EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. DNA polymerase activity is present in both nuclear and supernatant fractions prepared from rapidly dividing L929 mouse cells. 2. Nuclear preparations are 2-5 times more active with added native DNA as template and the supernatant fractions show an equivalent preference for heat-denatured DNA. 3. Isolated nuclei can carry on limited DNA synthesis in the absence of added template but are stimulated five- to ten-fold by addition of 50mug of native DNA per assay. 4. DNA polymerase activity can be released from intact nuclei by ultrasonic treatment or by extraction with 1.5m-potassium chloride. 5. The activities in nuclear and supernatant fractions, with their preferred templates, respond similarly to changes in pH and Mg(2+) and K(+) concentrations. 6. Maximal enzyme activity is approached with 40mug of DNA per assay and activation of the DNA template by treatment with deoxyribonuclease does not decrease the amount of DNA required to reach saturation. 7. The nuclear enzyme, incubated with native DNA, is markedly inhibited by the addition of heat-denatured DNA to the assay. In contrast, the supernatant DNA polymerase activity on denatured templates is not affected by the presence of native DNA. 8. The nuclear enzyme exhibits high activity in the absence of one or more deoxyribonucleoside triphosphates but this is much diminished after partial purification of the enzyme by precipitation at pH5 and fractionation on Sephadex G-200 columns. 9. The (3)H-labelled DNA products formed by Sephadex-purified nuclear and supernatant fractions, with their preferred templates, were found to be resistant to treatment with exonuclease I. Alkali-denaturation of the (3)H-labelled DNA products rendered them susceptible to attack by exonuclease I. 10. Analysis of the products on alkaline sucrose density gradients suggests that the newly synthesized material may not be covalently bound to the original DNA template. 11. By using their preferred templates the specific activity of supernatant fractions varies markedly with the position of the cells in the cell-cycle, but the specific activity of nuclear fractions varies only slightly.
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PMID:Characteristics of deoxyribonucleic acid polymerase activity in nuclear and supernatant fractions of cultured mouse cells. 553 Nov 81

Electric field pulses, capacitively applied to tissue cultures of embryonic bone cells, were shown to induce changes in the state of cellular actin. Three actin states could be defined by DNAase I inhibition. A rapidly (20-30 s) inhibiting fraction, attributed to monomeric G-actin, amounts to 55% of total actin in nonstimulated cells. An additional fraction of 8% required approx. 20 min to reach full inhibition and was tentatively defined as polymeric 'F'-actin. The remaining 37% could be detected only after treatment of the cells with 0.75 M guanidine hydrochloride, which dissociates actin from all its protein interactions. This fraction, N-actin (network actin) is believed to represent F-actin integrated into some supramolecular structure, where it is not accessible to DNAase I. Upon short electric stimulation the distribution changed to 40% G-actin, 12% F-actin and 48% N-actin. 3-Isobutyl-1-methylxanthine (IBMX; an inhibitor of cAMP phosphodiesterase), depletion of extracellular calcium, and calmodulin inhibitors abolished this field effect.
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PMID:Actin polymerization induced by pulsed electric stimulation of bone cells in vitro. 620 Jan 46

DNA containing 5-azacytosine (azaC) has previously been shown to be a potent inhibitor of DNA-cytosine methyltransferases. In this report, we describe experiments which demonstrate that azaC-DNA forms a covalent complex with Hpa II methylase, a bacterial enzyme that methylates the internal C of C-C-G-G sequences. The complex does not undergo detectable dissociation over at least 3 days and is stable to denaturation with NaDodSO4. After extensive digestion of the complex with DNase and phosphodiesterase, gel filtration gave the methylase bound to approximately one equivalent of azaC; the digested complex had an apparent molecular weight similar to that of the native enzyme. Although prior treatment of azaC-DNA with Hpa II endonuclease had only a slight effect on binding of the methylase, treatment with Msp I endonuclease, which also cleaves at C-C-G-G sequences, resulted in a significant reduction in binding; this indicates that azaC residues in the recognition sequence of Hpa II are an important component in the covalent interaction of the methylase. However, since there was residual binding it is possible that azaC residues elsewhere in DNA also covalently bind to the methylase. These results provide an explanation of why azaC-DNA is such a potent inhibitor of cytosine methyltransferases and how the incorporation of such low levels of azaC into DNA can result in dramatic decreases in the methylation of cytosine. Finally, consideration of the probable catalytic mechanism of cytosine methylases and the chemical properties of azaC suggests that the inhibition is, at least in part, an active-site directed process and permits a proposal for the structure of the covalent complex.
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PMID:Covalent bond formation between a DNA-cytosine methyltransferase and DNA containing 5-azacytosine. 620 10

Electron cytochemical localizations of acid phosphatase, aryl sulfatase, deoxyribonuclease, adenylate cyclase, and c-AMP phosphodiesterase activity sites in thin sections of cells of the two growth phases of the zoopathogenic Histoplasma capsulatum are described and illustrated by transmission electron micrographs. Various activity sites of these enzymes included the cytomembranes of the nucleus, mitochondria, and endoplasmic reticulum. At the same time, electron opaque reaction products were sequestered within membrane-bound, vacuolar regions of the cytosol. These vacuoles may be ontogenically related to membranous or vesicular inclusions commonly seen in thin sections of glutaraldehyde osmium tetroxide-fixed cells. These enzymatically-active vacuoles are believed consistent with previous descriptions of fungal lysosomal-like structures found in certain other fungi. Lysosomal-like vacuoles of H. capsulatum may provide a means of compartmentalization of various hydrolytic enzymes involved in catabolism and mobilization of storage reserves, and perhaps to function as well in other aspects of the life cycle of this important pathogenic dimorphic fungus.
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PMID:Electron cytochemical evidence for lysosomal-like equivalents in Histoplasma capsulatum. 626 Nov 31

RecA- mutants of Escherichia coli extensively degrade their DNA following UV irradiation. Most of this degradation is due to the recBC DNase, which suggests that the recA gene is involved in the control of recBC DNase in vivo. We have shown that purified recA protein inhibits the endonuclease and exonuclease activities of recBC DNase on single-stranded DNA. The extent of inhibition is dependent on the relative concentration of recA protein, recBC DNase, and the DNA substrate; inhibition is greatest when the concentrations of DNA and recBC DNase are low and the concentrations of recA protein is high. At fixed concentrations of recA protein and recBC DNase, inhibition is eliminated at high concentrations of DNA. In the presence of adenosine 5'-O-(3-thiotriphosphate), an ATP analog which stabilizes the binding of recA protein to both single- and double-stranded DNA, recA protein is a more potent inhibitor of the nuclease activities on single-stranded DNA and is a weak inhibitor of the exonuclease activity on double-stranded DNA. Inhibition of the latter is enhanced by oligodeoxynucleotides, which stimulate the binding of recA protein to double-stranded DNA. In the presence of adenosine 5'-O-(3-thiotriphosphate), recA protein also inhibits the action of exonuclease I on single-stranded DNA and of lambda exonuclease on double-stranded DNA. These observations are most consistent with the idea that recA protein protects DNA from recBC DNase by binding to DNA. RecA protein also blocks the endonucleolytic cleavage of gapped circular DNA by recBC DNase. Since both recA protein and recBC DNase have the ability under certain conditions to unwind duplex DNA and to displace strands, we looked for evidence that their combined action would enlarge gaps but found no extensive enlargement. D-loops, a putative intermediate in genetic recombination, are effectively protected against the action of recBC DNase by the E. coli single strand binding protein and by recA protein in the presence of adenosine 5'-O-(3-thiotriphosphate).
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PMID:Escherichia coli recA protein protects single-stranded DNA or gapped duplex DNA from degradation by RecBC DNase. 626 52

From an induced lysogen of bacteriophage Mu-1, we partially purified a substance of high molecular weight that blocks the action of several exonucleases on double-stranded DNA. The presence of the inhibitor in cell-free extracts is dependent on induction of a Mu prophage. The Mu-related inhibitor acts by binding to double-stranded DNA rather than by interacting with the DNase. The inhibitor protects linear duplex DNA of Mu, P22, and phi X174am3 from exonucleolytic degradation by recBC DNase and lambda exonuclease. Single-stranded DNA, however, is not protected by the inhibitor from degradation by either recBC DNase or exonuclease I. The inhibitor preparation contains a protein that binds to linear duplex DNA, but not to circular duplex DNA; ends are required for binding to occur. Single-stranded DNA is not a substrate for the binding protein. These and other results suggest that the binding protein and the inhibitor are the same activity.
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PMID:Partial purification and properties of an exonuclease inhibitor induced by bacteriophage Mu-1. 626 42

Guinea pig epidermal DNAase I was purified from an epidermal extract by a procedure including DEAE-cellulose chromatography, Sephadex G-100 gel filtration and Con A-Sepharose affinity chromatography. The purified enzyme contained no detectable activities of acid DNAase, alkaline RNAase, phosphodiesterase or acid or alkaline phosphatase, but was contaminated with acid RNAase activity. The molecular weight of the enzyme was estimated to be 33 000 by sucrose density gradient centrifugation and Sephadex G-100 gel filtration. Its isoelectric point is 5.2 +/- 0.1. The enzyme requires divalent cations and exhibits two pH optima that are dependent on divalent cations: in the presence of Mn2+, the optimum pH is about 7.5 in 50 mM Tris-HCl buffer and in the presence of Mn2+, the pH is 6.4 in 50 mM cacodylate-HCl buffer. The enzyme hydrolyzes native DNA about 6-times faster than denatured DNA, producing 5'-phosphoryl and 3'-hydroxyl terminated oligonucleotides with an average chain length of about eight nucleotides, and converts double-stranded and circular DNA to relaxed and linear forms. The enzyme is inhibited by G-actin and antiserum against bovine pancreatic DNAase A. Thus this enzyme is classified as DNAase I.
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PMID:Purification and properties of a neutral endodeoxyribonuclease from guinea pig epidermis. 627 8

Screening of several fungal cultures resulted in the selection of an isolate of Aspergillus candidus which produced a considerable around of RNa-degrading enzyme in both surface and submerged methods of cultivation. The conditions for the assay of the RNAase were standardized at pH 4.5, 55 degrees C and using 0.25% yeast RNA as substrate. The enzyme was stable at pH 5.2. EDTA was found to activate the enzyme slightly. at temperatures 50-60 degrees C there was considerable loss in enzyme activity which was traced to the presence of a contaminating protease which presumably degraded the RNAase optimally at this temperature. The protease could be preferentially inactivated at or above 75 degrees C. The crude enzyme, in addition to RNAase was found to possess DNAase, nonspecific phosphodiesterase and 3'- and 5'-phosphomonoesterase activities.
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PMID:Standardization of assay procedure and some properties of ribonuclease from Aspergillus candidus. 679 71

A ribonuclease (RNAase; EC 3.1.14.1) from brewer's yeast was purified 90-fold. Crude RNAase was initially separated from other proteins by precipitation at pH 4.0 after incubation of the mechanically disrupted yeast cells at pH 6.0 and 52 degrees C for 30 min. The RNAase was purified from the supernatant by ultrafiltration with a PM-30 membrane and adsorption chromatography on hydroxyapatite. RNAase preparation was free of phosphatase, deoxyribonuclease and phosphodiesterase activities. It showed maximum activity at pH 6.0 and a temperature optimum of 52 degrees C with yeast RNA as substrate. This RNAase hydrolysed yeast RNA to nucleoside 3'-phosphates and showed no evidence of base specificity.
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PMID:A rapid method for the isolation of ribonuclease from yeast (Saccharomyces carlsbergensis). 700 98

DNases A1 and A2 have been purified to homogeneity from the hepatopancreas of Achatina fulica by a series of steps: acetate buffer extraction, ammonium sulfate precipitation and column chromatography on hydroxylapatite, phosphocellulose, Blue-Sepharose, and poly(A)-Sepharose. The purified enzymes are free of acidic phosphomonoesterase, phosphodiesterase, and RNase activities. They are slightly acidic glycoproteins with identical isoelectric point (6.90). On 0.1% SDS gel electrophoresis, DNase A2 had a molecular weight of 30,000 when dissolved in 1% SDS, but it had molecular weights of 17,500, 8,000, and 4,800 when dissolved in 1% SDS and 1% 2-mercaptoethanol. This was evidence that the enzyme consists of three different subunits joined by interchain disulfide bonds. DNases A1 and A2 are endonucleases working at acidic pH (3.5--6.0) and do not require divalent cations for their activities. The enzymes degrade poly(dA) 5 times faster and poly(dT) 3 times faster than heat-denatured DNA under optimal conditions but do not appreciably digest poly(dG) and poly(dC). We developed an analytical procedure for oligodeoxynucleotides by high-performance liquid chromatography. The phosphomonoester end group and the mode of degradation were examined by the method. The termini produced by the enzymes have 3'-phosphoryl and 5'-hydroxy end groups. The products of exhaustive hydrolysis contain di-, tri-, tetra-, and pentanucleotides and mononucleotide was barely detected. The hydrolyzing activities of DNases A1 and A2 are stimulated by polyamines such as spermine, spermidine, and putrescine, but are inhibited by synthetic polynucleotides and various drugs. Adenosine deaminase highly active on oligoadenylic acids was found in a crude DNase A fraction. The enzyme preparation has higher activity on 3'-adenylic acid than on 5'-adenylic acid. The first adenosine residue of oligoadenylic acids was deaminated considerably more rapidly than the second or succeeding ones.
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PMID:DNase A, a poly(dA) and poly(dT)-specific deoxyribonuclease from Achatina fulica. Purification and characterization. 733 15

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