Rhizobial effector NopM ubiquitinates Nod factor receptor NFR5 and promotes rhizobial infection in Lotus japonicus

Bacterial pathogens and nitrogen-fixing rhizobia employ type III protein secretion system (T3SS) effectors as potent tools to manipulate plant signaling pathways, thereby facilitating infection and host colonization. However, the molecular mechanisms underlying effects of rhizobial effectors on legume infection remain largely elusive. In this study, we investigated the symbiotic role of T3SS effectors in the interaction between Sinorhizobium fredii NGR234 and Lotus japonicus. Mutants deficient in the T3SS genes Tts1 or NopA showed enhanced rhizobial infection of L. japonicus roots. Further mutant analysis showed that the NopT effector negatively affects infection, while the NopM effector in the absence of NopT promotes infection. Notably, NopM interacts with the Nod factor receptors LjNFR1 and LjNFR5. NopM ubiquitinates LjNFR5 with ten ubiquitinated lysine residues in LjNFR5 identified using mass spectrometry. Expression of NopM in L. japonicus resulted in an approximately twofold increase in LjNFR5 protein levels and enhanced rhizobial infection. Our findings indicate that NopM directly interferes with the symbiotic signaling pathway through interaction and ubiquitination of Nod factor receptors, which likely benefits rhizobial infection of L. japonicus. Our research contributes to the intricate interplay between the Nod factor signaling pathway and rhizobial T3SS effectors delivered into host cells.