The structure of Egalitarian in complex with the K10 mRNA localization signal reveals a modular binding surface required for function

Asymmetric localization of mRNAs is a prevalent mechanism for spatial control of protein function and typically involves active transport by cytoskeletal motors. The mechanisms of recognition of localizing mRNAs by motor complexes are poorly understood. Egalitarian is an adaptor protein that binds localization signals in specific RNAs in Drosophila and recruits them to the dynein-dynactin complex for microtubule-based transport. We determined the crystal structure of Egalitarian in complex with the localization signal of the K10 mRNA. Three structural units of Egalitarian, a 3’-5’exonuclease domain, a linker and a C-terminal domain form shape-specific, base-directed and backbone interactions with the RNA. Based on the structure we identified conserved residues recognizing RNA in vitro . Genome-edited flies with mutations in these residues have deficits in Egalitarian function that are congruent with changes in in vitro RNA binding affinities. Our work demonstrates how a minimal RNA localization signal is recognized by an RNA localization factor.