The role of IAA and its transport in the complex streptophyte algae Chara braunii

The role of auxin indole-3-acetic acid (IAA), a phytohormone with numerous morphogenic functions, is now well-established in land plants. Although the role of IAA and its transport in algae remains unclear, PIN-driven auxin export is probably an ancient and conserved trait within Streptophytes. Among streptophyte algae, Chara represents a genus with a considerable degree of complexity in body arrangement. This study investigates the auxin response and characterizes homologs of land plant PIN auxin efflux carriers in Chara braunii . Through regeneration experiments, we observed that IAA significantly promotes elongation of thallus and side branch development upon thallus tip decapitation, indicating an effect on morphogenesis. We show that IAA is actively uptaken and metabolized by thallus cells and that this process is influenced by N-1-naphthylphthalamic acid (NPA). To elucidate the underlying mechanisms, we cloned and sequenced the most expressed Chara braunii PINs, CbPINa and CbPINc. Using epitope-specific antibodies, we showed their presence in the plasma membrane (PM) of vegetative internodal cells and generative antheridial cells. Functional tests in tobacco BY-2 cells, supported by in silico docking of IAA and NPA to CbPINa and CbPINc, showed that PM-localized CbPINa interferes with auxin transport in contrast to ER-localized CbPINc. Finally, our phosphoproteome analysis indicated that IAA rapidly induces specific phosphorylation events, including RAF-like kinase phosphorylation, highlighting a potential role for IAA in fast signaling processes in Chara braunii. Altogether, we provide new insights into IAA role in Chara braunii morphogenesis and suggest that while the canonical auxin transport mechanism may not be conserved, auxin still may likely play a role in rapid signaling pathways in this close relative of land plants.