Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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

Ultraviolet (280-nm) irradiation of bovine brain calmodulin results in calcium-dependent changes in its fluorescence emission spectrum. These consist of a decline in the intrinsic tyrosine fluorescence of the protein and the appearance of a new emission maximum at 400 nm. Chromatography of irradiated calmodulin, using Ultrogel AcA 54 and phenyl-agarose columns, yields several distinctive fractions. One of these, representing 2.8% of the total recovered protein and 53% of the total fluorescence emission at 400 nm, was selected for detailed characterization. Analyses performed on acid hydrolysates reveal the presence of dityrosine, a derivative of tyrosine known for its fluorescence near 400 nm, at the level of 0.59-0.89 mol per 16,700 g of protein. Sodium dodecyl sulfate gel electrophoresis experiments demonstrate two components of apparent molecular weights 14,000 (80%) and 16,000 (20%). Observations on the effects of UV irradiation on the thrombic fragments of calmodulin and on related calcium binding proteins (rabbit skeletal muscle troponin C, bovine cardiac troponin C, and parvalbumin) support the interpretation that dityrosine formation in calmodulin results from the intramolecular cross-linking of Tyr-99 and Tyr-138. The dityrosine-containing photoproduct of calmodulin is unable to stimulate the p-nitrophenyl phosphatase activity of calcineurin under standard assay conditions. Fluorescence titrations show a generally weakened interaction with calcium ion occurring in two stages. The pKa of the derivative is considerably higher than that of free dityrosine and is calcium dependent, decreasing from 7.88 to 7.59 on the addition of 3 mM CaCl2. Smooth muscle myosin light chain kinase binds the derivative about 280-fold less effectively than it binds native calmodulin. Of several metal ions tested, only Cd2+ approaches Ca2+ in its ability to promote the appearance of the 400-nm emission band during UV irradiation of calmodulin. Mn2+ and Cu2+ appear to inhibit dityrosine formation. Ascorbic acid, dithiothreitol, and glutathione are also inhibitory.
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PMID:Dityrosine formation in calmodulin. 356 41

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

Calcineurin was dissociated into subunits A and B by SDS and the dissociated subunits were separated by Sephadex G-100 column chromatography in SDS. The phosphatase activity was associated with the A subunit and was detected only in the presence of MnCl2 of the various divalent cations tested. The Mn2+-dependent phosphatase of A subunit was stimulated (4-5-fold) by calmodulin. The subunit B increased only modestly Mn2+ stimulated phosphatase activity of subunit A but markedly increased it when assay also contained calmodulin. These results support the view that subunit B plays an important role in Mn2+/calmodulin regulation of subunit A phosphatase activity. They also lend further support to our earlier postulate ([1984] FEBS Lett. 169, 251-255) that Mn2+ is a powerful regulator of calcineurin phosphatase.
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PMID:Resolution of bovine brain calcineurin subunits: stimulatory effect of subunit B on subunit A phosphatase activity. 404 87

Glycogen synthase kinase-3 was isolated from rabbit skeletal muscle by an improved procedure. The purification was estimated to be 67000-fold and 0.2 mg of enzyme was isolated from 5000 g muscle, corresponding to an overall yield of 7%. The preparation was homogeneous by ultracentrifugal and electrophoretic criteria. The enzyme had a relative molecular mass of 47 kDa by sedimentation equilibrium centrifugation and 51 kDa by SDS-polyacrylamide gel electrophoresis. These values demonstrate that glycogen synthase kinase-3 is monomeric. The Stokes radius of 37 nm suggests the molecule to be asymmetric. The activating factor of the Mg-ATP dependent form of protein phosphatase-1 coeluted with glycogen synthase kinase-3 activity at the final step, establishing that these two activities reside in the same protein. Glycogen synthase kinase-3 phosphorylates glycogen synthase at sites-3, while casein kinase-II phosphorylates site-5, just C-terminal to sites-3 (Picton, C., Aitken, A., Bilham, T. and Cohen, P. (1982) Eur. J. Biochem. 124, 37-45). The basis for the substrate specificities of these protein kinases was investigated using chymotryptic peptides that contain the sites phosphorylated by each enzyme. These studies showed that efficient phosphorylation of sites-3, required the presence of phosphate in site-5 and a region of polypeptide more than 20 residues C-terminal to site-5. In contrast, efficient phosphorylation by casein kinase-II does not require this C-terminal region, and the results are consistent with the view that the enzyme recognises acidic residues immediately C-terminal to site-5.
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PMID:Multisite phosphorylation of glycogen synthase. Molecular basis for the substrate specificity of glycogen synthase kinase-3 and casein kinase-II (glycogen synthase kinase-5). 608 11

Acetyl-CoA carboxylase (EC 6.4.1.2) has been isolated from rat liver by an avidin-affinity chromatography technique. This preparation has a specific activity of 1.17 +/- 0.06 U/mg and appears as a major (240,000 dalton) and minor (140,000 dalton) band on SDS-polyacrylamide gel electrophoresis. Enzyme isolated by this technique can incorporate 1.09 +/- 0.07 mol phosphate per mol enzyme (Mr = 480,000) when incubated with the catalytic subunit of the cyclic AMP-dependent protein kinase at 30 degrees C for 1 h. The associated activity loss under these conditions is 57 +/- 4.0% when the enzyme is assayed in the presence of 2.0 mM citrate. Less inactivation is observed when the enzyme is assayed in the presence of 5.0 mM citrate. The specific protein inhibitor of the cyclic AMP-dependent protein kinase blocks both the protein kinase stimulated phosphorylation and inactivation of acetyl-CoA carboxylase. The phosphorylated, inactivated rat liver carboxylase can be partially dephosphorylated and reactivated by incubation with a partially purified protein phosphatase. Preparations of acetyl-CoA carboxylase also contained an endogenous protein kinase(s) which incorporated 0.26 +/- 0.11 mol phosphate per mol carboxylase (Mr = 480,000) accompanied by a 26 +/- 9% decline in activity. We have additionally confirmed that the rat mammary gland enzyme, also isolated by avidin affinity chromatography, can be both phosphorylated and inactivated upon incubation with the cyclic AMP-dependent kinase.
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PMID:In vitro phosphorylation and inactivation of rat liver acetyl-CoA carboxylase purified by avidin affinity chromatography. 612 72

1. Phosphatase II is a form of phosphoprotein phosphatase originally found in rat liver extract; it has a molecular weight of 160 000 by gel filtration and is highly active towards phosphorylase alpha. This phosphatase has been purified 1800-fold by using DEAE-cellulos (DE-52), aminohexyl--Sepharose-4B, protamine--Sepharose-4B and Sephadex G-200 chromatography. Throughout the purification steps, the original molecular weight and substrate specificity of phosphatase II were almost perfectly preserved. 2. The product of the final purification step migrated predominantly as a single protein band on non-denaturing gel electrophoresis. Sodium dodecyl sulfate gel electorphoresis revealed that the enzyme contains two types of subunit, alpha and beta, with molecular weights of 35 000 and 69 000, respectively. When treated with 0.2 M 2-mercaptoethanol at -20 degrees C, phosphatase II was dissociated to release the catalytically active alpha subunit. The beta subunit may be catalytically inactive but interacts with the alpha subunit so that phosphatase II becomes much less susceptible than the alpha subunit to inactivation by ATP or pyrophosphate.
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PMID:Purification and subunit structure of a high-molecular-weight phosphoprotein phosphatase (phosphatase II) from rat liver. 624 46

1. Phosphoprotein phosphatase IB is a form of rat liver phosphoprotein phosphatase, distinguished from the previously studied phosphoprotein phosphatase II [Tamura et al. (1980) Eur. J. Biochem. 104, 347-355] by earlier elution from DEAE-cellulose, by higher molecular weight on gel filtration (260000) and by lower activity toward phosphorylase alpha. This enzyme was purified to apparent homogeneity by chromatography on DEAE-cellulose, aminohexyl--Sepharose-4B, histone--Sepharose-4B, protamine--Sepharose-4B and Sephadex G-200. 2. The molecular weight of purified phosphatase IB was 260000 by gel filtration and 185000 from S20,W and Stokes' radius. Using histone phosphatase activity as the reference for comparison, the phosphorylase phosphatase activity of purified phosphatase IB was only one-fifth that of phosphatase II. 3. Sodium dodecyl sulfate gel electrophoresis revealed that phosphatase IB contains three types of subunit, namely alpha, beta and gamma, whose molecular weights are 35000, 69000 and 58000, respectively. The alpha subunit is identical to the alpha subunit of phosphatase II. While the beta subunit is also identical or similar to the beta subunit of phoshatase II, the gamma subunit appears to be unique to phosphatase IB. 4. When purified phosphatase IB was treated with 2-mercaptoethanol at -20 degrees C, the enzyme was dissociated to release the catalytically active alpha subunit. Along with this dissociation, there was a 7.4-fold increase in phosphorylase phosphatase activity; but histone phosphatase activity increased only 1.6-fold. The possible functions of the gamma subunit are discussed in relation to this activation of enzyme.
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PMID:Purification and subunit structure of rat-liver phosphoprotein phosphatase, whose molecular weight is 260000 by gel filtration (phosphatase IB). 625 74


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