Dual localization of JA receptor, CaCOI2, explains JA perception dynamics in chickpea

Abstract

Jasmonates (JAs) are a group of oxylipin-derived phytohormones involved in various biotic and abiotic stress responses and regulate plant development. JAs are perceived by receptor proteins called coronatine insensitive (COI). These JA receptors encode F-box proteins that form the SCFCOI ubiquitin ligase complex (comprising Skp, Cullin, and F-box) and activate JA signaling by promoting the degradation of the transcriptional repressor JAZ (JA associated ZIM domain containing) proteins via the 26S proteasomal pathway. However, JA signaling is not well understood in chickpea, a vital legume. In this study, we identified two potential chickpea JA receptors, named CaCOI1 and CaCOI2, and characterized CaCOI2 as a functional JA receptor. Subcellular localization experiments revealed that CaCOI2 is localized outside the nucleus but moves into the nucleus upon JA perception to activate signaling. Using domain-swapping experiments between CaCOI1 and CaCOI2, we demonstrated that the leucine-rich repeat region of the receptors, which interacts with bioactive JA such as JA-Isoleucine, also plays a crucial role in controlling the subcellular localization of CaCOI proteins. Our findings identify a functional JA receptor in chickpea and reveal new aspects of JA signaling and perception, which may also be relevant to other plants.