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)

The flip-flop model is a mechanistic model proposed to describe how calmodulin activates enzymes. One prediction based upon this model is that calmodulin-activated enzymes would contain a calmodulin-like binding site which, among other attributes, would bind the peptide melittin. Five purified calmodulin-activated enzymes, namely calcineurin, myosin light chain kinase, phosphorylase b kinase, phosphodiesterase, and NAD kinase, were all found to bind biotinylated melittin and to also bind an antimelittin antibody and biotinylated calmodulins. Using gel blots of crude tissue extracts (rat brain and Arabidopsis), most proteins did not bind any of the probes and thus do not have these characteristics. However, among those which bind any of these probes, a strong correlation was found between those proteins which bind biotinylated calmodulins and those which bind melittin and antimelittin. Gel blots of phosphorylase b kinase demonstrate that the alpha, beta, and gamma subunits all bind calmodulin and melittin. A putative calmodulin-like binding site sequence was identified in eight enzymes or subunits which may play an important role in both melittin binding and calmodulin-dependent regulation of these enzymes.
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PMID:Calmodulin-binding proteins also have a calmodulin-like binding site within their structure. The flip-flop model. 184 67

Two type 2A protein phosphatases, phosphatases I (Mr = 180,000) and III (Mr = 177,000), were purified to near homogeneity from human erythrocyte cytosol. Phosphatase I was composed of alpha (34 kDa), beta (63 kDa), and delta (74 kDa) subunits in a ratio of 1:1:1. Phosphatase III comprised alpha, beta, and gamma (53 kDa) subunits in the same ratio. Heparin-Sepharose column chromatography converted most of phosphatase I and 20% of phosphatase III into alpha 1 beta 1 which were indistinguishable from phosphatase IV (Usui, H., Kinohara, N., Yoshikawa, K., Imazu, M., Imaoka, T., and Takeda, M. (1983) J. Biol. Chem. 258, 10455-10463). The catalytic subunit alpha and the beta subunit of phosphatases I, III, and IV displayed identical V8 and papain peptide maps, respectively, while the peptide maps of the alpha, beta, gamma, and delta subunits were clearly distinct. The molar ratio of phosphatases I, III, and IV in erythrocyte cytosol was estimated to be 6:1:14. Comparison of molecular activities of alpha, alpha 1 beta 1, alpha 1 beta 1 delta 1, and alpha 1 beta 1 gamma 1 revealed that beta suppressed phosphorylase and P-H2B histone phosphatase activities of alpha but stimulated the P-H1 histone phosphatase activity, and delta suppressed all the phosphatase activities of alpha 1 beta 1. The gamma subunit stimulated the P-histone phosphatase activity of alpha 1 beta 1 but inhibited the phosphorylase and P-spectrin phosphatase activities. The beta subunit increased the Mg2+ or Mn2+ requirement for P-H2B histone phosphatase activity of alpha, an effect which was counteracted by delta. The effects of heparin, H1 histone, protamine, and polylysine on the phosphorylase phosphatase activity of phosphatases I, III, IV, and alpha were described and discussed in connection with the functions of the subunits.
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PMID:Three distinct forms of type 2A protein phosphatase in human erythrocyte cytosol. 283 Dec 1

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

A partially purified pig heart phosphoprotein phosphatase was dissociated into three distinct components, namely alpha, beta, and gamma, by gel filtration on Sephacryl S-200 followed by chromatography on DEAE-Sephadex in the presence of 6 M urea. Although alpha itself had phosphatase activities toward P-H2B histone, P-H1 histone, phosphorylase a, and glycogen synthase b, beta and gamma had no activity toward these substrates even in the presence of 1 mM Mn2+. The beta component (Mr = 80,000) combined with alpha (Mr = 31,000) in the absence of urea to produce Form 2 (Mr = 123,000) with concomitant increase in P-H1 histone phosphatase activity and Mg2+ requirement for P-H2B histone phosphatase activity (Imazu, M., Imaoka, T., Usui, H., Kinohara, N., and Takeda, M. (1981) J. Biochem. 90, 851-862). The gamma component (Mr = 62,000) reassociated with Form 2 to produce Form 1 (Mr = 199,000) which was similar to the original phosphoprotein phosphatase in substrate specificity and Mg2+ requirement. Binding of gamma to Form 2 strongly suppressed the phosphatase activities toward phosphorylase a and glycogen synthase b with marginal effects on the other phosphatase activities and Mg2+ requirement. However, gamma alone could not associate with alpha. The gamma component was sensitive to treatment with heat (60 degrees C for 2 min) or trypsin and was resistant to treatment with DNase or RNase. The pig heart phosphoprotein phosphatase was further purified to near homogeneity, as judged by polyacrylamide gel electrophoresis. Sodium dodecyl sulfate gel electrophoresis revealed that the purified enzyme (Mr = 171,000) was composed of three polypeptide components, namely alpha', beta', and gamma' with molecular weights of 34,000, 69,000, and 56,000, respectively. The component stoichiometry was determined to be alpha' 1 beta' 1 gamma' 1 by densitometric tracing of the Coomassie blue-stained bands on the acrylamide gel. After dissociation of alpha ' and other components by gel filtration of the purified enzyme on Sephacryl S-200 in the presence of 6 M urea, one alpha ' combined with one beta' to produce Form 2' of Mr = 106,000. Since Form 1 and the purified enzyme as well as Form 2 and Form 2' had similar catalytic properties and s20,w values, respectively, component compositions are suggested to be alpha 1 beta 1 gamma 1 for Form 1 and alpha 1 beta 1 for Form Form 2.
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PMID:Resolution and reassociation of three distinct components from pig heart phosphoprotein phosphatase. 629 3

A microcystin (MC)-Sepharose column was prepared by addition of 2-aminoethanethiol to the alpha, beta-unsaturated carbonyl of the N-methyldehydroalanine residue of MC-LR, followed by reaction of the introduced amino group with N-hydroxysuccinimide-activated CH-Sepharose. The MC-Sepharose bound protein phosphatase-1 (PP1) with high capacity and purified human PP1 gamma in one step from E. coli extracts. It was also used to purify forms of PP1 bound to myofibrils from skeletal muscle. Two of these comprised PP1 complexed to N-terminal fragments of the M-subunit which enhance its myosin phosphatase activity, while the third comprised PP1 and an N-terminal fragment of the glycogen-binding (G)-subunit.
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PMID:Purification of type 1 protein (serine/threonine) phosphatases by microcystin-Sepharose affinity chromatography. 798 18

Initiation factor eIF-2 (a trimer of subunits alpha, beta and gamma) attaches the initiator Met-tRNA to the ribosome during the initiation of translation in eukaryotic cells. Both the alpha and beta subunits can be phosphorylated although the sites in the beta-subunit have not previously been fully identified. Here we identify the sites at which eIF-2 beta is phosphorylated in vitro by three well-characterised protein kinases, casein kinase-2 (which phosphorylates serine residues-2 and -67), protein kinase C (serine-13) and cAMP-dependent protein kinase (serine-218). This constitutes an essential prerequisite for studying the phosphorylation of eIF-2 beta in vivo. Indeed, we present evidence that at least one of these sites (serine-67) is phosphorylated in reticulocytes. The major kinase activity against eIF-2 beta in reticulocyte lysates appears in CK-2 and protein phosphatase-2A is the principal enzyme responsible for dephosphorylation of eIF-2 beta phosphorylated by this kinase.
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PMID:Identification of novel phosphorylation sites in the beta-subunit of translation initiation factor eIF-2. 802 72

Modulation by protein phosphorylation of the relation between acetylcholine (ACh)-activated current (IACh) and adenosine triphosphate-(ATP)-activated current (IATP) was investigated with the whole-cell voltage-clamp technique in rat sympathetic neurons. During simultaneous activation by 100 microM ATP of an inward current, the current evoked by 100 microM ACh was reduced to 60-70% of that in the absence of ATP. Effects of compounds that are known to modulate protein phosphorylation were tested by including them in the intracellular solution. The reduction of IACh by ATP was not observed when K252a (1 microM), a non-selective protein kinase inhibitor, adenosine 5'-O-(3-thiotriphosphate) (ATP[gamma S], 1 mM) or alpha, beta-methylene ATP (1 mM) were included in the intracellular solution. Activators of protein kinases, adenosine 3',5'-cyclic monophosphate (cAMP, 100 microM), guanosine 3',5'-cyclic monophosphate (cGMP, 100 microM), phorbol 12-myristate 13-acetate (PMA, 1 microM), also abolished the reduction by ATP of IACh. The effects of okadaic acid, a protein phosphatase inhibitor, were paradoxical: okadaic acid (2 microM) itself abolished the reduction by ATP of IACh but it "antagonized" the abolishment by cAMP or cGMP of the reduction of IACh. Okadaic acid did not affect the disappearance of the reduction of IACh by ATP in the presence of intracellular PMA. The results suggest that the interaction between IACh and IATP is regulated by protein phosphorylation/dephosphorylation. Possible mechanisms underlying the effects of these modulators of protein phosphorylation are discussed.
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PMID:Modulation of the inhibitory action of ATP on acetylcholine-activated current by protein phosphorylation in rat sympathetic neurons. 805 61

Association of the catalytic subunit (C2) with a variety of regulatory subunits is believed to modulate the activity and specificity of protein phosphatase 2A (PP2A). In this study we report the cloning and expression of a new family of B-subunit, the B', associated with the PP2A0 form. Polymerase chain reactions and cDNA library screening have identified at least seven cDNA isotypes, designated alpha, beta 1, beta 2, beta 3, beta 4, gamma, and delta. The different beta subtypes appear to be generated by alternative splicing. The deduced amino acid sequences of the alpha, beta 2, beta 3, beta 4 and gamma isoforms predict molecular weights of 57,600, 56,500, 60,900, 52,500, and 68,000, respectively. The proteins are 60-80% identical and differ mostly at their termini. Two of the isoforms, B' beta 3 and B' gamma, contain a bipartite nuclear localization signal in their COOH terminus. No homology was found with other B- or B- related subunits. Northern analyses indicate a tissue-specific expression of the isoforms. Expression of B' alpha protein in Escherichia coli generated a polypeptide of approximately 53 kDa, similar to the size of the B' subunit present in the purified PP2A0. The recombinant protein was recognized by antibody raised against native B' and interacted with the dimeric PP2A (A.C2) to generate a trimeric phosphatase. The deduced amino acid sequences of the B' isoforms show significant homology to mammalian, fungal, and plant nucleotide sequences of unknown function present in the data bases. Notably, a high degree of homology (55-66%) was found with a yeast gene, RTS1, encoding a multicopy suppressor of a rox3 mutant. Our data indicate that at least seven B' subunit isoforms may participate in the generation of a large number of PP2A0 holoenzymes that may be spatially and/or functionally targeted to different cellular processes.
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PMID:High complexity in the expression of the B' subunit of protein phosphatase 2A0. Evidence for the existence of at least seven novel isoforms. 857 24

Calcineurin (also called protein phosphatase-2B) is a calmodulin-regulated protein phosphatase which plays an important role in signal transduction. The enzyme is a heterodimer of a 58-59 kDa calmodulin-binding catalytic subunit (calcineurin A) and a small (i.e. 19 kDa) Ca(2+)-binding regulatory subunit (calcineurin B). The highly conserved calcineurin B is encoded by a single gene in all tissues except testes, whereas there are three isoforms of calcineurin A (alpha, beta and gamma) encoded by genes on three different chromosomes. This enzyme can play a critical role in transcriptional regulation and growth control in T lymphocytes by a mechanism believed to involve dephosphorylation of the nuclear factor NF-AT which is essential for transcription of the interleukin-2 gene. To better evaluate the potential role of the calcineurin genes in human genetic disorders, we have studied their chromosome locations. Calcineurin B (PPP3R1) is located on human chromosome 2p16-->p15 and calcineurin A beta (PPP3CB, previous gene symbol CALNB) is present on 10q21-->q22. We confirm the localization of calcineurin A alpha (PPP3CA, previous gene symbol CALNA) to chromosome 4 without regional localization.
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PMID:Calcineurin A alpha (PPP3CA), calcineurin A beta (PPP3CB) and calcineurin B (PPP3R1) are located on human chromosomes 4, 10q21-->q22 and 2p16-->p15 respectively. 897 85

Tyrosine kinases (TK) and G proteins act as second, messengers for intracellular signal transduction. TK activates the cascade of protein phosphorylation. G proteins are heterodimer complex with alpha, beta, and gamma subunits. PLC activated by GTP-binding alpha subunit lyses membrane phosphatidyl inositol (PI), releasing diacyl glycerol (DAG) and inositol trisphosphate (IP3). IP3 releases calcium into cytoplasm to activate calcineurin, causing a NF-AT cytoplasmic factor (NF-ATc) to translocate to nucleus. DAG activates protein kinase C (PKC), which synthesizes another nuclear factor NF-ATn. When NF-ATc and NF-ATn assemble to form the complex on the promoter site of DNA, transcription of IL-2 mRNA begins. PKC also induces phosphorylation of I-kappa B to release NF-kappa B. The complex of CsA or FK506 with CyP or FKBP, respectively, inhibits the activation of calcineurin. FKBP-binding rapamycin inhibits cell proliferation and differentiation by inactivation of p70 s6 kinase. RS61443 and mizoribine influence specifically on the de novo pathway of purine biosynthesis. DSG may bind to Hsc 70 and inhibit the translocation of NF-kappa B into nucleus. FTY720 induces lymphocyte-specific apoptosis, independently on Fas-antigen expressions. by modulating bcl-2 genes.
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PMID:[Transplantation immunology and immunosuppressive drug]. 901 Aug 51

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