Abstract
Tomato (Solanum lycopersicum) is an important dietary source of bioactive phytochemicals and active breeding programs constantly produce new cultivars possessing superior and desirable traits. The phytopathogenic Ralstonia solanacearum, the causal agent of bacterial wilt, is a highly destructive bacterial disease with a high economic impact on tomato production. This study followed an untargeted metabolomic approach involving four tomato cultivars and aimed at the identification of secondary metabolites involved in plant defense after infection with R. solanacearum. Liquid chromatography coupled to mass spectrometry (LC-MS) in combination with multivariate data analysis and chemometric modelling were utilized for the identification of discriminant secondary metabolites. The total of 81 statistically selected features were annotated belonging to the metabolite classes of amino acids, organic acids, fatty acids, various derivatives of cinnamic acid and benzoic acids, flavonoids and steroidal glycoalkaloids. The results indicate that the phenylpropanoid pathway, represented by flavonoids and hydroxycinnamic acids, is of prime importance in the tomato defense response. The hydroxycinnamic acids esters of quinic acid, hexoses and glucaric acids were identified as signatory biomarkers, as well as the hydroxycinnamic acid amides to polyamines and tyramine. Interestingly, the rapid and differential accumulation of putrescine, dopamine, and tyramine derivatives, along with the presence of a newly documented metabolite, feruloyl serotonin, were documented in the infected plants. Metabolite concentration variability in the different cultivar tissues point to cultivar-specific variation in the speed and manner of resource redistribution between the host tissues. These metabolic phenotypes provide insights into the differential metabolic signatures underlying the defense metabolism of the four cultivars, defining their defensive capabilities to R. solanacearum.
Highlights
Tomato (Solanum lycopersicum), from an economic standpoint, is one of the most important horticultural crops cultivated [1,2]
Untargeted metabolomics detected metabolites in tomato that could be used as candidate biomarkers associated with R. solanacearum infection
The metabolite classes identified to be predominantly associated with the treatment included the hydroxybenzoic acids (HBAs), HCAs, PhAs, and flavonoids, known to play integrative roles associated with plant defense mechanisms
Summary
Tomato (Solanum lycopersicum), from an economic standpoint, is one of the most important horticultural crops cultivated [1,2]. Global tomato production and yield is plagued by several diseases caused by a number of pathogens. One of the major challenges for a rapid growing global population is the need to meet the demand for adequate food supply. This requires ecologically sound, compatible strategies in agriculture for sustainable crop production. Emerging and re-emerging plant diseases continuously challenge this task, the management of plant diseases continues to be an uphill task [3]. Solanaceous crops, especially tomato, serve as excellent model systems for the investigation of plant-pathogen interactions [4]
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