Tomato roots exhibit distinct, development-specific responses to bacterial-derived peptides

Plants possess cell-surface recognition receptors that detect molecular patterns from microbial invaders and initiate an immune response. Understanding the conservation of pattern-triggered immunity within different plant organs and across species is crucial to its sustainable and effective use in plant disease management but is currently unclear. We examined the activation and immune response patterns of three pattern recognition receptors (PRRs: SlFLS2, SlFLS3, and SlCORE) in different developmental regions of roots and in leaves of multiple accessions of domesticated and wild tomato (Solanum lycopersicum and S. pimpinellifolium) using biochemical and genetic assays. Roots from different tomato accessions differed in the amplitude and dynamics of their immune response, but all exhibited developmental-specific PTI responses in which the root early differentiation zone was the most sensitive to molecular patterns. PRR signaling pathways also showed distinct but occasionally overlapping responses downstream of each immune receptor in tomato roots. These results reveal that each PRR initiates a unique PTI pathway and suggest that the specificity and complexity of tomato root immunity are tightly linked to the developmental stage, emphasizing the importance of spatial and temporal regulation in PTI.