β‑Amino Acids Reduce Ternary Complex Stability and Alter the Translation Elongation Mechanism
Cruz-Navarrete F, Griffin W, Chan Y, Martin M, Alejo J, Brady R, Natchiar S, Knudson I, Altman R, Schepartz A, Miller S, Blanchard S. β‑Amino Acids Reduce Ternary Complex Stability and Alter the Translation Elongation Mechanism. ACS Central Science 2024, 10: 1262-1275. PMID: 38947208, PMCID: PMC11212133, DOI: 10.1021/acscentsci.4c00314.Peer-Reviewed Original ResearchNon-natural amino acidsComplex stabilityTernary complex stabilityTemplate synthesisDetection limitEnergy transfer measurementsTernary complex formationComplex formationSingle-molecule fluorescence resonance energy transfer measurementsIn vitro detection limitTernary complexFluorescence resonance energy transfer measurementsAmino acidsMechanism of protein synthesisResonance energy transfer measurementsSynthesis of proteinsRate of translocationMRNA decodingElongation substratesStabilityElongation factorIsomersRibosome utilizationAminoacyl-tRNAStereoisomers