Distinct Proline residues in hinge-regions of SYMRK generates a phosphocode for releasing Malectin-like-Domain to allow progress of rhizobia-legume symbiosis at epidermal-cortical barrier

Abstract

AbstractSymbiosis Receptor Kinase (SYMRK), a malectin-like-domain/leucine-rich-repeat receptor-like-kinase (MLD-LRR-RLK), is the upstream most component in Common-Symbiosis-Signalling-Pathway. We highlight two Proline residues that were distinctly acquired by SYMRK orthologues in its hinge-regions to evolve a signalling module for allowing progress of symbionts across transcellular barriers during rhizobia-legume symbiosis. Within the Ectodomain hinge (EctoD-hinge) all MLD-LRR-RLKs have a conserved W1xnGDPCxnW2x4C motif, where SYMRK orthologues within legumes have a distinct signature with a Proline preceding W2enabling cleavage of SYMRK-EctoD for releasing MLD. Within the kinase hinge (KD-hinge) at gatekeeper+1 position, a conserved Glutamate in MLD-LRR-RLKs is replaced by Proline in all SYMRK orthologues that enabled its dual-specific kinase activity for ensuring EctoD-cleavage. Substitution of either Proline restricted symbionts at the transcellular epidermal-cortical barrier forming infection patches in the nodule apex without affecting epidermal invasion and nodule organogenesis. This halt was entirely overcome by ectopic expression of free MLD demonstrating the released MLD to have an active role in progress of symbionts. Overall, we show that adaptations of distinct Prolines in hinge-regions of SYMRK orthologues in legumes have evolved a signalling module involving dimerization and optimal phosphorylation of SYMRK for releasing MLD as an active transducer of symbiosis signalling.