Flavonoids widely found in natural foods are excellent free radical scavengers. The relationship between the substituent and antioxidative activity of flavonoids has not yet been completely elucidated. In this work, the antioxidative activity of apigenin derivatives with different substituents at the C3 position was determined by density functional theory (DFT) calculations. The bond dissociation enthalpy (BDE), ionization potential (IP), and proton affinity (PA) were calculated. Donator acceptor map (DAM) analysis illustrated that the studied compounds are worse electron acceptors than F and also are not better electron donors than Na. The strongest antioxidative group of apigenin derivatives was the same as apigenin. Excellent correlations were found between the BDE/IP/PA and Hammett sigma constants. Therefore, Hammett sigma constants can be used to predict the antioxidative activity of substituted apigenin and to design new antioxidants based on flavonoids. In non-polar phases, the antioxidative activity of apigenin was increased by the electron-withdrawing groups, while it was reduced by the electron-donating groups. Contrary results occurred in the polar phase. The electronic effect of the substituents on BDE(4′-OH), BDE(5-OH), PA(4′-OH), and IP is mainly controlled by the resonance effect, while that on BDE(7-OH), PA(5-OH), and PA(7-OH) is governed by the field/inductive effect.
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机译:在天然食品中广泛发现的类黄酮是出色的自由基清除剂。黄酮类化合物的取代基和抗氧化活性之间的关系尚未完全阐明。在这项工作中,通过密度泛函理论(DFT)计算确定了在C3位具有不同取代基的芹菜素衍生物的抗氧化活性。计算了键离解焓(BDE),电离电势(IP)和质子亲和力(PA)。供体受体图(DAM)分析表明,所研究的化合物比F是更差的电子受体,也不是比Na更好的电子供体。芹菜素衍生物的最强抗氧化基团与芹菜素相同。在BDE / IP / PA和Hammett sigma常数之间发现极好的相关性。因此,Hammett sigma常数可用于预测取代的芹菜素的抗氧化活性并设计基于类黄酮的新抗氧化剂。在非极性相中,芹菜素的抗氧化活性通过吸电子基团增加,而通过供电子基团降低。相反的结果发生在极性阶段。取代基对BDE(4'-OH),BDE(5-OH),PA(4'-OH)和IP的电子效应主要受共振效应控制,而对BDE(7-OH)的电子效应, PA(5-OH)和PA(7-OH)受场/感应效应支配。
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