Genome-wide protein-protein interaction analysis between aquaporins and harpin (HrpZ2) through molecular docking and MD simulations to unravel its role in growth and stress management in tomato.

HrpZ2, a harpin protein produced by Pseudomonas syringae, a gram-negative plant pathogenic bacterium, elicits hypersensitive response and pathogen defense in non-host plants. Harpins from various bacterial sources elicit varying responses in different non-host plants, due to its structural variations, their precise mechanisms of action are not yet completely understood. As per previous reports, harpins from diverse bacterial sources interact with distinctive members of integral membrane proteins, known as aquaporins. For example, harpin (Hpa1Xoo) interacts with OsPIP1;3 in rice, whereas, in Arabidopsis the harpins Hpa1 and HrpZ interacts with AtPIP1;4 and AtPIP1;3 respectively. Here, we conducted the first genome-wide computational screening of protein-protein interactions between HrpZ2 and all 47 members of tomato aquaporins. Molecular docking identified nine interactors across five subfamilies of aquaporins, with HrpZ2 N-terminal residues mediating these interactions. We validated these via molecular dynamics (MD) simulations, principal component analysis, and free energy landscape analysis, assessing the stability (RMSD, RMSF, radius of gyration), dynamics, and affinity (MM-GMSA). PIP complexes, especially PIP2;1 (-460.46 kcal/mol) and PIP1;7 (-303.82 kcal/mol), exhibited superior stability, compactness, and defined energy minima, confirming PIPs as primary sensors of harpins. Non-PIP aquaporins like TIP1;1 and NIP4;1 showed moderate stability, outperforming weaker interactors (SIP2;1, XIP1;5, XIP1;3). These findings provide robust evidence that HrpZ2 preferentially targets PIPs in tomato, while engaging TIPs and NIPs as auxiliary partners. This multifaceted interaction profile of harpins suggests complex plant-pathogen recognition, modulating aquaporin-mediated cellular responses like growth and stress management in plants.