EC:3.1.3.1 - FACTA Search

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasmids encoding mercury resistance carried by Pseudomonas aeruginosa PAO1161 and PA103 were found to be involved in regulating the secretion of protease, phospholipase C, and alkaline phosphatase. Previously, mutations in Pseudomonas strains that caused pleiotropic effects on the production of extracellular enzymes were mapped to the bacterial chromosome. We show that pleiotropic changes in extracellular enzyme production can also be regulated by plasmids. In this study, the effects on secretion of exoenzymes by two mercury resistance plasmids, FP2 from PAO1161 and pRLW103 from PA103, were assayed in P. aeruginosa PAO1 and PAO18. The introduction of either plasmid into PAO1 resulted in a significant decrease in exoprotease production. Additionally, pRLW103 significantly increased the production of alkaline phosphatase by both strains. Phospholipase C was produced only in strain PAO18 containing the pRLW103 plasmid. FP2 had no effect on alkaline phosphatase or phospholipase C production in either strain and was found to decrease exoprotease secretion only in strain PAO1. The results indicate the P. aeruginosa mercury resistance plasmids vary in their ability to modify exoenzyme expression, and this ability is influenced by the host strain.
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PMID:Effects of FP2 and a mercury resistance plasmid from Pseudomonas aeruginosa PA103 on exoenzyme production. 190 22

Two alternative procedures are described for the quantitative determination of phosphatidylcholine in a flow-injection system utilizing immobilized enzymes. Phospholipase C from Bacillus cereus and phospholipase D from cabbage were covalently bound to the surface of controlled-pore glass beads and the enzyme-derivatized beads were packed in small columns. In the first procedure, the phospholipase C column was connected with a second column containing coimmobilized alkaline phosphatase and choline oxidase. In the alternative procedure, the column packed with immobilized phospholipase D was connected with a column packed with immobilized choline oxidase. The hydrogen peroxide produced through the action of choline oxidase in both flow-injection systems was detected amperometrically. Both procedures are suitable for an accurate and rapid quantitation of phosphatidylcholine. The sensitivity of the method based on phospholipase C and alkaline phosphatase is higher than that using phospholipase D. Quantitation of phosphatidylcholine at the nanomole level can be easily obtained using the first method.
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PMID:Determination of phosphatidylcholine in a flow injection system using immobilized enzyme reactors. 220 Mar 5

Human platelet plasma membranes incubated in the presence of [gamma-32P]ATP and 15 mM MgCl2 incorporated radioactivity mostly into phosphatidylinositol 4,5-bisphosphate (PIP2) and phosphatidylinositol 4-phosphate (PIP), which represented together over 90% of the total lipid radioactivity. After washing, reincubation of prelabelled membranes revealed some hydrolysis of the two compounds by phosphomonoesterase(s), as detected by the release of radioactive inorganic phosphate (Pi) from the two phospholipids. This degradation attained 40%/30 min for PIP in the presence of 2 mM calcium and cytosol. The effect of calcium was observed at concentrations equal to or greater than 10(-4) M. In no case did calcium alone facilitate the formation of inositol 1,4,5-trisphosphate (IP3) and inositol 1,4-bisphosphate (IP2). In contrast, simultaneous addition of 2 mM calcium and 2 mg/ml sodium deoxycholate promoted the formation of IP3 and IP2, indicating phosphodiesteratic cleavage of PIP2 and PIP. Phospholipase C activity was detected at calcium concentrations as low as 10(-7) M, in which case PIP2 hydrolysis was slightly more pronounced compared to PIP. Addition of cytosol increased to some extent the phospholipase C activity, suggesting that the low amount of enzyme remaining in the membrane is sufficient to promote submaximal degradation of PIP2 and PIP. We conclude that platelet polyphosphoinositides are present in the plasma membrane in a state where they remain inaccessible to phospholipase C, which is still fully active even at basal calcium concentrations, i.e., 10(-7) M. These results support the view that phosphodiesteratic cleavage of PIP2 promotes and thus precedes calcium mobilization brought about by IP3. The in vitro model presented here may prove very useful in future studies dealing with the mechanism rendering polyphosphoinositides accessible to phospholipase C attack upon agonist-receptor binding.
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PMID:Studies of endogenous polyphosphoinositide hydrolysis in human platelet membranes. Evidence that polyphosphoinositides remain inaccessible to phosphodiesterase in the native membrane. 300 80

Phospholipase C cleaves phosphatidylinositol 4,5-bisphosphate to form both inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) and inositol 1,2-cyclic 4,5-trisphosphate (cInsP3). The further metabolism of these inositol trisphosphates is determined by two enzymes: a 3-kinase and a 5-phosphomonoesterase. The first enzyme converts Ins(1,4,5)P3 to inositol 1,3,4,5-tetrakisphosphate (InsP4), while the latter forms inositol 1,4-bisphosphate and inositol 1,2-cyclic 4-bisphosphate from Ins(1,4,5)P3 and cInsP3, respectively. The current studies show that the 3-kinase is unable to phosphorylate cInsP3. Also, the 5-phosphomonoesterase hydrolyzes InsP4 with an apparent Km of 0.5-1.0 microM to form inositol 1,3,4-trisphosphate at a maximal velocity approximately 1/30 that for Ins(1,4,5)P3. The apparent affinity of the enzyme for the three substrates is InsP4 greater than Ins(1,4,5)P3 greater than cInsP3; however, the rate at which the phosphatase hydrolyzes these substrates is Ins(1,4,5)P3 greater than cInsP3 greater than InsP4. The 5-phosphomonoesterase and 3-kinase enzymes may control the levels of inositol trisphosphates in stimulated cells. The 3-kinase has a low apparent Km for Ins(1,4,5)P3 as does the 5-phosphomonoesterase for InsP4, implying that the formation and breakdown of InsP4 may proceed when both it and its precursor are present at low levels. Ins(1,4,5)P3 is utilized by both the 3-kinase and 5-phosphomonoesterase, while cInsP3 is utilized relatively poorly only by the 5-phosphomonoesterase. These findings imply that inositol cyclic trisphosphate may be metabolized slowly after its formation in stimulated cells.
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PMID:The metabolism of tris- and tetraphosphates of inositol by 5-phosphomonoesterase and 3-kinase enzymes. 302 66

We describe methods for automated enzymatic measurement of lecithin, sphingomyelin, and phosphatidylglycerol in amniotic fluid. Phospholipase C (EC 3.1.4.3) and sphingomyelin phosphodiesterase (EC 3.1.4.12) are reacted with lecithin and sphingomyelin, respectively, to liberate phosphocholine. Phosphocholine is then reacted with alkaline phosphatase, choline oxidase, peroxidase, and 4-aminoantipyrine to form a colored complex, for which the absorbance at 500 nm is measured with a centrifugal analyzer. Phosphatidylglycerol is hydrolyzed by phospholipase D (EC 3.1.4.4) to form glycerol, which is subsequently reacted with ATP and NAD+ in the presence of glycerol kinase and glycerol-3-phosphate dehydrogenase to yield NADH. The absorbance of the NADH formed is measured at 340 nm. These methods provide a simple, rapid, and accurate alternative to thin-layer chromatography for determination of phospholipids in amniotic fluid for assessment of fetal lung maturity.
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PMID:Automated enzymatic measurement of lecithin, sphingomyelin, and phosphatidylglycerol in amniotic fluid. 380 1

We describe a method for the direct enzymatic determination of phosphatidylcholine and sphingomyelin in serum. Phospholipase C (EC 3.1.4.3) and sphingomyelinase (EC 3.1.4.12) are used to hydrolyze phosphatidylcholine and sphingomyelin, respectively, with high specificity; alkaline phosphatase (EC 3.1.3.1) is used to cleave inorganic phosphorus. The choline group, after oxidation with choline oxidase (EC 1.1.3.17), is detected with 4-aminoantipyrine. Alternatively, phosphorus is assayed with metavanadate. The excellent agreement between results of this modification of a procedure described by Artiss et al. (Microchem. J. 26: 1017, 1980) for amniotic fluid and of the conventional thin-layer chromatographic method makes this an attractive method for determination of both phospholipid subclasses in serum.
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PMID:Enzymic assay for phosphatidylcholine and sphingomyelin in serum. 634 Aug 53

The effect of gossypol on the activities of 10 acrosomal enzymes of the rabbit sperm was evaluated. Acrosin, Azocoll proteinase, neuraminidase, and arylsulfatase were significantly inhibited or completely inactivated by 12-76 microM gossypol. Hyaluronidase, beta-glucuronidase, and acid phosphatase were inhibited only at a higher concentration of gossypol (380 microM). Phospholipase C, alkaline phosphatase, and beta-N-Acetyl glucosaminidase were not inhibited even at 380 microM gossypol. Gossypol was found to be a noncompetitive inhibitor of arylsulfatase with a Ki of 120 microM. The inhibition was reversible and dose-dependent. As the acrosomal enzymes were more sensitive to the inhibition by gossypol compared to sperm enzymes involved in glycolysis or energy production, these assays may serve as a more reliable indicator for monitoring the occurrence of gossypol-induced sterility.
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PMID:Inhibition of rabbit sperm acrosomal enzymes by gossypol. 776 16

A new micromethod for the determination of sphingomyelin in samples suspended in aqueous solutions, and modified micromethods for determining phosphatidylcholine and phosphatidylglycerol were used to determine phosphatidylcholine and sphingomyelin (detection limits of 1.8 mumol/l), and phosphatidylglycerol (detection limit of 2.3 mumol/l) in lipid dispersions, membranes from sheep erythrocytes and platelets, and pulmonary surfactants from rats of different ages and rats maintained under normobaric hyperoxia for 2 days prior to their sacrifice. The procedures are easy to perform, accurate, require less sample than conventional methods and can also be applied directly to aqueous samples. Phospholipase C and sphingomyelinase were used to release phosphorylcholine from phosphatidylglycerol and sphingomyelin, respectively. The choline released from phosphorylcholine by alkaline phosphatase is reconverted to phosphorylcholine by ATP and choline kinase. In the phophatidylglycerol determination, phospholipase D was used to release glycerol and phosphatidate. The glycerol formed was converted to glycerolphosphate using ATP and glycerol kinase. In all cases, the ADP thus formed was determined by following the enzymatic conversion of NADH to NAD at 340 nm in an coupled pyruvate kinase/lactate dehydrogenase system. Significant variations in the phospholipid composition of rat pulmonary surfactant were found during development; in particular there was an increase in the phosphatidylglycerol content of adult rats as compared with younger rats. Hyperoxia produced changes in the phosphatidylglycerol content of surfactant from adult rats, but not from 2-day old rats.
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PMID:Enzymatic determination of phosphatidylcholine, sphingomyelin and phosphatidylglycerol in lipid dispersions, blood cell membranes and rat pulmonary surfactant. 870 43

A sensitive TLC method is reported for the determination of the platelet-activating factor (PAF) and other phospholipids in human tears. Tear samples absorbed on filter-paper were subjected to diatomite column extraction with chloroform-methanol. The eluent containing phospholipids was spotted on a silica gel plate. After removing lipids other than phospholipids by pre-development with hexane-diethyl ether (4 + 1 v/v), individual phospholipid separation was carried out by development with chloroform-methanol-water (65 + 35 + 7 v/v). Phospholipase C and then alkaline phosphatase solutions were sprayed on the TLC plate at 45 degrees C to liberate phosphate from each phospholipid. By spray application of a mixture of ammonium molybdate and Malachite Green, the liberated phosphates appeared as blue-green spots of molybdophosphate-Malachite Green aggregate on a yellow-brown background. The absorbance of each spot on the plate was measured at 620 nm with a densitometer. The peak area was found to be linearly related to PAF content in the range 2-100 pmol per spot, the RSD being 2% (n = 7). Approximately 86% of standard PAF added to tears was recovered. By this method, lysophosphatidylcholine (lysoPC), phosphatidylcholine (PC) and phosphatidylethanolamine (PE) in human tears could also be detected with high sensitivity. Each phospholipid in healthy human tears showed a nearly constant content; PAF, lysoPC, PC and PE were present at levels of 26.2, 42.3, 10.0 and 19.7%, respectively.
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PMID:Sensitive densitometry for the determination of platelet-activating factor and other phospholipids in human tears. 900 9

Phospholipase C (PLC) was purified to homogeneity from the culture filtrate of Bacillus cereus (65-fold, 540 U/mg protein) and B. thuringiensis (76-fold, 306 U/mg protein) by conventional techniques of enzyme purification. The purified enzymes have the molecular mass of 34 kDa and 38 kDa respectively, as determined by SDS-PAGE. Both the PLCs exhibited identical sensitivity to pH, temperature, cations, anions and inhibitors like glutathione and p-chloromercuribenzoate. PLC-Bc showed a preference for phosphatidylinositol, while PLC-Bt favoured phosphatidylcholine as the substrate. Although both the enzymes were able to hydrolyze pure phosphatidylinositol, distinct differences were observed in their activity on phosphatidylinositol-anchored membrane proteins. PLC-Bc cleaved and released alkaline phosphatase, a GPI-anchored marker enzyme from microsomal membranes to a greater extent, than PLC-Bt. Experiments with sperm membranes, followed by SDS-PAGE revealed that the pattern of proteins released from their GPI-anchors by PLC-Bc and PLC-Bt were dissimilar. Although some proteins were cleaved in common by both PLCs, some others including a prominent 57 kDa protein were resistant to PLC-Bt, but sensitive to cleavage by PLC-Bc. The type of modification in the GPI anchor, special environment on membranes, and relative charge of host plasma membrane to the charge of PLC may be the factors that are responsible for the differential action of two enzymes.
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PMID:Phospholipase C from two bacterial strains acts differently on pure phospholipids and membrane bound glycosylphosphatidylinositol (GPI) anchors. 2392 68

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