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

The role of adenosine 3',5'-monophosphate (cyclic AMP)-dependent membrane phosphorylation in the regulation of microsomal calcium transport in rat aortic smooth muscle was studied. Cyclic AMP-dependent protein kinase augmented the phosphorylation of serine residues in a microsomal protein component with a molecular weight of about 44,000 (determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis) and the majority of 32P incorporation was in serine residue(s). The phosphorylated protein had stability characteristics of a phosphoester. The phosphorylated substrate was not extracted from the trichloroacetic acid (TCA) precipitate with organic solvents or by suspension in hot TCA; and the demonstrated hydroxylamine insensitivity suggested that the substrate was not lipid or nucleic acid. Intrinsic phosphoprotein phosphatase cleaved the labeled phosphate from the cyclic AMP-stimulated microsomes in the first 5 min of incubation. Microsomes phosphorylated in the presence of 1 micron cyclic AMP or 1 micron cyclic AMP plus 0.1 mg/ml protein kinase exhibited enhanced calcium uptake. We suggest that reversible phosphorylation of microsomal membranes may play an important role in the regulation of aortic microsomal calcium transport by cyclic AMP.
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PMID:Role of cyclic AMP in rat aortic microsomal phosphorylation and calcium uptake. 20 57

Plasma membranes can be isolated without disruption of cells by the plasma membrane vesiculation technique (Scott, R.E. (1976) Science 194, 743-745). A major advantage of this technique is that it avoids contamination of plasma membranes with intracellular membrane components. Using this method, we prepared plasma membranes from L6 myoblasts grown in tissue culture and studied the characteristics of the protein phosphorylation system. We found that these plasma membrane preparations contain protein kinase which is tightly bound to the membrane and cannot be removed by washing in EDTA or in high ionic strength salt solutions. This protein kinase activity can catalyze the phosphorylation of several exogenous substrates with decreasing efficiency as acceptors of phosphate: calf thymus histones f2b, protamine and caseine. Cyclic AMP causes a dose-dependent stimulation of protein kinase activity; the highest stimulation (4-fold) is achieved at concentration 10(-5) M cyclic AMP. Cyclic AMP-dependent stimulation can be completely inhibited by heat-stable protein kinase inhibitor isolated from rabbit skeletal muscle. On the other hand, cyclic GMP does not affect the activity of protein kinase. Plasma membrane-bound protein kinase also catalyzes the phosphorylation of endogenous membrane protein substrates and this is also stimulated by addition of cyclic AMP. Analysis of plasma membrane proteins by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis showed that specific polypeptides are phosphorylated by cyclic AMP-independent and by cyclic AMP-dependent protein kinase systems. The results of these studies demonstrate the presence of endogenous cyclic AMP-dependent and -independent protein phosphorylating systems (enzyme activity and substrates) in purified plasma membrane preparations. These data provide a basis for further investigations on the role of plasma membrane phosphorylation as a regulator of membrane functions including those that may control cellular differentiation.
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PMID:Plasma membrane cyclic AMP-dependent protein phosphorylation system in L6 myoblasts. 20 25

Human renal (Na+ + K+)-ATPase (ATP phosphohydrolase, EC 3.6.1.3) preparations which exhibited a non-linear reaction rate, contained high levels of membrane-bound cyclic AMP-dependent protein kinase, while this latter activity was much less or absent in purified preparations. A non-linear reaction rate was observed in a purified preparation of (Na+ + K+)-ATPase by reconstituting the enzyme into lipid vesicles with cyclic AMP-dependent protein kinase. The addition of cyclic AMP to the ATPase assay of these lipid vesicles inactivated the (Na+ + K+)-ATPase. The cytoplasmic fraction of the cell contained a nondialyzable factor, which prevented (or reversed) the cyclic AMP-mediated inactivation of the enzyme.
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PMID:Reversible in activation of purified (Na+ + K+)-ATPase from human renal tissue by cyclic AMP-dependent protein kinase. 20 25

The recently discovered heat-stable inhibitor protein of the Ca2+-activated cyclic nucleotide phosphodiesterase (Sharma, R. K., Wirch, E. & Warg, J. H. (1978) J. Biol. Chem., in press) has been purified 238 214-fold from bovine brain extract using an affinity column of the modulator protein--Sepharose 4B conjugate. The purified sample appears to be homogeneous as judged by sodium dodecyl sulphate (SDS) gel electrophoresis. The protein band has a mobility corresponding to that of a polypeptide of molecular weight 68 000. Since the heat-stable inhibitor protein has a molecular weight of 70 000 under nondenaturing conditions, it suggests that it is a monomeric protein. The protein has no inhibitory activity toward the cAMP-dependent protein kinase or protein phosphatase. The purified sample has been tested for various enzyme activities which include ATPase, GTPase, cAMP phosphodiesterase, cGMP phosphodiesterase, 5'-nucleotidase, and protein kinase. None of these activities are exhibited by the purified sample.
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PMID:Purification of the heat-stable inhibitor protein of the Ca2+-activated cyclic nucleotide phosphodiesterase by affinity chromatography. 20 31

Inhibitor-1 is a protein which inhibits phosphorylase phosphatase only when it has been phosphorylated by cyclic-AMP-dependent protein kinase [Huang, F. L. and Glinsmann, W. H. (1976) Eur. J. Biochem. 70, 419--426]. Inhibitor-1 was purified by a heat treatment at 90 degrees C, precipitation with ammonium sulphate, chromatography on DEAE-cellulose, gel filtration on Sephadex G-100, and finally rechromatography of the phosphorylated protein on DEAE-cellulose, The protein was purified 4000-fold and 1.5 mg per 1000 g muscle was obtained in seven days corresponding to an overall yield of 15-20%. The purified protein was in a state approaching homogeneity as judged by the criteria of polyacrylamide-gel electrophoresis and ultracentrifugal analysis. The concentration of inhibitor-1 in vivo was calculated to be 1.5 micron, which is at least as high as the concentration of phosphorylase phosphatase. The amino acid composition of inhibitor-1 showed several unusual features. Glutamic acid and proline accounted for nearly one third of the residues, tyrosine, tryptophan and cysteine were absent, and the content of aromatic amino acids was very low. The molecular weight measured by sedimentation equilibrium centrifugation was 19200 and by amino acid analysis was 20800. These values were lower than the mol. wt 26000 determined empirically by gel electrophoresis in the presence of sodium dodecyl sulphate, and much lower than the apparent molecular weight of 60000 estimated by gel filtration on Sephadex G-100. The gel filtration behaviour, stability to heating at 100 degrees C and amino acid composition suggest that inhibitor-1 may possess little ordered structure. The phosphorylated from of inhibitor-1 contained close to one molecule of covalently bound phosphate per mole of protein, which is consistent with the previous finding of a unique decapeptide sequence at the site of phosphorylation, Ile-Arg-Arg-Arg-Arg-Pro-Thr(P)-Pro-Ala-Thr- [Cohen, P., Rylatt, D. B. and Nimmo, G. A. (1977) FEBS Lett. 76, 182-186].the phosphorylated form of inhibitor-1 inhibited phosphorylase phosphatase activity (0.02U) by 50% at a concentration of only 7.0 nM in the standard assay, but the phosphorylated decapeptide was 1000-2000 times less effective as an inhibitor.
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PMID:The regulation of glycogen metabolism. Purification and characterisation of protein phosphatase inhibitor-1 from rabbit skeletal muscle. 20 44

Protein kinase associated with rat liver microsomes was only partly extracted by treatment with 1.5 M KCl. The enzyme was solubilised by Triton X-100 or sodium deoxycholate at the same or slightly higher detergent concentrations than microsomal marker components. The enzyme activity increased 2-3 fold upon solubilisation. Three peaks with protein kinase activity (fractions MI, MII and MIII) were resolved on DEAE-cellulose chromatography. Fraction MIII but not fractions MI or MII was activated by adenosine 3':5'-monophosphate (cyclic AMP). All fractions catalysed the phosphorylation of protamine and histones but not that of casein or phosvitin. Fractions MI and MIII had a similar substrate specificity and phosphorylated histones at a relatively much higher rate than did fraction MII. The isoelectric points were 8.1 for fraction MI, 5.5 for fraction MII and 4.9 for fraction MIII. On incubation of fraction MIII with cyclic AMP it was split into two catalytically active components with pI 8.1 and 7.35. The component with pI 8.1 was predominant and corresponded to fraction MI. Five protein kinase peaks were resolved from rat liver cytosol by DEAE-cellulose chromatography. Three of them (fractions CIa, CIIb and CIII) had the same properties as each of the microsomal kinase fractions. A forth fraction (CIIa) was cyclic-AMP-dependent and had the same substrate specificity as fractions MI and MIII. Its pI was 5.1, and it was split into two components by cyclic AMP (pI 8.1 and 7.35). In binding studies fraction CIIb bound more efficiently to microsomes than fraction CIII, while fractions CIa, CIIa and the microsomal protein kinase fractions did not bind appreciably. When microsomes were treated with trypsin exposed protein kinase was inactivated and the latency of the remaining enzyme increased substantially. Most of fraction MII was inactivated by trypsin while fraction MIII was resistant. The possible orientation of protein kinase fractions MII and MIII in the microsomal membrane is discussed.
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PMID:Protein kinases of rat liver endoplasmic reticulum. Solubilisation, partial characterisation and comparison with protein kinases of rat liver cytosol. 20 48

Dopa-decarboxylase, acetylcholinesterase, sodium plus potassium stimulated adenosine triphosphatase (Na+ + K+-ATPase), and membrane-bound protein kinase were compared in the erythrocytes of patients with Huntington's disease and normal controls. All these enzymes also exist in the basal ganglia. The Na+ +K+-ATPase level was elevated (p less than 0.05) in Huntington's disease, while no significant changes were observed in the other enzymes. This finding is consistent with the concept that Huntington's disease is associated with a general membrane abnormality.
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PMID:Increased sodium plus potassium adenosine triphosphatase activity in erythrocyte membranes in Huntington's disease. 21 30

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

A photoaffinity labeling method was used to characterize and compare cyclic nucleotide-binding proteins of bovine liver cytosol with binding proteins of the nucleus. After photoaffinity labeling of cytosol with 8-azido cyclic [(32)P]AMP, autoradiographs of sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed two major labeled proteins of 47,000 and 52,000-55,000 daltons. DEAE-cellulose column-derived fractions suggested that the larger protein was the regulatory subunit of peak II cyclic AMP-dependent protein kinase and the smaller protein was the regulatory subunit of peak I kinase. The smaller protein was largely present as the free regulatory subunit. The two binding proteins differed in their ability to bind cyclic GMP. Binding to both proteins was abolished by excess unlabeled cyclic AMP but not by 5'-AMP. Photoaffinity labeling of a 0.14 M salt extract of nuclei and a nonhistone chromosomal protein preparation revealed two major binding proteins with the same molecular weight and competition profiles as those of the cytosol. Detergent-washed nuclei gave similar results. Several minor binding proteins were observed in both cytosol and nucleus. One protein (36,000 daltons) was unique to the nucleus and had low affinity for 8-azido cyclic AMP. Photoaffinity labeling with cyclic [(3)H]GMP revealed a cytosol protein, absent from the nucleus, of 31,000 daltons and the ligand was competed for by both cyclic GMP and 5'-GMP. These studies suggest that the major specific cyclic AMP-binding proteins of bovine liver are the type I and type II regulatory subunits of cyclic AMP-dependent protein kinase and are present in both nucleus and cytoplasm.
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PMID:Cyclic nucleotide-binding proteins detected by photoaffinity labeling in nucleus and cytoplasm of bovine liver. 21 81

The effects of acetylcholine and sodium nitroprusside on cyclic GMP levels, contractile force, and glycogen metabolism were investigated in the perfused rat heart. While both agents produced time- and concentration-dependent increases in cyclic GMP, only acetylcholine significantly decreased contractile force. Neither agent altered the basal cyclic AMP concentration, cyclic AMP-dependent protein kinase activity ratio, or phosphorylase activity. When dosages were adjusted to give approximately equal increases in cyclic GMP, acetylcholine attenuated the effect of epinephrine on contractile force and glycogen phosphorylase activity while nitroprusside did not antagonize the action of the beta-adrenergic agent on either parameter. The data suggest that increased cardiac cyclic GMP is not sufficient to completely explain the action of acetylcholine on either contractile force or its antagonism of epinephrine-induced increases in force or glycogen phosphorylase activity.
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PMID:On the question of cyclic GMP as the mediator of the effects of acetylcholine on the heart. 21 23


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