EC:3.1.3.1 - FACTA Search

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)

25.6% of 254 epileptic children receiving anticonvulsant drugs more than 3 years showed disturbances of Calcium-phosphate-metabolism and of ossification respectively. These disturbances are divided into 4 degrees of severity: 1. Raised alkaline phosphatase in serum alone 21 patients); 2. Metaphysial osteodystrophia (22 Pat.); 3. Generalised osteoporosis (16 Pat.) and 4. Vitamin-D sensitive rickets (6 Pat.). These abnormalities were found at most in long term-treatment with hydantoins or primidone. The measurement of serum concentration of these anticonvulsant drugs yielded significantly higher amounts in patients with abnormalities in Calcium-Phosphate-metabolism than in those patients without such ones. This result permits us to conclude that disturbances of Calcium-Phosphate-metabolism are serum-concentration-dependent side-effects of anticonvulsant drugs.
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PMID:[Disturbances of calcium-phosphate-metabolism by anticonvulsant drugs in relation to their serum concentration (author's transl)]. 10 36

The distribution pattern of alkaline phosphatase was studied in the ganglion cells in and near the temporal bone of some mammals. No or extremely weak activity of alkaline phosphatase was observed in or near the spiral and vestibular ganglion cells of the bat, rat, cat, and monkey. However, intense to moderate enzyme activity was noted exclusively in the peripheral areas of the spiral and vestibular ganglion cells of the guinea pig. The enzyme activity was also demonstrated in the nerve fibers at some distance from both axonal and dendritic processes of the spiral and vestibular ganglion cells of the guinea pig. Trigeminal and geniculate ganglion cells of all mammals examined showed intense to moderate enzyme activity in their capsular cells. There is a marked difference in the phosphate metabolism in the capsular tissues of the ganglion cells in or near the temporal bone of various mammals.
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PMID:Alkaline phosphatase activity in the ganglion cells in and near the temporal bone. 11 55

We have isolated strains of Escherichia coli in which an amino-terminal portion of the cytoplasmic enzyme beta-galactosidase is replaced by an amino-terminal portion of the periplasmic enzyme alkaline phosphatase. The synthesis of these hybrid proteins is regulated by inorganic phosphate and they are located in the cytoplasm. One of these proteins was purified, and 14 amino acids of the amino-terminal sequence were determined. The first five amino acids, Met-Lys-Gln-Ser-Thr, appear to represent a portion of the signal sequence of the precursor of alkaline phosphatase, and the remaining sequence corresponds to that of beta-galactosidase, beginning at amino acid residue 20. The approach described here could be used for the analysis of signal sequences of exported proteins and for partial amino acid sequence determination of certain of certain other proteins.
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PMID:Use of gene fusions to determine a partial signal sequence of alkaline phosphatase. 11 91

Adsorptive endocytosis of alpha-N-acetylglucosaminidase from human urine by isolated rat hepatocytes is inhibited by glycoproteins, polysaccharides and sugars that are known to bind to cell-surface receptors specific for either terminal galactose/N-acetylgalactosamine residues, terminal mannose residues or mannose 6-phosphate residues. Recognition of alpha-N-acetylglucosaminidase by a cell-surface receptor specific for terminal galactose/N-acetylgalactosamine residues is supported by the observations (a) that neuraminidase pretreatment of the enzyme enhances endocytosis, (b) that beta-galactosidase treatment decreases endocytosis and (c) that neuraminidase pretreatment of hepatocytes decreases alpha-N-acetylglucosaminidase endocytosis. Recognition of alpha-N-acetylglucosaminidase via receptors recognizing mannose 6-phosphate residues is lost after treatment of the enzyme with alkaline phosphatase and endoglucosaminidase H. The effect of endoglucosaminidase H supports the view that the mannose 6-phosphate residues reside in N-glycosidically linked oligosaccharide side chains of the high-mannose type. The weak inhibition of endocytosis produced by compounds known to interact with cell-surface receptors specific for mannose residues suggests that this recognition system plays only a minor role in the endocytosis of lysosomal alpha-N-acetylglucosaminidase by hepatocytes.
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PMID:Recognition of human urine alpha-N-acetylglucosaminidase by rat hepatocytes. Involvement of receptors specific for galactose, mannose 6-phosphate and mannose. 11 70

The conditions necessary for the secretion of phospholipase C (phosphatidylcholine cholinephosphohydrolase) by Pseudomonas aeruginosa were studied. Enzyme secretion by washed cell suspensions required a carbon source and ammonium, potassium, and calcium ions. The calcium requirement could be substituted by magnesium and strontium but not by copper, manganese, cobalt, or zinc. During growth in liquid medium, cells secreted phospholipase C during late logarithmic and early stationary phases. Secretion was repressed by the addition of inorganic phosphate but not by organic phosphates, glucose, or sodium succinate. Studies with tetracycline indicated that de novo protein synthesis was necessary for the secretion of phospholipase C and that the exoenzyme was not released from a preformed periplasmic pool. Similarly, extraction of actively secreting cells with 0.2 M MgCl2 at pH 8.4 solubilized large quantities of the periplasmic enzyme alkaline phosphatase but insignificant amounts of phospholipase C. Bacteria continued to secrete enzyme for nearly 45 min after the addition of inorganic phosphate or rifampin.
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PMID:Secretion of phospholipase C by Pseudomonas aeruginosa. 11 87

The extracellular matrix vesicles from epiphyseal cartilage of chickens were isolated by differential centrifugation. The matrix vesicles obtained showed considerable activity of lysosomal enzymes. This appears to have been due to lysosomal contamination because when we used a new density gradient medium (Percoll), the lysosomal enzyme activities and the activity of alkaline phosphatase could be totally separated. Electron microscopy of the alkaline phosphatase-rich fraction showed matrix vesicle-like structures. Phosphatase activities of the cells and matrix vesicles were further studied by Sephadex G-200 gel filtration. Specific magnesium-activated inorganic pyrophosphatase, distinct from nonspecific alkaline phosphatase, could be demonstrated in the cellular fraction. No such separate activity could be demonstrated in the matrix vesicle fraction, and it is supposed that the pyrophosphatase activity in the matrix vesicles originates from the alkaline phosphate.
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PMID:Matrix vesicles in chicken epiphyseal cartilage. Separation from lysosomes and the distribution of inorganic pyrophosphatase activity. 11 53

The Ca2+-binding glycoprotein isolated from preosseous cartilage shows also alkaline phosphatase activity. The purification procedure indicates that the enzyme is inhibited in crude extract and conceivably in the intact tissue; the activity may be controlled by the proteoglycans present in the matrix. Other substrates are hydrolyzed by the purified enzyme in addition to p-nitrophenylphosphate; the highest specific activity was measured with ATP and pyrophosphate (PPi) at pH 7.5 and 9.0 Mg2+ induces an activation of ATP and PPi hydrolysis; Ca2+ activates hydrolysis of ATP but inhibits that of PPi. The glycoprotein shows also transphosphorylase activity, L-serine being the best phosphate acceptor. The release or transfer of Pi catalyzed by the glycoprotein can be an important step in calcium phosphate precipitation.
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PMID:Enzymatic properties of the Ca2+-binding glycoprotein isolated from preosseous cartilage. 11 41

Another Kasahara-variant alkaline phosphatase isoenzyme was found in 2 out of 25 human renal cell carcinoma tissues. This enzyme electrophoresed in a single diffuse band which is cathodal to but continuous with the liver alkaline phosphatase. After neuraminidase treatment, this enzyme electrophoresed in the same position as that of neuraminidase-treated Kasahara isoenzyme. The enzymic properties of another neuraminidase-treated Kasahara-variant enzyme such as inhibitions by L-phenylalanine, L-homoarginine, L-tryptophan, and L-leucine, effects of inorganic phosphate, urea, and sodium dodecyl sulfate, heat stability, and the reactivity with concanavalin-A are consistent with those of Kasahara isoenzyme. On Ouchterlony's double diffusion, the precipitin lines of Kasahara and the new variant enzyme produced by antibody to Kasahara isoenzyme fused completely. These facts may indicate the occurrence of another Kasahara-variant isoenzyme.
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PMID:Another Kasahara-variant alkaline phosphatase in renal cell carcinomas. 11 99

Cultures of Bacillus subtilis were treated during sporulation with antibiotics (bacitracin and vancomycin) that affect peptidoglycan synthesis. The cells were resistant to the effects of the antibiotics only when the drugs were added about 2 h after the beginning of sporulation. This was about 1 h later than the escape time of a temperature-sensitive sporulation mutant that is unable to complete prespore septation. Similar experiments were done with a mutant temperature sensitive for peptidoglycan synthesis. This showed an escape curve similar to that shown by the antibiotics. When sporulating cells were treated with antibiotics, they produced alkaline phosphatase earlier than normal. Enzyme production was unaffected by inhibition of deoxyribonucleic acid synthesis but was inhibited by chloramphenicol. Sporulation mutants that are unable to make alkaline phosphatase under normal conditions were able to make it in the presence of bacitracin. The alkaline phosphatase made under these conditions was under "sporulation-type" control since its synthesis was repressible by casein hydrolysate and unaffected by inorganic phosphate. When cells were treated with bacitracin in the growth medium as well as in the sporulation medium, alkaline phosphatase synthesis was at the same level as in an untreated control. A number of other antibiotics and surfactants were tested for the ability to cause premature production of the phosphatase of those tested, only taurodeoxycholate whowed this behavior. Moreover, incubation of cells with taurodeoxycholate in the growth medium as well as in the sporulation medium prevented premature enzyme production.
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PMID:Requirement for peptidoglycan synthesis during sporulation of Bacillus subtilis. 11 56

During the activation of the inactive dinitrogenase reductase from Rhodospirillum rubrum, an adenine-like molecules is lost and phosphate is found on both active and inactive forms of the protein. ATP and divalent metals are required for activation of the reduced protein, but ATP is not required for activation of phenazine methosulfate-oxidized dinitrogenase reductase. Snake venom diesterase and spleen diesterase have no effect on the inactive protein; alkaline phosphatase removes phosphate from the activated protein but not from the inactive protein. ATP binds to both active and inactive forms of the protein.
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PMID:Removal of an adenine-like molecule during activation of dinitrogenase reductase from Rhodospirillum rubrum. 11 62

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