EC:2.7.11.17 - FACTA Search

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Query: EC:2.7.11.17 (CaMKII)
4,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Synthetic polypeptides were employed as substrates in kinetic analyses of the reaction mechanism for the catalytic subunit of a cyclic AMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) from calf thymus. This enzyme preparation was shown to catalyze the transfer of phosphate from ATP to histone H1 from calf thymus, as well as to two synthetic polypeptides, Arg-Lys-Ala-Ser-Gly-Pro (H1-6) and Arg-Arg-Lys-Ala-Ser-Gly-Pro (H1-7), corresponding to the amino acid sequence about serine-38 in calf H1. A related, basic heptapeptide corresponding to a sequence from pig liver pyruvate kinase, Leu-Arg-Arg-Ala-Ser-Leu-Gly (K), was also a substrate. The stoichiometry of peptide phosphorylation was established in each case as the transfer of 1 mol of phosphate from the gamma position of MgATP to the serine hydroxyl of 1 mol of the peptide. Steady-state, initial-velocity, kinetic parameters were determined for each substrate, using various concentrations of ATP. Under the conditions used, all synthetic peptides reacted with greater maximum velocities than whole histone H1. Nevertheless, the K(m) for H1, 54 muM, was lower than the K(m) values of the synthetic substrates. The most efficient substrate was peptide K, which had a V(max) of 50.6 mumol/min per mg of kinase and a K(m) of 63 muM. In the absence of peptide substrate no ATPase activity was detectable at a sensitivity of 0.05% of the rate of peptide phosphorylation, suggesting that ATP is not cleaved to form an unstable phosphoenzyme complex. The data are consistent with a sequential reaction mechanism involving a ternary complex between enzyme, polypeptide substrate, and ATP.
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PMID:Studies on the mechanism of phosphorylation of synthetic polypeptides by a calf thymus cyclic AMP-dependent protein kinase. 20 Sep 11

The catalytic subunit of cyclic 3':5'-AMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) inhibits translation in Artemia salina and wheat germ extracts. It acts, as in reticulocyte lysates [Datta, A., de Haro, C., Sierra, J. M. & Ochoa, S. (1977) Proc. Natl. Acad. Sci. USA 74, 1463-1467] by catalyzing the conversion of a proinhibitor to an inhibitor of polypeptide chain initiation. Addition of ATP and either cyclic AMP or catalytic subunit promotes the proinhibitor-inhibitor conversion in crude proinhibitor preparations from A. salina embryos. The effect of cyclic AMP is due to stimulation of cyclic AMP-dependent protein kinase, present in such preparations, and is inhibited by hemin. In similar preparations from wheat germ, addition of ATP and catalytic subunit promoted proinhibitor-inhibitor conversion, but addition of ATP and cyclic AMP has little or no effect. As assayed with histone as substrate, wheat germ preparations exhibit a protein kinase activity that is not stimulated by the addition of cyclic AMP or cyclic GMP. Our results suggest that a translational control system, similar to that existing in rabbit reticulocytes and other mammalian cells, is present in organisms evolutionarily far removed from mammals.
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PMID:Translational control by protein kinase in Artemia salina and wheat germ. 27 Jun 77

Incubation of reticulocyte lysates or isolated crude ribosomes with low levels of double-stranded RNA (0.1-10 ng/ml) induces the formation of an inhibitor of protein synthesis initiation similar to that observed in heme deficiency. The inhibitor is associated with a cyclic AMP-independent protein kinase activity (ATP:protein phosphotransferase, EC 2.7.1.37) that phosphorylates the small polypeptide (38,000 daltons) of the eukaryotic initiation factor eIF-2. Activation of the inhibitor requires ATP in addition to double-stranded RNA and is accompanied by the phosphorylation of a 67,000-dalton polypeptide of unknown function. The inhibitor remains associated with the ribosomes during high-speed sedimentation. Once formed, the ribosome-associated inhibitor phosphorylates eIF-2 and inhibits protein synthesis in the absence of double-stranded RNA. Inhibition is prevented by exogenous eIF-2. The bound inhibitor can be solubilized by extraction with 0.5 M KCl. The soluble inhibitor preparation retains the ability to phosphorylate the small polypeptide of eIF-2 and to inhibit protein synthesis. Untreated crude ribosomes also contain cyclic AMP-independent protein kinase activities that phosphorylate the middle polypeptide (49,000 daltons) of eIF-2 and several polypeptide subunits of eIF-3 (160,000, 125,000, and 65,000 daltons); these kinase activities are not affected by double-stranded RNA and do not inhibit protein synthesis.
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PMID:Regulation of protein synthesis: activation by double-stranded RNA of a protein kinase that phosphorylates eukaryotic initiation factor 2. 27 4

Calponin, a thin-filament protein of smooth muscle, has been implicated in the regulation of smooth-muscle contraction, since in vitro the isolated protein inhibits the actin-activated myosin MgATPase. This inhibitory effect, and the ability of calponin to bind to actin, is lost after its phosphorylation by protein kinase C or Ca2+/calmodulin-dependent protein kinase II [Winder & Walsh (1990) J. Biol. Chem. 265, 10148-10155]. If this phosphorylation reaction is of physiological significance, there must be a protein phosphatase in smooth muscle capable of dephosphorylating calponin and restoring its inhibitory effect on the actomyosin MgATPase. We demonstrate here the presence, in chicken gizzard smooth muscle, of a single major phosphatase activity directed towards calponin. This phosphatase was purified from the soluble fraction of chicken gizzard by (NH4)2SO4 fractionation and sequential chromatography on Sephacryl S-300, DEAE-Sephacel, omega-amino-octyl-agarose and thiophosphorylated myosin 20 kDa light-chain-Sepharose columns. The purified phosphatase contained three polypeptide chains of 60, 55 and 38 kDa which were shown to be identical with the subunits of SMP-I, a smooth-muscle phosphatase capable of dephosphorylating the isolated 20 kDa light chain of myosin but not intact myosin [Pato & Adelstein (1983) J. Biol. Chem. 258, 7047-7054]. Consistent with its identity with SMP-I, calponin phosphatase was classified as a type-2A protein phosphatase. Of several potential phosphoprotein substrates examined, calponin proved to be kinetically the best, suggesting that calponin may be a physiological substrate for this phosphatase. Finally, dephosphorylation of calponin which had been phosphorylated by protein kinase C restored completely its ability to inhibit the actin-activated MgATPase of smooth-muscle myosin. These observations support the hypothesis that calponin plays a role in regulating the contractile state of smooth muscle and that this function in turn is controlled by phosphorylation-dephosphorylation.
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PMID:Purification and characterization of calponin phosphatase from smooth muscle. Effect of dephosphorylation on calponin function. 132 79

Ca2+/calmodulin-dependent protein kinase enriched in cerebellar granule cells (CaM kinase Gr) is a neuronal calmodulin-dependent protein kinase whose purification and partial cloning from rat brain has been described. A combination of the polymerase chain reaction and cDNA library screening was used to determine the DNA sequence that encodes most of the remaining polypeptide sequence. The deduced amino acid sequence was confirmed by comparison with the peptide sequence from purified CaM kinase Gr. Analysis of this sequence indicated the presence of potential catalytic, regulatory, and association domains with 42% overall homology to the alpha subunit of another neuronal Ca2+/calmodulin-dependent protein kinase, CaM kinase II. The degree of homology within the catalytic domain was 58% with conservation of all invariant amino acids. The portion of sequence that extended from the hypothesized calmodulin-binding domain to the carboxyl terminus of the protein was identical at both the amino acid and nucleotide level to the noncatalytic, calmodulin-binding protein calspermin from rat testis. Screening a genomic library with a portion of the cDNA for CaM kinase Gr allowed the isolation of a genomic clone that contained at least 9 kilobases (kb) of the gene for CaM kinase Gr. Analysis of the sequence revealed that the coding sequences for calspermin were contained within the CaM kinase Gr gene and that alternative splicing of internal exons may lead to the formation of the two different proteins, CaM kinase Gr and calspermin.
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PMID:Relationship of genes encoding Ca2+/calmodulin-dependent protein kinase Gr and calspermin: a gene within a gene. 164 30

We found a novel 81-kDa acidic protein (ACAMP-81) in the bovine brain membrane fraction, which bound to calmodulin in a Ca(2+)-dependent manner. The present study reveals physicochemical properties and phosphorylation of this protein with various protein kinases in vitro. The Stokes radius and sedimentation coefficient were calculated to be 52 A and 2.05 S, respectively, suggesting that the structure of ACAMP-81 is highly elongated. Purified Ca2+/phospholipid-dependent protein kinase (protein kinase C), cAMP-dependent protein kinase, and Ca2+/calmodulin-dependent protein kinase II (Ca2+/CaM kinase II) catalyzed the incorporation of 1.46, 0.72, and 0.44 mol of phosphate/mol of ACAMP-81, respectively. The amino acid residues of ACAMP-81 phosphorylated by either protein kinase C or cAMP-dependent protein kinase were almost exclusively on serine. Sequential phosphorylation of ACAMP-81 by cAMP-dependent protein kinase and protein kinase C resulted in the additional incorporation of 1.15 mol of [32P]phosphate into ACAMP-81. Comparison of phosphopeptide maps of ACAMP-81 phosphorylated by each kinase revealed that there are two classes of phosphorylatable polypeptide, one is phosphorylatable by both protein kinases which contained two polypeptides and the others are specific sites for protein kinase C.
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PMID:Phosphorylation of bovine brain 81-kDa acidic calmodulin binding protein (ACAMP-81) in vitro. 165 83

A monoclonal antibody was made using the spleen cells of a mouse immunized with chick synaptic membranes and designated as mAb 1D12. It immunoprecipitated 25% of the omega-conotoxin binding protein but no dihydropyridine binding protein solubilized from chick brain membranes. By immunoblotting, a polypeptide of 58-kDa was identified as the antigen of this antibody in chick, rat, rabbit and guinea pig brain. Immunohistochemical observation indicated the immunoreactivity of mAb 1D12 to be localized in the synaptic regions of central and peripheral neurons. In peripheral organs, there was additional staining in the distal portions of nerve fibers. Immunoelectron microscopy showed immunoreactivity to be located in synaptic vesicle and presynaptic plasma membranes. In the subcellular fractionation of rat brain, 58-kDa protein was recovered in the fractions of synaptic vesicles and plasma membranes but not soluble proteins. This protein could be extracted from membranes by Triton X-100 but treatment with EDTA, acid, base or high salt failed to have such effect. Solubilized 58-kDa protein of rat brain was purified by immunoaffinity chromatography using mAb 1D12. Both protein kinase C and Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) phosphorylated purified 58-kDa protein, and maxima of 0.47 and 0.94 mol of phosphates, respectively, were incorporated per mol of 58-kDa protein. 58-kDa protein was not phosphorylated by either cAMP-dependent or cGMP-dependent protein kinase. When present in membranes, it was also phosphorylated by protein kinase C and CaM kinase II. Possible involvement of 58-kDa protein in the protein kinase C and CaM kinase II-mediated regulation of synaptic transmission in central and peripheral neurons is discussed.
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PMID:Protein kinase C and Ca2+/calmodulin-dependent protein kinase II phosphorylate a novel 58-kDa protein in synaptic vesicles. 165 60

The regional and tissue-specific expression of the Ca2+/calmodulin-dependent protein kinase, CaM kinase-Gr, were examined. The Mr 65,000 alpha-polypeptide of CaM kinase-Gr is expressed ubiquitously in different anatomical regions of rat brain, whereas an additional Mr 67,000 beta-polypeptide is observed solely in the cerebellum. The alpha-polypeptide appears in the neonatal rat forebrain and cerebellum, whereas the beta-polypeptide appears by the second postnatal week and may reflect cerebellar granule cell differentiation. Most peripheral tissues do not express either CaM kinase-Gr polypeptide. However, rat thymus and thymocytes derived therefrom express CaM kinase-Gr at levels comparable to those of the central nervous system. The identity of the enzyme in rat thymus was corroborated by immunoblot assays, Northern blots, and direct enzyme purification. Rat spleen and testis also produce CaM kinase-Gr, but at lower levels than either thymus or brain. These observations demonstrate selective regional and developmental expression of CaM kinase-Gr polypeptide in brain, and suggest that it may participate in Ca2+ signalling in cells derived both from the immune system as well as the central nervous system.
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PMID:Expression of a neuronal Ca2+/calmodulin-dependent protein kinase, CaM kinase-Gr, in rat thymus. 189 42

We purified a Ca2+/calmodulin (CaM)-dependent protein kinase (CaM kinase) from the yeast Saccharomyces cerevisiae with properties similar to mammalian type II CaM kinases. Degenerate oligonucleotides designed on the basis of the amino acid sequence of tryptic peptides from the 55 kd subunit of the yeast CaM kinase were used to isolate its gene from a set of lambda gt11-yeast genomic DNA phage clones initially selected by the ability to bind 125I-labelled yeast CaM. The cloned gene (CMK1) encodes an open reading frame that is homologous to the sequences of vertebrate type II CaM kinases. Several criteria demonstrated that the CMK1 gene product is the 55 kd polypeptide. Neither over-production (11-fold) nor complete elimination of the CMK1 gene product had any detectably deleterious effect on yeast cell growth. Extracts from cmk1 delta cells, which lacked detectable p55 using an antiserum raised against a Staphylococcus aureus protein A-CMK1 fusion protein, possessed significant residual Ca2+/CAM-dependent protein kinase activity. Using the CMK1 gene as a probe at low stringency, a second gene (CMK2) encoding another CaM-dependent protein kinase with striking sequence similarity to CMK1 was cloned. Deletion of CMK2, or both CMK1 and CMK2, was not lethal, although loss of CMK2 caused a slow rate of spore germination.
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PMID:Multiple Ca2+/calmodulin-dependent protein kinase genes in a unicellular eukaryote. 202 47

The dominant insulin-stimulated ribosomal protein S6 kinase activity was purified to near homogeneity from insulin-treated 32P-labeled rat H4 hepatoma cells and found to copurify with a 70-kDa 32P-labeled polypeptide. The dominant S6 kinase purified from livers of cycloheximide-treated rats is also a 70-kDa polypeptide. Antiserum raised against rat liver S6 kinase specifically immunoprecipitates the purified 32P-labeled H4 hepatoma insulin-stimulated S6 kinase. This antiserum also specifically precipitates insulin-stimulated S6 kinase activity directly from cytosolic extracts of H4 cells. Immune complexes prepared from the cytosol of 32P-labeled H4 cells contain several 32P-labeled polypeptides; only a 70-kDA 32P-labeled peptide, however, is specifically displaced by preadsorption of the antiserum with nonradioactive rat liver S6 kinase. Insulin treatment increases the 32P content of the immunoprecipitated 70-kDa S6 kinase polypeptide 3- to 4-fold over basal levels; 32P-labeled serine, some 32P-labeled threonine, but no 32P-labeled tyrosine are detected after partial acid hydrolysis. Tryptic peptide maps indicate that the insulin-stimulated S6 kinase purified from 32P-labeled H4 cells is phosphorylated at multiple sites distinct from those which participate in autophosphorylation in vitro. Autophosphorylation of rat liver S6 kinase in vitro does not modify S6 kinase activity. The S6 kinases purified from liver of cycloheximide-treated rat and H4 hepatoma insulin-stimulated enzyme are each completely deactivated by incubation with protein phosphatase type 2A in both autophosphorylating and 40S S6 phosphorylating activities. The phosphatase 2A-deactivated 70-kDa S6 kinase is neither reactivated nor phosphorylated by partially purified insulin-stimulated microtubule-associated protein 2 kinase, in experiments where Xenopus S6 kinase II undergoes phosphorylation and partial reactivation. Thus insulin activates the 70-kDa S6 kinase by promoting phosphorylation of specific serine/threonine residues on the enzyme polypeptide, probably through activating an as-yet-unidentified serine/threonine protein kinase distinct from microtubule-associated protein 2 kinase.
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PMID:Insulin activates a 70-kDa S6 kinase through serine/threonine-specific phosphorylation of the enzyme polypeptide. 212 50

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