光谱学与光谱分析 |
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Identification Study of Mongolian Herbal Medicine Rubus Sachalinesis Leveille and Its Forgeries by UV/Fluorescence/IR Spectroscopy |
XU Liang1, 2,Suritalatu3,XI Hai-shan1,BI Kai-shun2,SUN Wurina1 |
1. Analysis and Testing Center of Inner Mongolia University for Nationalities,Tongliao 028042, China 2. School of Pharmacy, Shenyang Pharmaceutical University, Shenyang 110016, China 3. Affiliated Hospital of Inner Mongolia University for Nationalities, Tongliao 028042, China |
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Abstract Identification study of four species of Mongolian herbal medicine by UV/fluorescence/IR spectroscopy was carried out. Ultrasonic extracts of Mongolian herbal medicine Rubus Sachalinesis Leveille and its substitute materials Sambucus williamsii Hance and Uncaria rhynchophylla (Miq.) Jacks., and its false medicine Cinnamomum cassia Presl by methyl alcohol, petroleum ether and chloroform were obtained respectively, UV/fluorescence spectral scans for the above herbal medicines were taken and the spectra obtained were compared. Besides, the IR spectra obtained from the herbal medicines were compared. It was shown that the absorption peaks of UV spectra of the four species of Mongolian herbal medicine differ from each other when the methyl alcohol, petroleum ether and chloroform were used as extracting solvent, while there is a selectivity for the solvent when fluorescence spectrum was used to differentiate those medicines. Only when the methyl alcohol was used as extracting solvent, there are clear differences among the IR spectra of the four species of medicine. Therefore, three kinds of spectra are available in identifying the four species of herbal medicine. Among them, IR spectroscopy is noted for its more information about the fingerprints of herbal medicines, and being direct and simple, which is one of the methods worth recommending for identifying Mongolian herbal medicine.
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Received: 2005-01-08
Accepted: 2005-05-08
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Corresponding Authors:
XU Liang
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Cite this article: |
XU Liang,Suritalatu,XI Hai-shan, et al. Identification Study of Mongolian Herbal Medicine Rubus Sachalinesis Leveille and Its Forgeries by UV/Fluorescence/IR Spectroscopy [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2006, 26(03): 448-451.
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URL: |
https://www.gpxygpfx.com/EN/Y2006/V26/I03/448 |
[1] Buhebateer, Erdunbaoligao(布和巴特尔, 额尔敦宝力高).Handbook of Mongolian Medicines(蒙药手册). Shenyang: Liaoning Press for Nationalities(沈阳: 辽宁民族出版社), 1996. 443. [2] The Public Health Department of Inner Mongolia(内蒙古自治区卫生厅). Inner Mongolia Standard of Mongolian Herbal Medicines(内蒙古蒙药材标准),1984. 477. [3] SUN Sheng-li, et al(孙胜利, 等). Chinese Traditional and Herbal Drugs(中草药), 2002, 33(11): 1033. [4] YUN Xue-ying, CHEN Qi-ying, TONG Jie, HAN Yan-ping(云学英, 陈其英, 佟 杰, 韩艳萍). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2004, 24(1): 89. [5] CHEN Xiao-kang, et al(陈小康, 等). Chinese Journal of Analysis Laboratory(分析试验室), 2003, 22(1): 19. [6] LI Feng, et al(李 峰, 等). Journal of Chinese Medicinal Materials Herbs(中药材), 1996, 19(10): 499. [7] SUN Su-qin, ZHANG Xuan, QIN Zhu, HU Xin-yao(孙素琴, 张 宣, 秦 竹, 胡鑫尧). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 1999, 19(4): 542. [8] SUN Su-qin, et al(孙素琴, 等). Chinese Analytical Chemistry(分析化学), 2001, 29(5): 552. [9] SUN Su-qin, YU Jian-yuan, HU Xin-yao(孙素琴, 郁监源, 胡鑫尧). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 1999, 19(6): 841.
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