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)

The production of lipase and phospolipase by certain members of the Enterobacteriaceae was examined by thin-layer chromatography of resting-cell suspensions incubated with triolein or lecithin. Most strains of Serratia marcescens produced both enzymes while most strains of Serratia liquefaciens exhibited strong lipase but only a minor phospholipase activity. Enterobacter spp. (25 strains), Klebsiella pneumoniae (20 strains), Escherichia coli (15 strains), Citrobacter freundii (7 strains) and Proteus spp. (20 strains) lacked both types of enzymic activity except for the following: three strains of Enterobacter cloacae, two of Proteus mirabilis and three of Proteus vulgaris possessed slight lipase activity; about one-half of the Enterobacter aerogenes and Enterobacter hafniae strains examined produced slight phospholipase activity. It is suggested that tests for lipase and phospholipase should be used in conjunction with those for DNAase production and sugar fermentation for the differentiation of S. marcescens and S. liquefaciens.
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PMID:Differentiation of Serratia marcescens and Serratia liquefaciens by tests for lipase and phospholipase production. 35 31

Spindle pole bodies (SPBs) were isolated from the yeast Saccharomyces cerevisiae by an adaptation of the Kleinschmidt monolayer technique. Spheroplasts prepared from the cells were lysed on an air-water interface. Spread preparations were picked up on grids, transferred to experimental test solutions, and prepared for whole-mount electron microscopy. Using purified exogenous tubulin from porcine brain tissue, the isolated SPBs were shown to nucleate the assembly of microtubules in vitro. Microtubule growth was directional and primarily onto the intranuclear face of the SPB. Neither the morphology nor the microtubule-initiating capacity of the SPB was affected by treatment with the enzymes DNase, RNase, or phospholipase although both properties were sensitive to trypsin. Analysis of SPBs at various stages of the cell cycle showed that newly replicated SPBs had the capacity to nucleate microtubules. SPBs isolated from exponentially growing cells initiated a subset of the yeast spindle microtubules equivalent to the number of pole-to-pole microtubules seen in vivo. However, SPBs isolated from cells in stationary phase and therefore arrested in G1 nucleated a number of microtubules equal to the total chromosomal and pole-to-pole tubules in the yeast spindle. This may mean that in G1-arrested cells, the SPB is associated with microtubule attachment sites of the yeast chromatin.
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PMID:Nucleation of microtubules in vitro by isolated spindle pole bodies of the yeast Saccharomyces cerevisiae. 35 37

We assayed phospholipase activity in T4Dt+ and in t mutant phage grown under permissive and restrictive conditions. There was no correlation between the presence of the t+ gene product and phospholipase activity. Phospholipase activity in phage lysates could be attributed to the presence of bacterial debris or to the use of commercial DNase which contains phospholipase.
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PMID:Absence of phospholipase activity in bacteriophage T4. 70 44

Cells of Escherichia coli selectively degrade proteins that have incorporated amino acid analogs. Within 1 hour after exposure of cells to canavanine, 50% of the analog-containing proteins were degraded to acid-soluble form. At the same time, no net loss of canavanine-containing protein occurred from the 100,000 X g supernatant. Instead, most of the proteins containing the analog, unlike normal ones, accumulated in particulate fractions sedimenting at 10,000 X g or 100,000 X g. They were then lost from these fractions concomitant with the degradation of the abnormal proteins. The loss of such proteins from particulate fractions accounted for all of the protein degraded to acid-soluble form. Similar observations were obtained after incorporation of other analogs or puromycin. The 10,000 X g pellets correspond to amorphous dense intracellular granules visible in electron micrographs of cells exposed to canavanine. Upon removal of the analog, these granules disappeared, simultaneously with the degradation of the analog-containing proteins. These pellets do not resemble a degradative organelle, like the lysosome; they are not osmotically sensitive, do not exclude inulin, are not enclosed by a membrane, and do not show autolytic activity. The proteins in the granules could be solubilized by sodium dodecyl sulfate but not by Triton, NaC1, dithiothreitol, RNase, DNase, or phospholipase. The proteins extracted from the pellet with sodium dodecyl sulfate tend to become particulate again upon removal of this detergent. Incorporation of canavanine caused a normally soluble polypeptide, the monomer of beta-galactosidase, to be inactive and found in the sedimentable fraction. These findings suggest that (a) the presence of amino acid analogs in proteins can make them less soluble, and (b) the inclusions are formed by the spontaneous precipitation of abnormal proteins rather than by an active granule-forming process.
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PMID:Degradation of abnormal proteins in Escherichia coli. Formation of protein inclusions in cells exposed to amino acid analogs. 108 51

The cyclic heptapeptide hepatotoxin microcystin-LR from the cyanobacterium Microcystis aeruginosa induces rapid and characteristic deformation of isolated rat hepatocytes. We investigated the mechanism(s) responsible for cell shape changes (blebbing). Our results show that the onset of blebbing was accompanied neither by alteration in intracellular thiol and Ca2+ homeostasis nor by ATP depletion. The irreversible effects were insensitive to protease and phospholipase inhibitors and also to thiol-reducing agents, excluding the involvement of enhanced proteolysis, phospholipid hydrolysis, and thiol modification in microcystin-induced blebbing. In contrast, the cell shape changes were associated with a remarkable reorganization of microfilaments as visualized both by electron microscopy and by fluorescent staining of actin with rhodamine-conjugated phalloidin. The morphological effects and the microfilament reorganization were specific for microcystin-LR and could not be induced by the microfilament-modifying drugs cytochalasin D or phalloidin. Using inhibition of deoxyribonuclease I as an assay for monomeric actin, we found that the microcystin-induced reorganization of hepatocyte microfilaments was not due to actin polymerization. On the basis of the rapid microfilament reorganization and the specificity of the effects, it is suggested that microcystin-LR constitutes a novel microfilament-perturbing drug with features that are clearly different from those of cytochalasin D and phalloidin.
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PMID:Rapid microfilament reorganization induced in isolated rat hepatocytes by microcystin-LR, a cyclic peptide toxin. 280 14

Antibodies prepared against the phospholipase A2 stimulatory peptide melittin were used to identify and isolate a novel mammalian protein with similar functional and antigenic properties. The mammalian protein of Mr 28,000 was isolated from cell sonicates by high performance immunoaffinity chromatography and size exclusion chromatography. This stimulatory protein was stable for several months when frozen at -70 degrees C. The purified protein selectively stimulated phospholipase A2 when phosphatidylcholine was used as a substrate but had no effect on phospholipase A2 activity when phosphatidylethanolamine was used as a substrate. Furthermore, this protein had no effect on phospholipase C activity or on pancreatic or snake venom phospholipase A2. The stimulatory activity was unaffected by RNase or DNase treatment. However, boiling or trypsin digestion inactivated the phospholipase stimulatory activity. The mechanism of phospholipase A2 stimulation appeared to result from an increase in the apparent Vmax of the enzyme.
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PMID:Identification and isolation of a mammalian protein which is antigenically and functionally related to the phospholipase A2 stimulatory peptide melittin. 354 34

A specific high-affinity folate binding protein (FBP) that binds folic acid and folic acid derivatives and that was previously identified in porcine kidney has been purified 50,000-fold using the technique of affinity chromatography. The FBP had a molecular weight of 38,500 daltons and did not appear to aggregate in solution, as has been reported to be the case with folate binding protein from milk. At pH 7.6, the Ka was at least 5 X 10(12)M-1. At pH values greater than 9.5 or less than 5, the binding dramatically decreased. The specificity was determined by an isotopic dilution technique using [3H]folic acid and folic acid analogs and derivatives. The FBP reacted more rapidly with unsubstituted folates, and the number of glutamic acid moieties (N greater than or equal to 1) did not influence binding. Binding of folic acid to the FBP was unaffected by a variety of anions and cations, and 8 M urea, but was disrupted by 6 M guanidine hydrochloride. Proteolytic enzymes irreversibly destroyed binding affinity, but RNase, DNase, phospholipase and neuraminidase had no effect.
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PMID:Properties of a folate binding protein (FBP) isolated from porcine kidney. 372 88

An inhibitory factor from Actinobacillus actinomycetemcomitans Y4 was isolated, and its properties indicated that it was a bacteriocin (actinobacillicin). The bacteriocin was active against Streptococcus sanguis strains, Streptococcus uberis (FDC1), and Actinomyces viscosus T14 as well as other strains of A. actinomycetemcomitans, but not against other crevicular bacteria, including other streptococci and actinomycetes. The activity of this bacteriocin was inhibited by pronase, trypsin, and heat (45 min at 56 degrees C) but not by DNase, RNase, phospholipase, exposure to UV light, or low pH (1.0 to 6.5). Although actinobacillicin markedly inhibited glycolysis in S. sanguis, the primary mechanism of its bactericidal action appears to be alterations in cell permeability, with the resultant leakage of RNA, DNA, and other essential intracellular macromolecules. These findings provide an ecologic explanation for the reciprocal growth relationship between A. actinomycetemcomitans and S. sanguis/Actinomyces viscosus observed in localized juvenile periodontitis.
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PMID:A bacteriocin of Actinobacillus actinomycetemcomitans. 381 90

This paper further characterizes the estrogen-binding protein we have described in the cytosol of the yeast Saccharomyces cerevisiae. [3H]Estradiol was used as the radioprobe, and specific binding of cytosol fractions was measured by chromatography on Sephadex minicolumns. Other 3H-steroids did not exhibit specific binding. [3H]Estradiol binding was destroyed by treatment with trypsin, but not RNase, DNase, or phospholipase; N-ethylmaleimide substantially decreased the binding. The yeast did not metabolize estradiol added to the medium, and extraction and chromatography of the bound moiety showed it to be unmetabolized estradiol. Scatchard analysis of cytosol from both a and alpha mating types as well as the a/alpha diploid cell revealed similar binding properties: an apparent dissociation constant or Kd(25 degrees) for [3H]estradiol of 1.6-1.8 nM and a maximal binding capacity or Nmax of approximately 2000-2800 fmol/mg of cytosol protein. Gel exclusion chromatography on Sephacryl S-200 and high performance liquid chromatography suggested a Stokes radius of approximately 30 A. Sucrose gradient centrifugation showed a sedimentation coefficient of approximately 5 S, and the complex did not exhibit ionic dependent aggregation. The estrogen binder in S. cerevisiae differed in its steroidal specificities from classical mammalian estrogen receptors in rat uterus. 17 beta-Estradiol was the best competitor, 17 alpha-estradiol had about 5% the activity, and diethylstilbestrol exhibited negligible binding affinity as did tamoxifen, nafoxidine, and the zearalenones. In summary, a high affinity, stereospecific, steroid-selective binding protein has been demonstrated in the cytosol of the simple yeast S. cerevisiae. We speculate that this molecule may represent a primitive hormone receptor system, possibly for an estrogen-like message molecule.
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PMID:Characterization of an estrogen-binding protein in the yeast Saccharomyces cerevisiae. 636 45

Saccharomyces cerevisiae nuclear membranes were prepared from isolated nuclei by digesting chromatin with deoxyribonuclease and ribonuclease, washing of residual nuclei with 0.5 M MgCl2, and discontinuous gradient centrifugation in buffered Ficoll solutions. Electron microscopic examination of the preparations showed single membrane and double membrane vesicles and membrane sheets. Pores or residual pores were often visible. In double membrane profiles the two unit membranes were often separated by the remains of the perinuclear cistern. The nuclear membrane fragments contained 58% protein, 23.8% phospholipid, 6% sterols, 7.1% neutral acylglycerols, 4.8% RNA, and 0.3% DNA. The phospholipid content of the membrane preparations was influenced by a phospholipase activity with acidic pH optimum.
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PMID:The isolation of Saccharomyces cerevisiae nuclear membranes with nuclease and high-salt treatment. 704 77

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