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)

1. Halobacterium cutirubrum alkaline phosphatase is associated in crude extracts with a phosphodiesterase. 2. The enzymes were stabilized in buffers containing both (NH4)2SO4 and 10 mM-Mn2+. 3. Adsorption chromatography on Sepharose 6B/agarose-gel columns in the presence of 1.4M-(NH4)2SO4 gave a phosphatase-free phosphodiesterase and the alkaline phosphatase associated with some phosphodiesterase activity. 4. Further chromatography of the separated enzymes gave a good recovery of greater than 600-fold purified phosphodiesterase and greater than 3000-fold purified alkaline phosphatase. 5. The requirements of these enzymes and their relationship to each other was examined. 6. A detailed study showed that the alkaline phosphatase was adsorbed at least partially to agarose and dextran columns at all (NH4)2SO4 concentrations from 0.25 to 2M. 7. In contrast, no adsorption of the enzyme or protein standards was evident in 2.5M-KCl/l M-NaCl or 0.25 M-KCl/0.1 M-NaCl, in agreement with previous studies by Louis, Peterkin & Fitt [(1971) Biochem. J. 121, 635-641], thus confirming the validity of gel filtration in 2.5 M-KCl/1 M-NaCl as a method for determining the approximate molecular weights of extremehalophile proteins.
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PMID:Separation and purification of the alkaline phosphatase and a phosphodiesterase from Halobacterium cutirubrum. 22 60

A metal-ion-independent, nonspecific phosphoprotein phosphatase (Mr = 35000) which represents the major phosphorylase phosphatase activity in bovine adrenal cortex has been purified to apparent homogeneity. An alkaline phosphatase activity (p-nitrophenyl phosphate as a substrate) of the same molecular weight, which requires both a metal ion (Mg2+ greater than Mn2+ greater than Co2+) and a sulfhydryl compound for activity, has been found to co-purify with the phosphoprotein phosphatase throughout the purification procedures. Characterization of the phosphoprotein and the alkaline phosphatase activities with respect to their catalytic properties, substrate and metal ion specificities, relationship with large molecular forms of the enzymes and responses to various effectors has been carried out. The results indicate that the phosphoprotein phosphatase can be converted by pyrophosphoryl compounds (e.g. PPi and ATP) to a metal-ion-dependent form which, subsequently, can be reactivated by Co2+ greater than Mn2+ but not by Mg2+ or Zn2+. The results also indicate that, although the phosphoprotein and the alkaline phosphatase activities are closely associated, they exhibit distinct physical and catalytic properties. Discussions concerning whether these two activities represent two different forms of the same protein or two different yet very similar polypeptide chains have been presented.
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PMID:Purification and properties of a phosphorylase (phosphoprotein) phosphatase associated with an alkaline phosphatase of Mr 35000 from bovine adrenal cortex. 23 Sep 63

Kidney alkaline phosphatase is an enzyme which requires two types of metals for maximal activity: zinc, which is essential, and magnesium, which is stimulatory. The main features of the Mg2+ stimulation have been analyzed. The stimulation is pH-dependent and is observed mainly between pH 7.5 and 10.5. Mg2+ binding to native alkaline phosphatase is characterized by a dissociation constant of 50 muM at pH 8.5,25 degrees. Binding of Zn2+ is an athermic process. Both the rate constants of association, ka, and of dissociation, kd, have low values. Typical values are 7 M(-1) at pH 8.0, 25 degrees, for ka and 4.10(-4) S(-1) at pH 8.0, 25 degrees, for kd. The on and off processes have high activation energies of 29 kcal mol (-1). Mg2+ can be replaced at its specific site by Mn2+, Co2+, Ni2+, and Zn2+. Zinc binding to the Mg2+ site inhibits the native alkaline phosphatase. Mn2+, Co2+, and Ni2+ also bind to the Mg2+ site with a stimulatory effect which is nearly identic-al with that of Mg2+, Mn2+ is the stimulatory cation which binds most tightly to the Mg2+ site; the dissociation constant of the Mn2+ kidney phosphatase complex is 2 muM at pH 8.5. The stoichiometry of Mn2+ binding has been found to be 1 eq of Mn2+ per mol of dimeric kidney phosphatase. The native enzyme displays absolute half-site reactivity for Mn2+ binding. Mg2+ binding site and the substrate binding sites are distinct sites. The Mg2+ stimulation corresponds to an allosteric effect. Mg2+ binding to its specific sites does not affect substrate recognition, it selectively affects Vmax values. Quenching of the phosphoenzyme formed under steady state conditions with [32P]AMP as a substrate as well as stopped flow analysis of the catalyzed hydrolysis of 2,4-dinitrophenyl phosphate or p-nitrophenyl phosphate have shown that the two active sites of the native and of the Mg2+-stimulated enzyme are not equivalent. Stopped flow analysis indicated that one of the two active sites was phosphorylated very rapidly whereas the other one was phosphorylated much more slowly at pH 4.2. Half of the sites were shown to be reactive at pH 8.0. Quenching experiments have shown that only one of the two sites is phosphorylated at any instant; this result was confirmed by the stopped flow observation of a burst of only 1 mol of nitrophenol per mol of dimeric phosphatase in the pre-steady state hydrolysis of p-nitrophenyl phosphate. The half-of-the-sites reactivity observed for the native and for the Mg2+-stimulated enzyme indicates that the same type of complex, the monophosphorylated complex, accumulates under steady state conditions with both types of enzymes. Mg2+ binding to the native enzyme at pH 8.0 increases considerably the dephosphorylation rate of this monophosphorylated intermediate. A possible mechanism of Mg2+ stimulation is discussed.
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PMID:Bovine kidney alkaline phosphatase. Catalytic properties, subunit interactions in the catalytic process, and mechanism of Mg2+ stimulation. 23 94

A considerable amount of Mn2+-stimulated DNAase (deoxyribonuclease) activity is released by Bacillus subtilis 168 during sporulation in a glucose-deficient medium; much smaller amounts are released during starvation for phosphate or nitrogen. Protein synthesis is required. Two forms of evidence are presented that production of the DNAase is associated with events late in stage II of sporulation. 19 Thymidine starvation, which inhibits the biochemical events associated with sporulation, also inhibits release of the DNAase. 2. Several asporogenous mutants blocked at stage II or earlier and unable to produce alkaline phosphatase (a stage-II event) do not produce the enzyme. Mutants blocked towards the end of stage II or later produce both enzymes. During sporulation of the wild-type strain, the DNAase appears about 1 h after alkaline phosphatase. The results suggest that production of the DNAase is controlled by a still-undiscovered stage-II genetic locus.
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PMID:Extracellular manganese-stimulated deoxyribonuclease as a marker event in sporulation of Bacillus subtilis. 41 78

Genetic variation among inbred strains is described for electrophoretic migration of alkaline phosphatase from intestine, kidney, blood plasma, and three isozymes of liver. A manganese-requiring isozyme of liver and kidney unaffected by neuraminidase is described, and the locus controlling variation in this isozyme is designated Akp-1. Data from recombinant inbred strains place the locus on chromosome 1 at a distance of 3.6 +/- 2.9 cM from the M1s locus on the side distal to the centromere. Test-cross data show the following gene order and recombination percentages: Dip-1 19.0 +/- 3.8% Lp 7.4 +/- 2.2% Akp-1.
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PMID:Genetic variation in alkaline phosphatase of the house mouse (Mus musculus) with emphasis on a manganese-requiring isozyme. 54 2

1. An alkaline phosphatase was partially purified from extracts of Halobacterium cutirubrum. 2. The enzyme has a mol.wt. of 15 500 and is therefore less than one-quarter of the size of other known bacterial alkaline phosphatases. 3. It is stimulated up to ten-fold by Mn2+, but not by Ca2+ or Mg2+. 4. The activities with and without Mn2+ cannot be separated by gel filtration and have similar restricted substrate specificities. 5. The only substrates for the enzyme that have so far been found are p-nitrophenyl phosphate, 5'-dATP, 5'-dTMP and 5'-dTTP.
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PMID:Isolation and properties of a small manganese-ion-stimulated bacterial alkaline phosphatase. 82 41

Human liver alkaline phosphatase is a metalloenzyme requiring Zn2 and Mg2 for full activity. Zn2 cannot be replaced by manganese, cobalt or calcium, whereas Mg2 can be replaced by manganese or calcium. The binding constants of the enzyme for different divalent cations were determined by the use of complexing agents. The enzyme is inhibited by a number of reducing and complexing agents such as 2-mercaptoethanol, cyanide, nitrilotriacetic acid and EDTA. From studies using these inhibitors it is suggested that there are different mechanisms of inhibition. Reversible inhibition occurs if the free Zn2 concentration is not significantly lower than 10(-12)M. Inhibition is irreversible at lower Zn2 concentrations. Evidence is given, that the human liver alkaline phosphatase possesses different zinc binding sites, which are responsible for the catalytic function and for the integrity of the enzyme structure.
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PMID:Human alkaline phosphatases. II. Metalloenzyme properties of the enzyme from human liver. 92 71

Certain factors were found to prevent quantitative recovery of soluble alkaline phosphatase from homogenates of chick duodenal mucosa during treatment with n-butanol. Divalent cations such as calcium, manganese and lead interfered when present at 0.1-0.2 mM. Magnesium and zinc were found to reduce enyme recovery when present at 1.0 mM during extraction. These metals had little effect on enzyme activity per se, whether added to the homogenates or enzyme extracts before dilution for assay. However, lead acetate may have a protective or activating effect on phosphatase, at 0.1-10 mM. Other factors affecting the recovery of enzyme activity after butanol solubilization are the state of dilution and pH of the homogenate and individual animal variation.
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PMID:Interference by divalent metals in the preparation of soluble intestinal alkaline phosphatase with n-butanal. 95 79

The incubation of blood smears taken from cattle, sheep, goats horses, and pigs in the presence of urea, metal salts (zinc, magnesium, manganese, calcium) or amino acids (phenilalanine, alanine, glycine, histidine, methionine, cystine cysteine) at various concentrations revealed that the cytochemical activity of the alkaline phosphatase shows changes that depended on the animal species. Changes varying in character and intensity and depending on the molar concentrations of the agents used, were also established.
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PMID:[Influence of some activators and inhibitors of alkaline phosphatase activity in the leukocytes of farm animals]. 118 79

Using metal-ion buffers it was possible to remove Zn2+, Mg2+ and Mn2+ ions of pig kidney alkaline phosphatase reversibly. The dissociation constants obtained are KEMg: 4 X 10(-7) M, KEMn: 4 X 10(-8) M and KEZn: 8 X 10(-13) M (22 degrees C, pH: 9.6, mu: 0.07).
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PMID:Dissociation-constants of metat-ion-complexes with alkaline phosphatase from pig kidney. 125 93

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