Berta María Cánovas, Cristina García-Viguera, Sonia Medina, Raúl Domínguez-Perles
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引用次数: 0
摘要
这项工作的目的是开发一种新的发酵饮料(类似“康普茶”),富含西兰花副产品作为成分,有机硫化合物的来源,可以被生物转化为更具生物可及性、生物可利用性和生物活性的代谢物。新饮料的物理化学(pH值,3.6-6.3;酸度,0.65-1.39 g/L;°白利糖度,4.63 - -8.20)。此外,植物化学表征表明,硫代葡萄糖苷在异硫氰酸酯(萝卜硫素浓度高达31.39µg/100 mL)及其代谢衍生物(萝卜硫素- n -乙酰半胱氨酸浓度高达5.37µg/100 mL)中浸出时发生了不同程度的代谢。因此,这些结果表明,增加生物活性化合物浓度将提供更高的生物利用度和健康效益。这与抗炎活性尤其相关。报告更多增强生物效益的证据将促进新功能饮料的开发。
‘Kombucha’-like Beverage of Broccoli By-Products: A New Dietary Source of Bioactive Sulforaphane
The objective of this work is the development of a new fermented beverage (‘kombucha’-like), enriched with broccoli by-products as an ingredient, a source of organosulfur compounds, which could be biotransformed into more bioaccessible, bioavailable, and bioactive metabolites. The new beverages have shown variations in the physicochemical (pH, 3.6–6.3; acidity, 0.65–1.39 g/L; °Brix, 4.63–8.20). Moreover, the phytochemical characterization has demonstrated different degrees of metabolization of the glucosinolates, leached during the infusion of the plant material into isothiocyanates (sulforaphane in concentrations up to 31.39 µg/100 mL) and its metabolic derivatives (sulforaphane-N-acetylcysteine in concentrations up to 5.37 µg/100 mL). Therefore, these results demonstrate that the increase in the concentration of the bioactive compounds concentration would provide higher bioavailability and health benefits. This is especially relevant with regard to anti-inflammatory activity. Reporting additional proof of enhanced biological benefits will boost the development of new functional beverages.
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