Symbiotic peptides modulate rhizobial physiology without terminal differentiation
Bin Hu, Robert Hänsch, Kyra Grunau, Lena Hohtanz, Martin Kucklick, Nele Grünig, Veit G. Hänsch, Rui Liu, Tong Peng, Max Wiebicke, Ilnaz Sarhangi Fard, Maxim Messerer, Franka Gädeke, Theresia E. B. Stradal, Marius Milatz, Christian Hertweck, Susanne Engelmann, Heinz Rennenberg, Kevin D. Oliphant
Symbiotic nitrogen fixation reduces reliance on synthetic fertilizers and is central to agriculture and ecosystem functioning. In legumes, this process occurs in root nodules where rhizobia differentiate into bacteroids that either remain viable or undergo terminal differentiation, a strategy that can enhance nitrogen fixation but limits nodule life span. This irreversible program suits annual legumes and has evolved convergently across multiple lineages, including the inverted repeat-lacking clade (IRLC), where it is enforced by nodule-specific cysteine-rich (NCR) peptides. By contrast, perennial legumes with indeterminate nodules must sustain symbiosis over extended periods, which is incompatible with terminally differentiated bacteroids. Here, we identify a family of nodule-specific proline-glycine-rich peptides (NPGs) in