Abstract

Leucyl-tRNA synthetase (LeuRS) produces error free leucyl-tRNALeu by coordinating translocation of the 3′ end of (mis-)charged tRNAs from its synthetic site to a separate proof-reading site for editing. Here we report co-crystal structures of the Escherichia coli LeuRS-tRNALeu complex in the aminoacylation or editing conformations and show that translocation involves correlated rotations of four flexibly linked LeuRS domains. This pivots the tRNA to guide the charged tRNA 3′ end from the closed aminoacylation state to the editing site. The editing domain unexpectedly stabilizes the tRNA during aminoacylation while a large rotation of the leucine-specific domain positions the conserved KMSKS loop to bind the 3′ end of the tRNA, promoting catalysis. Our results give new insight into the structural dynamics of a molecular machine that is essential for accurate protein synthesis.

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