Three phosphorylation sites in elongation factor 2

[1]  J. Lavergne,et al.  Heterogeneity of native rat liver elongation factor 2 , 1989, FEBS letters.

[2]  A. Oleinikov,et al.  Primary structure of rat liver elongation factor 2 deduced from the cDNA sequence , 1989, FEBS letters.

[3]  A. Ryazanov,et al.  Phosphorylation of elongation factor 2 by EF-2 kinase affects rate of translation , 1988, Nature.

[4]  A. Spirin,et al.  Phosphorylation of the elongation factor 2: the fifth Ca2+/calmodulin-dependent system of protein phosphorylation. , 1988, Biochimie.

[5]  A. Ryazanov,et al.  cAMP‐dependent activation of protein synthesis correlates with dephosphorylation of elongation factor 2 , 1988, FEBS letters.

[6]  A. Nairn,et al.  Identification of the major Mr 100,000 substrate for calmodulin-dependent protein kinase III in mammalian cells as elongation factor-2. , 1987, The Journal of biological chemistry.

[7]  A. Ryazanov Ca2+/calmodulin‐dependent phosphorylation of elongation factor 2 , 1987, FEBS letters.

[8]  G. Kramer,et al.  The NH2-terminal sequence of the alpha and gamma subunits of eukaryotic initiation factor 2 and the phosphorylation site for the heme-regulated eIF-2 alpha kinase. , 1986, The Journal of biological chemistry.

[9]  E. Ohtsuka,et al.  Amino acid sequence of mammalian elongation factor 2 deduced from the cDNA sequence: homology with GTP-binding proteins. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[10]  G. Guroff,et al.  Regulation of Nerve Growth Factor Action on Nsp100 Phosphorylation in PC12h Cells by Calcium , 1986, Journal of neurochemistry.

[11]  A. Nairn,et al.  Identification of calmodulin-dependent protein kinase III and its major Mr 100,000 substrate in mammalian tissues. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[12]  R. Wettenhall,et al.  Phosphorylation of hepatic ribosomal protein S6 on 80 and 40 S ribosomes. Primary structure of S6 in the region of the major phosphorylation sites for cAMP-dependent protein kinases. , 1984, The Journal of biological chemistry.

[13]  G. Guroff,et al.  Nerve growth factor-induced decrease in the cell-free phosphorylation of a soluble protein in PC12 cells. , 1983, The Journal of biological chemistry.

[14]  J. Strickler,et al.  Application of high-performance liquid chromatographic peptide purification to protein microsequencing by solid-phase Edman degradation. , 1982, Analytical biochemistry.

[15]  Y. Kaziro,et al.  Translocation reaction promoted by polypeptide chain elongation factor-2 from pig liver. , 1977, Journal of biochemistry.

[16]  W. Schaffner,et al.  A rapid, sensitive, and specific method for the determination of protein in dilute solution. , 1973, Analytical biochemistry.

[17]  K. Moldave,et al.  Characterization of the interaction of aminoacyltransferase II with ribosomes. Binding of transferase II and translocation of peptidyl transfer ribonucleic acid. , 1968, The Journal of biological chemistry.

[18]  L. Hood,et al.  Accelerated High Sensitivity Sequence Analysis of Proteins and Peptides Immobilized on Chemically-modified Glass Fiber Discs , 1989 .

[19]  Shestak Ea,et al.  [Effect of phosphorylation of elongation factor 2 on its activity in a cell-free translation system]. , 1987 .

[20]  S. Ochoa,et al.  Soluble factors required for eukaryotic protein synthesis. , 1976, Annual review of biochemistry.