Downy mildew is one of the most important diseases of grapevines (Vitis vinifera L.), especially for the European varieties caused by the oomycete pathogen Plasmopara viticola (Berk. et Curt.) Berl. et de Toni.
This pathogen was reported for the first time in Europe in 1878, where it was probably imported from North America. To reduce sprayings, V. vinifera cultivars were crossed in the past with resistant Vitis spp, to select resistant hybrids, but the biochemical mechanisms underlying the resistant phenotypes are poorly understood. Plants respond naturally to a multitude of stress conditions and the biosynthesis of protective chemicals is one of their major strategies (1). The metabolome, typically defined as the collection of small molecules produced by cells, offers a window for interrogating how mechanistic biochemistry relates to cellular phenotype (2). A metabolomic approach was applied, enabling the analysis of hundreds of biomarker compounds of different chemical classes allowing a better understanding of defense response. Particularly primary and secondary metabolites and lipids were analyzed. The aim was to cover all important classes of plant metabolites and to aim at identifying early stage biomarkers within the first 96 hours after pathogen inoculation.
