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)

Two nuclear phosphoprotein phosphatases (PPases I and II) that cause dephosphorylation of [32P]histone, have been partially purified from goat testis. The enzymic activity is associated with nucleoplasm and chromatin. PPase I is markedly stimulated (approx. 200-600%) by Mg2+ or Mn2+ (1 mM) whereas Ca2+ (1 mM) causes slight stimulation (approx. 35%) of the enzyme. On the contrary, PPase II is only slightly activated (20-40%) by these metal ions (5 mM). Both the phosphoprotein phosphatase isoenzymes are maximally active at pH 6-7. PPases I and II are strongly inhibited (approx. 60-100%) by ZnCl2 (1 mM), P1 (5 mM) and thiol reagents. NaF (5 mM) inhibits (approx. 40%) specifically the activity of PPase I rather than PPase II. PPases are strongly inhibited by relatively high concentration of NaCl (0.4 M), isoenzyme II being more sensitive (approx. 80%) than isoenzyme I (approx. 50%). In addition to histones, both the isoenzymes can as well cause dephosphorylation of protamine, casein, and testicular nuclear proteins. Enzymic characteristics of the testicular nuclear PPases are clearly different from those of the cytosolic enzyme previously characterized.
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PMID:Characterization of nuclear phosphoprotein phosphatases from goat testis. 609 85

A phosphorylated regulatory subunit of cyclic AMP-dependent protein kinase (type II) was purified to homogeneity from inorganic [32P]phosphate-injected rats. A new method of measuring the phosphorylation reaction was developed. It was found that this regulatory subunit was phosphorylated in cells and comprised 60, 82 and 55% of the total regulatory subunit in brain, heart and liver cytosol fractions from rats, respectively. Dephosphorylation was stimuated by cyclic nucleotides. The Ka values for cyclic AMP and cyclic IMP were 0.30 and 1.0 microM, respectively. Purified phosphoprotein phosphatase could dephosphorylate the regulatory subunit and this reaction was also stimulated by cyclic nucleotides with similar Ka values. The inhibitors of phosphoprotein phosphatase, NaF and ZnCl2, protected against dephosphorylation unless ADP or cyclic AMP were present.
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PMID:Phosphorylation and dephosphorylation of the regulatory subunit of cyclic 3',5'-monophosphate-dependent protein kinase (type II) in vivo and in vitro. 624 93

Calmodulin-dependent protein phosphatase of bovine brain exhibited a pH optimum of 7 and appeared to require sulfhydryl groups for activity. Phosphatase activity was inhibited by both NaF and ZnCl2, but was stimulated approximately 2-fold by MnCl2. The enzyme exhibited broad substrate specificity, dephosphorylating casein, troponin I, protamine, histone, and phosvitin, and was not phosphorylated by cAMP-dependent protein kinase. With 32P-labeled casein as a substrate, phosphatase was activated 15-fold by calmodulin; the dissociation constant of phosphatase for calmodulin was 30 nM. Activation of the enzyme by calmodulin as a function of Ca2+ was highly cooperative; the Hill coefficient was 4.9. At a saturating concentration of calmodulin, half-maximal activation of phosphatase was obtained at 0.3 microM Ca2+. Calmodulin increased the Vmax from 1.7 to 41 nmol mg protein-1 min-1 with no significant change in its Km. Formation of a Ca2+-dependent complex between calmodulin and the phosphatase was demonstrated by a calmodulin-Sepharose affinity column, gel-filtration chromatography, and sedimentation on a sucrose density gradient. The rate of formation and dissociation of the calmodulin X phosphatase complex was rapid and readily reversible in response to changes in Ca2+ concentration. The calmodulin X phosphatase complex consists of 1 mol of calmodulin and 1 mol of phosphatase.
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PMID:Characterization of bovine brain calmodulin-dependent protein phosphatase. 633 19

The role of protein phosphatase 2B (PP2B/calcineurin) of Saccharomyces cerevisiae in the tolerance to divalent cations was investigated. PP2B-deficient mutants were found to be sensitive to MnCl2, but not to ZnCl2, CuCl2, NiCl2 and CoCl2. By measuring both manganese uptake and its efflux, it was found that the sensitivity of the mutant cells was due to an increase in manganese uptake and that the wild-type cells were able to prevent manganese entry into the cells, rather than export it in a more efficient manner. In the presence of the immunosuppressant FK506, the behavior of wild-type cells became similar to that of PP2B mutants. Out of various divalent cations tested, externally added magnesium ions were able to block manganese uptake in both wild-type and PP2B mutant strains.
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PMID:Protein phosphatase 2B of Saccharomyces cerevisiae is required for tolerance to manganese, in blocking the entry of ions into the cells. 758 8

DNA topoisomerase I was partially purified from the hepatopancreas of the shrimp Penaeus japonicus. The specific activity of the final preparation was 7,000,000 units/mg of protein with SV40 viral DNA as substrate. SDD-polyacrylamide gel electrophoresis of the final preparation yielded two major bands of proteins with M(r) 70,000 and M(r) 67,000, as well as less intense bands of proteins with M, 64,000 and M(r) 56,000. Incubation of the partially purified enzyme fraction with rabbit antiserum against human DNA topoisomerase I, allowed all these proteins except that of M(r) 56,000, to be positively reacted. Treatment of the partially purified DNA topoisomerase I with tyrosine kinase p43v-abl resulted in phosphorylation of only the two major subunits. Phosphorylation by tyrosine kinase p43v-abl or dephosphorylation by phosphotyrosyl protein phosphatase resulted in a decrease of the enzymatic activity. The treatment with shrimp alkaline phosphatase abolished the enzymatic activity of the purified DNA topoisomerase I in a dose-dependent manner. Thus, the DNA topoisomerase I was apparently isolated from the hepatopancreas of the shrimp P. japonicus in a phosphorylated form, and this phosphorylation was essential for expression of enzymatic activity in vitro. The activity of DNA topoisomerase I is inhibited by ZnCl2, CuCl2 and Pb(NH3)3 at millimolar concentrations, but less inhibition was observed with CaCl2.
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PMID:Modification of DNA topoisomerase I enzymatic activity with phosphotyrosyl protein phosphatase and alkaline phosphatase from the hepatopancreas of the shrimp Penaeus japonicus (Crustacea:Decapoda). 875 89

The partially purified 57-kDa protein of Spiroplasma melliferum was autophosphorylated when incubated with ATP in the presence of ZnCl2. Autophosphorylation was also apparent by showing the in situ phosphorylation of the 57-kDa protein band separated by polyacrylamide gel electrophoresis under nondenaturing conditions. The autophosphorylation was affected neither by the pH of the reaction mixture nor by the presence of NaF. The steady state level of the phosphorylated 57-kDa protein remained constant for up to 15 min, suggesting the absence of a phosphoprotein phosphatase activity in the preparation. As the initial phosphorylation rate did not decrease upon a 100-fold dilution of the 57-kDa protein under constant substrate concentration, it is suggested that the autophosphorylation is an intramolecular process.
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PMID:The 57-Kilodalton Phosphoprotein of Spiroplasma melliferum Is Autophosphorylated 893 99

Sulfhydryl reagents, such as dithiothreitol (DTT), affected the activity of Ser/Thr phosphoprotein phosphatases. Addition of DTT to the assay buffer increased the affinity of lambda Ser/Thr phosphoprotein phosphatase (lambda-PPase) for its Mn2+ cofactor. On the other hand, the enzyme was found to be inactivated simply by dilution in Tris buffer. The inactivation could be completely prevented by the presence of DTT or Mn2+ in the buffer. Further studies showed that oxidation or reduction of cysteine residues in lambda-PPase may not be the cause of the change in the enzyme activity. Without exception, mutation of all cysteine residues in lambda-PPase to serine did not convert the enzyme into a thiol-insensitive mutant. By careful examination of the effects of different sulfhydryl reagents, metal ion cofactors and substrates on lambda-PPase, it was found that the role of sulfhydryl reagents was the chelation of small amounts of inhibitory metal ions, which were present in plastic laboratory ware, such as disposable cuvets and tubes, with prevention of the enzyme from inactivation. One of the main contaminants found in plastic cuvets was Zn2+, which is a potent inhibitor of lambda-PPase. The inhibition of lambda-PPase by Zn2+ was characterized. Pre-treatment of the enzyme (1-4 nM) with 1 microM of ZnCl2 almost completely inhibited the enzymatic activity in response to 2 mM Mn2+. However, no significant inhibition was found when the enzyme was added to the assay mixture containing 1 microM Zn2+ and 2 mM Mn2+ . This confirms the sensitivity of the holoenzyme to inhibitory metal ions in vitro. The kinetic analysis indicated that the inhibitory metal ion might compete with Mn2+ to bind to the active site of lambda-PPase. This was further supported by the mutation of metal cofactor binding amino acid residues of the enzyme. Mutants which have less affinity for Mn2+ are also less sensitive to Zn2+. Our results suggest that inhibitory metal ions may induce a different structural conformation for lambda-PPase.
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PMID:Effects of sulfhydryl regents on the activity of lambda Ser/Thr phosphoprotein phosphatase and inhibition of the enzyme by zinc ion. 954 6

A Mn2+-dependent protein phosphatase 2A which is composed of a 34 kDa catalytic C' subunit and a 63 kDa regulatory A' subunit, was purified from human erythrocyte cytosol. C' and A' produced V8- and papain-peptide maps identical to those of the 34 kDa catalytic C and the 63 kDa regulatory A subunits of the Mn2+-independent conventional protein phosphatase in human erythrocyte cytosol, respectively. Reconstitution of C'A and CA' revealed that the metal dependency resided in C' and not in A'. In CA, 0.87 +/- 0.12 mol zinc and 0.35 +/- 0.18 mol iron per mol enzyme were detected by atomic absorption spectrophotometry, but manganese, magnesium and cobalt were not detected. None of these metals was detected in C'A'. Pre-incubation of C' with ZnCl2 and FeCl2, but not FeCl3, synergistically stimulated the Mn2+-independent protein phosphatase activity. The protein phosphatase activity of C was unaffected by the same zinc and/or iron treatment. These results suggest that C is a Zn2+- and Fe2+-metalloenzyme and that C' is the apoenzyme.
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PMID:Direct metal analyses of Mn2+-dependent and -independent protein phosphatase 2A from human erythrocytes detect zinc and iron only in the Mn2+-independent one. 1021 76