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)

We have previously shown that a 222-kDa polypeptide co-immunoprecipitates together with the type-I myoinositol 1,4,5-trisphosphate receptor (IP3R) in WB rat liver epithelial cell extracts, when the immunoprecipitation is carried out with a type-I isoform specific antibody (Joseph, S. K. (1994) J. Biol. Chem. 269, 5673-5679). Utilizing isoform-specific antibodies raised to unique sequences within the COOH-terminal region of IP3 receptors, we now report that the co-immunoprecipitating 222-kDa polypeptide is the type-III IP3R isoform and that type-III IP3R antibodies (Abs) can co-immunoprecipitate the type-I IP3R isoform. Co-immunoprecipitation of IP3R isoforms was not due to cross-reactivity of the antibodies for the following reasons: (a) on immunoblots the type-III antibodies did not cross-react with type-I IP3R and vice versa; (b) inclusion of the COOH-terminal type-III peptide had no effect on the ability of type-I IP3R Ab to co-immunoprecipitate the type-III IP3R but blocked the ability of type-III IP3R Ab to coimmunoprecipitate the type-I isoform; and (c) crude hepatocyte lysates contain undetectable amounts of type-III IP3R, and immunoprecipitation with type-III IP3R Ab does not co-immunoprecipitate any other isoforms. However, type-I and type-II IP3R isoforms were co-immunoprecipitated by their respective antibodies in hepatocyte lysates. Sucrose density gradient analysis of WB cell lysates indicated that the co-immunoprecipitating fraction is exclusively located at the density expected for tetrameric receptors, suggesting that co-immunoprecipitation was not a reflection of the nonspecific aggregation of IP3R isoforms. Phosphorylation of either type-I or type-III immunoprecipitates by protein kinase A indicated that only the type-I IP3R could be phosphorylated in vitro. Fractionation of WB cell membranes and immunofluorescence studies showed that the type-I and type-III isoforms have very similar sub-cellular localizations. We conclude that the WB cell contains both type-I and type-III IP3R isoforms and that a proportion of these receptors exist as heterotetramers.
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PMID:Heteroligomers of type-I and type-III inositol trisphosphate receptors in WB rat liver epithelial cells. 755 86

Sucrose-phosphate synthase (SPS; EC 2.4.1.14) is regulated by reversible protein phosphorylation. When the enzyme is phosphorylated it is inactivated and can be reactivated by removal of phosphate. The major regulatory phosphorylation site is known to be Ser158 in the spinach-leaf enzyme, and two protein kinase activities have been resolved chromatographically which phosphorylate SPS at this site in vitro. In this report, we use a set of synthetic peptide substrate analogs based on the phosphorylation site sequence, and a set of Escherichia coli-expressed 26-kDa fragments of spinach SPS which contain the site, to identify the recognition elements that target the two protein kinases to Ser158. The major recognition element consists of basic residues at P-3 and P-6 relative to the phosphorylated serine. Comparison of the spinach enzyme amino-acid sequence with two other plant species show conservation of these amino acids and implies that these signals are also conserved. We also present evidence that glucose-6-phosphate is not only an allosteric activator of SPS but also an inhibitor of SPS-protein kinase per se, thereby allowing it to act at both levels of SPS regulation.
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PMID:Characterization of the substrate specificity of sucrose-phosphate synthase protein kinase. 763 38

Lactobacillus brevis accumulates lactose and nonmetabolizable lactose analogues via sugar/H+ symport, but addition of glucose to the extracellular medium results in rapid efflux of the free sugar from the cells due to the uncoupling of sugar transport from proton transport. By using vesicles of L. brevis cells, we recently showed that these regulatory/effects could be attributed to the metabolite-activated ATP-dependent protein kinase-catalyzed phosphorylation of serine-46 in the phosphocarrier protein HPr [HPr(Ser-P)] of the phosphotransferase system and that a mutant form of HPr with the serine-46-->aspartate replacement ([S46D]HPr) is apparently locked in the seryl phosphorylated conformation. We here demonstrate that [S46D]HPr binds directly to inside-out membrane vesicles of L. brevis that contain the lactose permease. Sugar substrates of the permease markedly and specifically stimulate binding of [S46D]HPr to the membranes while certain transport inhibitors such as N-ethylmaleimide block binding. The pH dependency for binding follows that for transport. Wild-type HPr and the [S46A]HPr mutant protein did not appreciably compete with [S46D]HPr for binding to the permease. These results provide evidence for the direct interaction of HPr(Ser-P) with an allosteric site on the lactose/proton symporter of L. brevis for the purpose of regulating sugar accumulation in response to the metabolic needs of the cell.
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PMID:Cooperative binding of lactose and the phosphorylated phosphocarrier protein HPr(Ser-P) to the lactose/H+ symport permease of Lactobacillus brevis. 783 2

The 5'-AMP-activated protein kinase is responsible for the regulation of fatty acid synthesis by phosphorylation and inactivation of acetyl-CoA carboxylase. The porcine liver 5'-AMP-activated protein kinase 63-kDa catalytic subunit co-purifies 14,000-fold with a 38- and 40-kDa protein (Mitchelhill, K.I. et al. (1994) J. Biol. Chem. 269, 2361-2364). The 63-kDa subunit is homologous to the Saccharomyces cerevisiae Snf1 protein kinase, which regulates gene expression during glucose derepression. Peptide amino acid and polymerase chain reaction-derived partial cDNA sequences of both the pig and rat liver enzymes show that the 38-kDa protein is homologous to Snf4p (CAT3) and that the 40-kDa protein is homologous to the Sip1p/Spm/GAL83 family of Snf1p interacting proteins. Sucrose density gradient and cross-linking experiments with purified 5'-AMP-activated protein kinase suggest that both the 38- and 40-kDa proteins associate tightly with the 63-kDa catalytic polypeptide in either a heterotrimeric complex or in dimeric complexes. The 40-kDa subunit is autophosphorylated within the 63-kDa subunit complex. The sequence relationships between the mammalian 5'-AMP-activated protein kinase and yeast Snf1p extend to the subunit proteins consistent with conservation of the functional roles of these polypeptides in cellular regulation by this family of metabolite-sensing protein kinases.
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PMID:Mammalian 5'-AMP-activated protein kinase non-catalytic subunits are homologs of proteins that interact with yeast Snf1 protein kinase. 796 7

Sucrose-phosphate synthase (SPS; EC 2.4.1.14) is regulated in part by reversible protein phosphorylation. When dephospho-SPS is partially purified from illuminated spinach leaves and incubated with [gamma-32P]ATP the enzyme is phosphorylated by a copurifying protein kinase. In this report, 32P-phosphopeptides from tryptic digests of in vitro phosphorylated SPS were purified by metal-ion affinity chromatography and reversed-phase high-performance liquid chromatography. Three distinct 32P-phosphopeptides were resolved. Edman sequencing of the major phosphopeptide (which contained > 80% of the total 32P) identified the amino acid sequence as Ile-Ser-Ser(P)-Val-Glu-Met-Met-Asp-Asn-Trp-Ala-Asn-Thr-Phe-Lys. This sequence corresponds to residues 156 to 170 of the deduced amino acid sequence of spinach SPS [Klein, R. R., Crafts-Brandner, S. J., and Salvucci, M. E. (1993) Planta 190, 498-510, and Sonnewald, U., Quick, W. P., MacRae, E., Krause, K.-P., and Stitt, M. (1993) Planta 189, 174-181]. Identification of the phosphoseryl residue was accomplished by manual Edman sequencing. The two other phosphopeptides, which each contained less than 10% of the total 32P, were not sequenced. An Escherichia coli expressed, 26-kDa fragment of SPS which contains the major phosphorylation site was a substrate for the protein kinase which copurifies with SPS. Two-dimensional peptide mapping analysis of this fragment showed the major phosphopeptide was present but not the other site(s), suggesting that other peptides are derived from a site other than Ser158. These results provide additional indirect evidence for the presence of multiple phosphorylation sites in SPS.
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PMID:Identification of the major regulatory phosphorylation site in sucrose-phosphate synthase. 827 10

The present experiments were designed to investigate the mechanisms involved in the contractile responses evoked by KCl, added either isoosmotically or hyperosmotically, in the rat uterus. Exposure of uterine strips to a Ca(2+)-free, 3 mM EGTA-containing solution abolished the responses induced by isoosmotic KCl solutions. Conversely, addition of hyperosmolar KCl induced concentration-dependent tonic responses in a Ca(2+)-free, 3 mM EGTA-containing solution. The maximum increase in tension was reached with 210 mM K+. The response to hyperosmotic K+ was unaffected by previous depletion of intracellular Ca2+ stores with oxytocin (1 microM), by inhibition of refilling of the intracellular Ca2+ stores using cyclopiazonic acid (10 microM) or by increasing the concentration of EGTA in the medium to 10 mM. Sucrose and mannitol (60-420 mM) induced concentration-dependent sustained contractions which were not reproducible and were significantly smaller in size than those evoked by the maximally effective concentration of hyperosmotic K+ (210 mM). The contraction induced by hyperosmotic K+ in Ca(2+)-free solution was not altered by the calmodulin inhibitor N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7, 100 microM), the Ca2+/calmodulin protein kinase II inhibitor 1-[N,O-bis(1,5-isoquinolinesulphonyl)-N-methyl-L-tyrosyl]-4-phenyl piperazine (KN-62, 10 microM) or the tyrosine kinase inhibitor genistein (10 microM). The protein kinase C inhibitor calphostin C (1-3 microM) failed to modify the K(+)-effect curve, which was however partially inhibited in the presence of the non-selective protein kinase inhibitor 1-(5-isoquinolinylsulphonyl)-2 methylpiperazine dihydrochloride (H-7, 3-100 microM). The protein kinase inhibitor staurosporine (30-300 nM) depressed the contraction induced by hyperosmolar K+ in a concentration-dependent manner. The contraction induced by sucrose in Ca(2+)-free solution was unaffected by W-7 (100 microM) and KN-62 (10 microM) but was partially reduced by calphostin C (1 microM), H-7 (30 microM), staurosporine (100 nM) and genistein (10 microM). These results suggest that different mechanisms are involved in the responses evoked by isoosmotic and hyperosmotic KCl in the rat uterus. A component of the contraction induced by hypertonic KCl seems mainly independent of both external and internal Ca2+ and of hyperosmolar stress. This contraction is not mediated by protein kinase C, Ca2+/calmodulin-dependent kinases or protein tyrosine kinases but involves activation of other, at the present unknown, staurosporine-sensitive protein kinase(s).
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PMID:Ca(2+)-independent contraction induced by hyperosmolar K(+)-rich solutions in rat uterus. 889 13

Sucrose synthase (SS; EC 2.4.1.13) was radiolabeled in situ by incubating detached soybean nodules with 32Pi. Phosphoamino acid analysis indicated that SS was phosphorylated on a serine residue(s). In-vitro phosphorylation of purified nodule SS by desalted nodule extracts was Ca2+-dependent. This SS-kinase was partially purified (approximately 2200-fold) from nodules harvested from illuminated plants. The molecular mass of the SS-kinase was about 55,000 on a Superdex 75 size-exclusion column or in a denaturing autophosphorylation gel. With either purified nodule SS or Syntide 2 as substrate, exogenous calmodulin and phosphatidylserine showed little or no effect on the in-vitro activity of this partially purified protein kinase. However, its activity was inhibited by W-7. The purified nodule SS-kinase (or CDPK) phosphorylated nodule PEP carboxylase (PEPC; EC 4.1.1.31) in the presence of Ca2+. In contrast, a partially purified nodule PEPC-kinase preparation was incapable of phosphorylating nodule SS. Unlike nodule PEPC [Zhang et al. (1995) Plant Physiol. 108, 1561-1568], the phosphorylation state of SS is not likely modulated in planta by photosynthate supply from the shoots.
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PMID:Seryl-phosphorylation of soybean nodule sucrose synthase (nodulin-100) by a Ca2+-dependent protein kinase. 923 14

Sucrose gap recordings from the dorsal roots of isolated, hemisected frog spinal cords were used to determine the effects of metabotropic L-glutamate receptor activation on primary afferent terminals by (+/-)-1-amino-trans-1,3-cyclopentane-dicarboxylic acid (t-ACPD). Dorsal root potentials evoked by ventral root volleys were significantly reduced by t-ACPD (30 microM), as were GABA- and muscimol-induced afferent terminal depolarizations. The effects of t-ACPD on GABA-depolarizations depended upon activation of group I metabotropic glutamate receptors, i.e. the effects were blocked by the group I/II antagonist (RS)-alpha-methyl-4-carboxyphenylglycine, but not by the group II antagonist alpha-methyl-(2S,3S,4S)-alpha-(carboxycyclopropyl)-glycine or the group III antagonist alpha-methyl-(S)-2-amino-4-phosphonobutyrate and were mimicked by the group I agonist 3,5-dihydroxyphenylglycine but were not mimicked by the group III agonist (S)-2-amino-4-phosphonobutyrate. Increasing the intracellular concentration of 3'-5'-cyclic adenosine monophosphate with 8-bromo-cAMP, forskolin, and 3-isobutyl-1-methylxanthine significantly reduced GABA depolarizations, but the protein kinase inhibitors Rp-adenosine 3,5-cyclic monophosphothioate triethylamine and N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulfonamide did not alter t-ACPD's depression of GABA depolarizations. The actions of t-ACPD on GABA depolarizations were neither mimicked nor blocked by phorbol-12-myristate 13-acetate, thapsigargin, staurosporine, or arachidonic acid, presumptive indications that the effects of t-ACPD did not involve phosphoinositide hydrolysis, the release of Ca2+ from intracellular stores, or the formation of arachidonate. t-ACPD's effects on GABA depolarizations were blocked by 20 mM Mg2+, the broad spectrum L-glutamate antagonist kynurenate, and the selective N-methyl-D-aspartate antagonist D(-)-2-amino-5-phosphonovaleric acid, but not by the non-N-methyl-D-aspartate antagonist 6-cyano-7-nitroquinoxaline-2,3-dione. Low concentrations of N-methyl-D-aspartate (10 microM) mimicked the effect of t-ACPD on GABA responses. These results suggest that t-ACPD's depression of GABA depolarizations involves an indirect, three-stage mechanism that includes activation of Group I metabotropic glutamate receptors on interneurons and/or on afferent terminals, the release of L-glutamate from the latter structures, and the activation of N-methyl-D-aspartate receptors on primary afferent terminals. The depression of GABA depolarizations caused by the release of L-glutamate from afferent terminal and/or interneurons leads to a block of presynaptic inhibition (produced in the frog spinal cord by GABA) resulting in a positive feed-forward amplification of reflex transmission.
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PMID:Role of metabotropic glutamate receptors in the depression of GABA-mediated depolarization of frog primary afferent terminals. 933 Mar 69

GH, in the presence of glucocorticoid, produces a delayed increase in lipolysis in rat adipose tissue, but the biochemical mechanisms that account for this action have not been established. Other lipolytic agents rapidly activate adenylyl cyclase (AC) and the resulting production of cAMP initiates a chain of reactions that culminates in the activation of hormone-sensitive lipase. We compared responses of segments of rat epididymal fat or isolated adipocytes to 30 ng/ml GH and 0.1 microg/ml dexamethasone (Dex) with 0.1 ng/ml isoproterenol (ISO), which evoked a similar increase in lipolysis. All measurements were made during the fourth hour after the addition of GH+Dex or immediately after the addition of ISO to cells or tissues that had been preincubated for 3 h without hormone. Although no significant increases in cAMP were discernible in homogenates of GH+Dex-treated tissues, Rp-cAMPS (Rp-adenosine 3'5'-phosphothioate), a competitive inhibitor of cAMP, was equally effective in decreasing lipolysis induced by GH+Dex or ISO. The proportion of PKA that was present in the active form was determined by measuring the incorporation of 32P from [gamma-32P]ATP into kemptide in the absence and presence of saturating amounts of cAMP. GH+Dex and ISO produced similar increases in protein kinase A activity in tissue extracts. Treatment with GH+Dex did not change the total forskolin-stimulated AC present in either a crude membrane pellet sedimented at 16K x g or a less dense membrane pellet sedimented at 100K x g, but doubled the AC activity in the 16K pellet when assayed in the absence of forskolin. To evaluate possible effects on G proteins, pellets obtained from centrifugation of adipocyte homogenates at 16K x g and 100K x g were solubilized and subjected to PAGE and Western analysis. GH+Dex decreased Gi alpha2 by 44% (P < 0.02) in the 16K pellets and increased it by 52% (P < 0.01) in the 100K pellets. Gs alpha in the 16K pellet was unaffected by GH+Dex and was decreased (P < 0.05) in the 100K pellet. Sucrose density fractionation of the 16K pellets revealed a similar GH+Dex-dependent shift of Gi alpha2 to less dense fractions as determined by both Western analysis and [32P]NAD ribosylation catalyzed by pertussis toxin. No such changes were seen in the distribution of Gs alpha or 5'-nucleotidase. Colchicine (100 microM) blocked the GH+Dex-dependent shift of Gi alpha2 from the 16K to the 100K pellet and blocked the lipolytic effects of GH+Dex, but not those of ISO. We conclude that by modifying the relationship between AC and Gi alpha2, GH+Dex relieves some inhibition of cAMP production and consequently increases lipolysis.
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PMID:Growth hormone and dexamethasone stimulate lipolysis and activate adenylyl cyclase in rat adipocytes by selectively shifting Gi alpha2 to lower density membrane fractions. 1006 47

Sucrose synthase (SS) is a known phosphoserine-containing enzyme in legume root nodules and various other plant "sink" tissues. In order to begin to investigate the possible physiological significance of this posttranslational modification, we have cloned a full-length soybean nodule SS (nodulin-100) cDNA and overexpressed it in Escherichia coli. Authentic nodule SS and recombinant wild-type and mutant forms of the enzyme were purified and characterized. We document that a conserved serine near the N-terminus (Ser(11)) is the primary phosphorylation site for a nodule Ca(2+)-dependent protein kinase (CDPK) in vitro. Related tryptic digestion and mass spectral analyses indicated that this target residue was also phosphorylated in planta in authentic nodulin-100. In addition, a secondary phosphorylation site(s) in recombinant nodule SS was implicated given that all active mutant enzyme forms (S11A, S11D, S11C, and N-terminal truncation between Ala(2) and Arg(13)) were phosphorylated, albeit weakly, by the CDPK. This secondary site(s) likely resides between Glu(14) and Met(193) as evidenced by CNBr cleavage and phosphopeptide mapping. Phosphorylation of the recombinant and authentic nodule Ser(11) enzymes in vitro by the nodule CDPK had no major effect on the sucrose-cleavage activity and/or kinetic properties. However, phosphorylation decreased the apparent surface hydrophobicity of the recombinant wild-type enzyme, suggesting that this covalent modification could potentially play some role in the documented partitioning of nodulin-100 between the nodule symbiosome/plasma membranes and cytosol in planta.
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PMID:Soybean nodule sucrose synthase (nodulin-100): further analysis of its phosphorylation using recombinant and authentic root-nodule enzymes. 1052 91

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