increased DNase I sensitivity at 10-bp intervals, suggesting that the DNA is wrapped on the surface of a particle; one nucleosome-sized particle seems to be positioned over the transcription start site and another is centered approximately 260 bp upstream. (5) Potassium permanganate and micrococcal nuclease (MNase) studies indicate no melted or otherwise unusual DNA structures in the region analyzed, and MNase, unlike restriction endonuclease MspI, does cut within the positioned particles on the Xi. Results are discussed in the context of X chromosome inactivation and the maintenance of protein and DNA methylation differences between euchromatin and facultative heterochromatin at CpG islands.
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PMID:Chromatin differences between active and inactive X chromosomes revealed by genomic footprinting of permeabilized cells using DNase I and ligation-mediated PCR. 204 57

The three CD3 genes on human chromosome 11q23 encode proteins (gamma, delta and epsilon) which form part of the antigen receptor on T lymphocytes. All three genes are clustered within 50 kb and are activated approximately contemporaneously during the early stages of T cell ontogeny. In order to pinpoint potential regulatory sequences important for locus activation and tissue-specific gene expression, the chromatin structure of almost 90 kb of this region has been probed in five cell lines using the endonuclease pancreatic DNase I. A set of DNase I hypersensitive (HS) sites has been defined in T cell chromatin, five of which were strong and not found in non-T cells, with the exception of the erythroleukaemia cell line K562, in which three sites were weakly expressed, correlating with a low level of delta mRNA. The subset of five HS sites map close to the CD3 genes and lie in regions which contain elements of defined function: the gamma promoter; the delta promoter and its 3' enhancer; and the epsilon promoter and its 3' enhancer. Since no further major T cell-restricted HS sites lie within the 90kb of the CD3 locus analysed, these five regions may contain all the sequences important for CD3 gene expression.
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PMID:DNase I-defined chromatin configuration of the human CD3 gene cluster. 213 10


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