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)

In contrast to reticulocyte polypeptide chain initiation factor 2 (eIF-2), the Artemia factor retains activity in the presence of Mg2+ or after phosphorylation of its alpha-subunit by rabbit reticulocyte heme-controlled repressor (Mehta, H. B., Woodley, C. L., and Wahba, A. J. (1983) J. Biol. Chem. 258, 3438-3441). Furthermore, we have so far been unable to demonstrate a requirement for a GDP/GTP nucleotide exchange factor with Artemia eIF-2. In order to explain these differences we compared the structure of eIF-2 from Artemia and rabbit reticulocytes by using one- and two-dimensional phosphopeptide and iodopeptide maps. Partial trypsin digestion of the alpha-subunit of Artemia eIF-2 after phosphorylation by the heme-controlled repressor generates a 4000 Mr phosphopeptide. Upon extensive trypsin digestion, the two-dimensional phosphopeptide maps of the alpha-subunits for the reticulocyte and Artemia factors are indistinguishable, whereas the iodopeptide maps are different. In addition, immunoblotting indicates that there is no consistent cross-reactivity of the reticulocyte subunits with antibodies prepared in rabbits against the Artemia eIF-2 subunits. A casein kinase II activity was isolated from Artemia embryos that phosphorylates the beta-subunit of reticulocyte eIF-2, but specifically phosphorylates the alpha-subunit of eIF-2 preparations from several non-mammalian sources, including Artemia, yeast, and wheat germ embryos. Since this kinase phosphorylates a site distinct from that recognized by the heme-controlled repressor, and this phosphorylation does not alter the ability of Artemia eIF-2 to undergo nucleotide exchange, caution must be exercised when interpreting the significance of eIF-2(alpha) phosphorylation in non-mammalian cells.
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PMID:Structural studies on the eukaryotic chain initiation factor 2 from rabbit reticulocytes and brine shrimp Artemia embryos. Phosphorylation by the heme-controlled repressor and casein kinase II. 345 94

Forskolin (40 microM) stimulated adenylate cyclase activities of bovine thyroid plasma membranes without the addition of guanine nucleotides. GDP had little effect on the forskolin-stimulated adenylate cyclase activity while Gpp[NH]p (0.1-1.0 microM) decreased it. In the presence of TSH (10 mU/0.11), Gpp[NH]p no longer caused inhibition. Forskolin did not affect phosphodiesterase activities of thyroid homogenates. Forskolin (10 microM) rapidly increased cAMP levels in bovine thyroid slices both in the absence and presence of a phosphodiesterase inhibitor. The effect of TSH (50 mU/ml) on cAMP levels was additive or greater than additive to that of forskolin. An initial 2-h incubation of slices with forskolin did not decrease their subsequent cAMP responses to either forskolin and/or TSH while similar treatment of slices with TSH induced desensitization of the cAMP response to TSH, but not to forskolin. Forskolin (10 microM) as well as TSH (50 mU/ml) activated cAMP-dependent protein kinase of slices in the absence of a phosphodiesterase inhibitor. Although forskolin activated the adenylate cyclase cAMP system, it did not stimulate iodide organification or glucose oxidation, effects which have been attributed to cAMP. In fact, forskolin inhibited these parameters and 32P incorporation into phospholipids as well as their stimulation by TSH. These results indicate that an increase in cAMP levels and cAMP-dependent protein kinase activity in thyroid slices may not necessarily reproduce the effects of TSH on the thyroid.
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PMID:Effects of forskolin on adenylate cyclase, cyclic AMP, protein kinase and intermediary metabolism of the thyroid gland. 629 78

The major peripheral and soluble proteins in frog rod outer segment preparations, and their interactions with photoexcited rhodopsin, have been compared to those in cattle rod outer segments and found to be similar in both systems. In particular the GTP-binding protein (G) has the same subunit composition, the same abundance relative to rhodopsin (1/10) and it undergoes the same light and nucleotide-dependent interactions with rhodopsin in both preparations. Previous work on cattle rod outer segments has shown that photoexcited rhodopsin (R*), in a state identified with metarhodopsin II, associates with the G protein as a first step to the light-activated GDP/GTP exchange on G. The complex R*-G is stable in absence of GTP, but is rapidly dissociated by GTP owing to the GDP/GTP exchange reaction. Low bleaching extents (less than 10% R*) in absence of GTP therefore create predominantly R*-G complexes, whereas bleaching in presence of GTP creates free R*. We report here that, under conditions of complexed R*, two reactions of R* in frog rod outer segments are highly perturbed as compared to free R*: (a) the spectral decay of metarhodopsin II (MII) into later photoproducts, and (b) the phosphorylation of R* by an ATP-dependent protein kinase. a) The spectral measurements have been performed using linear dichroism on oriented frog rod outer segments; this technique allows discrimination between MII and later photoproducts absorbing at the same wavelength. Association of R* with G leads to a strong reduction of the amount of MIII formed and to an acceleration of the decay of MIII. Furthermore, MII is significantly stabilized, in agreement with the hypothesis that MII is the intermediate which binds to G. b) The phosphorylation of R* is strongly inhibited under conditions of R*-G complex formation as compared to free R*. Interferences between reactions at the three sites involved in R* are discussed: the retinal binding site in the hydrophobic core is sensitive to the presence of GTP-binding protein at its binding site on the cytoplasmic surface of R*; the kinase and the GTP-binding protein compete for access to their respective binding sites, both located on the surface of R*. We also observed a slow and nucleotide-dependent light-induced binding of a protein of molecular weight 50 000, which we consider as the equivalent of the 48 000 Mr light-dependent protein previously identified in cattle rod outer segments.
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PMID:Interaction between photoexcited rhodopsin and peripheral enzymes in frog retinal rods. Influence on the postmetarhodopsin II decay and phosphorylation rate of rhodopsin. 631 31

Purified casein kinase G was found able to catalyse the synthesis of [gamma-32P]ATP in the presence of ADP, phosphocasein (previously 32P-labeled by the forward kinase reaction) and magnesium. Apparent Km values of approx. 0.5 mM for phosphocasein and 7.5 mM for ADP were calculated, these values indicating low affinities for the substrates as compared to those exhibited for casein and ATP in the forward reaction. The reverse casein kinase G activity appeared to prefer ADP and GDP as phosphate acceptors. Whereas the casein kinase G reverse reaction could be supported by casein, phosvitin and histone previously phosphorylated by the enzyme, the same proteins could not serve as a phosphate source when previously phosphorylated by the cAMP-dependent protein kinase. Forward and reverse casein kinase G reactions exhibited different optimal pH values (8.5 and 7.2, respectively) and a different sensitivity to Mg2+. Spermine, which activated the kinase activity, blocked the reverse reaction at millimolar concentrations. Although the biological significance of the casein kinase G reverse activity remains to be assessed in intact cell, the process may be useful as a tool in the characterization of phosphorylatable sites in phosphoproteins.
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PMID:Reversibility of the phosphate transfer between ATP and phosphoproteins catalysed by a cyclic nucleotide independent (G type) casein kinase. 657 5

In the present study, we examined the effects of guanine nucleotides on vasopressin-induced osmotic water flow and sodium transport in the 14-h preincubated frog bladder. We also examined the effects of the adenylate cyclase-cyclic AMP and cyclic AMP-dependent protein kinase system in the bladder's epithelial cells. Gpp(NH)p significantly enhanced vasopressin-induced water flow while it did not affect cyclic AMP-induced water flow. However, Gpp(NH)p did not enhance the vasopressin-induced increment of sodium transport across the frog bladder. The adenylate cyclase activity of the crude homogenate was enhanced by vasopressin, Gpp(NH)p and NaF. The effects of Gpp(NH)p and vasopressin, at their maximum doses, on the enzyme activities were additive, while other combinations were not. Specific Gpp(NH)p binding sites were found in the pellet fraction after 2,400 X g centrifugation. No direct effect on the protein kinase activity was observed in the presence of 10(-6) M nucleotides, such as GTP, GDP, GMP, CTP, UTP, ITP and Gpp(NH)p. Cyclic AMP stimulated the phosphorylation of discrete protein bands, however, Gpp(NH)p did not influence cyclic AMP-dependent protein phosphorylation of crude homogenate of the bladder's epithelial cells. These results suggest the guanine nucleotides stimulate the vasopressin-induced osmotic water flow in frog bladder by enhancing the vasopressin-mediated adenylate cyclase activity, so that accumulated cyclic AMP might activate cyclic AMP-dependent protein kinase.
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PMID:Effects of guanine nucleotides on vasopressin-induced water flow and sodium transport of the frog bladder. 660 7

The reversibility of the reactions catalyzed by the wheat germ kinase and the cyclic AMP independent protein kinases isolated from human erythrocytes (casein kinases A and G) and rabbit skeletal muscle (casein kinases I and II) has been investigated. The reverse reaction requires ADP, Mg2+, phosphoprotein, and kinase and results in the formation of ATP from the phosphoprotein and ADP. The requirement for ADP in the wheat germ kinase and casein kinases II and G catalyzed reactions appears to be nonspecific. These kinases can also utilize GDP, IDP, and UDP as phosphoryl acceptors. Studies with the wheat germ protein T-substrate indicate that the phosphorylation of this protein substrate by the kinases is fully reversible. By contrast, the phosphorylation of phosvitin and casein is only partially reversible. Since the T-substrate is found to contain multiple phosphorylation sites and can serve as phosphoryl acceptor for the various kinases, the specificity of the phosphorylation of the substrate by the kinases is examined by way of the reverse reaction. The wheat germ kinase, casein kinase G, and casein kinase II appear to phosphorylate the same sites on the T-substrate as they are capable of completely dephosphorylating each other's 32P-T-substrate. Each of these kinases can catalyze the incorporation of 12 mol of 32P/48 000 g of T-substrate. In contrast, casein kinases A and I can incorporate only 6 mol of 32P/48 000 g of T-substrate. Studies on the reverse reactions suggest that these phosphorylation sites may be the same for both enzymes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reversible phosphorylation of T-substrate by wheat germ, human erythrocyte, and rabbit skeletal muscle protein kinases. 665 66

The effects of preincubation under phosphorylating conditions on adenylyl cyclase activity were studied in preparations containing synaptic membranes from rat cerebral cortex. Preincubation of the membranes with 2 mM ATP and 10 mM MgCl2 resulted in a 50% increase of adenylyl cyclase activity which withstood sedimentation and washing. This activation was maximal after 5 min of preincubation, was reversed after longer preincubations, and paralleled the time course of endogenous phosphorylation-dephosphorylation of proteins observed under these conditions. The activation showed a critical requirement for Mg2+ ions and was dependent on ATP concentration. Similar activation was observed after preincubation of cerebral-cortical membranes with adenosine-5'-O-(3-thiophosphate) (ATP gamma S), but this activation was not reversed by prolonged preincubation times. The activation by ATP gamma S was potentiated severalfold by including synaptoplasm in the preincubation. Further experiments indicated that the activity of nucleoside diphosphokinase, which converts ATP gamma S to guanosine-5'-O-(3-thiophosphate) (GTP gamma S), could account for this potentiation. Preincubation of washed membranes for 5 min with 10 microM GTP and 10 mM MgCl2 also produced a 50% activation of adenylyl cyclase which withstood sedimentation and washing and was reversed by longer preincubations. Endogenous phosphorylation of specific protein components in the membranes during the preincubation was examined by including radioactively labeled nucleoside thiophosphates in the preincubation medium. Incorporation of 35S from [35S]ATP gamma S into a protein component with apparent Mr of 54,000 daltons ( 54K ) correlated significantly with the activation of adenylyl cyclase by ATP gamma S. Thiophosphorylation of the 54K protein was potentiated by addition of GDP to reactions carried out with [35S]ATP gamma S. Endogenous activity utilizing [gamma-32P]GTP as a phosphate donor also preferentially phosphorylated the 54K protein band. These results support previous suggestions that protein phosphorylation plays a role in the regulation of adenylyl cyclase activity. Among the numerous membrane-bound phosphoproteins in rat brain, we have identified a specific protein component with an apparent Mr of 54,000 daltons as the most likely candidate for involvement in this mode of regulation. This 54K protein, which is a principal substrate for a GTP-preferring protein kinase activity in brain membranes, can now be at the focus of investigations attempting to demonstrate a direct role for protein phosphorylation in adenylyl cyclase regulation.
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PMID:Activation of adenylyl cyclase by preincubation of rat cerebral-cortical membranes under phosphorylating conditions: role of ATP, GTP, and divalent cations. 672 33

(1) Pyruvate kinase type M2 from rat lung has been purified 840-fold with an overall yield of 20%. The enzyme gave a single band upon SDS-electrophoresis and isoelectrofocusing and had a specific activity of 1340 U/mg protein. The homotetramer of Mr = 224000 and an isoelectric point of pH 5.8 had an amino acid composition closely resembling that of other pyruvate kinase isoenzymes type M2, except that of the chicken liver. The enzyme was crystallized. (2) The enzyme has its pH optimum at pH 6.5. The K0.5 value for phosphoenolpyruvate is 0.26 mM (nH = 1.81) which decreases in the presence of 0.2 mM fructose 1,6-bisphosphate to 0.056 mM (nH = 1.06). 1 microM fructose 1,6-bisphosphate activates the enzyme at 0.1 mM phosphoenolpyruvate half-maximally. The Km value for ADP at 1 mM phosphoenolpyruvate is 0.4 mM. The Km value for other nucleoside diphosphates increases in the order ADP less than GDP less than IDP less than UDP. (3) No evidence for an interconversion of pyruvate kinase type M2 from rat or chicken lung was found. The enzyme was neither a substrate for the cAMP-dependent protein kinase from rabbit muscle nor for the cAMP-independent protein kinase from chicken liver. Since pyruvate kinase type M2 from chicken liver is inactivated by phosphorylation catalyzed by a cAMP-independent protein kinase (Eigenbrodt, E., Abdel-Fattah Mostafa, M. and Schoner, W. (1977) Hoppe-Seyler's Z. Physiol. Chem. 358, 1047-1055) we suggest that the interconvertible form of pyruvate kinase type M2 may represent a separate form of the pyruvate kinase type M2 family.
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PMID:Purification and properties of pyruvate kinase type M2 from rat lung. 711 73

ATP produced whole-cell potassium currents in cultured endothelial cells of the bovine brain cortical arteries. P2 purinoceptor agonists evoked similar currents with the order of their potency: 2-methylthio ATP > ATP >> alpha, beta-methylene ATP > or = UTP > or = ADP >> AMP. ATP-evoked currents were inhibited by GDP beta S, but not by pertussis toxin (PTX). Furthermore, a phospholipase C (PLC) inhibitor, protein kinase C inhibitor, or cAMP-dependent protein kinase inhibitor had no effect on the currents. In addition to these effects, ATP enhanced intracellular free Ca2+ concentration ([Ca2+]i) in the presence and absence of extracellular Ca2+, and this [Ca2+]i increase was not inhibited by a PLC inhibitor. These results, thus, provide an indication that ATP activates the potassium channel and enhances [Ca2+]i via a P2Y purinoceptor linked to a PTX-insensitive G-protein, which is not involved in a PLC-mediated signaling pathway.
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PMID:ATP activates the potassium channel and enhances cytosolic Ca2+ release via a P2Y purinoceptor linked to pertussis toxin-insensitive G-protein in brain artery endothelial cells. 748 26

Phosphorylation of the small subunit of eukaryotic initiation factor-2 (eIF-2 alpha) impairs protein synthesis in mammalian systems. It is not known, however, if a similar regulatory mechanism exists in plants. Previous reports indicate that one of the wheat germ eIF-2 subunits, the p40-41 doublet, is phosphorylated by heterologous eIF-2 alpha kinases. Here we report that phosphorylation of the small subunit in wheat germ eIF-2, p36, occurs in translating wheat germ lysates which are pretreated with N-ethylmaleimide (NEM) and dithiothreitol. Also, a purified sea star casein kinase II (CKII) phosphorylates the p41-42 doublet and p36 subunits of wheat germ eIF-2. While heme-regulated eIF-2 alpha kinase from reticulocyte lysates does not inhibit wheat germ protein synthesis, CKII and NEM are found to be inhibitory. To determine whether phosphorylation of the small subunit (p36) is the cause for protein synthesis inhibition, we have further studied the exchange of labeled GDP for unlabeled GDP in the preformed eIF-2. [3H]GDP complex in vitro in the presence of CKII and ATP. The GDP exchange in eIF-2.GDP complex can occur without the addition of any protein factor and the exchange reaction is marginally inhibited by CKII. A 0-70% ammonium sulfate cut fraction, prepared from NEM-treated wheat germ lysate, also does not inhibit the guanine nucleotide exchange reaction. These findings suggest that the protein synthesis inhibition in these cases is not mediated by eIF-2 phosphorylation.
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PMID:Phosphorylation of wheat germ initiation factor 2 (eIF-2) by N-ethylmaleimide-treated wheat germ lysates and by purified casein kinase II does not affect the guanine nucleotide exchange on eIF-2. 750 42


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