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)

It has been previously reported by J. R. Lenz et al. [(1978) Biochemistry 17, 80--87] that certain phosphorylated sugars stimulate protein synthesis in extracts of mammalian cells. This effect was found to be due to a stimulation of Met-tRNAf binding to 40S ribosomal subunits, both in whole extracts and with isolated ribosomes. However, formation of a ternary complex of Met-tRNAf, initiation factor eIF-2, and GTP was not stimulated. It was also shown that the stimulation is not due solely to metabolism of the sugars. The present communication further characterizes the stimulatory effect of the sugars. They were found to prevent the inactivation of ribosomes that occurs during protein synthesis incubations. The sugars were also found to inhibit cAMP-dependent protein kinases noncompetitively. However, they stimulate Met-tRNAf binding to 40S ribosomal subunits even under conditions in which an inhibition of protein kinase has no effect. Although it has bot been possible to demonstrate a direct association of the sugars with the 40S initiation complex, the evidence suggests that their effect is mediated by an interaction with one of the components involved in the formation of this complex.
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PMID:Stimulation of protein synthesis and Met-tRNAf binding by phosphorylated sugars: studies on their mechanism of action. 42 Aug 5

When rabbit reticulocyte lysates are incubated in the absence of hemin or in the presence of low concentrations of double-stranded RNA, the rate of initiation of protein synthesis is severely reduced after a lag period in which control rates are observed. This reduced initiation rate is due to inhibition of the binding of Methionyl-tRNAf to native 40S ribosomal subunits and is caused by a macromolecular inhibitor which is activated under these conditions. This paper shows that the inhibitors activated in these two situations appear to be different entities, but that in both cases, the inhibitor has an associated protein kinase activity which is highly selective for the small subunit of elF-2, the initiation factor which catalyzes binding of Methionyl-tRNAf to 40S subunits. We present several lines of evidence in support of the hypothesis that the phosphorylation of elF-2 by these kinases is basis of the control of initiation in lysates incubated under these conditions.
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PMID:Phosphorylation of initiation factor elF-2 and the control of reticulocyte protein synthesis. 55 47

Incubation of 80S ribosomes with a substoichiometric amount of [alpha-32P]GTP and with eEF-2 resulted in the specific labeling of one ribosomal protein which migrated very close to the position of the acidic phosphoprotein P2 from the 60S subunit in two-dimensional isofocusing-SDS gel electrophoresis. Localization of protein P2 in this electrophoretic system was ascertained by correlation with its position in the standard two-dimensional acidic-SDS gel electrophoresis after its specific phosphorylation by casein kinase II. Labeling of the ribosomal protein was dependent on the presence of eEF-2, and could be attributed to [alpha-32P]GDP binding from the results of chase experiments and HPLC identification, this binding being very likely responsible for the slight shift in the electrophoretical position of the protein. Incubation of ribosomes with tRNA(Phe) in the absence of mRNA induced the release of the bound GDP.
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PMID:Binding of GDP to a ribosomal protein after elongation factor-2 dependent GTP hydrolysis. 142 Mar 8

A protein kinase, specific for 60S ribosomal proteins, has been isolated from Saccharomyces cerevisiae cells, purified to almost homogeneity and characterized. The isolated enzyme is not related to other known protein kinases. Enzyme purification comprised three chromatography steps; DEAE-cellulose, phosphocellulose and heparin-Sepharose. SDS/PAGE analysis of the purified enzyme, indicated a molecular mass of around 71 kDa for the stained single protein band. The specific activity of the protein kinase was directed towards the 60S ribosomal proteins L44, L44', L45 and a 38 kDa protein. All the proteins are phosphorylated only at the serine residues. None of the 40S ribosomal proteins were phosphorylated in the presence of the kinase. For that reason we have named the enzyme the 60S kinase. An analysis of the phosphopeptide maps of acidic ribosomal proteins, phosphorylated at either the 60S kinase or casein kinase II, showed almost identical patterns. Using the immunoblotting technique, the presence of the kinase has been detected in extracts obtained from intensively growing cells. These findings suggest an important role played by the 60S kinase in the regulation of ribosomal activity during protein synthesis.
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PMID:Specific protein kinase from Saccharomyces cerevisiae cells phosphorylating 60S ribosomal proteins. 158 77

Spontaneous S6 phosphatase activities dephosphorylating Ser(P)-235 and Ser(P)-236 of the ribosomal protein S6 were measured and compared in microsomes and cytosol of rat liver. The substrate used, small (40S) ribosomal subunits 32P-labelled in vitro by protein kinase A, contained phosphorylated S6 (mainly in the diphosphorylated form) and some minor phosphorylated species. The microsomal and cytosolic S6 phosphatase activities displayed a number of distinct properties. The microsomal activity, representing ca 20% of the S6 phosphatase activity in the post-mitochondrial supernatant, was mainly due to a type-1 phosphatase and dephosphorylated only S6. The remaining post-mitochondrial S6 phosphatase activity, which was fully recovered in the cytosol, and appeared to result from a combination of type-1 (43%) and type 2 (57%) phosphatases, acted on S6 as well as on the minor phosphorylated species. The microsomal activity was 50% inhibited by MgCl2 (10 mM) and was stimulated at least 4.3 fold by MnCl2 (1 mM), while the cytosolic activity was inhibited only 18% by Mg2+ (10 mM) and was increased 2.2 fold by Mn2+ (1 mM). The microsomal activity was increased 10% (P less than 0.06) by lower doses of insulin (25 U/Kg) and 14% (P less than 0.05) by vanadate, but was not significantly (P greater than 0.10) affected by larger doses of insulin (100 U/kg), hepatectomy or cycloheximide. By comparison the cytosolic S6 phosphatase activity was unresponsive to insulin and vanadate, but was decreased 14% and 17% (P less than 0.05) by hepatectomy and cycloheximide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparative study of microsomal and cytosolic S6 phosphatase activities in rat liver. 166 99

Activation of protein synthesis is required for quiescent cells to transit the cell cycle, and seems to be mediated in part by phosphorylation of the 40S ribosomal protein, S6. A mitogen-activated S6 kinase of relative molecular mass 70,000 (70K) has been isolated from mouse fibroblasts as well as from avian, rat and rabbit tissues. Comparison of complementary DNA sequences shows that this enzyme is distinct from S6 kinase II (92K) found in Xenopus eggs and fibroblasts. Both kinases are activated by serine/threonine phosphorylation, suggesting that at least one serine/threonine kinase links receptor tyrosine kinases with S6 kinases. A candidate for this link is MAP2 kinase, which is rapidly activated by tyrosine/threonine phosphorylation following mitogenic stimulation. Incubation of MAP2 kinase from insulin-treated 3T3-L1 adipocytes with phosphatase-inactivated S6 kinase II from Xenopus leads to partial reactivation and phosphorylation of the enzyme. These and other findings have led to the suggestion that MAP2 kinase also activates the 70K S6 kinase. Here we refute this idea by showing that the two kinases lie on distinct signalling pathways.
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PMID:MAP2 kinase and 70K S6 kinase lie on distinct signalling pathways. 170 81

Fractionation of rat liver cytosol on DEAE-cellulose resolved two S6 kinases eluting at 25 mM KCl (peak I) and 100 mM KCl (peak II). The apparent molecular weights of the peak I and peak II kinases are 26,300 and 67,000, respectively. The peak II kinase was further purified and characterized. Incubation of the kinase with [gamma-32P] ATP and Mg2+ resulted in the incorporation of 32P predominantly into a 67-kDa band. Optimal activity of the kinase was observed in the presence of 5 mM Mg2+ and in the pH range of 8.0-8.5. The Km for ATP and 40S subunit were 7.3 microM and 1.5 microM, respectively. The Mg(2+)-stimulated kinase activity was inhibited by various divalent metals, NaF, and polyamines. The properties of the peak II S6 kinase are very similar or identical to the previously described mitogen-activated S6 protein kinase and may represent the nonactivated form of this enzyme.
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PMID:Characterization of a 67-kDa S6 protein kinase from rat liver. 177 35

The GCN4 gene of the yeast Saccharomyces cerevisiae encodes a transcriptional activator of amino acid biosynthetic genes that is regulated at the translational level according to the availability of amino acids. GCN2 is a protein kinase required for increased translation of GCN4 mRNA in amino acid-starved cells. Centrifugation of cell extracts in sucrose gradients indicated that GCN2 comigrates with ribosomal subunits and polysomes. The fraction of GCN2 cosedimenting with polysomes was reduced under conditions in which polysomes were dissociated, suggesting that GCN2 is physically bound to these structures. When the association of 40S and 60S subunits was prevented by omitting Mg2+ from the gradient, almost all of the GCN2 comigrated with 60S ribosomal subunits, and it remained bound to these particles during gel electrophoresis under nondenaturing conditions. GCN2 could be dissociated from 60S subunits by 0.5 M KCl, suggesting that it is loosely associated with ribosomes rather than being an integral ribosomal protein. Accumulation of GCN2 on free 43S-48S particles and 60S subunits occurred during polysome runoff in vitro and under conditions of reduced growth rate in vivo. These observations, plus the fact that GCN2 shows preferential association with free ribosomal subunits during exponential growth, suggest that GCN2 interacts with ribosomes during the translation initiation cycle. The extreme carboxyl-terminal segment of GCN2 is essential for its interaction with ribosomes. These sequences are also required for the ability of GCN2 to stimulate GCN4 translation in vivo, leading us to propose that ribosome association by GCN2 is important for its access to substrates in the translational machinery or for detecting uncharged tRNA in amino acid-starved cells.
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PMID:Ribosome association of GCN2 protein kinase, a translational activator of the GCN4 gene of Saccharomyces cerevisiae. 203 14

The dominant insulin-stimulated ribosomal protein S6 kinase activity was purified to near homogeneity from insulin-treated 32P-labeled rat H4 hepatoma cells and found to copurify with a 70-kDa 32P-labeled polypeptide. The dominant S6 kinase purified from livers of cycloheximide-treated rats is also a 70-kDa polypeptide. Antiserum raised against rat liver S6 kinase specifically immunoprecipitates the purified 32P-labeled H4 hepatoma insulin-stimulated S6 kinase. This antiserum also specifically precipitates insulin-stimulated S6 kinase activity directly from cytosolic extracts of H4 cells. Immune complexes prepared from the cytosol of 32P-labeled H4 cells contain several 32P-labeled polypeptides; only a 70-kDA 32P-labeled peptide, however, is specifically displaced by preadsorption of the antiserum with nonradioactive rat liver S6 kinase. Insulin treatment increases the 32P content of the immunoprecipitated 70-kDa S6 kinase polypeptide 3- to 4-fold over basal levels; 32P-labeled serine, some 32P-labeled threonine, but no 32P-labeled tyrosine are detected after partial acid hydrolysis. Tryptic peptide maps indicate that the insulin-stimulated S6 kinase purified from 32P-labeled H4 cells is phosphorylated at multiple sites distinct from those which participate in autophosphorylation in vitro. Autophosphorylation of rat liver S6 kinase in vitro does not modify S6 kinase activity. The S6 kinases purified from liver of cycloheximide-treated rat and H4 hepatoma insulin-stimulated enzyme are each completely deactivated by incubation with protein phosphatase type 2A in both autophosphorylating and 40S S6 phosphorylating activities. The phosphatase 2A-deactivated 70-kDa S6 kinase is neither reactivated nor phosphorylated by partially purified insulin-stimulated microtubule-associated protein 2 kinase, in experiments where Xenopus S6 kinase II undergoes phosphorylation and partial reactivation. Thus insulin activates the 70-kDa S6 kinase by promoting phosphorylation of specific serine/threonine residues on the enzyme polypeptide, probably through activating an as-yet-unidentified serine/threonine protein kinase distinct from microtubule-associated protein 2 kinase.
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PMID:Insulin activates a 70-kDa S6 kinase through serine/threonine-specific phosphorylation of the enzyme polypeptide. 212 50

A synthetic decapeptide, S6(231-240), based on a region near the C-terminus of eukaryotic ribosomal protein S6, was used as a substrate for protein kinases (EC 2.7.1.37) from hamster fibroblasts stimulated with fresh medium. Consistent with the results of others using shorter peptides from this region, it was found that the cyclic AMP-dependent protein kinase preferentially phosphorylated the residue corresponding to Ser-235, whereas protein kinase C preferentially phosphorylated the residue corresponding to Ser-236 in this peptide. The peptide did not serve as a substrate for the growth-associated protein kinase from hamster fibroblasts that phosphorylated ribosomal protein S6 in 40S ribosomal subunits, but did serve as a substrate for a previously undetected protein kinase activity that was resolved from the latter by DEAE-cellulose chromatography. This S6(231-240) protein kinase activity did not phosphorylate ribosomal protein S6 in 40S ribosomal subunits, but is possibly a proteolytic fragment of the 40S ribosomal subunit S6 kinase as the latter activity acquired the ability to phosphorylate the decapeptide after partial tryptic proteolysis. The S6(231-240) protein kinase activity preferentially phosphorylated the residue corresponding to Ser-236 with an apparent Km of 15 microM. These results suggest that specific interactions with the ribosome may be required to activate the growth-associated ribosomal protein S6 kinase.
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PMID:The activity of protein kinases from hamster fibroblasts towards a synthetic peptide based on a carboxy-terminal portion of ribosomal protein S6. 240 Jul 83


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