Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.5 (5'-nucleotidase)
 3,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transverse distribution of enzyme proteins and phospholipids within microsomal membranes was studied by analyzing membrane composition after treatment with proteases and phospholipases. Upon trypsin treatment of closed microsomal vesicles, NADH- and NADPH-cytochrome c reductases as well as cytochrome b5 were solubilized or inactivated, while cytochrome P-450 was partially inactivated. When microsomes were exposed to a concentration of deoxycholate which makes them permeable to macromolecules but does not disrupt the membrane, the detergent alone was sufficient to release four enzymes: nucleoside diphosphatase, esterase, beta-glucuronidase, and a portion of the DT-diaphorase. Introduction of trypsin into the vesicle lumen inactivated glucose-6-phosphatase completely and cytochrome P-450 partially. The rest of this cytochrome, ATPase, AMPase, UDP-glucuronyltransferase, and the remaining 50% of DT-diaphorase activity were not affected by proteolysis from either side of the membrane. Phospholipase A treatment of intact microsomes in the presence of albumin hydrolyzed all of the phosphatidylethanolamine, phosphatidylserine, and 55% of the phosphatidylcholine. From this observation, it was concluded that these lipids are localized in the outer half of the bilayer of the microsomal membrane; Phosphatidylinositol, 45% of the phosphatidylcholine, and sphingomyelin are tentatively assigned to the inner half of this bilayer. It appears that the various enzyme proteins and phospholipids of the microsomal membrane display an asymmetric distribution in the transverse plane.
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PMID:Enzyme and phospholipid asymmetry in liver microsomal membranes. 19 Feb 41

Rat liver 5'-nucleotidase was purified from a crude microsomal fraction, and its molecular mass was estimated to be 73 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified protein was subjected to cleavage with CNBr or lysyl endopeptidase, and the resulting 21 peptides as well as the NH2 terminus of the native protein were sequenced by Edman degradation. For further information on the molecular structure, we constructed a lambda gt11 liver cDNA library and isolated two cDNA clones for 5'-nucleotidase, lambda cNTP6 and lambda cNT34. The 3.2-kilobase cDNA insert of lambda cNTP6 contains an open reading frame that encodes a 576-residue polypeptide with a calculated size of 63,965 Da, which is in reasonable agreement with that of 5'-nucleotidase (62 kDa) immunoprecipitated from cell-free translation products. The NH2-terminal 28 residues comprise a signal peptide, which is followed by the NH2-terminal sequence of the purified protein. The predicted structure contains all the other peptide sequences determined by Edman degradation. Five potential N-linked glycosylation sites are found in the molecule, accounting for the difference in mass between the precursor and mature forms. Another characteristic feature is that the primary structure contains a highly hydrophobic amino acid sequence at the COOH terminus, a possible signal for the post-translational modification by glycophospholipid. In fact, labeling experiments of rat hepatocytes demonstrated that 3H-labeled compounds such as ethanolamine, myo-inositol, and palmitic acid, components of the glycolipid anchor, were incorporated into 5'-nucleotidase. Phosphatidylinositol-specific phospholipase C released 5'-nucleotidase from the cell surface, and the released protein no longer contained the radioactivity of [3H]palmitic acid incorporated.
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PMID:Primary structure of rat liver 5'-nucleotidase deduced from the cDNA. Presence of the COOH-terminal hydrophobic domain for possible post-translational modification by glycophospholipid. 229 43

The effect of dietary fats on phospholipid class distribution and fatty acid composition was studied in rat fat cell plasma membrane. Three groups of male Wistar weanling rats were fed for 8 wk three diets differing in the amount and nature of the fats: 1.5% sunflower oil (low fat control; LFC), 10% sunflower oil (high fat, unsaturated; HFU), 1.5% sunflower oil + 8.5% cocoa butter (high fat, saturated; HFS). Plasma membranes were prepared from epididymal adipocytes. The amount and type of dietary fat significantly altered membrane phospholipid distribution. Phospholipid content was lowered with HFU as compared to LFC or HFS diets, but no changes were observed for cholesterol. Phosphatidylinositol (PI) and phosphatidylserine (PS) were less affected by dietary changes than were other phospholipid classes. Major changes were detected for phosphatidylcholine (PC), phosphatidylethanolamine (PE) and sphingomyelin (SM) contents. No large changes in PC and PE fatty acid compositions were observed between the LFC and HFS groups, but the HFU diet induced several changes. Correlations with plasma membrane 5'-nucleotidase activities are discussed.
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PMID:Effect of dietary fat on phospholipid class distribution and fatty acid composition in rat fat cell plasma membrane. 235 53

Muscle contraction implies flexibility in combination with force resistance and requires a high degree of sarcolemmal organization. Smooth muscle cells differentiate largely from mesenchymal precursor cells and gradually assume a highly periodic sarcolemmal organization. Skeletal muscle undergoes an even more striking differentiation programme, leading to cell fusion and alignment into myofibrils. The lipid bilayer of each cell type is further segregated into raft and non-raft microdomains of distinct lipid composition. Considering the extent of developmental rearrangement in skeletal muscle, we investigated sarcolemmal microdomain organization in skeletal and smooth muscle cells. The rafts in both muscle types are characterized by marker proteins belonging to the annexin family which localize to the inner membrane leaflet, as well as glycosyl-phosphatidyl-inositol (GPI)-anchored enzymes attached to the outer leaflet. We demonstrate that the profound structural rearrangements that occur during skeletal muscle maturation coincide with a striking decrease in membrane lipid segregation, downregulation of annexins 2 and 6, and a significant decrease in raft-associated 5'-nucleotidase activity. The relative paucity of lipid rafts in mature skeletal in contrast to smooth muscle suggests that the organization of sarcolemmal microdomains contributes to the muscle-specific differences in stimulatory responses and contractile properties.
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PMID:Membrane segregation and downregulation of raft markers during sarcolemmal differentiation in skeletal muscle cells. 1455 Jul 95