Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Activities of the enzymes lactase, sucrase, maltase, alkaline phosphatase, and superoxide dismutase (SOD) were measured in mucosa of duodenum and ileum of the rat after 70% resection of mid-small intestine or sham operation (transection). We also measured the concentrations of zinc, copper, and manganese in several tissues to assess trace metal homeostasis postresection. Resection resulted in decreased specific activities of disaccharidases and alkaline phosphatase in duodenum, while specific activities remained unchanged in ileum. Specific activity of total SOD (the sum of Cu-Zn and Mn SOD) and Mn SOD was the same in duodenum after resection but was markedly increased in ileum. Tissue trace metal concentrations changed minimally. Because of postresection mucosal growth, total segmental activity of disaccharidases and alkaline phosphatase was the same in duodenum and increased in ileum of resected compared to transected rats. Segmental activity of total SOD and Mn SOD doubled in duodenum and trebled in ileum of resected as compared to transected rats. Thus, total segmental enzyme activity is maintained or increased postresection by increased enterocyte proliferation rate and mucosal growth.
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PMID:Adaptation of the duodenum and ileum of the rat to mid-gut resection: enzyme activity and trace metal status. 308 Aug 64

Glial fibrillary acidic protein (GFAP) is soluble in low ionic strength solutions but shows a strong tendency toward assembly with increasing ionic strength as revealed by electron microscopy and turbidity measurements. Increasing K+, Na+, and Li+ concentrations cause an increase followed by a decrease in GFAP turbidity with a maximum at 200 mM, but their effects are much weaker than effects of divalent cations at the same ionic strength. Ca2+, Mg2+, Mn2+, and Ba2+ promote assembly at millimolar concentrations, and 10 microM Cu2+ causes rapid aggregation. The critical concentration for GFAP assembly was 0.08 +/- 0.04 mg/mL in 2 mM Tris-HCl, 60 mM KCl, and 1 mM CaCl2, pH 6.8. The Mr 38,000 rod domain of GFAP obtained by limited chymotryptic digestion is more soluble in 100 mM imidazole hydrochloride buffer, pH 6.8, than the intact molecule, and removal of the end pieces greatly reduces the ability of GFAP to form filaments. BNPS-skatole (2-[(2-nitrophenyl)sulfenyl]-3-methyl-3-bromoindolenine) treatment releases a Mr 30,000 N-terminus and a Mr 20,000 C-terminus. The Mr 30,000 polypeptide shows a higher affinity than the Mr 20,000 fragment for intact GFAP. Arginine and lysine at low concentrations slightly accelerate GFAP assembly, but above 100 mM both amino acids inhibit assembly. ATP, GTP, CTP, and UTP do not show significant effects on GFAP assembly. Dephosphorylation by alkaline phosphatase slightly reduces the assembly ability of GFAP, but phosphatase-treated GFAP still is assembly competent.
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PMID:Factors modulating filament formation by bovine glial fibrillary acidic protein, the intermediate filament component of astroglial cells. 319 99

1. Alkaline phosphatase (EC 3.1.3.1.) from harp seal (Phagophilus groenlandicus) has been purified by concanavalin A-Sepharose chromatography to homogeneity with a specific activity of 1200-1500 units/mg of protein. 2. The mol. wt of the enzyme and its subunits were estimated as 260,000 and 70,000, respectively. By chromatofocusing the isoelectric point of this enzyme is 5.5. 3. With p-nitrophenylphosphate, pH-optimum and KM for the enzyme are 9.8 and 0.9 mM, respectively. 4. The enzyme was strongly inhibited by Sn4+, Fe3+ and Zn2+, whereas Mg2+ and Mn2+ were effective activators of the enzyme. Seal alkaline phosphatase was slightly inhibited by high concentrations of Ca2+ and Cr3+. 5. The enzyme activity reached a maximum at 55-60 degrees C. It was shown that the heat stability of seal and calf intestinal alkaline phosphatases were equal at 37 and 56 degrees C.
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PMID:Purification and characterization of intestinal alkaline phosphatase from harp seal. 324 66

We have previously reported the presence of a cell surface associated lectin activity in Giardia lamblia, a human protozoan parasite that is a significant cause of diarrheal disease worldwide [Lev, B., Ward, H., Keusch, G. T., & Pereira, M. E. A. (1986) Science (Washington, D.C.) 232, 71-73]. This lectin is specifically activated in vitro by a host protease, trypsin, which is secreted in vivo at the site of infection. The activated lectin agglutinates cells to which the parasite adheres in vivo and binds specifically to isolated brush border membranes of these cells. These findings suggest that this lectin may be of importance in the host-parasite interaction. We now report the identification of this lectin, which we have named taglin (to denote trypsin-activated Giardia lectin), and describe some of its properties. A monoclonal antibody that inhibits the hemagglutinating activity of taglin recognizes a protein of 28,000/30,000 kdaltons in Western blots of Giardia lysates. This finding was confirmed by direct demonstration of lectin activity with the technique of erythrocyte binding to proteins electroblotted to nitrocellulose, which revealed specific red cell binding to giardial protein bands in the same molecular weight range as those recognized by the monoclonal antibody. This study also elucidates the binding of taglin to terminal phosphomannosyl residues. The involvement of cell surface phosphate in binding of taglin to erythrocytes is shown by the abolition of lectin activity by alkaline phosphatase treatment of the erythrocytes. Taglin also requires divalent cations, Ca2+ or Mn2+, for hemagglutinating activity and is active within a narrow pH range of 6-7.
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PMID:Identification and characterization of taglin, a mannose 6-phosphate binding, trypsin-activated lectin from Giardia lamblia. 344 82

Progesterone, enzymes, minerals, trace elements, and total protein were determined in the blood serum of nine non-pregnant, early, mid-, and late pregnant as well as puerperal camels, and were assessed in their relation to the reproductive state. The progesterone level followed by the copper level reaches peak values at mid-pregnancy. The zinc level decreases with increasing pregnancy, alkaline phosphatase increases. Hypocalcaemia and hypomagnesaemia occur towards the end of pregnancy; the total protein content increases. Surprisingly, the manganese level remained more or less constant.
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PMID:Blood constituents in relation to the reproductive state in she-camel (Camelus dromedarius). 356 2

We describe a system to generate cDNA or genomic libraries from DNA segments that have blunt termini. Background and rearrangement levels are low, but efficiencies are high and the procedural times very short. T4 ligase in the presence of polyethylene glycol produces high Mr oligomers of vector and insert. These concatemers are reduced to vector-insert monomers at a high frequency by subsequent cleavage with a restriction endonuclease, which recognises the insert rarely, if at all, and the vector once. The monomers are recircularised under standard ligation conditions prior to transformation. Thus insertion conditions are optimised independently of those for recircularisation. All reading frames for expression libraries are generated by short BAL 31 cleavage followed by the blunt-end cloning procedure. Similarly, genomic expression libraries can be made by BAL 31 or mung-bean nuclease treatment after cleavage with DNase I is the presence of Mn2+. The technique is suitable for any DNA segment that is blunt-ended or can be made so. When the vector is treated with alkaline phosphatase, recombinants are generated at a frequency greater than 90% and have single inserts. Yields are 3-5 X 10(6) colony-forming units per micrograms of insert.
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PMID:Rapid and efficient method for cloning of blunt-ended DNA fragments. 359 40

The effect of essential trace metals on bone metabolism was investigated in the femoral diaphysis of weanling rats. Oral administration of zinc (1.53-306 mumol/100 g body weight) for 3 days produced significant increases in alkaline phosphatase activity and DNA content. These biochemical indices were also increased by oral administration of chromium (III), cobalt, copper, manganese, and nickel with the dose of 1.53 mumol/100 g. With the dose of 15.3 mumol/100 g of above all metals, except zinc, the enzyme activity was significantly decreased in comparison with control, while DNA content was not decreased significantly. Moreover, the effect of zinc on alkaline phosphatase activity and DNA content was not enhanced by simultaneous administration of other metals (1.53 mumol/100 g). The present study indicates that, of the essential trace metals, zinc can effectively stimulate the bone growth and calcification with comparatively higher dose levels. This suggests a nutritional significance of zinc on bone growth.
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PMID:Effect of essential trace metals on bone metabolism in weanling rats: comparison with zinc and other metals' actions. 379 21

The effects of zinc on the enzymes of femoral tissue were investigated in weanling rats that had been given zinc sulfate (1.0 mg Zn2+/100 g body wt) p.o. for 3 days. Administration of zinc caused a marked elevation of alkaline phosphatase and acid phosphatase activities, whereas it did not cause significant changes in succinate dehydrogenase, 5'-nucleotidase, ATPase, pyrophosphatase and beta-N-acetylglucosaminidase activities. The effect of zinc was greater on alkaline phosphatase of the femoral diaphysis. Zinc content of the femoral diaphysis was raised significantly by administration of zinc. The addition of zinc in concentrations of 10(-2)-10(2) microM did not produce a significant increase in alkaline phosphatase activity in the femoral diaphysis, indicating that zinc could not activate the enzyme. Administration of cycloheximide or actinomycin D completely inhibited the increase in alkaline phosphatase activity produced by administration of zinc. DNA content of the femoral diaphysis, but not epiphysis, was increased markedly by administration of zinc. The increases in both alkaline phosphatase activity and DNA content of the femoral diaphysis were not caused by administration of copper, manganese, cobalt, nickel and chromium(III). The present investigation suggests that zinc may induce the increase in alkaline phosphatase related to DNA synthesis and, as a result, stimulate bone growth.
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PMID:Action of zinc on bone metabolism in rats. Increases in alkaline phosphatase activity and DNA content. 395 86

In this study, water proton relaxation rate (PRR) enhancements have been used to characterize the binding of metal ions to native ovalbumin, ovalbumin in which phosphate has been enzymatically cleaved from one or both of the two protein phosphoserines, and a heat-stabilized form of the protein (S-ovalbumin). With Scatchard plots constructed from water PRR enhancements, it was found that native ovalbumin and S-ovalbumin had one strong binding site for Mn2+ ion (KD approximately equal to 6.0 X 10(-4) M). Alkaline phosphatase treated ovalbumin, a protein having a single phosphoserine, had one Mn2+ binding site of slightly weaker affinity (KD approximately equal to 8.3 X 10(-4) M), while acid phosphatase treated ovalbumin, a dephosphorylated protein, had two much weaker Mn2+ ion binding sites (KD approximately equal to 1.3 X 10(-3) M). Competitive binding studies on the native protein suggested that Zn2+ ion competes with Mn2+ for the single strong-affinity site (KD approximately equal to 6.1 X 10(-3) M) while Mg2+ and Ca2+ do not. In a second set of experiments, the paramagnetic contribution to the 31P spin-lattice (T1P) and spin-spin (T2P) relaxation times at three separate magnetic field strengths was measured. Correlation times tau c characterizing Mn2+-31P dipolar relaxation were estimated from the ratios of T1P/T2P at a single field and from the ratios of spin-lattice relaxation rates at three different field strengths. The correlation times so obtained, ranging from about 0.7 to 7.7 ns at the three field strengths, were used in calculating distances from the bound Mn2+ ion to the phosphoserines of native ovalbumin, S-ovalbumin, and alkaline phosphatase treated ovalbumins. It was determined that the phosphate of phosphoserine-68 was 5.95 +/- 0.26 and 6.29 +/- 0.18 A from the Mn2+ in the native and alkaline phosphatase treated protein, respectively, and 6.99 +/- 0.30 A away from the Mn2+ in S-ovalbumin. The phosphate of phosphoserine-344 was determined to be 5.31 +/- 0.20 and 5.75 +/- 0.10 A from the Mn2+ ion in native ovalbumin and S-ovalbumin, respectively. The 13C nucleus of [1-13C]galactose enzymatically transferred to the nonreducing end of the ovalbumin oligosaccharide chain was not found to be significantly relaxed by Mn2+ bound to the protein, even at 1:1 stoichiometric ratio of metal:protein. Using this, we estimate the nonreducing terminal of the ovalbumin oligosaccharide to be at least 39 A from the metal ion binding site on the protein.
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PMID:Metal ion binding properties of hen ovalbumin and S-ovalbumin: characterization of the metal ion binding site by 31P NMR and water proton relaxation rate enhancements. 395 96

Sugar nucleotide degradation by Zn2+-requiring nucleotide pyrophosphatase and phosphatase was effectively inhibited by the addition of the chelator 2,3-dimercaptopropan-1-ol, along with low concentrations of nucleotides or their analogues. The addition of dimercaptopropanol alone completely inhibited alkaline phosphatase. This chelator has a much higher association constant for Zn2+ than for the Mn2+ needed for glycosyltransferase reactions, enabling selective chelation of Zn2+. Neither the chelator alone nor in combination with low concentrations of nucleotides was inhibitory to glycosyltransferase activities, as shown by xylosyltransferase in chick embryo epiphyseal microsomes and galactosyltransferase in rat serum.
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PMID:Inhibition of the action of pyrophosphatase and phosphatase on sugar nucleotides. 611 94


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