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 significant activation of tryptophan hydroxylase (TPH) was achieved by the addition of 1 mM ATP and 10 mM MgCl2 to 100,000g supernatant prepared from mouse midbrain. The activation produced an increase of enzyme activity by 50-70% above control. Cyclic AMP was not a necessary component in the activation as initially suspected; neither was the involvement of a cyclic AMP-dependent protein kinase detected. The enzyme activation by Mg+2-ATP was totally retained after dialysis, thus excluding the possibility of an allosteric effect. In contrast to the activation, TPH was found to be sensitive to inactivation by acid phosphatase, a dephosphorylating enzyme. These findings are consistent with the proposal that the enzyme activation may involve a phosphorylation process. Furthermore, the activation by Mg+2-ATP in the brain preparations was only minimally observed from neonatal mice and could be abolished from adult mice by administration of hydrocortisone. It appears that the phosphorylation process, as postulated here, may be under developmental and hormonal influences.
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PMID:Activation of brain tryptophan hydroxylase by a phosphorylating system. 21 15

The protein kinase activities of thyroid plasma membranes were characterized after treatment by the nonionic detergent, Triton X-100. With endogenous substrate the protein kinase activity of intact plasma membranes appeared to be cAMP independent, whereas the solubilized plasma membranes contained a cAMP-dependent protein kinase. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of intact plasma membranes demonstrated approximately 30 protein bands, of which several were substrates for endogenous protein kinase, cAMP had a slight, but reproducible, stimulatory effect on some of these. In solubilized plasma membranes cAMP significantly augmented phosphorylation of at least seven of these proteins. Solubilized plasma membranes bound significantly more cAMP per mg protein than intact plasma membranes. The inability to unequivocally detect cAMP-dependent protein kinase in intact membranes using endogenous substrate probably reflects the much greater activity of the cAMP-independent enzyme activity. The protein kinase activity of intact plasma membranes which was stimulated by cAMP when histone was the substrate was primarily recovered in the solubilized plasma membranes. Most of the protein kinase activity of the intact plasma membranes was insoluble and was not augmented by cAMP. The solubilized protein kinase demonstrated the same Km values for ATP, cAMP, and MgCl2 as did the cytosolic protein kinase of the thyroid. Cytosolic and solubilized protein kinase activities were more sensitive to cAMP and cGMP stimulation when histone and protamine were used as substrates. Both enzyme activities were depressed by protein kinase modulator when histone, but not protamine and casein, were used as substrates. The protein kinase activity of insoluble plasma membranes was not inhibited by the protein kinase modulator.
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PMID:Thyroid plasma membrane-associated protein kinases: properties and substrates of solubilized and insoluble enzymes. 21 87

Protein phosphokinase activity endogenous to rat ventral prostate chromatin was assayed by using edphosphophosvitin as an exogenous substrate. For maximal activity of the kinase reaction, the presence of 200 mM NaCl, 5 mM MgCl2, and 1 mM dithiothreitol was essential. Two apparent pH optima were observed, a broad one between pH 7 and 7.4, and one at pH 7.89. At pH 7.4 the apparent Km for 31% dephosphophosvitin was 0.3 mg per ml. With respect to ATP, two apparent Km values (0.04 and 0.41 mM) were found. The kinase activity was minimal toward exogenous histones when used as substrates (3% for lysine-rich and 0.3% for arginine-rich (f3) histones, compared with dephosphophosvitin controls). The protein phosphokinases were not significantly stimulated by cyclic adenosine 3':5'-monophosphate (cyclic AMP) when histones used as substrate. With dephosphophosvitin as substrate, cyclic AMP produced a small inhibition (5 to 15%). Orchiectomy of adult rats resulted in a rapid decline in the chromatin-associated protein phosphokinase activity assayed using optimal experimental condition described above. At 9 hours postorchiectomy, a 30% decline in the activity was observed; this was further reduced to about 50% of the control by 18 hours. This decrease in the kinase activity (e.g. at 9 hours postorchiectomy) appears to precede measurable changes in the protein and RNA complements of chromatin. Testosterone replacement following orchiectomy abolished this decline in the chromatin-associated activity. The chromatin-associated protein phosphokinase activity toward lysine-rich and arginine-rich histones was also sensitive to androgenic status of the animals and declined rapidly postorchiectomy. The results suggest the presence of multiple and androgen-sensitive protien phosphokinases associated with rat ventral prostate chromatin, which may modulate the phosphorylation of nuclear nonhistone phosphoproteins with changing gene action mediated by testosterone in this target tissue.
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PMID:Chromatin-associated protein phosphokinases of rat ventral prostate. Characteristics and effects of androgenic status. 23 69

Two protein kinases active on casein and phosvitin were partially purified from the soluble fraction of ejaculated bovine spermatozoa. They were operationally termed casein kinase A and B based on the order of their elution from a phosphocellulose column. CK-A showed an approximate molecular mass of 38 kDa, and it phosphorylated serine residues of casein and phosvitin utilizing ATP as a phosphate donor (Km 19 microM). Enzyme activity was maximal in the presence of 10 mM MgCl2, whereas it decreased in the presence of spermine, polylysine, quercetin, and NaCl (20-250 mM). CK-B seemed to have a monomeric structure of about 41 kDa; it underwent autophosphorylation and cross-reacted with polyclonal antibodies raised against recombinant alpha, but not beta, subunit of human type 2 casein kinase. It phosphorylated both serine and threonine residues of casein and phosvitin, utilizing ATP (Km 12 microM) but not GTP as a phosphate donor. Threonine was more affected in the phosphorylated phosvitin than in the partially dephosphorylated substrate. CK-B was active toward the synthetic peptide Ser-(Glu)5 and calmodulin (in the latter case, in the presence of polylysine), and it was activated by spermine, polylysine, MgCl2 (30 mM), and NaCl (20-400 mM). The activity of the enzymes was not affected by cAMP, or the heat-stable inhibitor of the cAMP-dependent protein kinase, or calcium.
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PMID:Purification and characterization of two casein kinases from ejaculated bovine spermatozoa. 129 85

Phosphorylation of beta-connectin (titin 2), an elastic protein of chicken breast muscle, occurred in the presence of [gamma-32P] ATP, 0.2 mM CaCl2 and 25 mM phosphate buffer, pH 7.0. Addition of 3 mM MgCl2 did not affect the phosphorylation. However, Ca2+ ions were required for the phosphorylation and EGTA inhibited it even if MgCl2 were present. Myosin light chain kinase (gizzard MLCK), cAMP dependent protein kinase (A kinase), and protein kinase C (C kinase) did not phosphorylate beta-connectin in vitro under optimal conditions. Thus it appears that beta-connectin, possibly containing a domain homologous with MLCK, has an autophosphorylating action.
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PMID:Autophosphorylation of beta-connectin (titin 2) in vitro. 154 1

Actin of fragmin-actin complex is phosphorylated by an endogenous kinase from plasmodium of Physarum polycephalum. The phosphorylation abolishes the nucleation and capping activities of fragmin-actin complex. The kinase has been purified and termed actin kinase [Furuhashi, K. & Hatano, S. (1990) J. Cell Biol. 111, 1081-1087]. Enzymatic properties of the purified actin kinase were studied in detail. Actin kinase exhibited the highest activity under conditions physiological for the plasmodium (30 mM KCl, 6 mM MgCl2, pH 7.0). The Vmax and the Km of the enzyme for ATP were about 83 mumol/min/mg and 25 microM, respectively. The Km for fragmin-actin complex was 190 nM. The purified actin kinase phosphorylated actin of fragmin-actin complex at a constant rate regardless of Ca2+ concentration. Similarly, 2 microM cAMP, 2 microM cGMP, 2 micrograms/ml calmodulin in the presence of Ca2+ or 1 mM GTP showed no effect on the activity of the purified enzyme. Actin kinase did not phosphorylate histone H1, H2B, alpha-casein, or beta-casein, suggesting that actin kinase is a new kind of protein kinase which specifically phosphorylates actin of the fragmin-actin complex.
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PMID:Actin kinase: a protein kinase that phosphorylates actin of fragmin-actin complex. 158 99

Rat liver microsomes contain type-1 S6 phosphatase (acting on the serine residues phosphorylated by protein kinase A) and type-1 phosphorylase phosphatase activities. The main aim of this study has been to characterize the microsomal S6 phosphatase activity and to compare its properties with those of the phosphorylase phosphatase activity in the same microsomal preparation. The specific activities of both microsomal S6 phosphatase and phosphorylase phosphatase were 1.6- to 1.7-fold higher in the smooth endoplasmic reticulum than in the rough sarcoplasmic reticulum. Both phosphatase activities were inhibited to a similar extent by MgCl2 (10 mM) and NaF (22 mM), were completely suppressed by glycerophosphate (80 mM) and ZnCl2(10 mM), and were stimulated by MnCl2(1 mM). When analyzed by gel filtration on Sephadex G-100 superfine, both phosphatase activities eluted as broad peaks, stretching from the void volume to 45-60 kDa. The microsomal S6 phosphatase and phosphorylase phosphatase activities also displayed the following distinct characteristics: (a) Mn2+ stimulated the S6 phosphatase activity 2.9-fold more than the phosphorylase phosphatase activity, (b) limited trypsin digestion of microsomal preparations increased the phosphorylase phosphatase activity by 1.5- to 2-fold, but decreased the S6 phosphatase activity by 50%, (c) a synthetic peptide analog of S6 (S6229-239) (200 microM), which did not act as a substrate for the microsomal S6 phosphatase and did not affect its activity, inhibited the microsomal phosphorylase phosphatase activity by about 50%, and (d) the elution profile of the phosphorylase phosphatase activity was markedly broader than that of the S6 phosphatase activity. A series of in vivo studies showed that streptozotocin-diabetes and insulin replacement therapy as well as ip injection of insulin or vanadate, which modified the microsomal S6 phosphatase activity, had no statistically significant effects on the microsomal phosphorylase phosphatase activity. Taken together, these results suggest that the microsomal S6 phosphatase and phosphorylase phosphatase activities are due to two distinct enzyme populations.
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PMID:A comparative study of the microsomal S6 phosphatase and phosphorylase phosphatase activities in rat liver. 165 55

Spontaneous S6 phosphatase activities dephosphorylating Ser(P)-235 and Ser(P)-236 of the ribosomal protein S6 were measured and compared in microsomes and cytosol of rat liver. The substrate used, small (40S) ribosomal subunits 32P-labelled in vitro by protein kinase A, contained phosphorylated S6 (mainly in the diphosphorylated form) and some minor phosphorylated species. The microsomal and cytosolic S6 phosphatase activities displayed a number of distinct properties. The microsomal activity, representing ca 20% of the S6 phosphatase activity in the post-mitochondrial supernatant, was mainly due to a type-1 phosphatase and dephosphorylated only S6. The remaining post-mitochondrial S6 phosphatase activity, which was fully recovered in the cytosol, and appeared to result from a combination of type-1 (43%) and type 2 (57%) phosphatases, acted on S6 as well as on the minor phosphorylated species. The microsomal activity was 50% inhibited by MgCl2 (10 mM) and was stimulated at least 4.3 fold by MnCl2 (1 mM), while the cytosolic activity was inhibited only 18% by Mg2+ (10 mM) and was increased 2.2 fold by Mn2+ (1 mM). The microsomal activity was increased 10% (P less than 0.06) by lower doses of insulin (25 U/Kg) and 14% (P less than 0.05) by vanadate, but was not significantly (P greater than 0.10) affected by larger doses of insulin (100 U/kg), hepatectomy or cycloheximide. By comparison the cytosolic S6 phosphatase activity was unresponsive to insulin and vanadate, but was decreased 14% and 17% (P less than 0.05) by hepatectomy and cycloheximide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparative study of microsomal and cytosolic S6 phosphatase activities in rat liver. 166 99

These studies describe a cytoskeletal-associated protein kinase activity in astrocytes that phosphorylated the intermediate filament proteins glial fibrillary acidic protein (GFAP) and vimentin and that appeared to be distinct from protein kinase C (PK-C) and the cyclic AMP-dependent protein kinase (PK-A). The cytoskeletal-associated kinase activity phosphorylated intermediate filament proteins in the presence of 10 mM MgCl2 and produced an even greater increase in 32P incorporation into these proteins in the presence of calcium/calmodulin. Tryptic peptide mapping of phosphorylated intermediate filament proteins showed that the intermediate filament protein kinase activity produced unique phosphopeptide maps, in both the presence and the absence of calcium/calmodulin, as compared to that of PK-C and PK-A, although there were some common sites of phosphorylation among the kinases. In addition, it was determined that the intermediate filament protein kinase activity phosphorylated both serine and threonine residues of the intermediate filament proteins, vimentin and GFAP. However, the relative proportion of serine and threonine residues phosphorylated varied depending on the presence or absence of calcium/calmodulin. The magnesium-dependent activity produced the highest proportion of threonine phosphorylation, suggesting that the calcium/calmodulin-dependent kinase activity acts mainly at serine residues. PK-A and PK-C phosphorylated mainly serine residues. Also, the intermediate filament protein kinase activity phosphorylated both the N-and the C-terminal domains of vimentin and the N-terminal domain of GFAP. In contrast, both PK-C and PK-A are known to phosphorylate the N-terminal domains of both proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylation of glial fibrillary acidic protein and vimentin by cytoskeletal-associated intermediate filament protein kinase activity in astrocytes. 172 39

The 160 and 150 kDa proteins of sarcoplasmic reticulum (SR) are phosphorylated endogenously. The phosphorylation of both proteins has a marked requirement for Ca2+. Half-maximal and maximal phosphorylation was obtained at about 1 nM- and 1 microM-Ca2+ respectively, and a Hill coefficient of about 0.5 was calculated. The phosphorylation is also dependent on NaF as an inhibitor of the SR phosphoprotein phosphatase. The phosphorylation of these proteins is very rapid, and maximal phosphorylation is achieved in less than 15 s. The phosphorylation of the 160 kDa and 150 kDa polypeptides is completely inhibited by 5 mM-MgCl2 and by 75 microM-LaCl3, by very low concentrations of different detergents, and by preincubation of the SR for 2 min at 60 degrees C. The inhibition by Mg2+ is due to stimulation of ATP hydrolysis, thereby decreasing ATP concentration. Different phosphorylated peptides were obtained by digestion with protease V8 of the 160 kDa and 150 kDa protein bands, suggesting that the 160 kDa and 150 kDa proteins are distinct. The two phosphorylated proteins are present in different fractions and preparations of SR, with or without [3H]PN200-110 binding capacity. These and other results suggest that the phosphorylated SR proteins are distinct from the alpha 1 and alpha 2 subunits of the voltage-gated Ca2+ channel of the T-system membranes. Different inhibitors and activators of protein kinase C and calmodulin-dependent protein kinase have no effect on the endogenous phosphorylation of both polypeptides, suggesting that the phosphorylation is regulated solely by Ca2+. A possible regulatory function for this phosphorylation system is described in the accompanying paper [Gechtman. Orr & Shoshan-Barmatz (1991) Biochem. J. 276.97-102].
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PMID:Characterization of Ca(2+)-dependent endogenous phosphorylation of 160,000- and 150,000-Dalton proteins of sarcoplasmic reticulum. 190 35


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