EC:3.1.21.1 - FACTA Search

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Query: EC:3.1.21.1 (DNase)
7,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sucrose density gradient fractionation of isolated rat liver mitochondrial DNA ordinarily yields two peaks, one at 39 S, the other at 27 S. However, when these mitochondria are first incubated with a labeled DNA precursor, a labeled peak at about 8 S is also observed. Is this low molecular weight 8 S DNA merely an artifact of contamination or breakdown, or is it a functioning part of the mitochondrial genome? That it is not a nuclear contaminant is shown by: (a) the absence of nuclei or nuclear fragments in active mitochondrial preparations; (b) the insensitivity of 8 S DNA synthesis to treatment of mitochondria with DNase and RNase; (c) the ability of inner membrane preparations to synthesize this DNA; (d) the ability of atractyloside to inhibit incorporation of [3H]dATP into 8 S and 39 S or 27 S DNA equally; (e) the labeling of 8 S DNA (as well as 39 S and 27 S DNA) but not of nuclear DNA after the administration in vivo of [3H]thymidine. The evidence that 8 S DNA is not an artifact resulting from DNA breakdown during mitochondrial incubation or DNA isolation is as follows: (a) 8 S DNA can be isolated from unincubated mitochondrial; (b) 8 S DNA becomes labeled when labeled DNA precursors are administered in vivo; (c) 8 S DNA biosynthesis continues in the complete absence of labeled 39 S or 27 S DNA (whose synthesis is repressed by ethidium bromide), making it unlikely that 8 S DNA is formed from the breakdown of 39 S or 27 S DNA; (d) substitution of milder methods of DNA extraction does not decrease 8 S DNA labeling; moreover, the usual conditions of extraction, when applied to purified 39 S and 27 S DNA, do not generate 8 S DNA, nor does an additional mitochondrial washing cycle; (e) the specific radioactivity of 8 S DNA is higher than that of 39 S or 27 S DNA, making it improbable that the latter forms are precursors of 8 S DNA. Since 8 S DNA is double-stranded, it is not identical to the 7 S fragment of D loop DNA. The hypothesis that the artifactual nicking of those DNA molecules which contain opposing D loops leads to the release of double-stranded fragments was tested. The DNA which was released was predominantly (and probably completely) single-stranded. We conclude that 8 S DNA is probably not an artifact and studies are in progress on its function.
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PMID:Biosynthesis of mitochondrial DNA. Is 8 S DNA an artifact? 85 9

The in vivo effects of ethidium bromide on the integrity of mitochondrial DNA have been studied in a mouse L-cell system in which this DNA may be nearly exclusively radiolabelled. This allows the detection of mitochondrial DNA in the presence of contaminating nuclear DNA and eliminates the need for extensive purification of mitochondria or the use of deoxyribonuclease. The mitochondrial DNA in treated cells rapidly attains a high negative superhelix density and is not substantially nickel or degraded over the course of several days.
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PMID:Absence of ethidium bromide induced nicking and degradation of mitochondrial DNA in mouse L-cells. 89 67

Circular dichroism in the 300-360 nm region and fluorescence induced by intercaltating binding of ethidum bromide to both DNA and RNA components were studied in isolated HeLa nucleoli. Both DNA and RNA compoents contribute to the induced dichroic elliticity. Digestion of nucleoli by RNase or DNase shows that most of the induced ellipticity comes from the DNA component. In nucleoli with an RNA/DNA = 0.8/1.0 the RNA component gives only 20% of the total ellipticity when measured at an ethidium bromide/DNA = 0.25. Spectro-fluorometric titration shows that ethidium bromide intercalates mostly into DNA in nucleoli. Both circular dichroism and fluorescence studies indicate that both DNA and RNA components in isolated nucleoli are less accessible to intercalating binding by ethidium bromide when compared to purified nucleolar DNA, DNA in chromatin or purified ribosomal RNA. Circular dichroic measurements of intercalating binding of ethidium bromide to to nucleoli may be used to study changes in nucleoli under different physiological or pathological conditions.
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PMID:Circular dichroism studies of ethidium bromide binding to the isolated nucleolus. 96 80

A DNA-nuclear membrane complex has been isolated by two different methods from the nuclei of cultured mouse fibroblast (3T3) cells. One method, utilizing the detergent sarkosyl (sodium lauroyl sarkosinate), yields a DNA-nuclear membrane complex (the M band), which contains virtually all of the DNA in the nuclei. However, treatment of the M band by sonication, vortexing, or freeze-thaw reduces the amount of DNA in the complex by approximately 50-80%, depending upon the phase of the cell cycle from which the complex was extracted. The remaining DNA is tightly bound to the nuclear membrane and resists further shearing procedures. Over 90% of the choline-labeled phospholipid present in nuclei is also found in these sheared M bands. The percentage of DNA associated with the nuclear membrane varies during the cell cycle and correlates well with the onset, continuation, and cessation of DNA synthesis. Thus, although DNA-membrane complexes can be detected throughout the cell cycle, the percentage of DNA bound to membrane increases during late G1 and S and decreases during G2. In addition, there are distinct qualitative differences in the type of DNA present in the membrane fraction, with a more highly d(A-T) rich DNA being present in confluent (G0) cells than in cells during the S phase. This d(A-T) rich DNA may be related to the mouse satellite DNA identified by others. The M band can be separated into two DNA-nuclear membrane subfractions by centrifugation through a continuous sucrose gradient. The relative proportions of these two subfractions depend upon the percentage of sarkosyl present in the M band prior to centrifugation, with complete removal of sarkosyl resulting in a very large increase in the sedimentation velocity of the complex and in the formation of only one fraction. Evidence that this is a complex of DNA with membrane is given by the finding that DNA is dissociated from the complex with Pronase, deoxycholate, or high levels of sarkosyl. Removal of virtually all of the DNA with DNase from this rapidly sedimenting complex does not dissociate any of the phospholipid which still sediments rapidly as a single band. A second method, which yields a DNA-membrane fraction from nuclei, utilizes sedimentation of lysed nuclei to equilibrium in CsCl density gradients. This low-density CsCl fraction contains only 10-15% of the total DNA, but contains most of the nascent DNA, which may be chased into a membrane-free fraction. The DNA-membrane fraction from CsCl gradients possesses properties in common with the M-band fraction and can be converted into an M band. DNA membrane complexes from sucrose gradients, as well as the crude M-band preparation and a non-membrane-associated DNA fraction from nuclei can synthesize DNA in vitro without the addition of an external DNA template or DNA polymerase. In contrast to the activity in the non-membrane-associated DNA fraction, the membrane-associated polymerase activity is strongly stimulated by adenosine triphosphate and is unaffected by ethidium bromide...
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PMID:A nuclear membrane-associated DNA complex in cultured mammalian cells capable of synthesizing DNA in vitro. 99 Feb 45

1. Chloroplast DNA of Antirrhinum majus, Oenothera hookeri, Beta vulgaris and Spinacia oleracea band at the same buoyant density of 1.697 g-cm-3 in neutral CsCl equilibrium gradients. The corresponding nuclear DNAs band at 1.691, 1.703, 1.695 and 1.695 g-cm-3, respectively. The purity of chloroplast and nuclear DNA can be assessed objectively only in the cases of Antirrhinum and Oenothera. 2. Electron microscopic analysis of chloroplast DNA, purified in CsCl or CsCl/ethidium bromide gradients, revealed up to 80% circular molecules. Of these about 15% were of supertwisted conformation. Best yields of circular molecules were recovered when populations of unbroken chloroplasts were subjected to DNAase and phosphodiesterase treatment, and when the DNA was purified from viscous lysates by centrifugation into a CsCl cushion. Treatment of plastids with DNAase alone did not guarantee complete degradation of nuclear DNA. 3. The average contour length of the open circular chloroplast DNA molecules was basically similar for all four plants. They were 45.9 plus or minus 2.1 mum for Antirrhinum, 45.7 plus or minus 1.9 mum for Spinacia, 44.9 plus or minus 1.7 mum for Beta and 45.2 mum for Oenothera. This is comparable to the size derived for the coding capacity of chloroplast DNA from reassociation experiments. As much as 15% of the total population of circles in chloroplast DNA of Spinacia were circular dimers.
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PMID:Size, conformation and purity of chloroplast DNA of some higher plants. 109 50

Superhelical [3-H]DNA (replicative form I, RFI) of bacteriophage phiX174 slowly but spontaneously took up 32-P-labeled homologous single-stranded fragments at 4 degrees. Uptake was accelerated by heating to 75 degrees. RFI did not take up single-stranded fragments derived from DNA of Escherichia coli or from separated strands of phage lambda. Uptake was inhibited by low concentrations of ethidium bromide. Relaxed circular phiX174 DNA did not take up homologous fragments. Per molecule of RFI, the complexes contained as much as 90 nucleotide residues of homologous fragment. The 32-P-lebeled fragments were largely resistant to digestion by exonuclease I, and were not displaced by heating complexes at 60 degrees for 1 min in 16 mM or 100 mM NaCl. Under comparable conditions of temperature and salt all of the fragments were displaced from complexes in which at least one phosphodiester bond was cleaved by pancreatic DNase, but a significant fraction of the fragments was retained in complexes that were relaxed by digestion with S1 nuclease. These observations are interpreted to mean that S1 nuclease digested the plus (viral) strand of the recipient RF at the site of uptake in some instances. Transfection of E. coli by heterozygous complexes produced recombinant progeny, thereby showing that genetic information can be transferred from the fragment of plus strand to progeny plus strands. We propose that both uptake of a third strand by superhelical DNA and the action of nucleases on the resulting complex may simulate early steps in genetic recombination.
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PMID:Uptake of homologous single-stranded fragments by superhelical DNA: a possible mechanism for initiation of genetic recombination. 109 67

The avian malarial parasite, Plasmodium lophurae, was liberated from duck erythrocytes with antiduck erythrocyte serum and freed from host cell nuclei by differential centrifugation followed by treatment with trypsin and DNAase. Total as well as mitochondrial DNA isolated from such a preparation of free parasites showed overlapping densities of 1.679 g/ml in CsCl density gradients. To retain the structural integrity of mitochondrial DNA, the treatment of liberated parasites with trypsin and DNAase was eliminated and all steps of isolation of the mitochondrial fraction was performed at ice bath temperature. Under these conditions, mtDNA liberated by osmotic lysis appeared as super coiled molecules. After isolation of DNA from mitochondrial pellets prepared under the above conditions, only a single DNA band was apparent in ethidium bromide/CsCl gradients and open circular molecules with a mean contour length of 10.3 mum were observed.
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PMID:Circular mitochondrial DNA from the avian malarial parasite Plasmodium lophurae. 112 17

In the course of experiments on the role of the COOH-terminal residues in pancreatic deoxyribonuclease, we undertook to ascertain whether the presence of sodium dodecyl sulfate would render the normally unavailable terminus susceptible to hydrolysis by carboxypeptidase A. When DNase A is dissolved in 0.005% sodium dodecyl sulfate the protein becomes enzymically inactive when assayed against DNA in the same sodium dodecyl sulfate concentration. The loss of activity caused by treatment with sodium dodecyl sulfate for 1 hour at 45 degrees can be fully restored if the detergent-containing solution is diluted 10-fold into 6 M guanidinium chloride and then 10-fold into a pH 7.0 buffer, 10 mM in CaCl2, prior to a 100-fold dilution for assay. The presence of Ca2+ is essential for the refolding process. If the same degree of dilution is made into sodium dodecyl sulfate-free buffer without the guanidinium chloride step, there is very little reversal of the inactivation. An almost complete loss of regenerable activity is caused by 1 hour of digestion by carboxypeptidase at 45 degrees in the presence of 0.03% sodium dodecyl sulfate. Although up to 6 amino acid residues can be removed from the COOH terminus, the loss of activity can be correlated with the removal of either 1 or 2 amino acid residues (-Leu-Thr) from the COOH-terminal sequence. Thus, DNase A is one of the several enzymes in which residues at the COOH terminus are essential to the active conformation. If the enzyme minus 2 to 6 terminal residues was mixed with a 15-residue COOH-terminal peptide (obtained by cyanogen bromide cleavage), only about 2% activity could be regenerated.
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PMID:Reversible inactivation of pancreatic deoxyribonuclease A by sodium dodecyl sulfate. Removal of COOH-terminal residues from the denatured protein by carboxypeptidase A. 116 40

1. The frequency of circular dimers and catenanes was determined in thyroid mitochondrial DNA (mtDNA) from rabbits, mice, pigs, sheep and cattle. 2. The mtDNA from freshly removed thyroids was isolated by buoyant density centrifugation in ethidium bromide/CsCl gradients after DNAase treatment of the mitochondrial pellet. Typically, more than 90% of the recovered mtDNA was found in the lower band, indicating a low rate of nicking during isolation. A sample of the total mtDNA (upper and lower bands) was examined by electron microscopy after preparation by the aqueous protein film technique. 3. The frequency of circular dimers generally ranged from 0.1 to 0.3%. However, in an mtDNA sample from cow thyroid, the frequency of circular dimers was 0.6% (0.9% if circular dimers occuring in catenanes are included(, differing significantly from the frequency of these forms in bull thyroid, 0.1%. A small but significant variability also occurred in the frequency of catenanes ranging from 2 to 8% in the different groups; this variation is within the limits usually observed in normal tissues. 4. These observations indicate that thyroids, like other normal tissues examined so far, have a low content of circular dimers. A high frequency of these forms seems to be the trademark of some genetically and physiologically abnormal cells such as certain established cell lines, virus-transformed cells and malignant or otherwise pathological tissues.
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PMID:Complex mitochondrial DNA in animal thyroids. A comparative study. 126 54

The method of DNA binding to nitrocellulose filters was applied to DNA isolated from mouse liver and Ehrlich ascite carcinoma (EAC), calf thymus, and lymphocytes from patients with chronic lymphoid leukemia. In those and phage PM2 DNA the increase in the DNA binding to the filters with a rise in NaCl concentration from 0.5 up to 4.5 M was sigmoidal being suggestive of a conformational transition. No such activity was found in the case of phage lambda or single-stranded DNA. The binding decreased dramatically after mild cleavage of DNA with DNAase I or treatment with phospholipase C or Eco RI and Hin PI restrictases. Incubation of DNA with ethidium bromide led to decrease in the amount of bound DNA. This effect was enhanced with a rise in the dye concentration. The isotherms of ethidium bromide binding to eukaryotic DNA obtained in Scatchard plots by optic titration had a component with a positive slope at low values of r. Bivalent ions (Mg2+, Zn2+) shifting the equilibrium towards the Z-form increased the proportion of macromolecules retained on the filters at NaCl concentrations of 1-3 M. Local changes in the helix conformation were studied with the help of chemical probes: diethylpyrocarbonate (guanine Z-DNA) and osmium-pyridine reagent (pyrimidines of boundary B-Z sites). These probes incorporation into samples of liver DNA, EAC, and lymphocytes resulted in chemical modification of all these samples. Modification of DNA by osmium-pyridine reagent led to inhibition of subsequent restriction by Eco RI restrictase. The data obtained are suggestive of the presence of Z-regions in the B-helix of eukaryotic DNA. A topological model of Z-site stabilization in small superhelical loops of DNA fixed by protein or lipoprotein molecules is proposed.
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PMID:[Detection of left-helical segments in eukaryotic DNA]. 148 26

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