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)

A purified bovine lung cGMP-binding cGMP-specific phosphodiesterase (cG-BPDE) was rapidly phosphorylated by purified bovine lung cGMP-dependent protein kinase (cGK). Within a physiological concentration range, cGK catalyzed phosphorylation of cG-BPDE at a rate approximately 10 times greater than did equimolar concentrations of purified catalytic subunit of cAMP-dependent protein kinase (cAK). cG-BPDE was a poor substrate for either purified protein kinase C or Ca2+/calmodulin-dependent protein kinase II. Binding of cGMP to the cG-BPDE binding site was required for phosphorylation since (a) phosphorylation of cG-BPDE by the catalytic subunit of cAK was cGMP-dependent, (b) phosphorylation of cG-BPDE in the presence of a cGMP analog specific for activation of cGK was cGMP-dependent, and (c) occupation of the cG-BPDE hydrolytic site with competitive inhibitors did not produce the cGMP-dependent effect. cGMP-dependent phosphorylation of cG-BPDE by both cGK and cAK occurred at serine. Proteolytic digestion of cG-BPDE phosphorylated by either cGK or cAK revealed the same phosphopeptide pattern, suggesting that phosphorylation by the two kinases occurred at the same or adjacent site(s). Tryptic digestion of cG-BPDE phosphorylated by cGK and [gamma-32P]ATP produced a single major phosphopeptide of approximately 2 kDa with the following amino-terminal sequence: Lys-Ile-Ser-Ala-Ser-Glu-Phe-Asp-Arg-Pro-Leu-Arg- Radioactivity was released during the third cycle of Edman degradation. cG-BPDE is one of few specific in vitro cGK substrates of known function to be identified. Elevation of intracellular cGMP may cause phosphorylation of cG-BPDE by modulating the substrate site availability as well as by activating cGK. Such regulation would greatly increase the selectivity of the phosphorylation of cG-BPDE and would represent a unique mechanism of action of a cyclic nucleotide or other second messenger.
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PMID:Substrate- and kinase-directed regulation of phosphorylation of a cGMP-binding phosphodiesterase by cGMP. 216 96

An hepatic protein kinase that phosphorylates microtubule-associated protein 2 (MAP-2) on Ser/Thr residues is markedly activated after intraperitoneal injection of cycloheximide in the rat. The enzyme has been purified greater than 10,000-fold to near homogeneity and corresponds to a 54-kDa polypeptide, based on auto-phosphorylation, renaturation of activity from sodium dodecyl sulfate gels, and gel filtration. The protein kinase activity is unaffected by prior autophosphorylation, Ca2+, diacylglycerol and phospholipids, cyclic nucleotides, staurosporine, and protein kinase inhibitor, but can be totally and specifically deactivated by the Ser/Thr protein phosphatase 2A. The enzyme is inhibited completely but reversible by transition metals and p-chloromercuribenzoate, and is strongly stimulated by poly-L-lysine toward most, but not all protein substrates. The activity of the cycloheximide-stimulated MAP-2 kinase (pp54 MAP-2 kinase) toward potential polypeptide substrates was compared to that of an insulin-stimulated MAP-2 kinase (pp42 MAP-2 kinase). Although both MAP-2 kinases exhibited little or no ability to phosphorylate histones and casein, the two kinases had a distinguishable substrate specificity. At comparable MAP-2 phosphorylating activities, pp42 MAP-2 kinase, but not pp54 MAP-2 kinase, phosphorylated and activated the Xenopus S6 protein kinase II. Moreover, pp42 MAP-2 kinase phosphorylated myelin basic protein at 10-12-fold higher rates than did pp54 MAP-2 kinase. Cycloheximide-activated pp54 MAP-2 protein kinase appears to be a previously uncharacterized protein kinase that is itself regulated through Ser/Thr phosphorylation and, perhaps, polypeptide regulators with basic domains. The identity of the upstream regulatory elements and the native substrates remain to be established.
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PMID:pp54 microtubule-associated protein 2 kinase. A novel serine/threonine protein kinase regulated by phosphorylation and stimulated by poly-L-lysine. 217 Mar 74

In human erythrocytes, dibutyryl cyclic AMP induces the phosphorylation of protein 4.1 on sites within the adjacent 16 kDa and 10 kDa chymotryptic domains (Horne, W.C., Leto, T.L. and Marchesi, V.T. (1985) J. Biol. Chem. 260, 9073-9076). The 10 kDa domain also contains the spectrin/actin-binding site (Correas, I., Leto, T.L., Speicher, D.W. and Marchesi, V.T. (1986) J. Biol. Chem. 261, 3310-3315) and it has been shown that phosphorylation of protein 4.1 by cyclic AMP-dependent protein kinase inhibits the binding of protein 4.1 to spectrin and actin (Ling, E., Danilov, Y.N. and Cohen, C.M. (1988) J. Biol. Chem. 263, 2209-2216). In this study, we have identified two sites on protein 4.1 which account for 80% of the phosphate incorporated into protein 4.1 during metabolic labelling of erythrocytes in the presence of dibutyryl cyclic AMP. More than 95% of the 32P incorporated into protein 4.1 was in the form of phosphoserine. Reverse-phase HPLC of the peptides generated by digestion of the isolated protein with trypsin or endoproteinase lysine C produced two major radioactive peaks. The phosphorylation sites, identified by gas phase sequencing of the purified phosphopeptides and confirmed by determining the residues converted to S-ethylcysteine by reacting the phosphopeptides with ethanethiol under alkaline conditions, were Ser-331, in the 16 kDa domain and Ser-467, in the 10 kDa domain.
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PMID:Identification of two cAMP-dependent phosphorylation sites on erythrocyte protein 4.1. 217 79

A kinase activity of purified bovine brain clathrin-coated vesicles phosphorylates the bovine cation-independent mannose 6-phosphate receptor (CI-MPR) with high efficiency (Km approximately 50-100 nM). The kinase copurifies in gel filtration, adsorption on hydroxylapatite, and ion exchange chromatography with the HAI assembly proteins which are part of the coat of Golgi-derived clathrin-coated vesicles. The kinase is associated to the 47-kDa subunit of the complex and exhibits properties similar to a casein kinase II: it uses either ATP or GTP as substrate and its activity is stimulated by poly-L-lysine and inhibited by heparin. Using different domains of the CI-MPR as potential substrates, we show that the phosphorylation is restricted to its cytoplasmic domain. Inhibition studies using synthetic peptides and two-dimensional mapping of the tryptic phosphopeptides indicate that this posttranslational modification occurs on serines 2421 and 2492 of the full-length bovine CI-MPR precursor, residues which are located in typical casein-kinase II recognition sequences. Labeling of Madin-Darby bovine kidney cells followed by immunoprecipitation of the CI-MPR and analysis of the corresponding tryptic phosphopeptides shows that the same serines are phosphorylated in vivo.
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PMID:Phosphorylation of the cytoplasmic domain of the bovine cation-independent mannose 6-phosphate receptor. Serines 2421 and 2492 are the targets of a casein kinase II associated to the Golgi-derived HAI adaptor complex. 217 36

Partial activation of Mucor rouxii cAMP-dependent protein kinase by cAMP was obtained when kemptide was used as substrate, but complete activation was attained with cAMP plus protamine or histone. Full activation could not be achieved by increasing kemptide or cAMP concentration. Complete activation by cAMP could be obtained by addition of 10 microM polylysine, 10 microM lysine-rich histone or 0.5 mM spermine plus spermidine. The degree of stimulation could be up to 5-fold, depending on the amount of enzyme in the assay. The same concentrations of polycations increased 1.5-2.3-fold the Vmax of kemptide phosphorylation by the free catalytic subunits of both Mucor and bovine heart protein kinases; 10 microM polyarginine inhibited completely the activity of both enzymes.
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PMID:Polyamines and basic proteins stimulate activation by cAMP and catalytic activity of Mucor rouxii cAMP-dependent protein kinase. 217 92

A protein kinase phosphorylating sea urchin spermatogenous histones, H1 and H2B, was found in sea urchin egg homogenate and purified. The kinase is activated by cAMP and is composed of two different types of subunits with molecular masses 41 and 46 kDa. The kinase phosphorylates a peptide, Ser-Pro-Arg-Lys-Ser-Pro-Arg-Lys, which is a double repeat of the DNA-binding SPKK motif [Suzuki M., (1989) EMBO J. 8, 797-804]. We name this kinase SPkinase because it exclusively phosphorylates H1 and H2B, the only histones containing SPKK motifs. Phosphorylation of H1 by SPkinase decreases the DNA-binding ability of H1. This paper is the first to report purification of a kinase which affects the DNA-binding ability of a gene regulatory protein.
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PMID:Histone H1 kinase specific to the SPKK motif. 217 68

A series of wild-type and mutant raf genes was transfected into NIH 3T3 cells and analyzed for transforming activity. Full-length wild-type c-raf did not show transforming activity. Two types of mutations resulted in oncogenic activity similar to that of v-raf: truncation of the amino-terminal half of the protein and fusion of the full-length molecule to gag sequences. A lower level of activation was observed for a mutant with a tetrapeptide insertion mapping to conserved region 2 (CR2), a serine- and threonine-rich domain located 100 residues amino-terminal of the kinase domain. To determine essential structural features of the transforming region of raf, we analyzed point and deletion mutants of v-raf. Substitutions of Lys-56 modulated the transforming activity, whereas mutation of Lys-53, a putative ATP binding residue, abolished it. Deletion analysis established that the minimal transforming sequence coincided precisely with CR3, the conserved Raf kinase domain. Thus, oncogenic activation of the Raf kinase can be achieved by removal of CR1 and CR2 or by steric distortion and requires retention of an active kinase domain. These findings are consistent with a protein structure model for the nonstimulated enzyme in which the active site is buried within the protein.
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PMID:Mutational activation of c-raf-1 and definition of the minimal transforming sequence. 218 91

GCN4 is a transcriptional activator of amino acid-biosynthetic genes in the yeast Saccharomyces cerevisiae. GCN2, a translational activator of GCN4 expression, contains a domain homologous to the catalytic subunit of eucaryotic protein kinases. Substitution of a highly conserved lysine residue in the kinase domain abolished GCN2 regulatory function in vivo and its ability to autophosphorylate in vitro, indicating that GCN2 acts as a protein kinase in stimulating GCN4 expression. Elevated GCN2 gene dosage led to derepression of GCN4 under nonstarvation conditions; however, we found that GCN2 mRNA and protein levels did not increase in wild-type cells in response to amino acid starvation. Therefore, it appears that GCN2 protein kinase function is stimulated posttranslationally in amino acid-starved cells. Three dominant-constitutive GCN2 point mutations were isolated that led to derepressed GCN4 expression under nonstarvation conditions. Two of the GCN2(Con) mutations mapped in the kinase domain itself. The third mapped just downstream from a carboxyl-terminal segment homologous to histidyl-tRNA synthetase (HisRS), which we suggested might function to detect uncharged tRNA in amino acid-starved cells and activate the adjacent protein kinase moiety. Deletions and substitutions in the HisRS-related sequences and in the carboxyl-terminal segment in which one of the GCN2(Con) mutation mapped abolished GCN2 positive regulatory function in vivo without lowering autophosphorylation activity in vitro. These results suggest that sequences flanking the GCN2 protein kinase moiety are positive-acting domains required to increase recognition of physiological substrates or lower the requirement for uncharged tRNA to activate kinase activity under conditions of amino acid starvation.
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PMID:Identification of positive-acting domains in GCN2 protein kinase required for translational activation of GCN4 expression. 218

Wheat embryo Ca2+-dependent protein kinase (CDPK) is inhibited by a variety of polypeptides including actin, gramicidin S, melittin, protamine, various histone preparations, histone H4 and by basic amino-acid homopolymers. Melittin (Ki 9 microM) is a non-competitive inhibitor of wheat germ CDPK and also inhibits wheat leaf CDPK and silver beet leaf CDPKs. Protamine inhibits wheat germ CDPK in an apparently competitive fashion (Ki 0.2 microM) and is also a potent, albeit less effective, inhibitor of the leaf CDPKs. Various basic amino-acid homopolymers are also potent, apparently competitive inhibitors of wheat embryo CDPK, namely poly(L-lysine) (IC50 2 nM), poly(L-ornithine) (IC50 3 nM) and poly(L-arginine) (IC50 17 nM) and also inhibit the leaf CDPKs, albeit at higher concentrations. Histone H4 and various calf thymus histone preparations inhibit wheat embryo CDPK in a fashion that is not competitive and calmodulin can substantially reverse such inhibition.
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PMID:Inhibition of plant calcium-dependent protein kinases by basic polypeptides. 230 77

Sea urchin sperm-specific histones H1 and H2B have distinctive N-terminal, and in the case of H1 also C-terminal, domains containing repeats of a basic motif (-Ser-Pro-Lys/Arg-Lys/Arg- or a closely related sequence). The histones in spermatids (the precursors of sperm) are phosphorylated, and the unphosphorylated histones of mature sperm are rephosphorylated upon fertilization. These changes correlate with finely tuned changes in chromatin packing in the nucleus, and the domains responsible are evidently the N-terminal domains. We show that in spermatids there are six tandemly repeated phosphorylation sites in the N-terminal domain of H1 (a typical cAMP dependent protein kinase site is not phosphorylated) and that H2B is phosphorylated in the N-terminal domain at two or three sites in the case of H2B1 and four sites in H2B2. The consensus sequence for phosphorylation is -Ser-Pro-X-Lys/Arg-, where X is Thr, Gln, Lys or Arg. There is an additional phosphorylated site in the C-terminal domain of H1 but most (or possibly all) copies of the consensus motif, which are here dispersed, are not phosphorylated. The negative charge introduced upon phosphorylation would be expected to weaken or abolish electrostatic interaction with DNA of this motif, which also occurs, and is phosphorylated, in somatic H1s.
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PMID:Phosphorylation at clustered -Ser-Pro-X-Lys/Arg- motifs in sperm-specific histones H1 and H2B. 231 83

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