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)

Deflazacort was substituted for Prednisone (based on the equivalence 1 mg Prednisone equals 1.2 mg Deflazacort), during maintenance glucocorticoid therapy in 9 children, 5 with renal diseases and 4 with connective tissue or immunoproliferative disorders. Six patients received 0.26-0.35 mg/kg body weight (B.W.)/day and 3 0.48-1.2 mg/kg B.W. on alternate days, for 10-16 months. Except for a child with chronic juvenile arthritis, who was also unresponsive to Prednisone, the therapeutic effects of Deflazacort were excellent. Steroid side effects present in 8 patients decreased or disappeared. Plasma Ca, P, Mg, creatinine, alkaline phosphatase, iPTH(1-34), urinary excretion of Ca, cAMP, and TRP remained normal. Plasma iPTH(1-84) remained normal in 5 children; in the other 4 patients it increased from normal to slightly elevated values. On Deflazacort, plasma calcidiol concentrations were within the normal range in 6/8 patients prescribed daily doses of vitamin D2 (1,600-2,400 IU) or calcidiol (20 micrograms). Plasma 1,25(OH)2D levels monitored in 5 children were also normal. The osteoporosis, evaluated on the tibial cortico-diaphyseal ratio and the trabecular aspect of bone radiograms, present in 5 patients, persisted in 1 and improved in the others. On Deflazacort, statural growth proceeded normally in all subjects, with a modest acceleration of growth velocity in 3 children. These results seem encouraging for extending clinical trials with Deflazacort to the active phase of pediatric diseases requiring glucocorticoid.
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PMID:Effects of long-term maintenance therapy with a new glucocorticoid, deflazacort, on mineral metabolism and statural growth. 311 67

A number of molecular agents that can efficiently quench the room temperature phosphorescence of tryptophan were identified, and their ability to quench the phosphorescence lifetime of tryptophan in nine proteins was examined. For all quenchers, the quenching efficiency generally follows the same sequence, namely, N-acetyltryptophanamide (NATA) greater than parvalbumin approximately lactoglobulin approximately ribonuclease T1 greater than liver alcohol dehydrogenase greater than aldolase greater than Pronase approximately edestin greater than azurin greater than alkaline phosphatase. Quenching rate constants for O2 and CO are relatively insensitive to protein differences, while H2S and CS2 are somewhat more sensitive. These small molecule agents appear to act by penetrating into the proteins. However, penetration to truly buried tryptophans is less favorable than previously suggested; in five proteins studied, quenching efficiency by O2 is 20-1000 times lower than for NATA, and up to 10(5) lower for H2S and CS2. Larger and more polar quenchers--including organic thiols, conjugated ketones and amides, and anionic species--were also studied. The efficiency of these quenchers does not correlate with quencher size or polarity, the quenching reaction has low energy of activation, and quenching rates are insensitive to solvent viscosity. These results indicate that the larger quenchers do not approach the buried tryptophans by penetrating into the proteins, even on the long phosphorescence time scale, and are also inconsistent with a mechanism in which quencher encounter with the tryptophan occurs in free solution, as in a protein-opening reaction. The results obtained suggest that the quenching process involves a long-range radiationless transfer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quenching of room temperature protein phosphorescence by added small molecules. 324 96

Thermostability of the purified alkaline phosphatase derived from human uterine muscle and myoma was established before and after desialization. Both enzymes were inhibited by sucrose, glucose and maltose in proportion to the carbohydrate concentration. L-Homoarginine inhibits the myoma enzyme in 90%, L-leucine, L-histidine and L-tryptophan in about 60%, and L-phenylalanine in less than 15%. The type of inhibition and Ki values were determined. Muscle and myoma enzymes cross-reacted with antisera against human liver and placental isoenzymes. Molecular and kinetic properties of the enzyme were compared with known human isoenzymes of alkaline phosphatase.
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PMID:Alkaline phosphatase from human uterine myoma. II. Kinetic and immunological properties. 398 59

Osmotic shock treatment of germinated conidia of Neurospora reduced the capacity for tryptophan transport in these cells approximately 90% without an appreciable loss of cell viability. Tryptophan-binding proteins and alkaline phosphatase were consistently released into the osmotic shock fluid by this treatment. Four lines of evidence suggest that the binding protein may be related to the tryptophan transport system. (i) It appears to be located on or near the cell surface. (ii) a decreased capacity for binding tryptophan was observed in shock fluids from cells repressed for tryptophan uptake; reduced or altered binding capacity was released from a transport-negative mutant. (iii) The specificity of tryptophan binding was similar to that observed in the in vivo transport system. (iv) The dissociation constant for binding, as measured by equilibrium dialysis, was approximately the same as the K(m) for tryptophan transport.
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PMID:Tryptophan transport in Neurospora crassa: a tryptophan-binding protein released by cold osmotic shock. 547 81

Poly-A RNA extracted from the rat liver was translated in a cell-free wheat germ system and a rabbit reticulocyte lysate. The subunit of tryptophan pyrrolase precipitated by specific antiserum after synthesis in vitro has the same molecular weight as the corresponding subunit derived from the rat liver. With specific antiserum prepared against tyrosine aminotransferase, however, a radioactive protein from both the in vitro assays was precipitated with an about 5% higher molecular weight than the tyrosine aminotransferase subunit precipitated from rat liver. The immunological evidence and the comparison of the specific peptide patterns prepared by cyanogen bromide treatment showed that the in vitro product corresponds to tyrosine aminotransferase. Various concentrations of potassium or spermidine used in the wheat germ translation system did not alter the size of the enzyme subunit synthesized. The run of the tyrosine aminotransferase purified form the rat liver in the SDS-polyacrylamide gel electrophoresis was not influenced by treatment with Escherichia coli alkaline phosphatase. The possibility is discussed that the larger enzyme synthesized in vitro represents a precursor molecule which is cleaved proteolytically in vivo.
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PMID:Translation of poly-A RNA from rat liver in vitro. Evidence for a high molecular weight subunit of tyrosine aminotransferase. 615 19

A relationship between the second phase of the nucleolar activity and the variations which the yolk globules undergo in their staining affinities and in their chemical constitution has been found in growing oocytes o Murex trunculus. The results obtained enable us to recognize that the different staining affinities among the initial intermediate and definitive yolk granules correlate with the variations in their chemical constitution. The variations are due to the lack of proteins with disulfide groups, tryptophan, indolic and phenolic substances and tyrosine in the initial yolk globules, substances which, on the other hand, are found in both intermediate and final globules. Furthermore, the final globules are lacking in lipids. The presence of both acid and alkaline phosphatase activities is limited mostly to the initial yolk globules. It was possible to deduce from the chemical constitution in the nucleus of the oocytes under examination that the phase in which the nucleous modifies its content of chemical substances and when the transformation in the chemical constitution of the yolk globules occurs, is not coincidental. Both of these phenomena occur when vitellogenesis is advances although the nucleus undergoes vacuolization through out the time in which previtellogenesis passes to vitellogenesis. That the presence of the hydrolytic enzymes is correlated with nucleolar activity and that their probable role is connected with the yolk transformation and subsequent reconstruction is discussed.
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PMID:Structural and cytochemical features of the yolk globules and of the nucleolus in the growing oocytes of the mollusc Murex trunculus L. 617 5

Two enzyme forms of alkaline phosphatase have been partially purified from the medium spent for the culture of HUH-6 clone 5 cells, which were originally derived from hepatoblastoma tissue. The purification methods used are ammonium sulfate precipitation, ethanol precipitation, diethylaminoethyl cellulose chromatography, Affi-Gel Blue chromatography, and Sephadex G-200 gel filtration. These alkaline phosphatases have been characterized by thermostability, inhibition, and immunological and electrophoretic studies. Both are L-phenylalanine and L-tryptophan sensitive and L-homoarginine and L-leucylglycylglycine insensitive, and both react with an antiserum against intestinal alkaline phosphatase. The major enzyme form is a neuraminidase-cleavable, moderately thermostable isoenzyme which on polyacrylamide gel shows an electrophoretic mobility similar to that of liver alkaline phosphatase. The minor enzyme form is a neuraminidase-uncleavable, thermolabile isoenzyme which shows an intermediate electrophoretic mobility between liver and hepatoma alkaline phosphatases. The molecular weights of the major and minor enzymes have been estimated by gel filtration to be 170,000 and 110,000, respectively. These results support the conclusion that the two enzyme forms of HUH-6 alkaline phosphatase are intestinal in type, with the major enzyme form closely resembling hepatoma and oncoamnionic alkaline phosphatases, and the minor enzyme form resembling "intestine-like liver alkaline phosphatase." HUH-6 clone 5 cell line may be a useful in vitro model to study the regulatory mechanism for phenotypic expression of intestinal-type alkaline phosphatase isoenzymes in liver cancer cells.
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PMID:Intestinal-type alkaline phosphatase produced by human hepatoblastoma cell line HUH-6 clone 5. 631 71

A new affinity label for ribulose bisphosphate carboxylase/oxygenase from Rhodospirillum rubrum, 2-(4-bromoacetamido)anilino-2-deoxypentitol 1,5-bisphosphate, has been prepared, Reductive amination of ribulose-P2 with p-phenylenediamine in the presence of sodium cyanoborohydride yielded an epimeric mixture which was resolved by chromatography on quaternary aminoethyl-Sephadex. Subsequent bromoacetylation of the isolated amino bisphosphates gave reagents A and B (ribo and arabino epimers of 2-(4-bromoacetamido) anilino-2-deoxypentitol 1,5-bisphosphate) which were competitive inhibitors of the carboxylase with Ki values of 705 and 104 microM, respectively. Reagent A exhibited no time-dependent effects on the carboxylase in either the deactivated or activated state. Incubation of the enzyme with reagent B in the presence of the essential activators CO2 and Mg2+, however, resulted in an irreversible, time-dependent loss of activity, with a Kinact of 125 microM and a minimal half-time of 7.3 min. Covalent incorporation of [14C]reagent B was directly proportional to the loss of activity, with total inactivation correlating with an incorporation of 1.1 mol of reagent/mol of subunit. Inclusion of the competitive inhibitor 2-carboxyribitol 1,5-bisphosphate protected against inactivation with a concomitant reduction in incorporation. Neither reagent affected the activity of spinach carboxylase. Fractionation of [14C]reagent B-modified enzyme on DEAE-cellulose, subsequent to carboxymethylation and tryptic digestion, revealed two major radioactive peaks of approximately equal area. Digestion of each peak with alkaline phosphatase and rechromatography on DEAE-cellulose resulted in pure peptides I and II. The peptides were identical except in the site of labeling: peptide I contained a modified cysteinyl residue while peptide II contained a modified histidyl residue. Automated Edman degradation established the sequence as (sequence in text) which is located near the NH2 terminus of the enzyme. The lack of reactivity with the spinach enzyme is explained by the deletion of the histidyl residue and the replacement of cysteine by tryptophan in the eukaryotic species. Although the nonconservation of the modified residues argues against a functional role other than maintenance of structural integrity, the extensive homology in this region among seven different species of carboxylase is compatible with the region comprising a portion of the active site.
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PMID:2-(4-Bromoacetamido)anilino-2-deoxypentitol 1,5-bisphosphate, a new affinity label for ribulose bisphosphate carboxylase/oxygenase from Rhodospirillum rubrum. Determination of reaction parameters and characterization of an active site peptide. 642 17

Parallel changes in the enzyme activities of CA2+ATPase and alkaline phosphatase were observed in HeLa cells. Both enzymes were inhibited to a similar degree by L-phenylalanine, L-tryptophan, and L-leucine, while being relatively resistant to L-homoarginine. Exposure to heat (56 degrees C, 60 degrees C, and 65 degrees C) resulted in a loss of both enzyme activities. Both alkaline phosphatase and Ca2+ ATPase, when treated with EGTA, required Ca2+ for the restoration of activity. Cells grown in the presence of agents that affect alkaline phosphatase (dexamethasone, butyric acid, and hyperosmolar NaCl) showed similar changes in the activities of both enzymes.
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PMID:Similarities between alkaline phosphatase and Ca2+ ATPase activities in HeLa cells. 645 Jul 71

Very low amounts of ascorbic acid modify alkaline phosphatase fluorescence, absorption and enzymatic activity. A strong quenching of enzyme, tryptophan and tyrosine emission together with evident alterations of the protein absorption characteristics are observed. The catalytic activity inhibition probably reflects a perturbation of the active site environment due to the interaction of ascorbic acid with enzyme aminoacyl residues.
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PMID:Interaction between alkaline phosphatase and ascorbic acid by fluorescence and absorption studies. 665 47


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