To counteract biotic stress factors, plants employ multilayered defense mechanisms responsive to pathogen-derived elicitor molecules, and regulated by different phytohormones and signaling molecules. Here, lipopolysaccharide (LPS), a microbe-associated molecular pattern (MAMP) molecule, was used to induce defense responses in Nicotiana tabacum cell suspensions. Intracellular metabolites were extracted with methanol and analyzed using a liquid chromatography-mass spectrometry (UHPLC-qTOF-MS/MS) platform. The generated data were processed and examined with multivariate and univariate statistical tools. The results show time-dependent dynamic changes and accumulation of glycosylated signaling molecules, specifically those of azelaic acid, salicylic acid and methyl-salicylate as contributors to the altered metabolomic state in LPS-treated cells.
Reference:
Mhlongo, M.I. et al. 2017. Untargeted metabolomics analysis reveals dynamic changes in azelaic acid- and salicylic acid derivatives in LPS-treated Nicotiana tabacum cells. Biochemical and Biophysical Research Communications, vol. 482(4): 1498-1503
Mhlongo, M., Tugizimana, F., Piater, L., Steenkamp, P. A., Madala, N., & Dubery, I. (2017). Untargeted metabolomics analysis reveals dynamic changes in azelaic acid- and salicylic acid derivatives in LPS-treated Nicotiana tabacum cells. http://hdl.handle.net/10204/10291
Mhlongo, MI, F Tugizimana, LA Piater, Paul A Steenkamp, NE Madala, and IA Dubery "Untargeted metabolomics analysis reveals dynamic changes in azelaic acid- and salicylic acid derivatives in LPS-treated Nicotiana tabacum cells." (2017) http://hdl.handle.net/10204/10291
Mhlongo M, Tugizimana F, Piater L, Steenkamp PA, Madala N, Dubery I. Untargeted metabolomics analysis reveals dynamic changes in azelaic acid- and salicylic acid derivatives in LPS-treated Nicotiana tabacum cells. 2017; http://hdl.handle.net/10204/10291.
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