EC:3.1.22.1 - FACTA Search

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Query: EC:3.1.22.1 (DNase II)
429 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After incubation with DNA human lymphocytes release neutral and acid DNase activities into the culture medium; the release depends on DNA concentration and time of cultivation. The electrophoretic mobility of the released neutral DNase activity is in accordance with DNase I and the electrophoretic mobility of the released acid DNase activity with DNase II. The released DNase activities do not originate from dead cells and are not influenced by blast cell formation. The anesthetic halothane can inhibit the released neutral and acid DNase activities. Inhalation anesthesia can possibly disturb the correlation between DNA and DNases in human blood.
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PMID:Secretion of neutral and acid DNases in cultivated human lymphocytes after incubation with DNA; possible consequences for inhalation anesthesia. 754 35

Activation of a triplet of nuclear proteins (NP42-50) was observed in human Jurkat T cell line following treatment with an antibody to CD95 (Fas/Apo-1), a cell surface molecule involved in apoptotic cell death. The nuclease activity, corresponding to a triplet of proteins observed at approximately 42, 45, and 50 kDa in size, was extractable, heat-stable, and detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis containing deoxyribonucleic acids (SDS-PAGE-DNA) assay. The NP42-50 activity requires the presence of Mg2+/Ca2+ and is insensitive to inactivation by heating at 80 degrees C for 5 min. Zinc effectively inhibited the enzymatic activity of NP42-50 on SDS-PAGE-DNA and also protected Jurkat cells from the CD95-mediated apoptosis in cell cultures. The nuclease activation, however, was not a unique pathway for the CD95-mediated cell death. The apoptosis induced by arabinofuranosyl cytosine, a chemotherapeutic agent, also activated the NP42-50 nuclease activity in Jurkat cells, suggesting that a similar cascade of subsequent events in apoptosis may occur in most instances although many different signals can initiate apoptotic cell death in various cell types. The nuclease identified by this study appears to be distinguishable from DNase I or DNase II by its molecular characteristics and its enzymatic requirements. The NP42-50, with respect to the nuclease activity closely associated with apoptotic cell death, may serve as a candidate for the endonuclease(s) involved in the cleavage of DNA into fragments during apoptosis.
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PMID:A triplet of nuclease proteins (NP42-50) is activated in human Jurkat cells undergoing apoptosis. 755 79

Small cell lung cancer cells (OC-NYH-VM) were permeabilized and treated with different nucleases. The long-range distribution of DNA cleavage sites in the amplified c-myc gene locus was then analyzed by pulsed field gel electrophoretic separation of the released 50-kilobase to 1-megabase DNA fragments followed by indirect end labeling. Exogenous DNase I and nucleases specific for the single-stranded DNA were found to generate similar nonrandom patterns of large DNA fragments. The cleavage sites were located close to or even colocalized with matrix attachment regions, which were mapped independently using a recently developed procedure for DNA loop excision by DNA topoisomerase II-mediated DNA cleavage. Endogenous acidic nuclease with the properties of DNase II also digested DNA preferentially in proximity to the matrix attachment regions, generating characteristic patterns of excised DNA loops and their oligomers. A similar, although less specific, pattern of DNA fragmentation was observed after incubation of permeabilized cells under conditions favoring the activity of endogenous neutral Ca(2+)- and Mg(2+)-dependent nucleases. These findings are discussed in the context of the current model of the spatial domain organization of eukaryotic genome.
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PMID:Long-range fragmentation of the eukaryotic genome by exogenous and endogenous nucleases proceeds in a specific fashion via preferential DNA cleavage at matrix attachment sites. 762 1

Deoxyribonucleases (DNases) I and II activities in 13 different organs and body fluids from healthy male rabbits were measured using the single radial enzyme diffusion method. We now show that testis, epididymis, ampulla, seminal vesicle, vesicular gland, prostate, and semen have both of the DNases I and II activities, whereas spermatozoa do not. DNase I activities were highest in epididymis and seminal vesicle, whereas DNase II activities were highest in epididymis and prostate among the reproductive organs. The presence of these two enzyme activities outside the digestive system suggests that they have another biological function in addition to their digestive roles.
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PMID:Detection of deoxyribonucleases I and II (DNases I and II) activities in reproductive organs of male rabbits. 808 12

The sequence preference of a Drosophila lysosomal DNase was studied on the Drosophila hsp 70 heat-shock and histone recombinants, which carry six different genes, and the surrounding spacer sequences. The distribution of cleavage sites was random in respect of the locations of gene and spacer sequences. However, in the presence of 10 mM spermidine, a major transition was observed: the coding sequences became more susceptible than the spacer regions to nuclease attack. A similar transition was induced in the sequence preference of DNase I if the digestion was performed in the presence of spermidine at pH 5.2. At pH 7.5, spermidine does not influence the sequence preference of DNase I, which indicates the involvement of DNA protonation in this transition. In the presence of spermidine, the distributions of preferred and protected sequences were almost indistinguishable for these nucleases, suggesting that the protonated DNA, and not the enzymes, is the target of spermidine. A Drosophila embryonal protein was detected and partially purified which induced the same transition as observed in the presence of spermidine. The purified protein preferentially protected the spacer DNA sequences against acid DNase or DNase I cleavage in the hsp 70 heat-shock and histone gene recombinants. The protection was concentration dependent and occurred only at pH 5.2. The transition of nuclease specificity is probably due to a conformational change in the protonated DNA, induced by the binding of either the embryonal protein or spermidine.
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PMID:Spermidine-induced alteration in the gene-spacer discrimination of nucleases in protonated DNA. 848 53

Chicken embryos were X-irradiated with a dose of 8 Gy. At a developmental stage of 15 days, desoxyribonucleic acid (DNA) synthesis, nucleoid sedimentation, viscosity of the alkaline cell lysates and DNA fragmentation were examined in brain and/or liver cells. Further studies aimed at the appearance of acid-soluble nucleic acid metabolites in the allantoic fluid. Complementary investigations comprised the in vitro activities of a DNase I and a DNase II of liver and brain cells as well as of the allantoic fluid of X-irradiated embryos. It could be shown for the first time that, following acute X-irradiation of the chicken embryo, the inhibition of DNA synthesis is accompanied by at least two enzymatic DNA degradation phases. The early phase comprises a period of 6 (-12) h, whereas the second phase lasts, with organ-specific peculiarities, > or = 24 h. During the early period, some apoptotic phenomena are seen, whereas at the later stages of radiation response signs of necrolysis become evident. The excretion of DNA metabolites, probably oligonucleotides, in the allantoic fluid is enhanced following X-irradiation > 2 Gy and may be used as an additional parameter of the overall radiation damage. Therefore, the chicken embryo may be regarded as a radiobiological and possibly toxicological alternative to laboratory animals with respect to the nucleic acid metabolism.
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PMID:Radiation biochemistry of the chicken embryo: DNA synthesis and DNA degradation following X-irradiation. 859 91

The nature of the endonucleases responsible for DNA fragmentation in apoptosis has not yet been clearly defined. The intracellular acidity has been known to greatly affect apoptosis probably by affecting the activity of the endonucleases. In this study, the implication of pH in the apoptosis was investigated through the use of human HL-60 leukemia cells. The cells were incubated in media with different pH ranging from 3.5 to 7.5 for 4 hrs and the mode of cell death was investigated. The trypan blue exclusion assay showed that close to 25% and 90% of the cells were dead when incubated in pH 6.4 and pH 5.0 media, respectively. The agarose gel electrophoresis of DNA demonstrated that significant DNA fragmentation occurred in the HL-60 cells incubated in the pH 6.2-6.4 media for 4 hr indicating cell death by apoptosis. The electron microscopy study also demonstrated that many of the cells incubated in the pH 6.4 medium were in the process of apoptosis while the cells maintained in the pH 5.0 medium were dying by necrosis. The intracellular pH (pHi) of HL-60 cells was 6.6-6.9 when the extracellular pH (pHe) was 6.2-6.4. These results demonstrated that DNase I which has a maximal endonuclease activity near pH 7.0 may be responsible for the apoptosis accompanied by DNA fragmentation in HL-60 cells in the pH 6.4 medium. This observation is at variance with the previous reports that DNase II mediate the DNA fragmentation in apoptosis. The cell death at extremely low pH (pH 5.0) appeared to be due mainly to necrosis.
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PMID:Effects of intracellular pH on apoptosis in HL-60 human leukemia cells. 859 48

DNA fragmentation is a common biochemical hallmark of apoptosis. It is catalyzed by endogenous Ca2+, Mg(2+)-dependent endonuclease(s). Although the exact identity of the apoptotic endonuclease is still a matter of debate, a number of candidate nucleases have been proposed like NUC18, DNase II and DNase I. Relatively large amounts of nucleases are also expressed by mycoplasmas, cell wall-less bacteria of the class Mollicutes, which are found as contaminants in up to 45% of the continuous cell lines in current use. In order to clarify the effect of these pathogens on the investigation of apoptosis in cell culture systems, we looked for biochemical markers (DNA fragmentation, nuclease expression) and morphological changes characteristic of apoptosis (cell shrinkage, chromatin condensation, apoptotic bodies) in Mycoplasma hyorhinis-free and -infected cultures of the human pancreatic adenocarcinoma cell line PaTu 8902 and of mouse NIH 3T3 fibroblasts. For that purpose we employed cells cultured under standard conditions and cells exposed to the protein synthesis inhibitor cycloheximide, which is known to induce apoptosis in various cell systems. After exposure to cycloheximide only the mycoplasma-positive cells exhibited internucleosomal DNA degradation. In contrast, nuclease activities in the molecular range of 47 to 54 kDa were detected in cell homogenates and culture supernatants of infected cultures of both control and cycloheximide-treated cells, whereas mycoplasma-free cultures were nuclease-negative. The expression of the nucleases and the cycloheximide-induced DNA fragmentation were suppressed by the prokaryote-specific protein synthesis inhibitor chloramphenicol. Moreover, partially purified nucleases from supernatants of infected cells were able to cleave the DNA of isolated substrate nuclei at internucleosomal sites. These data indicate that DNA ladder formation in cell culture systems can also be caused by mycoplasmal nucleases which apparently penetrate the host cells after cycloheximide treatment or more generally after cellular stress. Therefore, internucleosomal DNA fragmentation in established cell lines has to be regarded with care, unless mycoplasmal infection can be excluded, or the existence of endogenous endonucleases can be proven. The presence of endonucleolytic activities of about 47 to 54 kDa molecular mass has now to be regarded as highly indicative of contaminations with M. hyorhinis. In contrast, the expression of an apoptotic morphology was not restricted to infected cells; in both mycoplasma-free and -contaminated cultures, cells with condensed chromatin were observed after staining with the DNA binding dye Hoechst 33342. Electron microscopic studies revealed that most of the cells containing compacted DNA were phagocytosed by unaffected fellow cells. Presumably because of the relatively long exposure (72 h) to cycloheximide we also observed secondary necrosis as indicated by the parallel occurrence of morphological characteristics of apoptosis (chromatin condensation) and necrosis (loss of membrane integrity and organelle swelling).
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PMID:Internucleosomal DNA fragmentation in cultured cells under conditions reported to induce apoptosis may be caused by mycoplasma endonucleases. 888 84

Research into the use of new genetic markers is difficult and costly, but it is necessary for more accurate criminal individualization and paternity testing as well as for analysis of genetic diseases. Recently, we discovered that human ribonuclease (RNase), deoxyribonuclease I (DNase I) and deoxyribonuclease II (DNase II) are characteristic markers showing genetic polymorphism and useful for forensic investigation. DNase I is particularly well suited to practical use, since it shows a well-balanced gene frequency, a high concentration in several body fluids (blood, sweat, urine, breast milk and semen) and tissues (pancreas, liver and kidney), stability against severe conditions (exposure of test samples to high temperature, high humidity and long-term storage), and easy and accurate detectability.
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PMID:[Discovery of genetic polymorphism of human nucleases]. 895 29

Xib, a gene recently reported to reside on the q28 region of the human X chromosome [Pergolizzi et al. (1996) Gene 168, 267-270], contains an open reading frame homologous to those of the DNase I family enzymes. The full open reading frame of this gene has been fused to the E. coli gene of the maltose binding protein and expressed in bacteria as a chimeric protein. The partially purified chimeric protein is enzymatically active. It introduces single and double stranded breaks into supercoiled DNA, at 30 degrees C in the absence of divalent cations and at a pH optimum of 5.2. To our knowledge this enzyme represents the first cloned human endonuclease with characteristics similar to those of acidic DNase II.
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PMID:Functional characterization of a human DNase-like protein encoded by a gene positioned in Xq28. 909 69

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