1. Metabolic changes in cucumber leaves are enhanced by blue light but differentially affected by UV interactions with light signalling pathways in the visible spectrum
- Author
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Carolina Falcato Fialho Palma, Victor Castro-Alves, Luis Orlando Morales, Eva Rosenqvist, Carl-Otto Ottosen, Tuulia Hyötyläinen, and Åke Strid
- Subjects
Ultraviolet radiation ,LEDs ,Ultraviolet Rays ,Zeatin ,Plant Science ,Analytical Chemistry ,Analytisk kemi ,Genetics ,Amino Acids ,Indoleacetic Acids ,Botany ,Biochemistry and Molecular Biology ,food and beverages ,Botanik ,General Medicine ,Hormones ,Plant Leaves ,light quality ,metabolome ,metabolic regulation ,Cucumis sativus ,Sugars ,cucumber ,Agronomy and Crop Science ,Biokemi och molekylärbiologi - Abstract
Ultraviolet radiation (UV, 280-400 nm) as an environmental signal triggers metabolic acclimatory responses. However, how different light qualities affect UV acclimation during growth is poorly understood. Here, cucumber plants (Cucumis sativus) were grown under blue, green, red, or white light in combination with UV. Their effects on leaf metabolites were determined using untargeted metabolomics. Blue and white growth light triggered the accumulation of compounds related to primary and secondary metabolism, including amino acids, phenolics, hormones, and compounds related to sugar metabolism and the TCA cycle. In contrast, supplementary UV in a blue or white light background decreased leaf content of amino acids, phenolics, sugars, and TCA-related compounds, without affecting abscisic acid, auxin, zeatin, or jasmonic acid levels. However, in plants grown under green light, UV-induced accumulation of phenolics, hormones (auxin, zeatin, dihydrozeatin-7-N-dihydrozeatin, jasmonic acid), amino acids, sugars, and TCA cycle-related compounds. Plants grown under red light with UV mainly showed decreased sugar content. These findings highlight the importance of the blue light component for metabolite accumulation. Also, data on interactions of UV with green light on the one hand, and blue or white light on the other, further contributes to our understanding of light quality regulation of plant metabolism., Funding agency:GUDP (Danish Ministry of Food, Agriculture and Fisheries), Denmark
- Published
- 2022