将胆酸钠修饰的 MOF 混合脂肪酶和疏水性候选物质的增溶整合到一个步骤中，以配位捕捞来自 Nelumbinis Folium 的脂肪酶抑制剂

IF 3.1 3区医学 Q2 CHEMISTRY, ANALYTICAL

Journal of pharmaceutical and biomedical analysis Pub Date : 2024-08-27 DOI:10.1016/j.jpba.2024.116430

Wenxiang Hu , Jiayun Li , Xindan Zhang , Yangbin Lv , Hongwei Ye , Chenyue Li , Ehu Liu , Chu Chu

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引用次数: 0

摘要

用金属有机框架（MOFs）固定酶是筛选天然产品中活性成分的有效方法。然而，酶的生物催化活性通常会因固定过程中不利的构象变化而降低。本研究首先使用胆酸钠作为沸石咪唑框架-8（ZIF-8）固定化脂肪酶的改性剂，以提高其稳定性和活性。更重要的是，借助胆酸钠的增溶作用，共发现了 3 个黄酮类和 6 个生物碱类候选化合物。确定了它们的结构，并验证了它们的酶抑制活性。此外，还通过分子对接显示了候选化合物与酶的结合信息。这项研究为提高固定化酶活性和复杂药用植物提取物中的功能活性成分提供了宝贵的信息。

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Integrating sodium cholate-modified MOF hybrid lipase and solubilization of hydrophobic candidates into a step for liganding fishing lipase inhibitors from Nelumbinis Folium

Enzyme immobilization by metal organic frameworks (MOFs) is an efficient way for screening active constituents in natural products. However, the enzyme’s biocatalysis activity is usually decreased due to unfavorable conformational changes during the immobilization process. In this study, sodium cholate was firstly used as the modifier for zeolitic imidazolate framework-8 (ZIF-8) immobilized lipase to increase both the stability and activity. More importantly, with the help of solubilization of sodium cholate, a total of 3 flavonoids and 6 alkaloids candidate compounds were fished out. Their structures were identified and the enzyme inhibitory activities were verified. In addition, the binding information between the candidate compound and the enzyme was displayed by molecular docking. This study provides valuable information for the improvement of immobilized enzyme activity and functional active ingredients in complicated medicinal plant extracts.

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来源期刊

Journal of pharmaceutical and biomedical analysis 医学-分析化学

CiteScore

6.70

自引率

5.90%

发文量

588

审稿时长

37 days

期刊介绍： This journal is an international medium directed towards the needs of academic, clinical, government and industrial analysis by publishing original research reports and critical reviews on pharmaceutical and biomedical analysis. It covers the interdisciplinary aspects of analysis in the pharmaceutical, biomedical and clinical sciences, including developments in analytical methodology, instrumentation, computation and interpretation. Submissions on novel applications focusing on drug purity and stability studies, pharmacokinetics, therapeutic monitoring, metabolic profiling; drug-related aspects of analytical biochemistry and forensic toxicology; quality assurance in the pharmaceutical industry are also welcome. Studies from areas of well established and poorly selective methods, such as UV-VIS spectrophotometry (including derivative and multi-wavelength measurements), basic electroanalytical (potentiometric, polarographic and voltammetric) methods, fluorimetry, flow-injection analysis, etc. are accepted for publication in exceptional cases only, if a unique and substantial advantage over presently known systems is demonstrated. The same applies to the assay of simple drug formulations by any kind of methods and the determination of drugs in biological samples based merely on spiked samples. Drug purity/stability studies should contain information on the structure elucidation of the impurities/degradants.