[preprint] Alternate conformational trajectories in protein synthesis

Jose L Alejo, Dylan Girodat, Michael J Hammerling, Jessica A Willi, Michael C Jewett, Aaron E Engelhart, Katarzyna P Adamala

https://www.biorxiv.org/content/10.1101/2024.04.03.588007v1.abstract

bioRxiv, 2024.04. 03.588007

Translocation in protein synthesis entails the efficient and accurate movement of the mRNA-[tRNA]2 substrate through the ribosome after peptide bond formation. An essential conformational change during this process is the swiveling of the small subunit head domain about two rRNA hinge elements. Using directed evolution and molecular dynamics simulations, we derive alternate hinge elements capable of translocation in vitro and in vivo and describe their effects on the conformational trajectory of the EF-G-bound, translocating ribosome. In these alternate conformational pathways, we observe a diversity of swivel kinetics, hinge motions, three-dimensional head domain trajectories and tRNA dynamics. By finding alternate conformational pathways of translocation, we identify motions and intermediates that are essential or malleable in this process. These findings highlight the plasticity of protein synthesis and provide a more thorough understanding of the available sequence and conformational landscape of a central biological process.