PHO1 family members transport phosphate from infected nodule cells to bacteroids in Medicago truncatula

Legumes play an important role in the soil nitrogen availability via symbiotic nitrogen fixation (SNF). Phosphate (Pi) deficiency severely impacts SNF because of the high Pi requirement of symbiosis. Whereas PHT1 transporters are involved in Pi uptake into nodules, it is unknown how Pi is transferred from the plant infected cells to nitrogen-fixing bacteroids. We hypothesized that Medicago truncatula genes homologous to Arabidopsis PHO1, encoding a vascular apoplastic Pi exporter, are involved in Pi transfer to bacteroids. Among the seven MtPHO1 genes present in M. truncatula, we found that two genes, namely MtPHO1.1 and MtPHO1.2, were broadly expressed across the various nodule zones in addition to the root vascular system. Expressions of MtPHO1.1 and MtPHO1.2 in Nicotiana benthamiana mediated specific Pi export. Plants with nodule-specific downregulation of both MtPHO1.1 and MtPHO1.2 were generated by RNA interference (RNAi) to examine their roles in nodule Pi homeostasis. Nodules of RNAi plants had lower Pi content and a three-fold reduction in SNF, resulting in reduced shoot growth. Whereas the rate of (33)Pi uptake into nodules of RNAi plants was similar to control, transfer of (33)Pi from nodule cells into bacteroids was reduced and bacteroids activated their Pi-deficiency response. Our results implicate plant MtPHO1 genes in bacteroid Pi homeostasis and SNF via the transfer of Pi from nodule infected cells to bacteroids.

Automated summary

The MtPHO1.1 and MtPHO1.2 genes in M. truncatula are implicated in transferring phosphate to bacteroids for symbiotic nitrogen fixation. Downregulation of these genes using RNAi resulted in lower phosphate content in nodules and reduced nitrogen fixation activity, impacting plant growth. This study highlights the crucial role of MtPHO1 genes in phosphate homeostasis and symbiotic nitrogen fixation in legumes.