Melkonian, K.; Pellen, T.; Buenger, K.; Thiercelin, O.; Le Ru, A.; Rich, M. K.; Bianconi, M. E.; Keller, J.; Delaux, P.-M.

DELLA proteins play diverse roles in development, plant-microbe interactions and stress responses, and are regulated by the hormone gibberellic acid (GA) in flowering plants. Here, we investigated the evolutionary conservation of functions of the single DELLA ortholog in the non-vascular model liverwort Marchantia paleacea, which lacks genes for perception and biosynthesis of bioactive GA. We found that GA-independent developmental phenotypes are conserved in M. paleacea, while neither DELLA, nor its close paralog GRAS13 are involved in establishment of arbuscular mycorrhizal symbiosis. We propose that symbiosis-related functions of DELLA evolved and have been maintained in vascular plants because GA-dependent regulation offered an additional, systemic, control layer on symbiosis.