A pair of LysM receptors mediates symbiosis and immunity discrimination in Marchantia

Abstract

Most land plants form symbioses with microbes to acquire nutrients but also must restrict infection by pathogens. Here, we show that a single pair of lysin-motif-containing receptor-like kinases, MpaLYR and MpaCERK1, mediates both immunity and symbiosis in the liverwort Marchantia paleacea. MpaLYR has a higher affinity for long-chain (CO7) versus short-chain chitin oligomers (CO4). Although both CO7 and CO4 can activate symbiosis-related genes, CO7 triggers stronger immune responses than CO4 in a dosage-dependent manner. CO4 can inhibit CO7-induced strong immune responses, recapitulating the early response to inoculation with the symbiont arbuscular mycorrhizal fungi. We show that phosphate starvation of plants increases their production of strigolactone, which stimulates CO4/CO5 secretion from mycorrhizal fungi, thereby prioritizing symbiosis over immunity. Thus, a single pair of LysM receptors mediates dosage-dependent perception of different chitin oligomers to discern symbiotic and pathogenic microbes in M. paleacea, which may facilitate terrestrialization.

Keywords: LysM receptor; MAMPs; Marchantia paleacea; arbuscular mycorrhizal symbiosis; dosage-dependent perception; immunity; phosphate-starvation-triggered symbiosis signaling loop; symbiotic factors.