Symbiotic nitrogen fixation is a highly coordinated process involving legume plants and nitrogen-fixing bacteria known as rhizobia. In this study, we investigated a novel Fix- mutant of the model legume Lotus japonicus that develops root nodules with endosymbiotic rhizobia but fails in nitrogen fixation. Map-based cloning identified the causal gene encoding the filamentation temperature-sensitive H (FtsH) protein, designated as LjFtsH4. The LjFtsH4 gene was expressed in all plant organs without increased levels during nodulation. Subcellular localization revealed that LjFtsH4, fused with a fluorescent protein, localized in mitochondria. The Ljftsh4 mutant nodules showed signs of premature senescence, including symbiosome membrane collapse and bacteroid disintegration. Additionally, nodule cells of Ljftsh4 mutant displayed mitochondria with indistinct crista structures. Grafting and complementation tests confirmed that the Fix- phenotype was determined by the root genotype, and that protease activity of LjFtsH4 was essential for nodule nitrogen fixation. Furthermore, the ATP content in Ljftsh4 mutant roots and nodules was lower than in the wild-type, suggesting reduced mitochondrial function. These findings underscore the critical role of LjFtsH4 in effective symbiotic nitrogen fixation in root nodules.
Keywords: ATP-dependent metalloprotease; Mitochondrial dysfunction; Nodule symbiosis; Symbiotic nitrogen fixation.
© 2024. The Author(s).