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)

Extracts of human intestinal mucosa were examined for their ability to hydrolyze various phosphodiester, phosphomonoester and phenylphosphonate ester linkages. Enzymes carrying out these reactions were partially purified by butanol extraction, ammonium sulfate precipitation and DEAE-cellulose chromatography, and examined for polymorphism on polyacrylamide gels. Two species of alkaline phosphatase and at least five species of PDE I were identified. Antibodies to purified bovine intestinal phosphatase and phosphodiesterase were found specific for the respective human enzymes.
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PMID:Tissue specificity of human phosphodiesterase. II. Intestinal mucosa. 630 34

Extensive kinetic studies of bovine intestinal 5'-nucleotide phosphodiesterase as a function of pH have confirmed and amplified the catalytic mechanism previously proposed on the basis of isolation of a covalent phosphorylated intermediate (Landt, M., and Butler, L.G. (1978) Biochemistry 17, 4130-4135). An enzyme-ionizing group with apparent pKa = 6.85 controls the rate-determining step. Electrostatic interactions between anionic substrate and two or more ionic groups on the enzyme have a major role in substrate binding. Binding of strongly inhibitory 5'-AMP is controlled by an ionizing group, probably on the enzyme, with pKa less than or equal to 5.9. At pH 6.0, imidazole is a classic uncompetitive inhibitor, in agreement with independent evidence that it stabilizes the covalent intermediate form of the enzyme. KI values for phosphonate analogs, which are competitive inhibitors, indicate that phosphodiesterase binds its products and product analogs more strongly than it binds substrate analogs. Some of the results presented here can be interpreted as indicating that 5'-nucleotide phosphodiesterase is the evolutionary precursor of alkaline phosphatase, with which it has many structural and catalytic properties in common, and which is found in relatively large amounts in the same tissue.
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PMID:The catalytic mechanism of bovine intestinal 5'-nucleotide phosphodiesterase. pH and inhibition studies. 630 65

The membrane-bound enzyme responsible for the breakdown of 3'-phosphoadenosine 5'-phosphosulfate (PAPS) has been purified 1,900-fold from detergent-solubilized human placenta, using chromatographies on Con A-Sepharose, Blue Sepharose, AMP-Agarose, and Sepharose CL-6B, and sucrose density gradient centrifugation. The enzyme required Mg2+ and showed the optimum activity at pH 9.4. The preparation was free of alkaline phosphatase [EC 3.1.3.1], phosphodiesterase [EC 3.1.4.1], and 5'-nucleotidase [EC 3.1.3.5] activities, which enabled investigation of the substrate specificity and kinetic properties of the enzyme without interference by secondary reactions due to the above activities. The enzyme cleaved the pyrophosphate linkages of NAD and various sugar nucleotides and the phosphodiester linkage of p-nitrophenyl-thymidine 5'-monophosphate (PNTP), as well as the phosphosulfate linkages of PAPS and its biosynthetic precursor, adenosine 5'-phosphosulfate (APS), with apparent Km values of 0.12-0.33 mM. Relative activities towards PNTP and PAPS did not change during the purification procedures starting from the homogenate. This, together with the data of kinetic studies using two substrates simultaneously, led us to conclude that the activities towards all the substrates tested were due to one and the same nucleotide pyrophosphatase.
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PMID:Substrate specificity of a nucleotide pyrophosphatase responsible for the breakdown of 3'-phosphoadenosine 5'-phosphosulfate (PAPS) from human placenta. 630 61

The ultracytochemical localization of eight hydrolytic enzymes (TMPase, 5'-NPase, TPPase, TTPase, Mg++-ATPase, Ca++-ATPase, ALPase and K+-NPPase) and one oxidative enzyme (MAO) was determined in rat brain capillary endothelial cells. In the somal plasma membrane, the enzymatic activity was mainly located in the antiluminal plasma membrane. This finding was appropriate for enzymes possessing the optimal pH at alkaline ranges, except for alkaline phosphatase. Most enzymes investigated showed a positive reaction on the pinocytotic vesicles of capillary endothelial cells. Differences in the intensity of the enzyme activities of the luminal and antiluminal plasma membranes may reflect the polarity in the capillary endothelial cells and relate to blood-brain barrier mechanisms.
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PMID:Ultracytochemical studies of capillary endothelial cells in the rat central nervous system. 632 56

The enzymatic hydrolysis of UDP-galactose in rat and calf brain was studied. The hydrolysis occurs in two steps: The first is the conversion of UDP-galactose to galactose-1-phosphate catalyzed by nucleotide pyrophosphatase (EC 3.6.1.9), and the second is the conversion of the latter to free galactose by alkaline phosphatase (EC 3.1.3.1). The overall conversion has a pH optimum of 9.0, but there is considerable activity at pH 7.4, which is the optimum for UDP-galactose:ceramide galactosyltransferase in the synthesis of cerebrosides. Preparations from cytosol from calf brain cerebellum or stem that were enriched in UDP-galactose hydrolytic activity inhibit cerebroside synthesis under conditions optimal for the synthesis. Microsome-rich and nuclear debris fractions contain the highest apparent specific activity among the subcellular fractions studied. Hydrolysis of UDP-galactose occurs in all areas of brain, brainstem having the highest activity. The apparent specific activity in jimpy mouse brain homogenate is nearly twice as high as in the control brain homogenate.
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PMID:UDP-galactose hydrolysis in brain and its effect on cerebroside synthesis. 678 Jun 63

The phoD gene encoding the membrane-bound alkaline phosphatase (ALPI) from Zymomonas mobilis CP4 was cloned and sequenced. Both the translated sequence and the properties of the recombinant enzyme were unusual. Z. mobilis ALPI was monomeric (M(r) 62,926) and hydrolysed nucleotides more effectively than sugar phosphates. The translated sequence contained a single hydrophobic segment near the N-terminus which may serve as a membrane-anchor in Z. mobilis, although the recombinant enzyme was recovered in the cytoplasmic fraction of Escherichia coli. The predicted amino acid sequence for ALPI did not align well with other ALPs or other known genes. However, some similarity to E. coli ALP was noted in the metal-binding and phosphate-binding regions. Two other regions were identified with similarity to the active sites of pyruvate kinase and mammalian 5'-nucleotide phosphodiesterase (also membrane-bound), respectively. It is likely that Z. mobilis phoD represents a new class of alkaline phosphatase genes which has not been described previously.
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PMID:Cloning, sequencing and characterization of the alkaline phosphatase gene (phoD) from Zymomonas mobilis. 787 72

A bone and cartilage enzyme with both 5'-nucleotide phosphodiesterase I and nucleotide pyrophosphohydrolase (NTPPPH) activity modulates physiologic mineralization and pathologic chondrocalcinosis by generating inorganic pyrophosphate. We hypothesized that, as for alkaline phosphatase, expression of an NTPPPH gene can be shared by cells from bone, cartilage, and liver and by certain leukocytes. Recently, we demonstrated the hepatocyte and murine plasma cell membrane glycoprotein PC-1 to have both 5'-nucleotide phosphodiesterase I and NTPPPH activity. We detected polypeptides cross-reactive with PC-1 in human U20S osteosarcoma cells, articular chondrocytes, homogenized human knee cartilages, human knee synovial fluids, hepatoma cells, and murine plasmacytoma cells. Constitutive low abundance PC-1 mRNA expression was detected in U20S cells and chondrocytes by a nested RNA-PCR assay and by Northern blotting. TGF beta is known to substantially increase NTPPPH activity in primary osteoblast cultures. We demonstrated that TGF beta 1 increased NTPPPH activity and the level of PC-1 mRNA and immunoprecipitable [35S]-methionine-labeled PC-1 polypeptides in U20S cells. The identification of PC-1 as an NTPPPH expressed in cells derived from bone and cartilage may prove useful in furthering the understanding of the role of NTPPPH i n physiologic and pathologic mineralization.
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PMID:Expression of the murine plasma cell nucleotide pyrophosphohydrolase PC-1 is shared by human liver, bone, and cartilage cells. Regulation of PC-1 expression in osteosarcoma cells by transforming growth factor-beta. 804 Mar 11

1. Ectoenzyme release from kidney brush border membranes of Rattus norvegicus and Sus scrofa domesticus by phosphatidylinositol-specific phospholipase C (PIPLC) of Bacillus thuringiensis was studied. 2. The levels of specific activities of ectoenzymes in R. norvegicus kidney brush border membranes were higher than those in S. scrofa domesticus. About 10-fold higher values were found for specific activities of alkaline phosphatase and gamma-glutamyl transpeptidase in R. norvegicus. 3. Alkaline phosphodiesterase I, alkaline phosphatase and 5'-nucleotidase were released from both R. norvegicus and S. scrofa domesticus brush border membranes, while gamma-glutamyl transpeptidase and dipeptidyl peptidase IV were not solubilized. The enzyme release by the action of PIPLC was suppressed when purified anti-PIPLC antibody was added to the reaction mixture. This suggests that enzyme release must be due to the direct action of PIPLC on kidney brush border membranes. 4. The released alkaline phosphodiesterase I from kidney of S. scrofa domesticus had a molecular weight of 240,000 and was activated by Mg2+ and Ca2+, but strongly inhibited by EDTA.
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PMID:Proof of alkaline phosphodiesterase I as a phosphatidylinositol-anchor enzyme. 839 52

Galactosyltransferase activity was measured in the luminal plasma of the cauda epididymidis of mice, rats, rabbits, rams and boars, and in the rete testis fluid of rams and boars. The activities of nucleotide pyrophosphatase and alkaline phosphatase, which compete with galactosyltransferase for substrate, were also determined. In these species, galactosyltransferase activity in the luminal plasma of the cauda epididymidis was similar when the inhibitory effect of pyrophosphatase and phosphatase was minimized by assay conditions. However, under assay conditions that did not minimize the effect of these enzymes, the galactosyltransferase activities of these species were very different and were inversely correlated with the activities of pyrophosphatase and phosphatase. The ratio of galactosyltransferase activity to pyrophosphatase and phosphatase activity was much higher in the rete testis fluid than in the luminal plasma of the cauda epididymidis in both rams and boars. In rams, galactosyltransferase in the luminal plasma of the cauda epididymidis was more heat resistant than that in serum. These results suggest that there is a species difference in the availability of galactosyltransferase activity in the luminal plasma of the cauda epididymidis and that in some species, galactosyltransferase in the luminal fluid is unlikely to have any function. The results are also discussed with respect to the possible function of galactosyltransferase, pyrophosphatase and phosphatase in epididymal luminal plasma and rete testis fluid.
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PMID:Galactosyltransferase, pyrophosphatase and phosphatase activities in luminal plasma of the cauda epididymidis and in the rete testis fluid of some mammals. 1007 Mar 58

Sequence analysis of the probable archaeal phosphoglycerate mutase resulted in the identification of a superfamily of metalloenzymes with similar metal-binding sites and predicted conserved structural fold. This superfamily unites alkaline phosphatase, N-acetylgalactosamine-4-sulfatase, and cerebroside sulfatase, enzymes with known three-dimensional structures, with phosphopentomutase, 2,3-bisphosphoglycerate-independent phosphoglycerate mutase, phosphoglycerol transferase, phosphonate monoesterase, streptomycin-6-phosphate phosphatase, alkaline phosphodiesterase/nucleotide pyrophosphatase PC-1, and several closely related sulfatases. In addition to the metal-binding motifs, all these enzymes contain a set of conserved amino acid residues that are likely to be required for the enzymatic activity. Mutational changes in the vicinity of these residues in several sulfatases cause mucopolysaccharidosis (Hunter, Maroteaux-Lamy, Morquio, and Sanfilippo syndromes) and metachromatic leucodystrophy.
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PMID:A superfamily of metalloenzymes unifies phosphopentomutase and cofactor-independent phosphoglycerate mutase with alkaline phosphatases and sulfatases. 1008 81

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