EC:2.7.11.1 - FACTA Search

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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)

smg p21 is a member of the ras p21/ras p21-like small GTP-binding protein (G protein) superfamily, having the same putative effector domain as ras p21s. In the preceding report, we showed that smg p21 was a major G protein in bovine aortic smooth muscle membranes. Recently, two different smg p21 cDNA clones, designated smg-21A and -B, were isolated from a bovine brain cDNA library. In the present studies, we resolved the bovine aortic smg p21 fraction into two distinct G protein fractions on hydroxyapatite column chromatography and purified them separately to near homogeneity (22K G1 and -2). Both 22K G1 and -2 were specifically recognized by an anti-smg p21 polyclonal antibody. 22K G1 and -2 were identified as smg p21B and -A, respectively, by peptide map and amino acid sequence analyses. Purified smg p21A and -B showed GDP/GTP-binding and GTPase activities similar to each other. The GTPase activities of smg p21A and -B were equally stimulated by smg p21 GTPase activating protein 1 and -2. Moreover, both smg p21A and -B were phosphorylated by cyclic AMP-dependent protein kinase with a stoichiometry of one phosphate/molecule of protein. These results indicate that smg p21A and -B coexist in bovine aortic smooth muscle membranes and suggest that smg p21A and -B may serve as intermediates for cyclic AMP actions.
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PMID:The molecular heterogeneity of the smg-21/Krev-1/rap1 proteins, a GTP-binding protein having the same effector domain as ras p21s, in bovine aortic smooth muscle membranes. 164 88

A serine protein kinase that phosphorylates the beta-subunit of the insulin receptor has been partially purified 5,000-fold from HeLa cell membranes. The enzyme has been purified by ion-exchange and hydroxylapatite chromatography and sucrose gradient centrifugation; it has an apparent molecular weight of 36,000-43,000 daltons. It exhibits the following properties: (a) it catalyzes the phosphorylation of the autophosphorylated insulin receptor more efficiently than the nonautophosphorylated insulin receptor, (b) it decreases insulin receptor phosphorylation of tubulin but has no effect on insulin receptor phosphorylation of microtubule-associated proteins or reduced and carboxyamidomethylated lysozyme. The enzyme also phosphorylates casein and ribosomal protein S6 and shares many properties with casein kinase I: (a) similar molecular weight, (b) utilization of ATP but not GTP as phosphoryl donor, and (c) sensitivity to inhibition by heparin. Based on several criteria the receptor serine kinase is neither protein kinase C nor the cAMP-dependent protein kinase.
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PMID:Phosphorylation of the insulin receptor by a casein kinase I-like enzyme. 164 67

Two cAMP-independent protein kinases were purified from rat brain neuron chromatin by using extraction with ammonium sulfate with subsequent chromatography on DEAE-Sephadex A-25 and Sephadex G-150. These enzymes were identified as casein kinases NI and NII, respectively. The molecular masses of the proteins as determined by gel filtration are 4500 and 130 Da. Casein kinase NII utilizes ATP (Km = 7.5 mM) and GTP (Km = 8.5 mM) as substrates, while casein kinase NI utilizes only ATP (Km = 6 mM). The activities of the both enzymes are inhibited by Mn2+ and Ca2+, while heparin (1 microgram/ml) inhibits only casein kinase NII. The memory stimulator ethymizol (ethylnorantipheine) increases the activity of casein kinase NII only when brain proteins extracted by 0.35 M NaCl or rat liver HMG-proteins are used as reaction substrates. This substance has no effect on the phosphorylation of casein and histone HI. The role of casein kinase NII of neuronal chromatin in the realization of stimulatory effects of physiologically active substances on RNA synthesis is discussed.
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PMID:[Isolation and study of cAMP-independent chromatin protein kinases from brain cells]. 165 Jun 7

A growth factor-stimulated protein kinase activity that phosphorylates the epidermal growth factor (EGF) receptor at Thr669 has been described (Countaway, J. L., Northwood, I. C., and Davis, R. J. (1989) J. Biol. Chem. 264, 10828-10835). Anion-exchange chromatography demonstrated that this protein kinase activity was accounted for by two enzymes. The first peak of activity eluted from the column corresponded to the microtubule-associated protein 2 (MAP2) kinase. However, the second peak of activity was found to be a distinct enzyme. We present here the purification of this enzyme from human tumor KB cells by sequential ion-exchange chromatography. The isolated protein kinase was identified as a 46-kDa protein by polyacrylamide gel electrophoresis and silver staining. Gel filtration chromatography demonstrated that the enzyme was functional in a monomeric state. A kinetic analysis of the purified enzyme was performed at 22 degrees C using a synthetic peptide substrate based on the primary sequence of the EGF receptor (KREL VEPLT669PSGEAPNQALLR). The Km(app) for ATP was 40 +/- 5 microM (mean +/- S.D., n = 3). GTP was not found to be a substrate for the purified enzyme. The Km(app) for the synthetic peptide substrate was 260 +/- 40 microM (mean +/- S.D., n = 3). The Vmax(app) for the isolated protein kinase was determined to be 400-900 nmol/mg/min. The purified enzyme was designated EGF receptor Thr669 (ERT) kinase. It is likely that the MAP2 and ERT kinases account for the phosphorylation of the EGF receptor at Thr669 observed in cultured cells. The marked stimulation of protein kinase activity caused by growth factors indicates that these enzymes may have an important function during signal transduction.
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PMID:Isolation and characterization of two growth factor-stimulated protein kinases that phosphorylate the epidermal growth factor receptor at threonine 669. 165 22

A nucleoside triphosphatase (NTPase) activity appeared to be associated with a highly purified nuclear preparation from rat cardiac ventricles. Different nucleoside triphosphates (UTP greater than GTP greater than ITP greater than CTP) supported this enzymic activity, which was stimulated by Mg2+ but not by Ca2+. The nuclear NTPase activity could be down regulated by endogenous phosphorylation of a 55,000 Mr protein. Maximal phosphorylation of the 55,000 Mr protein occurred in the presence of Mg(2+)-ATP. Addition of cAMP, cGMP, Ca2+, Ca2+/phospholipid, Ca2+/calmodulin, and catalytic subunit of cAMP-dependent protein kinase was not associated with any further phosphorylation of the 55,000 Mr protein. However, in the presence of Ca2+/calmodulin or the catalytic subunit of the cAMP-dependent protein kinase additional proteins became phosphorylated, but these had no effect on the Mg(2+)-NTPase activity. These results indicate that a protein with Mr 55,000 may be involved in the regulation the Mg(2+)-NTPase activity associated with rat cardiac nuclei.
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PMID:Regulation of rat cardiac nuclei-associated Mg(2+)-NTPase by phosphorylation. 165 81

Limited proteolysis of catalytic and regulatory subunits of cyclic AMP-dependent protein kinase (A-pk), cyclic AMP phosphodiesterase, glycogen synthase, and histones by fungal protease (type XIX) was analyzed by the digested peptide bands in SDS polyacrylamide gel electrophoresis. The modulatory effects on proteolysis by nucleotides, polypeptides, and phospholipids may greatly depend on the intrinsic nature of substrates. The proteolysis of the regulatory subunit of A-pk and glycogen synthase was not regulated by nucleotides and nucleic acids. In comparison, phosphatidyl serine, cardiolipin, and pepstatin A stimulated the proteolysis of the catalytic subunit of A-pk. Whereas, lambda DNA (Hind III digest), t-RNA, GTP-, phosphatidyl serine, sphingosine inhibited the proteolysis of cyclic AMP phosphodiesterase. Moreover, MS2 RNA, lambda DNA, t-RNA, dGTP, Phosphatidyl serine, phosphatidyl inositol, antipain, and chymostatin exerted inhibitory proteolytic effect on histone VIII-S. Some of these agents also had similar inhibitory effect on other types of histones (types III-S and VII-S). The inhibitory effect of phosphatidyl serine on proteolysis of histone may be due to their interaction which was monitored by the drastic increase of uv absorbance.
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PMID:Regulation of fungal proteolysis on cyclic AMP-dependent protein kinase, cyclic AMP phosphodiesterase, glycogen synthase and histones. 165 82

Incubation of stripped rough microsomes (SRM) with the catalytic subunit of protein kinase A (PKA) permitted specific phosphorylation of seven proteins having relative molecular mass values of 55, 35, 23, 22.5, 22, 18.5 and 16.5 kDa (P55, P35 etc.). By two dimensional gel analysis, we compared these phosphoproteins with low-molecular-weight GTP-binding proteins and revealed that P23 and P22.5 co-migrated with known GTP-binding proteins. Next we examined the effect of cAMP-dependent phosphorylation on a GTP-dependent membrane function, membrane fusion. Quantitative analysis indicated no difference in the amount of membrane fusion obtained whether SRM were incubated in the absence or in the presence of PKA. Thus several rough microsomal proteins underwent cAMP-dependent phosphorylation and this post-translational modification did not affect GTP-dependent membrane fusion in a cell free system.
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PMID:cAMP-dependent phosphorylation of RER proteins from rat liver: relationship with GTP-dependent membrane fusion. 165 58

1. The characteristics have been examined of the high threshold calcium channel current in cultured rat dorsal root ganglion (DRG) neurones recorded in the presence of guanosine-5'-O-(3-thiotriphosphate) (GTP gamma S; 200 microM in the patch pipette). This current, termed IBa, GTP gamma S, was slowly activating and showed little inactivation over 100 ms. 2. External application of forskolin (10 microM) to elevate internal cyclic AMP levels increased the amplitude of IBa, GTP gamma S whereas it had no effect on the control IBa. This cyclic AMP-dependent protein kinase (PKI; 25 microM). 3. The cyclic AMP-dependent phosphorylation induced enhancement of IBa, GTP gamma S was voltage dependent and either did not occur or was observed only transiently at a holding potential (VH) of -30 mV. The forskolin-stimulated enhancement seen at VH -80 mV was lost with a t1/2 of about 1 min when VH was depolarized to -30 mV. Cholera toxin pre-treatment also increased the amplitude of IBa, GTP gamma S at VH -80 mV but not at VH -30 mV. 4. The calcium channel antagonist (-)-202-791 (5 microM) increased the amplitude of IBa, GTP gamma S when applied at VH -80 mV, but either not, or only transiently, at VH -30 mV, as previously observed. This 'agonist' effect of (-)-202-791 was prevented by PKI and was occluded by prior enhancement of IBa, GTP gamma S with forskolin. (-)-202-791 did not increase cyclic AMP levels in DRG neurones. 5. The 'agonist' response of IBa, GTP gamma S to D600 (10 microM) was also occluded by application of forskolin (10 microM) in the patch pipette. Forskolin alone, applied in this manner, increased IBa, GTP gamma S to a similar extent to D600 applied alone. 6. The agonist effect of (+)-202-791 (5 microM) on IBa, GTP gamma S was not prevented by prior enhancement with forskolin, nor was it prevented by PKI. 7. In conclusion, internal GTP gamma S activates G proteins which may interact directly with calcium channels to influence the kinetics of activation and to reduce steady-state inactivation of the channels. There is also an indirect effect on the generation of second messengers such as cyclic AMP. It is likely that forskolin enhances IBa, GTP gamma S by increasing activated Gs coupling to adenylyl cyclase and increasing cyclic AMP generation. The mechanism of action of (-)-202-791 to enhance IBa, GTP gamma S also involves cyclic AMP-dependent phosphorylation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Ca2+ channel currents in rat sensory neurones: interaction between guanine nucleotides, cyclic AMP and Ca2+ channel ligands. 165 19

1. Calcium currents (ICa) were measured in frog ventricular myocytes using the whole-cell patch clamp technique and a perfused pipette. The effect of internal perfusion with the hydrolysis-resistant GTP analogue, GppNHp (5'guanylylimidodiphosphate), on basal ICa and ICa stimulated with forskolin or isoprenaline was examined to gain insight into the role of G proteins in ICa regulation. 2. Without added guanine nucleotides, isoprenaline stimulated ICa approximately 14-fold with an EC50 of 0.09 microM. Forskolin stimulated ICa approximately 10-fold with an EC50 of 0.30 microM. 3. Internal 30 microM-GppNHp produced an approximately 80% decrease in ICa elevated by 0.3 microM-isoprenaline or 3 microM-forskolin. The inhibition of isoprenaline stimulation was due to a decrease in the maximal stimulation from approximately 14-fold to approximately 14-fold without a significant change in the EC50. In contrast, the reduction in forskolin stimulation was due to a 22-fold increase in the EC50 to 11.4 microM, with little change in maximal stimulation. 4. The inhibition of stimulated ICa by GppNHp is likely to be mediated by a G protein, because the effects of GppNHp are irreversible, and are blocked by excess GTP. ICa is affected similarly by GppNHp and by ACh. This suggests that GppNHp activates the same G protein that is normally activated by ACh, but activation by GppNHp occurs in the absence of agonist occupation of the muscarinic receptor. 5. The increase in the EC50 for forskolin produced by internal GppNHp was reversed by exposure to isoprenaline, which itself did not affect ICa amplitude. On average, exposure to isoprenaline in the presence of GppNHp caused an irreversible 81-fold decrease in the EC50 for forskolin to 0.14 microM. Stimulation of ICa by forskolin after internal GppNHp and exposure to isoprenaline was completely blocked by the protein kinase A inhibitor PKI(5-22). 6. These effects do not involve the phospholipase C system, because they are not mimicked by phorbol esters or internal inositol 1,4,5-trisphosphate (IP3) and are not blocked by bromophenacyl bromide or neomycin. 7. Direct effects of G proteins on ICa were not evident, because internal perfusion with PKI(5-22) completely inhibited isoprenaline- or forskolin-stimulated increases in ICa, and neither ACh nor internal GppNHp (30-500 microM) affected basal ICa or ICa elevated by internally perfused cyclic AMP. 8. These results suggest that the predominant site of action of the inhibitory G protein activated by either GppNHp or ACh is adenylyl cyclase. Furthermore, the internally perfused frog cardiomyocytes may provide a useful approach for probing the detailed interactions of G proteins, forskolin, and adenylyl cyclase in an intact cell.
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PMID:Regulation of Ca2+ current in frog ventricular cardiomyocytes by 5'-guanylylimidodiphosphate and acetylcholine. 165 25

Regulation of prostaglandin (PG) E2 receptors was investigated in a 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate-solubilized fraction from the synaptic membrane of porcine temporal cortex. The fraction was preincubated with exogenous protein kinases, and then the binding of PGE2 was measured. PGE2 binding was increased approximately twofold by pretreatment with the catalytic subunit of cyclic AMP-dependent protein kinase (A kinase) or calmodulin-dependent protein kinase II but not by that with protein kinase C. The increase was dependent on the ATP concentration, with ED50 values being close to the Km values of these protein kinases. Protein kinase inhibitors specific for A kinase and for calmodulin-dependent protein kinase II abolished the effect in a dose-dependent manner, with IC50 values being similar to those reported. Further study using the catalytic subunit of A kinase revealed that the maximal binding capacity apparently increased without affecting the affinity and the rate constants for association and dissociation. On the other hand, acid phosphatase treatment reduced the binding activity to the level of nonspecific binding. In addition, treatment by A kinase did not affect the binding of guanosine 5'-(3-thiotriphosphate) by the GTP-binding proteins and the activation of adenylate cyclase mediated by stimulatory guanine nucleotide-binding regulatory protein, and therefore the phosphorylation is believed to occur on the receptor protein. The results suggest that the PGE2 receptor can take active phosphorylated and inactive dephosphorylated forms, of which only the phosphorylated one can bind PGE2.
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PMID:Regulation of prostaglandin E2 receptor binding activity in porcine temporal cortex by protein phosphorylation. 165 90

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