Nodulin 16 of Lotus japonicus (Nlj16) regulates the recruitment of Leghemoglobin (LegH) to the infected nodule cell membrane during symbiotic nitrogen fixation

Abstract

AbstractNitrogenase that catalyses anaerobic symbiotic nitrogen fixation (SNF) in legumes is synthesized by rhizobium. Legume root cells express nodulin proteins after infection with rhizobia. Nodulins have been classified as early and late, reflecting the time points of their expression. Leghemoglobin (LegH), which is a classic example of a late nodulin, sequesters oxygen inside the nodule to protect the nitrogenase from oxygen toxicity to sustain SNF. Previous data from our laboratory demonstrated that phosphorylated LegH at S45 showed compromised oxygen sequestration in vitro due to structural disruption of the porphyrin binding pocket responsible for its oxygen binding. Moreover, we have demonstrated by using co-immunoprecipitation that LegH interacts both in vitro with Nodulin 16 of Lotus japonicus (Nlj16), another late nodulin. Fluorescence Immunohistochemistry (IHC) data shows that both LegH and Nlj16 are localized in the membrane and cytosol of infected cells. Notably, serine phosphorylation of LegH and interaction of Nlj16 with LegH respectively reduces and increases its in vitro oxygen sequestration ability. In this report, to further elucidate the spatio-temporal regulation of this interaction, we generated hairy root transgenic Lotus japonicus plants where Nlj16 has been knocked down by using siRNA. Most interestingly, our data shows that the membrane localization of LegH is obliterated in the Nlj16 knocked-down root cells infected with the cognate Rhizobia suggesting a distinct role of Nlj16 in its recruitment to the membrane of nodule cells.