从苦艾蒿中分离出 Arborescin,并采用体外和硅学方法研究其抗氧化和抗菌潜力

IF 2.5 4区 工程技术 Q3 CHEMISTRY, ANALYTICAL Separations Pub Date : 2024-07-05 DOI:10.3390/separations11070209
Asmae Hbika, Amine Elbouzidi, Mohamed Taibi, Safae Ouahabi, E. Loukili, A. Bouyanzer, Meryem Idrissi Yahyaoui, A. Asehraou, Naoufal El Hachlafi, A. M. Salamatullah, Mohammed Bourhia, Samir Ibenmoussa, M. Addi, Elkhadir Gharibi
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引用次数: 0

摘要

本研究的重点是开发一种创新、直接和经济的方法,利用一种容易获得的混合溶剂从苦艾蒿(Atemisia absinthium L.)中提取旱金莲甙(C2OH2OO8)晶体。利用红外光谱、CNHSO 元素分析、扫描电子显微镜和能量色散 X 射线光谱(SEM-EDS)以及质谱(MS)等一系列技术进行了结构阐释和表征。密度泛函理论(DFT)计算用于确定分子特性。使用 DPPH 自由基清除试验和 β-胡萝卜素漂白试验测量了抗氧化活性。对四种细菌菌株和三种真菌菌株的抗菌效果进行了评估。采用分子对接方法预测了旱莲草苷与特定目标生物大分子的可能结合模式和亲和力。利用一系列分析技术,对从苦艾素中分离出的晶体进行了检查,从而对其结构进行了全面的阐释。红外光谱分析发现了独特的官能团,包括γ-内酯中的一个羰基和一个环氧基。CNHSO 元素分析证实该晶体只含有碳、氢和氧,这一发现得到了 SEM-EDS 分析的证实,与 arborescin 的分子结构一致。此外,质谱分析证实了该化合物的身份,其分子离子的质量为 m/z = 248。量子化学描述符显示,在标准条件下,旱莲草苷不易发生基本分解。虽然假叶苷的抗氧化能力相对较低,在 DPPH 试验中的 IC50 为 5.04 ± 0.12 mg/mL,但其在β-胡萝卜素漂白试验中的抗氧化活性为 3.64%。值得注意的是,矮壮素在低浓度(MIC = 166 µg/mL)下可有效抑制金黄色葡萄球菌和无毒李斯特菌的生长。此外,它还对白色念珠菌具有显著的抗真菌活性,最低抑制浓度(MIC)和最低杀菌浓度(MFC)分别为 83 µg/mL 和 166 µg/mL。在这项研究中, arborescin 的对接得分高达 -8.1 kcal/mol,表明其亲和力高于环丙沙星。这表明旱莲草甙作为一种强效抗菌剂具有巨大的潜力。
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Isolation of Arborescin from Artemisia absinthium L. and Study of Its Antioxidant and Antimicrobial Potential by Use of In Vitro and In Silico Approaches
This study focused on developing an innovative, straightforward, and economical method utilizing a mixture of readily available solvents to extract arborescin (C2OH2OO8) crystals from Artemisia absinthium L. (A. absinthium). The structural elucidation and characterization were conducted using a suite of techniques including IR spectroscopy, CNHSO elemental analysis, scanning electron microscopy and energy dispersive X-ray spectroscopy (SEM-EDS), and mass spectroscopy (MS). Density functional theory (DFT) calculations were employed to determine the molecular properties. Antioxidant activity was measured using the DPPH radical scavenging assay and the β-carotene bleaching test. Antimicrobial efficacy was assessed against four bacterial strains and three fungal strains. The molecular docking approach was employed to predict the probable binding patterns and affinities of arborescin with specific target biomolecules. Employing an array of analytical techniques, examination of the isolated crystal from A. absinthium. led to its comprehensive structural elucidation. IR spectroscopy revealed the presence of distinctive functional groups, including a carbonyl group within the γ-lactone and an epoxy group. CNHSO elemental analysis verified that the crystal contained only carbon, hydrogen, and oxygen, a finding corroborated by SEM-EDS analysis, consistent with the molecular structure of arborescin. Additionally, mass spectrometry confirmed the identity of the compound as arborescin, with a molecular ion with a mass m/z = 248. Quantum-Chemical Descriptors revealed that arborescin is resistant to elementary decomposition under standard conditions. Although arborescin demonstrates a relatively low antioxidant capacity, with an IC50 of 5.04 ± 0.12 mg/mL in the DPPH assay, its antioxidant activity in the β-carotene bleaching test was found to be 3.64%. Remarkably, arborescin effectively inhibits the growth of Staphylococcus aureus and Listeria innocua at low concentrations (MIC = 166 µg/mL). Additionally, it exhibits significant antifungal activity against Candida glabrata, with a minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) of 83 µg/mL and 166 µg/mL, respectively. In this study, arborescin exhibited a robust docking score of −8.1 kcal/mol, indicating a higher affinity compared to ciprofloxacin. This suggests that arborescin has significant potential as a potent antibacterial agent.
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来源期刊
Separations
Separations Chemistry-Analytical Chemistry
CiteScore
3.00
自引率
15.40%
发文量
342
审稿时长
12 weeks
期刊介绍: Separations (formerly Chromatography, ISSN 2227-9075, CODEN: CHROBV) provides an advanced forum for separation and purification science and technology in all areas of chemical, biological and physical science. It publishes reviews, regular research papers and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. There are, in addition, unique features of this journal: Manuscripts regarding research proposals and research ideas will be particularly welcomed. Electronic files and software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. Manuscripts concerning summaries and surveys on research cooperation and projects (that are funded by national governments) to give information for a broad field of users. The scope of the journal includes but is not limited to: Theory and methodology (theory of separation methods, sample preparation, instrumental and column developments, new separation methodologies, etc.) Equipment and techniques, novel hyphenated analytical solutions (significantly extended by their combination with spectroscopic methods and in particular, mass spectrometry) Novel analysis approaches and applications to solve analytical challenges which utilize chromatographic separations as a key step in the overall solution Computational modelling of separations for the purpose of fundamental understanding and/or chromatographic optimization
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