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:3.1.25.1 (deoxyribonuclease)
1,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The polymerase and deoxyribonuclease activities of the purified Ustilago maydis DNA polymerase coeluted from a hydroxyapatite column, cosedimented in sucrose gradients in both the absence and presence of salt, possessed similar thermolabilities and reaction requirements. These observations suggest that both activities are associated with the same enzyme and that the deoxyribonuclease activity is not a contaminant. The initial rate of degradation of native 3'-end-group-labelled DNA was similar to that of a heat-denatured substrate, but the final extent was greater for the former. The enzyme exhibits a high specificity for degradation of DNA in a 3' leads to 5' direction. The degradation of a DNA template was inhibited by the presence of the deoxyribonucleoside triphosphates necessary for simultaneous DNA synthesis, but not that of the newly synthesised DNA. About 50%, 29% and 13% of the purine, cytosine and thymine deoxyribonucleotide residues incorporated by the enzyme into DNA respectively, were subsequently excised when monitored by the resulting conversion of the triphosphate substrates to free monophosphate. The majority of the purine deoxyribonucleoside monophosphates appear after the synthetic phase of the reaction has ceased. In many respects, therefore, the deoxyribonuclease activity of the U. maydis DNA polymerase is similar to the bacteriophage T4-induced enzyme.
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PMID:A DNA polymerase from Ustilago maydis. 2. Properties of the associated deoxyribonuclease activity. 124 76

We have investigated the ability of dehydroepiandrosterone (DHEA) to alter the production of interleukin-2 (IL-2) and to bind to a specific binding complex in antiCD3 epsilon activated T cells. Binding activity correlated with the presence of a specific DHEA binding complex in the cytosol and nuclei of DHEA-responsive T-cell hybridomas, as well as in CD4+ and CD8+ cells isolated from peripheral lymph nodes of normal mice. Scatchard analysis determined that intact lymphocytes and cytosolic fractions contained high affinity binding for [3H]DHEA (approx. 2.6 nM) with 1000-7000 binding sites existing per cell. Five of the T-cell hybridomas tested both responded to DHEA treatment with increased production of IL-2 and also contained specific high affinity [3H]DHEA binding. Four additional T-cell hybridomas were found to contain no specific [3H]DHEA binding and were also unresponsive to DHEA influences on IL-2 production. Sucrose density gradients demonstrated a 3-4s [3H]DHEA binding complex in high salt and a 7-8s binding complex in low salt. Specific binding was inhibited by preincubation of the cytosol fractions with either trypsin or chymotrypsin, or by heating to 60 degrees C for 1 h (less than 15% of control). [3H]DHEA binding was unaffected by preincubation of the cytosol fractions with ribonuclease, deoxyribonuclease, or phospholipase A. The DHEA-protein complexes bound to DNA-cellulose with the amount of binding being slightly increased by preincubation at 25 degrees C as compared to 4 degrees C. As expected, [3H]DHEA binding was inhibited by the addition of unlabeled DHEA, but was also modestly inhibited by dihydrotestosterone and cortisol. Binding of DHEA was unaffected by progesterone, dexamethasone, estradiol, androsterone, DHEAS, and beta-etiocholanolone at all concentrations tested. DHEA was incapable of inhibiting the binding of [3H]DHT to the androgen receptor or [3H]dexamethasone to the glucocorticoid receptor. Collectively, these findings suggest that murine T cells contain a specific DHEA receptor. We believe that DHEA is a steroid hormone that is directly involved in the regulation of IL-2 production by both normal and some T-cell hybridomas.
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PMID:The presence of a dehydroepiandrosterone-specific receptor binding complex in murine T cells. 135 1

Several DNA-interactive proteins, including the DNA repair enzyme T4 endonuclease V, have been shown to locate their target recognition sites utilizing an electrostatically mediated facilitated diffusion mechanism. Previous work indicates that a decrease in the affinity of endonuclease V for nontarget DNA results in an increased nontarget dissociation rate. This study was designed to investigate the effect of an increase in the affinity of endonuclease V for nontarget DNA. Using a working structural model of the enzyme as a guide, the electrostatic character of endonuclease V was altered. Substitution of Thr-7 with Lys-7 resulted in an enzyme with wild type in vitro characteristics. Mutations which increased the positive charge along a proposed solvent-exposed alpha-helical face had significant effects. The mutants Ala-30, Val-31----Lys-30, Leu-31 and Asn-37----Lys-37 displayed wild type in vitro apurinic-specific and dimer-specific nicking activities. Although the processive dimer-specific nicking rate of the Lys-37 mutant resembled that of wild type, the rate of the Lys-30, Leu-31 mutant was reduced by 60%. In addition, the salt concentration range over which these mutants processively nick dimer-containing DNA has been greatly expanded. Both mutants are shown to have an increased affinity for nontarget DNA.
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PMID:Substitution of basic amino acids within endonuclease V enhances nontarget DNA binding. 200 4

Studies of nucleic acid homology suggest the BGLF5 open reading frame of Epstein-Barr virus (EBV) encodes an alkaline deoxyribonuclease (DNase) sharing some homology with that of herpes simplex virus. We report here the expression of the BGLF5 open reading frame in E. coli and the expression of high levels of a novel alkaline DNase activity in induced cells. This alkaline DNase has been purified to apparent homogeneity as a single protein species. This is the first report of the expression of a herpesvirus coded DNase in a prokaryotic system and of the purification of the EBV DNase to demonstrable purity. It has the biochemical characteristics of a typical herpesvirus alkaline exonuclease showing a high pH optimum, an absolute requirement for Mg2+ for activity and sensitivity to high salt concentrations and polyamines. The enzyme activity was neutralized by sera from patients with nasopharyngeal carcinoma and was reactive with these sera in Western blot analysis. Thus the prokaryotic expression system described here provides an economical and efficient source of the EBV DNase for biochemical and seroepidemiological analysis.
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PMID:The characterization of the EBV alkaline deoxyribonuclease cloned and expressed in E. coli. 255 12

Previous structure/function analyses of the DNA repair enzyme, T4 endonuclease V, have suggested that the extreme carboxyl portion of the enzyme is associated with pyrimidine dimer-specific binding (Recinos and Lloyd, and Stump and Lloyd, Biochemistry 27:1832-1838 and 1839-1843, 1988, respectively). Within the final 11 amino acids there are 5 aromatic, 2 basic, and no acidic residues and it has been proposed that these residues stack with and electrostatically interact with the kinked DNA at the site of a pyrimidine dimer. The role of the tyrosine residue at position 129 has been investigated by oligonucleotide site-directed mutagenesis in which the codon for Tyr-129 has been altered to reflect conservative changes of Trp and Phe and more dramatic changes of Ser, a stop codon, deletion of the codon or introduction of a frameshift. Both changes to the aromatic amino acids resulted in proteins which accumulated well in E. coli and not only significantly enhanced the UV survival of repair-deficient cells but also complemented a defective denV gene within UV-irradiated T4 phage. Partially purified preparations of the Tyr-129----Trp and Tyr-129----Phe mutants were assayed for their ability to processively incise UV-irradiated plasmid DNA (a nicking reaction carried out at low 25 mM salt concentrations). The mutant enzymes Tyr-129----Phe and Tyr-129----Trp displayed a 1000% and 500% enhanced specific nicking activity, respectively. These reactions were also shown to be completely processive. Assays performed at higher (100 mM) salt concentrations reduced the specific activities of the mutant enzymes approximately to that of wild type for the Tyr-129----Phe mutant and to 20% that of wild type for the Tyr-129----Trp mutant.
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PMID:Site-directed mutagenesis of the T4 endonuclease V gene: mutations which enhance enzyme specific activity at low salt concentrations. 269 26

Octadeoxynucleotides with the sequence d[(p)GG*AATTCC] have been prepared by solid-phase synthesis employing regular and base-modified phosphoramidites. These oligomers which contain an isosterically altered recognition sequence of the endodeoxyribonuclease Eco RI form duplexes under appropriate salt conditions. Since G* can represent 7-deaza-2'-deoxyguanosine the oligomers were used as probes to study their cleavage by the endodeoxyribonuclease Eco RI. The enzymatic hydrolysis of the modified octamer was strongly decreased compared to the regular DNA-fragment. This shows that guanine N-7 located at the cleavage site is important for the recognition process by the enzyme. The residual enzymatic activity is discussed on the basis of reduced specificity towards the recognition fragment. The fact that this cleavage occurs already under regular conditions indicates that the process described here bases on an intrinsic property of the oligomer and is different from the star activity.
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PMID:Palindromic oligonucleotides containing 7-deaza-2'-deoxyguanosine: solid-phase synthesis of d[(p)GG*AATTCC] octamers and recognition by the endodeoxyribonuclease EcoRI. 300 89

A deoxyribonuclease was partially purified from the free-living nematode Caenorhabditis elegans. The DNase functioned as an endonuclease and introduced both single-strand nicks and double-strand breaks into DNA. The enzyme hydrolyzed double-stranded DNA seven times more rapidly than single-stranded DNA. DNase activity was not affected by the addition of divalent cations below 1 mM but was inhibited at higher ionic concentrations. In addition, the enzyme was not inhibited in the presence of 10 mM EDTA. The enzyme was inhibited by salt concentrations greater than 20 mM. Three independent mutations in the nuc-1 gene were shown to reduce nuclease activity to less than 1% of that seen in wild-type organisms.
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PMID:An endonuclease from Caenorhabditis elegans: partial purification and characterization. 322 46

We previously reported that endonuclease V of bacteriophage T4 reacts processively with pyrimidine dimers in UV-irradiated DNA, tending to react with all of the dimers on one DNA molecule before reacting with any dimers on another DNA molecule [Lloyd, R. S., Hanawalt, P. C., & Dodson, M. L. (1980) Nucleic Acids Res. 8, 5113-5127]. In this paper we show that this processivity depends upon salt concentration: it can be detected in 10 mM NaCl but not, by our methods, in 100 mM NaCl. In addition, we show that endonuclease V binds to unirradiated DNA in 10 mM NaCl but not in 100 mM NaCl. We conclude that T4 endonuclease V binds to pyrimidine dimers in a two-step process in 10 mM NaCl. It first binds electrostatically to undamaged sections of DNA, and it remains bound during the second step in which it "searches" for pyrimidine dimers. Our conclusion is analogous to the expanded target theory developed for Lac repressor [Berg, O. G., Winter, R. B., & von Hippel, P. H. (1981) Biochemistry 20, 6929-6948].
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PMID:Processivity of T4 endonuclease V is sensitive to NaCl concentration. 353 87

A new purification protocol has been developed for the rapid isolation to physical homogeneity of T4 endonuclease V. The enzyme was purified from an Escherichia coli strain which harbors a plasmid containing the T4 denV structural gene downstream of the lambda rightward promoter. The purification of the enzyme was monitored by pyrimidine dimer-specific nicking activity, Western blot analysis and silver or Coomassie Blue staining of SDS-polyacrylamide gels. Milligram quantities of the enzyme have been purified by the following procedure. After sonication of cells and removal of major cell debris, total protein and nucleic acids were passed over a single-stranded DNA agarose column. Endonuclease V was eluted at 650 mM KCl with a linear salt gradient yielding enzyme of approximately 20% purity and following dialysis, was applied to a chromatofocusing column. The enzyme elutes at pH 9.4 and is greater than 90% homogeneous at this step. The final purification step is CM-Sephadex chromatography which attains greater than 98% homogeneity.
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PMID:Purification of the T4 endonuclease V. 354 4

Myeloid hematopoietic precursor cells are induced to differentiate by the macrophage and granulocyte differentiation-inducing protein MGI-2 (DF). This differentiation-inducing protein bound to double-stranded but not to single-stranded mammalian DNA. The bound MGI-2 was not eluted by high salt, but was eluted by sodium dodecyl sulfate (SDS). MGI-2 also bound to double-stranded E. coli DNA, but with this DNA the bound MGI-2 was eluted by high salt. This indicated a difference in the binding affinities of MGI-2 to mammalian and E. coli DNA. MGI-2 bound to DNA was examined by electron microscopy. The results indicate that MGI-2 formed a multimeric complex with double-stranded DNA and that the size of the complex was correlated with the strength of protein binding to the DNA. The multimeric complex bound to DNA was disrupted by deoxyribonuclease. The data indicated that binding of this differentiation-inducing protein to DNA involves the formation of a multimeric complex in which the monomers are held together by DNA. It is suggested that the formation of such multimeric complexes of MGI-2 and DNA may allow activation of the multiple pathways of gene expression that is required for differentiation.
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PMID:Multimeric complexes of differentiation-inducing protein bound to DNA. 386 20


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