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)

The catalytic (alpha) subunit of casein kinase II from Drosophila, cloned and expressed in Escherichia coli (Saxena, A., Padmanabha, R., and Glover, C. V. C., (1987) Mol. Cell. Biol. 7, 3409-3417), has been purified and characterized, and the properties have been compared to those of the holoenzyme. The catalytic subunit exhibits protein kinase activity with casein as substrate and is autophosphorylated. The specific activity of the purified subunit is 6% of the activity of the holoenzyme from reticulocytes or from Drosophila. The alpha subunit is a monomer, eluting at Mr = 40,000 upon gel filtration in high salt, but as part of an aggregate in low salt. The alpha subunit has been purified to apparent homogeneity by sequential chromatography on DEAE-cellulose, Mono S, and Mono Q. A single band, Mr = 37,000, is detected by silver staining following polyacrylamide gel electrophoresis. The isolated alpha subunit displays apparent Km values for beta casein, ATP, and GTP similar to those of the holoenzyme. The activity of the alpha subunit is inhibited by heparin with an I50 of 0.1-0.3 micrograms/ml, a value similar to that observed for the holoenzyme; autophosphorylation is also inhibited by heparin. Polylysine has no stimulatory effect on the activity of the catalytic subunit, as measured with casein and by autophosphorylation, but stimulates both activities with the holoenzyme. When physiological substrates for casein kinase II are examined, glycogen synthase and eukaryotic initiation factor 3 (eIF-3) (p120) are phosphorylated by the alpha subunit at a rate equivalent to that of the holoenzyme, while phosphorylation of eIF-3 (p67) is reduced 9-fold and eIF-2 beta is not modified. From these data, it can be concluded that the alpha subunit of casein kinase II is sufficient for catalysis, is autophosphorylated, and can be directly inhibited by heparin, whereas the beta subunit mediates the effects of basic stimulatory compounds and is involved in recognition and/or binding to specific physiological substrates.
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PMID:Characterization of the catalytic subunit of casein kinase II expressed in Escherichia coli and regulation of activity. 190 Aug 38

Four acidic phosphoproteins from the ribosomes of the slime mold Dictyostelium discoideum have been identified and partially characterized. These proteins are selectively released from ribosomal particles by salt/ethanol washes, have low molecular weight and acidic pI, and tend to aggregate in solution to form homodimers. These features correspond to proteins of different origins that have been included in the conserved family of eukaryotic A-ribosomal proteins, and, therefore, we have named them Dictyostelium ribosomal proteins A1, A2, A3 and A4. We also demonstrate that Dictyostelium ribosomal A-proteins are specifically phosphorylated in vitro by a type II casein kinase previously identified in Dictyostelium. Isoelectric focusing separation has permitted us to identify four proteins (or P-proteins) that may consist of the phosphorylated forms of A-proteins. A-proteins from Dictyostelium and yeast do not present immunological cross-reactivity. Dictyostelium A-proteins contain, therefore, some specific features in their amino acid sequence that distinguish them from other members of the conserved eukaryotic A-protein family; this conclusion is coherent with data deduced from the nucleotide sequence of cDNA clones encoding two Dictyostelium A-proteins (P1 and P2) which we have recently reported.
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PMID:Dictyostelium discoideum acidic ribosomal phosphoproteins: identification and in vitro phosphorylation. 195 5

A cytoskeletal extract of pure axoplasm, highly enriched with neurofilaments (ANF), was prepared from the giant axon of the squid. This ANF preparation also contained potent kinase activities which phosphorylated the Mr greater than 400,000 (high molecular weight) and Mr 220,000 squid neurofilament protein subunits. High salt (1 M) extraction of this ANF preparation solubilized most of the neurofilament proteins and kinase activities and gel filtration on an AcA 44 column separated these two components. The neurofilaments eluted in the void volume of the column while the kinase activities eluted in the 17-44-kDa range of the column. Two major kinase activities were measured in this peak of activity. One of these strongly phosphorylated the phosphate acceptor peptide Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) and was completely inhibited by the selective inhibitor of cAMP-dependent kinase Thr-Thr-Tyr-Ala-Asp-Phe-Ile-Ala-Ser-Gly-Arg-Thr-Gly-Arg-Arg-Asn-Ala-Ile- NH2 (Wiptide). Since addition of cAMP did not stimulate activity, this suggested that this kinase was a free catalytic subunit of cAMP-dependent kinase associated with the neurofilaments. The second kinase activity most effectively phosphorylated alpha-casein, and this activity was not affected by Wiptide. The alpha-casein phosphorylating activity (ANF kinase) was the principal activity responsible for neurofilament protein phosphorylation, and was not inhibited by various inhibitors against second messenger regulated kinases, suggesting it was related to the casein kinase family. Four lines of evidence indicate ANF kinase was similar to casein kinase I. These were: 1) the apparent molecular weight determined by gel filtration and the chromatographic elution profile on phosphocellulose column corresponded to casein kinase I; 2) heparin, an inhibitor of casein kinase II at 2-5 micrograms/ml, stimulated both ANF kinase and purified casein kinase I at these concentrations, while CKI-7, a relatively selective inhibitor of casein kinase I, inhibited ANF kinase in a comparable dose-response fashion; 3) purified casein kinase I strongly phosphorylated both ANF protein subunits (like ANF kinase) whereas casein kinase II was relatively ineffective; and 4) tryptic peptide maps of the HMW and Mr 220,000 neurofilament proteins after phosphorylation by ANF kinase or purified casein kinase I showed similar 32P-peptide patterns.
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PMID:Principal neurofilament-associated protein kinase in squid axoplasm is related to casein kinase I. 200 43

A protein kinase which phosphorylates pyruvate kinase (PK) in vitro was purified and characterized from the foot muscle of the anoxia-tolerant gastropod mollusc Busycon canaliculatum. Purification involved four steps: poly(ethylene glycol) fractionation, affinity chromatography on Blue agarose, ion-exchange chromatography on phosphocellulose and preparative isoelectric focusing (pI = 5.5). The activity was monitored by following changes in pyruvate kinase I50 values for L-alanine which have previously been linked to changes in the degree of enzyme phosphorylation. The correlation between enzyme phosphorylation and changes in the L-alanine inhibition constant was also directly demonstrated in the present paper by radioactively labelling PK with [tau-32P]ATP. The final purified protein kinase solution gave a single band on SDS-gel electrophoresis with a molecular weight of 37,000 +/- 2000. Kinetic analysis of the purified protein kinase (PK-kinase) showed a pH optimum of 7.0, an absolute requirement for magnesium ions (Km = 1.29 mM), a relatively high affinity for MgATP (Km = 57 microM), and inhibition by increasing salt concentrations (I50 = 55 mM KCl). The protein kinase activity was not affected by either spermine, heparin, cAMP, cGMP or concentrations of CaCl2 less than 10 mM. The enzyme did not phosphorylate either phosphofructokinase or glycogen phosphorylase, two enzymes that are also phosphorylated during anoxia in whelks. The purified enzyme is different from the catalytic subunit of cAMP-dependent protein kinase as shown by the inability of cAMP to stimulate the protein kinase at all stages of the preparation; cAMP did not activate either crude enzyme, the 7% poly(ethylene glycol) supernatant, or any of the column eluant peak fractions when measured by changes in pyruvate kinase kinetic parameters.
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PMID:The role of protein kinases in anoxia tolerance in facultative anaerobes: purification and characterization of a protein kinase that phosphorylates pyruvate kinase. 200 78

Early in an infection the bloodstream forms of the African trypanosome Trypanosoma brucei brucei are long, slender and rapidly dividing. Later, non-dividing, short, stumpy forms may be found. In this report we described biochemical differences between the two parasite populations in the phosphorylation of their proteins in vitro. Compared with the slender populations, the non-dividing stumpy forms of the parasites exhibit decreased phosphorylation of an 80 kDa protein and enhanced phosphorylation of 37 kDa and 42 kDa proteins (pp37 and pp42). These changes occurred regardless of whether the stumpy trypanosomes were generated naturally during the course of the infection or induced by difluoromethylornithine treatment. The phosphorylation of pp37 and pp42 occurs on serine and threonine residues and is totally dependent upon the presence of Mn2+ or Mg2+. However, excess Mn2+ or Mg2+ inhibits phosphorylation. Maximal phosphorylation of pp42 occurs with 1 mm-Mn2+ or 10 mm-Mg2+, whereas that of pp37 occurs with 50 mM-Mn2+ or greater than 100 mm-Mg2+. The phosphorylation of pp37 is greatly enhanced by KCl, whereas that of pp42 is only slightly increased by this salt. Ca2+, calmodulin, phospholipids and cyclic AMP have no discernible effect upon the phosphorylation of pp42 or pp37 in vitro, whereas heparin, suramin, polylysine, polyarginine and polyamines all inhibit phosphorylation. Thus the enzymes that phosphorylate pp42 and pp37 have properties similar to, but distinct from, those of mammalian casein kinase II. Since the casein-kinase-like activity is higher in the slender than in the stumpy forms, the enhanced phosphorylation of pp42 and pp37 in the non-dividing parasites is probably a result of the enhanced synthesis of these acidic proteins.
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PMID:Phosphorylation differences among proteins of bloodstream developmental stages of Trypanosoma brucei brucei. 201 86

Solid-phase binding assays with protein species purified from cultured rat glioma C6 cells and Ehrlich ascites revealed that plectin bound specifically to lamin B but not to lamins A and C. Lamin B interaction was significantly decreased upon in vitro phosphorylation of either lamin B or plectin with protein kinase A or C. In contrast, phosphorylation of plectin with kinase A increased its binding to vimentin, suggesting a different regulation of plectin interactions by this kinase. 32P-radiolabeling of rat glioma C6 cells revealed plectin as a major in vivo target of protein kinase A and protein kinase C. Plectin, present in lysates of dibutyryladenosine 3',5'-cyclic monophosphate-treated cells, showed a 2.5 times higher binding affinity to vimentin than plectin from phorbol ester-treated cells. Furthermore, the relative amounts of plectin in 1% Triton X-100/high salt-insoluble cell fractions decreased to one-fourth of control values upon treating cells with phorbol esters, whereas vimentin was unaffected. This finding suggested a protein kinase C-dependent weakening of plectin interaction with intermediate filaments in vivo. Taken together, these results point to a role of plectin in interlinking cytoskeletal and nuclear elements and suggest that specific protein kinases are involved in regulating these interactions.
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PMID:Protein kinase A- and protein kinase C-regulated interaction of plectin with lamin B and vimentin. 202 31

The human CCG1 gene complements tsBN462, a temperature-sensitive G1 mutant of the BHK21 cell line. The previously cloned cDNA turned out to be a truncated form of the actual CCG1 cDNA. The newly cloned CCG1 cDNA was 6.0 kb and encoded a protein with a molecular mass of 210 kDa. Using an antibody to a predicted peptide from the CCG1 protein, a protein with a molecular mass of over 200 kDa was identified in human, monkey, and hamster cell lines. In the newly defined C-terminal region, an acidic domain was found. It contained four consensus target sequences for casein kinase II and was phosphorylated by this enzyme in vitro. However, this C-terminal region was not required to complement tsBN462 mutation since the region encoding the C-terminal part was frequently missing in complemented clones derived by DNA-mediated gene transfer. CCG1 contains a sequence similar to the putative DNA-binding domain of HMG1 in addition to the previously detected amino acid sequences common in nuclear proteins, such as a proline cluster and a nuclear translocation signal. Consistent with these predictions, CCG1 was present in nuclei, possessed DNA-binding activity, and was eluted with similar concentrations of salt, 0.3 to 0.4 M NaCl either from isolated nuclei or from a DNA-cellulose column.
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PMID:The human CCG1 gene, essential for progression of the G1 phase, encodes a 210-kilodalton nuclear DNA-binding protein. 203 34

cDNA encoding the casein kinase II (CKII) subunits alpha and beta of human origin were expressed in Escherichia coli using expression vector pT7-7. Significant expression was obtained with E. coli BL21(DE3). The CKII subunits accounted for approximately 30% of the bacterial protein; however, most of the expressed proteins were produced in an insoluble form. The recombinant CKII alpha subunit was purified by DEAE-cellulose chromatography, followed by phosphocellulose and heparin-agarose chromatography. The recombinant CKII beta subunit was extracted from the insoluble pellet and purified in a single step on phosphocellulose. From 10 g bacterial cells, the yield of soluble protein was 12 mg alpha subunit and 5 mg beta subunit. SDS/PAGE analysis of the purified recombinant proteins indicated molecular masses of 42 kDa and 26 kDa for the alpha and beta subunits, respectively, in agreement with the molecular masses determined for the subunits of the native enzyme. The recombinant alpha subunit exhibited protein kinase activity which was greatest in the absence of monovalent ions. With increasing amounts of salt, alpha subunit kinase activity declined rapidly. Addition of the beta subunit led to maximum stimulation at a 1:1 ratio of both subunits. Using a synthetic peptide (RRRDDDSDDD) as a substrate, the maximum protein kinase stimulation observed was fourfold under the conditions used. The Km of the reconstituted enzyme for the synthetic peptide (80 microM) was comparable to the mammalian enzyme (40-60 microM), whereas the alpha subunit alone had a Km of 240 microM. After sucrose density gradient analysis, the reconstituted holoenzyme sedimented at the same position as the mammalian CKII holoenzyme.
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PMID:Isolation and characterization of recombinant human casein kinase II subunits alpha and beta from bacteria. 204 Feb 87

Phosphorylation of the Ca2(+)-pump ATPase of cardiac sarcolemmal vesicles by exogenously added protein kinases was examined to elucidate the molecular basis for its regulation. The Ca2(+)-pump ATPase was isolated from protein kinase-treated sarcolemmal vesicles using a monoclonal antibody raised against the erythrocyte Ca2(+)-ATPase. Protein kinase C (C-kinase) was found to phosphorylate the Ca2(+)-ATPase. The stoichiometry of this phosphorylation was about 1 mol per mol of the ATPase molecule. The C-kinase activation resulted in up to twofold acceleration of Ca2+ uptake by sarcolemmal vesicles due to its effect on the affinity of the Ca2+ pump for Ca2+ in both the presence and absence of calmodulin. Both the phosphorylation and stimulation of ATPase activity by C kinase were also observed with a highly-purified Ca2(+)-ATPase preparation isolated from cardiac sarcolemma with calmodulin-Sepharose and a high salt-washing procedure. Thus, C-kinase appears to stimulate the activity of the sarcolemmal Ca2(+)-pump through its direct phosphorylation. In contrast to these results, neither cAMP-dependent protein kinase, cGMP-dependent protein kinase nor Ca2+/calmodulin-dependent protein kinase II phosphorylated the Ca2(+)-ATPase in the sarcolemmal membrane or the purified enzyme preparation, and also they exerted virtually no effect on Ca2+ uptake by sarcolemmal vesicles.
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PMID:Protein kinase-dependent phosphorylation of cardiac sarcolemmal Ca2(+)-ATPase, as studied with a specific monoclonal antibody. 214 59

In the search for a phosphate acceptor to estimate cyclic AMP-dependent protein kinase (A-kinase) activity in respiratory tissues devoid of the disadvantages inherent with the use of histones, we compared and contrasted a conventional substrate, histone IIa, with that of a novel heptapeptide phosphate acceptor, Kemptide (Kemp et al., J Biol Chem 252: 4888-4894, 1977). The specific activities of soluble A-kinase isolated from guinea-pig lung parenchyma and from bovine tracheal smooth muscle were significantly (12-16-fold) greater when Kemptide was used as substrate when compared to histone IIa. Moreover, studies with a specific inhibitor of A-kinase demonstrated that whilst the cyclic AMP-stimulated phosphorylation of Kemptide was catalysed exclusively by A-kinase, only approximately 89% of the phosphate incorporated into histone IIa was attributed to the activity of this enzyme. The activation constant (Kact) of cyclic AMP for A-kinase was estimated to be 1.5 microM when Kemptide was used as substrate, 25-fold higher than that obtained using histone IIa (60 nM) under identical conditions. In a complementary series of experiments it was found that both the basal and isoprenaline-stimulated A-kinase activity ratios were significantly higher when histone IIa was used as substrate when compared with that obtained using Kemptide. Elevating the ionic strength of the homogenization buffer or assay cocktail with NaCl produced a reversible (following dialysis), concentration-dependent, mixed uncompetitive, inhibition of cyclic AMP-stimulated histone phosphorylation; phosphokemptide formation was unaffected. The ability of salt to inhibit A-kinase activity also affected the elution profile of A-kinase isoenzymes following their separation by DEAE-cellulose chromatography. With histone IIa as substrate the Type I:Type II isoenzyme ratio in guinea-pig lung and in bovine tracheal smooth muscle was 9:91 and 35:65, respectively. Changing the phosphate acceptor to Kemptide reduced these respective ratios to 5:95 and 29:71. Although the effect on the isoenzyme ratio was small, the specific activities of the two isoenzymes isolated from both tissues were markedly attentuated by ca. 9% (Type I) and 36% (Type II). It is concluded that Kemptide is without many of the disadvantages inherent with histone IIa and is, thus, a preferable phosphate acceptor for estimating soluble A-kinase activity and determining the isoenzyme ratio in guinea-pig lung and in bovine tracheal smooth muscle.
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PMID:Evaluation of kemptide, a synthetic serine-containing heptapeptide, as a phosphate acceptor for the estimation of cyclic AMP-dependent protein kinase activity in respiratory tissues. 215 28


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