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.

2'-OH of mRNA are critical for the binding of its codons at the 40S ribosomal P site but not at the mRNA entry site.

The roles of 2'-OH groups in the binding of mRNA to human ribosomes were studied using site-directed cross-linking. We found that both mRNA and mDNA analogues bearing a cross-linker can modify ribosomal proteins (rps) S3e and S2e at the mRNA entry site independently on tRNA presence, but only mRNA analogues were capable of a tRNA(Phe)-dependent binding to human ribosomes and cross-linking to rpS26e in the mRNA binding centre. Thus, 2'-OH groups of mRNA are unimportant for binding at the entry site but they are crucial for codon-anticodon interactions at the P site, implying the existence of mRNA-ribosome contacts that do not occur in bacteria.

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.

Adenine and guanine recognition of stop codon is mediated by different N domain conformations of translation termination factor eRF1.

Positioning of release factor eRF1 toward adenines and the ribose-phosphate backbone of the UAAA stop signal in the ribosomal decoding site was studied using messenger RNA (mRNA) analogs containing stop signal UAA/UAAA and a photoactivatable cross-linker at definite locations. The human eRF1 peptides cross-linked to these analogs were identified. Cross-linkers on the adenines at the 2nd, 3rd or 4th position modified eRF1 near the conserved YxCxxxF loop (positions 125-131 in the N domain), but cross-linker at the 4th position mainly modified the tripeptide 26-AAR-28.

Three distinct peptides from the N domain of translation termination factor eRF1 surround stop codon in the ribosome.

To study positioning of the polypeptide release factor eRF1 toward a stop signal in the ribosomal decoding site, we applied photoactivatable mRNA analogs, derivatives of oligoribonucleotides. The human eRF1 peptides cross-linked to these short mRNAs were identified. Cross-linkers on the guanines at the second, third, and fourth stop signal positions modified fragment 31-33, and to lesser extent amino acids within region 121-131 (the "YxCxxxF loop") in the N domain.

Eukaryote-specific motif of ribosomal protein S15 neighbors A site codon during elongation and termination of translation.

The eukaryotic ribosomal protein S15 is a key component of the decoding site in contrast to its prokaryotic counterpart, S19p, which is located away from the mRNA binding track on the ribosome. Here, we determined the oligopeptide of S15 neighboring the A site mRNA codon on the human 80S ribosome with the use of mRNA analogues bearing perfluorophenyl azide-modified nucleotides in the sense or stop codon targeted to the 80S ribosomal A site. The protein was cross-linked to mRNA analogues in specific ribosomal complexes that were obtained in the presence of eRF1 in the experiments with mRNAs bearing stop codon.

Arrangement of 3'-terminus of tRNA on the human ribosome as revealed from cross-linking data.

This study is directed towards an important problem concerning the organization of the peptidyl transferase center (PTC) on the mammalian ribosome that cannot be studied by X-ray analysis since crystals of 80S ribosomes are still unavailable. Here, we investigated the arrangement of the 3'-end of tRNA in the 80S ribosomal A and P sites using a tRNA(Asp) analogue that bears a 4-thiouridine (s(4)U) attached to the 3'-terminal adenosine. It was shown that an additional nucleotide s(4)U77 on the 3'-end does not impede codon-dependent binding of the tRNA to the A and P sites of 80S ribosome.

mRNA 3' of the A site bound codon is located close to protein S3 on the human 80S ribosome.

Ribosomal proteins neighboring the mRNA downstream of the codon bound at the decoding site of human 80S ribosomes were identified using three sets of mRNA analogues that contained a UUU triplet at the 5' terminus and a perfluorophenylazide cross-linker at guanosine, adenosine or uridine residues placed at various locations 3' of this triplet. The positions of modified mRNA nucleotides on the ribosome were governed by tRNA(Phe) cognate to the UUU triplet targeted to the P site. Upon mild UV-irradiation, the mRNA analogues cross-linked preferentially to the 40S subunit, to the proteins and to a lesser extent to the 18S rRNA.

Arrangement of mRNA 3' of the A site codon on the human 80S ribosome.

Positioning of mRNA 3' of the A site codon was studied with the use of short mRNA analogues carrying a UUU triplet at the 5'-termini and a perfluorophenylazide group at either the N7 atom of the guanosine or the C5 atom of the uridine 3' of the triplet. Modified nucleotides were directed to positions +7, +9 or +12 with respect to the first nucleotide of the P site codon by tRNA(Phe) cognate to the UUU triplet targeted to the P site. Mild UV-irradiation resulted in cross-linking of the mRNA analogues to the 18S rRNA and to 40S proteins, the yield of cross-linking depending on the nature of the mRNA nucleotide bearing the modified group and its position on the ribosome.

The central part of the 5.8 S rRNA is differently arranged in programmed and free human ribosomes.

A sequence-specific modification of the human 5.8 S rRNA in isolated 60 S subunits, non-programmed 80 S ribosomes and ribosomes complexed with mRNA and tRNAs was studied with the use of a derivative of the nonaribonucleotide UCUGUGUUU bearing a perfluorophenylazide group on the C-5 atom of the 5'-terminal uridine. Part of the oligonucleotide moiety of the derivative was complementary to the 5.

Variable and conserved elements of human ribosomes surrounding the mRNA at the decoding and upstream sites.

This study is centred upon an important biological problem concerning the structural organization of mammalian ribosomes that cannot be studied by X-ray analysis because 80S ribosome crystals are still unavailable. Here, positioning of the mRNA on 80S ribosomes was studied using mRNA analogues containing the perfluorophenylazide cross-linker on either the guanosine or an uridine residue. The modified nucleotides were directed to positions from -9 to +6 with respect to the first nucleotide of the P site bound codon by a tRNA cognate to the triplet targeted to the P site.

The ribosomal A site-bound sense and stop codons are similarly positioned towards the A1823-A1824 dinucleotide of the 18S ribosomal RNA.

Positioning of the mRNA codon towards the 18S ribosomal RNA in the A site of human 80S ribosomes has been studied applying short mRNA analogs containing either the stop codon UAA or the sense codon UCA with a perfluoroaryl azide group at the uridine residue. Bound to the ribosomal A site, a modified codon crosslinks exclusively to the 40S subunits under mild UV irradiation. This result is inconsistent with the hypothesis [Ivanov et al.

Positioning of mRNA codons with respect to 18S rRNA at the P and E sites of human ribosome.

Positioning of each nucleotide of the E site and the P site bound codons with respect to the 18S rRNA on the human ribosome was studied by cross-linking with mRNA analogs, derivatives of the hexaribonucleotide UUUGUU (comprising Phe and Val codons) that carried a perfluorophenylazide group on the second or the third uracil, and a derivative of the dodecaribonucleotide UUAGUAUUUAUU with a similar group on the guanine residue. The location of the modified nucleotides at any mRNA position from -3 to +3 (position +1 corresponds to the 5' nucleotide of the P site bound codon) was adjusted by the cognate tRNAs. A modified uridine at positions from -1 to +3 cross-linked to nucleotide G1207 of the 18S rRNA, and to nucleotide G961 when it was in position -2.

Positioning of the mRNA stop signal with respect to polypeptide chain release factors and ribosomal proteins in 80S ribosomes.

To study positioning of the mRNA stop signal with respect to polypeptide chain release factors (RFs) and ribosomal components within human 80S ribosomes, photoreactive mRNA analogs were applied. Derivatives of the UUCUAAA heptaribonucleotide containing the UUC codon for Phe and the stop signal UAAA, which bore a perfluoroaryl azido group at either the fourth nucleotide or the 3'-terminal phosphate, were synthesized. The UUC codon was directed to the ribosomal P site by the cognate tRNA(Phe), targeting the UAA stop codon to the A site.