大蒜药材质量标准的研究
摘要
大量的研究证明,大蒜具有杀菌,降血脂,降血压,抗血栓,抗癌,预防中风,提高机体的免疫力等功效,使之成为近代医学研究的热点之一。目前大蒜的功效成分定位于蒜氨酸及其经蒜酶催化裂解产生的大蒜辣素和阿霍烯等一系列含硫的化合物。
国内外已上市的大蒜制剂近几十种之多,但各种制剂原料的来源有所不同,而导致制剂质量的差异。为从源头控制大蒜药材质量,本课题从鉴别、检查、含量测定等方面控制大蒜药材的质量。主要研究内容如下:
1.鉴别
不同产地的新鲜大蒜为原料,以蒜氨酸为对照品,采用硅胶G薄层板,展开系统:正丁醇-冰醋酸-水(4∶1∶1);显色剂:0.2%茚三酮,进行药材的鉴别试验。新鲜大蒜样品与蒜氨酸对照品在相同的位置上显示相同颜色的斑点。
指纹图谱是控制中药材质量的有效方法之一。本课题采用RP-HPLC法制定大蒜酶解产物的指纹图谱来控制药材的质量,并进行药材的鉴别。结果表明,采用RP-HPLC法测定,ODS柱,大蒜辣素为参照物,流动相甲醇-水(40∶60),检测波长214nm,柱温35℃,流速0.8ml·min~(-1),能较好的反映大蒜酶解产物的特征。
蒜氨酸是大蒜中独特的氨基酸。本课题同时采用蒜氨酸为参照物,利用HPLC法制定大蒜灭活蒜氨酸酶后的产物制定大蒜药材的指纹图谱来控制药材的质量,并进行药材的鉴别实验。结果表明,采用RP-HPLC法测定,ODS柱,流动相甲醇-水(60∶40),检测波长214nm,柱温35℃,流速0.5ml·min~(-1),能较好的反映大蒜杀酶产物的特征。
In recent years many attempts have been made to analysis the constitutes of garlic(Allium sativum L.). Many studies have found the garlic has been used as a remedy in folk medicine for the treatment of infection disease as well as for the prevention of stoke and arteriosclerosis as well as anticancer.The active components were related to alliin, allicin, ajoend and a series of compounds of sulfoxides.
There were many kinds of garlic preparations coming into the market.But the quality of the preparations have more difference because of the medicinal material coming from virous reigons.Here we took identification, inspection and the content of alliin steps to control the quality of the materials from virous reigons. Now our mainly study contents as follow:
The first part was identification.Alliin was the reference substance. Plate:silica gel plates. Developing system: n-butanol-n-proanol-acetic acid-water(3:1:1:1, v/v) and n-butanol-acetic acid-water(4:1:1, v/v). Reagent: 0.2% ninhydrin. The sample and alliin have the same colour on the spots of the same R_f.
The fingerprint was established using HPLC to control the quality of the fresh bulbs of enzymoly production from garlic. We have the allicin as the reference substance. The Chromatographic conditions as follow:an ODS column was used; the mobile phase was composed of method and water (40:60, v/v); the flow rate was 0.8ml/min and the UV absorbance detection was set at 214nm. It showed that the similarity of the enzymoly production from garlic was satisfied.
国内外已上市的大蒜制剂近几十种之多,但各种制剂原料的来源有所不同,而导致制剂质量的差异。为从源头控制大蒜药材质量,本课题从鉴别、检查、含量测定等方面控制大蒜药材的质量。主要研究内容如下:
1.鉴别
不同产地的新鲜大蒜为原料,以蒜氨酸为对照品,采用硅胶G薄层板,展开系统:正丁醇-冰醋酸-水(4∶1∶1);显色剂:0.2%茚三酮,进行药材的鉴别试验。新鲜大蒜样品与蒜氨酸对照品在相同的位置上显示相同颜色的斑点。
指纹图谱是控制中药材质量的有效方法之一。本课题采用RP-HPLC法制定大蒜酶解产物的指纹图谱来控制药材的质量,并进行药材的鉴别。结果表明,采用RP-HPLC法测定,ODS柱,大蒜辣素为参照物,流动相甲醇-水(40∶60),检测波长214nm,柱温35℃,流速0.8ml·min~(-1),能较好的反映大蒜酶解产物的特征。
蒜氨酸是大蒜中独特的氨基酸。本课题同时采用蒜氨酸为参照物,利用HPLC法制定大蒜灭活蒜氨酸酶后的产物制定大蒜药材的指纹图谱来控制药材的质量,并进行药材的鉴别实验。结果表明,采用RP-HPLC法测定,ODS柱,流动相甲醇-水(60∶40),检测波长214nm,柱温35℃,流速0.5ml·min~(-1),能较好的反映大蒜杀酶产物的特征。
In recent years many attempts have been made to analysis the constitutes of garlic(Allium sativum L.). Many studies have found the garlic has been used as a remedy in folk medicine for the treatment of infection disease as well as for the prevention of stoke and arteriosclerosis as well as anticancer.The active components were related to alliin, allicin, ajoend and a series of compounds of sulfoxides.
There were many kinds of garlic preparations coming into the market.But the quality of the preparations have more difference because of the medicinal material coming from virous reigons.Here we took identification, inspection and the content of alliin steps to control the quality of the materials from virous reigons. Now our mainly study contents as follow:
The first part was identification.Alliin was the reference substance. Plate:silica gel plates. Developing system: n-butanol-n-proanol-acetic acid-water(3:1:1:1, v/v) and n-butanol-acetic acid-water(4:1:1, v/v). Reagent: 0.2% ninhydrin. The sample and alliin have the same colour on the spots of the same R_f.
The fingerprint was established using HPLC to control the quality of the fresh bulbs of enzymoly production from garlic. We have the allicin as the reference substance. The Chromatographic conditions as follow:an ODS column was used; the mobile phase was composed of method and water (40:60, v/v); the flow rate was 0.8ml/min and the UV absorbance detection was set at 214nm. It showed that the similarity of the enzymoly production from garlic was satisfied.
引文
[1] Marie C. Lin, Er-Jia Wang, Catherine Lee.Garlic inhibits mierosomal triglyceride transfer protein gene expression in human liver and intestinal cell lines and in rat intestine. The American Society for Nutritional Sciences. J. Nutr. 2002, 132:1165-1168
[2] Alan D. Kaye, Bracken J. De Witt, Muhammad Anwar. Dietary supplementation with aged garlic extract inhibits ADPinduce platelet aggregation in humans. J Appl Physiol,2000, 89:353-358
[3] Ronald T. Ackermann, MD; Cynthia D. Mulrow, MD, MSc.Garlic shows promise for improving some cardiovascular risk factors. Arch Intern Med.2001; 161:813-824.
[4] J. A. Milner. A historical perspective on garlic and cancer.Journal of Nutrition. 2001; 131: 1027S-1031S
[5] Donald L. Lamm~2 and Dale R. Riggs.Enhanced immunoeompetence by garlic:role in bladder cancer and other malignancies. Journal of Nutrition. 2001; 131:1067S-1070S
[6] 蓝景生,黄耀光.大蒜素在心血管疾病中的研究进展.医学综述,2002,8(4):206-207
[7] 周娟,贾恩礼,周广军等.大蒜对病原微生物作用的研究进展.时珍国医国药,2002(10):633-5
[8] 叶海英,张忠义,徐峰等.大蒜免疫调节作用的研究进展.中医药学报,2003(3):54-6
[9] 符晓静,孙君社.大蒜活性成分阿霍烯的研究概况.食品研究与开发,2005,26(2):34-37
[10] 秦永德,陈坚,张月明等.蒜氨酸+蒜酶抗肿瘤及其机制的研究.中国药理学通报,2003,19(4):478-80
[11] 陈锋,顾丹今,许晏等.蒜氨酸对环磷酰胺处理小鼠免疫功能的影响.新疆医科大学学报,2004,27(2):122-24
[12] 娄红祥.大蒜化学成分的研究进展.国外医学,植物药分册,1991,6(2):B55
[13] 赵余庆,杨志强,徐淑卿等.大蒜及大蒜制品中微量元素的研究.中国药学杂志,1993,28(2):77
[14] 于新蕊,丛月珠.大蒜的化学成分及其药理作用研究进展.中草药,1994,25(3):B158
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[16] Weik R, Francky A, Striedner G, ect. Recombinant expression of alliin lyase from garlic(Allium sativum) in bacteria and yeasts.Planta Medica 1998 MAY;64(4):440-445
[17] Manae T, Hasumi A, Sugiyama M, Yamazaki M. Alliinase from Allium tuberosum(Chinese chive)-purification,localization, cDNA cloning and heterologous functional expression.Eur J Biochem 1998Oct 1:257(1):21-30
[18] Herwig J, Bermd M, Karl K. Characterization of an Alliin Layase preparation from Garlic (Allium sativum). Planta Medica 55(1989): 434-439
[19] Rabinkov A,Zhhu XZ,Grafi G, Mirelman D.Alliin lyase(alliinase) from garlic (Allium sativum). Biochemical characterization and cDNA cloning.Appl Biotechnil 1994 Sep;48(3): 149-71
[20] Vance K. et al. Starch hydroiysis kintics of Bacillus Iicheniformis α-amylase. J. Chem.Tech.Biotech. 1991,51:209
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[22] Rybak ME, Calvey EM, Harnly JM. Quantitative determination of alliein in garlic: supercritieal fluid extraction and standard addition of alliin. J Agric Food Chem. 2004 Feb 25;52(4):682-7
[23] Kanaki NS, Rajani M. Development and validation of a thin-layer ehromatography-densitometric method for the quantitation of alliin from garlic (Allium sativum) and its formulations. J AOAC Int. 2005 Sep-Oet;88(5): 1568-70
[24] Mochizuki E, Nakayama A, Kitada Y, Saito K, Nakazawa H, Suzuki S, Fujita M. Liquid chromatographic determination of alliin in garlic and garlic products. J Chromatogr. 1988 Nov 25;455:271-7
[25] 常军民,张丽静等.HPLC测定不同产地大蒜中蒜氨酸的含量.中成药,2004,26(12):1025-7
[26] Ichikawa M, Ide N, Yoshida J,ect. Determination of seven organo-sulfur compounds in garlic by high-performance liquid chromato-graphy.J Agrie Food Chem..2006,54(5): 1535-40.
[27] 王岩,李新霞.薄层扫描法测定大蒜中蒜氨酸的含量.中国药学杂志,2003,38(3):217-8
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[33] Rybak ME, Calvey EM, Harnly JM. Quantitative determination of alliein in garlic: supercritical fluid extraction and standard addition of alliin. J Agrie Food Chem.,2004,52(4):682-7
[34] 董亚琳,王香敏,董海艳.反相高效液相色谱法测定大蒜素的血药浓度.中国药房,2001,12(4):226-7
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[38] 杨云,张村,闻永举.中华大蒜油软胶囊的薄层鉴别及砷盐和重金属的限量检查.河南科学,2003,21(4):424-5
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[41] 中国药典.2005版附录:47-48
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[2] Alan D. Kaye, Bracken J. De Witt, Muhammad Anwar. Dietary supplementation with aged garlic extract inhibits ADPinduce platelet aggregation in humans. J Appl Physiol,2000, 89:353-358
[3] Ronald T. Ackermann, MD; Cynthia D. Mulrow, MD, MSc.Garlic shows promise for improving some cardiovascular risk factors. Arch Intern Med.2001; 161:813-824.
[4] J. A. Milner. A historical perspective on garlic and cancer.Journal of Nutrition. 2001; 131: 1027S-1031S
[5] Donald L. Lamm~2 and Dale R. Riggs.Enhanced immunoeompetence by garlic:role in bladder cancer and other malignancies. Journal of Nutrition. 2001; 131:1067S-1070S
[6] 蓝景生,黄耀光.大蒜素在心血管疾病中的研究进展.医学综述,2002,8(4):206-207
[7] 周娟,贾恩礼,周广军等.大蒜对病原微生物作用的研究进展.时珍国医国药,2002(10):633-5
[8] 叶海英,张忠义,徐峰等.大蒜免疫调节作用的研究进展.中医药学报,2003(3):54-6
[9] 符晓静,孙君社.大蒜活性成分阿霍烯的研究概况.食品研究与开发,2005,26(2):34-37
[10] 秦永德,陈坚,张月明等.蒜氨酸+蒜酶抗肿瘤及其机制的研究.中国药理学通报,2003,19(4):478-80
[11] 陈锋,顾丹今,许晏等.蒜氨酸对环磷酰胺处理小鼠免疫功能的影响.新疆医科大学学报,2004,27(2):122-24
[12] 娄红祥.大蒜化学成分的研究进展.国外医学,植物药分册,1991,6(2):B55
[13] 赵余庆,杨志强,徐淑卿等.大蒜及大蒜制品中微量元素的研究.中国药学杂志,1993,28(2):77
[14] 于新蕊,丛月珠.大蒜的化学成分及其药理作用研究进展.中草药,1994,25(3):B158
[15] Stoll A, Seeback E. The decomposition of allliinase and the properties of alliinase.Helv Chim Acta, 1949,32:197-205
[16] Weik R, Francky A, Striedner G, ect. Recombinant expression of alliin lyase from garlic(Allium sativum) in bacteria and yeasts.Planta Medica 1998 MAY;64(4):440-445
[17] Manae T, Hasumi A, Sugiyama M, Yamazaki M. Alliinase from Allium tuberosum(Chinese chive)-purification,localization, cDNA cloning and heterologous functional expression.Eur J Biochem 1998Oct 1:257(1):21-30
[18] Herwig J, Bermd M, Karl K. Characterization of an Alliin Layase preparation from Garlic (Allium sativum). Planta Medica 55(1989): 434-439
[19] Rabinkov A,Zhhu XZ,Grafi G, Mirelman D.Alliin lyase(alliinase) from garlic (Allium sativum). Biochemical characterization and cDNA cloning.Appl Biotechnil 1994 Sep;48(3): 149-71
[20] Vance K. et al. Starch hydroiysis kintics of Bacillus Iicheniformis α-amylase. J. Chem.Tech.Biotech. 1991,51:209
[21] Ichikawa M, Ide N, Yoshida J.et al. Determination of seven organo-sulfur compounds in garlic by high-performance liquid chromato-graphy. J Agric Food Chem. 2006 Mar 8;54(5): 1535-40
[22] Rybak ME, Calvey EM, Harnly JM. Quantitative determination of alliein in garlic: supercritieal fluid extraction and standard addition of alliin. J Agric Food Chem. 2004 Feb 25;52(4):682-7
[23] Kanaki NS, Rajani M. Development and validation of a thin-layer ehromatography-densitometric method for the quantitation of alliin from garlic (Allium sativum) and its formulations. J AOAC Int. 2005 Sep-Oet;88(5): 1568-70
[24] Mochizuki E, Nakayama A, Kitada Y, Saito K, Nakazawa H, Suzuki S, Fujita M. Liquid chromatographic determination of alliin in garlic and garlic products. J Chromatogr. 1988 Nov 25;455:271-7
[25] 常军民,张丽静等.HPLC测定不同产地大蒜中蒜氨酸的含量.中成药,2004,26(12):1025-7
[26] Ichikawa M, Ide N, Yoshida J,ect. Determination of seven organo-sulfur compounds in garlic by high-performance liquid chromato-graphy.J Agrie Food Chem..2006,54(5): 1535-40.
[27] 王岩,李新霞.薄层扫描法测定大蒜中蒜氨酸的含量.中国药学杂志,2003,38(3):217-8
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