The C-terminal domain (CTD) of the a/Tif32 subunit of budding yeast eukaryotic translation initiation factor 3 (eIF3) interacts with eIF3 subunits j/Hcr1 and b/Prt1 and can bind helices 16 to 18 of 18S rRNA, suggesting proximity to the mRNA entry channel of the 40S subunit. We have identified substitutions in the conserved Lys-Glu-Arg-Arg (KERR) motif and in residues of the nearby box6 element of the a/Tif32 CTD that impair mRNA recruitment by 43S preinitiation complexes (PICs) and confer phenotypes indicating defects in scanning and start codon recognition. The normally dispensable CTD of j/Hcr1 is required for its binding to a/Tif32 and to mitigate the growth defects of these a/Tif32 mutants, indicating physical and functional interactions between these two domains. The a/Tif32 CTD and the j/Hcr1 N-terminal domain (NTD) also interact with the RNA recognition motif (RRM) in b/Prt1, and mutations in both subunits that disrupt their interactions with the RRM increase leaky scanning of an AUG codon. These results, and our demonstration that the extreme CTD of a/Tif32 binds to Rps2 and Rps3, lead us to propose that the a/Tif32 CTD directly stabilizes 43S subunit-mRNA interaction and that the b/Prt1-RRM-j/ Hcr1-a/Tif32-CTD module binds near the mRNA entry channel and regulates the transition between scanningconducive and initiation-competent conformations of the PIC.Eukaryotic translation initiation factor 3 (eIF3) is a multisubunit protein complex that has been implicated in several steps of the translation initiation pathway (reviewed in reference 19). These steps include recruitment of the eIF2-GTP-Met-tRNA i Met ternary complex (TC) and other eIFs to the small (40S) ribosomal subunit to form the 43S preinitiation complex (PIC), mRNA recruitment by the 43S PIC, and subsequent scanning of the 5Ј untranslated region (UTR) for an AUG start codon. The eIF3 in the budding yeast Saccharomyces cerevisiae is composed of only 6 subunits (a/Tif32, b/Prt1, c/Nip1, i/Tif34, g/Tif35, and j/Hcr1), which have homologs in the larger, 13-subunit eIF3 complex in mammals. Yeast eIF3 can be purified with the TC, eIF1, and eIF5 in a ribosome-free assembly called the multifactor complex (MFC) (2), whose formation appears to promote assembly or stability of the 43S PIC and to stimulate scanning and AUG selection (10,23,32,42,48,49,51).In mammals, there is evidence that eIF3 enhances recruitment of mRNA by interacting directly with eIF4G, the "scaffold" subunit of mRNA cap-binding complex eIF4F, and forming a protein bridge between mRNA and the 43S PIC (24,25,35). In budding yeast, direct eIF3-eIF4G interaction has not been detected, and the eIF3-binding domain (25) is not evident in yeast eIF4G. Moreover, depletion of eIF3, but not eIF4G, from yeast cells provokes a strong decrease in the amount of an mRNA (RPL41A) associated with native PICs (23). However, since depletion of eIF3 also reduced the amounts of other MFC components associated with PICs, it remained unclear whether eIF3 acts directly in mRNA recruitment. In favor of a dire...
