Abstract
Oligogalacturonides (OGs) are fragments of pectin released from the plant cell wall during insect or pathogen attack. They can be perceived by the plant as damage signals, triggering local and systemic defence responses. Here, we analyse the dynamics of local and systemic responses to OG perception in tomato roots or shoots, exploring their impact across the plant and their relevance in pathogen resistance. Targeted and untargeted metabolomics and gene expression analysis in plants treated with purified OGs revealed that local responses were transient, while distal responses were stronger and more sustained. Remarkably, changes were more conspicuous in roots, even upon foliar application of the OGs. The treatments differentially activated the synthesis of defence‐related hormones and secondary metabolites including flavonoids, alkaloids and lignans, some of them exclusively synthetized in roots. Finally, the biological relevance of the systemic defence responses activated upon OG perception was confirmed, as the treatment induced systemic resistance to Botrytis cinerea. Overall, this study shows the differential regulation of tomato defences upon OGs perception in roots and shoots and reveals the key role of roots in the coordination of the plant responses to damage sensing.
Highlights
Plants respond to invading organisms triggering fast signalling processes leading to the activation of diverse defence mechanisms
Oligogalacturonides are damage-associated molecular patterns (DAMPs) derived from the plant cell wall, and the responses they trigger have been mainly studied in Arabidopsis, at the local level (Davidsson et al, 2017; Gravino et al, 2017)
In this study we investigated how tomato plants respond, both locally and systemically, to the perception of OGs in roots and shoots, and whether the systemic response to OGs confers resistance against B. cinerea
Summary
Plants respond to invading organisms triggering fast signalling processes leading to the activation of diverse defence mechanisms. It has been demonstrated that OGs perception stimulates antioxidant systems in plants (Camejo et al, 2012) and the biosynthesis of different antimicrobial enzymes through responses regulated by the main defence related phytohormones: JA, salicylic acid (SA) and ethylene (ET) (Bishop, Pearce, Bryant, & Ryan, 1984; Denoux et al, 2008; Doares, Syrovets, Weiler, & Ryan, 1995; Ferrari et al, 2007; Gravino, Savatin, Macone, & De Lorenzo, 2015) These hormonal signalling pathways play a key regulatory function in the interaction of plants with potential aggressors as pathogens and herbivores (Pieterse et al, 2014). The results highlight the differences among local and systemic responses and their dependence on the site of signal perception
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