In this work, we studied how the accessibility of structural elements of the mammalian 40S ribosomal mRNA entry channel, ribosomal protein (rp) uS3 and helix (h) 16 of the 18S rRNA, changes upon the translation initiation. In particular, we examined the accessibility of rp uS3 for binding of unstructured RNAs and of riboses in h16 towards attack with benzoyl cyanide (BzCN) in complexes assembled in rabbit reticulocyte lysate utilizing synthetic oligoribonucleotides as well as full-length and truncated up to the initiation AUG codon hepatitis C virus IRES as model mRNAs. With both mRNA types, the rp uS3 peptide recognizing single-stranded RNAs was shown to become shielded only in those 48S preinitiation complexes (PICs) that contained eIF3j bound to 40S subunit in the area between the decoding site and the mRNA entry channel. Chemical probing with BzCN revealed that h16 in the 48S PICs containing eIF3j or scanning factor DHX29 is strongly shielded; the effect was observed with all the mRNAs used, and h16 remained protected as well in 80S post-initiation complexes lacking these factors. Altogether, the obtained results allowed us to suggest that eIF3j bound at the 48S PICs makes the rp uS3 inaccessible for binding of RNAs and this factor subunit is responsible for the decrease of h16 conformational flexibility; the latter is manifested as reduced accessibility of h16 to BzCN. Thus, our findings provide new insights into how eIF3j is implicated in ensuring the proper conformation of the mRNA entry channel, thereby facilitating mRNA loading.
Keywords: 18S ribosomal RNA; Eukaryotic translation initiation; Mammalian ribosomal protein uS3; Restructuring mRNA entry channel; Translation initiation factors.
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