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)

The work described in this report suggests the existence of two biochemically distinguishable forms of the interferon-inducible, double-stranded RNA-dependent protein kinase. Kinase isolated from the cytosolic fraction (S-100) and the ribosome salt wash fraction of interferon-treated cells differed in their chromatographic properties. S-100 kinase eluted from a gel filtration column with M(r) = 140,000-160,000 and was predominantly anionic in nature, whereas ribosomal kinase eluted with M(r) = 66,000 and was predominantly cationic in nature. Purified preparations of S-100 kinase contained the M(r) = 66,000 subunit, P1, as the only polypeptide present in stoichiometric amounts, and thus the S-100 kinase appears to be a dimer of P1 subunits. Dimerization of the S-100 kinase was dependent on the phosphorylation state of the enzyme. Kinase isolated from S-100 was partially phosphorylated. Dephosphorylation of the S-100 kinase by treatment with alkaline phosphatase resulted in a monomeric form of the enzyme with biochemical characteristics similar to that of the ribosome salt wash kinase.
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PMID:Cytosolic double-stranded RNA-dependent protein kinase is likely a dimer of partially phosphorylated Mr = 66,000 subunits. 137 30

Cystic fibrosis is caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR), which lead to defective Cl- conductance in epithelial cells. While the CFTR gene product has been detected in the plasma membrane, its presence and functional role in the membranes of intracellular compartments remain to be established. The purpose of the present experiments was to functionally localize CFTR in the endosomal membrane and to test the role of the associated Cl- conductance in the regulation of endosomal pH (pH(en)). When using conductive protonophores, the net H+ flux across the endosomal membrane of Chinese hamster ovary (CHO) cells is limited by the movement of counterions. Thus, ionic permeability could be estimated indirectly, from the changes in pH(en) determined fluorimetrically. Measurements in situ and in a cell-free microsomal preparation indicate the presence of a protein kinase A (PKA)-activated anion conductance in endosomes from CHO cells transfected with CFTR, but not in endosomes from wild-type or mock-transfected cells. In endosomes isolated from CFTR-expressing cells, the stimulatory effect of PKA was diminished by a specific peptide inhibitor of PKA, by alkaline phosphatase treatment or by a monoclonal antibody against the second nucleotide binding fold of CFTR. Increasing counterion permeability by phosphorylation of CFTR or by addition of valinomycin failed to alter the rate or extent of endosomal acidification in situ. Our observations indicate that functional CFTR, susceptible to activation by PKA, is present in endosomes of transfected CHO cells. More importantly, the data suggest that factors other than counterion permeability are the major determinants of pH(en).
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PMID:The cystic fibrosis transmembrane regulator is present and functional in endosomes. Role as a determinant of endosomal pH. 137 35

The voltage-dependent Na+ channel of the brain is a good substrate for phosphorylation by the cAMP-dependent protein kinase (protein kinase A, or PKA), but the physiological effects of PKA on Na+ channels are poorly documented. We studied modulation by PKA of voltage-dependent Na+ channels expressed in Xenopus oocytes injected with RNA coding for the alpha-subunit of the channel protein (rat brain type IIA and its variant VA200), using the two electrode voltage-clamp technique. Intracellularly injected cAMP or catalytic subunit of PKA, or extracellularly applied forskolin, inhibited the Na+ current by 20-30%. The effect of cAMP was attenuated by prior injection of PKA inhibitors. Injection of small doses of protein phosphatase 2A increased the Na+ current by 10%, whereas larger doses of protein phosphatase 1 and alkaline phosphatase were without effect. The inhibition by PKA showed little voltage dependence, being only slightly stronger at holding potentials at which the availability of the channels was reduced. The voltage dependence of activation and inactivation processes was not altered by cAMP. Similar effects were exerted by forskolin and cAMP on the Na+ channels expressed after the injection of heterologous (total) RNA from rat brain. Thus, PKA modulates the Na+ channel by a mechanism that does not involve major changes in the voltage dependency of the current and is exerted on the channel-forming alpha-subunit.
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PMID:Protein kinase A reduces voltage-dependent Na+ current in Xenopus oocytes. 138 76

To study the phosphorylation of one of the G-box binding factors from Arabidopsis (GBF1), we have obtained large amounts of this protein by expression in Escherichia coli. Bacterial GBF1 was shown to be phosphorylated very efficiently by nuclear extracts from broccoli. The phosphorylation activity was partially purified by chromatography on heparin-Sepharose and DEAE-cellulose and was characterized. It showed the essential features of casein kinase II activity: utilization of GTP in addition to ATP as a phosphate donor, strong inhibition by heparin, preference for acidic protein substrates, salt-induced binding to phosphocellulose, and salt-dependent deaggregation. The very low Km value for GBF1 (220 nM compared to approximately 10 microM for casein) was in the range observed for identified physiological substrates of casein kinase II. Phosphorylation of GBF1 resulted in stimulation of the G-box binding activity and formation of a slower migrating protein-DNA complex. The conditions of this stimulatory reaction fully corresponded to the properties of casein kinase II, in particular its dependence on the known phosphate donors. The DNA binding activity of the endogenous plant GBF was shown to be reduced by treatment with calf alkaline phosphatase; this reduction was diminished by addition of fluoride and phosphate or incubation in the presence of casein kinase II and ATP.
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PMID:DNA binding activity of the Arabidopsis G-box binding factor GBF1 is stimulated by phosphorylation by casein kinase II from broccoli. 152 62

Rat skeletal muscle calpastatin form is markedly modified in its inhibitory properties by means of a reverse reaction which involves both phosphorylation and dephosphorylation. Dephospho-calpastatin shows greater inhibitory efficiency versus mu-calpain, whereas phospho-calpastatin shows maximal inhibition versus m-calpain. Both forms are present in fresh rat muscle. Phosphorylation has been reproduced "in vitro" using a homologous Ca2+ independent protein kinase and found to result in the incorporation of approximately one mole of 32P per mole of protein. Dephosphorylation was induced by treatment with alkaline phosphatase and 32P release shown found to correlate with modifications of the inhibitory properties. This reversible covalent modification of calpastatin is considered an important advancement in the understanding of how different calpain isoforms can be more efficiently controlled by a single inhibitor isozyme form.
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PMID:Modulation of inhibitory efficiency of rat skeletal muscle calpastatin by phosphorylation. 153 Jun 32

The spindle pole body (SPB) is the equivalent of the centrosome in fission yeast. In vivo it nucleates microtubules (MTs) during mitosis, but, unlike animal centrosomes, does not act as a microtubule organizing center (MTOC) during interphase. We have studied the MT-nucleating activity of SPBs in vitro and have found that SPBs in permeabilized cells retain in vivo characteristics. SPBs in cells permeabilized during mitosis can nucleate MTs, and are recognized by two antibodies: anti-gamma-tubulin and MPM-2 which recognizes phosphoepitopes. SPBs in cells permeabilized during interphase cannot nucleate MTs and are only recognized by anti-gamma-tubulin. Interphase SPBs which cannot nucleate can be converted to a nucleation competent state by incubation in cytostatic factor (CSF)-arrested Xenopus egg extracts. After incubation, they are recognized by MPM-2, and can nucleate MTs. The conversion does not occur in Xenopus interphase extract, but occurs in Xenopus interphase extract driven into mitosis by preincubation with exogenous cyclin B. The conversion is ATP dependent and inhibited by protein kinase inhibitors and alkaline phosphatase. Purified, active, cdc2 kinase/cyclin B complex in itself is not effective for activation of MT nucleation, although some interphase SPBs are now stained with MPM-2. These results suggest that the ability of SPBs in vitro to nucleate MTs after exposure to CSF-arrested extracts is activated through a downstream pathway which is regulated by cdc2 kinase.
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PMID:In vitro microtubule-nucleating activity of spindle pole bodies in fission yeast Schizosaccharomyces pombe: cell cycle-dependent activation in xenopus cell-free extracts. 153 43

Ecto-protein kinases have been detected as physiological constituents of cells. One feature of ecto-phosvitin/casein kinase (ecto-PK) is its release from the surface in a soluble form when cells are incubated with exogenous substrate protein. This is interesting in view of the fact that some ecto-enzymes are anchored to the plasma membrane via glycosylphosphatidylinositol (GPI). Such enzymes are known to be released from the surface through cleavage by a phospholipase activity. We therefore investigated whether bacterial phospholipase C (PI-PLC) was able to release ecto-PK from intact HeLa cells. The data show that whereas alkaline phosphatase, known to be GPI-anchored, was solubilized, the ecto-PK was neither released nor affected in its activity. Another effect of treatment of cells with phospholipases was the formation of diacylglycerol or phosphatidic acid which, however, did not occur when cells were incubated with phosvitin, the condition which induces ecto-PK release. These results coherently indicate that cellular phospholipases are not involved in the release mechanism of ecto-PK. Also, the presence of various protease inhibitors did not affect ecto-PK release. Cross-linking of cell-surface proteins by bifunctional agents of the succinimidyl-type suggest a protein-protein interaction responsible for membrane anchoring of the ecto-PK.
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PMID:Ecto-protein kinase release differs from cleavage by phospholipases of a glycosyl-phosphatidylinositol membrane anchor. 153 99

Possible involvement of protein phosphorylation in interferon (IFN)-mediated activation of IFN-stimulated gene factor 3 (ISGF3) was investigated. For this purpose, in vivo experiments with specific inhibitors of protein kinases and in vitro experiments with protein phosphatases were carried out. In HeLaM cells, 2-aminopurine, an inhibitor of double-stranded RNA-dependent protein kinase, blocked the induction of ISGF3 gamma subunit but not the activation of ISGF3 alpha subunit. A series of experiments using combinations of protein and RNA synthesis inhibitors and 2-aminopurine indicated that the block elicited by 2-aminopurine was at the level of ISGF3 gamma mRNA synthesis. Activation of ISGF3 alpha, although insensitive to 2-aminopurine, was completely blocked by 10 nM staurosporine, an inhibitor of protein kinase C. On the other hand, even 500 nM staurosporine did not block the induction of ISGF3 gamma. Incubation of cytoplasmic or nuclear extracts of IFN-treated HeLaM cells in vitro with alkaline phosphatase completely eliminated their ability to form the ISGF3 complex but not the ISGF1 complex. Treatment with acid phosphatase, on the other hand, changed the electrophoretic mobility of the ISGF3 complex but did not obliterate it. Complementation experiments revealed that ISGF3 alpha was the alkaline phosphatase-sensitive component of the complex. These results suggest that a protein kinase C-mediated phosphorylation step is involved in ISGF3 alpha activation and a 2-aminopurine-sensitive component is involved in ISGF3 gamma mRNA induction.
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PMID:Role of protein phosphorylation in activation of interferon-stimulated gene factors. 155 41

The rate of inactivation of the voltage-dependent Ba2+ current in dissociated neurons from the snail Helix aspersa was found to be modulated by phosphorylation. Conditions were chosen such that the most likely mechanism of inactivation of the Ba2+ current was a voltage-dependent/calcium-independent inactivation process. If adenosine-triphosphate (ATP) was not included in the patch electrode filling solution, or if alkaline phosphatase was added, the Ba2+ current rapidly ran down and the rate of inactivation greatly increased with time. Dialysis with either ATP gamma S or the phosphatase inhibitor okadaic acid (OA) either enhanced the amplitude or greatly reduced the rate of run-down of the Ba2+ current (depending upon the presence of ATP), as well as reducing the rate of inactivation. However, dialysis with either the catalytic subunit of the cyclic-adenosine-mono-phosphate-dependent protein kinase (cAMP-PK), a synthetic peptide inhibitor of this enzyme, or staurosporine (a potent inhibitor of protein kinase C), did not have any significant effect on the amplitude or kinetics of the Ba2+ current. Surprisingly, dialysis with a peptide inhibitor (CKIP) of the Ca2+/calmodulin-dependent protein kinase II (Ca(2+)-CaM-PK) significantly reduced the rate of inactivation of this current. These results suggest that phosphorylation may exert its effect by modulating the gating properties of the Ca2+ channels.
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PMID:Inactivation of the Ba2+ current in dissociated Helix neurons: voltage dependence and the role of phosphorylation. 161 19

Soybean nodulin-26, a homologue of bovine eye lens major intrinsic protein (MIP-26), is an integral protein of the peribacteroid membrane in symbiotic root nodules. It comprises 271 amino acids with six potential transmembrane domains and lacks an amino-terminal signal sequence. A full-length nodulin-26 cDNA and its various deletion derivatives were transcribed in vitro after linking them to bacteriophage T3 promoter. In vitro translation of these transcripts in a rabbit reticulocyte lysate, in the presence or absence of canine pancreatic microsomal membranes, suggested that nodulin-26 is cotranslationally inserted into the microsomes without a cleavable signal peptide. The first two transmembrane domains (103 amino acids) of the protein are sufficient for microsomal membrane insertion. Membrane-translocated nodulin-26 binds to Con-A and is sensitive to endoglycosidase-H treatment, suggesting that it is glycosylated. Native nodulin-26 from root nodules retains its sugar moiety as it, too, binds to Con-A. Chemical cleavage mapping at cysteine residues, a trypsin protection assay, and the Con-A binding affinity of nodulin-26 suggested that both the NH2 and COOH termini of this protein are on the cytoplasmic surface of the peribacteroid membrane, while the glycosidic residue is on the surface of the membrane facing the bacteroids. In vitro phosphorylation experiments showed that nodulin-26 is a major phosphorylated protein in the peribacteroid membrane. This phosphorylation is mediated by a Ca(2+)-dependent, calmodulin-independent protein kinase located in the peribacteriod membrane. Externally supplied acid phosphatase dephosphorylates this protein, but alkaline phosphatase does not. Based on its homology with several eukaryotic and prokaryotic channel-type membrane proteins, nodulin-26 may form a channel translocating specific molecules to the bacteroids during endosymbiosis in legume plants.
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PMID:Topology and phosphorylation of soybean nodulin-26, an intrinsic protein of the peribacteroid membrane. 162 42

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