Antioxidant properties and efficient enzymatic synthesis of lipophilic resveratrol monolaurates

Resveratrol (RES) is a natural non-flavonoid polyphenolic antioxidant. The low solubility of RES in water (26 mg/L) and oil (175.51 mg/kg) limited its antioxidant activity and bioavailability. In order to overcome these issues, in this work, a lipophilic resveratrol laurate was efficiently synthesiz...

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Bibliographic Details
Published in:Food bioscience 2024-12, Vol.62, p.105449, Article 105449
Main Authors: Li, Dami, Zhang, Yaoyao, Qiao, Xing, Ijaz, Hira, Sun, Shangde
Format: Article
Language:English
Subjects:
Antioxidant
Catalytic mechanisim
Enzymatic acylation
Lipophilicity
Resveratrol monolaurates
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Summary:Resveratrol (RES) is a natural non-flavonoid polyphenolic antioxidant. The low solubility of RES in water (26 mg/L) and oil (175.51 mg/kg) limited its antioxidant activity and bioavailability. In order to overcome these issues, in this work, a lipophilic resveratrol laurate was efficiently synthesized using RES as starting material in the presence of enzymes. The catalytic activities of enzymes (Lipase CALA, Lipozyme TL 100L, Lipase CALB, Novozym 435, Lipozyme TLIM, and Lipozyme RMIM) were investigated and screened. Moreover, reaction conditions were optimized using response surface methodology. Meanwhile, thermodynamic and kinetic analyses were also conducted to investigate the enzymatic mechanism. Results showed that, Lipozyme RMIM showed the best performance for resveratrol monolaurates regioselective synthesis. Two products, 3-resveratrol monolaurate (3-RC12) and 4′-RC12, were prepared and purified. The optimal reaction conditions for the preparation of 3-RC12, and 4′-RC12 were 1:65 substrate ratio and 11.7 wt% lipase dosage at 75 °C for 33.2 h. Under these conditions, the RES conversion reached a maximum of 98.04 ± 1.76%. The regioselective products were analyzed for antioxidant activity. Notably, the esterification site significantly impacts resveratrol monoesters' antioxidant activity. And 3-RC12 demonstrates superior ABTS and DPPH radical cation scavenging activity, surpassing RES and 4′-RC12. Notably, in yield and antioxidant activity, 3-RC12 is better than 4′-RC12, which make it a potential antioxidant for industrial application. [Display omitted] •Modification successfully enhanced RES's lipophilicity and antioxidant properties.•Two RC12 (3-RC12 and 4′-RC12) were selectively prepared using lipozyme RMIM.•The maximum RES conversion was 98.04 ± 1.76% under optimal conditions.•The activation energy of RES conversion was 12.80 kJ/mol.•3-RC12 surpassed 4′-RC12 in both yield and antioxidant activity.
ISSN:2212-4292
DOI:10.1016/j.fbio.2024.105449