Litcius/Paper detail

The presence of oxygenated lipids in plant defense in response to biotic stress: a metabolomics appraisal

Chanel J. Pretorius, Dylan R. Zeiss, Ian A. Dubery

2021Plant Signaling & Behavior50 citationsDOIOpen Access PDF

Abstract

Recent lipid-based findings suggest more direct roles for fatty acids and their degradation products in inducing/modulating various aspects of plant defense, e.g. as signaling molecules following stress responses that may regulate plant innate immunity. The synthesis of oxylipins is a highly dynamic process and occurs in both a developmentally regulated mode and in response to abiotic and biotic stresses. This mini-review summarizes the occurrence of free - and oxygenated fatty acid derivatives in plants as part of an orchestrated metabolic defense against pathogen attack. Oxygenated C18 derived polyunsaturated fatty acids were identified by untargeted metabolomics studies of a number of different plant-microbe pathosystems and may serve as potential biomarkers of oxidative stress. Untargeted metabolomics in combination with targeted lipidomics, can uncover previously unrecognized aspects of lipid mobilization during plant defense.

Topics & Concepts

MetabolomicsLipidomicsBiologyBiotic stressOxylipinPlant defense against herbivoryFight-or-flight responseAbiotic componentBiochemistryPolyunsaturated fatty acidMetabolomeLipid signalingAbiotic stressPlant ImmunityInnate immune systemFatty acidBioinformaticsEcologyGeneArabidopsisMutantReceptorPlant-Microbe Interactions and ImmunityPlant Parasitism and ResistancePlant Pathogenic Bacteria Studies
The presence of oxygenated lipids in plant defense in response to biotic stress: a metabolomics appraisal | Litcius