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Periodical UV-B radiation hormesis in biosynthesis of kale sprouts nutraceuticals

Noelia Castillejo, Lorena Martínez‐Zamora, Francisco Artés‐Hernández

2021Plant Physiology and Biochemistry40 citationsDOIOpen Access PDF

Abstract

The objective of the present study was to evaluate the periodical UV-B radiation hormesis during kale seeds germination in their main content of secondary metabolite compounds (phenols; glucosinolates; total antioxidant capacity –TAC–) and their changes during a refrigerated shelf-life. The total UV-B doses received were 0, 5, 10, and 15 kJ m−2 (CTRL, UVB5, UVB10, and UVB15) in where the 25% was applied on the 3rd, 5th, 7th, and 10th sprouting day. UV radiation did not affect the morphological development of the sprouts. UVB10 and UVB15 treatments increased their phenolic content (>30%). Likewise, TAC was increased by UV-B lighting ~10% (DPPH) and ~20% (FRAP). The hydroxycinnamic acid content in UVB15-treated sprouts increased by 52%, while UVB5 reported an increase of 34% in the kaempferol-3,7-di-O-glucoside concentration, compared to CTRL. After 10 d at 4 °C of shelf-life, content of gallic acid hexoside I and gallic acid increased by 55 and 78% compared to UV-untreated kale sprouts, respectively. Glucoraphanin was the main glucosinolate found in kale sprouts and seeds, followed by 4-hydroxy-glucobrassicin, whose biosynthesis was enhanced by UVB10 (~24 and ~27%) and UVB15 (~36 and ~30%), respectively, compared to CTRL. In conclusion, periodical low UV-B illumination represents a useful tool to stimulate phytochemicals biosynthesis in kale sprouts as an important source of bioactive compounds with potential health benefits.

Topics & Concepts

Gallic acidFood scienceChemistryPreharvestNutraceuticalHormesisBiosynthesisDPPHGlucosinolatePhenolsAntioxidantPolyphenolKaempferolHydroxycinnamic acidCarotenoidBotanyFlavonoidBiochemistryBiologyOxidative stressBrassicaEnzymePostharvestLight effects on plantsGenomics, phytochemicals, and oxidative stressPhytochemicals and Antioxidant Activities