Covalent crosslinking of tRNA1Val to 16S RNA at the ribosomal P site: identification of crosslinked residues.

Abstract

N-Acetylvalyl-tRNA1Val(AcVal-tRNA1Val) was bound to the P site of uniformly 32P-labeled 70S ribosomes from Escherichia coli and crosslinked to 16S RNA in the 30S ribosomal subunit by irradiation with light of 300-400 nm. To identify the crosslinked nucleotide in 16S RNA, AcVal-tRNA1Val-16S [32P]RNA was digested completely with RNase T1 and the band containing the covalently attached oligonucleotides from tRNA and rRNA was isoalted by polyacrylamide gel electrophoresis. The crosslinked oligonucleotide, and the 32P-labeled rRNA moiety released from it by photoreversal of the crosslink at 254 nm, were then analyzed by secondary hydrolysis with pancreatic RNAse A and RNase U2. The oligonucleotide derived from 16S RNA was the evolutionarily conserved sequence, U-A-C-A-C-A-C-C-G1401, and the nucleotide crosslinked to tRNA1Val, C1400. The identity of the covalently attached residue in the tRNA was established by using AcVal-tRNA1Val-16S RNA prepared from unlabeled ribosomes. This complex was digested to completion with RNase T1 and the resulting RNA fragments were labeled at the 3'' end with [5''-32P]pCp. The crosslinked T1 oligonucleotide isolated from the mixture yielded one major end-labeled component on photoreversal. Chemical sequence analysis demonstrated that this product was derived from the anticodon-containing pentadecanucleotide of tRNA1Val, C-A-C-C-U-C-C-C-U-cmo5U-A-C-m6A-A-G39(cmo5U,5-carboxymethoxyuridine). A similar study of the cross-linked oligonucleotide revealed that the residue covalently bound to 16S was cmo5U34, the 5'' or wobble base of the anticodon. The adduct is believed to result from formation of a cyclobutane dimer between cmo5U34 of tRNA1Val and C1400 of the 16S RNA.