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闫焕,康柱,张炎,周素珍,范金波.多光谱法结合分子对接探究4种黄酮与β-乳球蛋白的相互作用[J].食品安全质量检测学报,2024,15(13):77-88

多光谱法结合分子对接探究4种黄酮与β-乳球蛋白的相互作用

Exploration on interaction between 4 kinds of flavonoids and β-lactoglobulin by multi-spectroscopy analysis and molecular docking

投稿时间：2024-05-08 修订日期：2024-07-08

DOI：

中文关键词: 柚皮苷黄芩素白杨素漆黄素 β-乳球蛋白多光谱法

英文关键词:naringin baicalein chrysin fisetin β-lactoglobulin multi-spectroscopy

基金项目:2021教育部中外语言交流合作中心项目（21YH009CX5）

作者	单位
闫焕	1.渤海大学食品科学与工程学院, 生鲜农产品贮藏加工及安全控制技术国家地方联合工程研究中心
康柱	1.渤海大学食品科学与工程学院, 生鲜农产品贮藏加工及安全控制技术国家地方联合工程研究中心
张炎	1.渤海大学食品科学与工程学院, 生鲜农产品贮藏加工及安全控制技术国家地方联合工程研究中心
周素珍	1.渤海大学食品科学与工程学院, 生鲜农产品贮藏加工及安全控制技术国家地方联合工程研究中心
范金波	1.渤海大学食品科学与工程学院, 生鲜农产品贮藏加工及安全控制技术国家地方联合工程研究中心

Author	Institution
YAN Huan	1.College of Food Science and Technology, Bohai University, Food Safety Key Lab of Liaoning Province, National & Local Joint Engineering Research Center of Storage
KANG Zhu	1.College of Food Science and Technology, Bohai University, Food Safety Key Lab of Liaoning Province, National & Local Joint Engineering Research Center of Storage
ZHANG Yan	1.College of Food Science and Technology, Bohai University, Food Safety Key Lab of Liaoning Province, National & Local Joint Engineering Research Center of Storage
ZHOU Su-Zhen	1.College of Food Science and Technology, Bohai University, Food Safety Key Lab of Liaoning Province, National & Local Joint Engineering Research Center of Storage
FAN Jin-Bo	1.College of Food Science and Technology, Bohai University, Food Safety Key Lab of Liaoning Province, National & Local Joint Engineering Research Center of Storage

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中文摘要:

目的探究4种黄酮[柚皮苷(naringin, Nar)、黄芩素(baicalein, Bai)、白杨素(chrysin, Chr)和漆黄素(fisetin, Fis)]与β-乳球蛋白(β-lactoglobulin, β-Lg)的相互作用。方法首先采用分子对接技术模拟预测4种黄酮与β-Lg的结合位点, 再利用荧光光谱法研究4种黄酮与β-Lg的荧光猝灭作用及作用机制, 并计算相关参数, 最后通过多种光谱法分析4种黄酮对β-Lg空间构象的变化。结果分子对接结果表明Nar和Fis结合在β-Lg的疏水空腔口处, Bai与Chr与β-Lg的结合位点在β-Lg的外表面。荧光光谱结果表明, 4种黄酮对β-Lg均产生静态猝灭, 结合常数均在104~107数量级, 说明Nar/Bai/Chr/Fis均与β-Lg结合紧密且形成稳定的复合物; 热力学参数分析表明Nar/Bai/Chr/Fis与β-Lg的结合为自发进行, 其中Nar/Bai与β-Lg作用力类型是氢键和范德华力, Chr/Fis与β-Lg是疏水相互作用。同步荧光光谱、三维荧光光谱、紫外-可见光吸收光谱和傅里叶变换红外光谱结果表明, Nar/Bai/Chr/Fis与β-Lg发生相互作用后使β-Lg的空间构象发生变化。结论 4种黄酮均能与β-Lg结合, 为黄酮类化合物与生物大分子作用机制研究及对活性成分的保护和利用提供理论支持。

英文摘要:

Objective To explore the interaction between 4 kinds of flavonoids, namely naringin (Nar), baicalein (Bai), chrysin (Chr), fisetin (Fis) and β-lactoglobulin (β-Lg). Methods In this study, the binding sites of 4 different types of flavonoids and β-Lg were initially simulated and predicted using molecular docking technology. Then, the mechanism and fluorescence quenching effect of these 4 types of flavonoids and β-Lg were investigated using fluorescence spectroscopy, and the pertinent parameters were calculated. Finally, the impact of 4 kinds of flavonoids on the changes in spatial conformation of β-Lg was analyzed using synchronous fluorescence spectroscopy, three-dimensional fluorescence spectrum, ultraviolet-visible absorption spectrum, and Fourier transform infrared spectroscopy. Results The results of molecular docking showed that Nar and Fis bind at the hydrophobic cavity opening of β-Lg and the binding site of Bai with Chr to β-Lg was on the outer surface of β-Lg. The results of fluorescence spectrum indicated that all 4 flavonoids induced static quenching on β-Lg, and the binding constants were around the range of 104–107, suggesting that Nar/Bai/Chr/Fis were firmly bound to β-Lg and formed stable complexes. The investigation of thermodynamic parameters revealed that the binding between β-Lg and Nar/Bai/Chr/Fis occurred spontaneously. Additionally, the interaction between β-Lg and Nar/Bai involved hydrogen bonds and van der Waals forces, while β-Lg and Chr/Fis were bonded through hydrophobic interaction. The results of synchronous fluorescence spectroscopy, three-dimensional fluorescence spectrum, ultraviolet-visible absorption spectrum, and Fourier transform infrared spectroscopy demonstrated that the spatial conformation of β-Lg changed following the interaction between β-Lg and Nar/Bai/Chr/Fis. Conclusion The findings demonstrate that each of the 4 flavonoids has the ability to bind to β-Lg, offering theoretical backing for the investigation of the interaction between flavonoids and biological macromolecules as well as the preservation and application of active components.

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