Investigation of the binding interactions mechanism between zein with chrysin by multispectroscopic techniques

IF 2.3 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Molecular Recognition Pub Date : 2023-07-16 DOI:10.1002/jmr.3046

Xue Gao, Ruiquan Qi, Ye Cheng, Junliang Chen, Yin He, Yitong Mao, Xiangyu Cao

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引用次数: 0

Abstract

As a natural carrier protein, zein was intensively studied for the construction of a flavonoid delivery system. Chrysin has presented superior tumor-resistant, anti-inflammatory, and anti-oxidation potentials among the flavonoid candidates in clinical practice. However, due to inadequate research, the binding mechanism and structural affinity of zein to chrysin are still indeterminate. Therefore, multispectral methods were employed to explore the molecular interaction of zein and chrysin in this work. These techniques showed that chrysin reduced the intrinsic fluorescence of zein via a static process and that the interaction between zein and chrysin was mainly driven spontaneously by hydrophobic forces. Additionally, the experimental results revealed the changed microenvironment in the vicinity of tyrosine and affected secondary structure in the presence of chrysin, indicating zein's conformation were altered by chrysin. This work provided comprehensive insight into the combination of plant-derived protein (zein) and flavonoids (chrysin) and helped rationalize the protection, transportation, and release of chrysin through a zein-based delivery system.

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用多光谱技术研究玉米蛋白与菊花素的结合作用机理

玉米蛋白作为一种天然载体蛋白，被广泛研究用于构建类黄酮传递体系。在临床实践中，黄菊花素在类黄酮候选物中表现出优异的抗肿瘤、抗炎和抗氧化能力。然而，由于研究不足，玉米蛋白与菊花素的结合机制和结构亲和力仍不确定。因此，本研究采用多光谱方法对玉米蛋白和菊花素的分子相互作用进行了研究。这些技术表明，菊花素通过静态过程降低玉米蛋白的固有荧光，玉米蛋白与菊花素的相互作用主要是由疏水力自发驱动的。此外，实验结果显示，在酪氨酸存在的情况下，玉米蛋白的微环境发生了变化，二级结构受到影响，表明大豆蛋白的构象被大豆蛋白改变。本研究对植物源性蛋白(玉米蛋白)和黄酮类化合物(菊花素)的结合提供了全面的认识，并有助于通过基于玉米蛋白的传递系统合理地保护、运输和释放菊花素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Molecular Recognition 生物-生化与分子生物学

CiteScore

4.60

自引率

3.70%

发文量

审稿时长

2.7 months

期刊介绍： Journal of Molecular Recognition (JMR) publishes original research papers and reviews describing substantial advances in our understanding of molecular recognition phenomena in life sciences, covering all aspects from biochemistry, molecular biology, medicine, and biophysics. The research may employ experimental, theoretical and/or computational approaches. The focus of the journal is on recognition phenomena involving biomolecules and their biological / biochemical partners rather than on the recognition of metal ions or inorganic compounds. Molecular recognition involves non-covalent specific interactions between two or more biological molecules, molecular aggregates, cellular modules or organelles, as exemplified by receptor-ligand, antigen-antibody, nucleic acid-protein, sugar-lectin, to mention just a few of the possible interactions. The journal invites manuscripts that aim to achieve a complete description of molecular recognition mechanisms between well-characterized biomolecules in terms of structure, dynamics and biological activity. Such studies may help the future development of new drugs and vaccines, although the experimental testing of new drugs and vaccines falls outside the scope of the journal. Manuscripts that describe the application of standard approaches and techniques to design or model new molecular entities or to describe interactions between biomolecules, but do not provide new insights into molecular recognition processes will not be considered. Similarly, manuscripts involving biomolecules uncharacterized at the sequence level (e.g. calf thymus DNA) will not be considered.