Metabolic signatures of Arabidopsis thaliana abiotic stress responses elucidate patterns in stress priming, acclimation, and recovery

Yuan Xu, Dana M Freund, Adrian D. Hegeman, Jerry D Cohen

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Temperature, water, and light are three abiotic stress factors that have major influences on plant growth, development, and reproduction. Plants can be primed by a prior mild stress to enhance their resistance to future stress. We used an untargeted metabolomics approach to examine Arabidopsis thaliana 11-day-old seedling’s abiotic stress responses including heat (with and without priming), cold (with and without priming), water-deficit and high-light before and after a 2-day-recovery period. Analysis of the physiological phenotypes showed that seedlings with stress treatment resulted in a reduction in fresh weight, hypocotyl and root length but remained viable. Several stress responsive metabolites were identified, confirmed with reference standards, quantified, and clustered. We identified shared and specific stress signatures for cold, heat, water-deficit, and high-light treatments. Central metabolism including amino acid metabolism, sugar metabolism, glycolysis, TCA cycle, GABA shunt, glutathione metabolism, purine metabolism, and urea cycle were found to undergo changes that are fundamentally different, although some shared commonalities in response to different treatments. Large increases in cysteine abundance and decreases in reduced glutathione were observed following multiple stress treatments highlighting the importance of oxidative stress as a general phenomenon in abiotic stress. Large fold increases in low-turnover amino acids and maltose demonstrate the critical role of protein and starch autolysis in early abiotic stress responses.

Original languageEnglish (US)
Article number11
JournalStress Biology
Volume2
Issue number1
DOIs
StatePublished - Dec 2022

Bibliographical note

Funding Information:
We are grateful for funding provided by the NSF Plant Genome Research Program grants IOS-1238812 and IOS-1400818 as well as support from the University of Minnesota Informatics Institute, the Minnesota Agricultural Experiment Station, and by the Gordon and Margaret Bailey Endowment for Environmental Horticulture.

Publisher Copyright:
© 2022, The Author(s).

Keywords

  • Abiotic stress
  • Arabidopsis thaliana
  • LC-HRMS
  • Metabolomics
  • Plant stress acclimation
  • Priming
  • Recovery

PubMed: MeSH publication types

  • Journal Article

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