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)

Sarcolemmal membranes isolated from guinea pig heart ventricles contained an ATP-dependent calcium-sequestering activity. Sarcolemmal calcium accumulation but not binding was enhanced by preincubation of membranes with exogenous protein kinase, with cyclic AMP, or with isoproterenol. Protein kinase (EC 2.7.1.37) increased the V of Ca2+ accumulation by sarcolemma without any significant effect on the affinity for Ca2+. The endogenous protein kinase activity present in isolated sarcolemma affected membrane phosphorylation. Cyclic AMP increased the endogenous kinase activity modestly, whereas histone increased it significantly. Exogenous protein kinase also catalyzed phosphorylation of these membranes. Endogenous and exogenous kinase-catalyzed phosphorylation of sarcolemma was hydroxylamine-insensitive. Ca2+-dependent ATPase (EC 3.6.1.3) (extra ATPase) activity of sarcolemma was also increased by protein kinase.
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PMID:Stimulation of calcium accumulation in cardiac sarcolemma by protein kinase. 17 78

The use of polyethyleneimine-cellulose thin layer sheets to follow the phosphorylation of histone and decomposition of ATP catalyzed by an adenosine 3':5'-monophosphate (cyclic AMP)-stimulated protein kinase, protein kinase I, has made possible a more detailed analysis of the time course of these reactions than has been achieved previously be observing only recovered phosphorylated protein. When [gamma-32P] ATP was employed, significant error was introduced by the presence of 32Pi at the solvent front on these sheets, and this limited the accuracy of the available information. However, the analysis of assays performed with [U-14C] ATP was straightforward and appeared to have an accuracy comparable to that of the present standard assay. This appears to be the first use of [U-14C] ATP to assay protein kinases. Our physical characterization of protein kinase I showed it to be a homogeneous protein species by polyacrylamide gel electrophoresis, sodium dodecyl sulfate gel electrophoresis and analytical ultracentrifugation. Kinetic studies with protein kinase I indicated the absence of histone phosphatase and cyclic AMP phosphodiesterase activity. Furthermore, the ATPase activity seen is believed to be intimately associated with the protein kinase action, particularly in view of the observed dependence of the rate of Pi production on the presence of cyclic AMP. The kinetic data for the phosphorylation of histone catalyzed by protein kinase I under full stimulation by cyclic AMP are consistent with a double displacement mechanism.
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PMID:Phosphorylation of histone catalyzed by a bovine brain protein kinase. 18 11

The non-histone chromosomal protein fraction isolated from purified brain nuclei possesses protein kinase activity. 93% of this activity is lost by heating at 80 degrees C for 5 min. cAMP does not affect the reaction, but cGMP is inhibitory. In the presence of S-100, an acidic brain-specific protein, phosphate incorporation is enhanced 3 to 4 fold. Bovine serum albumin has no effect whereas histone inhibits activity.
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PMID:Nuclear protein kinase of brain: effect of S-100 protein. 18 May 74

Smooth and rough endoplasmic reticulum from rat liver and hepatomas exhibited endogenous protein kinase activity independent of adenosine 3':5'-monophosphate. The phosphorylation of smooth membranes by this process was consistently higher than that of rough membranes. When histone was added along with the smooth endoplasmic reticulum, cyclic AMP stimulated protein phosphorylation. Analysis of membrane-phosphorylated proteins by gel electrophoresis showed 5 major phosphorylated bands with estimated molecular weights of 155 000, 62 000, 50 000, 46 000 and 43 000, whereas major bands having estimated molecular weights of 62 000, 50 000 and 43 000 were found in membranes of the smooth endoplasmic reticulum of the Morris hepatoma 5123 C. Since previous studies in this and other laboratories have demonstrated the similarity of the protein components of membranes of the endoplasmic reticulum of normal liver and hepatoma, our findings indicate an inability of the protein kinase of hepatoma intracellular membranes to phosphorylate protein species that are found in membranes of both liver and the neoplasm.
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PMID:Protein phosphorylation of the smooth and rough endoplasmic reticulum in normal and neoplastic liver of the rat. 18 Dec 47

The subcellular distribution of histone and phosvitin kinase activities in brain has been studied and the ability of the various fractions to catalyse the phosphorylation of their endogenous proteins (intrinsic protein kinase activity) also examined. Synaptosome membrane fragments have little or no histone or phosvitin kinase activity but contain the highest concentration of cyclic AMP-stimulated intrinsic protein kinase activity. Homogenisation of the membrane fragments in Triton X-100 increased the histone kinase activity but on centrifugation it was all recovered in the supernatant, while the insoluble material contained all the intrinsic protein kinase activity. These results indicate that the intrinsic protein kinase activity of cerebral membrane fragments is due to the presence of a kinase enzyme which is specific to certain membrane proteins. The intrinsic protein kinase activity of synaptosome membrane fragments is a rather slow reaction which takes several minutes to saturate all the acceptor proteins.
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PMID:Distribution of protein kinase activities in subcellular fractions of rat brain. 18 25

The mitochondria of liver of Yoshida ascites tumour-bearing rats contained two forms of protein kinase distinguishable on the basis of their kinetic properties, substrate specificity and responses to cyclic adenosine 3',5'-monophosphate (cAMP). One of these (kinase I) was activated 2-3 fold by cAMP while the other form (kinase II) was insensitive to the action of cAMP. Kinase I which was selective towards histone F1 as substrate was obtained as a homogeneous preparation and was observed to have a molecular weight of 170 000 by Sephadex G-150 gel filtration. Protein kinase II appeared to be a smaller protein with molecular weight of 54 000 and was specific towards acidic proteins namely casein and phosvitin. Protein kinases isolated from liver mitochondria of normal rats showed variations in respect to elution profile of DEAE-cellulose and electrophoretic mobility. The preparation corresponding to kinase I did not show stimulatory responses to cAMP.
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PMID:Protein kinases from liver mitochondria of tumour-bearing rats. 18 32

Conditions influencing the cyclic AMP-dependence of protein kinase (ATP-protein phosphotransferase, EC 2.7.1.37) during the phosphorylation of histone were studied. Protein kinase from mouse liver cytosol and the two isoenzymes [PK (protein kinase) I and PK II] isolated from the cytosol by DEAE-cellulose chromatography were tested. A relation between concentration of enzyme and cyclic AMP-dependence was observed for both isoenzymes. Moderate dilution of isoenzyme PK II decreased the stimulation of the enzyme by cyclic AMP. Isoenzyme PK I could be diluted 200 times more than isoenzyme PK II before the same decrease in cyclic AMP-dependence appeared. Long-term incubation with high concentrations of histone increased the activity in the absence of cyclic AMP relative to the activity in the presence of the nucleotide. This was more pronounced for isoenzyme PK II than for isoenzyme PK I. The cyclic AMP concentration needed to give half-maximal binding of the nucleotide was the same as the cyclic AMP concentration (Ka) at which the protein kinase had 50% of its maximal activity. The close correlation between binding and activation is also found in the presence of KCl, which increased the apparent activation constant (Ka) for cyclic AMP. With increasing [KCl], a progressively higher proportion of the histone phosphorylation observed in cytosol was due to cyclic AMP-independent (casein) kinases, leading to an overestimation of the degree of activation of the cyclic AMP-dependent protein kinases present. The relative contributions of cyclic AMP-dependent and -independent kinases to histone phosphorylation at different ionic strengths was determined by use of heat-stable inhibitor and phospho-cellulose chromatography.
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PMID:Adenosine 3':5'-cyclic monophosphate-dependence of protein kinase isoenzymes from mouse liver. 18 39

A previous study demonstrated that the translational inhibitor from lysates of heme-deficient rabbit reticulocytes is associated with a protein kinase activity. Chromatography of this inhibitor preparation on phosphocellulose yields two distinct protein kinase activities, PC1 and PC2. PC1, which consitutes about 90% of the activity in the unresolved preparation, does not inhibit protein synthesis in lysates, but actively phosporylates calf thymus histone II in a 3':5'-cyclic AMP-denpendent reaction. PC2 contains the translational inhibitor, phosphorylates histone poorly, and is not cyclic AMP-dependent. While [gamma-32P]ATP as the phosphate donor, the two kinase fractions were analyzed with the putative substrates, salt-washed 40S ribosomal subunits, and the initiation factor that mediates the binding of Met-tRNAf to the 40S subunit. PC1 is inactive with the initiation factor, but phosphorylates 40S subunits at a single major site that migrates as a 31,000-dalton band in sodium dodecyl sulfate-acrylamide gels; phosphorylation requires cyclic AMP. Similar phosphorylation of the reticulocyte 40S site (31,000 daltons) can be demonstrated with other cyclic AMP-dependent kinases from reticulocytes, rat liver, and bovine heart muscle. PC2 phosphorylates the small subunit (38,000 daltons) but not the large subunit(s) of the initiation factor; the reaction does not require cyclic AMP. PC2 does not phosphorylate 40S subunits. In the presence of 40S subunits, the initiation factor appears to be rapidly bound in a manner that effectively blocks phosphorylation of the initiation factor by PC2; under the same conditions phosphorylation of the 40S subunit by PC1 is not affected. The initiation factor has been shown to reverse the inhibitions of protein chain initiation induced in lysates by heme deficiency, double-stranded RNA, oxidized glutathione, or the purified translational inhibitor. The observation that the Met-tRNAf binding factor is phosphorylated by PC2 supports the hypothesis that this initiation factor is a target for the action of the translational inhibitor activated in heme deficiency.
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PMID:Regulation of protein synthesis in reticulocyte lysates: phosphorylation of methionyl-tRNAf binding factor by protein kinase activity of translational inhibitor isolated from hemedeficient lysates. 18 60

Cyclic nucleotide levels, protein phosphotransferase activities, and cyclic nucleotide-binding proteins have been determined and partially characterized in the mouse lymphosarcoma P1798. This system is used as a model to understand the function of these activities in a rapidly proliferating cell. Adenosine 3':5'-monophosphate (cAMP) concentrations are 5-fold higher in the lymphosarcoma cells than in thymocytes. In both the thymocytes and malignant tissue, cAMP concentrations are increased by physiological concentrations of epinephrine and prostaglandin. The guanosine 3':5'-monophosphate (cGMP) level in the lymphosarcoma is 0.1 pmole/10(6) cells and is not modified by acetylcholine, prostaglandin F2alpha, or concanavalin A. Four protein phosphotransferase activities have been identified in the lymphosarcoma. These are the cAMP-dependent protein kinase type I and II isozymes and a "histone kinase" and a "phosvitin kinase"; neither of the latter two is regulated by cyclic nucleotides. Characterization of these enzymes was based on fractionation by DE 52 chromatography, substrate specificity, interaction with the protein inhibitor of cAMP-dependent protein kinases, and sucrose gradient sedimentation rates. Both the cAMP-dependent protein phosphotransferase activity and the phosvitin phosphotransferase activity are 2-to 4-fold elevated in the lymphosarcoma cells in comparison to thymocytes. cAMP binding is associated with both the type I and II isozymes and with a fraction tentatively designated as the regulatory subunit of these enzymes. cGMP also binds to this later fraction and to the partially purified fraction containing the type IcAMP-dependent enzyme. The histone phosphotransferase activity of this fraction is also stimulated by cGMP, but studies of the number of binding sites and of absorption to cAMP and cGMP affinity resins indicated that this fraction contains more than one species of cyclic nucleotide-binding protein.
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PMID:Protein phosphotransferase activities and cyclic nucleotide action in proliferating lymphocytes. 18 45

Adenosine 3':5'-monophosphate-dependent protein kinase (protein kinase A) purified from silkworm pupae phosphorylated five major fractions of calf thymus histone, whereas guanosine 3':5'-monophosphate-dependent protein kinase (protein kinase G) purified from the same organism reacted preferentially with H1, H2A, and H2B histones. Amino acid analysis of the phosphopeptides which were obtained by proteolytic digestion revealed that both protein kinases A and G showed the abilities to phosphorylate the same serine hydroxyl groups in H1 and H2B histones. Both protein kinases reacted with Ser-38 in H1 histone. With H2B histone as substrate protein kinase A phosphorylated Ser-32 as well as Ser-36, whereas protein kinase G reacted preferentially with Ser-32 and the reaction with Ser-36 was very slow. H3 and H4 histones were practically inactive substrates for protein kinase G. Although H2A histone has not been analyzed, the evidence has raised a possibility that protein kinase G utilizes a portion of the substrate proteins for protein kinase A.
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PMID:Studies on the sites in histones phosphorylated by adenosine 3':5'-monophosphate-dependent and guanosine 3':5'-monophosphate-dependent protein kinases. 18 7


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