Influence of in situ 20 ± 2/28 ± 2 kHz dual-frequency ultrasonication on enzymolysis kinetics, thermodynamics and antioxidant activity of housefly (Musca Domestica) larvae protein hydrolysate
Han Chen, Fan Yang, Zhuofan He, Liurong Huang, Yiming Zhao, Chunhua Dai, Ronghai He, Haile Ma

TL;DR
Using dual-frequency ultrasound improves the breakdown of housefly larvae protein and enhances its antioxidant properties.
Contribution
In situ dual-frequency ultrasound is shown to significantly enhance enzymatic hydrolysis and antioxidant activity of housefly larvae protein.
Findings
Ultrasound treatment increased the reaction rate constant by 82.67% and reduced the Michaelis constant by 13.54%.
Thermodynamic parameters like activation energy and enthalpy decreased significantly, while Gibbs free energy remained unchanged.
Hydrolysate from ultrasound-treated protein showed improved in vitro and in vivo antioxidant activity.
Abstract
•Employ in-situ dual-frequency ultrasound to accelerate enzymolysis of Housefly larvae protein.•The reaction rate constant (k) increased by 82.67 %, Michaelis constant (Km) reduced by 13.54 %.•Ea, ΔH and ΔS decreased but ΔG didn’t vary, ascribing to Enthalpy-Entropy Compensation Effect.•IC50 of HLPUH on DPPH, •OH and O2•− decreased from 3.02, 4.11 and 5.25 mg/mL to 2.64, 3.47 and 4.68 mg/mL.•HLPUH exhibited better in vivo antioxidant protective effects on HepG2 cells. Employ in-situ dual-frequency ultrasound to accelerate enzymolysis of Housefly larvae protein. The reaction rate constant (k) increased by 82.67 %, Michaelis constant (Km) reduced by 13.54 %. Ea, ΔH and ΔS decreased but ΔG didn’t vary, ascribing to Enthalpy-Entropy Compensation Effect. IC50 of HLPUH on DPPH, •OH and O2•− decreased from 3.02, 4.11 and 5.25 mg/mL to 2.64, 3.47 and 4.68 mg/mL. HLPUH exhibited better in…
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Taxonomy
TopicsProtein Hydrolysis and Bioactive Peptides · Insect Utilization and Effects · Food Industry and Aquatic Biology
