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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)

Alkaline phosphatase (EC 3.1.3.1) from cow's milk as a dimer comprising two identical or very similar subunits of about 85 000 molecular weight. The enzyme contains 4.9 +/- 0.6 gatoms of zinc per mol of protein. The essential kinetic properties are the same as those of other alkaline phosphatases: variation of pH optimum value, the lack of specificity, increase of Km and V with pH value. The phosphotransferase activity is enlarged, at constant concentration of acceptor, with an increasing concentration of donor. The small size of molecules and the presence of hydroxyls and amino groups increase the percentage of transfer phosphate. The phosphotransferase reaction is better with the D-isomer of serine and the enzyme possesses a more important affinity for the D-phosphoserine.
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PMID:[Cow's milk alkaline phospharase. II. Subunit structure, metalloproteic nature and kinetic parameters (author's transl)]. 0 19

The presence of alkaline phosphatase (EC 3.1.3.1) activity has been demonstrated in nuclei of rat ventral prostate. This enzyme activity remained after washing of isolated nuclei with 0.5% Triton X-100; an acid phosphatase initially present with the nuclear fraction was removed by this treatment. The nuclear alkaline phosphatase, examined by utilizing p-nitrophenyl phosphate as substrate, had a pH optimum of 9.5-10.3, and a broad substrate specificity: p-nitrophenyl phosphate greater than phosphothreonine greater than beta-glycerophosphate greater than phosphoserine. The nuclear phosphatase was sensitive to denaturation by heat or urea treatments and was also inhibited by Pi, L-phenylalanine, homoarginine, dithiothreitol, and EDTA. The EDTA-inhibited enzyme was maximally reactivated by Zn2+, although Mg2+, or Ca2+ were also effective at somewhat higher concentrations. Orchiectomy of adult rats resulted in an increase in the nuclear alkaline phosphatase activity (2-3-fold at 24 or 48 h postorchiectomy). A decline in the protein: DNA ratio also occurred following orchiectomy, but the increase in phosphatase specific activity was evident whether expressed per unit of protein or per unit of DNA. Testosterone replacement following orchiectomy abolished the increase in nuclear phosphatase activity. The results suggest that the prostatic nuclear alkaline phosphatase may be involved in events related to inactivation of the prostate nucleus following androgen deprivation.
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PMID:Presence and androgen control of an alkaline phosphatase in the nucleus of rat ventral prostate. 0 31

The pH of optimum activity of alkaline phosphatase from cow's milk depended on the substrate, being 10-1 for rho-nitrophenylphosphate, 8-6 for phosphoserine, 8-0 for phosvitin and 6-8 for casein. Individual casein components were dephosphorylated more rapidly than mixtures of alphas- and beta-caseins or of alphas-, beta-and kappa-caseins and micellar casein. Mixtures of 2 components involving kappa-casein were more readily dephosphorylated than alphas- and beta-casein mixtures. At pH 6-8, lactose, whey proteins and phosphate ions had an inhibitory effect. beta-Lactoglobulin had an inhibitory effect only when the pH of the reaction was lower than the optimum pH value of the enzyme. Mg2+ and Zn2+ were not inhibitory. The optimum conditions for dephosphorylation of casein are described.
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PMID:Dephosphorylation of bovine casein by milk alkaline phosphatase. 0 76

Coronal odontoblast-predentin tissue was taken from intact teeth and from teeth with carious lesions of varying depths, and the samples (20, 200 x g, saline-soluble fractions) were studied for their ability to hydrolyze adenosine triphosphate (ATP) and phosphoserine. A significantly higher rate of ATP hydrolysis at pH 9.8 was detected in enamel caries and a significantly lower rate in advanced caries than in intact teeth. The rates of the hydrolysis of phosphoserine at pH 9.8 did not differ between the various tooth groups, and the only clear trend indicating elevated enzyme activity was seen in the group of initial dentin caries. The ATP and phosphoserine hydrolysis at pH 9.8 were considered to have been due to the nonspecific alkaline phosphatase (EC 3.1.3.1) activity. In the presence of both levamisole and ouabain, maximal enzyme-dependent ATP hydrolysis was observed at pH 7.9. The remaining ATP-cleaving activity was thought to have been due to the Ca2+Mg2+-dependent ATPase (EC 3.6.1.3). The Ca2+Mg2+-dependent ATPase activities at pH 7.9 remained at constant levels in both the intact and carious groups. The parameters studied in vitro were thought to reflect changes in the mineralization rate of reparative dentin as a response to caries in vivo.
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PMID:The hydrolysis rates of ATP and phosphoserine in the odontoblast-predentin region of intact and carious human teeth. 4 67

Protein kinase activity (ATP:protein phosphotransferase, EC 2.7.1.37) has been found associated with the D2 hybrid protein, a highly purified protein of 107,000 daltons specified by the adenovirus-simian virus 40 (SV40) hybrid Ad2(+)D2, which has many properties associated with authentic SV40 T antigen [Tjian, R. & Robbins, A. (1979) Proc. Natl. Acad. Sci. USA 76, 610-614]. We have now examined some of the biochemical characteristics of the reaction products. Acceptors for the terminal phosphoryl group of [gamma-(32)P]ATP are the purified protein itself and at least four proteins extracted from nuclei of uninfected cells. Purified histones do not serve as substrate for the enzyme. Phosphorylation is markedly reduced by heating the D2 hybrid protein to 50 degrees C for 30 min. The products of phosphorylation are stable to treatment with ethanol/ether, DNase, and RNase, but completely degraded by digestion with Pronase, demonstrating their protein nature. The phosphate bonds are liable to hot alkali and sensitive to digestion with alkaline phosphatase but stable to treatment with hot acid or hydroxylamine. These results provide evidence that (32)P is incorporated into O-phosphoserine or O-phosphothreonine residues of acceptor proteins, indicating that the enzymatic activity is characteristic for protein kinase, and that cell-specified nuclear proteins other than histones may serve as substrates for the enzyme.
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PMID:Protein kinase activity associated with the D2 hybrid protein related to simian virus 40 T antigen: some characteristics of the reaction products. 22 74

Investigation of the kindred of a 58-year-old woman with all of the features of "adult" hypophosphatasia revealed 12 individuals in 3 generations with subnormal circulating total alkaline phosphatase (AP) activity. The pattern of inheritance suggested autosomal dominant transmission, with incomplete penetrance of the trait particularly in the young males. Hypophosphatasic individuals other than the proposita were clinically well but had loss of permanent teeth, showing that dental abnormalities could be the only clinical manifestation of the disorder. Radiographic investigation of the proposita revealed that completion of stress fractures was necessary for healing; maturation of incomplete fractures resulted in stable Looser zones. Skeletal survey and radionuclide bone imaging were unremarkable in hypophosphatasic individuals without fracture. Subclinical osteopenia was found in several affected women by metacarpal cortical width and bone densitometric measurements. Laboratory studies showed increased plasma and urinary phosphoethanolamine levels in affected individuals. Phosphoethanolamine and phosphoserine appeared to be natural subtrates for AP since a negative correlation existed between each substrate and circulating total AP activity. Phosphoethanolamine and phosphoserine levels were greatest in the clinically affected proposita; furthermore, only she showed absence of leukocyte AP activity. Heat fractionation of her total circulating AP activity suggested severe reduction in the bone isoenzyme. Hypophosphatasic children had higher levels of total circulating AP than affected adults; the increase was apparently secondary to increased bone isoenzyme. Iliac crest bone biopsies showed greater abnormality in affected women. Osteoidosis was particularly pronounced in the proposita's younger affected sister and hypophosphatasic daughter. Histomorphometric analyses of the biopsies revealed a paucity of osteoblasts despite increased quantities of unmineralized matrix. The finding that hypophosphatasic children in this kindred had higher circulating total AP activity than adults and were able to model their skeleton normally, together with observations that the bone biopsy in adults had a paucity of osteoblasts, suggests that some factor(s) during growth is able to induce both AP activity and osteoblast function, or, that this disorder is an "abiotrophy" with deficient osteoblastic formation and/or accelerated destruction in adult life.
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PMID:Adult hypophosphatasia. Clinical, laboratory, and genetic investigation of a large kindred with review of the literature. 48 Nov 94

The nucleoprotein of the WSN strain of influenza was found to be phosphorylated in vitro. The phosphate-protein bond was stable to hot trichloroacetic acid, RNase, DNase, succinic acid, and succinic acid-hydroxylamine, but sensitive to hydrolysis by bacterial alkaline phosphatase. This suggested that the nucleoprotein is in the form of a phosphomonoester. Acid hydrolysis of the isolated nucleoprotein followed by thin-layer electrophoresis identified the phosphorylated amino acid residue as phosphoserine.
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PMID:Phosphorylated protein component present in influenza virions. 90 30

Alkaline phosphatase (from chicken intestinal sources) was shown to contain a considerable amount of polyanionic phosphorus which was released by basic digestion. The polyanionic phosphorus of alkaline phosphatase is not associated with protein or polyalcohols and does not exhibit a visible or ultraviolet absorption spectrum. Alkaline phosphatase and abiogenic inorganic polyphosphate were found to incorporate 32P-orthophosphate under similar experimental conditions. It has been previously reported that this enzyme will incorporate 32P-orthophosphate into its protein phosphoserine without the apparent concomitant utilization of an energy source. This reported phosphorylation was immediately reversible upon dilution of the phosphorylated enzyme with unlabelled orthophosphate, which indicates that the initial phosphorylation was an exchange reaction. These observations suggest that this polyanionic phosphorus from alkaline phosphatase may be inorganic polyphosphate.
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PMID:Inorganic polyphosphate as an integral part of alkaline phosphatase preparations. 126 66

Alkaline phosphatase was the first zinc enzyme to be discovered in which three closely spaced metal ions (two Zn ions and one Mg ion) are present at the active center. Zn ions at all three sites also produce a maximally active enzyme. These metal ions have center-to-center distances of 3.9 A (Zn1-Zn2), 4.9 A (Zn2-Mg3), and 7.1 A (Zn1-Mg3). Despite the close packing of these metal centers, only one bridging ligand, the carboxyl of Asp51, bridges Zn2 and Mg3. A crystal structure at 2.0-A resolution of the noncovalent phosphate complex, E.P, formed with the active center shows that two phosphate oxygens form a phosphate bridge between Zn1 and Zn2, while the two other phosphate oxygens form hydrogen bonds with the guanidium group of Arg166. This places Ser102, the residue known to be phosphorylated during phosphate hydrolysis, in the required apical position to initiate a nucleophilic attack on the phosphorous. Extrapolation of the E.P structure to the enzyme-substrate complex, E.ROPO4(2-), leads to the conclusion that Zn1 must coordinate the ester oxygen, thus activating the leaving group in the phosphorylation of Ser102. Likewise, Zn2 appears to coordinate the ester oxygen of the seryl phosphate and activate the leaving group during the hydrolysis of the phosphoseryl intermediate. Both of these findings suggest that there may be a significant dissociative character to each of the two displacements at phosphorous catalyzed by alkaline phosphatase. A water molecule (or hydroxide) coordinated to Zn1 following formation of the phosphoseryl intermediate appears to be the nucleophile in the second step of the mechanism. Dissociation of the product phosphate from the E.P intermediate is the slowest, 35 s-1, and therefore the rate-limiting, step of the mechanism at alkaline pH. Since the determination of the initial crystal structure of alkaline phosphatase, two other crystal structures of enzymes involved in phosphate ester hydrolysis have been completed that show a triad of closely spaced zinc ions present at their active centers. These enzymes are phospholipase C from Bacillus cereus (structure at 1.5-A resolution) (43) and P1 nuclease from Penicillium citrinum (structure at 2.8-A resolution) (74). Both enzymes hydrolyze phosphodiesters. Substrates for phospholipase C are phosphatidylinositol and phosphatidylcholine, while P1 nuclease is an endonuclease hydrolyzing single stranded ribo- and deoxyribonucleotides. P1 nuclease also has activity as a phosphomonoesterase against 3'-terminal phosphates of nucleotides. The Zn ions in both enzymes form almost identical trinuclear sites.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure and mechanism of alkaline phosphatase. 152 73

In order to investigate the function of Asp-327, a bidentate ligand of one of the zinc atoms in Escherichia coli alkaline phosphatase, and the importance of this zinc atom in catalysis, site-specific mutagenesis was used to convert Asp-327 to either asparagine or alanine. The 10(7)-fold decrease in the kcat/Km ratio observed for the Asp-327----Ala enzyme compared to the wild-type enzyme indicates that the side chain of Asp-327 is important for zinc binding at the M1 site. However, only one of the two carboxyl oxygens of Asp-327 is essential for zinc binding, since the Asp-327----Asn enzyme shows approximately the same hydrolysis activity as the wild-type enzyme. The fact that the enzymatic activity of this mutant enzyme shows a dependence on zinc concentration suggests that the other carboxyl oxygen or the negative charge on the side chain of Asp-327 is important in binding of the zinc at the M1 site. However, the zinc hydroxyl must still be appropriately positioned to attack the phosphoserine in the Asp-327----Asn enzyme; therefore, the negative charge and at least one carboxyl oxygen of the side chain are not directly involved in positioning or deprotonating the zinc hydroxyl. 31P NMR studies indicate that the Asp-327----Asn enzyme exhibits transphosphorylation activity at both pH 8.0 and pH 10.0, but at a reduced level compared to the wild-type enzyme. The biphasic production of 2,4-dinitrophenylate in the pre-steady-state kinetics of the mutant enzymes at pH 5.5 suggests that the breaking of the phosphoenzyme covalent complex is rate-limiting for both mutant enzymes. These results suggest that the main function of the zinc atom at the M1 site in catalysis involves decomposition of the phosphoenzyme covalent complex and that it may be important in helping to stabilize the alcohol leaving group.
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PMID:The importance of aspartate 327 for catalysis and zinc binding in Escherichia coli alkaline phosphatase. 164 10


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