Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Colloidal alpha-stannic acid and a negative iron colloid obtained from ferric hydroxide and potassium ferrocyanide, both negative sols being stable within a wide pH range, were refined as surface protein electron markers. Because of the relatively small size of its particles, colloidal alpha-stannic acid was used for staining all surface proteins. According to the pH at which the negative iron colloid was applied, it revealed either all surface proteins, or because of its large colloidal particles, stained basic proteins. This differential staining capability of the iron colloidal has been demonstrated previously on various control preparations (Puvion E, Blanquet PR: J Microsc 12:171, 1971). Controls on the affinity of the two colloids to surface amino groups were carried out on rat liver, mouse fibroblasts, HeLa and KB cells, Ehrlich and Zajdela ascites cells subjected to prior enzymatic and chemical treatments (incubation with neuraminidase or phospholipase C, esterification, acetylation or lipid extraction). At any pH below 9, the two sols stained proteins in the outer hydrophilic leaflet of esterified cells with relative selectivity, but the alpha-stannic acid showed them more accurately. The iron sol did reveal at high pH protein components of high isoionic point on the surfaces of rat hepatocytes and ascites cells which had only been treated with neuraminidase.
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PMID:Colloidal alpha-stannic acid and negative iron colloid as differential electron stains for surface proteins. 23 40

The authors present the results of comparative study of the properties of experimental perfringens toxoids obtained from purified alpha-toxoids of different degrees of purity. Experimental toxoids proved to possess a greater immunogenicity than preparations obtained by detoxication of alpha-toxin under conditions of cultural fluid, the greater--the more the purity of alpha-toxin used for procuring the experimental toxoid. C1. perfringens alpha-toxin recovered as a result of two-stage alpha-toxin purification, including its primary concentration and fractionation on DEAE-cellulose under conditions of negative alpha-toxin sorption, changed during detoxication into toxoid whose immunogenicity exceeded that of manufactured preparations 3--4 fold. The toxoid was harmless and sorbed in a dose of 100 BU on 2--3 mg of aluminium hydroxide; stability of its antigenic properties and its yield was not less than those of manufactured toxoids. Perfringens toxoid prepared from highly purified alpha-toxoid was 10 times greater by immunogenicity than the manufactured preparation, and was sorbed on 1--2 mg of aluminium hydroxide.
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PMID:[Properties of C1. perfringens toxoids obtained from purified toxins]. 86 5

Alkaline phosphatase was the first zinc enzyme to be discovered in which three closely spaced metal ions (two Zn ions and one Mg ion) are present at the active center. Zn ions at all three sites also produce a maximally active enzyme. These metal ions have center-to-center distances of 3.9 A (Zn1-Zn2), 4.9 A (Zn2-Mg3), and 7.1 A (Zn1-Mg3). Despite the close packing of these metal centers, only one bridging ligand, the carboxyl of Asp51, bridges Zn2 and Mg3. A crystal structure at 2.0-A resolution of the noncovalent phosphate complex, E.P, formed with the active center shows that two phosphate oxygens form a phosphate bridge between Zn1 and Zn2, while the two other phosphate oxygens form hydrogen bonds with the guanidium group of Arg166. This places Ser102, the residue known to be phosphorylated during phosphate hydrolysis, in the required apical position to initiate a nucleophilic attack on the phosphorous. Extrapolation of the E.P structure to the enzyme-substrate complex, E.ROPO4(2-), leads to the conclusion that Zn1 must coordinate the ester oxygen, thus activating the leaving group in the phosphorylation of Ser102. Likewise, Zn2 appears to coordinate the ester oxygen of the seryl phosphate and activate the leaving group during the hydrolysis of the phosphoseryl intermediate. Both of these findings suggest that there may be a significant dissociative character to each of the two displacements at phosphorous catalyzed by alkaline phosphatase. A water molecule (or hydroxide) coordinated to Zn1 following formation of the phosphoseryl intermediate appears to be the nucleophile in the second step of the mechanism. Dissociation of the product phosphate from the E.P intermediate is the slowest, 35 s-1, and therefore the rate-limiting, step of the mechanism at alkaline pH. Since the determination of the initial crystal structure of alkaline phosphatase, two other crystal structures of enzymes involved in phosphate ester hydrolysis have been completed that show a triad of closely spaced zinc ions present at their active centers. These enzymes are phospholipase C from Bacillus cereus (structure at 1.5-A resolution) (43) and P1 nuclease from Penicillium citrinum (structure at 2.8-A resolution) (74). Both enzymes hydrolyze phosphodiesters. Substrates for phospholipase C are phosphatidylinositol and phosphatidylcholine, while P1 nuclease is an endonuclease hydrolyzing single stranded ribo- and deoxyribonucleotides. P1 nuclease also has activity as a phosphomonoesterase against 3'-terminal phosphates of nucleotides. The Zn ions in both enzymes form almost identical trinuclear sites.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure and mechanism of alkaline phosphatase. 152 73

Factor X-activating activity (FXAA) was determined by a chromogenic assay in normal and malignant breast tissue. FXAA was found in all tissue (n = 38) irrespective of pathology, and the activity of normal tissue was similar to that of tumours. FXAA correlated with tissue hemoglobin in normal breast (p less than 0.02) but not in tumours. FXAA was markedly reduced by aluminium hydroxide, barium citrate, anti-human factor VII, DFP, PMSF and phospholipase C, but was unaffected by iodoacetamide and mercuric chloride. It is concluded that FXAA is a serine protease with the properties of a tissue factor-factor VII complex. FXAA occurs in normal and malignant breast tissue, although the 'normal' activity may be an artefact of the homogenization process.
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PMID:Factor X-activating procoagulant in normal and malignant breast tissue. 228 55

A new method has been developed to analyze the primary products of phospholipid peroxidation. The procedure utilizes the ability of phospholipase C to hydrolyze phospholipid hydroperoxides to their corresponding diacylglycerol derivatives. 1-Palmitoyl-2-linoleoylphosphatidylcholine (1P,2L-GPC), 1-stearoyl-2-linoleoylphosphatidylcholine (1S,2L-GPC), and 1-stearoyl-2-arachidonylphosphatidylcholine (1S,2A-GPC) were autoxidized. The diacylglycerol hydroxides derived from the phosphatidylcholine hydroperoxides were separated by reverse-phase high-pressure liquid chromatography (RP-HPLC) and normal-phase high-pressure liquid chromatography (NP-HPLC). 1P,2L-diglyceride (1P,2L-DG) and 1P,2A-DG products were easily separated from 1S,2L-DG and 1S,2A-DG products by RP-HPLC. The linoleate diglyceride oxidation mixture was separated into the 13-trans/cis, 13-trans/trans, 9-trans/cis, and 9-trans/trans isomers by NP-HPLC. Likewise, 1P,2A-DG and 1S,2A-DG oxidation products were resolved into the 15-trans/cis, 15-trans/trans, 12-trans/cis, 11-trans/cis, 9-trans/cis, 8-trans/cis, and 5-trans/cis isomers. In both of the above cases, the 1,2-diacylglycerol isomers could be separated from the 1,3 isomers. Moreover, the diastereomers of the 9-, 8-, and 5-hydroxides could be separated. Each of the diacylglycerol oxidation products was characterized by (1) proton nuclear magnetic resonance (proton NMR), (2) electron ionization-mass spectrometry (EI-MS), and (3) NP-HPLC of the corresponding fatty acids. The diacylglycerol analysis provided the same results for the autoxidation of 1P,2L-GPC as the fatty acid methyl ester analysis. In addition, when 1S,2A-GPC was autoxidized in the presence of 5% alpha-tocopherol, both diastereomers of the 5-hydroxide were observed in the same proportions as the other hydroxides.
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PMID:A phospholipase C protocol for phospholipid peroxidation analysis. 297 43

The role of the gastric nonwettable hydrophobic layer (surfactant) was investigated in the mucosal protection against the damage induced by ethanol in the rat. Although aluminium hydroxide inhibited the development of ethanol-produced gastric hemorrhagic lesions, it did not increase the mucosal phospholipid content. Ambroxol, a known stimulant of pulmonary surfactant production, protected the gastric mucosa against ethanol by increasing the phospholipid content. Surface-active compounds such as dimethyl polysiloxane also inhibited the development of gastric injuries caused by ethanol in a dose-dependent manner. The essential phospholipid-containing drug (Essentiale) also showed a strong and dose-dependent cytoprotective effect. Among the possible constituents of the gastric surfactant, sphingomyelin was totally ineffective. Phosphatidylcholine, phosphatidylinositol and phosphatidylglycerol were able to reduce the extent of mucosal damage in a dose-dependent manner. Gastric mucosal injuries were significantly aggravated by pretreatment with phospholipase C. In conclusion, these results suggest that either the maintenance or the strengthening or even the replacement of the gastric nonwettable hydrophobic lining between the damaging agent and the gastric mucosa may contribute to the cytoprotective mechanism of certain compounds.
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PMID:Cytoprotective role of gastric surfactant in the ethanol-produced gastric mucosal injury of the rat. 376 92

The effects of pH, trypsin, and phospholipase C on the topographic distribution of acidic anionic residues on human erythrocytes was investigated using colloidal iron hydroxide labeling of mounted, fixed ghost membranes. After glutaraldehyde fixation at pH 6.5-7.5, the positively charged colloidal particles were bound to the membranes in small randomly distributed clusters. The clusters of anionic sites were reversibly aggregated by incubation at pH 5.5 before fixation at the same pH. These results correlate with the distribution of intramembranous particles found by Pinto da Silva (J. Cell Biol.53:777), with the exception that the distribution of anionic sites on a majority of the fixed ghosts at pH 4.5 was aggregated instead of dispersed. The randomly distributed clusters could be nonreversibly aggregated by trypsin or phospholipase C treatment of intact ghosts before glutaraldehyde fixation. Previous glutaraldehyde fixation prevented trypsin and pH induced aggregation of the colloidal iron sites. Evidence that N-acetylneuraminic acid groups are the principal acidic residues binding colloidal iron was the elimination of greater than 85% of the colloidal iron labeling to neuraminidase-treated cell membranes. Colloidal iron binding N-acetylneuraminic acid residues may reside on membrane molecules such as glycophorin, a sialoglycoprotein which contains the majority of the N-acetylneuraminic acid found on the human erythrocyte membrane.
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PMID:Anionic sites of human erythrocyte membranes. I. Effects of trypsin, phospholipase C, and pH on the topography of bound positively charged colloidal particles. 412 Dec 89

Permeability barriers must exist in transitional epithelium to prevent the free flow of water from underlying blood capillaries through the epithelium into the hypertonic urine, and such a barrier has now been demonstrated in isolated bladders. This barrier is passive in function and can be destroyed by damaging the luminal surface of the transitional epithelium with sodium hydroxide and 8 M urea solutions, by digesting it with trypsin, lecithinase C, and lecithinase D, or by treating it with lipid solvents such as Triton x 100 and saponin. From this it is concluded that the barrier depends on the integrity of lipoprotein cell membranes. The barrier function is also destroyed by sodium thioglycollate solutions, and electron microscope investigations show that sodium thioglycollate damages the thick asymmetric membrane which limits the luminal face of the superficial squamous cell. Cytochemical staining shows the epithelium to contain disulfide and thiol groups and to have a concentration of these groups at the luminal margin of the superficial cells. It thus appears that the permeability barrier also depends on the presence of disulfide bridges in the epithelium, and it is presumed that these links are located in keratin. Because of the effect of thioglycollates, both on the barrier function and on the morphology of the membrane, it is suggested that keratin may be incorporated in the thick barrier membrane. It is proposed that the cells lining the urinary bladder and ureters should be regarded as a keratinizing epitheluim.
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PMID:The permeability of rat transitional epithelium. Kertinization and the barrier to water. 590 98

Previously we showed that the expression of a Clostridium perfringens phospholipase C gene (plc) is activated by promoter upstream phased A-tracts in a low temperature-dependent manner. In this paper we characterize the interaction between the alpha subunit of C. perfringens RNA polymerase and the phased A-tracts. Hydroxyl radical footprinting and fluorescence polarization assaying revealed that the alpha subunit binds to the minor grooves of the phased A-tracts through its C-terminal domain with increased affinity at low temperature. The result provides a molecular mechanism underlying the activation of the plc promoter by the phased A-tracts.
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PMID:Phased A-tracts bind to the alpha subunit of RNA polymerase with increased affinity at low temperature. 1174 95

We have shown that 1,2-diacylglycerol hydroperoxides activate protein kinase C (PKC) as efficiently as does phorbol ester [Takekoshi S, Kambayashi Y, Nagata H, Takagi T, Yamamoto Y, Watanabe K. Activation of protein kinase C by oxidized diacylglycerol. Biochem Biophys Res Commun 1995; 217: 654-660]. 1,2-Diacylglycerol hydroperoxides also stimulate human neutrophils to release superoxide whereas their hydroxides do not [Yamamoto Y, Kambayashi Y, Ito T, Watanabe K, Nakano M. 1,2-Diacylglycerol hydroperoxides induce the generation and release of superoxide anion from human polymorphonuclear leukocytes. FEBS Lett 1997; 412: 461-464]. One of the proposed mechanisms for the formation of 1,2-diacylglycerol hydroperoxides is the hydrolysis of phosphatidylcholine hydroperoxides by phospholipase C (PLC). To confirm this hypothesis, we incubated 1-palmitoyl-2-linoleoyl-phosphatidylcholine (PLPC) liposomes containing PLPC hydroperoxides (PLPC-OOH) with Bacillus cereus PLC and found 1-palmitoyl-2-linoleoylglycerol (PLG) and its hydroperoxide (PLG-OOH) were produced. PLC hydrolyzed the two substrates without preference, as the yields of PLG and PLG-OOH were the same even though cholesterol was incorporated into liposomes to increase bilayer integrity. Phospholipid hydroperoxide glutathione peroxidase (PHGPX) reduced PLG-OOH to its hydroxide in the presence of glutathione while the conventional cytosolic glutathione peroxidase did not. These data suggest that PLC hydrolyzes oxidized biomembranes to give 1,2-diacylglycerol hydroperoxides for PKC stimulation but PHGPX may prevent neutrophil stimulation by reducing 1,2-diacylglycerol hydroperoxides to their hydroxides.
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PMID:Phospholipase C-dependent hydrolysis of phosphatidylcholine hydroperoxides to diacylglycerol hydroperoxides and its reduction by phospholipid hydroperoxide glutathione peroxidase. 1198 52


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