The Arabidopsis tDR Ala forms G-quadruplex structures that can be unwound by the DExH1 DEA(D/H)-box RNA helicase.

Abstract

As in many other organisms, tRNA-derived RNAs (tDRs) exist in plants and likely have multiple functions. We previously showed that tDRs are present in Arabidopsis under normal growth conditions, and that the ones originating from alanine tRNAs are the most abundant in leaves. We also showed that tDRs Ala of 20 nt produced from mature tRNAAla (AGC) can block in vitro protein translation. Here, we report that first, these tDRs Ala (AGC) can be found within peculiar foci in the cell that are neither P-bodies nor stress granules and, second, that they assemble into intermolecular RNA G-quadruplex (rG4) structures. Such tDR Ala rG4 structures can specifically interact with an Arabidopsis DEA(D/H) RNA helicase, the DExH1 protein, and unwind them. The rG4-DExH1 protein interaction relies on a glycine-arginine domain with RGG/RG/GR/GRR motifs present at the N-terminal extremity of the protein. Mutations on the four guanine residues located at the 5' extremity of the tDR Ala abolish its rG4 structure assembly, association with the DExH1 protein, and foci formation, but they do not prevent protein translation inhibition in vitro. Our data suggest that the sequestration of tDRs Ala into rG4 complexes might represent a way to modulate accessible and functional tDRs for translation inhibition within the plant cell via the activity of a specific RNA helicase, DExH1.