国产四种甘草次生代谢产物的研究
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摘要
本论文有以下五章组成:
第一章:文献综述
甘草是蝶形花科甘草属植物,有“十方九草”之说,“国老”之尊称,被喻为“抗旱的能手,斗沙的先锋”。作者通过对甘草在地理分布、医药、畜牧、食品、化妆品、工业、烟草业、维持生态平衡、初生代谢产物和次生代谢产物以及资源现状等方面的系统论述,明确了国内外的研究现状,确立了论文的立论依据。我们承担的甘肃省自然科学基金项目“甘草全成分的深度开发及综合利用”和甘肃省教委基金项目“优质资源植物—五种甘草的应用研究”,其研究目的,就是为甘草资源的深度开发利用奠定基础。
第二章:国产四种甘草挥发性化学成分的分析研究
作者采用水蒸气蒸馏法提取乌拉尔甘草、胀果甘草、光果甘草、刺果甘草根和叶的挥发油,运用毛细管气相色谱—质谱联用法结合计算机检索对其挥发性化学成分进行分析和鉴定,用气相色谱面积归一化法测定各组分的相对百分含量。经毛细管色谱分离出414个峰,并确认了其中376种化合物,确认化合物占总数的90.82%。首次报道了乌拉尔甘草、光果甘草、胀果甘草、刺果甘草根和叶的挥发性化学成分,为资源开发提供了一定的依据。
第三章:甘草总皂甙和黄酮类化合物的提取分离与测定
作者采用冷浸乙醇提取法对4种引种栽培的国产甘草根中总黄酮和总皂甙类化合物进行了提取分离,并且采用重量法和紫外-可见分光光度法对4种甘草根中总黄酮含量进行了测定和比较分析。研究表明,不同产地、不同生长条件、不同提取、测定方法以及同一产地、同一批次不同提取方法所得甘草总皂甙和总黄酮类化合物的含量不同。三种分光光度测定方法中,黄酮含量以直接测定法为较高,氯化铝显色法和硝酸铝显色法次之。四种甘草根总黄酮提取物中黄酮的含量依次为:乌拉尔甘草>胀果甘草>光果甘草>刺果甘草;四种甘草根中总黄酮的含
感门匕师葱大学闷眨J分学位论文
工毛绍.义二国产四种户甘草砂屯生代谢产物的研究
量依次为:光果甘草>乌拉尔甘草)胀果甘草>刺果甘草。该提取路线合理可
行,提取比较完全,得率较高。
第四章:乌拉尔甘草色素的提取及其稳定性的研究
本文对乌拉尔甘草色素进行了提取、分离、并对其稳定性进行了详细研究。
结果表明:耐热、耐光性较高,在碱性介质中可稳定存在,为甘草色素的开发、
利用提供了理论依据,使其成为食品、医药等领域使用的、良好的天然色素。
第五章:甘草酸与灰绿黄茧DNA、延胡索乙素与乌拉尔甘草DNA相互作用的电化学
和紫外一可见光谱初步研究
本文采用循环伏安法(CV)和紫外一可见光谱法(UV)对甘草酸与灰绿黄荃
DNA、延胡索乙素与乌拉尔甘草DNA相互作用的机理进行了研究。研究结果表明,
甘草酸、延胡索乙素能够与ONA发生较强的相互作用,其作用方式既有静电相互
作用,又有嵌插作用,同时,其作用方式和甘草酸与灰绿黄荃DNA、延胡索乙素
与乌拉尔甘草 DNA的浓度比有关。甘草酸、延胡索乙素起初与荷负电的DNA分子
中的磷酸基发生了某种程度的静电吸附作用,导致自由状态的甘草酸、延胡索乙
素浓度降低,从而使峰电流降低,光吸收减小,随着二者作用时间的延长和DNA
量的增加,一部分甘草酸、延胡索乙素嵌插到双螺旋DNA分子的内部,形成一种
非电活性物质,导致峰电流降低、峰电位偏移、光吸收减小。
Glycyrrhiza uralensis Fisch., G. inflata Bat., 6. glabra Linn, and 6. pallidifiora Maxim, are Glycyrrhiza genus plants which belong to Fabaceae family. As the saying goes, "nine in ten prescriptions by Chinese herbalist doctors" the Glycyrrhiza, especially G. uralensis are known as "traditional Chinese medicine"; they also have the reputation of "the master-hand of anti-droughts, anti-sand and anti-winds". About the four Glycyrrhiza species in China, the author systemically summarized their studies in geographical distribution, medicament, livestock agriculture, food, cosmetic, industry, tobacco, ecological balance maintaining, resource, plant primary and secondary metabolites in particular. Through the review, the author has got the idea of the general situation of the studies on the four Glycyrrhiza species in China, which gave us a base to start the subject. We have been working on the subjects "studies on the deep exploitation and synthetical utilization of the full ingredients about the Glycyrrhiza species" which was supported by the science fund of Gansu province and "study on the application of good resource plants -five species of Glycyrrhiza" which was supported by the fund of the education committee of Gansu, The purpose of the studies was to provide a solid and scientific proof for the further exploitation and utilization of them.
Chapter II: Studies on the essential constituents from the roots and leaves of 6. uralensis, G. Mats, 6. glabra and G. pallidifiora
The essential oil from the roots and leaves of 6. uralensis, G. inflata, G. glabra and G. pallidifiora was obtained by steam distillation. The chemical components were separated and identified by GC-MS and elucidated on the standard mass spectral data. The relative content of each component in percentage was calculated by area nomolization. 414 peaks were separated and 376 compounds were identified, the identification rate was 90.82%. It is the first time that this kind of studies was reported and it provided a solid and scientific proof for the further development of them.
Chapter III: Extraction and determination of total triterpene and fiavonoids constituents isolated from the four Glycyrrhiza species
The methods of extraction and separation of total triterpene and fiavonoids constituents from the four kinds of Chinese Glycyrrhiza roots have been studied. The contents of total triterpene and fiavonoids have been detected through the weight method. Meanwhile, the concentration of the total fiavonoids in the extraction were also determined by the ultraviolet-visible spectrophotometry with three different methods. The results showed that the contents of total triterpene and fiavonoids varied with the population, the growing condition, the methods of extraction and separation, and even varied within the same population and group. Of the three methods, the concentration of total fiavonoids was higher by using the direct mensuration method, and the coloration method by AlCl3 and AI(NO3)3 was lower. The
senquence of the total flavonoids contents in the crude extractions of the four species were G. uralensis, G. inflata, G. glabra and G. pallidifiora and that in the roots were G. glabra, G. uralensis, G. inflata and G. pallidifiora. The routes of the extraction and separation of total triterpene and flavonoids were quite suitable and the obtaining ratio was good.
Chapter IV: Studies on the stability of pigment of G. uralensis
In this text, we mainly studied the extraction, separation and the stability on pigment of G. uralensis. The results showed that the stability of its pigment was good. It could endure heat and light, and exist in the medium of alkalescence. The research provided the basis for the development and utilization of pigment in G. uralensis. This pigment of G. uralensis will be a good natural pigment and be used in food and medicine.
Chapter V: Electrochemical and UV-visible spectroscopic studies on the interactions between glycyrrhizic acid and the DNA from the leaves of Corydalis adunca, dl-tetrahydropalmatine and
第一章:文献综述
甘草是蝶形花科甘草属植物,有“十方九草”之说,“国老”之尊称,被喻为“抗旱的能手,斗沙的先锋”。作者通过对甘草在地理分布、医药、畜牧、食品、化妆品、工业、烟草业、维持生态平衡、初生代谢产物和次生代谢产物以及资源现状等方面的系统论述,明确了国内外的研究现状,确立了论文的立论依据。我们承担的甘肃省自然科学基金项目“甘草全成分的深度开发及综合利用”和甘肃省教委基金项目“优质资源植物—五种甘草的应用研究”,其研究目的,就是为甘草资源的深度开发利用奠定基础。
第二章:国产四种甘草挥发性化学成分的分析研究
作者采用水蒸气蒸馏法提取乌拉尔甘草、胀果甘草、光果甘草、刺果甘草根和叶的挥发油,运用毛细管气相色谱—质谱联用法结合计算机检索对其挥发性化学成分进行分析和鉴定,用气相色谱面积归一化法测定各组分的相对百分含量。经毛细管色谱分离出414个峰,并确认了其中376种化合物,确认化合物占总数的90.82%。首次报道了乌拉尔甘草、光果甘草、胀果甘草、刺果甘草根和叶的挥发性化学成分,为资源开发提供了一定的依据。
第三章:甘草总皂甙和黄酮类化合物的提取分离与测定
作者采用冷浸乙醇提取法对4种引种栽培的国产甘草根中总黄酮和总皂甙类化合物进行了提取分离,并且采用重量法和紫外-可见分光光度法对4种甘草根中总黄酮含量进行了测定和比较分析。研究表明,不同产地、不同生长条件、不同提取、测定方法以及同一产地、同一批次不同提取方法所得甘草总皂甙和总黄酮类化合物的含量不同。三种分光光度测定方法中,黄酮含量以直接测定法为较高,氯化铝显色法和硝酸铝显色法次之。四种甘草根总黄酮提取物中黄酮的含量依次为:乌拉尔甘草>胀果甘草>光果甘草>刺果甘草;四种甘草根中总黄酮的含
感门匕师葱大学闷眨J分学位论文
工毛绍.义二国产四种户甘草砂屯生代谢产物的研究
量依次为:光果甘草>乌拉尔甘草)胀果甘草>刺果甘草。该提取路线合理可
行,提取比较完全,得率较高。
第四章:乌拉尔甘草色素的提取及其稳定性的研究
本文对乌拉尔甘草色素进行了提取、分离、并对其稳定性进行了详细研究。
结果表明:耐热、耐光性较高,在碱性介质中可稳定存在,为甘草色素的开发、
利用提供了理论依据,使其成为食品、医药等领域使用的、良好的天然色素。
第五章:甘草酸与灰绿黄茧DNA、延胡索乙素与乌拉尔甘草DNA相互作用的电化学
和紫外一可见光谱初步研究
本文采用循环伏安法(CV)和紫外一可见光谱法(UV)对甘草酸与灰绿黄荃
DNA、延胡索乙素与乌拉尔甘草DNA相互作用的机理进行了研究。研究结果表明,
甘草酸、延胡索乙素能够与ONA发生较强的相互作用,其作用方式既有静电相互
作用,又有嵌插作用,同时,其作用方式和甘草酸与灰绿黄荃DNA、延胡索乙素
与乌拉尔甘草 DNA的浓度比有关。甘草酸、延胡索乙素起初与荷负电的DNA分子
中的磷酸基发生了某种程度的静电吸附作用,导致自由状态的甘草酸、延胡索乙
素浓度降低,从而使峰电流降低,光吸收减小,随着二者作用时间的延长和DNA
量的增加,一部分甘草酸、延胡索乙素嵌插到双螺旋DNA分子的内部,形成一种
非电活性物质,导致峰电流降低、峰电位偏移、光吸收减小。
Glycyrrhiza uralensis Fisch., G. inflata Bat., 6. glabra Linn, and 6. pallidifiora Maxim, are Glycyrrhiza genus plants which belong to Fabaceae family. As the saying goes, "nine in ten prescriptions by Chinese herbalist doctors" the Glycyrrhiza, especially G. uralensis are known as "traditional Chinese medicine"; they also have the reputation of "the master-hand of anti-droughts, anti-sand and anti-winds". About the four Glycyrrhiza species in China, the author systemically summarized their studies in geographical distribution, medicament, livestock agriculture, food, cosmetic, industry, tobacco, ecological balance maintaining, resource, plant primary and secondary metabolites in particular. Through the review, the author has got the idea of the general situation of the studies on the four Glycyrrhiza species in China, which gave us a base to start the subject. We have been working on the subjects "studies on the deep exploitation and synthetical utilization of the full ingredients about the Glycyrrhiza species" which was supported by the science fund of Gansu province and "study on the application of good resource plants -five species of Glycyrrhiza" which was supported by the fund of the education committee of Gansu, The purpose of the studies was to provide a solid and scientific proof for the further exploitation and utilization of them.
Chapter II: Studies on the essential constituents from the roots and leaves of 6. uralensis, G. Mats, 6. glabra and G. pallidifiora
The essential oil from the roots and leaves of 6. uralensis, G. inflata, G. glabra and G. pallidifiora was obtained by steam distillation. The chemical components were separated and identified by GC-MS and elucidated on the standard mass spectral data. The relative content of each component in percentage was calculated by area nomolization. 414 peaks were separated and 376 compounds were identified, the identification rate was 90.82%. It is the first time that this kind of studies was reported and it provided a solid and scientific proof for the further development of them.
Chapter III: Extraction and determination of total triterpene and fiavonoids constituents isolated from the four Glycyrrhiza species
The methods of extraction and separation of total triterpene and fiavonoids constituents from the four kinds of Chinese Glycyrrhiza roots have been studied. The contents of total triterpene and fiavonoids have been detected through the weight method. Meanwhile, the concentration of the total fiavonoids in the extraction were also determined by the ultraviolet-visible spectrophotometry with three different methods. The results showed that the contents of total triterpene and fiavonoids varied with the population, the growing condition, the methods of extraction and separation, and even varied within the same population and group. Of the three methods, the concentration of total fiavonoids was higher by using the direct mensuration method, and the coloration method by AlCl3 and AI(NO3)3 was lower. The
senquence of the total flavonoids contents in the crude extractions of the four species were G. uralensis, G. inflata, G. glabra and G. pallidifiora and that in the roots were G. glabra, G. uralensis, G. inflata and G. pallidifiora. The routes of the extraction and separation of total triterpene and flavonoids were quite suitable and the obtaining ratio was good.
Chapter IV: Studies on the stability of pigment of G. uralensis
In this text, we mainly studied the extraction, separation and the stability on pigment of G. uralensis. The results showed that the stability of its pigment was good. It could endure heat and light, and exist in the medium of alkalescence. The research provided the basis for the development and utilization of pigment in G. uralensis. This pigment of G. uralensis will be a good natural pigment and be used in food and medicine.
Chapter V: Electrochemical and UV-visible spectroscopic studies on the interactions between glycyrrhizic acid and the DNA from the leaves of Corydalis adunca, dl-tetrahydropalmatine and
引文
[1] Linnaeus C. Species plantarum. 1753,741~742.
[2] Hooker W..J. Indes Kewensis plantornmphane. 1985,Ⅰ-Ⅸ.
[3] 李沛琼.中国甘草属二新种[J].西北植物研究,1984,4(2):117~120.
[4] 李学禹.新疆甘草属新分类群[J].植物研究,1989,9(1):29~356.
[5] Ficher F.E., Meyer C.A. Enumeratio plantarum, petropoli. 1842.
[6] Boissier E. Flora orientalis, Genevae dt Basileae. 1872, Ⅱ.
[7] Engler A., Pranti K. Glycyrrhiza L. Pflanzenfamilien. 1894, Ⅲ:307~308.
[8] 李沛琼.中国蝶形花科甘草属的分类研究[M].中国植物学会三十周年论文摘要汇编.1963,90~91.
出版社.2001,36~54.
[20] 王荷生.中国植物区系的性质和各成分问的关系[J].云南植物研究.2000,22(2):119~126.
[21] 张富民,李学禹.中国甘草属植物的形态变异与生态环境的关系[J].新疆环境保护.1997,19(1):32~37.
[22] 冯建忠,陆行舟,吕建民,等.利用甘草资源发展畜牧业生产的探讨[J].干旱区资源与环境.1995,9(2):84~88.
[23] 王春兰,王康才.中药材种养关键技术丛书[M].南京:江苏科学技术出版社.2002,243~251.
[24] 陈鹏,潘晓玲.河西走廊地区植物的区系特征[J].植物研究.2001,21(1):24~30.
[25] 张秦伟.秦岭种子植物区系科的组成、特点及其地理成分研究[J].植物研究.2001,21(4):536~545.
[26] 潘晓玲.新疆种子植物属的区系地理成分分析[J].植物研究.1999,19(3):249~258.
[27] 黄大焱.甘肃植被[M].兰州:甘肃科学技术出版社.1997,79~190.
[28] 中国科学院内蒙古宁夏综合考察队.内蒙古植被[M].北京:科学出版社.1985,142~866.
[29] 郑虎占,董泽宏,余靖.中药现代研究与应用[M].北京:学苑出版社,1997,1256~1279
[30] 周荣汉主编.中药资源学[M].北京:中国医药科技出版社.1993:299.
[31] 王春兰,王康才.中药材种养关键技术丛书[M].南京:江苏科学技术出版社.2002,243~251.
[32] 冯建忠,陆行舟,吕建民,等.利用甘草资源发展畜牧业生产的探讨[J].干旱区资源与环境.1995,9(2):84~89.
[33] Wei Li, Yoshihisa Asada, Takafumi Yoshikawa. Flavonoid constituents from Clycyrrhiza glabra hairy root cultures. Phytochemistry. 2000,55(5):447~456.
[34] Kirk P. Manfredi, Vasanti Vallurupalli, Maria Demidova, Kelly Kindscher, Lewis K. Panne11. Isolation of an anti-HIV diprenylated bibenzyl from Glycyrrhiza lepidota. Phytochemistry. 2001(58): 153~157.
[35] A.A. Al-Qarawi, H.A. Abdel-Rahman, B.H. Ali, S.A. El Mougy. Liquorice (Glycrrrhiza glabra) and the adrenal-kidney-pituitary axis in rats. Food and Chemical Toxicology. 2002, (40):1525~1527.
[36] 张继,姚健,丁兰,等.甘草的利用研究进展[J].草原与草坪.2000,(2):12~17.
[37] 李清海.漫话宁夏“五宝”[J].中学地理教学参考.1998,(4),27.
[38] 金宏.浅谈甘草药理作用[J].时珍国医国药.2000,11(1):78~79.
[39] 凌一揆.中药学[M].上海:上海科学技术出版社,1992:215.
[40] Hiroyuki Haraguchi, Harumi Ishikawa, Kenji Mizutani,Yukiyoshi Tamura, Takeshi Kinoshita. Antioxidative and superoxide scavenging activities of retrochalcones in Glycyrrhiza inflata. Bioorganic & Medicinal Chemistry. 1998,(6):339~347.
[41] Hiroyuki Haraguchi, Katsuhiko Tanimoto, Yukiyoshi Tamura, Kenji Mizutani, Takeshi Kinoshita. Mode of antibacterial action of retrochalcones from Glycyrrhiza inflata. Phytochemistry. 1998,48(1):125~129.
[42] 林霞,周翠芳,冯贵和.甘草甜素用于慢性肝炎疗效观察[J].山东医药工业.1997,(3):61.
[43] 海老名卓三郎.国外医学[J].中医中药分册.1988,10(4):13.
[44] 高文远,贾伟,段宏泉,等.抗病毒天然药物的研究与开发[J].化学工业与工程.2002,19(增刊):1~7.
[45] 王世润,张佩玲,寇丽.甘草酸的提取工艺及应用[J].天津轻工业学院学报.1999,(1):45~47.
[46] 聂日丛.爱滋病、甘草和苦瓜酒[J].酿酒科技.1994,(3):128~129.
[47] 江西新医学院.中药大辞典[M].(上册).上海:上海人民出版社.1977,567.
[48] 李勇,姜林.甘草甜素的生理功效与应用[J].食品工业.2001,(2):36~37.
[49] 尤新.天然功能性添加剂——甘草甜和抗氧剂[J].中国食品添加剂.2001,(5):4~6.
[50] 汤风霞,乔长晟.多功能甜味剂——甘草甜素[J].食品科技.1998,(4):28.
[51] 汤风霞,乔长晟.甘草甜素及生产工艺[J].农牧产品开发.1998,(5):18~20.
[52] 雷学军.甘草酸的制备及其在食品工业中的应用[J].食品工业.1994,(6):49~51.
[53] 谷利伟,翁新楚.食用天然抗氧化剂研究进展[J].中国油脂1997,22(3):37~40.
[54] Hatam O, et al. Chem. Pharm Bull., 1998,36(6): 58~63.
[55] Gordon, M.H., Jing An. J. Agric.Food Chem.,1995,43:1784~1788.
[56] Vinson, J.A. et al. J.Agrie. Food Chem, 1995,43:2800~2802.
[57] 雷学军.甘草酸的提取及其在化妆品工业中的应用[J].香料香精化妆品.1997,(2):35~37.
[58] 梁远强.甘草市场需求缺口大[J].新疆林业.2001,(1):32~33.
[59] 高桂荣.建平县甘草资源开发利用现状及保护措施[J].资源开发与市场。1998,14(1):14.
[60] 陈晓亚,刘培.植物次生代谢的分子生物学及基因工程[J].生命科学.1996,8(2):8~11.
[61] 曹仪植,宋占午主编.植物生理学[M].(第一版).兰州:兰州大学出版社.1998,193~206.
[62] 于树宏,李玲,何晓明.利用细胞培养技术提高次生代谢物的产量[J].生物学通报.1998,33(7):40~42.
[63] 王伟,钟英长.紫杉醇生物合成的研究[J].植物学通报.1999,16(2):138~149.
[64] 景谦平,尉芹,董娟娥.影响植物有效成分提取的因素评述[J].西北林学院学报.2001,16(3):29~33.
[65] 张继,杨永利,白贞芳,等.乌拉尔甘草与刺果甘草茎叶营养成分的比较[J].西北师范大学学报.2002,38(2):61~63.
[66] 张继,吴建,曾家豫,等.光果甘草茎叶营养成分的分析研究[J].中国医学生物技术应用杂志.2002,(2):51~53.
[67] 张继,刘阿萍,曾家豫,等.胀果甘草茎叶营养成分的分析研究[J].草业学报.2003,12(q):93~96.
[68] 张富民,李学禹,王少王行,等.中国甘草属植物种子与幼苗的氨基酸含量分析[J].石河子大学学报.1998,2(3):173~177.
[69] 王彩兰,韩富贵,薛万刚.蒙古产甘草中无机元素含量测定及其在临床应用中的意义[J].河南师范大学学报.1997,25(2):92~93.
[70] 孟红梅,韩多红.甘草营养成分的分析研究[J].中国野生植物资源.2002,21(5):59~60.
[71] 王振荣,邓立育,郭伟玲,等.黑龙江、新疆、安徽产甘草中糖、总皂甙及总黄酮成分的比较研究[J].黑龙江大学自然科学学报.2000,17(2):82~84.
[72] 张继,姚健,杨永利,等.甘草生物碱成分的分析及含量测定[J].西北植物学报.2001.21(6):1259~1262.
[73] 高素莲,王雪梅.甘草中皂甙和总黄酮类化合物的提取分离与测定[J].安徽大学学报.2000,24(4):70~74.
[74] 付玉杰,祖元刚,赵春建,等.超临界二氧化碳萃取甘草黄酮的工艺[J].应用化学.
2003,20(12):1217~1219.
[75] 张继,杨永利.相同条件下的5种甘草中甘草酸含量的比较研究[J].西北植物学报.1997,17(6):111~114.
[76] 孙志忠,郝文辉,岳秀丽,等.薄层比色法测定四个产地甘草中甘草酸含量的比较研究[J].黑龙江大学自然科学学报.2000,17(3):69~70.
[77] 刘凡岩,胡汉芳,阎正,等.用比色法测定不同产地甘草中甘草酸的含量[J].河北大学学报.1998,18(4):369~371.
[78] 牛国光,谢渝春,刘会洲.溶剂萃取法提取甘草酸[J].化学工业与工程.2002,19(增刊):480~484.
[79] 霍清,林强,赵玉娥.利用双水相乙醇-磷酸氢二钾体系萃取甘草有效成分的研究[J].精细化工.2002,19(2):65~67.
[80] 赵茜,李秉滔,刘欣,等.超声强化甘草酸提取的研究[J].商品科技.2000,(5):38~39.
[81] 郎惠云,谢志海,赵怡.原子吸收法在有机分析中的应用(V)——甘草及其制品中甘草酸分析发的研究[J].化学研究与应用.1995,7(1):72~75.
[82] 左伟,宋茂森,孔素玲,等.高效液相色谱法分析测定甘草、甘草酸制品及中成药中β-型甘草次酸的含量[J].色谱.1995,13(1):43~44.
[83] 潘学军,刘会洲,贾光和,等.从甘草中提取甘草酸不同提取方法的比较[J].过程工程学报.2001,11(1):102~105.
[84] 魏伟,王义明,罗国安.中药成分的高效毛细管电泳分析[J].药学学报.1997,32(6):476~480
[85] Guanbin Li, Hongyi Zhang, Yuquan Fan, Liang Zhao, Zhide Hu. Migration behavior and separation of active components in Glycyrrhiza uralensis Fisch and its commercial extract by micellar electrokinetic capillary chromatography. Jourmal of Chromatography A. 1999, (863):105~~114.
[86] 徐志栋,王敏,康怀萍.甘草属植物三萜成分研究概况[J].河北轻化工学院学报.1998,19(1):10~15.
[87] 高锦明主编.植物化学[M].北京:科学出版社.2003:156~193,255~281.
[88] 贾世山,邱桂芬.甘草地上部分的活性成分和资源利用[J].中草药.1994,25(2):106~107.
[89] Fukai, T., Sheng, C., Horikoshi, T., Nomura, T., Isoprenylated flavonoids from
underground parts of Glycyrrhiza glabra. Phytochemistry. 1996, (43):1119~1124.
[90] Kitakawa, I., Chen, W.Z., Hori, K., Harada, E.,Yasuda, N., Yoshikawa, M., Chemical studies of Chinese licorice-roots. I. Elucidation of five new flavonoid constituents from the roots of Glycyrrhizagiabra L. collected in Xinjiang. Chem. Pharm. Bulletin. 1994, (42):1056~1062.
[91] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. Isoprenylated flavonoids from hairy root cultures of Glycyrrhiza gIabra. Fhytochemistry. 1998, (47):389~392.
[92] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. The first prenylated biaurone, licoagrone from hairy root cultures of Giycyrrhiza glabra. Phytochemistry. 1999, 50(6):1015~1019.
[93] Li, W., Asada, Y., Yoshikawa, T., Antimicrobial flavonoids from Glycyrrbiza giabra hairy root cultures. PlantaMedica. 1998,64(8):746~747.
[94] Li, W., Asada, Y., Koike, K., Hirotani, M., Rui, H., Yoshikawa, T., Nikaido, T., Two new flavonoids from Glycyrrhiza pallidilora hairy root cultures. Phytochemistry. 2001, (58):595~598.
[95] Wei Li, Kazuo Koike, Yoshihisa Asada, Masao Hirotani, Hekai Rui, Takafumi Yoshikawa, Tamotsu Nikaido. Flavonoids from Glycyrrhiza hairy root cultures. Phytochemistry. 2002, (60):351~355.
[96] Hiroaki Hayashi, Miyako Yasuma, Noboru Hiraoka, Yasumass Ikeshiro, HirobumiYamamoto, Erdem Sezik, Gisho Honda, Mamoru Tabata. Flavonoid variation in the leaves of Glycyrrhiza glabra. Phytochemistry. 1996,42(3):701~704.
[97] Hiroaki Hayashi, Noboru Hiraoka, Yasumass Ikeshiro, Hirobumi Yamamoto. Organ specific localization of flavonoids in Glycyrrhiza glabra L. Plant Science. 1996,(116):233~238.
[98] 王宁.天然产物与植物开发利用[J].青海农业科技.1999,(2):47~48.
[99] Mann J. Secondary metabolism. Clarendon Press, Oxford. 1978,1~20,79~152.
[100] Luckner M. Secondary metabolism in microorganisms, plants, and animals. 3rd Edition. Springer Verlag, Dem Ger. 1990,15~61.
[101] 唐建军,项田夫,张禄源,等.植物次生代谢、离体培养条件下次生代谢物积累及其
调控研究进展[J].中国野生植物资源.1998,17(4):1~6.
[102] 汤德良.植物抗虫的次生代谢物质[J].世界农业.1999,(3):32~33.
[103] 朱西儒,雷光富.药用植物细胞培养代谢全能性及产物检测技术的研究进展[J].广西科学院学报.1998,14(2):1~6.
[104] Tomoyoshi Akashi, Toshio Aoki, Takeyoshi Takahashi, Nanako Kameya, Ikuo Nakamura, Shin-ichi Ayabe. Cloning of cytochrome P450 cDNAs from cultured Glycyrrhiza echinata L. cells and their transcriptional activation by elicitor-treatment. Plant Science 1997, (126):39~47.
[105] Tomoyoshi Akashi, Toshio Aoki, Shin-ichi Ayabe. Identification of a cytochrome P450 cDNA encoding (2S)-flavanone 2-hydroxylase of licorice(Glycyrrhiza echinata L. ; Fabaceae) which represents licodione synthase and flavone systhase Ⅱ. FEBS Letters. 1998, (431):287~290.
[106] 秦怀茂.对新疆南疆地区甘草资源利用现状的调查[J].新疆财经.2002,(5):63~64.
[107] 尹林克,程争鸣,潘惠霞.新疆荒漠地区几种重要野生药用植物资源及其人工栽培[J].干旱区研究.2002,19(4):28~32.
[108] 王慧中,黄绍兴.生物工程在药用植物中的应用[J].杭州师范学院学报.1994,(6):15~120.
[109] 崔堂兵,郭勇,林炜铁.提高植物细胞培养法生产次级代谢物产量的方法[J].植物生理学通讯.2001,37(5):479~482.
[110] 周立刚,王君健.植物毛状根的培养及其化学进展 2.植物毛状根的次生代谢[J].天然产物研究与开发。1999,11(3):104~112,
[111] 李森,吴新,董效成,等.药用植物次生代谢物细胞工程的进展[J].西北药学杂志.1998,13(4):173~174.
[112] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. Biosynthesis of the dimethylallyl moiety of glabrol in Glycyrrhiza glabra hairy root cultures via a non-mevalonate pathway. Phytochemistry. 2000(55):323~326.
[113] 谷会岩.中国甘草资源生态学研究[D].东北林业大学博士学位论文.2001.
[114] 贾连生.发挥资源优势实现甘草产业化经营[J].新疆农垦经济.2003,(2):34.
[115] 王继永,刘春生,王文全.中国东北地区甘草资源考察报告[J].中国中药杂志.2003,28(4):308~312.
[116] 王新海,王维治,沈世明.立足甘草资源优势推动产业化进程[J].内蒙古农业科技.2002,(增刊):141~143.
[2] Hooker W..J. Indes Kewensis plantornmphane. 1985,Ⅰ-Ⅸ.
[3] 李沛琼.中国甘草属二新种[J].西北植物研究,1984,4(2):117~120.
[4] 李学禹.新疆甘草属新分类群[J].植物研究,1989,9(1):29~356.
[5] Ficher F.E., Meyer C.A. Enumeratio plantarum, petropoli. 1842.
[6] Boissier E. Flora orientalis, Genevae dt Basileae. 1872, Ⅱ.
[7] Engler A., Pranti K. Glycyrrhiza L. Pflanzenfamilien. 1894, Ⅲ:307~308.
[8] 李沛琼.中国蝶形花科甘草属的分类研究[M].中国植物学会三十周年论文摘要汇编.1963,90~91.
出版社.2001,36~54.
[20] 王荷生.中国植物区系的性质和各成分问的关系[J].云南植物研究.2000,22(2):119~126.
[21] 张富民,李学禹.中国甘草属植物的形态变异与生态环境的关系[J].新疆环境保护.1997,19(1):32~37.
[22] 冯建忠,陆行舟,吕建民,等.利用甘草资源发展畜牧业生产的探讨[J].干旱区资源与环境.1995,9(2):84~88.
[23] 王春兰,王康才.中药材种养关键技术丛书[M].南京:江苏科学技术出版社.2002,243~251.
[24] 陈鹏,潘晓玲.河西走廊地区植物的区系特征[J].植物研究.2001,21(1):24~30.
[25] 张秦伟.秦岭种子植物区系科的组成、特点及其地理成分研究[J].植物研究.2001,21(4):536~545.
[26] 潘晓玲.新疆种子植物属的区系地理成分分析[J].植物研究.1999,19(3):249~258.
[27] 黄大焱.甘肃植被[M].兰州:甘肃科学技术出版社.1997,79~190.
[28] 中国科学院内蒙古宁夏综合考察队.内蒙古植被[M].北京:科学出版社.1985,142~866.
[29] 郑虎占,董泽宏,余靖.中药现代研究与应用[M].北京:学苑出版社,1997,1256~1279
[30] 周荣汉主编.中药资源学[M].北京:中国医药科技出版社.1993:299.
[31] 王春兰,王康才.中药材种养关键技术丛书[M].南京:江苏科学技术出版社.2002,243~251.
[32] 冯建忠,陆行舟,吕建民,等.利用甘草资源发展畜牧业生产的探讨[J].干旱区资源与环境.1995,9(2):84~89.
[33] Wei Li, Yoshihisa Asada, Takafumi Yoshikawa. Flavonoid constituents from Clycyrrhiza glabra hairy root cultures. Phytochemistry. 2000,55(5):447~456.
[34] Kirk P. Manfredi, Vasanti Vallurupalli, Maria Demidova, Kelly Kindscher, Lewis K. Panne11. Isolation of an anti-HIV diprenylated bibenzyl from Glycyrrhiza lepidota. Phytochemistry. 2001(58): 153~157.
[35] A.A. Al-Qarawi, H.A. Abdel-Rahman, B.H. Ali, S.A. El Mougy. Liquorice (Glycrrrhiza glabra) and the adrenal-kidney-pituitary axis in rats. Food and Chemical Toxicology. 2002, (40):1525~1527.
[36] 张继,姚健,丁兰,等.甘草的利用研究进展[J].草原与草坪.2000,(2):12~17.
[37] 李清海.漫话宁夏“五宝”[J].中学地理教学参考.1998,(4),27.
[38] 金宏.浅谈甘草药理作用[J].时珍国医国药.2000,11(1):78~79.
[39] 凌一揆.中药学[M].上海:上海科学技术出版社,1992:215.
[40] Hiroyuki Haraguchi, Harumi Ishikawa, Kenji Mizutani,Yukiyoshi Tamura, Takeshi Kinoshita. Antioxidative and superoxide scavenging activities of retrochalcones in Glycyrrhiza inflata. Bioorganic & Medicinal Chemistry. 1998,(6):339~347.
[41] Hiroyuki Haraguchi, Katsuhiko Tanimoto, Yukiyoshi Tamura, Kenji Mizutani, Takeshi Kinoshita. Mode of antibacterial action of retrochalcones from Glycyrrhiza inflata. Phytochemistry. 1998,48(1):125~129.
[42] 林霞,周翠芳,冯贵和.甘草甜素用于慢性肝炎疗效观察[J].山东医药工业.1997,(3):61.
[43] 海老名卓三郎.国外医学[J].中医中药分册.1988,10(4):13.
[44] 高文远,贾伟,段宏泉,等.抗病毒天然药物的研究与开发[J].化学工业与工程.2002,19(增刊):1~7.
[45] 王世润,张佩玲,寇丽.甘草酸的提取工艺及应用[J].天津轻工业学院学报.1999,(1):45~47.
[46] 聂日丛.爱滋病、甘草和苦瓜酒[J].酿酒科技.1994,(3):128~129.
[47] 江西新医学院.中药大辞典[M].(上册).上海:上海人民出版社.1977,567.
[48] 李勇,姜林.甘草甜素的生理功效与应用[J].食品工业.2001,(2):36~37.
[49] 尤新.天然功能性添加剂——甘草甜和抗氧剂[J].中国食品添加剂.2001,(5):4~6.
[50] 汤风霞,乔长晟.多功能甜味剂——甘草甜素[J].食品科技.1998,(4):28.
[51] 汤风霞,乔长晟.甘草甜素及生产工艺[J].农牧产品开发.1998,(5):18~20.
[52] 雷学军.甘草酸的制备及其在食品工业中的应用[J].食品工业.1994,(6):49~51.
[53] 谷利伟,翁新楚.食用天然抗氧化剂研究进展[J].中国油脂1997,22(3):37~40.
[54] Hatam O, et al. Chem. Pharm Bull., 1998,36(6): 58~63.
[55] Gordon, M.H., Jing An. J. Agric.Food Chem.,1995,43:1784~1788.
[56] Vinson, J.A. et al. J.Agrie. Food Chem, 1995,43:2800~2802.
[57] 雷学军.甘草酸的提取及其在化妆品工业中的应用[J].香料香精化妆品.1997,(2):35~37.
[58] 梁远强.甘草市场需求缺口大[J].新疆林业.2001,(1):32~33.
[59] 高桂荣.建平县甘草资源开发利用现状及保护措施[J].资源开发与市场。1998,14(1):14.
[60] 陈晓亚,刘培.植物次生代谢的分子生物学及基因工程[J].生命科学.1996,8(2):8~11.
[61] 曹仪植,宋占午主编.植物生理学[M].(第一版).兰州:兰州大学出版社.1998,193~206.
[62] 于树宏,李玲,何晓明.利用细胞培养技术提高次生代谢物的产量[J].生物学通报.1998,33(7):40~42.
[63] 王伟,钟英长.紫杉醇生物合成的研究[J].植物学通报.1999,16(2):138~149.
[64] 景谦平,尉芹,董娟娥.影响植物有效成分提取的因素评述[J].西北林学院学报.2001,16(3):29~33.
[65] 张继,杨永利,白贞芳,等.乌拉尔甘草与刺果甘草茎叶营养成分的比较[J].西北师范大学学报.2002,38(2):61~63.
[66] 张继,吴建,曾家豫,等.光果甘草茎叶营养成分的分析研究[J].中国医学生物技术应用杂志.2002,(2):51~53.
[67] 张继,刘阿萍,曾家豫,等.胀果甘草茎叶营养成分的分析研究[J].草业学报.2003,12(q):93~96.
[68] 张富民,李学禹,王少王行,等.中国甘草属植物种子与幼苗的氨基酸含量分析[J].石河子大学学报.1998,2(3):173~177.
[69] 王彩兰,韩富贵,薛万刚.蒙古产甘草中无机元素含量测定及其在临床应用中的意义[J].河南师范大学学报.1997,25(2):92~93.
[70] 孟红梅,韩多红.甘草营养成分的分析研究[J].中国野生植物资源.2002,21(5):59~60.
[71] 王振荣,邓立育,郭伟玲,等.黑龙江、新疆、安徽产甘草中糖、总皂甙及总黄酮成分的比较研究[J].黑龙江大学自然科学学报.2000,17(2):82~84.
[72] 张继,姚健,杨永利,等.甘草生物碱成分的分析及含量测定[J].西北植物学报.2001.21(6):1259~1262.
[73] 高素莲,王雪梅.甘草中皂甙和总黄酮类化合物的提取分离与测定[J].安徽大学学报.2000,24(4):70~74.
[74] 付玉杰,祖元刚,赵春建,等.超临界二氧化碳萃取甘草黄酮的工艺[J].应用化学.
2003,20(12):1217~1219.
[75] 张继,杨永利.相同条件下的5种甘草中甘草酸含量的比较研究[J].西北植物学报.1997,17(6):111~114.
[76] 孙志忠,郝文辉,岳秀丽,等.薄层比色法测定四个产地甘草中甘草酸含量的比较研究[J].黑龙江大学自然科学学报.2000,17(3):69~70.
[77] 刘凡岩,胡汉芳,阎正,等.用比色法测定不同产地甘草中甘草酸的含量[J].河北大学学报.1998,18(4):369~371.
[78] 牛国光,谢渝春,刘会洲.溶剂萃取法提取甘草酸[J].化学工业与工程.2002,19(增刊):480~484.
[79] 霍清,林强,赵玉娥.利用双水相乙醇-磷酸氢二钾体系萃取甘草有效成分的研究[J].精细化工.2002,19(2):65~67.
[80] 赵茜,李秉滔,刘欣,等.超声强化甘草酸提取的研究[J].商品科技.2000,(5):38~39.
[81] 郎惠云,谢志海,赵怡.原子吸收法在有机分析中的应用(V)——甘草及其制品中甘草酸分析发的研究[J].化学研究与应用.1995,7(1):72~75.
[82] 左伟,宋茂森,孔素玲,等.高效液相色谱法分析测定甘草、甘草酸制品及中成药中β-型甘草次酸的含量[J].色谱.1995,13(1):43~44.
[83] 潘学军,刘会洲,贾光和,等.从甘草中提取甘草酸不同提取方法的比较[J].过程工程学报.2001,11(1):102~105.
[84] 魏伟,王义明,罗国安.中药成分的高效毛细管电泳分析[J].药学学报.1997,32(6):476~480
[85] Guanbin Li, Hongyi Zhang, Yuquan Fan, Liang Zhao, Zhide Hu. Migration behavior and separation of active components in Glycyrrhiza uralensis Fisch and its commercial extract by micellar electrokinetic capillary chromatography. Jourmal of Chromatography A. 1999, (863):105~~114.
[86] 徐志栋,王敏,康怀萍.甘草属植物三萜成分研究概况[J].河北轻化工学院学报.1998,19(1):10~15.
[87] 高锦明主编.植物化学[M].北京:科学出版社.2003:156~193,255~281.
[88] 贾世山,邱桂芬.甘草地上部分的活性成分和资源利用[J].中草药.1994,25(2):106~107.
[89] Fukai, T., Sheng, C., Horikoshi, T., Nomura, T., Isoprenylated flavonoids from
underground parts of Glycyrrhiza glabra. Phytochemistry. 1996, (43):1119~1124.
[90] Kitakawa, I., Chen, W.Z., Hori, K., Harada, E.,Yasuda, N., Yoshikawa, M., Chemical studies of Chinese licorice-roots. I. Elucidation of five new flavonoid constituents from the roots of Glycyrrhizagiabra L. collected in Xinjiang. Chem. Pharm. Bulletin. 1994, (42):1056~1062.
[91] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. Isoprenylated flavonoids from hairy root cultures of Glycyrrhiza gIabra. Fhytochemistry. 1998, (47):389~392.
[92] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. The first prenylated biaurone, licoagrone from hairy root cultures of Giycyrrhiza glabra. Phytochemistry. 1999, 50(6):1015~1019.
[93] Li, W., Asada, Y., Yoshikawa, T., Antimicrobial flavonoids from Glycyrrbiza giabra hairy root cultures. PlantaMedica. 1998,64(8):746~747.
[94] Li, W., Asada, Y., Koike, K., Hirotani, M., Rui, H., Yoshikawa, T., Nikaido, T., Two new flavonoids from Glycyrrhiza pallidilora hairy root cultures. Phytochemistry. 2001, (58):595~598.
[95] Wei Li, Kazuo Koike, Yoshihisa Asada, Masao Hirotani, Hekai Rui, Takafumi Yoshikawa, Tamotsu Nikaido. Flavonoids from Glycyrrhiza hairy root cultures. Phytochemistry. 2002, (60):351~355.
[96] Hiroaki Hayashi, Miyako Yasuma, Noboru Hiraoka, Yasumass Ikeshiro, HirobumiYamamoto, Erdem Sezik, Gisho Honda, Mamoru Tabata. Flavonoid variation in the leaves of Glycyrrhiza glabra. Phytochemistry. 1996,42(3):701~704.
[97] Hiroaki Hayashi, Noboru Hiraoka, Yasumass Ikeshiro, Hirobumi Yamamoto. Organ specific localization of flavonoids in Glycyrrhiza glabra L. Plant Science. 1996,(116):233~238.
[98] 王宁.天然产物与植物开发利用[J].青海农业科技.1999,(2):47~48.
[99] Mann J. Secondary metabolism. Clarendon Press, Oxford. 1978,1~20,79~152.
[100] Luckner M. Secondary metabolism in microorganisms, plants, and animals. 3rd Edition. Springer Verlag, Dem Ger. 1990,15~61.
[101] 唐建军,项田夫,张禄源,等.植物次生代谢、离体培养条件下次生代谢物积累及其
调控研究进展[J].中国野生植物资源.1998,17(4):1~6.
[102] 汤德良.植物抗虫的次生代谢物质[J].世界农业.1999,(3):32~33.
[103] 朱西儒,雷光富.药用植物细胞培养代谢全能性及产物检测技术的研究进展[J].广西科学院学报.1998,14(2):1~6.
[104] Tomoyoshi Akashi, Toshio Aoki, Takeyoshi Takahashi, Nanako Kameya, Ikuo Nakamura, Shin-ichi Ayabe. Cloning of cytochrome P450 cDNAs from cultured Glycyrrhiza echinata L. cells and their transcriptional activation by elicitor-treatment. Plant Science 1997, (126):39~47.
[105] Tomoyoshi Akashi, Toshio Aoki, Shin-ichi Ayabe. Identification of a cytochrome P450 cDNA encoding (2S)-flavanone 2-hydroxylase of licorice(Glycyrrhiza echinata L. ; Fabaceae) which represents licodione synthase and flavone systhase Ⅱ. FEBS Letters. 1998, (431):287~290.
[106] 秦怀茂.对新疆南疆地区甘草资源利用现状的调查[J].新疆财经.2002,(5):63~64.
[107] 尹林克,程争鸣,潘惠霞.新疆荒漠地区几种重要野生药用植物资源及其人工栽培[J].干旱区研究.2002,19(4):28~32.
[108] 王慧中,黄绍兴.生物工程在药用植物中的应用[J].杭州师范学院学报.1994,(6):15~120.
[109] 崔堂兵,郭勇,林炜铁.提高植物细胞培养法生产次级代谢物产量的方法[J].植物生理学通讯.2001,37(5):479~482.
[110] 周立刚,王君健.植物毛状根的培养及其化学进展 2.植物毛状根的次生代谢[J].天然产物研究与开发。1999,11(3):104~112,
[111] 李森,吴新,董效成,等.药用植物次生代谢物细胞工程的进展[J].西北药学杂志.1998,13(4):173~174.
[112] Yoshihisa Asada, Wei Li, Takafumi Yoshikawa. Biosynthesis of the dimethylallyl moiety of glabrol in Glycyrrhiza glabra hairy root cultures via a non-mevalonate pathway. Phytochemistry. 2000(55):323~326.
[113] 谷会岩.中国甘草资源生态学研究[D].东北林业大学博士学位论文.2001.
[114] 贾连生.发挥资源优势实现甘草产业化经营[J].新疆农垦经济.2003,(2):34.
[115] 王继永,刘春生,王文全.中国东北地区甘草资源考察报告[J].中国中药杂志.2003,28(4):308~312.
[116] 王新海,王维治,沈世明.立足甘草资源优势推动产业化进程[J].内蒙古农业科技.2002,(增刊):141~143.
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