Abstract
Eukaryotic initiation factor (eIF) 1 is a small protein (12 kDa) governing fidelity in translation initiation. It is recruited to the 40 S subunit in a multifactor complex with Met-tRNA(i)(Met), eIF2, eIF3, and eIF5 and binds near the P-site. eIF1 release in response to start codon recognition is an important signal to produce an 80 S initiation complex. Although the ribosome-binding face of eIF1 was identified, interfaces to other preinitiation complex components and their relevance to eIF1 function have not been determined. Exploiting the solution structure of yeast eIF1, here we locate the binding site for eIF5 in its N-terminal tail and at a basic/hydrophobic surface area termed KH, distinct from the ribosome-binding face. Genetic and biochemical studies indicate that the eIF1 N-terminal tail plays a stimulatory role in cooperative multifactor assembly. A mutation altering the basic part of eIF1-KH is lethal and shows a dominant phenotype indicating relaxed start codon selection. Cheung et al. recently demonstrated that the alteration of hydrophobic residues of eIF1 disrupts a critical link to the preinitiation complex that suppresses eIF1 release before start codon selection (Cheung, Y.-N., Maag, D., Mitchell, S. F., Fekete, C. A., Algire, M. A., Takacs, J. E., Shirokikh, N., Pestova, T., Lorsch, J. R., and Hinnebusch, A. (2007) Genes Dev. 21, 1217-1230 ). Interestingly, eIF1-KH includes the altered hydrophobic residues. Thus, eIF5 is an excellent candidate for the direct partner of eIF1-KH that mediates the critical link. The direct interaction at eIF1-KH also places eIF5 near the decoding site of the 40 S subunit.
Highlights
TRNAiMet and 5Ј-capped mRNA to the 40 S subunit to form 43 S and 48 S preinitiation complexes, respectively
Prior to AUG recognition, GTP bound to eIF2 appears to be hydrolyzed by the action of the N-terminal residues of eIF5 through a mechanism stimulated by 48 S complex formation
EIF1, encoded by SUI1 in yeast Saccharomyces cerevisiae, plays a central role in ensuring the fidelity of translation initiation by destabilizing ribosomal complexes assembled on noncognate and poorly contexted start codons (6) and by repressing the GTPase activating activity of eIF5 or release of Pi until precise AUG pairing to the tRNAiMet anticodon (3, 7)
Summary
Lys[52], Arg[53], Lys[56], Lys[59 ], and Lys[60] to Ala pET-SUI1-M5 pGEX-SUI1-M5 YCpL-SUI1-M5. YCpL-SUI1-His a Isogenic to KAY230 (MAT␣ leu[2] lys[11] ura[3-52] trp1⌬ mof2(sui1)::hisG gcn2::hisG pSUI1 LEU2͔) except carrying a sui[1] LEU2 CEN plasmid listed in column 4 instead of pSUI1. The C-terminal minimal MFC binding domain, eIF5-CTD-(241– 405), forms a HEAT domain fold with eight ␣-helices (12, 13) It binds to eIF1 and eIF3c and to eIF2 at two conserved basic and acidic surface sites termed area II and area I, respectively (14). We report the solution structure of yeast eIF1 and its binding sites for eIF5-(241– 405) as determined with NMR spectroscopy These studies identify NTT and a basic/hydrophobic surface of the globular core termed KH as binding sites for eIF5-CTD. We propose that eIF5 is an excellent candidate for the direct partner of eIF1-KH that produces such a link
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