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 avian sarcoma virus (ASV) protein responsible for cellular transformation in vitro and sarcomagenesis in animals was studied structurally with special reference to the sites of phosphorylation on the polypeptide. The product of the ASV src gene, pp60src, is a phosphoprotein of 60,000 daltons. We found that pp60src contained two major sites of phosphorylation, one involving phosphoserine and the other involving phosphothreonine and possible addtional minor sites of phosphorylation. By using N-formyl[35S]methionyl-tRNAf as a radiolabeled precursor in the cell-free synthesis of the src protein in conjunction with partial proteolysis mapping, we determined that the major phosphoserine residue was located on the amino-terminal two-thirds of the molecule and that the phosphothreonine was located on the carboxy-terminal third. We further determined that the phosphorylation of pp60src in cell extracts involved at least two protein kinases, the one that phosphorylated the major serine site being cyclic AMP dependent and the other, acting on the threonine residue, being a cyclic nucleotide-independnet phosphotransferase. Finally, analysis of the pp60src isolated from cells infected with a temperature-sensitive src gene mutant of ASV revealed that phosphorylation of the major threonine residue was severely reduced when infected cells were grown at the nonpermissive temperature, whereas a phosphorylation pattern characteristic of the wild-type pp60src was observed at the permissive temperature. As pp60src has an associated protein kinase activity, the possible involvement of phosphorylation-dephosphorylation reactions in the functional regulation of ASV transforming protein enzymatic activity is discussed.
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PMID:Structural analysis of the avian sarcoma virus transforming protein: sites of phosphorylation. 21 58

Genetic analyses have defined a single gene (src) as that portion of the avian sarcoma virus (ASV) genome which encodes the protein directly responsible for ASV-induced neoplastic transformation. We have recently identified the polypeptide product of the src gene of the Schmidt-Ruppin (SR) strain of ASV, a 60,000-dalton phosphoprotein designated pp60(src), and have further determined that pp60(src) acts as a protein kinase. Essential to the identification and characterization of the pp60(src) protein of SR-ASV was the use of serum (TBR serum) from rabbits bearing SR-ASV-induced tumors. TBR serum was, however, strain specific, recognizing pp60(src) from SR-ASV-transformed cells only. We report here that sera from marmosets bearing tumors induced by the Bryan or SR strains of ASV (TBM sera) contain antibody which precipitates the transforming gene product from cells transformed by the SR, Bryan, Prague, or Bratislava strains of ASV. In contrast, rabbits bearing tumors induced by either the Bratislava or Bryan strains of ASV, or hamsters with SR-ASV-induced tumors did not produce antibody to pp60(src) from any strain of ASV. The 60,000-dalton polypeptides immunoprecipitated with TBM serum from cells transformed by each of the above virus strains are phosphoproteins. One-dimensional peptide mapping by limited proteolysis revealed that the pp60(src) proteins are structurally very similar, but not identical. Furthermore, all of the viral pp60(src) proteins have an associated phosphotransferase activity. In addition to detecting the viral src proteins, TBM serum was able to immunoprecipitate an antigenically related protein from normal uninfected avian cells.
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PMID:Detection of the viral sarcoma gene product in cells infected with various strains of avian sarcoma virus and of a related protein in uninfected chicken cells. 22 73

A system of translational control in eukaryotes consists of (a) a proinhibitor and (b) an inhibitor of polypeptide chain initiation. The inhibitor (active eIF-2 kinase), a cAMP-independent protein kinase, catalyzes the phosphorylation by ATP of the small subunit of the polypeptide chain initiation factor eIF-2. This blocks the interaction of eIF-2 with eIF-2 stimulating protein (ESP) without which eIF-2 is unable to form an initiation complex, a prerequisite for translation. Our observations are consistent with the view that the proinhibitor (inactive eIF-2 kinase) is converted to the inhibitor by phosphorylation catalyzed by a cAMP-dependent protein kinase. This is analogous to the conversion of inactive phosphorylase kinase to active phosphorylase kinase. As in the case of phosphorylase kinase and phosphorylase, the modification of activity produced by phosphorylation of eIF-2 kinase and eIF-2 itself is probably reversed by dephosphorylation catalyzed by specific protein phosphatases (see diagram in Fig. 12) but no evidence bearing on this aspect of the problem is yet available. Hemin inhibits the cAMP-induced dissociation of the regulatory and catalytic subunits of cAMP-dependent protein kinase by binding to the regulatory subunit of the enzyme and blocking, through an allosteric effect, the binding of cAMP. Thus, hemin prevents the activation of eIF-2 kinase by inhibiting the cAMP-dependent protein kinase.
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PMID:Regulation of protein synthesis. 22 49

Plasma membranes isolated from normal and RSV transformed chick embryo fibroblasts were phosphorylated in vitro using endogenous protein kinase and ATP (gamma32P) and the labeled phosphoproteins were analyzed by SDS-PAGE. A number of protein phosphorylation changes were observed following transformation, however in most cases they were relatively small quantitative differences. The four major changes were in proteins of 47,000, 58,000, 75,000 and 135,000 daltons. Decreased phosphorylation of the 47,000 dalton polypeptide was found in transformed cell membranes but this alteration was shown to be due to differences in cell growth rather than transformation. Increase phosphorylation of the 75,000 dalton protein was at least partially related to virus infection. However, increased phosphorylation of the 58,000 and 135,000 dalton polypeptides were entirely transformation specific.
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PMID:Plasma membrane phosphoproteins in normal and Rous sarcoma virus transformed chick embryo fibroblasts: characterization by in vitro phosphorylation. 22 69

In vitro translation of Rous sarcoma virus virion RNA resulted in the synthesis of a protein kinase which, when immunoprecipitated with antitumor serum, phosphorylated the immunoglobulin heavy chain. Even though in vitro translation of virion RNA resulted in the synthesis of a number of polypeptides which were recognized by antitumor serum, control experiments demonstrated that an immunoprecipitable protein kinase activity was found only when an immunoprecipitable p60src, the polypeptide product of the src gene, was synthesized. A protein kinase with similar properties was therefore intimately associated with p60src which was synthesized in vitro in the reticulocyte lysate, just as it is with p60src which is obtained from transformed chick and mammalian cells. It is therefore highly unlikely that this association is artifactual. ts NY68 is a mutant of Rous sarcoma virus which is able to transform cells at 36 but not at 41 degrees C. In vitro translation of ts NY68 virion RNA at 30 degrees C resulted in efficient synthesis of immunoprecipitable p60src, but very inefficient synthesis of an immunoprecipitable protein kinase. The p60src obtained by in vitro translation of wild-type virion RNA was more than 20-fold more active as a protein kinase than was that obtained from ts NY68 RNA. The correlation in the case of ts NY68 of a deficiency in protein kinase activity with an inability to transform cells at high temperature suggests that the protein kinase activity associated with p60src is indeed critical to cellular transformation.
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PMID:Product of in vitro translation of the Rous sarcoma virus src gene has protein kinase activity. 22 22

This report extends our previous studies concerning the identification and characterization of a protein from normal cells that is closely related to the avian sarcoma virus (ASV) transforming gene product pp60src. This normal cellular protein, which we have found in both avian and mammalian cells and have tentatively designated pp60sarc, was detected by immunoprecipitation of radiolabeled cell extracts with serum derived from both mice and rabbits bearing ASV-induced tumors. The normal cell pp60sarc is a 60,000-dalton phosphoprotein that is structurally similar, but not identical, to viral pp60src. The phosphorylation patterns of the normal cell and viral proteins are also similar: both contain two major phosphorylated residues, a phosphoserine located on the NH2-terminal 60% of the polypeptide and a phosphothreonine present on the COOH-terminal 40% of the molecule. In addition, the normal cell pp60sarc from both chicken and mammalian cells appears to have an associated protein kinase activity analogous to that previously described for the viral pp60src. The possible roles played by the normal cell protein pp60sarc and the ASV transforming protein pp60src in normal cellular growth and neoplastic disease, respectively, are discussed.
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PMID:A normal cell protein similar in structure and function to the avian sarcoma virus transforming gene product. 22 56

Highly purified Sendai virus contained a protein kinase activity which atatlysed the phosphorylation of endogenous polypeptides or exogenous protamine sulphate. The virus contained very low levels of phosphoprotein phosphatase activity. Polyacrylamide gel analysis of the reaction product indicated that the phosphorylation was specific for certain polypeptides and varied according to whether the virus was grown in eggs or in tissue culture. This variation was partially associated with the difference in the polypeptide pattern that occurred when the virus was grown in eggs or in tissue culture. Characterization of these phosphoproteins demonstrated that the phosphate was incorporated predominantly in a phosphoester linkage with theonine residues. Using a detergent and high salt solubilization procedure, the protein kinase activity was found associated within glycoprotein free virus particles but not with the nucleocapsid-associated polypeptides. In vivo phosphorylation occurred when Sendai virus was grown in eggs or in tissue culture with [32P] and the phosphorylated polypeptides were similar to those of the protein kinase reaction product. Phosphorylation could also be detected in the infected cell and could occur once the virus particle polypeptides were being synthesized. The non-structural polypeptides were not phosphorylated.
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PMID:The phosphorylation of sendai virus proteins by a virus particle-associated protein kinase. 23 97

Light density membranes derived from the "microsomal" fraction of rat skeletal muscle contained an endogenous protein kinase which catalyzed the phosphorylation of an endogenous membrane substrate. No other membrane fraction contained any significant protein kinase activity. The optimal specific activity of the enzyme in these membranes was 350 pmol/mg/min. The endogenous muscle membrane protein kinase required magnesium, was stimulated by micromolar concentrations of calcium, had a pH optimum between 7.0 and 7.5, and demonstrated a K-m for ATP of 2.6 times 10 minus 5 M. The enzyme was markedly heat labile and demonstrated a linear Arrhenius plot with an apparent energy of activation of 12,100 cal/mol. There was no stimulation by cyclic nucleotides; and neither monovalent cations nor various neurotransmitters exerted any effect. It is presently unclear where the membranes exhibiting protein phosphorylation are localized within the muscle fiber. Enzyme markers suggest that these membranes are not derived from sarcolemma or sarcoplasmic reticulum but may originate in transverse tubules. The membrane phosphorylation was largely confined to a polypeptide with an apparent molecular weight of 28,000. Phosphorylation could also be detected in a lower molecular weight substrate as well as two polypeptides with apparent molecular weights of 95,000 and 56,000. The M-r-28,000 endogenous protein kinase substrate was isolated by preparative gel electrophoresis in sodium dodecyl sulfate. High voltage electrophoresis of a partial acid hydrolysate of the phosphorylated M-r-28,000 substrate identified the phosphate bond to be that of phosphoserine. The amino acid composition of the substrate was neither strongly acidic nor basic. It had a high content of glycine, glutamic acid, serine, and lysine. Hydrophobic residues constituted only 45% of the total composition. Following muscle denervation for 10 days, there was a significant decrease in the amount of the M-r-28,000 polypeptide as well as the extent of phosphorylation.
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PMID:Macromolecular characterization of muscle membranes. Endogenous membrane kinase and phosphorylated protein substrate from normal and denervated muscle. 23 7

The catalytic subunit of cyclic 3':5'-AMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) inhibits translation in Artemia salina and wheat germ extracts. It acts, as in reticulocyte lysates [Datta, A., de Haro, C., Sierra, J. M. & Ochoa, S. (1977) Proc. Natl. Acad. Sci. USA 74, 1463-1467] by catalyzing the conversion of a proinhibitor to an inhibitor of polypeptide chain initiation. Addition of ATP and either cyclic AMP or catalytic subunit promotes the proinhibitor-inhibitor conversion in crude proinhibitor preparations from A. salina embryos. The effect of cyclic AMP is due to stimulation of cyclic AMP-dependent protein kinase, present in such preparations, and is inhibited by hemin. In similar preparations from wheat germ, addition of ATP and catalytic subunit promoted proinhibitor-inhibitor conversion, but addition of ATP and cyclic AMP has little or no effect. As assayed with histone as substrate, wheat germ preparations exhibit a protein kinase activity that is not stimulated by the addition of cyclic AMP or cyclic GMP. Our results suggest that a translational control system, similar to that existing in rabbit reticulocytes and other mammalian cells, is present in organisms evolutionarily far removed from mammals.
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PMID:Translational control by protein kinase in Artemia salina and wheat germ. 27 Jun 77

Phosphorylation of eukaryotic initiation factors was examined both in intact cells and in vitro with purified components. Intact rabbit reticulocytes were incubated in a medium containing[32P]phosphate, and eight initiation factors were isolated and partially purified. The purified factors were analyzed on dodecyl sulfate/polyacrylamide gels and compared with highly purified nonradioactive factors. Significant amounts of radioactivity were found associated with initiation factors eIF-2, polypeptide 2 (molecular weight 53,000); eIF-3, polypeptides 2 and 4 (molecular weights 110,000 and 67,000); and eIF-4B. Purfied initiation factors from rabbit reticulocytes were also treated in vitro with [gamma-32P]ATP and a cyclic AMP-independent protein kinase isolated from rabbit erythrocytes. Only the factor polypeptides phosphorylated intracellularly were phosphorylated in vitro. The results suggest that the cyclic AMP-independent protein kinase is responsible for the phosphorylation of specific initiation factors in cells active in protein synthesis and that it may play a role in regulating translation.
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PMID:Phosphorylation of eukaryotic protein synthesis initiation factors. 27 26


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