EC:3.1.4.3 - FACTA Search

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)

Lipid micelles were prepared by incubating a mixture of glycerides (triolein, diolein, and monoolein), and lecithin in Krebs-Ringer phosphate buffer at 37 degrees C for 30 min. It was found that adrenaline stimulated the release of free fatty acids in a lipolytic system consisting of the lipid micelles and adipose tissue lipase. Adrenaline did not increase the cyclic AMP content of the reaction mixture. Dibutyryl cyclic AMP, theophylline, and phospholipase C increased the rate of lipolysis in the system but cyclic AMP and phospholipase D did not.
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PMID:Studies on adrenaline-induced lipolysis in artificial lipid micelles. 1 41

We describe the purification and properties of Dp-1, a bacteriophage isolated from Diplococcus pneumoniae. The phage was sensitive to the organic solvents deoxycholate and Sarkosyl, and its infectivity was reduced by treatment with phospholipase C. Electron microscopy indicated the presence of a double-layered coat around the phage particles. Purified phage preparations contained lipid amounting to about 8.5% of the dry weight of the phage, and thin-layer chromatography resolved the lipids into four components. The phage had a buoyant density in CsCl of 1.47 g/cm3, and a sedimentation constant in 0.1 M NaCl of 313S. Analysis in acrylamide gel electrophoresis indicated the presence of three major proteins. Dp-1 DNA shows a density of 1.681 g/cm3. Neutralizing antisera against the phage have a low potency (K less than 120/min).
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PMID:Properties of "diplophage": a lipid-containing bacteriophage. 2 May 16

The enzyme sphingomyelinase (sphingomyelin phosphorylcholine phosphohydrolase E.C.3.1.4.12) which hydrolyzes sphingomyelin to ceramide (N-acylsphingosine) and phosphorylcholine was identified in the subcellular fractions of pig and human epidermis. The enzyme has an optimum pH of 4.5 to 5 and is activated by Triton X-100 (0.1% w/v). Approximately two-thirds of the enzyme activity in both the pig and human epidermal homogenates was in the soluble subcellular fraction and more than half of the enzyme activity in the subcellular particulate fraction was solubilized by freeze-thawing. The pH optimum suggests that epidermal sphingomyelinase is probably a lysozomal enzyme. The enzymes in both pig and human epidermis exhibited Michaelis-Menten kinetics. The soluble sphingomyelinase in pig epidermis had an apparent Km, 4.5 X 10(-5) M and that in human epidermis an apparent Km 7.7 X 10(-5) M. The pig epidermal sphingomyelinase had no special requirement for either divalent or heavy metal ions and was not inhibited by sulfydryl group-blocking agents but it was moderately inhibited by dithiothreitol. No evidence was found in either pig or human epidermis for the presence of a phospholipase C (E.C.3.1.4.3) which hydrolyzes phosphatidylcholine to diglyceride and phosphorylcholine but there was suggestive evidence of another catabolic pathway for phosphatidylcholine.
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PMID:Sphingomyelinase in pig and human epidermis. 2 35

The effects of a variety of agents on guanylate cyclase activity were tested in broken cell preparations of mammary glands from midpregnant mice. Of the agents tested, only phospholipase A, triton X-100, and an impure egg lysolecithin preparation enhanced the activity of guanylate cyclase in mammary gland homogenates; other agents, including sodium azide and phospholipase C, and purified egg lysolecithin had no effect. Phospholipase A increased the activity of guanylate cyclase in the 150,000 g pellet fractions of mammary gland homogenates, bud did not consistently enhance guanylate cyclase in the 150,000 g supernatant fractions. Phospholipase A did not appear to enhance guanylate cyclase activity by solublizing the enzyme from the 150,000 g pellet. Triton X-100, in contrast, appeared to act by solubilizing guanylate cyclase from the material present in the 150,000 g pellet. Triton X-100 increased by several fold guanylate cyclase activity in the tissue homogenates and the 150,000 g pellets, but did not consistently enhance enzyme activity in the 150,000 g supernatant. Triton X-100 had no effect on the apparent Km of guanylate cyclase.
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PMID:Effects of phospholipase A and triton x-100 on guanylate cyclase activity in mammary gland homogenates from mice. 2 72

1-Amino-4-octylpiperazine, AP 22, an antiviral agent causes lipid accumulation in nervous tissue cultures. A physicochemical membrane model was used to demonstrate the formation of a lipid-AP 22 complex hindering phospholipase A2 action. A well defined amphiphilic balance seems essential to explain the mode of action of the drug. The hydrophilic group prevents enzyme-substrate complex formation whereas the hydrophobic group allows the penetration in the lipid layer and determines the stability of the drug-lipid complex. This stability of the drug-lipid association has a direct influence on phospholipase A2 activity but does not affect phospholipase C activity. No inactivation of phospholipase A2 due to a drug-enzyme interaction could be detected.
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PMID:Phospholipase inactivation induced by an amino-piperazine derivative: a study at the lipid-water interface. 3 Aug 13

Cyclic AMP phosphodiesterase (PDE) in membrane fraction from rat cerebral cortex was activated by Triton X-100, and treatment at alkaline pH and with phospholipase C. These results suggest that membrane PDE exists in a latent form and is influenced by microenvironmental changes within the membrane. Furthermore, the PDE, unlike soluble enzyme, is not influenced by a protein activator and Ca++.
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PMID:Possible regulation of membrane-associated cyclic AMP phosphodiesterase in rat cerebral cortex by lipids. 3 Dec 95

Plasma membrane preparations from KA31 (mouse) cells contained receptors for the binding of Rauscher murine leukemia virus (R-MuLV) envelope glycoprotein, gp70. This binding was demonstrated by gel filtration of a mixture of the microsomal fraction of the cells and 125I-labeled gp70. A rapid and convenient assay was developed to measure the complex formation between the membrane receptors and gp70 involving specific precipitation of the complex by 3 to 4% polyethylene glycol. The complex formation was responsive to the concentrations of both the receptor and gp70 and also to changes in temperature and pH. The gp70 binding was a noncooperative, saturable process, and an association constant of 3.5 X 10(8) M-1 was estimated from the binding data. The complex formation was reversible and a near-total exchange of 125I-labeled gp70 in the complex was achieved by incubation with excess of unlabeled gp70. The complex formation was inhibited by protein denaturing agents, guanidine-hydrochloride and urea. Pretreatment of the membrane fractions with either chymotrypsin or phospholipase C led to a loss of the membrane-associated receptor activity, indicating that a lipoprotein structure was important for the receptor function, consistent with the observation that nonionic detergents strongly inhibited the complex formation.
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PMID:Characterization of Rauscher murine leukemia virus envelope glycoprotein receptor in membranes from murine fibroblasts. 3 3

After alkaline extraction, purified subsynaptic fragments isolated from Torpedo electric tissue exhibit on sodium dodecyl sulfate/polyacrylamide gel electrophoresis predominant peptides of apparent Mr 41,000, 50,000, and 65,000 (i.e., the peptides characteristic of the nicotinic receptor purified and isolated in detergent solutions). The peptide of Mr 43,000 that is also found in the isolated postsynaptic membranes is recovered in the supernatant after alkaline extraction. The alkaline-extracted membranes were functionally intact, as demonstrated by the following criteria. The kinetics of binding of [3H]acetylcholine in the presence and absence of 30 micron carbamoylcholine to occupy acetylcholine binding sites, [14C]-meproadifen [2-(diethylmethylaminoethyl)-2,2-diphenylvalerate iodide ] was bound with a dissociation constant, KD, of 0.3 +/- 0.1 micron to 0.3 +/- 0.1 site per [3H]alpha-toxin site. This binding was displaced by perhydrohistrionicotoxin. The carbamoylcholine-stimulated efflux of 22Na+ from the Torpedo vesicles were preserved after alkaline extraction. It is concluded that not only the acetylcholine binding site, but also the local anesthetic binding site, must be associated with the peptides of the cholinergic receptor itself and not that of Mr 43,000. Those peptides remaining after alkaline extraction are also sufficient for permeability control.
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PMID:Acetylcholine and local anesthetic binding to Torpedo nicotinic postsynaptic membranes after removal of nonreceptor peptides. 3 54

Binding sites for prolactin were identified in a plasma-membrane-enriched fraction isolated from livers of mature female rats. 125I-labelled sheep prolactin prepared by the lactoperoxidase procedure retained the same molecular integrity and binding affinity as the native hormone at physiological pH. The receptors bound prolactin from different species, whereas non-lactogenic hormones were not bound. The binding of 125I-labelled sheep prolactin was activated equally by bivalent and univalent cations, bivalent cations exerting their maximal effect at much lower concentrations. The association of 125I-labelled sheep prolactin with the receptor was a time- and temperature-dependent process. Partial dissociation was detected. The binding of 125I-labelled sheep prolactin was strongly influenced by pH, with an optimum observed at pH 6.5. Receptor activity was destroyed by Pronase and phospholipase C, whereas neuraminidase increased binding. Treatment of the membranes by ribonuclease and deoxyribonuclease did not affect the binding. Binding of 125I-labelled sheep prolactin was inhibited by p-chloromercuribenzoic acid, dithiothreitol and by brief exposure to high temperatures. Scatchard analysis of the binding of 125I-labelled sheep prolactin to receptors indicated that prolactin has a high affinity for its receptor. Binding of prolactin to liver membranes showed some properties different from those observed with mammary cells. Binding by these tissues differed in pH optimum, in effects of ions, and in response to neuraminidase.
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PMID:Characterization of prolactin binding by membrane preparations from rat liver. 3 84

The role of phospholipids in the binding of [3H]tetrodotoxin to garfish olfactory nerve axon plasma membrane was studied by the use of purified phospholipases. Treatment of the membranes with low concentrations of either phospholipase A2 (Crotalus adamanteus and Naja naja) or phospholipase C (Bacillus cereus and Clostridium perfringens) resulted in a marked reduction in tetrodotoxin binding activity. A 90% reduction in the activity occurred with about 45% hydrolysis of membrane phospholipids by phospholipase A2, and with phospholipase C the lipid hydrolysis was about 60--70% for a 70--80% reduction in the binding activity. Phospholipase C from B. cereus and Cl. perfringens had similar inhibitory effects. Bovine serum albumin protected the tetrodotoxin binding activity of the membrane from the inhibitory effect of phospholipase A2 but not from that of phospholipase C. In the presence of albumin about 25% of the membrane phospholipids remained unhydrolyzed by phospholipase A2. It is suggested that these unhydrolyzed phospholipids are in a physical state different from the rest of the membrane phospholipids and that these include the phospholipids which are directly related to the tetrodotoxin binding component. It is concluded that phospholipids form an integral part of the tetrodotoxin binding component of the axon membrane and that the phospholipase-caused inhibition of the binding activity is due to effects resulting from alteration of the phospholipid components.
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PMID:Effect of purified phospholipases on the binding of tetrodotoxin to axon plasma membrane. 3 72

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