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)

Triple resonance 3D NMR methods have been used to study the interaction between calcineurin B and a peptide fragment of calcineurin A for which it has high affinity (KD approximately 4 x 10(-7) M). Although calcineurin B aggregates at NMR concentrations of approximately 1 mM, in the presence of a target peptide fragment of calcineurin A it becomes monomeric and yields NMR spectra that are very similar to those reported previously for calcineurin B solubilized by the zwitterionic detergent CHAPS. Changes in chemical shifts between CHAPS- and peptide-solubilized calcineurin B are small which is indicative of no differences in secondary structure. Residues most affected by binding to target peptide are found primarily on the hydrophobic faces of the four helices, present in each of the two globular domains in calcineurin B, and in the loops connecting helices II and III, IV and V, and possibly in the C-terminal 12 residues, which also exhibit a change in mobility.
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PMID:NMR identification of calcineurin B residues affected by binding of a calcineurin A peptide. 749 55

The calmodulin- and calcium-stimulated protein phosphatase calcineurin, PP2B, consists of two subunits: calcineurin B, which binds Ca2+, and calcineurin A, which contains the catalytic site and a calmodulin binding site. Heteronuclear 3D and 4D NMR experiments were carried out on a recombinant human calcineurin B which is a 170-residue protein of molecular mass 19.3 kDa, uniformly labeled with 15N and 13C. The nondenaturing detergent CHAPS was used to obtain a monomeric form of calcineurin B. Three-dimensional triple resonance experiments yielded complete sequential assignment of the backbone nuclei (1H, 13C, and 15N). This assignment was verified by a 4D HN(COCA)NH experiment carried out with 50% randomly deuteriated and uniformly 15N- and 13C-enriched calcineurin B. The secondary structure of calcineurin B has been determined on the basis of the 13C alpha and 13C beta secondary chemical shifts, J(HNH alpha) couplings, and NOE connectivities obtained from 3D 15N-separated and 4D 13C/15N-separated NOESY spectra. Calcineurin B has eight helices distributed in four EF-hand, helix-loop-helix [Kretsinger, R. H. (1980) CRC Crit. Rev. Biochem. 8, 119-174] calcium binding domains. The secondary structure of calcineurin B is highly homologous to that of calmodulin. In comparison to calmodulin, helices B and C are shorter while helix G is considerably longer. As was observed for calmodulin in solution, calcineurin B does not have a single long central helix; rather, helices D and E are separated by a six-residue sequence in a flexible nonhelical conformation.
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PMID:1H, 13C, 15N nuclear magnetic resonance backbone assignments and secondary structure of human calcineurin B. 814 51

H/K-ATPase preparations (the G1 membrane) from pig stomach contain both kinases and phosphatases and show reversible phosphorylation of Tyr(7), Tyr(10), and Ser(27) residues of the alpha-chain of H/K-ATPase. The Tyr-kinase is sensitive to genistein and quercetin and recognized by anti-c-Src antibody. The Ser-kinase is dependent on Ca(2)(+) (K(0.5) = 0.9 microM), sensitive to a PKC inhibitor, and recognized by antibodies against PKCalpha and PKCbetaII. The addition of 3-[(3-cholamidopropyl)dimethylammonio]-1-propane-sulfonic acid (CHAPS) caused a dramatic increase in the phosphorylation of added synthetic copolymer substrates and permitted the phosphorylation of maltose-binding proteins fused with the N-terminal domain of alpha-chains. The phosphotyrosine phosphatase was inhibited by vanadate. The phosphoserine phosphatase was inhibited by okadaic acid and by inhibitor-2. The presence of protein phosphatase-1 was immunologically detected. Column chromatographic separation of CHAPS-solubilized G1 membrane and others indicate the apparent molecular weight of the Src-kinase to be approximately 60 kDa, the PKCalpha and/or PKCbII to be approximately 80 kDa, the Tyr-phosphatase to be 200 kDa, and PP-1 to be approximately 35 kDa. These data show that these membrane-bound enzyme systems are in sufficiently close proximity to be responsible for reversible phosphorylation of Tyr(7), Tyr(10), and Ser(27) of the catalytic subunit of membrane H/K-ATPase in parietal cells, the physiological role of which is unknown.
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PMID:Membrane enzyme systems responsible for the Ca(2+)-dependent phosphorylation of Ser(27), the independent phosphorylation of Tyr(10) and Tyr(7), and the dephosphorylation of these phosphorylated residues in the alpha-chain of H/K-ATPase. 1078 91

The present study was undertaken to examine the physical and physiological interaction of protein phosphatase 2B, calcineurin, with the ryanodine receptor (RyR) in rat cardiac tissue and neonatal cardiomyocytes. The presence of calcineurin, the RyR and FK506-binding protein (FKBP)12.6 in rat cardiac sarcoplasmic reticulum (SR) was identified by Western blot analysis. The possible interactions between calcineurin, the RyR and FKBP12.6 were further studied by co-immunoprecipitation using CHAPS-solubilized cardiac-membrane fractions (CSMFs) or SR preparations. Physical interactions between the RyR and calcineurin were found in the CSMF in the presence of added 100 microM Ca(2+); however, the interactions were interrupted in the presence of 20 mM EGTA, 1 microM rapamycin or 1 microM FK506, suggesting that the interaction is Ca(2+)-dependent, and is mediated by FKBP12.6. The Ca(2+)-dependent interaction between FKBP12.6 and the RyR was also found by co-immunoprecipitation. Effects of calcineurin inhibitors were tested on neonatal-rat-heart cardiomyocytes. Treatment of neonatal cardiomyocytes with 20 microM deltamethrin, 10 microM cyclosporin A (CsA), or 10 mciroM FK506 led to Ca(2+) oscillations in originally quiescent cardiomyocytes. Preincubation of cardiomyocytes with 20 microM rapamycin which dissociates FKBP12.6 from the RyR, evoked Ca(2+) oscillations, probably due to the leakiness of the RyR. However, Ca(2+) oscillations by rapamycin were not further affected by 10 microM CsA or 10 mciroM deltamethrin, suggesting that only RyR-associated calcineurin could regulate the channel activities. In spontaneously Ca(2+)-oscillating cardiomyocytes, CsA or FK506 treatments increased the frequency of oscillations. In 10 microM ryanodine-treated cardiomyocytes, CsA failed to induce Ca(2+) oscillations. These data show evidence that calcineurin associated with the RyR could modulate Ca(2+) release in rat heart.
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PMID:Calcineurin regulates ryanodine receptor/Ca(2+)-release channels in rat heart. 1106 58

Phosphotyrosyl protein phosphatase, purified from the hepatopancreas of Panaeus japonicus, is a monomeric enzyme with a relative mass (Mr) of 28,000, as estimated by size-exclusion FPLC on a Superose 12. It has a hydrophobic domain and can be extracted with the detergent CHAPS.The specific activity of the purified enzyme was 9,800 units/mg of protein. The purified enzyme had an isoelectric point less than 4.6, and an optimal pH of 6.5 with either a synthetic peptide or autophosphorylated receptors for insulin as the substrate. The purified phosphotyrosyl protein phosphatase from shrimp hepatopancreas dephosphorylated human and shrimp receptors for insulin and was inactivated by ZnC1(2), LiC1, MgC1(2), and NaF.
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PMID:Characterization of phosphotyrosyl protein phosphatase fom the hepatopancreas of the shrimp Penaeus japonicus (Crustacea: Decapoda). 2050 11