UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An enzyme with phospholipase Al activity was purified some 500-fold from Escherichia coli cell homogenates. Lipase, phospholipase A2, and lysophospholipase copurified with phospholipase A1 and the four activities displayed similar susceptibility to heat treatment. The phospholipase A and lipase activities were recovered in a single band when partially purified preparations were subjected to SDS gel electrophoresis. Phospholipase, lysophospholipase, and lipase all required Ca2+ for activity. Phosphatidylcholine, phosphatidylethanolamine, and their lyso analogues were all hydrolysed at equivalent rates and these were substantially greater than the rate of methylpalmitate or tripalmitoylglycerol hydrolyses under similar incubation conditions. Evidence for a direct but slow hydrolysis of the ester at position 2 of phosphoglyceride was obtained; however, release of fatty acid from this position is mostly indirect involving acyl migration to position 1 and subsequent release of the translocated fatty acid. Escherichia coli, therefore, appears to possess a lipolytic enzyme of broad substrate specificity acting mainly at position 1 but also at position 2 of phosphoglycerides and on triacylglycerols and methyl fatty-acid esters.
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PMID:Partial purification of a lipolytic enzyme from Escherichia coli. 35 85

The enzymatic basis for cod digestive lipolysis has been investigated. Lipase activity was found in aqueous extracts from pyloric caeca as well as in pancreatic tissue surrounding the caeca and the bile duct. A bile salt-dependent lipase (BSDL) was purified from either defatted powder of cod pyloric caeca or aqueous pancreatic extracts by combined affinity chromatography on cholate-Sepharose and gel filtration on Sephacryl S-200 HR. By SDS-PAGE analysis the molecular weight of purified cod BSDL was estimated to 60 kDa. The enzyme was totally dependent on bile salts for hydrolysis of insoluble fatty acid esters. Antiserum raised against purified cod BSDL reacted specifically with selected mammalian pancreatic BSDLs by Western blot analysis. Results presented in this paper strongly suggest that the bile salt-dependent lipase is the only pancreatic enzyme involved in lipid digestion in cod. The enzyme has been characterized and compared to human pancreatic BSDL with respect to substrate specificity, temperature- and pH-dependence and inhibitors. Both soluble and insoluble fatty acid esters were hydrolysed and the enzyme was 1,3-specific in hydrolysis of triolein. The enzyme was inhibited by di-isopropyl fluorophosphate and phenyl boronic acid, but not significantly by phenyl methyl sulfonyl fluoride. The cod BSDL is probably homologous to mammalian pancreatic BSDLs.
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PMID:Pancreatic bile salt dependent lipase from cod (Gadus morhua): purification and properties. 154 34

A Penicillium simplicissimum strain has been found to produce an inducible extracellular lipase. Triolein was the best inducer for the enzyme production with the highest activity being achieved after 48 h of incubation. The purified lipase showed a molecular weight of 56,000 by SDS-PAGE. The enzyme exhibited a high ratio of apolar amino acids. The lipase was stable in the pH range of 5-7 and at 50 degrees C for 15 min. The optimum assay conditions were 37 degrees C and pH 5.0. The enzyme showed a high stability in water immiscible organic solvents. Lipase from P. simplicissimum is nonspecific and hydrolyses each of the three bonds of triacylglycerols.
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PMID:Purification and properties of lipase from Penicillium simplicissimum. 157 66

Lipase was isolated from P. aeruginosa by ultrafiltration of sterile-filtered culture supernatant. Gel filtration on Sepharose 4B yielded a broad peak corresponding to a molecular mass range of 100 to 1000 kDa. Electron microscopy of a negatively stained lipase preparation after Sepharose 4B chromatography revealed spherical particles with diameters ranging from 5 to 20 nm. Biochemical characterization and SDS polyacrylamide gel electrophoresis suggested that these particles consisted of protein and carbohydrate including lipopolysaccharide with the major enzyme activity being lipase. Various concentrations of this lipase preparation were preincubated with human peripheral blood neutrophils and monocytes. The chemotaxis and chemiluminescence of these cells were then determined. It was shown that lipase inhibited the monocyte chemotaxis and chemiluminescence, whereas it had no or very little effect on neutrophils. The inhibitory effect was concentration dependent and was abolished by heat treatment of the enzyme at 100 degrees C. Since monocytes are one of the important cells of the host defence system the inhibition of the function of these cells may contribute to the pathogenesis of infections caused by P. aeruginosa.
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PMID:Extracellular lipase of Pseudomonas aeruginosa: biochemical characterization and effect on human neutrophil and monocyte function in vitro. 191 Jan 41

Southern blot analysis of the Geotrichum candidum genome with a cloned lipase cDNA as the probe indicated the existence of two genes on the chromosome of the fungus which are homologous to the cDNA. As expected, two forms of lipase (lipases I and II) were actually isolated by hydrophobic interaction chromatography after a multistep procedure including ammonium sulfate fractionation, anion exchange chromatography, and gel filtration of the culture filtrate. Lipase I, the first eluted fraction, was the predominant form, and more than 80% of the total activity was attributed to this form. Amino acid sequence analysis of the amino and carboxyl termini of these two enzyme preparations indicated that lipase I was the product of the lipase gene whose cDNA had previously been cloned and sequenced [Shimada et al. (1989) J. Biochem. 106, 383-388]. Lipase II, on the other hand, had similar amino acid composition, but different terminal sequences which were not found in the primary structure of lipase I deduced from the cDNA sequence. These results gave lines of evidence for the expression of truely different lipase genes and ruled out the possibility that the observed multiple forms are caused by proteolytic digestion. The molecular mass estimated by SDS-PAGE and the isoelectric point of lipase I were 64 kDa and 4.3, while those of lipase II were 66 kDa and 4.3, respectively. The two lipases had essentially the same specific activities, substrate specificities, pH stabilities, and optimal temperatures, but different pH optima and thermal stabilities.
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PMID:Separation and characterization of two molecular forms of Geotrichum candidum lipase. 234 77

The cDNA encoding the precursor of the Rhizomucor miehei triglyceride lipase was inserted in an Aspergillus oryzae expression vector. In this vector the expression of the lipase cDNA is under control of the Aspergillus oryzae alpha-amylase gene promoter and the Aspergillus niger glucoamylase gene terminator. The recombinant plasmid was introduced into Aspergillus oryzae, and transformed colonies were selected and screened for lipase expression. Lipase-positive transformants were grown in a small fermentor, and recombinant triglyceride lipase was purified from the culture broth. The purified enzymatically active recombinant lipase (rRML) secreted from A. oryzae was shown to have the same characteristics with respect to mobility on reducing SDS-gels and amino acid composition as the native enzyme. N-terminal amino acid sequencing indicated that approximately 70% of the secreted rRML had the same N-terminal sequence as the native Rhizomucor miehei enzyme, whereas 30% of the secreted rRML was one amino acid residue shorter in the N-terminal. The recombinant lipase precursor, which has a 70 amino acid propeptide, is thus processed in and secreted from Aspergillus oryzae. We have hereby demonstrated the utility of this organism as a host for the production of recombinant triglyceride lipases.
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PMID:Rhizomucor miehei triglyceride lipase is processed and secreted from transformed Aspergillus oryzae. 258 34

Lipase (triacylglycerol lipase, EC 3.1.1.3) activities have been reported previously in the lipid body and microsomal membranes of oilseed-rape (Brassica napus cv. Andor) seedlings, but conflicting data made it unclear whether there was one lipase in the lipid bodies, with the microsomal activity being attributable to fragments of lipid-body membrane, or if there were two separate lipase activities. In the present study, simultaneous characterization of the lipases under identical conditions showed they differed substantially in their pH-activity curves, kinetics and substrate specificities. (1) The kinetics of the microsomal lipase showed that the rate of lipolysis reached a plateau at concentrations above 5 mM, whereas the lipid-body lipase showed a linear increase in activity with substrate concentration up to 20 mM. (2) The pH optimum of the microsomal lipase was 7.5, whereas that of the lipid-body lipase was 9.0. The microsomal lipase was greatly inhibited at higher pH values, whereas the lipid-body lipase was much less affected. (3) Activity of the microsomal lipase was greatly diminished when substrates with longer chain length were used, and enhanced 4-fold if the substrates contained a single double bond. The lipid-body lipase was relatively unaffected by the type of fatty acid in the triacylglycerol. (4) SDS/polyacrylamide-gel electrophoresis showed little or no cross-contamination of the lipid-body and microsomal fractions. (5) The microsomal lipase activity comprised 75-80% of the total extracted.
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PMID:Characterization of lipases from the lipid bodies and microsomal membranes of erucic acid-free oilseed-rape (Brassica napus) cotyledons. 283 25

The authors summarize their work concerning the mechanism of pancreatic lipase activation. The activation of lipase by submicellar SDS concentrations was found to imitate closely enough its activation by an interface. Lipase activation was shown to be caused by changes in the rate constants for substrate chemical transformation and to involve conformational changes of the enzyme and its association. The complex of a conformationally modified lipase with the detergent, which acts as a 'structure-forming' agent, is associated with native lipase molecules setting up their active site. The mechanism of lipase activation at an interface both in vitro and in vivo is discussed.
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PMID:Catalytic activity and association of pancreatic lipase. 314 16

Lipase [triacylglycerol lipase, EC 3.1.1.3] has been purified to homogeneity from Rhizopus japonicus NR 400 by chromatography on hydroxylapatite, octyl-Sepharose and Sephacryl S-200. It showed a molecular weight of about 30,000 by SDS-PAGE and a specific activity of 68,900 units/mg protein. The enzyme catalyzed the hydrolysis of tricapryn and tricaprylin rapidly in comparison with other triglycerides. This lipase had an optimum pH of around 5, and albumin enhanced its activity between pH 3 and 8. The composition of fatty acids liberated from linseed oil by the lipase was similar to that in the case of pancreatic lipase. The lipase activity was not affected by the addition of 1 mM metal ions or bile salts. Stimulation of the lipase activity was observed upon addition of albumin to the reaction mixture. Immunotitration experiments were also performed with antibodies raised against the purified lipase.
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PMID:Purification and general properties of a metal-insensitive lipase from Rhizopus japonicus NR 400. 381 76

Rat hearts were perfused for long periods in the presence of 14C-labeled amino acids. From these hearts, postheparin-effluent and a tissue homogenate containing lipoprotein lipase and neutral lipase, respectively, were derived. Lipolytic activity and 14C-labeled protein in both preparations were characterized by affinity chromatography, immunoprecipitation and SDS-polyacrylamide gel electrophoresis. Lipase activity and 14C-labeled protein co-eluted from heparin-Sepharose 4B at 1.2 M NaCl and were inhibited and precipitated by preincubation with anti-lipoprotein lipase gamma-globulins. Gel electrophoresis of both preparations showed the presence of 14C-labeled protein with a molecular weight of 35 000. These data strongly suggest similarity between lipoprotein lipase and neutral lipase and their possible precursor-product relationship and indicate that during perfusion continuous synthesis, secretion and vascular binding of lipase molecules occur. Cycloheximide perfusion induced a dramatic decrease of lipoprotein lipase and neutral lipase activity, indicating a half-life of less than 90 min for both enzymes. Tunicamycin present during perfusion also induced a drop in lipoprotein lipase and tissue neutral lipase activity, indicating that glycosylation is necessary for secretion of lipoprotein lipase. Long-term perfusion of rat hearts in the presence of norepinephrine, glucagon or tyrosine leads to reciprocal alterations in lipoprotein lipase and neutral lipase activities, i.e., lipoprotein lipase activity increased and neutral lipase activity decreased, whereas total lipase activity (lipoprotein lipase + neutral lipase) remained unaltered. During perfusion in the presence of insulin, no net change in lipase activities was observed. Also, insulin did not affect the glucagon-induced inverse effects on either lipase activity. The reciprocal changes in lipase activities occurring during norepinephrine perfusion were hampered by colchicine and propranolol, pointing towards beta-receptor and microtubular mediation of tissue lipase processing and endothelial binding. Our data suggest that the tissue flux and vascular binding of lipase protein may be important sites of hormonal regulation of lipoprotein lipase homeostasis.
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PMID:Effects of hormones, amino acids and specific inhibitors on rat heart heparin-releasable lipoprotein lipase and tissue neutral lipase activities during long-term perfusion. 637 31

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