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N Sonenberg

Showing results (241-250 of 287) with videos related to

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The Journal of Biological Chemistry|May 17, 1996
Phosphorylation of eIF-4E on serine 209 by protein kinase C is inhibited by the translational repressors, 4E-binding proteinsS G Whalen, A C Gingras, L Amankwa, et al.
Biochemistry|February 7, 1998
4E binding proteins inhibit the translation factor eIF4E without folded structureC M Fletcher, A M McGuire, A C Gingras, et al.
Cellular & Molecular Biology Research|January 1, 1994
Translational regulation of the mammalian growth-related protein P23: involvement of eIF-4EU A Bommer, A Lazaris-Karatzas, A De Benedetti, et al.
Science (New York, N.Y.)|October 28, 1994
PHAS-I as a link between mitogen-activated protein kinase and translation initiationT A Lin, X Kong, T A Haystead, et al.
Journal of Immunology (Baltimore, Md. : 1950)|April 8, 1998
Differential regulation of translation and eIF4E phosphorylation during human thymocyte maturationL Beretta, N G Singer, R Hinderer, et al.
Nature Structural Biology|September 26, 1997
Structure of translation factor eIF4E bound to m7GDP and interaction with 4E-binding proteinH Matsuo, H Li, A M McGuire, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 15, 2001
FRAP/mTOR is required for proliferation and patterning during embryonic development in the mouseK E Hentges, B Sirry, A C Gingeras, et al.
Genes, Chromosomes & Cancer|September 1, 1993
Mapping of the gene for interferon-inducible dsRNA-dependent protein kinase to chromosome region 2p21-22: a site of rearrangements in myeloproliferative disordersS M Hanash, L Beretta, C L Barcroft, et al.
Molecular and Cellular Biology|October 19, 1999
Eukaryotic translation initiation factor 4AIII (eIF4AIII) is functionally distinct from eIF4AI and eIF4AIIQ Li, H Imataka, S Morino, et al.
Molecular and Cellular Biology|August 1, 1993
TIF4631 and TIF4632: two yeast genes encoding the high-molecular-weight subunits of the cap-binding protein complex (eukaryotic initiation factor 4F) contain an RNA recognition motif-like sequence and carry out an essential functionC Goyer, M Altmann, H S Lee, et al.
Pageof 29

Showing results (241-250 of 287) with videos related to

Sort By:
Pageof 29
The Journal of Biological Chemistry|May 17, 1996
Phosphorylation of eIF-4E on serine 209 by protein kinase C is inhibited by the translational repressors, 4E-binding proteinsS G Whalen, A C Gingras, L Amankwa, et al.
Biochemistry|February 7, 1998
4E binding proteins inhibit the translation factor eIF4E without folded structureC M Fletcher, A M McGuire, A C Gingras, et al.
Cellular & Molecular Biology Research|January 1, 1994
Translational regulation of the mammalian growth-related protein P23: involvement of eIF-4EU A Bommer, A Lazaris-Karatzas, A De Benedetti, et al.
Science (New York, N.Y.)|October 28, 1994
PHAS-I as a link between mitogen-activated protein kinase and translation initiationT A Lin, X Kong, T A Haystead, et al.
Journal of Immunology (Baltimore, Md. : 1950)|April 8, 1998
Differential regulation of translation and eIF4E phosphorylation during human thymocyte maturationL Beretta, N G Singer, R Hinderer, et al.
Nature Structural Biology|September 26, 1997
Structure of translation factor eIF4E bound to m7GDP and interaction with 4E-binding proteinH Matsuo, H Li, A M McGuire, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 15, 2001
FRAP/mTOR is required for proliferation and patterning during embryonic development in the mouseK E Hentges, B Sirry, A C Gingeras, et al.
Genes, Chromosomes & Cancer|September 1, 1993
Mapping of the gene for interferon-inducible dsRNA-dependent protein kinase to chromosome region 2p21-22: a site of rearrangements in myeloproliferative disordersS M Hanash, L Beretta, C L Barcroft, et al.
Molecular and Cellular Biology|October 19, 1999
Eukaryotic translation initiation factor 4AIII (eIF4AIII) is functionally distinct from eIF4AI and eIF4AIIQ Li, H Imataka, S Morino, et al.
Molecular and Cellular Biology|August 1, 1993
TIF4631 and TIF4632: two yeast genes encoding the high-molecular-weight subunits of the cap-binding protein complex (eukaryotic initiation factor 4F) contain an RNA recognition motif-like sequence and carry out an essential functionC Goyer, M Altmann, H S Lee, et al.
Pageof 29