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)

Rabbit muscle nonactivated phosphorylase kinase (EC 2.7.1.38) is converted to thiophosphate-activated phosphorylase kinase by cyclic AMP dependent protein kinase, Mg2+ and ATP-gamma-S/adenosine-5'-O-(s-thiotriphosphate)/. The formation of thiophosphate-activated phosphorylase kinase wal also observed in the protein-glycogen complex from skeletal muscle. This new form of kinase is resistant to the action of phosphatase and behaves as a competitive inhibitor in the dephosphorylation of phosphorylase alpha by phosphorylase phosphatase (Ki = 0.04 mg per ml). The fact that the inhibitory effect of thiophosphate-activated phosphorylase kinase is 3 times higher than in the case of nonactivated kinase, may explain the transient inhibition of phosphorylase phosphatase in the protein-glycogen complex. The use of activated (phosphorylated) phosphorylase kinase supports this assumption since it causes a delay in the dephosphorylation of phosphorylase alpha, i.e. the conversion of phosphorylase alpha into beta could start only after the dephosphorylation of activated phosphorylase kinase.
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PMID:Thiophosphate-activated phosphorylase kinase as a probe in the regulation of phosphorylase phosphatase. 17 74

The equilibrium binding of cyclic AMP to a 150-fold purified preparation of protein kinase, when expressed as the reciprocal of bound against the reciprocal of free cyclic AMP, gave a plot consisting of two straight lines. The values of apparent Kb given by these lines were lowered by preincubating the intact tissue with noradrenaline or incubating the enzyme preparation with Mg2+ plus ATP. This effect was reversed by incubating the preparation (which contained some phosphatase impurities) with Mg2+ alone. None of these procedures affected the maximal binding of cyclic AMP. During incubation of the enzyme with Mg2+ plus ATP, the terminal phosphoryl group was incorporated into protein, over 40% being present in the kinase itself. This phosphate was removed during incubation of the preparation with Mg2+ alone. The validity of expressing cyclic AMP binding as a double-reciprocal plot is discussed, and the experimental plots are compared with those derived theoretically. The results suggest that protein kinase in brown fat is present in two forms, one with an apparent Kb for cyclic AMP or approx. 250 nM (dephosphorylation) and one with an apparent Kb of approx. 14 nM (phosphorylated). Preincubation of the tissue with noradrenaline results in phosphorylation of the kinase and an increase from 15 to 45% in the proportion of the higher-affinity form.
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PMID:Adenosine 3':5'-cyclic monophosphate-dependent protein kinase in brown fat from newborn rabbits. Changes in the binding of adenosine 3':5'-cyclic monophosphate after preincubation of the tissue with noradrenaline or incubation of the enzyme with adenosine triphosphate. 17 26

Disulfide reductase (DSR) of mice liver supernatant is kinetically demonstrated as associating-dissociating oligomeric protein with positive homotropic cooperativity for the substrate. Cyclic 3',5'-AMP (10(-11)--10(-5) M) activates DSR and increases V, but does not change either [S]0,5, nor nH and does not shift the plot of specific activity versus the enzyme concentration. ATP, GTP, UTP, CTP, protamine, histone, Mg2+, Ca2+, EDTA (but not adenosine, 5'-AMP, 2'3'-AMP, ADP beef serum albumin) activated DSR. The effects of different modifiers are not summed up. Preincubation is essential for the action of the majority of the activators. Heating for 8 minutes at 55 degrees C desensitized completely DSR to all the modifiers without changing its catalytic activity, [S]0,5 and nH values. Possible mechanisms of activation of DSR, especially the involvement of protein kinase, are discussed.
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PMID:[Kinetics and regulatory properties of the disulfide reductase enzyme from mouse liver]. 17 10

N6,O2'-dibutyrylcyclo-3',5'-AMP injected to intact rats alone or in combination with theophylline increases the activity of guanidine acetate methyltransferase (GAMT) in liver and pancreas. Cyclic 3',5'-AMP and its dibutyryl analog administered immediately or two hours after the suturing of common bile duct (SCBD) stimulate the increase of pancreatic GAMT activity 2-3 fold. Glucagon, injected intraabdominally simultaneously with SCBD and administration of theophylline, dramatically increases the theophylline effect on the GAMT activity. The freezing of rat pancreas pretreated witn secretin, a hormone structurally similar to glucagon, results in a 1.5-2-fold increase of creatine synthesis from S-adenosylmethionine and guanidinacetic acid. An hour after glucagon administration to intact rats the GAMT activity of liver increases 9 times. The effect of glucagon is enhanced by insulin. Cycloheximide inhibits the increase of GAMT activity, induced by glucagon or a combination of glucagon and insulin. Experiments on tissue homogenates demonstrate that 3',5'-AMP in concentrations of 10(-8) --10(-2) M does not affect the GAMT activity or to some extent inhibits the enzyme. The homogenate incubation in a medium containing 10(-5) M epinephrine or 10(-7) M caffeine and 5 mM Mg2+ leads to an increase in the GAMT activity. Oligomycin removes the stimulating effects of caffeine and Mg2+ on the enzyme activation. This is probably due to the presence of 3',5'-AMP-dependent protein kinase in the mechanism of GAMT activation by cyclic AMP.
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PMID:[The stimulating effect of cyclic AMP, glucagon and insulin on guanidine acetate-N-methyltransferase activity in rat liver and pancreas]. 17 11

Although guanosine 3':5'-monophosphate (cyclic GMP)-dependent protein kinase (protein kinase G) which was partially purified from silkworm pupae was not dissociated by cyclic GMP into catalytic and regulatory subunits as described for adenosine 3':5'-monophosphate-dependent protein kinase (protein kinase A) (Takai, Y., Nakaya, S., Inoue, M., Kishimoto, A., Nishiyama, K., Yamamura, H., and Nishizuka, Y. (1976) J. Biol. Chem. 251, 1481-1487), limited proteolysis with trypsin resulted in the formation of catalytic and cyclic GMP-binding fragments which showed molecular weights of approximately 3.4 X 10(4) and 3.6 X 10(4), respectively (the molecular weight of native protein kinase G was 1.4 X 10(5)). The catalytic fragment did not bind cyclic GMP and was fully active in the absence of the cyclic nucleotide. The fragment did not show an absolute requirement for a sulfhydryl compound and high concentrations of Mg2+ (50 to 100 mM), both of which were necessary for the maximal activation of native protein kinase G. The catalytic fragment was not inhibited by the cyclic GMP-binding fragment nor by the regulatory subunit of protein kinase A. Inversely, the cyclic GMP-binding fragment was unable to inhibit the catalytic subunit of protein kinase A. Protein inhibitor, which was described for protein kinase A, was inert for the catalytic fragment.
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PMID:Guanosine 3':5'-monophosphate-dependent protein kinase from silkworm, properties of a catalytic fragment obtained by limited proteolysis. 18 28

Essentially pure phenylalanine hydroxylase from rat liver can be activated between 2.5- and 3.0-fold by treatment with Mg2+, ATP, protein kinase, and cyclic AMP. The activation is seen when the hydroxylase is assayed in the presence of tetrahydrobiopterin, but not in the presence of 2-amino-4-hydroxy-6,7-dimethyltetrahydropteridine. In the presence of [gamma-32P]ATP, activation is accompanied by incorporation of 32P into the protein to the extent of 0.7 mol/mol of hydroxylase subunit (Mr = 50,000). Cehmical analysis of the untreated enzyme shows that it already contains about 0.3 mol of Pi/mol of hydroxylase. These results suggest that the activity of the hydroxylase may be regulated by phosphorylation.
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PMID:In vitro activation of rat liver phenylalanine hydroxylase by phosphorylation. 18 95

Vinblastine-isolated microtubule protein from chick embryonic muscles has an enzymatic activity which catalyzes the formation of phosphatidic acid from diglycerides and ATP. The pH optimum (6.4), sedimentation on sucrose gradients (Mr = 85 000), and sensitivity to ions of this diglyceride kinase activity are different to those of a similar enzymatic activity present in 150 000 X g supernatants of chick embryonic muscle homogenates, suggesting that it is a different species which is associated specifically with the microtubules. The reaction requires a divalent ion (e.g. 0.4 mM Mg2+ gives half-maximal stimulation), and GTP can replace ATP rather effectively, especially at nucleotide concentrations lower than 50 muM. The sedimentation of the diglyceride kinase on sucrose gradients coincides with that of the microtubules-associated protein kinase (Mr = 75 000); the heat-stability and sensivitity to proteolysis of both activities are also very similar. Stimulation of one reaction by the addition of the corresponding exogenous substrate does not impair the phosphorylation of the other, and no radioactivity is lost from phosphatidic acid or the protein moiety upon incubation of pre-labelled microtubules with a large excess of unlabelled ATP or GTP. In addition to diglyceride and protein kinase activities (0.2 and 0.3 nmol 32P-transferred X min-1 X mg-1 microtubular protein, respectively), microtubules also contain an associated ATPase (2.8 nmol X min-1 X mg-1), which requires either Mg2+ or Ca2+, can hydrolyze GTP quite effectively, and sediments with a molecular weight of 95000. The results obtained are discussed in connection with the possible relationships existing among these enzymatic activities, as well as their probable role in microtubular functions.
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PMID:Diglyceride kinase activity of microtubules. Characterization and comparison with the protein kinase and ATPase activities associated with vinblastine-isolated tubulin of chick embryonic muscles. 18 51

Cardiac myofibrils were purified from canine myocardium, and the regulatory proteins (troponin + tropomyosin) were extracted and shown to contain endogenous cyclic AMP-dependent protein kinase activity. Other cyclic nucleotide stimulated the protein kinase activity but only at higher concentrations. The enzyme was able to catalyze phosphorylation of conventional substrates such as histones and casein as well as a component of the regulatory protein fraction with a molecular weight of 28,000 daltons. Endogenous phosphorylation required the presence of Mg2+ and was inhibited by Ca2+. A protein kinase inhibitor obtained from skeletal muscle inhibited the cyclicAMP-dependent phosphorylation. Escherichia coli alkaline phosphatase dephosphorylated the endogenous substrates. The level of phosphorylation found is severalfold higher than we have previously reported. A protein kinase, with its close association with the regulatory proteins, seems to be well suited to transmitting the message from the cyclic AMP to the regulatory proteins, a phenomenon that may influence the cardiac contractility via the troponin phosphorylation. The inhibitory effect of troponin on actomyosin might be changed by its state of phosphorylation.
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PMID:Phosphorylation of cardiac regulatory proteins by cyclic AMP-dependent protein kinase. 18 66

1. The catalytic subunit of bovine liver cyclic AMP-dependent protein kinase (EC2.7.1.37) was purified essentially by the method of Reimann & Corbin [(1976) Fed. Proc. Fed. Am. Soc. Exp. Biol. 35, 1384]. 2. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, sedimentation-velocity centrifugation and sedimentation-equilibrium centrifugation showed that the catalytic subunit was monodisperse. Polyacrylamide-gel isoelectric-focusing electrophoresis revealed the presence of at least three isoenzyme forms of catalytic subunit activity with slightly different pI values (6.72, 7.04 and 7.35). 3. Physical properties of the catalytic subunit were determined by several different methods. It had mol.wt. 39000-42000, Stokes radium 2.73-3.08 nm, so20.w 3.14S, f/fo 1.19-1.23 and, assuming a prolate ellipsoid, axial ration 4-5. 4. Amino acid analysis was performed on the catalytic subunit. It had one cysteine residue/molecule which was essential for activity. Inhibition by thiol-specific reagents was partially prevented by the presence of ATP-Mg2+. 5. The circular-dichroic spectrum showed the catalytic subunit contained 29% alpha-helical form, 18% beta-form and 53% aperiodic form. Near-u.v. circular dichroism showed the presence of aromatic residues whose equivalent molar ellipticity was greatly altered by the addition of ATP-Mg2+. 6. Kinetic experiments showed that the catalytic subunit had an apparent Km for ATP of 7 muM. 5'-Adenylyl imidodiphosphate inhibitied competitively with ATP with a Ki of 60 muM. The kinetic plot for histone (Sigma, type II-A) was biphasic showing 'high'-and 'low'-Km segments. Under assay conditions the specific activity of the catalytic subunit was 3 X 10(6) units/mg of protein. Of various metal ions tested, the catalytic subunit was most active with Mg2+.7. When assayed with histone (Sigma, type II-A) as substrate, the activity of the catalytic subunit was increased by non-ionic detergents or urea. No such activation was observed with casein as substrate.
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PMID:Purification and characterization of the catalytic subunit of adenosine 3':5'-cyclic monophosphate-dependent protein kinase from bovine liver. 18 75

Endogenous protein kinase activity was detected in the outer plasma membrane of 373 and SV40 transformed 3T3 cells. When intact cells were incubated with [gamma-32P]ATP, there was a transfer of [32P]phosphate into an acid-insoluble product. The reaction was: (a) linear as a function of time (up to 30 min), (b) proportional to the number of cells present and (c) dependent on temperature and Mg2+ concentration. The acid-insoluble product was susceptible to pronase but not RNase or DNase. More specifically, phosphomonoester bonds to serine and threonine were identified. There was less than 3% hydrolysis of the [gamma-32P]ATP during the reaction; moreover, free [32P]phosphate failed to substitute for the ATP. The reaction product was located on the cell surface, as evidenced by the fact that it could be removed by mild trypsin treatment of intact 3T3 cells. Further evidence for the surface location of the kinase was shown by its activity in phosphorlating exogenous substrate, histone, and phosvitin. The level of phosphorylation increased by 2- to 4-fold prior to the start of S phase when quiescent 3T3 cells were stimulated to reinitiate growth by the addition of serum. The SV40 3T3 cells had from 5- to 10-fold more activity per cell than the quiescent 3T3 cells. Sodium dodecyl sulfate polyacrylamide gel electrophoresis and radioautography show at least 25 phosphorylated proteins; the surface label pattern of 3T3 cells differs from that of SV40-transformed 3T3 cells.
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PMID:Endgoenous protein kinase in outer plasma membrane of cultured 3T3 cells. Nature of the membrane-bound substrate and effect of cell density, serum addition, and oncogenic transformation. 18 98


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