EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyclic AMP- and Ca2(+)-dependent protein kinase activities of Plasmodium falciparum were partially characterized after purification of parasites from host erythrocytes by N2 cavitation and Percoll gradient centrifugation. Proteins of molecular weights 80, 54, 51, and 31.5 kDa were phosphorylated in a cAMP-dependent manner in cytosolic extracts of isolated P. falciparum. Cytosolic extracts also contained cAMP-dependent histone II-A kinase activity with an average Vmax of 131.1 pmol/32P/min/mg protein and a Km for cAMP of 85nM. Upon photoaffinity labeling with [32P]-8-N3-cAMP, a 53-kDa protein was specifically labeled in parasite cytosol. A metabolically labeled protein of the same molecular weight was identified by cAMP-agarose affinity chromatography. The 53-kDa protein cochromatographed with cAMP-dependent histone II-A kinase activity on DEAE-cellulose, suggesting that it is the regulatory subunit of the kinase. Ca2(+)-dependent phosphorylation of proteins of molecular weights 195, 158, 51, 47.5, and 15 kDa was demonstrated in a membrane fraction from parasites free of the erythrocyte membrane. This activity was not stimulated by either calmodulin or phospholipid plus diacylglycerol and was absent from the membranes of uninfected erythrocytes. Of several exogenous substrates tested, none were found to be a substrate for this Ca2(+)-dependent kinase. Both cAMP- and Ca2(+)-dependent kinases phosphorylated serine and threonine residues.
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PMID:Cyclic AMP- and Ca2(+)-dependent protein kinases in Plasmodium falciparum. 219 71

Many alkalophilic bacteria were found to produce inhibitors of protein kinases. We isolated a novel inhibitor of protein kinase from an alkalophilic strain of Bacillus species. This substance was A heat-stable peptide with a molecular weight of 13,000 daltons. It was found to be a selective inhibitor of cyclic AMP-dependent protein kinase (A kinase). The inhibition of a kinase by this substance was non-competitive with histone or ATP. It behaved distinctly; other known inhibitors such as H-7, H-8, Staurosporine, K-252 and Erbstatine inhibit protein kinase less selectively and their functions are competitive with either substrate or ATP. This inhibitor was found to bind to the regulatory subunits of A kinase and markedly inhibited the separation of the catalytic subunits from A kinase induced by the binding of cAMP despite of no effect on the binding of cAMP. Thus, the activation step of A kinase was influenced by this inhibitor. This molecule had no effect on the inhibition by cAMP of CHO cell proliferation. This may have been due to the inability of this molecule to reach the target in the cell. Modification of the molecule itself or the administration method is needed for cellular or animal application.
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PMID:[A selective inhibitor of cAMP-dependent protein kinase isolated from an alkalophilic strain of Bacillus species]. 262 91

A kinase-splitting membranal proteinase specifically clips the cytoplasmic moiety of the insulin receptor beta-subunit (95 kd) to yield an 84-kd fragment. Using antibodies against different domains in the receptor, cleavage is shown to remove an 11-kd 'tail' (rooted at the C-terminal end of the kinase domain) which includes tyrosines 1316 and 1322. This cleavage impairs the ability of the clustered tyrosines 1146, 1150 and 1151 to undergo autophosphorylation. Nevertheless, the clipped beta-subunit is as active as the intact subunit if its kinase activity is measured at high exogenous substrate concentrations (greater than or equal to 2 mg/ml) indicating that autophosphorylation is not obligatory for insulin-dependent phosphotransferase activity. With low substrate concentrations (e.g. 0.2 mg/ml) a severe damage to the kinase activity is detected, which may reflect an important structural contribution of the 'tail' and/or the clustered phosphotyrosines in creating the preferential affinity of the kinase for its in vivo substrate(s). The membranal proteinase strictly recognizes the native conformation of the kinase domain, and fails to cleave it after denaturation. Since such a conformation-dependent cleavage occurs also in the case of the cytoplasmic moiety of the EGF receptor and the catalytic subunit of cAMP-dependent protein kinase, it is suggested that the similarity between these three kinase domains extends beyond their reported sequence homology to reflect a similarity in conformation.
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PMID:Studying the structure of the intracellular moiety of the insulin receptor with a kinase-splitting membranal proteinase. 265 55

In this review we present recent evidence implicating second-messenger systems in two forms of long-lasting synaptic change seen at crustacean neuromuscular junctions. Crustacean motor axons are endowed with numerous terminals, each possessing many individual synapses. Some synapses appear to be quiescent or impotent, but can be recruited in response to imposed functional demands. Supernormal impulse activity leads to long-term facilitation (LTF) which persists for many hours. During the persistent phase, additional synapses are physiologically effective, and morphological changes in synapses are seen at the ultrastructural level. Pulsatile application of serotonin, a neuromodulator, also enhances synaptic transmission, but this enhancement declines more rapidly than LTF. Elevation of intraterminal Ca2+ is neither necessary nor sufficient for long-lasting enhancement of transmission, but activation of A-kinase is necessary. LTF is set in motion by an unknown depolarization-dependent mechanism leading to A-kinase activation, whereas serotonin facilitation depends for its initiation on the phosphatidylinositol system. The initial phase of serotonin facilitation may be accounted for by production of inositol triphosphate, whereas the secondary long-lasting phase appears to require participation of both C kinase and A kinase. Neither LTF nor serotonin facilitation requires an intact neuron; both are presynaptic phenomena expressed by the nerve terminals. Brief comparison is made with long-lasting synaptic changes in other systems.
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PMID:Rapid introduction of long-lasting synaptic changes at crustacean neuromuscular junctions. 266 79

Effects of adenosine 3',5'-cyclic monophosphate (cAMP) on single Ca-activated K current (IK(Ca)) in cultured smooth muscle cells of the rat aorta were investigated with the patch-clamp technique. In cell-attached patch configurations, extracellular application of isoproterenol (10(-5) M) increased the Ca-activated K currents. The increase in the currents was due to an increase in the probability of channel openings (Po). Neither unit conductance nor the maximum number of the channel in the patch was affected by the drug. The effects were inhibited by adding propranolol (10(-6) M). The extracellular application of forskolin (10(-5) M) or dibutyryl cAMP (10(-4) M) mimicked the effects of isoproterenol. In inside-out patch configurations, activated cAMP-dependent protein kinase (A kinase) in the bathing solution increased the sensitivity of the Ca-activated K channels to intracellular free calcium concentration ([Ca]i) and enhanced Po. Kinetic analyses of the IK(Ca) showed that cAMP-dependent phosphorylation of the Ca-activated K channels significantly reduced the mean closed time between bursting openings. We conclude from these observations that the Ca-activated K channels in aortic cells may increase Po through cAMP-dependent phosphorylation.
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PMID:Cyclic AMP modulates Ca-activated K channel in cultured smooth muscle cells of rat aortas. 284 15

Transcriptional regulation of eukaryotic genes by cyclic AMP requires a cAMP-dependent protein kinase (A kinase). Two hypotheses have been proposed to explain how the holoenzyme of the A kinase induces transcription. The regulatory subunits of the A kinase, which bind cAMP and DNA, and have amino-acid homology with the Escherichia coli catabolite activator protein could directly stimulate gene expression. Alternatively, phosphorylation by the catalytic subunits could induce transcription by activating proteins involved in gene transcription. To distinguish between these models, we microinjected purified preparations of the catalytic and regulatory subunits of A kinase into tissue culture cells and monitored expression of a stably integrated fusion gene containing a cAMP-responsive human promoter fused to a bacterial reporter gene, or of the endogenous c-fos gene. The catalytic subunit stimulated expression of these genes, whereas the regulatory subunit did not. These results indicate that the catalytic subunit of A kinase is sufficient to induce expression of two cAMP-responsive genes, without increasing levels of cAMP.
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PMID:The catalytic subunit of cAMP-dependent protein kinase induces expression of genes containing cAMP-responsive enhancer elements. 284 55

Stage VI Xenopus oocytes were injected with a plasmid (pBB0.6-CAT) which contains the cAMP regulatory element (CRE) from the rat liver phosphoenolpyruvate carboxykinase (PEPCK) gene fused upstream from a reporter gene [chloramphenicol acetyltransferase (CAT)]. Inhibition of the expression of the reporter gene (average = 51%) was observed in the presence of 10 microM progesterone, which is known to lead to inactivation of the oocyte cAMP dependent protein kinase (A kinase). In contrast, oocytes injected with a control plasmid (pSV2CAT), which contains no CRE, exhibited a variable increase (average = 31%) in CAT activity after progesterone treatment. Injection of the purified bovine cardiac A kinase catalytic subunit prior to exposure of oocytes injected with pBB0.6 CAT to progesterone prevents the loss of CAT activity generated by incubation with the steroid. Gel retardation analyses with oocyte lysates and a labeled synthetic oligonucleotide fragment containing the CRE from the PEPCK gene showed the existence of a complex with the same Rf and specificity as that formed with rat liver extracts. Subsequent exposure to progesterone, however, led to a rapid and extensive decrease in this binding activity. Taken together, these results are consistent with but do not prove the hypothesis that progesterone treatment and A kinase inactivation lead to a decrease in pBB0.6 CAT expression by virtue of a decline in the binding activity of an oocyte factor(s) to the CRE of the PEPCK fragment in pBB0.6-CAT, thereby decreasing transcription of the CAT gene.
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PMID:Progesterone decreases DNA binding factor activity and the expression in Xenopus oocytes of a cAMP responsive gene from rat liver. 297 91

A variety of eukaryotic viral and cellular proteins possesses an NH2-terminal N-myristoylglycine residue important for their biological functions. Recent studies of the primary structural requirements for peptide substrates of the enzyme responsible for this modification in yeast demonstrated that residues 1, 2, and 5 play a critical role in enzyme: ligand interactions (Towler, D. A., Adams, S. P., Eubanks, S. R., Towery, D. S., Jackson-Machelski, E., Glaser, L., and Gordon J. I. (1987b) Proc. Natl. Acad. Sci. U. S. A. 84, 2708-2812). This was determined by examining as substrates a series of synthetic peptides whose sequences were systematically altered from a "parental" peptide derived from the known N-myristoylprotein bovine heart cyclic AMP-dependent protein kinase (A kinase) catalytic subunit. We have now extended these studies in order to examine structure/activity relationships in the COOH-terminal regions of octapeptide substrates of yeast N-myristoyltransferase (NMT). The interaction between yeast NMT and the side chain of residue 5 in peptide ligands is apparently sterically constrained, since Thr5 is unable to promote the very high affinity binding observed with a Ser5 substitution. A substrate hexapeptide core has been defined which contains much of the information necessary for recognition by this lower eukaryotic NMT. Addition of COOH-terminal basic residues to this hexapeptide enhances peptide binding, while COOH-terminal acidic residues destabilize NMT: ligand interactions. Based on the results obtained from our in vitro studies of over 80 synthetic peptides and yeast NMT, we have identified a number of potential N-myristoylproteins from searches of available protein databases. These include hepatitis B virus pre-S1, human SYN-kinase, rodent Gi alpha, and bovine transducin-alpha. Peptides corresponding to the NH2-terminal sequences of these proteins and several known N-myristoylproteins were assayed using yeast NMT as well as partially purified rat liver NMT. While a number of the synthetic peptides exhibited similar catalytic properties with the yeast and mammalian enzymes, surprisingly, the SYN-kinase, Gi alpha, and transducin-alpha peptides were N-myristoylated by rat NMT but not by yeast NMT. This suggests that either multiple NMT activities exist in rat liver or the yeast and rodent enzymes have similar but distinct peptide substrate specificities.
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PMID:Myristoyl CoA:protein N-myristoyltransferase activities from rat liver and yeast possess overlapping yet distinct peptide substrate specificities. 312 78

Calmodulin is specifically phosphorylated by casein kinase 2 (CK 2), but not by casein kinase 1, A kinase, or C kinase. In the present report, the stoichiometry of the phosphorylation of calmodulin by CK 2 in the presence and absence of polylysine and its phosphorylation sites were examined. In the absence of polylysine, the radioactive phosphate incorporated into calmodulin by CK 2 was only 0.01 mol/mol and the phosphorylation occurred at Ser-101. In the presence of polylysine, 1.2 mol of radioactive phosphate was incorporated into 1 mol of calmodulin. In this case, Thr-79 in addition to Ser-101 was phosphorylated, but Ser-81 was not. The sequence around the phosphorylated Thr is Asp-Thr(P)-Asp-Ser-Glu-Glu-Glu-.
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PMID:Determination of the phosphorylation sites of calmodulin catalyzed by casein kinase 2. 324 68

Polyamine-dependent protein kinase (P kinase) in nuclear and cytosol fraction of pig epidermal cells were extracted. Two different protein kinases were purified from nuclei. One was cAMP-dependent protein kinase (A kinase) and another was P kinase. P kinase phosphorylated acidic non-histone protein only, while A kinase phosphorylated both exogenous histone and non-histone proteins. Among polypeptides phosphorylated by P kinase, a 180 kilodalton (K) polypeptide seemed to be a specific substrate for P kinase. In cytosol, the fraction containing P kinase exhibited multiple polypeptide bands on SDS -PAGE, including four major polypeptide bands and several minor polypeptide bands. One of minor polypeptide bands (80 K) was phosphorylated by P kinase. Authentic ornithine decarboxylase (ODC) added exogenously was also phosphorylated by P kinase. A 80 K polypeptide of ODC was comigrated with the polypeptide phosphorylated by P kinase on SDS -PAGE. Kinetic study revealed that the ODC activity decreased as ODC was phosphorylated.
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PMID:[Studies on polyamine-dependent protein kinase in pig epidermal cells]. 398 33

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