The symbiotic relationship between legumes and rhizobium bacteria in root nodules has a high demand for iron, and questions remain regarding which transporters are involved. Here, we characterize two nodule-specific Vacuolar iron Transporter-Like (VTL) proteins in Medicago truncatula. Localization of fluorescent fusion proteins and mutant studies were carried out to correlate with existing RNA-seq data showing differential expression of VTL4 and VTL8 during early and late infection, respectively. The vtl4 insertion lines showed decreased nitrogen fixation capacity associated with more immature nodules and less elongated bacteroids. A mutant line lacking the tandemly-arranged VTL4-VTL8 genes, named 13U, was unable to develop functional nodules and failed to fix nitrogen, which was almost fully restored by expression of VTL8 alone. Using a newly developed lux reporter to monitor iron status of the bacteroids, a moderate decrease in luminescence signal was observed in vtl4 mutant nodules and a strong decrease in 13U nodules. Iron transport capability of VTL4 and VTL8 was shown by yeast complementation. These data indicate that VTL8, the closest homologue of SEN1 in Lotus japonicus, is the main route for delivering iron to symbiotic rhizobia. We propose that a failure in iron protein maturation leads to early senescence of the bacteroids.
The symbiotic relationship between legumes and rhizobium bacteria in root nodules has a high demand for iron. The host plant is known to provide iron to developing bacteroids, but questions remain regarding which transporters are involved. Here, we characterize two Vacuolar Iron Transporter-Like (VTL) proteins in Medicago truncatula that are specifically expressed during nodule development. VTL4 is mostly expressed during early infection and the protein was localized to membranes and the infection thread. vtl4 mutants were delayed in nodule development. VTL8is closely related to SEN1 in Lotus japonicus and expressed in the late stages of bacteroid differentiation. The VTL8 protein was localized to the symbiosome membrane. A mutant line lacking the tandemly-arranged VTL4 -VTL8 genes, named 13U, was unable to develop functional nodules and failed to fix nitrogen, which was restored by expression of VTL8 alone. Using a newly developed lux reporter to monitor iron status of the bacteroids, a slight decrease in luminescence was observed in vtl4 mutants and a strong decrease in the 13U mutant. Iron transport capability of VTL4 and VTL8 was shown by yeast complementation. Taken together, these data indicate that VTL-type transporters are the main route for delivering iron to symbiotic rhizobia.
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