Shape-selective RNA recognition by cysteinyl-tRNA synthetase

Abstract

The crystal structure of Escherichia coli cysteinyl-tRNA synthetase (CysRS) bound to tRNA^Cys at a resolution of 2.3 Å reveals base-specific and shape-selective interactions across an extensive protein-RNA recognition interface. The complex contains a mixed α/β C-terminal domain, which is disordered in the unliganded enzyme. This domain makes specific hydrogen bonding interactions with all three bases of the GCA anticodon. The tRNA anticodon stem is bent sharply toward the enzyme as compared with its conformation when bound to elongation factor Tu, providing an essential basis for shape-selective recognition. The CysRS structure also reveals interactions of conserved enzyme groups with the sugar-phosphate backbone in the D loop, adjacent to an unusual G15·G48 tertiary base pair previously implicated in tRNA aminoacylation. A combined mutational analysis of enzyme and tRNA groups at G15·G48 supports the notion that contacts between CysRS and the sugar-phosphate backbone contribute to recognition by indirect readout.