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)

Demembranated rat sperm flagellar polypeptides capable of binding the regulatory subunit (RII) of a type II cAMP-dependent protein kinase, having apparent subunit molecular masses of 120, 80 and 57 kDa were identified by an RII overlay procedure [Horowitz, J. A., Wasco, W., Leiser, M. & Orr, G. A. (1988) J. Biol. Chem. 263, 2098-2104]. In this study it is shown that all three polypeptides capable of binding RII on a solid-phase blot are tightly associated with the fibrous sheath. Purified fibrous sheath preparations were capable of binding (a) [3H]cAMP and (b) purified catalytic subunits of cAMP-dependent protein kinase forming a functional holoenzyme. The 57-kDa protein was identified as RII by photoaffinity labeling with 8-azido[32P]cAMP. This peptide was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase. RII alpha was also shown to form tight, specific complexes with the fibrous sheath demonstrating the presence of functional RII alpha-binding sites. Truncated RII beta fusion proteins were used to identify the N-terminal amino acids at positions 1-50 as a primary determinant for RII-binding protein interaction. Differential extraction of adult testis with buffers containing Triton X-100, urea and sodium dodecyl sulfate revealed the presence of 80-kDa (major) and 120-kDa (minor) RII-binding proteins in particulate extracts. The 80-kDa polypeptide is only expressed at late stages of spermatogenesis, i.e. during spermiogenesis, suggesting a developmental role for RII anchoring to the sperm flagellar fibrous sheath.
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PMID:Association of the regulatory subunit of a type II cAMP-dependent protein kinase and its binding proteins with the fibrous sheath of rat sperm flagellum. 792 27

The adenylate cyclase system has been implicated in taste transduction. The purpose of this study was to determine whether application of modulators of the adenylate cyclase system to the tongue alter taste responses. Integrated chorda tympani (CT) recordings were made in gerbils to bitter, sweet, salty, sour, and glutamate tastants before and after a 4-min application of four types of modulators of the adenylate cyclase system. The four types of modulators tested were: a) NaF, a compound that promotes dissociation of GTP binding protein; b) forskolin, a powerful stimulant of adenylate cyclase; c) 8-bromoadenosine 3' :5'-cyclic monophosphate sodium salt (8BrcAMP) and N6,2'-O-dibutyryl-adenosine 3' :5'-cyclic monophosphate sodium salt (DBcAMP), two membrane permeable forms of cAMP; and d) 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine dihydrochloride (H-7) and N-(2-[methylamino]ethyl)-5-isoquinolinesulfonamide dihydrochloride) (H-8), which are protein kinase inhibitors. The tast compounds tested were: NaCl (30 mM), monosodium glutamate-MSG (50 mM), sucrose (30 mM), HCl (5 mM and 10 mM), KCl (300 mM), quinine HCl (30 mM), MgCl2 (30 mM), erythromycin (0.7 mM and 1 mM), HCl (5 mM and 10 mM), and urea (2 M). The main findings were as follows. NaF (20 mM) significantly inhibited responses to bitter compounds up to 35% and enhanced the response to sucrose by 30%. NaCl (20 mM), used as a control for NaF, inhibited most responses up to 78% with no enhancement of sucrose as seen with NaF. 8BrcAMP (1.16 mM) reduced the responses to bitter-tasting quinine HCl, MgCl2, and erythromycin but not to urea.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulators of the adenylate cyclase system can alter electrophysiological taste responses in gerbil. 797 5

An arrestin homolog (Arr2, 49-kDa protein) of blowfly (Calliphora erythrocephala) retinae undergoes light-dependent reversible binding to the photoreceptor membrane. In order to characterize this arrestin homolog and to study its function in a well-defined experimental system, we developed a purification scheme which used microvillar photoreceptor membranes as an affinity binding matrix. Additional purification steps included ammonium sulfate precipitation, gel filtration and binding to heparin-agarose. The molecular mass of purified Arr2, as judged by SDS/PAGE, is in the range 45-49 kDa. The isoelectric point, as judged by gel isoelectric focussing, is 8.7. Arr2 is specific to the retina, where it is subject to phosphorylation at multiple sites. Binding of purified Arr2 to isolated photoreceptor membranes efficiently activates the light-induced phosphorylation of visual pigment. Since the assay system used is deficient in rhodopsin phosphatase activity, the arrestin-stimulated phosphate incorporation into rhodopsin results solely from the activation of a protein kinase. Phosphorylation experiments with highly purified membrane preparations indicate that rhodopsin kinase is tightly associated with the rhabdomeric membrane or the microvillar cytoskeleton. Rhodopsin kinase is released from the membrane or inactivated upon treatment with urea. It is concluded that this arrestin is a regulator protein that controls visual-pigment phosphorylation by affecting the interaction of metarhodopsin and rhodopsin (metarhodopsin) kinase.
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PMID:An arrestin homolog of blowfly photoreceptors stimulates visual-pigment phosphorylation by activating a membrane-associated protein kinase. 836 18

Casein kinase II is a heterotetrameric protein kinase with an alpha 2 beta 2 composition; the subunits can be separated only under harsh denaturing conditions. In this study, the optimal conditions for renaturation of denatured casein kinase II have been established. Purified casein kinase II from rabbit reticulocytes was denatured with 8 M urea and 0.1 M dithiothreitol at 25 degrees C. Various parameters, including arginine, oxidized glutathione/dithiothreitol, substrate, and temperature were optimized for renaturation. Under optimal conditions, the denatured protein kinase was successfully renatured with a recovery of 75% activity and eluted around 160,000 Da upon gel filtration, indicating the tetrameric structure. When the alpha (catalytic) and beta (regulatory) subunits of casein kinase II from Drosophila were cloned and overexpressed with the pET3a vector in Escherichia coli, the majority of the subunits were in an insoluble form. The optimal conditions for denaturation/renaturation of the recombinant casein kinase II from Drosophila were identical to those developed for the holoenzyme, except for the redox state and temperature. When the alpha subunit was solubilized and renatured in an approximate 1:1 ratio with the beta subunit, the catalytic activity was stimulated fourfold over that of the alpha subunit alone. The reconstituted enzyme was purified to apparent homogeneity in one step by chromatography on heparin--TSK. Gel filtration indicated the formation of an alpha 2 beta 2 tetramer. The reconstituted recombinant casein kinase II exhibited characteristics of the native holoenzyme in subunit composition, inhibition by heparin, stimulation by basic compounds, and the KCl concentration required for optimal activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renaturation of casein kinase II from recombinant subunits produced in Escherichia coli: purification and characterization of the reconstituted holoenzyme. 839 Aug 82

Two human nm23 genes have been identified, designated nm23-H1 and nm23-H2, which encode the 88% identical nucleoside-diphosphate kinase (NDPK) A and NDPK B polypeptides, respectively. The nm23-H1 gene product has been shown to play a functional role in the suppression of tumor metastasis. The Nm23 proteins/NDPK are highly conserved throughout evolution and are implicated in controlling cellular differentiation and development in various species, while the underlying mechanisms remain undefined. Neither the NDPK activity nor the DNA-binding activity, identified recently for NDPK B, can satisfactory explain the regulatory functions of Nm23. The present study provides evidence that purified Nm23 proteins are capable of transferring a phosphate group to other proteins when non-denaturing amounts of urea are present. This novel Nm23/NDPK activity was found to be specific for serine and threonine residues, and the transphosphorylation of substrate proteins occurred stoichiometrically. Because of the absence of a substrate turn-over, the novel function was termed protein phosphotransferase activity instead of protein kinase activity. It is demonstrated that urea stimulates the interaction of NDPK with other proteins. Identical phosphoprotein patterns were obtained using purified NDPK preparations from human, Drosophila, yeast and Dictyostelium in the presence of urea. Partially purified NDPK from human erythrocytes produced a similar phosphorylation pattern independent of urea addition and also acted stoichiometrically. In this preparation, a protein phosphotransferase activity of Nm23 species may possibly be generated and/or stabilized by the interaction with copurified proteins. Using different mutants of Dictyostelium NDPK it was shown that the protein phosphotransferase activity depends on the same active site as the NDPK activity. A phosphotransfer mechanism analogous to that of protein-histidine kinases is proposed, involving a high-energy phosphohistidine intermediate. Furthermore, the novel Nm23 function is compared with an apparently similar protein phosphotransferase activity which was observed previously with partially purified NDPK from different plant species.
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PMID:A novel serine/threonine-specific protein phosphotransferase activity of Nm23/nucleoside-diphosphate kinase. 852 41

Thr-197 phosphate is essential for optimal activity of the catalytic (C) subunit of cAMP-dependent protein kinase enzyme, and, in the C subunit crystal structure, it is buried in a cationic pocket formed by the side chains of His-87, Arg-165, Lys-189, and Thr-195. Because of its apparent role in stabilizing the active conformation of C subunit and its resistance to several phosphatases, the phosphate on Thr-197 has been assumed to be metabolically stable. We now show that this phosphate can be removed from C subunit by a protein phosphatase activity extracted from S49 mouse lymphoma cells or by purified protein phosphatase-2A (PP-2A) with concomitant loss of enzymatic activity. By anion-exchange chromatography, inhibitor sensitivity, and relative activity against glycogen phosphorylase a and C subunit as substrates, the cellular phosphatase resembled a multimeric form of PP-2A. PP-1 was ineffective against native C subunit, but it was able to dephosphorylate Thr-197 in urea-treated C subunit. Accessibility of Thr-197 phosphate to the cellular phosphatase was enhanced by storage of C subunit in a phosphate-free buffer or by inclusion of modest concentrations of urea in the reactions and was reduced by salt concentrations in the physiological range and/or by amino-terminal myristoylation. It is concluded that a multimeric form of PP-2A or a closely related enzyme from cell extracts is capable of removing the Thr-197 phosphate from native C subunit in vitro and could account for significant turnover of this phosphate in intact cells.
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PMID:Dephosphorylation of catalytic subunit of cAMP-dependent protein kinase at Thr-197 by a cellular protein phosphatase and by purified protein phosphatase-2A. 855 May 70

The transport of proteins from the secretory to the endocytic pathway is mediated by carrier vesicles coated with the AP-1 Golgi assembly proteins and clathrin. The mannose 6-phosphate receptors (MPHs) are two major transmembrane proteins segregated into these transport vesicles. Together with the GTPase ARF-1, these cargo proteins are essential components for the efficient translocation of the cytosolic AP-1 onto membranes of the trans-Golgi network, the first step of clathrin coat assembly, MPR-negative fibroblasts have a low capacity of recruiting AP-1 which can be restored by re-expressing the MPRs in these cells. This property was used to identify the protein motif of the cation-dependent mannose 6-phosphate receptor (CD-MPR) cytoplasmic domain that is essential for these interactions. Thus, the affinity of AP-1 for membranes and in vivo transport of cathepsin D were measured for MPR-negative cells re-expressing various CD-MPR mutants. The results indicate that the targeting of lysosomal enzymes requires the CD-PDR cytoplasmic domain that are different from tyrosine-based endocytosis motifs. The first is a casein kinase II phosphorylation site (ESEER) that is essential for high affinity binding of AP-1 and therefore probably acts as a dominant determinant controlling CD-MPR sorting in the trans-Golgi network. The second is the adjacent di-leucine motif (HLLPM), which, by itself, is not critical for AP-1 binding, but is absolutely required for a downstream sorting event.
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PMID:A casein kinase II phosphorylation site in the cytoplasmic domain of the cation-dependent mannose 6-phosphate receptor determines the high affinity interaction of the AP-1 Golgi assembly proteins with membranes. 856 75

Several capsid proteins were selectively released from the viral core of Chlorella virus CVK2 by treatment with 4M urea. Among the viral core proteins, seven species (Vp154, Vp73, Vp63, Vp52, Vp48, Vp42, and Vp25) were shown to have DNA-binding activities by Southwestern blot analysis. Except for Vp154 and Vp25, these DNA-binding proteins showed a specific affinity for the viral genomic DNA. The viral core also contained three proteins with protein kinase activity (Vp73, Vp60, and Vp37); Vp73 seemed to have both DNA-binding and protein kinase activities. Antisera raised against Vp73 were used to screen a lambda-CVK2 expression library for the gene encoding Vp73. Three different clones (Vp73-3, Vp73-29, and Vp73-42) were obtained and analyzed. ORFs found in these clones all contained characteristic proline-rich motifs. The Vp73-42 ORF showed a strong similarity with histone H1 of various organisms and the Vp73-29 ORF contained two regions with leucine-zipper motifs. All three genes were expressed late in infection.
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PMID:Characterization of DNA-binding proteins and protein kinase activities in Chlorella virus CVK2. 863 5

Ionic reabsorption along the ascending limb of Henle's loop (TAL) is controlled by hormonal stimulation. Most of the hormones that affect this reabsorption regulate ionic transporter activity via cAMP, and some of these hormonal actions have been shown to be modulated by interstitial osmolarity. We studied the early effects of increasing extracellular urea concentration on the production of cAMP induced by arginine vasopressin (AVP) and forskolin in a suspension of medullary portions of TAL (MTAL) prepared from mouse kidney. The addition of urea, performed fifteen minutes before adenylyl cyclase stimulation, decreased both AVP- and forskolin-induced cAMP production. This effect, observed both in the presence and the absence of phosphodiesterase inhibition, was optimal with 300 mmol/liter urea. Addition of urea to the extracellular medium disturbed several cellular parameters, but the decrease in cAMP production appeared to be mediated by the activation of both the protein kinase A and a phosphatase rather than by the modifications in phospholipid metabolism. Since cAMP is the major cytosolic transductional factor in MTAL cells, urea present in the medullary interstitium may thus be considered as an important modulator of hormonal actions in this segment of the nephron.
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PMID:Extracellular urea concentration modulates cAMP production in the mouse MTAL. 880 68

Chronic feeding of ethanol to rats results in disorganization of the keratin intermediate filament network within hepatocytes. Previous studies from this laboratory have shown that intermediate filament organization in cultured cells is related to the phosphorylation state of the proteins. Therefore, we have examined the phosphorylation state of hepatocyte keratins from control and ethanol-fed rats. Feeding ethanol to rats results in dephosphorylation of one site on keratin 8 and one site on keratin 18 at all time points beginning with 6 weeks of ethanol treatment. Dephosphorylation was detected by phosphate analysis and by two-dimensional electrophoresis in which a change in isoelectric point of keratins from ethanol-fed rats was observed. These observations indicate that dephosphorylation of keratins in ethanol-fed animals may be an early step in alcoholic hepatitis which has occurred by 6 weeks of ethanol treatment. To further characterize keratin dephosphorylation in ethanol-fed rats, we used 31P NMR spectroscopy to classify the dephosphorylation site(s). Hepatocyte keratins were purified and solubilized in 9.5 M urea, 10 mM Tris-Cl, pH 8.1. 31P NMR spectra were obtained at 109 MHz, in 10 mm tubes at 30 degrees C. Samples of hepatocyte keratins were phosphorylated with A-kinase, protein kinase C, casein kinase II or Ca/CAM kinase and these samples were analyzed by 31P NMR spectroscopy. The resulting spectra were used as standards to compare the 31P chemical shifts of the resonances produced by these kinases with the phosphorus resonances of control and experimental samples. The 31P NMR spectrum of control hepatocyte keratins shows three resonances at 0.7, 4 and 5 ppm. In vitro phosphorylation by A-kinase produces a resonance at 4 ppm which is distinctly different from the resonance produced by each of the other kinases. In hepatocyte keratins from ethanol-fed animals, the resonance at 4 ppm was missing from the spectrum. These observations indicate that the keratin site that is dephosphorylated in ethanol-fed rats is characterized by the same 31P chemical shift as the keratin site that is phosphorylated by A-kinase.
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PMID:Site-specificity of ethanol-induced dephosphorylation of rat hepatocyte keratins 8 and 18: A 31P NMR study. 882 32


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