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)

In rats exposed for 12 weeks to the mixture of nitric oxides (0.34--2.81 mg/m3) and chlorine (0.61--1.50 mg/m3) the following changes were found: increased methemoglobin concentration (MetHb), increased partial pressure, increased total carbon dioxide concentration (pCO2 TCO2), increased current dicarbonate concentration (AB), and increased buffer bases (BB). In addition, asparagine transferase activity (aspAT), alanine aminotransferase (A1AT), alkaline phosphatase (AP) and hepatic isoenzyme of lactic dehydrogenase (LDH5) in serum were found to be increased. Histopathological examination revealed: inflammatory lesions and edema of pulmonary parenchyma, alveolar emphysema and edema of connective tissue of palpetra derm with mastocytes. Chronic exposure to low concentrations of nitric oxides and chlorine induces, apart from local lesions in conjunctivae, pulmonary lesions leading to respiratory acidosis compensated by metabolic alkalosis, or liberation of indicatory enzymes through impaired cells.
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PMID:[Chemical hazards connected with electrochemical machining. I. Toxicity of nitric oxides and chlorine lesions in rats' parenchymatous organs]. 50 41

Saccharomyces cerevisiae contains an amphiphilic cAMP-binding glycoprotein at the outer face of the plasma membrane (M(r) = 54,000). It is converted to a hydrophilic form by treatment with glycosyl-phosphatidylinositol-specific phospholipases C and D (GPI-PLC/D), suggesting membrane anchorage by a covalently bound glycolipid. Determination of the constituents of the purified anchor by gas-liquid chromatography and amino acid analysis reveals the presence of glycerol, myo-inositol, glucosamine, galactose, mannose, ethanolamine, and asparagine (as the carboxyl-terminal amino acid of the Pronase-digested protein to which the anchor is attached). Complementary results are obtained by metabolic labeling, indicating that fatty acids and phosphorus are additional anchor constituents. The phosphorus is resistant to alkaline phosphatase, whereas approximately half is lost from the protein after treatment with GPI-PLD or nitrous acid, and all is removed by aqueous HF indicating the presence of two phosphodiester bonds. Inhibition of N-glycosylation by tunicamycin or removal of protein-bound glycan chains by N-glycanase or Pronase does not abolish radiolabeling of the anchor structure by any of the above compounds. Analysis of the products obtained after sequential enzymic and chemical degradation of the anchor agrees with the arrangement of constituents in GPIs from higher eucaryotes. Evidence for anchorage of the yeast cAMP-binding protein by a GPI anchor is strengthened additionally by the reactivity of the GPI-PLC-cleaved anchor with antibodies directed against the cross-reacting determinant of trypanosomal variant surface glycoproteins.
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PMID:The cAMP-binding ectoprotein from Saccharomyces cerevisiae is membrane-anchored by glycosyl-phosphatidylinositol. 133 92

In order to investigate the function of Asp-327, a bidentate ligand of one of the zinc atoms in Escherichia coli alkaline phosphatase, and the importance of this zinc atom in catalysis, site-specific mutagenesis was used to convert Asp-327 to either asparagine or alanine. The 10(7)-fold decrease in the kcat/Km ratio observed for the Asp-327----Ala enzyme compared to the wild-type enzyme indicates that the side chain of Asp-327 is important for zinc binding at the M1 site. However, only one of the two carboxyl oxygens of Asp-327 is essential for zinc binding, since the Asp-327----Asn enzyme shows approximately the same hydrolysis activity as the wild-type enzyme. The fact that the enzymatic activity of this mutant enzyme shows a dependence on zinc concentration suggests that the other carboxyl oxygen or the negative charge on the side chain of Asp-327 is important in binding of the zinc at the M1 site. However, the zinc hydroxyl must still be appropriately positioned to attack the phosphoserine in the Asp-327----Asn enzyme; therefore, the negative charge and at least one carboxyl oxygen of the side chain are not directly involved in positioning or deprotonating the zinc hydroxyl. 31P NMR studies indicate that the Asp-327----Asn enzyme exhibits transphosphorylation activity at both pH 8.0 and pH 10.0, but at a reduced level compared to the wild-type enzyme. The biphasic production of 2,4-dinitrophenylate in the pre-steady-state kinetics of the mutant enzymes at pH 5.5 suggests that the breaking of the phosphoenzyme covalent complex is rate-limiting for both mutant enzymes. These results suggest that the main function of the zinc atom at the M1 site in catalysis involves decomposition of the phosphoenzyme covalent complex and that it may be important in helping to stabilize the alcohol leaving group.
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PMID:The importance of aspartate 327 for catalysis and zinc binding in Escherichia coli alkaline phosphatase. 164 10

Nascent precursors of phosphatidylinositol-glycan (PI-G)-linked membrane proteins contain a hydrophobic COOH-terminal sequence of 15-30 residues that is eliminated during processing to yield a newly exposed COOH terminus to which the PI-G moiety is added. There is no consensus as to the primary structure of the terminal peptide but there is a specific requirement for the amino acid destined to become the COOH terminus. In nascent human placental alkaline phosphatase (PLAP), the PI-G tail is attached to Asp-484. Site-directed mutants with glycine, alanine, cysteine, serine, or asparagine (category I) at residue 484 become PI-G tailed, appear in the plasma membrane, and are enzymatically active when expressed in COS cells. Although mutants with glutamic acid, glutamine, proline, tryptophan, leucine, valine, phenylalanine, threonine, methionine, and tyrosine (category II) are expressed equally well, only small amounts appear on the plasma membrane. Furthermore, they are not PI-G tailed and have little alkaline phosphatase activity. Studies with truncated PLAP-489 rule out nonspecific conformational changes in category II mutant proteins as a reason for their failure to be processed in COS cells and point to a specific COOH-terminal processing enzyme. Direct evidence that the selectivity for category I amino acids is enzymatically determined was obtained in a cell-free translation/processing system by using rabbit reticulocyte lysate and CHO cell rough microsomal membranes. In this in vitro system, both category I and category II mutants of PLAP-513 were translated, glycosylated, and cleaved by NH2-terminal signal peptidase. However, an additional and selective cleavage at residue 484 was observed only with category I mutants.
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PMID:Selectivity at the cleavage/attachment site of phosphatidylinositol-glycan anchored membrane proteins is enzymatically determined. 170 Apr 20

The effects of a glutamine-enriched diet on the transport of glutamine across brush border membrane vesicles (BBMV) from the rat jejunum were studied to gain further insight into the effects of diet on regulating gut glutamine utilization. Following fasting, rats were randomized to one of three nutritionally complete elemental diets supplemented with glutamine, glutamate, or glycine (control). Brush border membrane vesicles were prepared by a Mg2+ aggregation/differential centrifugation technique and uptake of radioactive [3H]glutamine by the BBMV was studied using a rapid mixing/filtration technique. BBMVs from all test diet groups were enriched in alkaline phosphatase 14-fold. [3H]Glutamine uptake courses for all groups demonstrated sodium dependency, overshoots, and similar 2-hr equilibrium values. Vesicles from animals fed the glutamine-enriched diet had a 75% increase in glutamine uptake compared to those of the control diet and a 250% increase compared to those of the glutamate-enriched diet (P less than 0.05). alpha-Methylamino isobutyric acid and glycine did not significantly inhibit total [3H]glutamine uptake, whereas asparagine and glutamine inhibited total [3H]glutamine uptake compared to the mannitol control. The brush border appears to possess the glutamine selective System N transporter, the activity of which can be stimulated by providing dietary glutamine.
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PMID:Dietary modulation of small intestinal glutamine transport in intestinal brush border membrane vesicles of rats. 197 69

Ligand binding activity of intrinsic factor-cobalamin receptor (IFCR) was determined in homogenates and isolated brush-border membranes (BBM) of ileum and kidney from dogs exhibiting simple autosomal recessive inheritance of selective cobalamin malabsorption (Fyfe, J. C., Giger, U., Hall, C. A., Jezyk, P. F., Klumpp, S. A., Levine, J. S., and Patterson, D. F. (1991) Pediatr. Res. 29, 24-31). IFCR activity of affected dog ileal homogenates was 3-4-fold higher than normal whereas IFCR activity in affected dog kidney homogenates was one-tenth of normal. The recovery of IFCR activity in the BBM of ileum and renal cortex of affected dogs was 30- and 20-fold less than normal, respectively. The dissociation constant (Kd) for intrinsic factor-cobalamin was similar in BBM of both tissues and was the same in affected and normal dogs. In the affected dog ileal BBM, activities of alkaline phosphatase and sucrase-isomaltase and vesicular transport of glucose and Na(+)-taurocholate were normal. Immunoblots showed no IFCR cross-reactive material in the ileal or renal BBM of affected dogs. IFCR purified by affinity chromatography from kidney of both normal and affected dogs had an Mr = 230,000. However, amino acid analysis revealed that the affected dog IFCR had more lysine than the normal, and protease cleavage of the purified IFCRs revealed different peptide maps. Asparagine-linked oligosaccharides of both proteins were sensitive to peptide N-glycosidase F cleavage, but only the affected dog IFCR was endoglycosidase H sensitive. These results suggest that cobalamin malabsorption in this canine family is caused by inefficient BBM expression of IFCR due to a mutation of IFCR and its retention in an early biosynthetic compartment.
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PMID:Defective brush-border expression of intrinsic factor-cobalamin receptor in canine inherited intestinal cobalamin malabsorption. 199 30

Most of L-asparaginase activity of Tetrahymena pyriformis was found to be present in microsomal membranes from which it has been purified to homogeneity (Tsirka, S.A.E. and Kyriakidis, D.A. Mol. Cell. Biochem. 83: 147-155, 1988). The native enzyme has a relative molecular weight of approximately 200 kDa, while under denaturing conditions the enzyme exhibits a subunit size of 39 kDa. Aminoacid analysis and an oligopeptide from N-terminal sequence have been determined. Dephosphorylation of L-asparaginase by alkaline phosphatase results in an activation of its catalytic activity. This enzyme also exhibits intrinsic phosphorylation activity with a Km value for ATP of 0.5 mM. Autophosphorylation with [gamma-32P] ATP of purified L-asparaginase results in the phosphorylation of tyrosine residues as well as in loss of its activity. Mg2+ and Ca2+ added together act synergistically to stimulate the kinase activity by more than 160%. The polyamines putrescine, spermidine and spermine activate the kinase approximately 100%, while neither cAMP or cGMP have any effect. These results indicate that this membrane protein with dual L-asparaginase/kinase activity must play an important role in regulating the intracellular levels of L-asparagine in Tetrahymena pyriformis.
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PMID:L-asparaginase of Tetrahymena pyriformis is associated with a kinase activity. 211 26

Many proteins are now known to be anchored to the plasma membrane by a phosphatidylinositol-glycan (PI-G) moiety that is attached to their COOH termini. Placental alkaline phosphatase (PLAP) has been used as a model for investigating mechanisms involved in the COOH-terminal processing of PI-G-tailed proteins. The COOH-terminal domain of pre-pro-PLAP provides a signal for processing during which a largely hydrophobic 29-residue COOH-terminal peptide is removed, and the PI-G moiety is added to the newly exposed Asp-484 terminus. This cleavage/attachment site was subjected to an almost saturation mutagenesis, and the enzymatic activities, COOH-terminal processing, and cellular localizations of the various mutant PLAP forms were determined. Substitution of Asp-484 by glycine, alanine, cysteine, asparagine, or serine (category I) resulted in PI-G-tailed and enzymatically active proteins. However, not all category I mutant proteins were PI-G tailed to the same extent. Pre-pro-PLAP with other substituents at position 484 (threonine, proline, methionine, valine, leucine, tyrosine, tryptophan, lysine, glutamic acid, and glutamine; category II) were expressed, as well as the category I amino acids, but there was little or no processing to the PI-G-tailed form, and this latter group exhibited very low enzyme activity. The bulk of the PLAP protein produced by category II mutants and some produced by category I mutants were sequestered within the cell, apparently in the endoplasmic reticulum (ER). Most likely, certain amino acids at residue 484 are preferred because they yield better substrates for the putative "transamidating" enzyme. In transfected COS cells, at least, posttranslational PI-G-tail processing does not go to completion even for preferred substrates. Apparently PI-G tailing is a requisite for transport from the ER and for PLAP enzyme activity. Proteins that are not transamidated are apparently retained in the ER in an inactive conformation.
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PMID:Selectivity of the cleavage/attachment site of phosphatidylinositol-glycan-anchored membrane proteins determined by site-specific mutagenesis at Asp-484 of placental alkaline phosphatase. 215 84

Asparagine-linked oligosaccharides were quantitatively released by hydrazinolysis from an alkaline phosphatase, Kasahara isozyme, which was purified from FL amnion cells. Almost all of the oligosaccharides (98%) were acidic components, all of which can be converted to neutral oligosaccharides upon sialidase digestion. Structural analysis of the oligosaccharides by sequential exoglycosidase digestion in combination with methylation analysis revealed that the alkaline phosphatase of FL cells contains sialylated mono-, bi-, tri-, and tetraantennary complex type sugar chains with the Gal beta 1----4GlcNAc beta 1---- outer chains. Some of the tetraantennary sugar chains contain a single Gal beta 1----4GlcNAc beta 1----3Gal beta 1----4GlcNAc beta 1---- outer chain on their Man alpha 1----6 arm. Both fucosylated and nonfucosylated trimannosyl cores were found in the sugar chains. However, it is of interest that the core portion of monoantennary oligosaccharide was not fucosylated and that of the tetraantennary oligosaccharide with a tetrasaccharide outer chain was completely fucosylated.
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PMID:Structures of the asparagine-linked oligosaccharides of an alkaline phosphatase, kasahara isozyme, purified from FL amnion cells. 229 56

This study was aimed to examine whether disulfiram (DS) may exacerbate the pre-existing liver damage induced by D-galactosamine (GalN) in rats. DS, 600 mg/kg, administered by gavage for 3 days caused an increase in asparagine aminotransferase (AspAT) and alkaline phosphatase (AP) and a decrease in cholinesterase (ChE) activity in the serum and decrease in AspAT and ChE activity in the liver. DS given to rats with GAlN-induced liver injury caused significant increase in alanine aminotransferase (A1AT) and bilirubin level in serum in comparison with rats with GalN-damaged liver but without DS treatment. In summary, DS exacerbates a damage of the liver of rats. This study supported the clinical observations showing enhanced liver damage in alcoholics treated with DS.
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PMID:Effect of disulfiram on function of the liver of rats with galactosamine-induced hepatitis. 309 1

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