Metabolomic- and Molecular Networking-Based Exploration of the Chemical Responses Induced in Leaves Inoculated with .

Citrus canker, caused by the bacterium subsp. (), is a plant disease affecting crops worldwide. However, little is known about defense compounds in . Here, we conducted a mass spectrometry-based metabolomic approach to obtain an overview of the chemical responses of leaves to infection. To facilitate result interpretation, the multivariate analyses were combined with molecular networking to identify biomarkers. Metabolite variations among untreated and -inoculated samples under greenhouse conditions highlighted induced defense biomarkers. Notably, the plant tryptophan metabolism pathway was activated, leading to the accumulation of N-methylated tryptamine derivatives. This finding was subsequently confirmed in symptomatic leaves in the field. Several tryptamine derivatives showed inhibitory effects in vitro against . This approach has enabled the identification of new chemically related biomarker groups and their dynamics in the response of leaves to infection.