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

We surveyed rabbit brain cytosol for a new Ca2+/calmodulin (CaM)-dependent kinase. The renaturation blotting assay (RBA) exploits the ability of blotted SDS-denatured proteins to regain enzymic activity after guanidine treatment. Using RBA, we found that the eluate of rabbit brain cytosol from a CaM affinity column contains at least four electrophoretically distinct protein kinase bands which were autophosphorylated in a Ca2+/CaM-dependent manner. The 49 kDa band and the 60 kDa band were alpha and beta subunit of CaM kinase II, and the 42 kDa band was presumed to be CaM kinase I, but the 80 kDa band could not be attributed to any reported Ca2+/CaM-dependent protein kinases. The 80 kDa protein kinase was isolated by three-step chromatography. We examined the phosphorylation of exogenous substrates by 80 kDa protein kinase, and histone IIIs and myosin light chain were phosphorylated in a Ca2+/CaM-dependent manner. W-7, a specific inhibitor for calmodulin, inhibited this kinase activity, but KN-62, a specific inhibitor for CaM kinase II, had no effect on this protein kinase activity. Autoradiography using boiled rabbit brain homogenate as substrate showed three intrinsic substrates (80 kDa, 60 kDa and 42 kDa), which were phosphorylated in a Ca2+/CaM-dependent manner. These findings suggest that a new Ca2+/CaM-dependent protein kinase could be identified by the RBA.
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PMID:Identification of a 80 kDa calmodulin-binding protein as a new Ca2+/calmodulin-dependent kinase by renaturation blotting assay (RBA). 131 May 91

The ATP.Mg-dependent protein phosphatase activating factor (FA) has been identified and purified to near homogeneity from brain. In this report, as evidenced on SDS-polyacrylamide gel electrophoresis followed by autoradiography, factor FA has further been identified as a cAMP and Ca(2+)-independent brain kinase that could phosphorylate synapsin I, a neuronal protein that coats synaptic vesicles, binds to cytoskeleton, and is believed to be involved in the modulation of neurotransmission. Kinetic study further indicated that factor FA could phosphorylate synapsin I with a low Km value of about 2 microM and with a molar ratio of 1 mol of phosphate per mole of protein. Peptide mapping analysis revealed that factor FA specifically phosphorylated the tail region of synapsin I but on a unique site distinct from those phosphorylated by Ca2+/calmodulin-dependent protein kinase II and cAMP-dependent protein kinase, the two well-established synapsin I kinases. Functional study further revealed that factor FA could phosphorylate this unique specific site on the tail region of synapsin I and thereby inhibit cross-linking of synapsin I with microtubules. The results further suggest the possible involvement of factor FA as a synapsin I kinase in the regulation of axonal transport process of synaptic vesicles via the promotion of vesicles motility during neurotransmission.
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PMID:Identification of the ATP.Mg-dependent protein phosphatase activator (FA) as a synapsin I kinase that inhibits cross-linking of synapsin I with brain microtubules. 133 16

Limited proteolysis of tyrosine hydroxylase (TH) by calpain, Ca(2+)-activated neutral protease, was studied. Cleavage of TH with calpain in vitro produced molecules having Mrs of approximately 57,000 and 56,000 in SDS-polyacrylamide gel electrophoresis. The N-terminal amino acid sequence, Ser-Pro-Arg-Phe-Val, of the 56-kDa species indicated that calpain cleaved off the N-terminal region (residues 1-30) encoded by the first exon including Ser-8 and Ser-19, the phosphorylation sites by proline-directed protein kinase (PDPK) and by Ca2+/calmodulin-dependent protein kinase II (kinase II), respectively, from the native TH. The removal of the N-terminal region from the native molecule induced a slight but significant activation of TH at pH 7.0. The native TH behaved as the tetramer with an Mr of 240,000. In contrast, calpain-cleaved TH showed the monomeric Mr by gel permeation chromatography and increased Ki for catecholamine which inhibits the native TH in competition to the coenzyme, DL-6-methyl-5,6,7,8-tetrahydropterin (6MPH4). These results imply that calpain cleavage would effectively release TH from the feedback inhibition by removal of the N-terminal region resulting in disruption of the quaternary structure.
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PMID:Limited proteolysis of tyrosine hydroxylase by Ca(2+)-activated neutral protease (calpain). 168 1

Nitric oxide synthase was purified to apparent homogeneity from the cytosolic fractions obtained from rat and porcine cerebellum. Enzyme activity--measured as [3H]citrulline formation after incubation with [3H]arginine--was dependent on Ca2+/calmodulin, NADPH, and tetrahydro-L-biopterin. Specific activity varied between 450 to 780 nmol/min/mg protein. Purified nitric oxide synthases showed a single band on 8% SDS/PAGE gels and had an apparent molecular mass of 150,000 Da. The purified proteins were used as substrate for phosphorylation with different protein kinases. In the assays using two Ca2+/calmodulin-dependent protein kinases, CaM kinase II and CaM kinase-Gr, protein kinase C, and the catalytic subunit of protein kinase A, nitric oxide synthase was exclusively phosphorylated by protein kinase A. Such phosphorylation was linear over time for at least 60 min and resulted in nearly stoichiometric phosphate/protein incorporation. The serine in the protein kinase A-consensus sequence KRFGS is probably the site of phosphorylation in nitric oxide synthase. Kemptide, a known protein kinase A substrate, inhibited phosphorylation of nitric oxide synthase in a dose-dependent manner. No changes in nitric oxide synthase activity were observed upon phosphorylation by protein kinase A.
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PMID:Phosphorylation of nitric oxide synthase by protein kinase A. 172 13

The lipase production of a plant pathogenic fungus, Fusarium oxysporum f. sp. lini SUF 402, was induced by fat as the carbon source, and its release was stimulated by the infusion of intracellular free calcium ion with a calcium ionophore, A23187. N-(6-Aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7, a calmodulin inhibitor) and 1-[N,O-bis(5-isoquinolinesulfonyl)-N-methyl- L-tyrosyl]-4-phenylpiperazine (KN-62, a Ca2+/calmodulin dependent protein kinase II inhibitor) reduced the extracellular release of lipase in vivo. 1-(5-Isoquinolinylsulfonyl)-2-methylpiperazine (H-7, a protein kinase C inhibitor) did not have this ability. After K2H32PO4 had been incorporated into the cells, they were treated with W-7 or KN-62 and stimulated by Ca2+ ionophore. On SDS-PAGE of intracellular proteins followed by autoradiography, W-7- and KN-62-treated cells showed inhibition of the incorporation of 32Pi into the 20 kDa protein resulting from Ca2+ stimulation. F. oxysporum had calmodulin (CaM)-dependent protein kinase activity in the cytoplasmic fraction and had the ability to phosphorylate of syntide 2, a specific substrate of CaM kinase II. The partially purified CaM-dependent protein kinase was inhibited by 10 microM KN-62 in vitro. Increase of the intracellular Ca2+ concentration of F. oxysporum activated CaM and CaM-dependent protein kinase, resulting in the extracellular lipase release. These results suggest the existence of a Ca2+ signalling system in F. oxysporum like those observed in higher eucaryotes.
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PMID:Calcium ion regulates the release of lipase of Fusarium oxysporum. 176 73

Sf9 cells infected with the recombinant mouse CaMKII-alpha (Ca2+/calmodulin dependent kinase II) baculovirus expressed 12-15 mg of MCaMKII-alpha per liter of cells. Approximately 50% of the MCaMKII-alpha activity could be purified using a CaM-Sepharose affinity column. The purified MCaMKII-alpha had a M(rapp) of 50 kDa by SDS-PAGE and a native Mr of 600 kDa. MCaMKII-alpha, like rat brain CaMKII, had an A0.5 for CaM of 100 nM, a Km for syntide-2 of 8 microM, and was able to generate Ca2(+)-independent activity by autophosphorylation. The baculovirus system expressed large quantities of MCaMKII-alpha with characteristics similar to the rat brain CaMKII, thus providing an expression system for the detailed biochemical analysis of MCaMKII-alpha.
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PMID:Expression and characterization of the alpha-subunit of Ca2+/calmodulin-dependent protein kinase II using the baculovirus expression system. 217

Previously, it was reported that smooth muscle caldesmon is a protein kinase and is autophosphorylated [Scott-Woo, G.C., & Walsh, M.P. (1988) Biochem. J. 252, 463-472]. We separated a Ca2+/calmodulin-dependent protein kinase from caldesmon in the presence of 15 mM MgCl2. The Ca2+/calmodulin-dependent caldesmon kinase was purified by using a series of liquid chromatography steps and was characterized. The subunit molecular weight (MW) of the kinase was 56K by SDS gel electrophoresis and was autophosphorylated. After the autophosphorylation, the kinase became active even in the absence of Ca2+/calmodulin. The substrate specificity of caldesmon kinase was similar to the rat brain calmodulin-dependent multifunctional protein kinase II (CaM PK-II) and phosphorylated brain synapsin and smooth muscle 20-kDa myosin light chain. The purified kinase bound to caldesmon, and the binding was abolished in the presence of high MgCl2. Enzymological parameters were measured for smooth muscle caldesmon kinase, and these were KCaM = 32 nM, KATP = 12 microM, Kcaldesmon = 4.9 microM, and KMg2+ = 1.1 mM. Optimum pH was 7.5-9.5. The observed properties were similar to brain CaM PK-II, and, therefore, it was concluded that smooth muscle caldesmon kinase is the isozyme of CaM PK-II in smooth muscle.
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PMID:Purification and characterization of calmodulin-dependent multifunctional protein kinase from smooth muscle: isolation of caldesmon kinase. 217 96

The high heterogeneity of native rat liver EF-2 prepared from either 105000 x g supernatant or microsome high-salt extract was detected by two-dimensional equilibrium isoelectric focusing-SDS-polyacrylamide gel electrophoresis in the presence of 9.5 M urea. Five spots were always detected, all of Mr 95,000, which were not artefactual for their amount varied when EF-2 was specifically ADP-ribosylated by diphtheria toxin in the presence of NAD+, and/or phosphorylated on a threonine residue by a Ca2+/calmodulin-dependent protein kinase (most likely Ca2+/calmodulin-dependent protein kinase III described by others [(1987) J. Biol. Chem. 262, 17299-17303; (1988) Nature 334, 170-173]). Results of ADP-ribosylation and/or phosphorylation experiments with either unlabeled or labeled reagents ([14C]NAD and [32P]ATP) strongly suggest that our preparation contained native ADP-ribosylated and native phosphorylated forms which could be estimated at about 20% and 40% of the whole EF-2. Phosphorylated and ADP-ribosylated forms of EF-2 could be ADP-ribosylated and phosphorylated, respectively, but a native form both ADP-ribosylated and phosphorylated was not detected. Our results also suggest the existence of a minor native form of EF-2 and of its phosphorylated and ADP-ribosylated derivatives.
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PMID:Heterogeneity of native rat liver elongation factor 2. 279 73

When soluble proteins in cytosolic fractions of rat soleus muscles are 32P-phosphorylated in vitro by an ATP:protein phosphotransferase reaction, the major substrate is a 56-kilodalton (56K) protein. As we have also reported previously, the onset and development of increased 32P-phosphorylation of this 56K protein, which are observed after the soleus is denervated, temporally correlate with the denervation period and length of the distal nerve stump [Held et al, 1983]. Conclusive evidence which identifies this neuroregulated muscle protein as the regulatory subunit of cyclic AMP-dependent protein kinase type II (R-II) is presented in this paper. The 56K soleus protein and purified bovine heart R-II were 32P-phosphorylated and subjected to limited proteolysis with bovine pancreas trypsin. After resolution of the generated 32P-phosphopeptides by SDS slab PAGE and visualization by autoradiography, no tryptic products were observed from the 56K soleus protein which were not also produced by proteolysis of the purified R-II. These tryptic phosphopeptides included 39, 16.5, and 12K fragments which retained the autophosphorylation site of R-II. After denervation, the 32P-phosphorylation of the 56K soleus protein and of the 39K tryptic peptide product were comparably increased. The identification of the neuroregulated 56K soleus protein as R-II was also confirmed by Western blotting with a specific anti-R-II sera. Taken together, our results demonstrate that the previously observed neuroregulation of the 32P-phosphorylation of the 56K soleus protein is identifiable with some alteration which affects the intramolecular 32P-autophosphorylation of R-II.
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PMID:Identification of a neuroregulated phosphoprotein in skeletal muscle as the regulatory subunit of cyclic AMP-dependent protein kinase II. 299 89

A rat brain cDNA clone containing an open reading frame encoding the neuron-specific protein synapsin I has been sequenced. The sequence predicts a protein of 691 amino acids with a mol. wt of 73 kd. This is in excellent agreement with the size of rat brain synapsin Ib measured by SDS--polyacrylamide gel electrophoresis. Inspection of the predicted primary structure has revealed the probable sites for synapsin I phosphorylation by the cAMP-dependent and Ca2+/calmodulin-dependent protein kinases. All of the biochemically observed intermediates of synapsin I digestion by collagenase can be verified by inspection of the sequence, and the collagenase-resistant fragment has been defined as the amino-terminal 439 amino acids of the molecule. Predictions of sequence secondary structure and hydrophobicity suggest that a central domain of approximately 270 amino acids may exist as a folded, globular core. The carboxyl-terminal domain of the protein (the region sensitive to collagenase digestion) contains sites for Ca2+/calmodulin-dependent protein kinase phosphorylation. These sites are flanked by three regions of repeating amino acid sequence that are proposed to be the synaptic vesicle-binding domain of synapsin I. This region also shares homology with the actin-binding proteins profilin and villin. The characteristics of the synapsin I sequence do not support extensive homology with the erythrocyte cytoskeletal protein 4.1.
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PMID:Determination and analysis of the primary structure of the nerve terminal specific phosphoprotein, synapsin I. 302 73


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