Litcius/Paper detail

Repurposing tRNAs for nonsense suppression

Suki Albers, Bertrand Beckert, Marco C. Matthies, Chandra Sekhar Mandava, Raphael Schuster, Carolin Seuring, Maria Riedner, Suparna Sanyal, Andrew E. Torda, Daniel N. Wilson, Zoya Ignatova

2021Nature Communications53 citationsDOIOpen Access PDF

Abstract

Three stop codons (UAA, UAG and UGA) terminate protein synthesis and are almost exclusively recognized by release factors. Here, we design de novo transfer RNAs (tRNAs) that efficiently decode UGA stop codons in Escherichia coli. The tRNA designs harness various functionally conserved aspects of sense-codon decoding tRNAs. Optimization within the TΨC-stem to stabilize binding to the elongation factor, displays the most potent effect in enhancing suppression activity. We determine the structure of the ribosome in a complex with the designed tRNA bound to a UGA stop codon in the A site at 2.9 Å resolution. In the context of the suppressor tRNA, the conformation of the UGA codon resembles that of a sense-codon rather than when canonical translation termination release factors are bound, suggesting conformational flexibility of the stop codons dependent on the nature of the A-site ligand. The systematic analysis, combined with structural insights, provides a rationale for targeted repurposing of tRNAs to correct devastating nonsense mutations that introduce a premature stop codon.

Topics & Concepts

Transfer RNAStop codonRelease factorRepurposingTranslation (biology)GeneticsNonsense mutationComputational biologyBiologyContext (archaeology)Open reading frameMutationRNAMessenger RNAAmino acidGenePeptide sequenceEcologyPaleontologyMissense mutationRNA and protein synthesis mechanismsRNA modifications and cancerBacterial Genetics and Biotechnology