Defense-related callose synthase PMR4 promotes root hair callose deposition and adaptation to phosphate deficiency in Arabidopsis thaliana

Plants acquire phosphorus (P) primarily as inorganic phosphate (Pi) from the soil. Under Pi deficiency, plants induce an array of physiological and morphological responses, termed phosphate starvation response (PSR), thereby increasing Pi acquisition and use efficiency. However, the mechanisms by which plants adapt to Pi deficiency remain to be elucidated. Here, we report that deposition of a β-1,3-glucan polymer called callose is induced in Arabidopsis thaliana root hairs under Pi deficiency, in a manner independent of PSR-regulating PHR1/PHL1 transcription factors and LPR1/LPR2 ferroxidases. Genetic studies revealed PMR4 ( GSL5 ) callose synthase being required for the callose deposition in Pi-depleted root hairs. Loss of PMR4 also reduces Pi acquisition in shoots and plant growth under low Pi conditions. The defects are not recovered by simultaneous disruption of SID2 , mediating defense-associated salicylic acid (SA) biosynthesis, unlike SA-dependent powdery mildew resistance previously described in pmr4 . Grafting experiments and characterization of plants expressing PMR4 specifically in root hair cells suggest that a PMR4 pool in the cell type contributes to shoot growth under Pi deficiency. Our findings thus suggest an important role for PMR4 in plant adaptation to Pi deficiency. Significance statement We reveal that PMR4 callose synthase mediates callose deposition in root hairs under phosphate (Pi) deficiency, without requiring Pi starvation response regulators PHR1/PHL1 or LPR1/LPR2 . The loss of the callose deposition is accompanied by decreases in Pi acquisition and plant growth in pmr4 . Root hair cell-specific PMR4 expression restores callose deposition in root hairs and shoot growth under Pi deficiency, indicating a critical role for root hair callose in plant adaptation to Pi deficiency. ### Competing Interest Statement The authors have declared no competing interest.