期刊
LWT-FOOD SCIENCE AND TECHNOLOGY
卷 165, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.lwt.2022.113707
关键词
Rosa roxburghii Tratt; beta-Glucosidase; Quercetin glycoside; Binding mechanism
资金
- National Natural Science Foundation of China [32160532, 31860446]
This study investigated the interaction mechanisms among rutin, isoquercitrin, and beta-glucosidase, shedding light on how rutin and isoquercitrin quench the intrinsic fluorescence of beta-glucosidase through complex formation. The study highlighted the importance of substituted groups on the binding of quercetin glycoside compounds to beta-glucosidase, providing insights for the design of natural flavonoid-protein complex functional foods.
Understanding the molecular mechanisms underlying protein-flavonoid interactions is crucial for the application of protein-flavonoid complexes in food. The purpose of this study was to explore the factors that influence the efficient release of rutin (Rut) and isoquercitrin (Iso) from Lactobacillus acidophilus beta-glucosidase (BGL) and the interaction mechanism among rutin, isoquercitrin and beta-glucosidase. Spectroscopic analysis, atomic force microscopy and molecular docking studies showed that Rut or Iso quenched the intrinsic fluorescence of beta-glucosidase in a static manner through the formation of a flavonoid-beta-glucosidase complex. Atomic force microscopy and circular dichroism measurements confirmed that the conformation of beta-glucosidase changed slightly. Molecular docking further proved that the interaction force of Rut or Iso with beta-glucosidase was hydrogen bonding, hydrophobic interactions and electrostatic interactions, and the binding free energies of the interactions were -180.54 kcal mol(-1) and -119.35 kcal mol(-1), respectively. Substituted groups on the glycosylation of quercetin glycoside compounds are crucial for their binding to beta-glucosidase. This study provides a theoretical basis for the design of natural flavonoid-protein complex functional foods.
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