Bioactive's Characterization, Biological Activities, and In Silico Studies of Red Onion (Allium cepa L.) Skin Extracts.
Florina StoicaIuliana AproduElena EnachiNicoleta StănciucNina Nicoleta ConduracheDenisa Eglantina DuțăGabriela-Elena BahrimGabriela RapeanuPublished in: Plants (Basel, Switzerland) (2021)
This study aimed to investigate the thermal stability and biological activities of the phytochemicals from the red onion skins extract, which are a rich source of anthocyanins. Eight anthocyanins were identified in the extract by high-performance liquid chromatography, the most abundant ones being cyanidin 3-O-laminaribioside and cyanidin 3-O-(6″-malonoyl-laminaribioside). The study also involved the assessment of the thermal degradation kinetics of anthocyanins and antioxidant activity in the 75-155 °C temperature range. The thermal degradation kinetics was described using the first-order kinetics model. In terms of thermal stability, increasing the temperature resulted in lower half-life values (t1/2) and higher degradation rate constant values (k) for both anthocyanins and antioxidant activity. The thermodynamic parameters revealed that the phytochemicals' degradation is a non-spontaneous and endothermic reaction. Furthermore, the inhibitory effect of the extract was investigated against the enzymes affiliated with metabolic syndrome, oxidative stress, and inflammatory process diseases. Thus, we also demonstrated that the red onion skins extract exerted inhibitory activity on α-glucosidase, α-amylase, lipase, and lipoxygenase. Considering the high content of bioactives and various biological properties, the red onion skins extract is suitable for multiple applications.
Keyphrases
- oxidative stress
- metabolic syndrome
- high performance liquid chromatography
- anti inflammatory
- diabetic rats
- molecular docking
- aqueous solution
- tandem mass spectrometry
- mass spectrometry
- insulin resistance
- type diabetes
- signaling pathway
- high resolution
- solid phase extraction
- uric acid
- skeletal muscle
- single cell
- ms ms