Head swivel on the ribosome facilitates translocation via intra-subunit tRNA hybrid sites

The elongation cycle of protein synthesis involves the delivery of aminoacyl-tRNAs to the A-site of the ribosome, followed by peptide-bond formation and translocation of the tRNAs through the ribosome to reopen the A-site(1,2). The translocation reaction is catalyzed by elongation factor G (EF-G) in a GTP-dependent fashion(3). Despite the availability of structures of various EF-G-ribosome complexes, the precise mechanism by which tRNAs move through the ribosome still remains unclear. Here we use multiparticle cryo-EM analysis to resolve two previously unseen subpopulations within EF-G-ribosome complexes at sub-nanometer resolution, one of them with a partially translocated tRNA. Comparison of these sub-states reveals that translocation of tRNA on the 30S subunit parallels the swiveling of the 30S-head and is coupled to un-ratcheting of the 30S-body. Since the tRNA maintains contact with the P-site on the 30S-head and simultaneously establishes interaction with the E-site on the 30S-platform, a novel intra-subunit pe/E hybrid state is formed. This state is stabilized by domain IV of EF-G, which interacts with the swiveled 30S-head conformation. These findings provide direct structural and mechanistic insight into the “missing link” in terms of tRNA intermediates involved in the universally conserved translocation process.