Crystal structure of Arabidopsis thaliana RabA1a.

RabGTPase is a member of the Ras superfamily of small GTPases, which share a GTP‐binding pocket containing highly conserved motifs that promote GTP hydrolysis. In Arabidopsis, the RabA group, which corresponds to the Rab11 group in animals, functions in the recycling of endosomes that control docking and fusion during vesicle transport. However, their molecular mechanisms remain unknown. In this study, we determined the crystal structures of the GDP‐bound inactive form and both GppNHp‐ and GTP‐bound active forms of RabA1a, at resolutions of 2.8, 2.6, and 2.6 Å, respectively. A bound sulfate ion in the active site of the GDP‐bound structure stabilized Switch II by bridging the interaction between a magnesium ion and Arg74. Comparisons of the two states of RabA1a with Rab11 proteins revealed clear differences in the Switch I and II loops. These results suggested that conformational change of the Switch regions of RabA1a, derived by GTP or GDP binding, could maintain subcellular membrane traffic through the specific interaction of effector molecules. In Arabidopsis, the RabA group, which corresponds to the Rab11 group in animals, functions in the recycling of endosomes during vesicle transport. In this study, we presented conformational changes of Switch I and II regions upon RabA1a activation via crystal structures of both GTP‐ and GDP‐bound forms. [ABSTRACT FROM AUTHOR]