Ribosomal A-site interactions with near-cognate tRNAs drive stop codon readthrough

Abstract

SUMMARYtRNAs serve as a dictionary for the ribosome translating the genetic message from mRNA into a polypeptide chain. Besides this canonical role, tRNAs are involved in other processes like programmed stop codon readthrough (SC-RT). There, tRNAs with near-cognate anticodons to stop codons must outcompete release factors and incorporate into the ribosomal decoding center to prevent termination and allow translation to continue. However, not all near-cognate tRNAs promote efficient SC-RT. Here, we demonstrate that those that do, establish critical contacts between their anticodon stem (AS) and ribosomal proteins Rps30/eS30 and Rps25/eS25 forming the decoding site. Unexpectedly, the length and well-defined nature of the AS determines the strength of these contacts, which is reflected in organisms with reassigned stop codons. These findings open a new direction in tRNA biology that should facilitate the design of artificial tRNAs with specifically altered decoding abilities.