Arrangement of mRNA at the decoding site of human ribosomes. 18S rRNA nucleotides and ribosomal proteins cross-linked to oligouridylate derivatives with alkylating groups at either the 3' or the 5' termini.

Affinity labeling of human placental 80S ribosomes with mRNA analogs of up to 12 uridyl residues, i.e. alkylating derivatives of oligouridylates bearing either 4-(N-2-chloroethyl-N-methylamino)benzylmethylphosphamide group at the 5'-termini or 2',3'-O-[4-(N-2-chloroethyl-N-methylamino)]benzylidene residue attached to the 3'-termini, in the presence of cognate Phe-tRNA(Phe) has been investigated. All the mRNA analogs modified only the 40S subunit. The fraction of 18S rRNA modified by the mRNA analogs with the alkylating group at the 5'-end decreased dramatically with extension of the reagent oligouridylate moiety. Nucleotides of 18S rRNA alkylated with the mRNA analogs were determined using a reverse transcription technique. For the mRNA analogs with the alkylating groups at the 3'-termini, G1702 and G1763/G1764 were identified as the cross-linking sites. The intensities of the bands corresponding to reverse transcriptase stops depended on the length of the reagent oligouridylate moieties. Cross-linking sites of the mRNA analogs with the alkylating group at the 5'-termini on 18S rRNA were A1023, C1026, C1057 and A1058 for the (pU)3 and (pU)4 derivatives and a single nucleotide C1057 for the (pU)6 one. Ribosomal protein S26 was found as the main target of modification with the same derivatives of (pU)6 and (pU)12.