Exploring accessibility of structural elements of the mammalian 40S ribosomal mRNA entry channel at various steps of translation initiation.

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.

Molecular contacts of ribose-phosphate backbone of mRNA with human ribosome.

In this work, intimate contacts of riboses of mRNA stretch from nucleotides in positions +3 to +12 with respect to the first nucleotide of the P site codon were studied using cross-linking of short mRNA analogs with oxidized 3'-terminal riboses bound to human ribosomes in the complexes stabilized by codon-anticodon interactions and in the binary complexes. It was shown that in all types of complexes cross-links of the mRNA analogs to ribosomal protein (rp) uS3 occur and the yield of these cross-links does not depend on the presence of tRNA and on sequences of the mRNA analogs. Site of the mRNA analogs cross-linking in rp uS3 was mapped to the peptide in positions 55-64 that is located away from the mRNA binding site.

Ribosomal protein S5e is implicated in translation initiation through its interaction with the N-terminal domain of initiation factor eIF2α.

A key step of translation initiation in eukaryotes is formation of the 48S preinitiation complex (PIC) containing the 40S ribosome, a set of eukaryotic initiation factors (eIFs), mRNA, and initiator Met-tRNA interacting with mRNA start codon; however, the PIC structure remains substantially unknown. Here, we apply formaldehyde-induced protein-protein crosslinks to identify contacts between ribosomal protein S5e (rpS5e, "e" stands for "eukaryotic") and eIFs within the mammalian PIC, assembled on either model canonical or IRES-containing mRNA. Using immunoblotting and mass spectrometry, we show that with both types of mRNA, rpS5e crosslinks to eIF2α.

A central fragment of ribosomal protein S26 containing the eukaryote-specific motif YxxPKxYxK is a key component of the ribosomal binding site of mRNA region 5' of the E site codon.

The eukaryotic ribosomal protein S26e (rpS26e) lacking eubacterial counterparts is a key component of the ribosomal binding site of mRNA region 5' of the codon positioned at the exit site. Here, we determined the rpS26e oligopeptide neighboring mRNA on the human 80S ribosome using mRNA analogues bearing perfluorophenyl azide-derivatized nucleotides at designed locations. The protein was cross-linked to mRNA analogues in specific ribosomal complexes, in which the derivatized nucleotide was located at positions -3 to -9.