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)

Four patients with hepatocellular carcinoma had a variant alkaline phosphatase that resembles the placental D-variant but is different from it in electrophoretic mobility, pH optimum, heat stability, and inhibition by phosphate. The appearance of this enzyme has been specific to hepatocellular carcinoma. Its prevalence was about 30%, while that of another marker protein, alpha-fetoprotein was 77%. The occurrence of this enzyme in serum of patients with hepatoma was, accordingly, independent of the serum alpha-fetoprotein concentration, and also independent of the appearance of the Regan or the Nagao isoenzymes and of the serum alkaline phosphatase activity. Patients with the enzyme had a massive type of hepatocellular carcinoma with grade III differentiation by Edmondson's classification. The detection of this enzyme in serum may be of help in confirming the diagnosis of hepatoma.
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PMID:Hepatocellular carcinoma and a variant alkaline phosphatase. 5 27

In the rabbit and bovine cornea the activity of alkaline phosphatase using histochemical as well as biochemical methods was investigated. Biochemically the enzyme activity was studied in separated corneal layers. In the histochemical investigation the best results were obtained in cryostat sections using the azocoupling method with naphthol AS-MX phosphate and Variamine Blue RT Salt. The enzyme activity was found not only in the epithelium and endothelium (as was described previously) but even in keratocytes. The mutual relation of activities in the epithelium and in keratocytes differed in both species. The overall activity found by histochemical methods is in good agreement with the biochemical determination of alkaline phosphatase (p-nitrophenyl phosphate as the substrate). Besides the histochemical approach shows an uneven distribution of alkaline phosphatase activity in individual cells which cannot be assessed by the biochemical determination.
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PMID:Uneven distribution of alkaline phosphatase in individual layers of rabbit and ox cornea. Histochemical and biochemical study. 6 36

Plasma concentrations of calcium, phosphate, alkaline phosphatase (A.P.), immunoreactive calcitonin (iC.T.), and immunoreactive parathyroid hormone (iP.T.H.) were measured in fifty-two patients with chronic renal failure on maintenance haemodialysis. On the basis of a bimodal distribution of values for plasma-A.P. the patients were dividied into 2 groups. In those patients with normal A.P. concentratons as well as in twenty-eight normal subjects there was a positive correlation between iP.T.H. and iC.T. which was independent of plasma calcium or phosphate. Patients with increased plasma-A.P. had higher concentrations of iP.T.H., lower concentrations of iC.T., and showed a negative relation between the concentrations of the two hormones. It is suggested that a possible factor in the pathogenesis of renal bone disease is a failure to secrete C.T. in adequate amounts.
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PMID:Evidence that endogenous calcitonin protects against renal bone disease. 6 2

It has been suggested that post-thyroidectomy hypocalcaemia is related to the presence of a thyrotoxic osteodystrophy for which a high serum concentration of bone alkaline phosphatase is a marker. Changes in serum-calcium (corrected to a standard albumin concentration of 40 g/l), alkaline phosphatase (A.P.), inorganic phosphate, and albumin were studied prospectively in 54 euthyroid patients with drug-treated Graves' disease, and in 17 controls with simple non-toxic goitre, before and serially after partial thyroidectomy. All data were paired and results indicate that the pattern of biochemical change was the same in both types of patient and that the degree of change was not related to the serum-A.P. concentration in the Graves'-disease patients. Of the patients studied within the first 24 h of operation, 5 out of 12 with Graves' disease and raised serum-A.P. (group I), 9 of 20 with Graves' disease and normal serum-A.P. (group II), and 7 of 15 controls (group III) showed a fall in serum-calcium below the lower limit of the reference range. In all three groups there was a highly significant fall in serum-calcium 24 h after operation but there was no significant difference in serum-calcium between the groups either immediately before or 24 h after operation. Serum-calcium returned to pre-surgical concentrations within 7 days of thyroidectomy and serum-A.P. concentrations by 4 to 6 weeks in all groups. There was no evidence that post-thyroidectomy hypocalcaemia is related to thyrotoxic osteodystrophy and the pattern of the biochemical changes was thought to be consistent with release of thyrocalcitonin at operation.
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PMID:Post-thyroidectomy hypocalcaemia: A feature of the operation or the thyroid disorder? 6 27

A transfer factor-like activity was prepared by Sephadex G-25 chromatography of immune guinea pig leukocyte lysates. This isolated material leads to antigen-dependent migration inhibition and thymidine uptake by nonimmune lymphoid cells. Tests of the "transfer factor" from guinea pigs immunized to either ovalbumin or bovine gamma-globulin demonstrated the donor specificity of the in vitro activity. The activity is susceptible to heat (56 degrees C), alkali (0.5 M sodium hydroxide), pronase, and phosphodiesterase. The pronase susceptibility is blocked by traysylol, a protease inhibitor; the phosphodiesterase susceptibility is not bocked by traysylol. The guinea pig factor was purified further by alkaline phosphatase treatment. Sephadex G-25 chromatography, and DEAE-cellulose chromatography. The final product, active in vitro, represents about 0.03% of the cellular material absorbing 260 nm light, and contains polymerized amines and phosphate. Gel electrophoresis of the fluram-reactive components suggests a limited heterogeneity of the DEAE-cellulose-purified material. These data are consistent with the active "transfer factor" molecule including both peptide and phosphate-containing components.
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PMID:Specificity and structural analysis of a guinea pig transfer factor-like activity. 6 75

In Bacillus subtilis Marburg strain, single-point mutations in the phoP locus brought about simultaneous losses of the major activities of alkaline phosphatase (APase) and alkaline phosphodiesterase (APDase). Revertants recovered the two activities. APases with APDase activity were purified from the membrane fraction of B. subtilis 6160-BC6 and from the culture fluid of an APase-secreting B. subtilis mutant strain, RAN 1. In addition to these major APases with APDase activity, at least two kinds of phosphodiesterase (PDase) without phosphatase activity were found in the cytoplasmic supernatants of RAN 1 and an APase-less B. subtilis mutant strain, SP25. Another minor APase with a molecular weight of about 80,000, which had almost no PDase activity, was isolated from the membrane fraction of strain 6160-BC6. Enzyme distribution in subcellular fractions from various strains cultured in high- and low-phosphate media was analyzed. The PDases did not cross-react with rabbit antiserum against the RAN 1 APase with APDase activity. The main component of the PDases had a molecular weight of about 80,000 and was most active at pH 8.0. These results suggest that APase with APDase activity is different from PDases detected in cytoplasmic supernatants and that phoP is the structural gene for the phosphate-repressible APase with APDase activity.
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PMID:Alkaline phosphatase possessing alkaline phosphodiesterase activity and other phosphodiesterases in Bacillus subtilis. 7 71

The carbethoxylation of prostatic acid phosphatase (orthophosphoric-monoester phosphohydrolase (acid optimum), EC 3.1.3.2) was accompanied by modification of histidine residues and the inactivation of the enzyme. These findings are consistent with photoinactivation experiments described earlier (Rybarska, J. and Ostrowski, W (1974) Acta Biochim, Polon. 21, 377--390). Prostatic acid phosphatase was phosphorylated at alkaline pH using p-nitrophenyl [32P]phosphate as substrate. Phosphoryl enzyme is stable in alkaline solutions and undergoes dephosphorylation at acidic pH. After hydrolysis of phosphoryl enzyme in strong alkaline solution, a single phosphoryl amino acid was isolated from hydrolyzate and identified as the tau-phosphohistidine.
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PMID:Isolation of tau-phosphohistidine from a phosphoryl-enzyme intermediate of human prostatic acid phosphatase. 8 Feb 32

The effect of carbohydrates on calcium absorption were studied in situ following the injection of a solution containing CaCl2 (+45Ca) into the ileal loop. The increase in Ca absorption was proportional to the concentration of carbohydrates injected and could be attributed to a progressive increase in the duration of absorption. In the ileal loop, sorbitol was much more effective than L-arabinose at equal concentrations in activating absorption. Such differences in the action of these carbohydrates were also observed in vitro with alkaline phosphatase extracted from the ileum. The transphosphorylating effect of the enzyme was much more pronounced in the case of sorbitol. Since the carbohydrate is a phosphate acceptor, it might influence the duration of absorption by reducing the inhibition exerted by phosphate upon a transfer mechanism which involves phosphatase, another possibility is that carbohydrate could postpone calcium insolubility through the formation of a phosphocarbohydrate complex.
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PMID:The relations between intestinal alkaline phosphatase and carbohydrates with regard to calcium absorption. 8 21

The activity of nonspecific alkaline phosphatase (E.C. 3.1.3.1) in developing teeth and bone of human fetuses and young macaque monkeys has been studied by means of histochemistry. The incubations for alkaline phosphatase were performed at pH 8.2 using naphthol-AS-MX-phosphate as substrate and Fast Blue RR salt or Fast Red Violet LB salt as couplers. By means of pretreatment with heat (56 degrees C), or addition of sodium metavanadate, ortho- or pyrophosphate, two alkaline phosphatases were demonstrated in the developing teeth. Prior to hard tissue formation all alkaline phosphatase activity was inhibited by the addition of vanadate, phosphate, or by pretreatment with heat. Pretreatment with heat or addition of vanadate or phosphate also inhibited alkaline phosphatase activity in the odontoblasts and in the pulpal connective tissue, whereas the activity in the subodontoblastic cell layer, stratum intermedium, outer enamel epithelium, and the the outer cells of the reduced enamel epithelium were much less affected. A week resistant activity was also noted in odontoblasts and pulpal connective tissue.
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PMID:Alkaline phosphatase in developing teeth and bone of man and macaque monkey. 9 18

Monkey pulps were homogenized in a Triton tris solution. After three centrifugation steps (800, 20000, and 105000 g) the supernatant was applied on acryl amide columns at pH 7.5 in a tris-diethyl barbituric acid buffer. Electrophoresis was performed at a constant current of 2.5 mA per gel column at 18--20 degrees C. Incubations for alkaline phosphatase (E.C. 3.1.3.1) were carried out at pH 8.3 using naphthol-AS-MX-phosphate as substrate and Fast Red Violet LB salt as coupler. Incubations for acid phosphatase (E.C. 3.1.3.2) were undertaken at pH 5.0 using alpha-naphtyl phosphate as substrate and hexazotized pararosanilin as coupling agent. After the incubations for alkaline phosphatase as well as acid phosphatase two bands showing enzyme activity were demonstrated. By means of treatment with heat (56 degrees C) prior to incubation or addition of vanadate or pyrophosphate to the incubation medium it was shown that the main part of the fast moving alkaline phosphatase band was sensitive to these procedures. The alkaline phosphatase of the slow moving band appeared to be resistant to heat or the addition of inhibitors.
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PMID:Electrophoretic separation of alkaline and acid phosphatase isoenzymes from the pulp of monkey teeth. 10 57


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