应用高浓度(Na2CO3)和低浓度(NaCl)化学计量学优化水基两相萃取鸢尾中的生物活性化合物

IF 3 Q2 CHEMISTRY, ANALYTICAL
Rangani Tracy Lukheli, Nikita Tawanda Tavengwa, Tebogo Mphatlalala Mokgehle
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引用次数: 0

摘要

肠内酯、香豆酸和牡荆素是存在于各种水果、蔬菜、谷物和植物中的多酚化合物。这些生物活性化合物在各种组织和器官中具有抗氧化性,因此需求量很大。本研究的目的是开发一种同步萃取方法,即水相两相萃取法(ATPE),以便从鸢尾属植物中萃取这些化合物。这种环保型萃取方法只使用水和乙醇作为萃取溶剂,从植物基质中提取这些分析物。相分离后,借助混浊剂(NaCl)或高浓度混浊剂(Na2CO3)将分析物从水相盐析到有机相。然后,用微量移液管吸取分析物,在高效液相色谱-光电二极管阵列检测器上进行分析。采用中心复合设计法进行了优化,考察了乙醇百分比、离心时间和盐类型这三个参数。一般来说,优化的萃取条件是乙醇百分比为 100%,离心时间为 10 分钟,在有高渗剂存在的情况下,肠内酯、牡荆素和香豆酸的浓度分别为 2942、23823 和 8881 毫克/千克-1。在混悬剂存在的情况下,最佳提取条件是乙醇比例为 66%,离心时间为 10 分钟,肠内酯、牡荆素和香豆酸的浓度分别为 6727、20833 和 8618 毫克/千克。与使用氯化钠相比,使用 Na2CO3 的 ATPE 方法对所有研究化合物的萃取效果更好。Na2CO3 在 ATPE 中的卓越萃取能力可作为开发高效萃取方法的原型,以满足从天然产品中提取药用化合物的高需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Application of a kosmotrope (Na2CO3) and chaotrope (NaCl) in chemometric optimization of aqueous two-phase extraction of bioactive compounds in Hypoxis iridifolia

Application of a kosmotrope (Na2CO3) and chaotrope (NaCl) in chemometric optimization of aqueous two-phase extraction of bioactive compounds in Hypoxis iridifolia

Enterolactone, coumaric acid and vitexin are polyphenolic compounds present in a variety of fruits, vegetables, cereals and plants. These bioactive compounds are in high demand due to their antioxidant property in various tissues and organs. The purpose of this study was to develop a simultaneous extraction method, an aqueous two-phase extraction (ATPE) method, that would enable the extraction of these compounds from Hypoxis iridifolia. This environmentally friendly extraction method only applied water and ethanol as extraction solvents for these analytes from the plant matrix. After phase separation, the analytes were salted-out from the aqueous phase into the organic phase with the aid of a chaotrope (NaCl) or kosmotrope (Na2CO3). Thereafter, the analytes were withdrawn by a micro-pipette for analysis on the high-performance liquid chromatography–photodiode array detector. Optimization was conducted using a central composite design, where three parameters were examined which involved percentage ethanol, centrifugation time and salt type. Generally, the optimized conditions for extraction were an ethanol percentage of 100% and a centrifugation time of 10 min, which yielded concentrations of 2942, 23,823 and 8881 mg kg−1 for enterolactone, vitexin and coumaric acid, respectively, in the presence of a kosmotrope. The optimized conditions of extraction in the presence of chaotrope were an ethanol percentage of 66% and a centrifugation time of 10 min with concentrations of 6727, 20,833 and 8618 mg kg−1 for enterolactone, vitexin and coumaric acid, respectively. The ATPE method involving Na2CO3 was a better extractant of all the compounds studied relative to that of NaCl. The superior extraction capability of Na2CO3 in ATPE could serve as a prototype for the development of efficient extraction methods to meet the high demand for medicinal compounds derived from natural products.

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