Structural elements defining elongation factor Tu mediated suppression of codon ambiguity

Abstract

In most prokaryotes Asn-tRNA^Asn and Gln-tRNA^Gln are formed by amidation of aspartate and glutamate mischarged onto tRNA^Asn and tRNA^Gln, respectively. Coexistence in the organism of mischarged Asp-tRNA^Asn and Glu-tRNA^Gln and the homologous Asn-tRNA^Asn and Gln-tRNA^Gln does not, however, lead to erroneous incorporation of Asp and Glu into proteins, since EF-Tu discriminates the misacylated tRNAs from the correctly charged ones. This property contrasts with the canonical function of EF-Tu, which is to non-specifically bind the homologous aa-tRNAs, as well as heterologous species formed in vitro by aminoacylation of non-cognate tRNAs. In Thermus thermophilus that forms the Asp-tRNA^Asn intermediate by the indirect pathway of tRNA asparaginylation, EF-Tu must discriminate the mischarged aminoacyl-tRNAs (aa-tRNA). We show that two base pairs in the tRNA T-arm and a single residue in the amino acid binding pocket of EF-Tu promote discrimination of Asp-tRNA^Asn from Asn-tRNA^Asn and Asp-tRNA^Asp by the protein. Our analysis suggests that these structural elements might also contribute to rejection of other mischarged aa-tRNAs formed in vivo that are not involved in peptide elongation. Additionally, these structural features might be involved in maintaining a delicate balance of weak and strong binding affinities between EF-Tu and the amino acid and tRNA moieties of other elongator aa-tRNAs.