近红外光谱法测定不同产地黄芪中毛蕊异黄酮葡萄糖苷和黄芪甲苷含量

doi:10.3964/j.issn.1000-0593(2017)05-1391-06

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摘要：采用近红外漫反射光谱法对黄芪中毛蕊异黄酮葡萄糖苷和黄芪甲苷的含量进行快速无损检测。以液相色谱质谱联用分析值为参比，采用偏最小二乘法建立黄芪中毛蕊异黄酮葡萄糖苷和黄芪甲苷的定量分析模型。结果显示，毛蕊异黄酮葡萄糖苷近红外光谱经多元散射校正(MSC)+一阶导数+Savitzky-Golay卷积平滑预处理后模型最优，模型参数R²为0.826 6，RMSEP值为0.022 7，校正集R²为0.863 5，RMSEC值为0.019 0；黄芪甲苷近红外光谱经二阶导数+Savitzky-Golay卷积平滑预处理后模型最优，模型参数R²为0.854 8，RMSEP值为0.006 41，校正集R²为0.796 3，RMSEC值为0.007 99。近红外光谱技术结合偏最小二乘法可快速、准确的对黄芪中毛蕊异黄酮葡萄糖苷和黄芪甲苷的含量进行检测。此外，通过主成分分析，发现甘肃产黄芪与其他产地黄芪差异不大，排除甘肃产黄芪后，山西、四川和吉林的样本区分度较高。

关键词：近红外光谱；毛蕊异黄酮葡萄糖苷；黄芪甲苷；偏最小二乘法

Abstract：A quick and nondestructive method using near-infrared(NIR) diffuse reflectance spectroscopy was presented for the determination of the contents of calycosin-7-glucoside and astragaloside in astragali radix. With liquid chromatograph/mass spectrometer analysis of the reference value, partial least squares method was applied to establish a quantitative analysis model on calycosin-7-glucoside and astragaloside. The results showed that the model of calycosin-7-glucoside had optimal performance with pretreatment method of multiplicative scatter correction, first derivative and Savitzky-Golay convolution smoothing. The determination coefficients was 0.826 6 whiel the root mean square prediction(RMSEP)was 0.022 7；determination coefficients of calibration set was 0.863 5 and the root mean square error of calibration (RMSEC) was 0.019 0. Astragaloside after second derivative and Savitzky-Golay convolution smoothing，the determination coefficients was 0.854 8，the root mean square prediction was 0.006 41；determination coefficients of calibration set was 0.796 3 and the root mean square error of calibration was 0.007 99. Studies have shown that near infrared spectroscopy combined with partial least squares method is rapid, reliable and it could be implemented in the content detection of Calycosin- 7- glucoside and astragaloside in Astragali Radix.In addition,In addition, through the analysis of Principal Component analysis,it can be found little difference between the regions of Gansu and non- Gansu, there will be higher degree of differentiation among Shanxi,Sichuan and Jilin after elimination the region of Gansu Astragalus.

Key words：Near infrared spectroscopy；Calycosin-7-glucoside；Astragaloside；Partial least squares

收稿日期: 2016-03-31 修订日期: 2016-08-25

中图分类号:

O657.3

基金资助: 中医药行业科研专项(201407003)资助

通讯作者: 方婧，付梅红 E-mail: j_fang0817@sina.com；fu00126@sina.com

作者简介: 战皓，女，1992年生，中国中医科学院中药研究所硕士研究生 e-mail： zhanhao_1992@163.com
吴宏伟，1980年生，中国中医科学院中药研究所助理研究员 e-mail: whw9905012@163.com
战皓，吴宏伟：并列第一作者

引用本文:

战皓，吴宏伟，张东，柳梦婷，唐力英，李化，王祝举，杨滨，杨岚，方婧，付梅红. 近红外光谱法测定不同产地黄芪中毛蕊异黄酮葡萄糖苷和黄芪甲苷含量[J]. 光谱学与光谱分析, 2017, 37(05): 1391-1396.
ZHAN Hao, WU Hong-wei, ZHANG Dong, LIU Meng-ting, TANG Li-ying, LI Hua, WANG Zhu-ju, YANG Bin, YANG Lan, FANG Jing, FU Mei-hong. Determination of Calycosin-7-Glucoside and Astragaloside in Astragali Radix with Near Infrared Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(05): 1391-1396.

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[1] China Pharmacopoeia Commission(国家药典委员会). Pharmacopoeia of the People’s Republic of China (Vol. 1)(中华人民共和国药典(1部)). Beijing：Chemical Industry Press(北京：化学工业出版社)，2010. 246.
[2] GAO Xue-min(高学敏). Pharmacy(中药学), 2007. 171.
[3] ZHANG Qiang, GAO Wen-yuan, MAN Shu-li(张蔷，高文远，满淑丽). China Journal of Chinese Materia Medica(中国中药杂志)，2012，37(21)：3203.
[4] LI Xiao-kuan, ZHANG Yan-hai, FENG Tian-hui, et al(李效宽, 张艳海, 冯天辉, 等). Chinese Journal of Analytical Chemistry(分析化学), 2014, 12: 1791.
[5] ZHANG Zhong-hua, GUO Min, YANG Li-xia, et al(张中华, 郭敏, 杨丽霞, 等). Teaditional Chinese Medicinal Research(中医研究)，2014, 4: 63.
[6] ZHAO Xiao-li, LIU Ling, DI Liu-qing, et al(赵晓莉, 刘玲, 狄留庆, 等). China Journal of Chinese Materia Medica(中国中药杂志), 2014, 23: 4669.
[7] WANG Jun，LENG Xiang-jing, GAO Jin-biao(王俊, 冷湘静, 高锦飚). China Pharmacist(中国药师), 2014, 7: 1138.
[8] CHEN Jian, HU Xing, LÜ Zi-xuan, et al(陈健, 胡幸, 吕紫璇, 等). Chian Pharmaceuticals(中国药业), 2014, 22: 55.
[9] LIU He-ping, PENG Zhao-hua, ZHANG Run-rong, et al(刘和平，彭招华，张润容，等). Chinese Journal of Experimental Traditional Medical Formulae(中国实验方剂学杂志)，2015，21(5)：92.
[10] SHI Chun-xiang, YANG Yue-wu, GUO Zhi-xin, et al(史春香, 杨悦武, 郭治昕, 等). Chinese Traditional and Herbal(中草药), 2005，36(11)：1731.
[11] CHU Xiao-li(褚小立). Molecular Spectroscopy Analytical Technology Combined with Chemometrics and Its Applications(化学计量学方法与分子光谱分析技术). Beijing: Chemical Industry Press(北京：化学工业出版社), 2011. 77.
[12] ZHAO Jie-wen, JIANG Pei, CHEN Quan-sheng(赵杰文，蒋培，陈全胜). Transactions of the Chinese Society for Agricultural Machinery(农业机械学报), 2010, 8: 111.
[13] ZHAN Hao，LIU Meng-ting, FANG Jing, et al(战皓，柳梦婷，方婧，等). Chinese Journal of Experimental Traditional Medical Formulae(中国实验方剂学杂志), 2015, 21(12): 231.
[14] ZHANG Lan-tao, GUO Bao-lin, ZHU Shun-chang, et al(张兰涛，郭宝林，朱顺昌，等). Journal of Chinese Medicinal Materials(中药材)，2006，29(8)：771.