The structural biology of deoxyhypusination complexes.

Deoxyhypusination is the first rate-limiting step of the unique post-translational modification-hypusination-that is catalyzed by deoxyhypusine synthase (DHS) and deoxyhypusine hydroxylase (DOHH). This modification is essential for the activation of translation factor 5A in eukaryotes (eIF5A) and Archaea (aIF5A). This perspective focuses on the structural biology of deoxyhypusination complexes in eukaryotic and archaeal organisms. Based on recently published crystal and cryogenic electron microscopy (cryo-EM) structures of deoxyhypusination complexes from three different organisms, we compare the structural features and stoichiometries of DHS-IF5A complexes across different species. We discuss conserved elements in the active site architecture and binding interfaces as well as significant differences in their stoichiometry and regulation mechanisms. The structural insights provide a comprehensive understanding of the deoxyhypusination process and highlight evolutionary adaptations across the domains of life. Future research should focus on the regulatory mechanisms governing DHS activity and the functional implications of stoichiometric variations in different organisms.