采用酸水解和反相高效液相色谱法测定甘草中的黄酮类化合物，并评价栽培甘草的化学质量。

Determination of flavonoids in licorice using acid hydrolysis and reversed-phase HPLC and evaluation of the chemical quality of cultivated licorice.

机构信息

Osaka University of Pharmaceutical Sciences, Nasahara, Takatsuki, 569-1094 Osaka, Japan.

出版信息

Planta Med. 2010 May;76(7):729-33. doi: 10.1055/s-0029-1240690. Epub 2009 Dec 14.

PMID:20013636

Abstract

Licorice contains flavonoids and triterpenoids as the major bioactive components. Most of the flavonoids are the glycosidic form of liquiritigenin (LIQ), isoliquiritigenin (ISO) and formononetin (FOR). A reversed-phase HPLC method for the quantification of LIQ, ISO and FOR in licorice was developed. This method does not measure each glycoside but measures the aglycones using acid hydrolysis. All calibration curves showed good linear regression (r > 0.9998). The method showed good precision for intraday (RSD < 2.14 %) and interday (RSD < 0.51 %) assays. The limit of detection was 0.031 microg for LIQ, 0.011 microg for ISO and 0.006 microg for FOR. The limit of quantification was 0.31 microg for LIQ, 0.11 microg for ISO and 0.06 microg for FOR. The flavonoid contents along with the glycyrrhizin content of cultivated licorice from seedling plants in Japan and commercial wild licorice were investigated. This new method could be extremely useful for evaluating the quality of licorice.

摘要

甘草含有黄酮类和三萜类化合物作为主要的生物活性成分。大多数黄酮类化合物是以甘草素 (LIQ)、异甘草素 (ISO) 和芒柄花素 (FOR) 的糖苷形式存在的。建立了一种反相高效液相色谱法用于甘草中 LIQ、ISO 和 FOR 的定量分析。该方法不测量每种糖苷，而是使用酸水解测量苷元。所有校准曲线均显示出良好的线性回归（r > 0.9998）。该方法日内（RSD < 2.14 %）和日间（RSD < 0.51 %）测定均具有良好的精密度。LIQ 的检测限为 0.031 微克，ISO 的检测限为 0.011 微克，FOR 的检测限为 0.006 微克。LIQ 的定量限为 0.31 微克，ISO 的定量限为 0.11 微克，FOR 的定量限为 0.06 微克。研究了日本幼苗植物栽培甘草和商业野生甘草的黄酮类化合物含量以及甘草酸的含量。这种新方法对于评估甘草的质量可能非常有用。

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采用酸水解和反相高效液相色谱法测定甘草中的黄酮类化合物，并评价栽培甘草的化学质量。

Determination of flavonoids in licorice using acid hydrolysis and reversed-phase HPLC and evaluation of the chemical quality of cultivated licorice.

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