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)

A phosphoprotein phosphatase has been partially purified from rat epididymal fat pads by a procedure utilizing ammonium sulfate and ethanol precipitations and chromatography on DEAE-Sephadex A-50. The phosphatase was eluted from Sephadex G-75 columns with an apparent molecular weight of 28 000. The phosphoprotein phosphatase catalyzed the reversible deactivation of protein kinase activated chicken adipose tissue hormone-sensitive triglyceride lipase. Phosphatase activity measured with activated triglyceride lipase as substrate was completely dependent upon the presence of metal ions (Mg2+, Ca2+, or Mn2+) and was inhibited by inorganic phosphate and adenine nucleotides. The fat pad phosphatase increased the rate of activation of glycogen synthase in rat adipose tissue infranatant fractions from fed and 24-h fasted rats but had little or no effect on synthase activity in infranatant fractions from rats fasted for 48 h. Fasting had no effect on rat fat pad phosphatase activity measured with triglyceride lipase as substrate, but phosphatase activity was decreased in preparations from diabetic rats.
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PMID:Properties of a phosphoprotein phosphatase from rat epididymal fat pads: deactivation of hormone-sensitive triglyceride lipase and activation of glycogen synthase in adipose tissue. 624 77

A low molecular weight phosphoprotein phosphatase acting on muscle phosphorylase a has been purified to homogeneity from rabbit heart by acid precipitation, ethanol treatment, and chromatography on Sephadex G-75 and Sepharose-histone. The purified enzyme showed a single band when examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis; the molecular weight calculated by this method was 34,000. The S20,w value and Stockes radius for the enzyme were 3.45 and 24.0 A, respectively. Using these two values, a molecular weight of 35,000 was calculated. Purified enzyme showed a wide substrate specificity and catalyzed the dephosphorylation of phosphorylase a, glycogen synthase D, phosphorylated histone, and phosphorylated casein. A heat-stable protein inhibitor for this enzyme with phosphorylase a as the substrate was also shown to be present in crude extracts of rabbit heart. It inhibited the dephosphorylation of phosphorylase a by phosphoprotein phosphatase by decreasing the Vmax of the reaction.
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PMID:Purification and properties of phosphoprotein phosphatase from rabbit heart. 624 38

The diverse metal requirements for activity of the phosphoprotein phosphatases (EC 3.1.3.16) concerned with glycogen metabolism in rat liver were postulated to reflect the diverse binding intensities of their essential metal(s). After inactivation by fluoride, three of these phosphatases had similar metal requirements in contrast to a fourth phosphatase. Further similarities led to a grouping of these enzymes into two general types. Phosphatases designated type 1 consisted of three enzymes which had the following properties; (1) preference for glycogen phosphorylase a as a substrate; (2) molecular weights in excess of 100 000; (3) conversion to an active 30 000 dalton 'subunit' form upon selective denaturation by 80% ethanol; (4) diverse degrees of stimulation by metals (Mg2+ and Mn2+); and (5) changes to an absolute dependence upon added Mn2+ (but not Mg2+) for activity of both the holoenzyme and the subunit after a demetallating treatment with fluoride in EDTA. The phosphatase designated type 2 exhibited the following properties; (1) preference for glycogen synthase D as a substrate; (2) molecular weight of 50 000; (3) no conversion to an active 30 000 dalton subunit form upon selective denaturation by 80% ethanol; (4) complete metal-dependence upon either Mg2+ or Mn2+; and (5) no change to an absolute dependence on added Mn2+ for activity after a demetallating treatment with fluoride in EDTA.
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PMID:Use of fluoride to inactivate phosphorylase a phosphatases from rat liver cytosol. Presence of fluoride-insensitive glycogen synthase-specific phosphatase. 625 Jun 27

When the crude phosphoprotein phosphatase fraction of rat liver cytosol was treated with 80% aqueous ethanol at room temperature, the activity with phosphorylase alpha as substrate was increased by 110%, but those with glycogen synthase D and phosphohistone were decreased by 53 and 34%, respectively. Chromatography of the ethanol-treated fraction on DE-52 revealed that while phosphoprotein phosphatase IA (Mr=69,000) remained to exist even though it was reduced, phosphatases IB (Mr=-300,00) and II (Mr=160,000) were totally replaced by a new phosphatase form with an approximate molecular weight of 35,000. This low molecular weight form has been designated phosphatase III. When partially purified phosphatases IB and II were separately treated with ethanol, they were converted to phosphatase III. These results suggest that phosphoprotein phosphatases IB and II, but IA, contain phosphatase III as a subunit. Phosphatases IB and II, however, must differ in structure since "IB to III" is accompanied by an increase in phosphorylase phosphatase activity much greater than that for "II to III"
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PMID:Effect of ethanol treatment on high molecular weight phosphoprotein phosphatases of rat liver. 625 66

Plasma membrane isolated from rat liver contained activities of phosphoprotein phosphatase dephosphorylating [32P]phosphorylase a or [32P]phosphohistone. The properties of the membrane-bound phosphatase were examined using these exogenous substrates. The optimal reaction rate was at pH near neutrality. At concentrations as low as 0.1-1.0 mM, Mg2+ or Mn2+ slightly stimulated the activity for phosphorylase a or phosphohistone, respectively; at higher concentrations, they were inhibitory with both substrates. Co2+ was inhibitory with both substrates, while Ca2+ had no significant effect. The phosphatase activities were inhibited by ATP, ADP, or AMP; the extents of inhibition were in opposite order with the two substrates. Phosphorylase phosphatase activity was strongly inhibited by KF or Pi. Phosphorylase phosphatase activity could be completely solubilized by incubating the membrane with 0.5 M NaCl or trypsin, and this was associated with several-fold activation. While Vmax values were increased, Km values for phosphorylase a were not much affected by these treatments. Unlike the soluble phosphatase, freezing in the presence of mercaptoethanol or by precipitation with ethanol failed to activate or to solubilize the membrane-bound phosphatase. The molecular weights of the NaCl-and the trypsin-solubilized phosphatase were estimated on gel filtration to be about 42,000 and 32,000, respectively. The present results indicate that the phosphoprotein phosphatase associated with liver plasma membrane shares several properties in common with phosphatases from other sources reported, and that, like those in the soluble fraction, it may be bound to some inhibitory proteins.
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PMID:Phosphoprotein phosphatase associated with rat liver plasma membrane. Properties of phosphorylase phosphatase and phosphohistone phosphatase. 627 67

Nuclear protein phosphatase (phosphoprotein phosphohydrolase, EC. 3.1.3.16, abbreviated: NPPase) was extracted from rat liver cell nuclei and subnuclear fractions under different conditions. NPPase activity proved to be strongly bound to chromatin and its presence cannot be explained by an incomplete removal of the cytoplasm from nuclear preparations. The small extent of activation of NPPase after treatment with ethanol or mercaptoethanol suggests that NPPase is present in the nucleus in its activated form. On the other hand, cytoplasmic protein phosphatase (abbreviated: NPPase) from rat liver also showed only a small extent of activation after precipitation with ammonium sulphate or ethanol. Therefore, the pronounced activation of cytoplasmic PPase, which has been observed in rabbit liver and skeletal muscle, cannot be used for differentiation between cytoplasmic and nuclear PPases in rat liver.
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PMID:Protein phosphatase activity in cell nuclei of rat liver and its relationship to the protein phosphatase in the cytoplasm. 630 Nov 79

More than 97% of spectrin phosphatase activity in human erythrocyte hemolysate was recovered in cytosol. The cytosolic phosphatase activity was resolved into four peaks, namely phosphatases I (22%, Mr = 180,000), II (3%, Mr = 42,000), III (8%, Mr = 177,000), and IV (62%, Mr = 104,000), by aminohexyl-Sepharose column chromatography. Although these phosphoprotein phosphatases also catalyzed the dephosphorylation of phosphorylase a, glycogen synthase b, and phosphorylated H1 and H2B histones, the phosphatases differed from each other in preferences for substrates and the Mg2+ or Mn2+ requirements for their activities. The treatment with 80% ethanol converted phosphatases I, III, and IV to Mr = 31,000 forms which had essentially the same physical and catalytic properties. By contrast, the molecular weight and catalytic properties of phosphatase II, which was Mg2+- or Mn2+-dependent, were not changed by the same ethanol treatment. The major spectrin phosphatase, phosphatase IV, was purified to near homogeneity, as judged by polyacrylamide gel electrophoresis. Sodium dodecyl sulfate-gel electrophoresis revealed that the enzyme was composed of one 32,000-Da polypeptide (alpha) and one 69,000-Da polypeptide (beta). Km values of the enzyme for phosphorylated spectrin and H2B histone were 1.63 +/- 0.45 and 48.2 +/- 7.6 microM, respectively. The spectrin phosphatase activity was stimulated about 2-fold by 5-25 mM Mg2+, but was completely inhibited by the same concentration of Mn2+. Physiological concentrations of adenine nucleotides, 2,3-diphosphoglyceric acid, cyclic nucleotides, or Ca2+ and/or calmodulin had no significant effect on the reaction, but 20 mg/ml of hemoglobin inhibited the reaction by 60%. -SH-blocking agents but not iodoacetate inhibited the reaction.
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PMID:Phosphoprotein phosphatases in human erythrocyte cytosol. 630 5

Previous studies have shown that phosphorylase phosphatase can be isolated from rabbit liver and bovine heart as a form of Mr approximately 35,000 after an ethanol treatment of tissue extracts. This enzyme form was designated as protein phosphatase C. In the present study, reproducible methods for the isolation of two forms of protein phosphatase C from rabbit skeletal muscle to apparent homogeneity are described. Protein phosphatase C-I was obtained in yields of up to 20%, with specific activities toward phosphorylase a of 8,000-16,000 units/mg of protein. This enzyme represents the major phosphorylase phosphatase activity present in the ethanol-treated muscle extracts. The second enzyme, protein phosphatase C-II, had a much lower specific activity toward phosphorylase a (250-900 units/mg). Phosphatase C-I and phosphatase C-II had Mr = 32,000 and 33,500, respectively, as determined by sodium dodecyl sulfate disc gel electrophoresis. The two enzymes displayed distinct enzymatic properties. Phosphatase C-II was associated with a more active alkaline phosphatase activity toward p-nitrophenyl phosphate than was phosphatase C-I. Phosphatase C-II activities were activated by Mn2+, whereas phosphatase C-I was inhibited. Phosphatase C-I was inhibited by rabbit skeletal muscle inhibitor 2 while phosphatase C-II was not inhibited. Both enzymes dephosphorylated glycogen synthase and phosphorylase kinase, but displayed different specificities toward the alpha- and beta-subunit phosphates of phosphorylase kinase (Ganapathi, M. K., Silberman, S. R., Paris, H., and Lee, E. Y. C. (1980) J. Biol. Chem. 246, 3213-3217). The amino acid compositions of the two proteins were similar. Peptide mapping of the two proteins showed that they are distinct proteins and do not have a precursor-proteolytic product relationship.
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PMID:Isolation and characterization of rabbit skeletal muscle protein phosphatases C-I and C-II. 632 85

Soluble preparations from mycelium of the dimorphic fungus Mucor rouxii contained detectable amounts of phosphoprotein phosphatase activity. This cytosolic phosphatase activity exhibited a molecular weight below 80,000 and could be resolved into two different forms (enzymes I and II) by chromatography on DEAE-cellulose followed by gel filtration on Sephacryl S-300. Enzyme I (Mr 64,000) was mainly a histone phosphatase activity, absolutely dependent on divalent cations, with a K0.5 for MnCl2 of 2mM. Enzyme II (Mr 40,000) was active with histone and phosphorylase. Its activity was independent or slightly inhibited by Mn2+. This enzyme was strongly inhibited by 50 mM NaF or 1 mM ATP. When partially purified enzymes I and II were separately treated with ethanol, the catalytic properties of enzyme II were apparently not affected while those of enzyme I were drastically changed. The activity with histone, which was originally dependent on Mn2+, became independent or slightly inhibited by the cation. The treatment was accompanied by a notable increase in phosphorylase phosphatase activity which was strongly inhibited by Mn2+. Treated enzyme I eluted from DEAE-cellulose and Sephacryl S-300 columns at a position similar to that of enzyme II.
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PMID:The separation and properties of two phosphoprotein phosphatases from the dimorphic fungus Mucor rouxii. 632 95

A high molecular weight protein phosphatase (phosphatase H-II) was isolated from rabbit skeletal muscle. The enzyme had a Mr = 260,000 as determined by gel filtration and possessed two types of subunit, of Mr = 70,000 and 35,000, respectively, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. On ethanol treatment, the enzyme was dissociated to an active species of Mr = 35,000. The purified phosphatase dephosphorylated lysine-rich histone, phosphorylase a, glycogen synthase, and phosphorylase kinase. It dephosphorylated both the alpha- and beta-subunit phosphates of phosphorylase kinase, with a preference for the dephosphorylation of the alpha-subunit phosphate over the beta-subunit phosphate of phosphorylase kinase. The enzyme also dephosphorylated p-nitrophenyl phosphate at alkaline pH. Phosphatase H-II is distinct from the major phosphorylase phosphatase activities in the muscle extracts. Its enzymatic properties closely resemble that of a Mr = 33,500 protein phosphatase (protein phosphatase C-II) isolated from the same tissue. However, despite their similarity of enzymatic properties, the Mr = 35,000 subunit of phosphatase H-II is physically different from phosphatase C-II as revealed by their different sizes on sodium dodecyl sulfate-gel electrophoresis. On trypsin treatment of the enzyme, this subunit is converted to a form which is a similar size to phosphatase C-II.
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PMID:Isolation and characterization of a high molecular weight protein phosphatase from rabbit skeletal muscle. 633 61

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