Major reorientation of tRNA substrates defines specificity of dihydrouridine synthases
Article 2015 en
Authors
RB
Robert T. Byrne
HJ
Huw T. Jenkins
DP
Daniel T. Peters
Abstract
1 min read
Significance RNA-binding proteins use diverse mechanisms for generating specificity toward distinct RNA molecules. Different subfamilies of bacterial dihydrouridine synthases (Dus) modify specific uridines in tRNA, but the mechanism for selection of the target nucleotide is unknown. We solved crystal structures of the U16-specific Dus from Escherichia coli complexed with two different tRNAs. These structures reveal that the tRNA is bound in a completely different orientation from that observed in a U20-specific enzyme. The major reorientation of the substrate tRNA, driven by unique amino acid “binding signatures” and plasticity in the position of the C-terminal recognition domain, appears to be an evolutionary innovation to the known strategies that define specificity of enzymes toward tRNA.
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