Conceptual functional-by-design optimisation of the antioxidant capacity of trans-resveratrol, quercetin, and chlorogenic acid: application in a functional tea
Designing functional foods as delivery systems may become a tailored strategy to decrease the risk of non-communicable diseases. Therefore, this work aims to optimise a combination of t-resveratrol (RES), chlorogenic acid (CHA), and quercetin (QUE) based on antioxidant assays and develop a functional tea formulation enriched with the optimal polyphenol combination (OPM). Experimental results showed that the antioxidant capacity of these compounds is assay- and compound-dependent. A mixture containing 73% RES and 27% QUE maximised the hydroxyl radical scavenging activity and FRAP. OPM upregulated the gene expressions of heme oxygenase-1, superoxide dismutase, and catalase and decreased the reactive oxygen species generation in L929 fibroblasts. Adding OPM (100 mg/L) to a chamomile tea increased FRAP:39%, DPPH:59%; total phenolic content: 57%, iron reducing capacity: 41%, human plasma protection against oxidation: 67%. However, pasteurisation (63 ◦C/30 min) decreased only the DPPH. Combining technology, engineering, and cell biology was effective for functional tea design.
History
Publication
Food Chemistry 428, 136764Publisher
ElsevierOther Funding information
Shandong Province Modern Agricultural Technology System (SDAIT-24-05), Taishan scholars (NO. tsqn202211172) to Hongzhuan Xuan. The authors thank the Faculty of Science and Engineering and the Department of Biological Science from the University of LimerickSustainable development goals
- (12) Responsible Consumption and Production
External identifier
Department or School
- Biological Sciences