EC:3.1.3.16 - FACTA Search

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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phosphate releasing activity from calf scapula cartilage was resolved by DEAE-cellulose chromatography into two distinct phosphatase activities. The activity eluted first from the column (phosphatase I) was active towards a variety of phosphate esters and several linear oligo phosphates including sodium pyrophosphate, while the second phosphatase activity (phosphatase II) was active only towards simple phosphate esters. Phosphatase I acted towards oligo phosphates in a stepwise fashion hydrolyzing one phosphate at a time. Both phosphatase are sialoproteins and can transfer phosphate from any of their substrates into other than water phosphate acceptor molecules such as glycerol. By several criteria, it can be concluded that the two phosphatases are different enzyme entities.
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PMID:Resolution, specificity and transphosphorylase activity of calcifying cartilage alkaline phosphatases. 0 99

The phosphoprotein phosphatase(s) acting on muscle phosphorylase a was purified from rabbit liver by acid precipitation, high speed centrifugation, chromatography on DEAE-Sephadex A-50, Sephadex G-75, and Sepharose-histone. Enzyme activity was recovered in the final step as two distinct peaks tentatively referred to as phosphoprotein phosphatases I and II. Each phosphatase showed a single broad band when examined by sodium dodecyl sulfate gel electrophoresis; the molecular weights derived by this method were approximately 30,500 for phosphoprotein phosphatase I and 34,000 for phosphoprotein phosphatase II. The s20, w value for each enzyme was 3.40. Using this value and values for the Stokes radii, the molecular weight for each enzyme was calculated to be 34,500. Both phosphatases, in addition to catalyzing the conversion of phosphorylase a to b, also catalyzed the dephosphorylation of glycogen synthase D, activated phosphorylase kinase, phosphorylated histone, phosphorylated casein, and the phosphorylated inhibitory component of troponin (TN-I). The relative activities of the phosphatases with respect to phosphorylase a, glycogen synthase D, histone, and casein remained essentially constant throughout the purification. The activities of both phosphatases with different substrates decreased in parallel when they were denatured by incubation at 55 degrees and 65 degrees. The Km values of phosphoprotein phosphatase I for phosphorylase a, histone, and casein were lower than the values obtained for phosphoprotein phosphatase II. With glycogen synthase D as substrate, each enzyme gave essentially the same Km value. Utilizing either enzyme, it was found that activity toward a given substrate was inhibited competitively by each of the alternative substrates. The results suggest that phosphoprotein phosphatases I and II are each active toward all of the substrates tested.
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PMID:Purification, properties, and substrate specificities of phosphoprotein phosphatase(s) from rabbit liver. 0 49

Alkaline phosphatase activity was measured in whole ovarian homogenates from pre-pubertal mice of different ages, with and without prior injection of human chorionic gonadotropin. Alkaline phosphatase activity was also scored in the different cell types in sections of similar ovaries, using two distinct histochemical procedures. The results from those methods differed. Biochemical studies indicated the presence of three distinct alakaline phosphatase activities: I and Ib, both optimal at pH 10.4 and with similar substrate requirements and inhibitor sensitivities (phosphatase I being characteristic of unstimulated ovaries and Ib of ovaries stimulated with human luteinizing hormone or human chorionic gonadotropin), and phosphatase II, optimal at pH 9.4, with different substrate requirements and inhibitor sensitivities. The differences observed using the histochemical procedures can probably be accounted for by the effects of different incubation conditions on the activities of these three enzymes.
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PMID:Mouse ovarian alkaline phosphatase activities that respond to gonadotropins: histochemical and biochemical studies. 1 Mar 31

The phosphoprotein phosphatase (phosphoprotein phosphohydrolase, EC 3.1.3.16) solubilized from human central nervous system myelin has been shown to possess a comparatively high degree of specificity towards myelin basic protein, a constituent of the membrane and most likely its natural substrate, rather than the mixed histones. The enzyme has a pH optimum of 7.5. Hydrolysis of both the substrates is stimulated by dithiothreitol and is almost completely dependent upon the presence of divalent metal ions. The maximum rate of dephosphorylation of basic protein is attained in the presence of 125 micrometer Mn2+ whereas a much higher concentration of Mg2+ (50--100 mM) is required for the optimal dephosphorylation of histones. The dephosphorylation of basic protein was also stimulated by Triton X-100 (0.15%, v/v) and was shown to result from a 3-fold increase in the V of the reaction catalyzed by the phosphatase. The apparent Km values for basic protein and histones were unaffected by the presence of Triton X-100 and were found to be approx. 1 and approx. 160 micrometer, respectively. Under optimal conditions of assay, the phosphatase cleaved approx. 32 and approx. 0.7 nmol of orthophosphate.min-1.mg-1 of protein from basic protein and histones, respectively.
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PMID:Solubilization and partial characterization of a phosphoprotein phosphatase from human myelin. 2 46

Calf liver nuclear phosphoprotein phosphatase (phosphoprotein phosphohydrolase, EC 3.1.3.16) has been purified approx. 850-fold. The enzyme has a mol. wt. of 34 000 as determined by SDS-polyacrylamide gel electrophoresis. The purified enzyme has a pH optimum between 7.0 and 7.5 with phosphophosphorylase, phosphohistones f1 and f2b, and phosphoprotamine as substrates. The enzyme activity towards these substrates follows the order, phosphophosphorylase greater than phosphohistone f1 greater than phosphohistone f2b greater than phosphoprotamine. The Km values toward phosphophospharylase and phosphohistone f1 are 17 and 28 micron phosphate, respectively. Dephosphorylated histone f1 and orthophosphate are competitive inhibitors of the enzyme with respective Ki values of 11 micron and 4.1 mM. NaCl and divalent metal ions inhibit the enzyme but CaCl2 is slightly stimulatory. It appears that metal ion inhibition occurs at two sites, one on the enzyme and the other on the substrate. The enzyme is also inhibited by NaF and EDTA. Nucleotides bearing the pyrophosphate structure are potent inhibitors of the enzyme while mononucleotides are slightly inhibitory. DNA and other polyions also inhibit the enzyme. The enzyme appears to require free sulfhydryl groups for activity since it is inhibited by N-ethylmaleimide and p-hydroxymercuribenzoate; the latter inhibition can be reversed by mercaptoethanol and dithiothreitol.
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PMID:Nuclear phosphoprotein phosphatase from calf liver. 3 41

The phosphorylation of spectrin polypeptide 2 is thought to be involved in the metabolically dependent regulation of red cell shape and deformability. Spectrin phosphorylation is not affected by cAMP. The reaction in isolated membranes resembles the cAMP-independent, salt-stimulated phosphorylation of an exogenous substrate, casein, by enzyme(s) present both in isolated membranes and cytoplasmic extracts. Spectrin kinase is selectively eluted from membranes by 0.5 M NaCl and co-fractionates with eluted casein kinase. Phosphorylation of band 3 in the membrane is inhibited by salt, but the band 3 kinase is otherwise indistinguishable operationally from spectrin kinase. The membrane-bound casein (spectrin) kinase is not eluted efficiently with spectrin at low ionic strength; about 80% of the activity is apparently bound at sites (perhaps on or near band 3) other than spectrin. Partitioning of casein kinase between cytoplasm and membrane is metabolically dependent; the proportion of casein kinase on the membrane can range from 25% to 75%, but for fresh cells is normally about 40%. Dephosphorylation of phosphorylated spectrin has not been studied intensively. Slow release of 32Pi from [32P] spectrin on the membrane can be demonstrated, but phosphatase activity measured against solubilized [32P] spectrin is concentrated in the cytoplasm. The crude cytoplasmic phosphospectrin phosphatase is inhibited by various anions--notably, ATP and 2,3-DPG at physiological concentrations. Regulation of spectrin phosphorylation in intact cells has not been studied. We speculate that spectrin phosphorylation state may be regulated 1) by metabolic intermediates and other internal chemical signals that modulate kinase and phosphatase activities per se or determine their intracellular localization and 2) by membrane deformation that alters enzyme-spectrin interaction locally. Progress in the isolation and characterization of spectrin kinase and phosphospectrin phosphatase should lead to the resolution of major questions raised by previous work: the relationships between membrane-bound and cytoplasmic forms of the enzymes, the nature of their physical interactions with the membrane, and the regulation of their activities in defined cell-free systems.
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PMID:Phosphorylation and dephosphorylation of spectrin. 3 38

Phosphoprotein phosphatase (phosphoprotein phosphohydrolase EC 3.1.3.16) activity for myelin basic protein was found to be present in the myelin fraction of rat brain. The enzyme activity was in a latent form and solubilized by 0.2% Triton X-100 treatment with about 50% increase of activity. The cytosol fraction from bovine brain also had phosphoprotein phosphatase activity for myelin basic protein, which was resolved into at least two peaks of activity on DEAE-cellulose column chromatography. Myelin basic protein was the best substrate for both the solubilized myelin fraction and the cytosol enzymes among the substrate proteins tested. The Km values of the solubilized myelin fraction were 4.2 muM for myelin basic protein, 7.4 muM for arginine-rich histone, 8.0 muM for histone mixture and 14.3 muM for protamine, respectively.
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PMID:Phosphoprotein phosphatases for myelin basic protein in myelin and cytosol fractions of brain. 4 61

We have studied the effect of protein phosphokinase (EC 2.7.1.37; ATP:protein phosphotransferase) and phosphoprotein phosphatase (EC 3.1.3.16; phosphoprotein phosphohydrolase) on reverse transcriptase (RNA-dependent DNA nucleotidyltransferase) activity of Rous sarcoma virus. Protein kinase from Rous sarcoma virus-transformed chick embryo fibroblasts was purified by DEAE-cellulose chromatography, Sephadex gel filtration, and isoelectric focusing. Purified reverse transcriptase from Rouse sarcoma virus was preincubated with protein kinase and ATP under conditions allowing incorporation of phosphate into substrate protein. After the preincubation, reverse transcriptase activity was assayed in the presence of poly(rA).oligo(dT) as template. A 2- to 5-fold increase of reverse transcriptase activity was found after the preincubation of reverse transcriptase with protein kinase and ATP. Incubation of reverse transcriptase with heat-treated, inactive protein kinase and ATP had no effect on transcriptase activity. When the transcriptase preparation was incubated with protein kinase and [gamma-32P]ATP and subsequently purified by chromatography on phosphocellulose and Sephadex gel filtration, significant amounts of 32P-labeled proteins were found in the fractions exhibiting reverse transcriptase activity, suggesting 32P incorporation into transcriptase or transcriptase-associated proteins. A 20-60% decrease of reverse transcriptase activity was observed after incubation of reverse transcriptase with phosphatase. The results suggest that phosphorylative modification of reverse transcriptase may be critical in the regulation of reverse transcriptase-catalyzed DNA synthesis.
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PMID:Protein kinase and its regulatory effect on reverse transcriptase activity of Rous sarcoma virus. 5 72

1. Phosphoprotein phosphatase (phosphoprotein phosphohydrolase EC 3.1.3.16) in the soluble fraction of rabbit liver which catalyzes the dephosphorylation of muscle phosphorylase a and phosphohistone (P-histone) was resolved into three active fractions by NaCl gradient elution from a DEAE-cellulose column (Fraction I, 11 and III in order of elution). They have different relative reaction rates for the two substrates and different degrees of stimulation by Mn-2+. Apparent Km values of Fraction I, II and III were 15, 20 and 16 muM for phosphorylase a, and 6.9, 5.3 and 4.4 muM for P-histone, respectively (with Mn-2+ in the assay mixture). 2. On sucrose density gradient centrifugation Fraction I and II were revealed to contain a major peak (7.0 S and 7.8 S, respectively) and a minor peak (4.0 S) of activity, while Fraction III contained only one peak (5.8 S). Freezing and thawing in the presence of 0.2 M mercaptoethanol dissociated all three fractions into subunits of similar molecular size (3.4 S), with concomitant enhancement of phosphorylase phosphatase activity. The Km values all became essentially the same (20 muM for phosphorylase a and 16 muM for P-histone). 3. The phosphorylase phosphatase and P-histone phosphatase activities could not be separated with any of the procedures described. Competition between the two phosphoprotein substrates was observed with some of the fractions.?
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PMID:Multiple molecular forms of phosphoprotein phosphatase. III. Phosphorylase phosphatase and phosphohistone phosphatase of rabbit liver. 16 6

The regulatory mechanism of a phosphoprotein phosphatase (EC 3.1.3.16), which is considered to catalyze the dephosphorylation reaction of several phosphoproteins (glycogen synthetase-D (EC 2.4.1.11), phospho-form of phosphorylase b kinase (EC 2.7.1.38), phosphohistone and phosphorylase a (EC 2.4.1.1)), was studied with partially purified preparations from rabbit skeletal muscle. Time- and temperature-dependent inactivation and reactivation of phosphohistone phosphatase, as well as phosphorylase phosphatase (EC 3.1.3.17), were observed on pre0incubation of the enzyme(s) with ATP, and subsequent incubation with divalent metal ions (Mg2+, Mn2+, or Co2+) without any change of molecular size. Manganese, however, instantly restored the activity of the ATP-inactivated enzyme, and increased the maximal velocity of the enzyme while decreasing its affinity to phosphorylase a. However, the metal ion inhibited the reactivated enzyme competively with respect to phosphorylase a. It is suggested that phosphoprotein phosphatase(s) is a metalloenzyme, and that ATP results in a conformational change of the enzyme protein in such a way that a metal ion can be easily released due to the chelating effect of ATP, or incorporated (in the presence of excess metal ions) into the enzyme protein.
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PMID:Inactivation and reactivation of phosphoprotein phosphatase of rabbit skeletal muscle. Role of ATP and divalent metal ions. 16 88

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