Metabolic Profiling of γ-Irradiated Barley Plants Identifies Reallocation of Nitrogen Metabolism and Metabolic Stress Response

Metabolic Profiling of γ-Irradiated Barley Plants Identifies Reallocation of Nitrogen Metabolism and Metabolic Stress Response

The favorable responses of crop species to low-dose γ irradiation can help to develop cultivars with increased productivity and improved stress tolerance. In the present study, we tried to reveal the candidate metabolites involved in growth stimulation of barley seedlings after applying low-dose γ-r...

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Bibliographic Details
Published in:Dose-response Vol. 18; no. 1; p. 1559325820914186
Main Authors: Volkova, Polina Yu, Clement, G., Makarenko, E. S., Kazakova, E. A., Bitarishvili, S. V., Lychenkova, M. A.
Format: Journal Article
Language:English
Published: Los Angeles, CA SAGE Publications 01-01-2020
SAGE PUBLICATIONS, INC
SAGE Publishing
Subjects:
Barley
Hormesis
Life Sciences
Metabolism
Metabolites
Original
Pharmaceutical sciences
GC-MS
growth stimulation
barley
metabolomics
radiation hormesis
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Summary:The favorable responses of crop species to low-dose γ irradiation can help to develop cultivars with increased productivity and improved stress tolerance. In the present study, we tried to reveal the candidate metabolites involved in growth stimulation of barley seedlings after applying low-dose γ-radiation (60Co) to seeds. Stimulating doses (5-20 Gy) provided a significant increase in shoot length and biomass, while relatively high dose of 100 Gy led to significant inhibition of growth. Gas chromatography–mass spectrometry metabolomic analysis uncovered several compounds that may take part in radiation hormesis establishment in irradiated plants. This includes molecules involved in nitrogen redistribution (arginine, glutamine, asparagine, and γ-aminobutyric acid) and stress-responsive metabolites, such as ascorbate, myo-inositol and its derivates, and free amino acids (l-serine, β-alanine, pipecolate, and GABA). These results contribute to the understanding of the molecular mechanisms of hormesis phenomenon.
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PMCID: PMC7113487
ISSN:1559-3258
1559-3258
DOI:10.1177/1559325820914186