EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

In a previous communication (Waisman, D.M., Smallwood, J.I., Lafreniere, D. and Rasmussen, H. (1983) Biochem, Biophys. Res. Commun. 116, 435-441) we reported that chromatography of bovine brain 100,000 X g supernatant on diethylaminoethyl (DEAE) cellulose and analysis of resultant fractions by chelex competitive calcium binding assay, resolved three peaks of calcium binding activity. Gel permeation chromatographic analysis of each peak resolved apparent Mr 40,000 (Peak I), Mr 75,000, Mr 230,000 and Mr 420,000 (Peak II), and Mr 38,000 (Peak III). In the present communication the calcium binding proteins responsible for the calcium binding activity peaks resolved by gel permeation chromatography, have been purified and identified as caligulin, (Mr 40,000), calcineurin, (Mr 230,000) and calmodulin, (Mr 38,000). In addition, a novel calcium binding protein (Mr 48,000 by SDS PAGE) has been identified from the Mr 75,000 calcium binding activity peak.
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PMID:Identification of bovine brain Ca2+-binding proteins. 298 28

A protein complex is shown to participate in a calcium-dependent association with plasma membranes purified either from pig mesenteric lymph node lymphocytes or from human lymphoblastoid cell lines. Plasma membranes prepared in the presence of calcium possess this complex; those prepared in the absence of calcium (5 mM EGTA) do not. The complex associates itself with the inner cytoplasmic surface of the plasma membrane. This complex is referred to as the "acidic protein band" because of its location during migration upon alkaline-urea gel electrophoresis. The complex dissociates from the plasma membrane during electrophoresis on 8-M urea gels, irrespective of calcium levels during electrophoresis; at intermediate urea concentrations (4-6 M), the complex is not dissociated in the presence of calcium. Upon purification of the acidic protein band, SDS acrylamide gel electrophoresis, immunoblotting, and radioimmunoassay techniques suggest that the acidic protein band is composed of at least four peptides (designated 68K, 59K, 20K, 20K): two of these (68K, 20K) are immunopositive for calcineurin and one (20K) is immunopositive for calmodulin. Immunoblots of urea gels also indicate that the calcineurin heavy chain (68K) can also appear at three different locations on the urea gel. Patches and caps induced in human peripheral blood lymphocytes by fluorescein-conjugated goat anti-human IgG are not coincident with the location of calcineurin, which remains distributed throughout the cell.
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PMID:Calcium-dependent association of a protein complex with the lymphocyte plasma membrane: probable identity with calmodulin-calcineurin. 298 99

The physico-chemical properties of phosphoprotein phosphatase (EC 1.3.1.16) from bovine spleen cell nuclei were investigated. The enzyme was shown to possess a wide substrate specificity and to catalyze dephosphorylation of phosphocasein, ATP, ADP and p-nitrophenylphosphate (pNPP). The Km values for ATP, ADP and pNPP are 0.44, 0.43 and 1.25 mM, respectively. The molecular weight of the enzyme as determined by gel filtration on Sephadex G-75 and electrophoresis in polyacrylamide gel of different concentrations is approximately 33 000. SDS-polyacrylamide gel electrophoresis revealed two protein bands with Mr 12 000 and 18 000. The enzyme molecule predominantly contains acidic amino acid residues, two free SH-groups and two disulphide bonds. Phosphoprotein phosphatase is a glycoprotein with the carbohydrate content of about 22%, and has an additional absorption maximum at 560 nm. The enzyme is competitively inhibited by ammonium molybdate (Ki = 0.37 microM) and non-competitively by sodium fluoride (Ki = 1.3 mM). Incubation of phosphoprotein phosphatase with 2 mM phenylmethylsulfonylfluoride (PMSF) for 25 hours resulted in a approximately 46% loss of the enzyme activity. Ammonium molybdate, sodium fluoride and PMSF reversibly inhibit the enzyme. Modification of aminoacid SH-groups, NH2-groups and histidine led to a decrease of the enzyme activity. Incubation of phosphoprotein phosphatase with [gamma-33P]ATP resulted in the incorporation of 0.33 mol of 33P per mol of the enzyme. The mechanism of the enzyme-catalyzed hydrolysis of the phosphoester bond is discussed.
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PMID:[Phosphoprotein phosphatases from cell nuclei of the bovine spleen: physico-chemical properties]. 299 59

The predominant form of phosphorylase phosphatase activity in porcine renal cortical extracts was a polycation-stimulated protein phosphatase. This activity was present in extracts in a high-molecular-weight form which could be converted to a free catalytic subunit by treatment with ethanol, urea, or freezing and thawing in the presence of beta-mercaptoethanol. The catalytic subunit of the polycation-stimulated phosphatase was purified by chromatography on DEAE-Sephacel, heparin-Sepharose, and Sephadex G-75. The phosphatase appeared to be homogeneous on SDS-polyacrylamide gel electrophoresis. The enzyme had an apparent Mr of 35 000 on gel filtration and SDS-polyacrylamide gel electrophoresis. The purified phosphatase could be stimulated by histone H1, protamine, poly(D-lysine), poly(L-lysine) or polybrene utilizing phosphorylase a as the substrate. It preferentially dephosphorylated the alpha-subunit of phosphorylase kinase. The phosphatase was highly sensitive to inhibition by ATP. These results suggest that the renal polycation-stimulated phosphatase catalytic subunit is very similar to or identical with the skeletal muscle phosphatase form which has been previously designated phosphatase-2Ac.
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PMID:Purification and characterization of the polycation-stimulated protein phosphatase catalytic subunit from porcine renal cortex. 301 14

Muscarinic receptor, from porcine synaptic membrane, was purified by affinity chromatography. Molecular weight analysis by SDS-gel electrophoresis revealed one major peptide with an apparent Mr of 68 +/- 2 Kda. The purified receptor was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase resulting in a concomitant loss in specific binding, and this loss was reversed by calcineurin.
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PMID:Phosphorylation of brain muscarinic receptor: evidence of receptor regulation. 303 Mar 6

A calmodulin-stimulated protein phosphatase has been purified from bovine myocardium. The purification procedure involves sequential DEAE-Sephacel ion exchange chromatography, calmodulin-Sepharose affinity chromatography, and high performance liquid chromatography using a Spherogel TSK DEAE 5PW column. By SDS polyacrylamide gel electrophoresis, the purified cardiac phosphatase consists of two subunits of Mr 61,000 and 19,000, similar to the brain enzyme, calcineurin. Protein phosphatase activity of the cardiac enzyme is stimulated by Ca2+-calmodulin and inhibited by the calmodulin antagonist drug, calmidazolium. Effects of a series of divalent cations on catalytic activity of the cardiac calmodulin-stimulated protein phosphatase are similar to those observed with calcineurin, when the two enzymes are assayed under identical conditions. Highly enriched preparations of bovine cardiac sarcolemma contain substrates of cAMP-dependent protein kinase of Mr 166 K, 133 K, 108 K, 79 K, 39 K, and 14 K, which are specifically dephosphorylated by the calmodulin-stimulated phosphatase with pseudofirst-order rate constants of 0.23, 0.46, 0.69, 0.35, 0.69, and 0.115 min-1, respectively. These substrates are not present in purified preparations of cardiac sarcoplasmic reticulum. These results support a role of the calmodulin-stimulated phosphatase in the Ca2+-regulation of specific sarcolemmal processes by protein dephosphorylation.
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PMID:Cardiac calmodulin-stimulated protein phosphatase: purification and identification of specific sarcolemmal substrates. 303 93

Protein phosphatase 2C was isolated from rabbit skeletal muscle by a procedure that involved chromatography on DEAE-cellulose, precipitation with ammonium sulphate, gel-filtration on Sephadex G-100, affinity chromatography on thiophosphorylated myosin-P-light-chain--Sepharose and chromatography on Mono Q. The enzyme was purified about 35,000-fold and 0.3-0.4 mg was isolated from 2500 g skeletal muscle within 5 days. The final step resolved the activity into two peaks, termed protein phosphatases 2C1 and 2C2, that possessed identical substrate specificities and enzymatic properties. About 2.5-fold more protein phosphatase 2C2 was isolated than protein phosphatase 2C1. Protein phosphatases 2C1 and 2C2 migrated as single bands on SDS/polyacrylamide gels yielding apparent molecular masses of 44 kDa and 42 kDa, respectively, and the native proteins were both monomeric at pH 7.5 as judged by their elution from Sephadex G-100 and Sephacryl S200. Peptide maps of protein phosphatases 2C1 and 2C2, obtained after separate digestions with four different proteinases, were different, indicating that they are isoenzymes. Protein phosphatases 2C1 and 2C2 were purified from rabbit liver by the same procedure, and 0.2 mg (2C1 + 2C2) was isolated from 120 g hepatic tissue. Hepatic protein phosphatases 2C1 and 2C2 were also isolated in a molar ratio of about 1:2.5, and their enzymatic properties and apparent molecular masses in the presence and absence of SDS were identical to the skeletal muscle enzymes. Protein phosphatases 2C1 from muscle and liver displayed identical peptide maps, as did protein phosphatases 2C2 from these two tissues. It is concluded that the same two isoenzymes of protein phosphatase 2C are present in skeletal muscle and liver.
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PMID:Identification of two isoenzymes of protein phosphatase 2C in both rabbit skeletal muscle and liver. 303 50

Protein phosphatases present in the particulate and soluble fractions of oocytes of the starfish Asterias rubens and Marthasterias glacialis have been classified according to the criteria used for these enzymes from mammalian cells. The major protein phosphatase activity in the particulate fraction had very similar properties to protein phosphatase-1 from mammalian tissues, including preferential dephosphorylation of the beta subunit of phosphorylase kinase, sensitivity to inhibitor-1 and inhibitor-2, inhibition of phosphorylase phosphatase activity by protamine and heparin, and retention by heparin-Sepharose. The major protein phosphatase in the soluble fraction had very similar properties to mammalian protein phosphatase-2A, including preferential dephosphorylation of the alpha subunit of phosphorylase kinase, insensitivity to inhibitors-1 and 2, activation by protamine and heparin, and exclusion from heparin-Sepharose. An acid-stable and heat-stable protein was detected in the soluble fraction of starfish oocytes, whose properties were indistinguishable from those of inhibitor-2 from mammalian tissues. It inhibited protein phosphatase-1 specifically, and its apparent molecular mass on SDS polyacrylamide gels was 31 kDa. Furthermore, an inactive hybrid formed between the starfish oocyte inhibitor and the catalytic subunit of mammalian protein phosphatase-1 could be reactivated by preincubation with MgATP and mammalian glycogen synthase kinase-3. The remarkable similarities between starfish oocyte protein phosphatases and their mammalian counterparts are indicative of strict phylogenetic conservation of these enzymes. The results will facilitate further analysis of the role of protein phosphorylation in the control of starfish oocyte maturation by the hormone 1-methyladenine.
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PMID:Identification of protein phosphatases-1 and 2A and inhibitor-2 in oocytes of the starfish Asterias rubens and Marthasterias glacialis. 304 Mar 98

Proteins from the all-cone retina of the lizard Anolis carolinensis were phosphorylated using [gamma 32P] ATP, separated by SDS-PAGE and detected by autoradiography. Several proteins incorporated 32P. Exposure of the retinal homogenates to light brought about a dramatic increase in phosphorylation of the protein(s) with a molecular weight nearly identical to that of rat rhodopsin. It is likely that these proteins are the cone visual pigments, and that they incorporate phosphate when bleached by light. Increasing the time of the phosphorylation reaction from 1 to 30 min led to an increase in the amount of incorporation of labeled phosphate by the putative cone visual pigments, but changing the temperature from 4 degrees C to 20 degrees C decreased it. The amount of phosphate incorporation was substantially increased by NaF, a phosphatase inhibitor. This latter finding, along with the changes in incorporation of 32P with increased temperature, suggest that a phosphoprotein phosphatase is active in the lizard retina. The cation requirements, as well as the effects of cyclic nucleotides on light-induced phosphorylation of retinal lizard proteins, were also investigated.
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PMID:Light-induced phosphorylation of proteins from the all-cone retina of the lizard, Anolis carolinensis. 377 Nov 42

Calmodulin was isolated and purified to homogeneity from dog pancreas. Highly purified subcellular fractions were prepared from dog pancreas by zonal sucrose-density ultracentrifugation and assayed for their ability to bind 125I-calmodulin in vitro. Proteins contained in these fractions were also examined for binding of 125I-calmodulin after their separation by polyacrylamide-gel electrophoresis in SDS. Calmodulin-binding proteins were detected in all subcellular fractions except the zymogen granule and zymogen-granule membrane fractions. One calmodulin-binding protein (Mr 240,000), observed in a washed smooth-microsomal fraction, has properties similar to those of alpha-fodrin. The postribosomal-supernatant fraction contained three prominent calmodulin-binding proteins, with apparent Mr values of 62,000, 50,000 and 40,000. Calmodulin-binding proteins, prepared from a postmicrosomal-supernatant fraction by Ca2+-dependent affinity chromatography on immobilized calmodulin, exhibited calmodulin-dependent phosphodiesterase, protein phosphatase and protein kinase activities. In the presence of Ca2+ and calmodulin, phosphorylation of smooth-muscle myosin light chain and brain synapsin and autophosphorylation of a Mr-50,000 protein were observed. Analysis of the protein composition of the preparation by SDS/polyacrylamide-gel electrophoresis revealed a major protein of Mr 50,000 which bound 125I-calmodulin. This protein shares characteristics with the calmodulin-dependent multifunctional protein kinase (kinase II) recently observed to have a widespread distribution. The possible role of calmodulin-binding proteins and calmodulin-regulated enzymes in the regulation of exocrine pancreatic protein synthesis and secretion is discussed.
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PMID:Calmodulin-binding proteins and calmodulin-regulated enzymes in dog pancreas. 382 65

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