Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A cyclic nucleotide-independent protein kinase, which was produced from its proenzyme upon limited proteolysis by a Ca2+-dependent protease (Takai, Y., Yamamoto, M., Inoue, M., Kishimoto, A., & Nishizuka , Y. (1977) Biochem. Biophys. Res. Commun. 77, 542-550), showed an ability to phosphorylate not only muscle glycogen phosphorylase kinase but also glycogen synthase, resulting in activation and inactivation of the respective enzymes, although the protein kinase was less active than adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase toward glycogen synthase. Available evidence indicates that this new protein kinase shows pleiotropic functions apparently similar to those described for cyclic AMP-dependent protein kinase. Nevertheless, these protein kinases were clearly distinguishable from each other in their response to cyclic nucleotides and susceptibility to protein inhibitor.
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PMID:Comparison of calcium-activated, cyclic nucleotide-independent protein kinase and adenosine 3':5'-monophosphate-dependent protein kinase as regards the ability to stimulate glycogen breakdown in vitro. 21 Nov 21

Turkey gizzard smooth muscle light chain kinase was purified by affinity chromatography on calcium dependent regulator weight of 125,000 +/- 5,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. When myosin light chain kinase is incubated with the catalytic subunit of cyclic AMP-dependent protein kinase, 1 mol of phosphate is incorporated per mol of myosin kinase. Brief tryptic digestion of the 32P-labeled myosin kinase liberates a single radioactive peptide with a molecular weight of approximately 22,000. Phosphorylation of myosin kinase results in a 2-fold decrease in the rate at which the enzyme phosphorylates the 20,000-dalton light chain of smooth muscle myosin. These results suggest that cyclic AMP has a direct effect on actin-myosin interaction in smooth muscle.
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PMID:Phosphorylation of smooth muscle myosin light chain kinase by the catalytic subunit of adenosine 3': 5'-monophosphate-dependent protein kinase. 21 32

Avian sarcoma virus (ASV) induces sarcomas in animals and transforms fibroblasts to a neoplastic state in cell culture. A single viral gene (src) is responsible for both the induction and maintenance of neoplastic transformation. Recent work has identified a protein with a molecular weight of 60,000 daltons that is apparently encoded in src and may be the effector molecule for the gene (Brugge and Erikson, 1977; Purchio et al, 1978). The putative product of src can be immunoprecipitated by antisera obtained from rabbits bearing tumors induced by ASV. We have used this approach to isolate the protein to characterize further its genetic origins and possible function. Our rabbit tumor antisera precipitated a protein with a molecular weight of 60,000 daltons; according to serological, biochemical and genetic criteria, this protein is encoded in src. We found that this protein is phosphorylated and therefore denoted it pp60. Phosphorylation of pp60 could be accomplished in vitro with extracts of ASV-infected cells. A temperature-sensitive conditional mutation in src had no demonstrable effect on either the production or stability of pp60 in the infected cell, but phosphorylation of the protein was temperature-sensitive. Since the mutant src is not expressed at the restrictive temperature, our findings raise the possibility that phosphorylation of pp60 is required for its function as the putative effector of src. Immunoprecipitates prepared with extracts of ASV-infected cells and the rabbit tumor antisera contained a protein kinase activity that catalyzed phosphorylation of the heavy chains of immunoglobulin molecules, using either ATP or GTP as phosphate donor. The kinase activity immunoprecipitated in parallel with pp60 was obtained only from cells that contained a functioning product of src and could not be precipitated with antisera directed against structural proteins of ASV. A temperature-sensitive conditional mutation in src caused the kinase activity to be thermally inactivated in vitro far more rapidly than the activity from cells infected with wild-type virus. We conclude that both the protein kinase and pp60 are encoded in src, and that the enzymatic activity may be an intrinsic property of pp60. Phosphorylation of pp60 in cellular extracts was inhibited by calcium ion, whereas the immunoprecipitable kinase activity was not, suggesting that the kinase responsible for pp60 phosphorylation may be distinct from that encoded in src. Collett and Erikson (1978) have also identified a protein kinase activity associated with pp60. These findings raise the possibility that phosphorylation of specific cellular targets might account for transformation of the host cell by src.
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PMID:Evidence that the transforming gene of avian sarcoma virus encodes a protein kinase associated with a phosphoprotein. 21 42

Analysis of membranes from a variety of tissues has revealed a widespread distribution of a protein phosphorylation system dependent on the presence of both Ca2+ and "calcium-dependent regulator" (CDR). This protein phosphorylation system has been studied in some detail in nervous tissue. Neuronal membranes contain a protein phosphorylation system that requires Ca2+ and a soluble heat-stable protein [Schulman, H. & Greengard, P. (1978) Nature (London) 271, 478--479]. This protein has been purified to homogeneity from bovine cerebral cortex, with use of an assay based on its ability to stimulate Ca2+-dependent protein phosphorylation in membranes. This protein kinase activator appears to be identical to CDR of cyclic nucleotide phosphodiesterase. Throughout its purification, this single entity was found to activate both Ca2+-dependent protein kinase and cyclic nucleotide phosphodiesterase. The kinase activator purified here and authentic CDR were equally effective in their ability to activate Ca2+-dependent protein kinase.
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PMID:Ca2+-dependent protein phosphorylation system in membranes from various tissues, and its activation by "calcium-dependent regulator". 21 87

Sarcolemmal and sarcoplasmic reticulum membrane vesicle fractions were isolated from cardiac microsomes. Separation of sarcolemmal and sarcoplasmic reticulum membrane markers was documented by a combination of correlative assay and centrifugation techniques. To facilitate the separation, the crude microsomes were incubated in the presence of ATP, Ca2+, and oxalate to increase the density of the sarcoplasmic reticulum vesicles. After sucrose gradient centrifugation, the densest subfraction (sarcoplasmic reticulum) contained the highest (K+,Ca2+)-ATPase activity and virtually no (Na2+,K+)-ATPase activity, even when latent (Na+,K+)-ATPase activity was unmasked. In addition, the sarcoplasmic reticulum fraction contained no significant sialic acid, beta receptor binding activity, or adenylate cyclase activity. Sarcolemmal membrane fractions were of low buoyant density. Preparations most enriched in sarcolemmal vesicles contained the highest level of all the other parameters and only about 10% of the (K+,Ca2+)-ATPase activity of the sarcoplasmic reticulum fraction. The results suggest that (Na+,K+)-ATPase, sialic acid, beta-adrenergic receptors, and adenylate cyclase can be entirely accounted for by the sarcolemmal content of cardiac microsomes. Gel electrophoresis of the sarcolemmal and sarcoplasmic reticulum membrane fractions showed distinct bands. Membrane proteins exclusive to each of the fractions were also demonstrated by phosphorylation. Cyclic AMP stimulated phosphorylation by [gamma-32P]ATP of two proteins of apparent Mr = 20,000 and 7,000 that were concentrated in sarcoplasmic reticulum, but the stimulation was markedly dependent on the presence of added soluble cyclic AMP-dependent protein kinase. Cyclic AMP also stimulated phosphorylation of membrane proteins in sarcolemma, but this phosphorylation was mediated by an endogenous protein kinase activity. The apparent molecular weights of these phosphorylated proteins were 165,000, 90,000, 56,000, 24,000, and 11,000. The results suggest that sarcolemma may contain an integral enzyme complex, not present in sarcoplasmic reticulum, that contains beta-adrenergic receptors, adenylate cyclase, cyclic AMP-dependent protein kinase, and several substrates of the protein kinase.
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PMID:Separation of vesicles of cardiac sarcolemma from vesicles of cardiac sarcoplasmic reticulum. Comparative biochemical analysis of component activities. 21 77

This study was initiated in order to elaborate further on the mechanism by which epinephrine modulates cardiac function via protein phosphorylation. A membrane fraction has been isolated from freeze-clamped perfused rat heart that contains two phosphoproteins. These proteins have molecular weights of 36,000 (A protein) and 27,000 (B protein). The phosphorylation of the A protein occurs during the equilibration of the heart with inorganic [32P]phosphate. The phosphorylation of the B protein occurs in response to epinephrine. The A and B proteins are apparently identical with two phosphoproteins in enriched preparations of sarcolemma. The protein of the sarcolemma preparation equivalent to the A protein is phosphorylated in vitro by both cAMP-independent and cAMP-dependent protein kinases. The phosphorylation of the protein of the sarcolemma preparation equivalent to the B protein is catalyzed by the cAMP-dependent protein kinase. Thus the patterns of phosphorylation of these proteins in vivo and in vitro are compatible. The phosphorylation of the B protein has been documented in vitro to modulate calcium transport (Will, H., et al. (1973) Acta Biol. Med. Ger. 31, 45-52), but the response to epinephrine in the perfused heart is not apparently coordinated with the catecholamine-induced inotropic effect.
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PMID:Cyclic adenosine monophosphate dependent and independent phosphorylation of sarcolemma membrane proteins in perfused rat heart. 21 27

The adenosine 3",5"-monophosphate (cAMP)-dependent ATPase (ATP phosphohydrolase, EC 3.6.1.3) activity of cAMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) from bovine heart is characterized. That the ATPase activity is intimately associated with the catalytic subunit of the enzyme is suggested by the following: (i) the similar dependences of ATPase and protein kinase activities on cAMP; (ii) the dissociation of ATPase activity from the holoenzyme on addition of cAMP and its co-elution with the catalytic subunit on gel filtration chromatography; (iii) the similarity of the relative effectiveness of divalent metal ions in ATPase and protein kinase catalysis; and (iv) the correspondence of kinetically determined Km(MgATP) and Ki(MgADP) values with thermodynamic dissociation constants determined by equilibrium dialysis. The hydrolysis of ATP is stimulated 10- to 20-fold by cAMP in the holoenzyme. The molar specific activity of the catalytic subunit ATPase is approximately 0.7 min-1 with Km(MgATP) = 5 muM. MgADP is a competitive inhibitor of the reaction with a Ki value of approximately muM. The order of the relative effectiveness of metal ions for both ATPase and peptide kinase activities is Mg2+ greater than Mn2+ greater than Ca2+. A possible interpretation of these observations is that the role that the metal ion plays is more directly manifested in bond-breaking than in bond-forming.
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PMID:Cyclic AMP-dependent ATPase activity of bovine heart protein kinase. 21 18

The role of cyclic AMP, if any, in the regulation of smooth muscle tone is not understood. In the present study the effects of cyclic AMP and of protein kinase on the uptake of calcium by "microsomal", "plasma" and "mitochondrial" preparations obtained from bovine tracheal smooth muscle were examined. Cyclic AMP and protein kinase had only a slight and variable effect on the uptake of calcium by microsomes, and no effect on the uptake of calcium by the plasma membrane or the mitochondria. These findings are not compatible with a role of cyclic AMP and protein kinase in the control of the uptake of calcium by the subcellular organelles of tracheal smooth muscle.
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PMID:Effects of cyclic AMP and of protein kinase on the calcium uptake by various tracheal smooth muscle organelles. 21 9

The involvement of calcium, ATP, and cyclic AMP-dependent protein kinase activity in the release of amylase from rat parotid glands was examined. Pretreatment of the glandular tissue in 11.25 mM Ca2+ medium potentiated the secretory responses to: dibutyryl cyclic AMP, elevation of the extracellular K+ concentration, reduction of the H+ concentration, La3+, and caffeine. Uncoupling of oxidative phosphorylation blocked release induced by dibutyryl cyclic AMP, K+, and reduction of H+, but had no effect on La3+, caffeine or tolbutamide-stimulated release. Inhibition of cyclic AMP-dependent protein kinase activity blocked only dibutyryl cyclic AMP-induced release and did not inhibit the responses to K+, reduction of H+ or caffeine. The loss of lactate dehydrogenase was used to access the integrity of the tissue during amylase release. No significant increase in the release of lactate dehydrogenase was observed during the secretory responses to: dibutyryl cyclic AMP, La3+, caffeine, or tolbutamide. Triton X-100 and ethanol increased the efflux of both amylase and lactate dehydrogenase. The differential involvement of Ca2+, ATP, and cyclic AMP-dependent protein kinase activity in amylase release induced by the various secretagogues suggests that three types of reactions are involved in the release of amylase.
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PMID:Amylase release from rat parotid glands. I. General characteristics. 22 Oct 43

A phosphorylation of endogenous acceptor protein(s) has been demonstrated to occur in membraneous vesicles prepared from Ehrlich ascites tumour cells. The reaction was catalyzed by endogenous protein kinase in the presence of exogenous (gamma32P)ATP. A considerable increase of the specific protein kinase activity took place when the plasma membrane preparation was subjected to a further gradient centrifugation in Dextran T 150. This was done in the presence of a slightly alkaline phosphate buffer containing Mg-ions which resulted in the formation of a well defined vesicular preparation at density 1.035 in the gradient. The apparent Km and Vmax for the reaction with vesicles and exogenous (gamma32P)ATP were determined and found to be 0.022 mM and 0.23 nmol x mg-1 x 10 min-1, respectively. Neither cyclic AMP nor cyclic GMP did stimulate the protein kinase-catalyzed reaction. Instead, a clear inhibition of the reaction by the cyclic nucleotides was unexpectedly registered. Adenosine at 0.5 mM also inhibited the reaction. Calcium ions were inhibitory at all concentrations tested in the presence of a fixed (gamma32P)ATP/Mg2+ ratio. When Mg-ions were stoichiometrically replaced by Ca-ions practically no activity was observed.
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PMID:Phosphorylation of endogenous proteins by endogenous protein kinase of density gradient--purified plasma membrane vesicles of Ehrlich cells. 22 17


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