Role of gibberellic acid in tomato defence against potato purple top phytoplasma infection

Abstract

AbstractInfection of tomato by potato purple top (PPT) phytoplasma causes disruption of gibberellin (GA) homeostasis in the plant host. Such pathologically‐induced GA deficiency can be partially reversed by exogenous application of GA. This study was designed to explore the role of GA in tomato defence response against phytoplasmal disease, and to determine whether pretreatment with GA would protect healthy tomato seedlings from subsequent phytoplasmal infection and disease development. Our results revealed that, following exogenous GA application and subsequent PPT phytoplasma graft inoculation, there was an apparently coordinated down‐regulation of the gene encoding a key GA signalling component and growth repressor known as DELLA protein (GAI) and up‐regulation of genes involved in salicylic acid (SA) synthesis (ICS1), signalling (NIM1) and downstream defence responses (PRP‐1). Our results also indicated that differential regulation of the above genes was correlated with an increase in activities of defence‐related enzymes β‐1,3‐glucanase and chitinase. The data presented in this communication provide evidence to suggest that GA may act via DELLA and SA signalling pathways to modulate host defence in response to PPT phytoplasma infection. Although the GA pretreatment‐induced defence was not sufficient to prevent a systemic infection, it reduced phytoplasma titre and significantly attenuated disease symptoms. While the actual molecular mechanism underlying the GA‐induced plant defence remains elusive, findings from the current study open new opportunities for in‐depth studies of the functional role of the GA signalling network during defence response against phytoplasmal infection.