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Abstract:
EF-P is a translation factor that facilitates the formation of peptide bonds between consecutive prolines. Using FRET between EF-P and ribosomal protein bL33, we studied dynamics and specificity of EF-P binding to the ribosome. Our findings reveal that EF-P rapidly scans for a free E site and can bind to any ribosome containing a P-site tRNA, regardless of the ribosome's functional state. The interaction with uL1 is essential for EF-P binding, while the β-Lys modification of EF-P doubles the association rate. Specific interactions with the D-loop of tRNAPro or tRNAfMet and via the β-Lys group with the tRNA in the peptidyl transferase center reduce the rate of EF-P dissociation from the ribosome, providing the specificity for complexes that need help in catalyzing peptide bond formation. The nature of the E-site codon has little effect on EF-P binding kinetics. Although EF-P dissociation is reduced upon recognizing its correct tRNA substrate, it remains sufficiently rapid compared to tRNA translocation and does not affect the translocation rate. These results highlight the importance of EF-P’s scanning-engagement mechanism for dynamic substrate recognition during rapid translation.
