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采用高效薄层色谱法对[具体物质]中多酚进行密度定量和优化。 (你提供的原文中“in by HPTLC”表述不太完整准确,推测可能是这种意思,你可根据实际情况进一步完善)

Densitometric Quantification and Optimization of Polyphenols in  by HPTLC.

作者信息

Ilyas U K, Elayadeth-Meethal Muhammed, Kuruniyan Mohamed Saheer, Quadri Syed Altafuddin, Rajasree R S, Naseef Punnoth Poonkuzhi

机构信息

Department of Pharmacognosy and Phytochemistry, Moulana College of Pharmacy, Perinthalmanna, 679321, Kerala, India.

Department of Animal Breeding and Genetics, Kerala Veterinary and Animal Sciences University, Wayanad, 673576, Kerala, India.

出版信息

Saudi J Biol Sci. 2022 Mar;29(3):1521-1529. doi: 10.1016/j.sjbs.2021.11.019. Epub 2021 Nov 22.

DOI:10.1016/j.sjbs.2021.11.019
PMID:35280567
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8913410/
Abstract

Quantifying and optimizing the polyphenol content of  was accomplished using a single-solvent HPTLC system. Analyzing hydroalcoholic extracts for kaempferol, rutin, ellagic acid, quercetin, catechin, and gallic acid, we simultaneously quantified and optimized their concentration. In the experiment, the methanol to water ratio (%), temperature (°C), and time of extraction (min) were all optimized using a Box-Behnken statistical design. Kaempferol, rutin, ellagic acid, quercetin, catechin, and gallic acid were among the dependent variables analyzed. In the HPTLC separation, silica gel 60F254 plates were used, and toluene, ethyl acetate, and formic acid (5:4:1) made up the mobile phase. For kaempferol, rutin, ellagic acid, quercetin, catechin, and gallic acid, densitometric measurements were carried out using the absorbance mode at 254 nm. Hydroalcoholic extract of  contains rutin (0.344), catechin (2.62), gallic acid (0.93), ellagic acid (0.172), quercetin (0.0108) and kaempferol (0.06). Further, it may be affected by more than one factor at a time, resulting in a varying degree of reaction. A negative correlation was found between X1 (extraction time (min)) and X2 (temperature), as well as X1 and X3 (solvent ratios). Taking these characteristics into consideration, the method outlined here is a validated HPTLC method for measuring kaempferol, rutin, ellagic acid, quercetin, catechin, and gallic acid.

摘要

使用单溶剂高效薄层色谱(HPTLC)系统对[具体物质]的多酚含量进行了定量和优化。通过分析水醇提取物中的山奈酚、芦丁、鞣花酸、槲皮素、儿茶素和没食子酸,我们同时对它们的浓度进行了定量和优化。在实验中,使用Box-Behnken统计设计对甲醇与水的比例(%)、温度(℃)和提取时间(分钟)进行了优化。山奈酚、芦丁、鞣花酸、槲皮素、儿茶素和没食子酸是所分析的因变量。在HPTLC分离中,使用了硅胶60F254板,流动相由甲苯、乙酸乙酯和甲酸(5:4:1)组成。对于山奈酚、芦丁、鞣花酸、槲皮素、儿茶素和没食子酸,在254nm波长下采用吸光度模式进行光密度测定。[具体物质]的水醇提取物含有芦丁(0.344)、儿茶素(2.62)、没食子酸(0.93)、鞣花酸(0.172)、槲皮素(0.0108)和山奈酚(0.06)。此外,它可能同时受到多个因素的影响,导致不同程度的反应。发现X1(提取时间(分钟))与X2(温度)以及X1与X3(溶剂比例)之间存在负相关。考虑到这些特性,本文所述方法是一种经过验证的用于测定山奈酚、芦丁、鞣花酸、槲皮素、儿茶素和没食子酸的HPTLC方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/4f9ead525da7/gr3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/9e0ad7b71ce0/gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/4bd68c4adaba/gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/4f9ead525da7/gr3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/9e0ad7b71ce0/gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/4bd68c4adaba/gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7966/8913410/4f9ead525da7/gr3.jpg

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