Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The synthesis of a major outer membrane protein, OmpP, in Vibrio parahaemolyticus was induced by growth in media deficient in phosphate. The gene, ompP, encoding this protein was cloned. Synthesis of OmpP in Escherichia coli was regulated by the availability of phosphate, and this control required the function of pho regulatory genes of E. coli. Analysis of gene fusion strains constructed by mutagenesis with transposon mini-Mulux revealed that ompP was transcriptionally regulated in V. parahaemolyticus. Impaired growth of a strain with an ompP defect was observed in media which contained large linear polyphosphates as the phosphate source. This and other evidence suggested that OmpP functions as a porin channel for the entry of phosphate into the cell. A number of other proteins or activities were induced by phosphate limitation including hemolysin, phospholipase C, and phosphatase activities. A regulatory locus controlling expression of phosphate-regulated genes was identified and cloned. This regulatory locus cloned from V. parahaemolyticus was shown to complement E. coli strains with defects in pho regulatory genes.
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PMID:Phosphate regulation of gene expression in Vibrio parahaemolyticus. 303 39

Membrane anchoring of proteins by a covalently attached glycosyl-phosphatidylinositol moiety has been reported in many different eukaryotic cells including parasite protozoa. The diversity of proteins in which this phospholipid attachment is found suggests that it is functionally important and perhaps also functionally pleiotropic. Studies on the Thy-1 antigen of murine lymphocytes indicate that it can facilitate the lateral mobility of membrane proteins. It can also permit the rapid and specific release of the anchored proteins from the membrane following cleavage by a phosphatidylinositol-specific phospholipase C (PI-PLC). Here we show that this type of anchoring may be involved in the regulation of an enzymatic activity. PI-PLC releases a Plasmodium falciparum membrane protein of relative molecular mass (Mr) 76K (p76) from intact merozoites or isolated schizont membranes and induces a proteolytic activity associated with its soluble form. Endogenous activation of the proteolytic activity of p76 appears to occur at the end of the schizogony and could initiate a cascade of biochemical events associated with merozoite maturation.
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PMID:Induction of the proteolytic activity of a membrane protein in Plasmodium falciparum by phosphatidyl inositol-specific phospholipase C. 328 Oct 25

Regulation of protein kinase C in the parathyroid gland was investigated by testing the effects of phorbol ester, exogenous phospholipase C, and low and high calcium concentrations on enzyme activity. Treatment of bovine parathyroid cells with phorbol ester, which activates protein kinase C directly, and with phospholipase C, which produces diacylglycerol, an activator of protein kinase C, significantly stimulated protein kinase C activity. Both agents also enhanced the release of parathyroid hormone. Acute exposure of bovine parathyroid cells to low extracellular calcium (0.5 mM) caused a 5- to 6-fold increase in protein kinase C activity associated with the particulate fraction. In contrast, high extracellular calcium (1.75 mM and 2.5 mM) markedly decreased membrane protein kinase C activity. These data suggest that the effects of extracellular calcium on parathyroid hormone secretion are due, at least in part, to regulation of protein kinase C activity in the parathyroid-cell membrane.
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PMID:Regulation of protein kinase C by extracellular calcium in bovine parathyroid cells. 338 42

The variant surface glycoprotein (VSG) of the African trypanosomes is the major membrane protein of the plasma membrane of the bloodstream stage of the parasite. It is anchored in the plasma membrane by a glycolipid covalently bound to the C-terminal amino acid of the protein. The VSG is released through the action of a phosphatidylinositol-specific phospholipase C that removes dimyristoylglycerol and exposes the carbohydrate antigenic determinant common to all VSGs. Promastigotes of Leishmania have a predominant surface glycoprotein, termed p63, that is anchored in the plasma membrane in a similar way. A water-soluble form of p63 can be generated through the action of phosphatidylinositol-specific phospholipase C from trypanosomes or from Bacillus cereus. Either treatment exposes on the Leishmania p63 an antigenic determinant recognized by antibody prepared against the trypanosomal crossreacting determinant. These findings indicate that p63 and VSG have a common membrane anchor and are structurally related.
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PMID:Leishmania and Trypanosoma surface glycoproteins have a common glycophospholipid membrane anchor. 346 72

The technique of phase separation in a solution of the non-ionic detergent Triton X-114 was used to measure the enzymatic conversion of a membrane protein to a soluble product via removal of a hydrophobic moiety. The substrate was the major surface protein (p63), of Leishmania promastigotes and the enzyme was a phospholipase C purified from Trypanosoma brucei. This membrane-bound enzyme is responsible for the cleavage of the hydrophobic lipid membrane anchor of the variant surface glycoprotein (VSG), of T. brucei. The assay is fast, simple and uses small amounts of reagents. It has been used to determine the pH optimum, thermal resistance, and the sensitivity to inhibitors of the trypanosomal phospholipase.
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PMID:An assay of membrane-bound Trypanosoma brucei phospholipase using an integral membrane protein substrate and detergent phase separation. 357 48

Phosphatidylinositol (PI) specific phospholipase C treatment of rabbit platelets caused 95% release of acetylcholinesterase in the supernatant and 4 to 6% hydrolysis of membrane PI in 2 min. Under these conditions there was no cell lysis as monitored by lack of lactate dehydrogenase activity in the medium. The phospholipase C had no activity towards phosphatidylinositol-4- phosphate and phosphatidylinositol-4,5-bis phosphate. Platelets pretreated with the phospholipase C responded normally to thrombin and platelet activating factor. It is concluded that acetylcholinesterase exists in specific interaction with PI in platelet membranes. Further, the membrane protein release phenomenon caused by the PI-specific phospholipase C did not effect the physiological responsiveness of platelets. Possible implications of these findings to the linkage between PI and membrane enzyme are also discussed.
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PMID:Action of phosphatidylinositol specific phospholipase C on platelets: nonlytic release of acetylcholinesterase, effect on thrombin and PAF induced aggregation. 395 30

(1) The total phospholipid content of a gradient purified (K+ + H+)-ATPase preparation from pig gastric mucosa is 105 mumol per 100 mg protein, and consists of 29% sphingomyelin, 29% phosphatidylcholine, 28% phosphatidylethanolamine, 10% phosphatidylserine and 4% phosphatidylinositol. The cholesterol content corresponds to 50 mumol per 100 mg protein. (2) Treatment with phospholipase C (from Clostridium welchii and Bacillus cereus) results in an immediate decrease of the phosphate content. Up to 50% of the phospholipids are hydrolyzed by each phospholipase C preparation alone, without further hydrolysis by increased phospholipase concentration or prolonged incubation time. Combined treatment with the two phospholipase C preparations, sequentially or simultaneously, hydrolyzes up to 65% of the phospholipids. (3) The (K+ + H+)-ATPase and K+ stimulated p-nitrophenylphosphatase activities are decreased proportionally with the total phospholipid content, indicating that these enzyme activities are dependent on phospholipids. (4) Phospholipase C treatment does not change optimal pH, Km value for ATP and temperature dependence of the gastric (K+ + H+)-ATPase, but slightly decreases the Ka value for K+. (5) Phospholipase C treatment lowers the AdoPP[NH]P binding and phosphorylation capacities, suggesting that inactivation occurs primarily on the substrate binding level. (6) Most of the results can be understood by assuming that hydrolysis of the phospholipids by phospholipase C leads to aggregation of the membrane protein molecules and complete inactivation of the aggregated ATPase molecules.
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PMID:Studies on (K+ + H+)-ATPase. IV. Effects of phospholipase C treatment. 627 55

A new major outer membrane protein, P, was induced in Pseudomonas aeruginosa PAO1 upon growth in medium containing 0.2 mM or less inorganic phosphate. Studies with media containing different levels of phosphate and with mutants of PAO1 suggested that protein P was coregulated with alkaline phosphatase and phospholipase C. Protein P was substantially purified and shown to form sodium dodecyl sulfate-resistant oligomers on polyacrylamide gels. The incorporation of purified protein P into artificial lipid bilayers resulted in an increase of the membrane conductance by many orders of magnitude. Single-channel experiments demonstrated that protein P channels were substantially smaller than all previously studied porins from P. aeruginosa and enteric bacteria, with an average single-channel conductance in 1 M NaCl of 0.25 nS. The protein P channel was apparently not voltage induced or regulated. The results of single-channel conductance experiments, using a variety of different salts, allowed a minimum channel diameter estimate of 0.7 nm. Furthermore, from these results it was concluded that the protein P channel was highly specific for anions. Zero-current potential measurements confirmed that protein P was at least 30-fold more permeable for Cl- than for K+ ions. The possible biological role of the small, anion-specific protein P channels in phosphate uptake from the medium is discussed.
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PMID:Outer membrane protein P of Pseudomonas aeruginosa: regulation by phosphate deficiency and formation of small anion-specific channels in lipid bilayer membranes. 627 69

Sarcolemmal membranes prepared by "gas dissection" from monolayers of cultured neonatal rat heart cells were studied with respect to their ability to bind calcium. Lanthanum displacement of calcium was 168 +/- 7 nmol/mg sarcolammel protein. This represents 3.21 mmol Ca/kg dry weight original cells on the basis of the measured membrane protein: dry cell weight ratio of 19.1 g/kg. Lanthanum-displaceable calcium from whole cells was essentially equal (3.32 mmol/kg dry weight), which indicates that all calcium displaceable from whole cells by lanthanum is localized to sarcolemmal sites. The potency of a series of divalent cations for calcium displacement from the sarcolemma was according to similarity of their crystal radii to that of calcium (cadmium greater than manganese greater than magnesium). This order was the same for the cations' ability to displace calcium from whole cells and for their ability to uncouple excitation from contraction in neonatal papillary muscle. The membranes were treated with four enzymes: phospholipase A2, phospholipase C, phopholipase D, and neuraminidase. Phospholipase A2 and phospholipase D produced significantly increased calcium-binding. The increased binding secondary to phospholipase A2 treatment was eliminated by an albumin wash which was indicative of binding to the fatty acid product of hydrolysis. The increase after phospholipase D treatment can be attributed to an increase in phosphatidate, with attendant increase in net anionic charge on the membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of cations, phospholipases, and neuraminidase on calcium binding to "gas-dissected" membranes from cultured cardiac cells. 631 48

Nonspecific lipid transfer protein accelerated cholesterol exchange from brush border vesicles according to a biphasic time course, but sonicated vesicles made from brush border phospholipids and glycosphingolipids showed a single phase exchange. Removal of surface protein with papain or opening brush border vesicles with deoxycholate did not abolish the biphasic exchange pattern. In brush border vesicles treated with cholesterol oxidase, 21 +/- 10% of the free cholesterol was oxidized rapidly, and the remaining cholesterol was oxidized at a slower rate. Opening vesicles with sodium deoxycholate or treatment with phospholipase C, which degraded 55% of the phospholipids, did not increase the size of the rapidly oxidizable cholesterol pool. The rapidly exchangeable and the rapidly oxidizable cholesterol pools appear to represent the same fraction. In double-labeled brush border vesicles 27 +/- 9% of the cholesterol is present in a readily accessible pool, which slowly equilibrates with the remaining membrane cholesterol. The fractional turnover rate of cholesterol in the readily accessible pool equals 0.07 +/- 0.04 h-1 and is increased to 3.35 h-2 by 12 micrograms/ml of nonspecific lipid transfer protein. The heterogeneous distribution of cholesterol in the intact brush border vesicles may not reflect an inside-outside distribution or interaction of cholesterol with membrane lipids but rather an association of more than two-thirds of the membrane cholesterol with a membrane protein fraction.
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PMID:Heterogeneity of rabbit intestine brush border plasma membrane cholesterol. 708 41


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