XB-FEAT-994393
Papers associated with eif3a
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cDNA and deduced primary structure of rat protein B23, a nucleolar protein containing highly conserved sequences.
Chang JH, Dumbar TS, Olson MO.
J Biol Chem. September 15, 1988; 263 (26): 12824-7.
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Major nucleolar proteins shuttle between nucleus and cytoplasm.
Borer RA, Lehner CF, Eppenberger HM, Nigg EA.
Cell. February 10, 1989; 56 (3): 379-90.
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Nucleolin from Xenopus laevis: cDNA cloning and expression during development.
Caizergues-Ferrer M, Mariottini P, Curie C, Lapeyre B, Gas N, Amalric F, Amaldi F.
Genes Dev. March 1, 1989; 3 (3): 324-33.
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Nucleolin from the multiple nucleoli of amphibian oocyte nuclei.
DiMario PJ, Gall JG.
Chromosoma. April 1, 1990; 99 (2): 87-94.
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The glycine-rich domain of nucleolin has an unusual supersecondary structure responsible for its RNA-helix-destabilizing properties.
Ghisolfi L, Joseph G, Amalric F, Erard M.
J Biol Chem. February 15, 1992; 267 (5): 2955-9.
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A complete nucleolin cDNA sequence from Xenopus laevis.
Rankin ML, Heine MA, Xiao S, LeBlanc MD, Nelson JW, DiMario PJ.
Nucleic Acids Res. January 11, 1993; 21 (1): 169.
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A protein containing conserved RNA-recognition motifs is associated with ribosomal subunits in Saccharomyces cerevisiae.
Ripmaster TL, Woolford JL.
Nucleic Acids Res. July 11, 1993; 21 (14): 3211-6.
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Requirements for nuclear translocation and nucleolar accumulation of nucleolin of Xenopus laevis.
Messmer B, Dreyer C.
Eur J Cell Biol. August 1, 1993; 61 (2): 369-82.
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Nuclear export of proteins: the role of nuclear retention.
Schmidt-Zachmann MS, Dargemont C, Kühn LC, Nigg EA.
Cell. August 13, 1993; 74 (3): 493-504.
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The Gly/Arg-rich (GAR) domain of Xenopus nucleolin facilitates in vitro nucleic acid binding and in vivo nucleolar localization.
Heine MA, Rankin ML, DiMario PJ.
Mol Biol Cell. November 1, 1993; 4 (11): 1189-204.
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