簡易檢索 / 詳目顯示

回結果列表
研究生: 林傳福
Chwan-Fwu Lin
論文名稱: 中草藥成分之研究 - 白珠樹、馬藍、三消草、檄樹果實、馬蘭與補骨脂
Studies on the costituents of Chinese herbs-Gaultheria leucocarpa, Strobilanthes cusia, Ruellia tuberosa, Noni, Aster indicus, Fructus Psoraleae
指導教授: 陳建添
Chen, Chien-Tien
許順吉
Sheu, Shuenn-Jyi
陳建志
Chen, Chien-Chih
學位類別: 博士
Doctor
系所名稱: 化學系
Department of Chemistry
論文出版年: 2007
畢業學年度: 95
語文別: 中文
論文頁數: 189
中文關鍵詞: 白珠樹馬藍三消草檄樹馬蘭補骨脂
英文關鍵詞: Gaultheria leucocarpa, Strobilanthes cusia, Ruellia tuberosa, Morinda citrifolia, noni, Aster indicus, Gaultheria leucocarpa, bakuchiol, psoralen, angelicin
論文種類: 學術論文
相關次數: 點閱:94下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 本論文主要是從事植物成分與定量分析之研究,共分六部分:
    第一部分為白珠樹(Gaultheria leucocarpa Bl. f. cumingiana ( Vidal ))之成分研究。白珠樹為杜鵑花科(Ericaceae)植物,本實驗自白珠樹地上部之甲醇抽出物經由各種管柱層析進行化學成分之分離,共純化出12-hydroxy-13-acetyl -8,11,13-podocarpatrien-18-oic acid (GL-1), 4,12-dihydroxy-13-acetyl-8,11,13-podocarpatriene (GL-2), 5-methoxy-9- xylopyranosyl-(+)-isolariciresinol (GL-3), schizandriside (GL-4), lyoniside (GL-5), Vanillic acid (GL-6), Scopoletin (GL-7)七個化合物,其中GL-1GL-3三個新化合物經由各種光譜資料分析,已知化合物GL-4GL-7藉由文獻資料比對確立其構造。

    第二部分為馬藍(Strobilanthes cusia (Nees) Kuntze)之成分研究。馬藍為爵床科(Acanthaceae)植物,本實驗自馬藍全草之甲醇抽出物經由各種管柱層析進行化學成分之分離,共純化出2-hydroxyquinazolin-4(1H)-one (SC-1), 2,4(1H, 3H)-quinazolinedione (SC-2), 4-methoxy-2(1H)- quinazolineone (SC-3), 2-hydroxy-1,4-benzoxazin-3-one (SC-4), 2- benzoxazolinone (SC-5), indirubin (SC-6), tryptanthrin (SC-7), lupeol (SC-8), betulin (SC-9), 1-hydroxy-3-methyl-5,10anthraquinone (SC-10)十個化合物,其中包含SC-1一個新化合物經由各種光譜資料分析,已知化合物SC-2 SC-10藉由文獻資料比對確立其構造。
    .
    第三部分為三消草(Ruellia tuberosa L.)之成分研究。三消草Ruellia tuberosa L.為爵床科 Acanthaceae 植物,本實驗自三消草全草之甲醇抽出物經由各種管柱層析進行化學成分之分離,共純化出cirsimaritin (RT-1), cirsimarin (RT-2), cirsiliol 4’-glucoside (RT-3), sorbifolin (RT-4), pedalitin (RT-5), Betulin (RT-6), Vanillic acid (RT-7), Indole-3-carboxaldehyde (RT-8)八個已知化合物,藉由文獻資料比對確立其構造。經細胞毒性試驗證實cirsimaritin (RT-1)和cirsiliol 4’-glucoside (RT-3)對 KB 細胞有抑制效果,其IC50分別為95.7及36.4 M而cirsimarin (RT-2)則對 HepG2 cell 有抑制效果,其IC50為81.5 M。

    第四部分為檄樹(Morinda citrifolia Linn.)果實noni之成分研究。檄樹為茜草科Rubiaceae植物,本實驗自其果實noni之乙醇抽出物經由各種管柱層析進行化學成分之分離,共純化出1,6-dihydroxy-5-methoxy-2-methoxymethylanthraquinone (MC-1), 1,5,7-trihydroxy -6- methoxy-2-methoxymethylanthraquinone (MC-2), isoamericanoic acid A (MC-3), americanin A (MC-4), americanin D (MC-5), 3,3’-bisdemethylpinoresinol (MC-6), luteolin (MC-7), scopoletin (MC-8), 3-methoxy-2-hydroxyl-cinnamaldehyde (MC-9), p-cresol(MC-10), p-hydroxybenzoic acid (MC-11), p-hydroxybenzaldehyde (MC-12), 3-methoxy-4-hydroxy-benzaldehyde (MC-13), 2,5-dihydroxy-4-methoxybenzaldehyde (MC-14)十四個化合物,其中MC-1 MC-3三個新化合物經由各種光譜資料分析,已知化合物MC-4 MC-14藉由文獻資料比對確立其構造。

    第五部分為馬蘭(Aster indicus L.; Kalimeris indica (L.) Sch. Bip.)之成分研究。馬蘭為菊科(Compositae)植物,本實驗自馬蘭全草之酒精抽出物經由各種管柱層析進行化學成分之分離,共純化出4-hydroxy-3-1-(methoxycarbonyl)vinyloxybenzoic acid (AI-1), 5-(1- carboxylvinyloxy)-2-hydroxybenzoic acid (AI-2), 4-allyl-2,6-dimethoxyphenyl 3-methylbutanoate (AI-3), 4-Allyl-2-methoxyphenyl 2-methylbutanoate (AI-4), 3-(1-carbonylvinyloxy -4-hydroxybenzoic acid (AI-5), 4-hydroxybenzaldehyde (AI-6), vanillin (AI-7), vanillic acid (AI-8), friedelin (AI-9), trans-cosanyl ferulate (AI -10), methyl 3-O-caffeoyl quinate (AI-11), 1H-indole -3-carboxaldehyde (AI-12), methyl 3-O-feruloylquinate (AI-13), methyl trans -ferulate (AI -14), arillatoses B (AI -15), erulic acid (AI -16), p-coumaric acid (AI -17), 1H-indole-3-carboxylic acid (AI-18), kaempferol-7-O--D- glucopyranoside (AI-19), isoquercitrin (AI-20), apigenin-7-O-(6-methyl ester) -glucuronide (AI-21), kaempferol (AI-22), quercetin (AI-23), 4-hydroxy benzoic acid (AI-24), 3,4-dihydroxybenzoic acid (AI-25), rutin (AI-26), nicotiflorin (AI-27), methyl 3,4-di-O-caffeoyl quinate (AI-28), 3,5-di-O- caffeoylquinic acid (AI-29), methyl 3,5-di-O-caffeoyl quinate (AI-30), 1,3-di-O-caffeoylquinic acid (AI-31)三十一個化合物,其中AI-1AI-4四個新化合物經由各種光譜資料分析,已知化合物AI-5AI-14藉由文獻資料比對確立其構造。

    第六部分為補骨脂(Fructus Psoraleae)及其濃縮製劑中bakuchiol、psoralen 及angelicin之含量分析研究。補骨脂(Fructus Psoraleae)為豆科植物(Psoralea corylifolia L.)補骨脂的成熟果實,本實驗利用高效液相層析儀開發補骨脂 Psoralea corylifolia L. 中 bakuchiol, psoralen 和 angelicin 三種指標成分之同時定量分析方法。三種指標成分之intra-day試驗RSD值為 0.32~1.50 % ; inter-day試驗 RSD值為 0.20~1.03 %。針對十八種樣品進行定量分析,結果 bakuchiol, psoralen 和 angelicin 於十種生藥材中之含量範圍分別為 36.2971.06, 2.5413.07 和 2.279.21 mg/g;而於八種市售濃縮製劑中之含量範圍則分別為 0.6221.16, 0.635.23 和 0.675.37 mg/g。

    The purpose of this study is to investigate the chemical constituents and quantitative analysis. There are six parts in this study.
    The first part is the study on the constituents of Gaultheria leucocarpa Bl. f. cumingiana ( Vidal ). The methanolic extract of the aerial part of G. leucocarpa (Ericaceae) was separated by column chromatography to afford seven compounds, including 12-hydroxy-13-acetyl-8,11,13-podocarpatrien -18-oic acid (GL-1), 4,12-hydroxy-13-acetyl-8,11,13-podocarpatriene (GL- 2), 5-methoxy-9-xylopyranosyl-(+)-isolariciresinol (GL-3), schizandriside (GL-4), lyoniside (GL-5), vanillic acid (GL-6), scopoletin (GL-7). The structures of new compounds GL-1GL-3 were established by spectral analyses. The known compounds GL-4GL-7 were identified by comparison of their spectral data with those in the literature.

    The second part is the study on the constituents of Strobilanthes cusia (Nees) O. Kuntze. The methanolic extract of the whole herbs of S. cusia (Acanthaceae) was separated by column chromatography to afford ten compounds, including 2-hydroxyquinazolin-4(1H)-one (SC-1), 2,4(1H, 3H)-quinazolinedione (SC-2), 4-methoxy-2(1H)-quinazolineone (SC-3), 2-hydroxy-1,4-benzoxazin-3-one (SC-4), 2-benzoxazolinone (SC-5), indirubin (SC-6), tryptanthrin (SC-7), lupeol (SC-8), betulin (SC-9), 1-hydroxy -3-methyl-5,10anthraquinone (SC-10). The structure of new compound SC-1 was established by spectral analyses. The known compounds SC-2SC-10 were identified by comparison of their spectral data with those in the literature.

    The third part is the study on the constituents of Ruellia tuberosa L.. The methanolic extract of the whole herbs of R. tuberosa (Acanthaceae) was separated by column chromatography to afford eight compounds, including cirsimaritin (RT-1), cirsimarin (RT-2), cirsiliol 4’-glucoside (RT-3), sorbifolin (RT-4), pedalitin (RT-5), Betulin (RT-6), Vanillic acid (RT-7), Indole-3- carboxaldehyde (RT-8). The structures of these compounds were identified by comparison of their spectral data with those in the literature. Furthermore, these compounds were also examined for their antiproliferative effects on HepG2 and KB cancer cell lines. Compounds cirsimaritin (RT-1) and cirsiliol 4’-glucoside (RT-3) showed cytotoxic effects against the KB cell line with IC50 values of 95.7 and 36.4 M respectively, while cirsimarin (RT-2) exhibited a cytotoxic effect against against the HepG2 cell line with an IC50 value of 81.5 M.

    The fourth part is the study on the constituents of Morinda citrifolia. The ethanolic extract of the fruit of Morinda citrifolia (Rubiaceae) was separated by column chromatography to afford fourteen compounds, including 1,6-dihydroxy-5-methoxy-2-methoxymethylanthraquinone (MC-1), 1,5,7- trihydroxy-6-methoxy-2-methoxymethylanthraquinone (MC-2), isoamericanoic acid A (MC-3), americanin A (MC-4), americanin D (MC-5), 3,3’- bisdemethylpinoresinol (MC-6), luteolin (MC-7), scopoletin (MC-8), 3-methoxy-2-hydroxyl-cinnamaldehyde (MC-9), p-cresol(MC-10), p-hydroxybenzoic acid (MC-11), p-hydroxybenzaldehyde (MC-12), 3-methoxy-4-hydroxy-benzaldehyde (MC-13), 2,5-dihydroxy-4-methoxy benzaldehyde (MC-14). The structures of new compounds MC-1 MC-3 were established by spectral analyses. The known compounds MC-4 MC-14 were identified by comparison of their spectral data with those in the literature.
    The fifth part is the study on the constituents of Aster indicus L.. A. indicus. The ethanolic extract of the whole herbs of A. indicus L.(Compositae) was separated by column chromatography to afford thirty-one compounds, including 4-hydroxy-3-1-(methoxycarbonyl)vinyloxybenzoic acid (AI-1), 5-(1-carboxylvinyloxy)-2-hydroxybenzoic acid (AI-2), 4-allyl-2,6- dimethoxyphenyl 3-methylbutanoate (AI-3), 4-Allyl-2-methoxyphenyl 2-methylbutanoate (AI-4), 3-(1-carbonylvinyloxy -4-hydroxybenzoic acid (AI-5), 4-hydroxybenzaldehyde (AI-6), vanillin (AI-7), vanillic acid (AI-8), friedelin (AI-9), trans-cosanyl ferulate (AI -10), methyl 3-O-caffeoyl quinate (AI-11), 1H-indole-3-carboxaldehyde (AI-12), methyl 3-O-feruloylquinate (AI-13), methyl trans-ferulate (AI -14), arillatoses B (AI -15), erulic acid (AI -16), p-coumaric acid (AI -17), 1H-indole-3-carboxylic acid (AI-18), kaempferol-7-O--D-glucopyranoside (AI-19), isoquercitrin (AI-20), apigenin-7-O-(6-methyl ester)-glucuronide (AI-21), kaempferol (AI-22), quercetin (AI-23), 4-hydroxybenzoic acid (AI-24), 3,4-dihydroxybenzoic acid (AI-25), rutin (AI-26), nicotiflorin (AI-27), methyl 3,4-di-O-caffeoyl quinate (AI-28), 3,5-di-O-caffeoylquinic acid (AI-29), methyl 3,5-di-O-caffeoyl quinate (AI-30), 1,3-di-O-caffeoylquinic acid (AI-31). The structures of new compounds AI-1AI-4 were established by spectral analyses. The known compounds AI-5AI-31 were identified by comparison of their spectral data with those in the literature.

    The last part is the study on the bakuchiol, psoralen, and angelicin content of Fructus Psoraleae and its commercial concentrated products. Bakuchiol, psoralen and angelicin are bioactive constituents of Fructus Psoraleae (Buguzhi, the seeds of Psoralea corylifolia). The present study provides details of an HPLC method for the separation of bakuchiol, psoralen, and angelicin in Fructus Psoraleae. The relative standard deviation of the marker substances for intraday and interday analyses were 0.321.50 % and 0.201.03 %, respectively. The bakuchiol, psoralen and angelicin contents ranged between 36.2971.06, 2.5413.07 and 2.279.21 mg/g for ten raw material samples of Fructus Psoraleae, and 0.6221.16, 0.635.23 and 0.675.37 mg/g for eight commercial concentrated products of Fructus Psoraleae.

    目錄 目錄----------------------------------------------------------------------------------------I 表目錄------------------------------------------------------------------------------------V 圖目錄-----------------------------------------------------------------------------------VI 流程圖目錄----------------------------------------------------------------------------VII 附圖目錄------------------------------------------------------------------------------VIII 名詞縮寫------------------------------------------------------------------------------XVI 第一章 白珠樹(Gaultheria leucocarpa Bl. f. cumingiana (Vidal))之成分研究-----------------------------------------------------------------------------------1 1.1 前言----------------------------------------------------------------------------------1 1.2 實驗部份----------------------------------------------------------------------------4 1.2-1 儀器--------------------------------------------------------------------------------4 1.2-2 層析法-----------------------------------------------------------------------------4 1.2-3 抽出及分離-----------------------------------------------------------------------5 1.2-4 相關成分之物理性質-----------------------------------------------------------7 1.3 結果與討論------------------------------------------------------------------------10 1.4 結論---------------------------------------------------------------------------------17 1.5 參考文獻---------------------------------------------------------------------------18 第二章 馬藍 Strobilanthes cusia (Nees) Kuntze之成分研究-----------------20 2.1 前言---------------------------------------------------------------------------------20 2.2 實驗部份---------------------------------------------------------------------------23 2.2-1 儀器-------------------------------------------------------------------------------23 2.2-2 層析法----------------------------------------------------------------------------23 2.2-3 抽出及分離----------------------------------------------------------------------23 2.2-4 相關成分之物理性質----------------------------------------------------------26 2.3 結果與討論------------------------------------------------------------------------28 2.4 結論---------------------------------------------------------------------------------32 2.5 參考文獻---------------------------------------------------------------------------33 第三章 三消草(Ruellia tuberosa L.)全草之成份研究---------------------------34 3.1 前言---------------------------------------------------------------------------------34 3.2 實驗部份---------------------------------------------------------------------------36 3.2-1 儀器-------------------------------------------------------------------------------36 3.2-2 層析法----------------------------------------------------------------------------36 3.2-3 抽出及分離----------------------------------------------------------------------37 3.2-4 相關成分之物理性質----------------------------------------------------------39 3.3 結果與討論------------------------------------------------------------------------42 3.4 結論---------------------------------------------------------------------------------49 3.5 參考文獻---------------------------------------------------------------------------50 第四章 檄樹(Morinda citrifolia Linn.)果實noni之成份研究-----------------52 4.1 前言---------------------------------------------------------------------------------52 4.2 實驗部份---------------------------------------------------------------------------57 4.2-1 儀器-------------------------------------------------------------------------------57 4.2-2 層析法----------------------------------------------------------------------------57 4.2-3 抽出及分離----------------------------------------------------------------------58 4.2-4 相關成分之物理性質----------------------------------------------------------60 4.3 結果與討論------------------------------------------------------------------------64 4.4 結論---------------------------------------------------------------------------------75 4.5 參考文獻---------------------------------------------------------------------------76 第五章馬蘭(Aster indicus)全草之成份研究---------------------------------------79 5.1 前言---------------------------------------------------------------------------------79 5.2 實驗部份---------------------------------------------------------------------------82 5.2-1 儀器-------------------------------------------------------------------------------82 5.2-2 層析法----------------------------------------------------------------------------82 5.2-3 抽出及分離----------------------------------------------------------------------83 5.2-4 相關成分之物理性質----------------------------------------------------------86 5.3 結果與討論------------------------------------------------------------------------95 5.4 結論--------------------------------------------------------------------------------104 5.5 參考文獻--------------------------------------------------------------------------105 第六章 補骨脂(Fructus Psoraleae)及其濃縮製劑中Bakuchiol、Psoralen 及Angelicin之含量分析研究---------------------------------------------------109 6.1 前言--------------------------------------------------------------------------------109 6.2 實驗部份--------------------------------------------------------------------------112 6.2-1 材料-----------------------------------------------------------------------------112 6.2-2 抽出與分離--------------------------------------------------------------------113 6.2-3 成分鑑定-----------------------------------------------------------------------114 6.2-4分析方法------------------------------------------------------------------------114 6.3 結果與討論-----------------------------------------------------------------------118 6.3-1 指標成分的分離--------------------------------------------------------------118 6.3-2 HPLC的分離結果------------------------------------------------------------118 6.3-3 最佳萃取條件之探討--------------------------------------------------------118 6.3-4 檢量線--------------------------------------------------------------------------119 6.3-5 分析條件的適宜性評估-----------------------------------------------------119 6.3-6 各種乾燥補骨脂和市售補骨脂濃縮製劑中之bakuchiol, psoralen和 angelicin含量比較---------------------------------------------------------------121 6.4 結論--------------------------------------------------------------------------------122 6.5 參考文獻--------------------------------------------------------------------------123 第七章 總結論-----------------------------------------------------------------------125 第八章 附圖--------------------------------------------------------------------------127

    1.5 參考文獻

    1. 國家中醫藥管理局中華本草編委會,中華本草(6),上海科學技術出版社,1999,pp. 14-15。
    2. 馬小軍、趙玲等,中草藥,2001,32:945-949。
    3. 鄭武燦,2000,台灣植物圖鑑,茂昌出版社,台北。pp. 732。
    4. 邱年永,張光雄,原色台灣藥用植物圖鑑(5),南天書局,台北,1988,p.212.
    5. Simon JE, Chadwick AF, et al., 1984, Herbs: an indexed bibliography. Archon books, Hamden, CT.
    6. 木全章、楊以精,藥學學報,1966,13:451-3。
    7. 馬小軍、鄭俊華等,中國中藥雜誌,2001,26:85-89。
    8. Zhang, Z.; Guo, D.; Li, C.; Zheng, J.; Koike, K.; Jia, Z.; Nikaido, T. J. Nat. Prod. 1999, 62, 297.
    9. Zhang, Z.; Guo, D.; Li, C.; Zheng, J.; Koike, K.; Jia, Z.; Nikaido, T. Phytochemistry 1999, 51, 469.
    10. 中國民族藥誌(I),1992,衛生部藥品生物製品鑑定所,人民衛生出版社,北京。
    11. 貴州中藥材質量標準,1990,貴州省衛生廳,貴州人民出版社,貴陽。
    12. 張治針、果德安等,中草藥,1998,29:508-511。
    13. 張治針、果德安等,中草藥,1999,30:167-169。
    14. 張治針、果德安等,中草藥,1999,30:247-250。
    15. 張治針、果德安等,藥學學報,1999,34:128-131。
    16. 張治針、果德安等,中國中藥雜誌,1999,24:164-165。
    17. Ara, I.; Siddiqui, B. S.; Faizi, S.; Siddiqui, S. J. Nat. Prod. 1990, 53, 816-820.
    18. Itokawa, H.; Ichihara, Y.; Takeya, K.; Morita H.; Motidome, M. Phytochemistry 1991, 30, 4071-4073.
    19. Craveiro, A. A.; Silverira, E. R. Phytochemistry 1982, 21, 2571-2574.
    20. Kau, Y. H.; Chang, C. I. J. Nat. Prod. 2000, 63, 650-652.
    21. Lin, W. H.; Fang, J. M.; Cheng, Y. S. Phytochemistry 1998, 48, 1391-1397.
    22. Vecchiett, V.; Ferrari, G.; Orsini, F.; Pelizzoni, F. Phytochemistry 1979, 18, 1847-1849.
    23. Sakakibara, J.; Hiroji, I.; Ina, H.; Yasue, M. Yakugaku Zasshi 1974, 94, 1377-1383.
    24. Ogawa, M.; Ogihara, Y. Chem. Pharm. Bull. 1976, 24, 2102-2105.
    25. Tasako, M.; Ohya, K.; Takahashi, K. Chem. Pharm. Bull. 1979, 27, 1422-1425.
    26. Šmite, E.; Pan, H.; Lundgren, L. N. Phytochenistry 1995, 40, 341-343.
    27. Karikome, H.; Mimaki, Y.; Sashida, Y. Phytochenistry 1991, 30, 315-319.
    28. Inoshri, S.; Sasaki, M.; Kohda, H.; Otsuka, H.; Yamasaki, K. Phytochenistry 1987, 26, 2811-2814.
    29. Lundgren, L. N.; Popoff, T.; Theander, O. Phytochenistry 1981, 20, 1967-1969.
    30. Achenbach, H.; Lowel, M.; Waibel, R.; Gupta, M.; Pablo, S. Planta Med. 1992, 58, 270-272.
    31. Lee, C. K.; Lee, P. H.; Kuo, Y. H. J. Chin. Chem. Soc. 2001, 48, 1053-1058.
    32. Carpinella, M. C., Ferrayoli, C. G.; Palacios, S. M. J. Agric. Food Chem. 2005, 53, 2922-2927.

    2.5 參考文獻

    1. 國家中醫藥管理局《中華本草》編委會,中華本草,第七卷,上海科學技術出版社,上海,1999,p. 450-453。
    2. 高國清,何玉玲,何禮剛,張永勳,中醫藥雜誌,2001,12:41-49。
    3. 樓之岑,秦波等,常用中藥材品種整理和質量研究,第一冊,北京醫科大學、中國協和醫科大學聯合出版社,北京,1995,p. 303-342。
    4. 蘇淑于,中藥材板藍根及大青葉之成分分析與基原辨識,國立台灣師範大學化學研究所碩士論文,台北,2005。
    5. 陳鎔,江山,中藥材,1990,13:246-247。
    6. 何玉玲,郭昭麟,高國清,陳忠川,張永勳,中醫藥雜誌,2001,12:267-283。
    7. 臺灣植物誌編輯委員會,臺灣植物誌,第二版,第四卷,國立台灣大學植物學系,臺北,1998,p.678-686。
    8. 何玉玲,板藍根、大青葉及青黛之生藥學及藥理學研究,中國醫藥研究所博士論文,台中,2001。
    9. 李玲,梁華清,廖時萱,喬傳卓,楊根金,董同義,藥學學報,1993,28: 238-240。
    10. Mizuno, T.; Ishino, Y. Tetrahedron 2002, 58, 3155-3158.
    11. Buscemi, S.; Vivona, N. J.Org. Chem. 1996, 61, 8397-8401.
    12. Alemagna, A.; Buttero, P. D.; Licandro, E.; Maiorana, S.; Papagni, A. Tetrahedron 1985, 41, 3321-3330.
    13. Lee, E. T.; Park, J. E.; Jahng, Y. Tetrahedron 2003, 44, 1883-1886.
    14. Semmelhack, M. F.; Ho, S.; Cohen, D.; Steigerwald, M.; Lee, M. C.; Lee, G.; Gilbert, A. M.; Wulff, W. D.; Ball, R. G. J Am. Chem. Soc. 1994, 116, 7108-7122.

    3.5 參考文獻

    1. 莊道揚,傅傑偉,花東地區常見藥用植物,國立台東社會教育館,台東,1995, p.86.
    2. 邱年永,張光雄,原色台灣藥用植物圖鑑(5),南天書局,台北,1988,p.212.
    3. Chiu, N. Y. and Chang, K. H. 1995. The illustrated medicinal plants of Taiwan (2). Mingtong Medical J. 226: 1.
    4. Chen, F. A., Wu, A. B., Shieh, P., Kuo, D. H.; Hsieh, C. Y. Food. Chem. 2006, 94, 14-18.
    5. Wagner, H., Danninger, H., Iyengar, M. A., Seligmann, O., Farkas, L., Subramanian, S. S.; Nair, A. G. R. Chem. Ber. 1971, 104, 2681-2687.
    6. Teng, W. Y., Huang, Y. L., Shen, C. C., Huang, R. L., Chung, R. S.; Chen, C. C. J. Chin. Chem. Soc. 2005, 52, 1253-1255.
    7. Youssef, D.; Frahm, A. W. Planta Med. 1995, 61, 570-573.
    8. Nakasugi, T.; Komai, K. J. Agric. Food Chem. 1998, 46, 2560-2564.
    9. Liu, Y. L., Ho, D. K.; Cassady, J. M. J. Nat. Prod. 1992, 55, 357-363.
    10. Mesquita, A. A. L., Corrêa, D. de B., de Pádua. A. P., Guedes, M. L. O.; Gottlieb O. R. Phytochemistry 1986, 25, 1255-1256.
    11. Grayer, R. J., Veitch, N. C., Kite. G. C., Price, A. M.; Kokubun, T. Phytochemistry 2001, 56, 559-567.
    12. Hasrat, J. A., Pieters, L., Claeys, M.; Vlietinck, A. J. Nat. Prod. 1997, 60, 638-641.
    13. Li, Q. M., Claeys, M. Biol. Mass Spectrum 1994, 23, 406-416.
    14. Morita, N., Shimizu, M.; Arisawa, M. Phytochemistry 1973, 12, 421-423.
    15. Silva, M., Wiesenfeld, A., Sammes, P. G.; Tyler, T. W. Phytochemistry 1977, 16, 379-385.
    16. Zaidi, F., Voirin, B., Jay, M.; Viricel, M. R. Phytochemistry 1998, 48, 991-994.
    17. Horie, T., Tominaga, H., Kawamura, Y.; Yamada, T. J. Org. Chem. 1992, 57, 3343-3347.
    18. Siddiqui, S., Hafeez, F., Begum, S.; Siddiqui, B. S. J. Nat. Prod. 1988, 51, 229-233.
    19. Lee, C. K., Lee, P. H.; Kuo, Y. H. J. Chin. Chem. Soc. 2001, 48, 1053-1058.
    20. Yue, Q., Miller, C. J., White, J. F., Jr.; Richardson, M. D. J. Agric. Food Chem. 2000, 48, 4687-4692.

    4.5 參考文獻

    1. ChanBlanco, Y.; Vaillant, F.; Perez, A. M.; Reynes, M.; Brillouet, J. M.; Brat, P. Journal of Composition and Analysis 2006, 19, 645-654.
    2. Wang, M. F.; Kikuzaki, H.; Jin, Y.; Nakatani, N.; Zhu, N.; Csiszar, K.; Boyd, C.; Rosen, R. T.; Ghai, G.; Ho, C. T. J. Nat. Prod. 2000, 63, 1182-1183.
    3. 國家中醫藥管理局《中華本草》編委會,中華本草,第六卷,上海科學技術出版社,上海,1999,p.447-448。
    4. 邱年永,張光雄,原色台灣藥用植物圖鑑 (5),南天書局,台北,1988,p.221。
    5. 歐潤芝,台灣中草藥圖鑑,三聯彩色印刷有限公司,台北,1998, p.212。
    6. 臺灣植物誌編輯委員會,臺灣植物誌,第二版,第四卷,國立台灣大學植物學系,臺北,1998,p.299。
    7. Kamiya, K.; Tanaka, Y.; Endang, H.; Umar, M.; Satake, T. J. Agric. Food. Chem. 2004, 52, 5843-5848.
    8. Hirazumi, A.; Furusawa, E.; Chou, S. C.; Hokama, Y. Proc. West. Pharmacol. Soc. 1994, 37, 145-146.
    9. Hirazumi, A.; Furusawa, E.; Chou, S. C.; Hokama, Y. Proc. West. Pharmacol. Soc. 1996, 39, 25-27.
    10. Pawlus, A. D.; Su, B. N.; Keller, W. J.; Kinghorn, D. J. Nat. Prod. 2005, 68, 1720-1722.
    11. Saludes, J. P.; Garson, M. J.; Franzblau, S. G.; Aguinaldo, A. M. Phytotherapic Research 2002, 16, 683-685.
    12. Sang, S.; He, K.; Liu, G.; Zhu, N.; Wang, M.; Jhoo, J. W.; Zheng, Q.; Dong, Z.; Ghai, G.; Rosen, R. T.; Ho, C. T. Tetrahedron Letters 2001, 42, 1823-1825.
    13. Sang, S.; Liu, G.; He, K.; Zhu, N.; Dong, Z.; Zheng, Q.; Rosen, R. T.; Ho, C. T. Bioorganic & Medicinal Chemistry 2003, 11, 2499-2502.
    14. Sang, S.; He, K.; Liu, G.; Zhu, N.; Cheng, X.; Wang, M.; Zheng, Q.; Dong, Z.; Ghai. G. Organic Letters 2001, 3, 1307-1309.
    15. Farine, J. P.; Legal, L.; Moreteau, B.; Quere, J. L. L. Phytochemistry 1996, 41, 433-438.
    16. Levand, O.; Larson, H. Planta Med. 1979, 36, 186-187.
    17. Wang, M. F.; Kikuzaki, H.; Csiszar, K.; Boyd, C. D.; Maunakea, A.; Fong, S. F. T.; Ghai, G.; Rosen, R. T.; Nakatani, N.; Ho, C. T. J. Agric. Food Chem. 1999, 47, 4880-4882.
    18. Liu, G..; Bode, A.; Ma, W. Y.; Sang, S.; Ho, C. T.; Dong, Z. Cancer Res. 2001, 61, 5749-5756.
    19. Kamiya, K.; Tanaka, Y.; Endang, H.; Umar, M.; Satake, T. J. Agric. Food Chem. 2004, 52, 5843-5848.
    20. Su, B. N.; Pawlus, A.D.; Jung, H. A.; Keller, W. J.; Mclaughlin, J. L.; Kinghorn, A. D. J. Nat. Prod. 2005, 68, 592-595.
    21. Pawlus, A. D.; Su, B. N.; Keller, W. J.; Kinghorn, A. D. J. Nat. Prod. 2005, 68, 1720-1722.
    22. Kamiya, K.; Tanaka, Y.; Endang, H.; Umar, M.; Satake, T. Chem. Pharm. Bull. 2005, 53, 1597-1599.
    23. Hasegawa, T.; Fukuyama Y.; Koshino, K.; Nakagawa, K.; Tori, M.; Asakawa, Y. Chem. Lett. 1987, 329-332.
    24. Fukuyama Y.; Hasegawa, T.; Toda, M.; Kodama, M.; Okazaki, H. Chem. Pharm. Bull. 1992, 40, 252-254.
    25. Waibel, R.; Benirschke, G.; Benirschke, M.; Achenbach, H. Phytochemistry 2003, 62, 805-811.
    26. Agrawal, P. K.; Rastogi, R. P.; Osterdahl, B. G. Org. Mag. Resonance 1983, 21, 119-121.
    27. Woo, W. S.; Kang, S. S.; Seligmann, O.; Chari, V. W.; Wagner, H. Tetrahedron Lett. 1980, 164, 4255-4258.
    28. Lin, Y. L.; Shiao, M. S.; Kuo, Y. H.; Tsai, W. J.; Chen, C. C. Chin. Pharm. J. 1999, 51, 397-401.
    29. Tsai, I. L.; Lai-Yaun, I. L.; Duh, C. Y.; Jeng, Y. F.; Chen, I. S. Chin. Pharm. J. 2000, 52, 235-239.
    30. Sun, R.; Sacalis, J. N.; Chin, C. K.; Still, C. C. J. Agric. Food Chem. 2001, 49, 5161-5164.
    31. Hruza, D. E.; Praag, M. V.; Heinsohn, H. J. Agric. Food Chem. 1974, 22, 123-126.
    32. de Carvalho, E. M.; Velloso, M. H. R.; Tinoco, L. W.; Figueroa-Villar, J. D. J. Magn. Reson. 2003, 197-204.
    33. Wang, M.; Kikuzaki,H.; Zhu, N.; Sang, S.; Nakatani, N.; Ho, C. T. J. Agric. Food Chem. 2000, 48, 235-238.
    34. Tsai, I. L.; Jeng, Y. F.; Duh, C. Y.; Chen, I. S. Chin. Pharm. J, 2001, 53, 291-301.
    35. Bouaicha. N.; Amade, P.; Puei, D.; Roussakis, C. J. Nat. Prod. 1994, 57, 1455-1457.
    36. Daly, J.; Horner, L.; Wrtkop, B. J. Am. Chem. Soc. 1961, 83, 4787-4792.

    5.5 參考文獻

    1. 歐潤芝,台灣中草藥圖鑑,三聯彩色印刷有限公司,台北,1998, p. 256.
    2. 中國科學院中國植物誌編委會, 中國植物誌 (74), 科學出版社, 1985, pp. 99-101.
    3. 台北台灣植物誌第二版編委會, 台灣植物誌第二版(4), 台北台灣植物誌第二版編委會, 1998, pp. 848, 855.
    4. 新文豐出版公司, 新編中藥大辭典(中), 新文豐出版公司, 1981, pp.215-216.
    5. 國家中醫藥管理局中華本草編委會, 中華本草(7), 上海科學技術出版社, 1999, pp. 886-887.
    6. 鄭武燦, 台灣植物圖鑑(下), 茂昌圖書有限公司, 1990, p. 1242.
    7. 邱年永, 張光雄, 原色台灣藥用植物圖鑑(3), 台北南天書局, 1992, p. 249.
    8. 盧艷花, 王崢濤, 葉文才, 徐珞珊, 舒躍中(1998)“紫菀化學成分的研究”, 中國醫科大學學報, 29(2): 97-99.
    9. Akihisa T., Kimura Y., et al., (1998) Astertarone A: a triterpenoid ketone isolated from the roots of Aster tataricus L.. Chem. Pharm. Bull., 46: 1824-1826.
    10. Akihisa T., Kimura Y., Tai T., Arai K., (1999) Astertarone B, a hydroxyl-triterpenoid ketone from the roots of Aster tataricus L.. Chem. Pharm. Bull., 47: 1161-1163.
    11. 盧艷花, 王崢濤, 徐珞珊, 吴子斌 (2002) “紫菀中的多元酚類化合物”, 中草藥, 33 (1): 17-18.
    12. Morita H., Nagashima S., Takeya K., Itokawa H., (1993) Astins A and B, antitumor cyclic pentapeptides from Aster tataricus. Chem. Pharm. Bull., 41: 992-993.
    13. Morita H., Nagashima S., Takeya K., Itokawa H., Ititaka Y., (1995) Structures and conformation of antitumour cyclic pentapeptides, astins A, B, and C, from Aster tataricus. Tetrahedron, 51: 1121-1132.
    14.Nagao T., Tanaka R., Shimokawa H., Okabe H., (1991) Studies on the constituents of Aster scaber Thunb. II.1) Structures of echinocystic acid glycosides isolated from the root. Chem. Pharm. Bull., 39: 1719-1725.
    15.Nagao T., Tanaka R., Okabe H., (1991) Studies on the constituents of Aster scaber Thunb. I. Structures of scaberosides, oleanolic acid glycosides isolated from the root. Chem. Pharm. Bull., 39: 1699-1703.
    16.Nagao T., Tanaka R., Iwase Y., Okabe H., (1993) Studies on the constituents of Aster scaber Thunb. IV.1) Structures of four new echinocystic acid glycosides isolated from the herb. Chem. Pharm. Bull., 41: 659-665.
    17.Nagao T., Tanaka R., Iwase Y., Okabe H., (1993) Studies on the constituents of Aster scaber Thunb. V.1) Structures of six new echinocystic acid glycosides isolated from the herb. Chem. Pharm. Bull., 41: 1562-1566.
    18.Kwon H. C., Jung C. M., Shin C. G., et al., (2000) A new caffeoyl quinic acid from Aster scaber and its inhibitory activity against human immunodeficiency virus-1 (HIV-1) integrase. Chem. Pharm. Bull., 48: 1796-1798.
    19.Jung C. M., Kwon H. C., Seo J. J., et al., (2001) Two new monoterpene peroxide glycosides from Aster scaber. Chem. Pharm. Bull., 49: 912-914.
    20. Shao Y., Zhou B. N., Lin L. Z., Cordell G. A., (1995) Triterpene saponins from Aster yunnanensis. Phytochemistry, 38: 1487-1492.
    21.Shao Y., Zhou B. N., Ma K., Wu H. M., (1995) Echinocystic acid saponins from Aster yunnanensis. J. Nat. Prod., 58: 837-842.
    22.Shao Y., Li Y. L.Zhou B. N., (1996) Phenolic and triterpenoid glycosides from Aster Batangensis. Phytochemistry, 41: 1593-1598.
    23.Shao Y., Zhou B. N., Ma K., Wu H. M., (1995) New triterpenoid saponins, asterbatanoside D and E, from Aster batangensis. Planta Med., 61: 246-249.
    24.Shao Y., Zhou B. N., Lin L. Z., Cordell G. A., (1995) Triterpenoid saponins from Aster batangensis. Phytochemistry, 38: 927-933.
    25.Shao Y., Ho Y. S., Chin C. K., et al., (1997) Triterpenoid saponins from Aster lingulatus. Phytochemistry, 44: 337-340.
    26.Shao Y., Ho C. T., Chin C. K., et al., (1997) Asterlingulatosides C and D, cytotoxic triterpenoid saponins from Aster lingulatus. J. Nat. Prod., 60: 743-746.
    27.Wang C. Z., Yu D. Q., (1998) Lignan and acetylenic glycosides from Aster auriculatus. Phytochemistry, 48: 711-718.
    28.Tan R. X., Hu Y. H., Liu Z. L., (1993) New kaurane diterpenoids from Aster tongolensis. J. Nat. Prod., 56: 1917-1922.
    29.Schopke T., Al-Tawaha C, Wray V., et al, (1995) Triterpenoid saponins from the aerial parts of Aster bellidiastrum. Phytochemistry, 40: 1489-1492.
    30.Choi S. Z., Kwon H. C., Choi S. U., Lee K. R., (2002) Five new labdane diterpenes from Aster oharai. J. Nat. Prod., 65: 1102-1106.
    31.張嘉明, 陳耀祖, 李伯剛, 王明奎 (1997) “灰枝紫菀化學成分的研究”, 中國中藥雜誌, 22(2): 103-104.
    32.何蘭, 程東亮, 潘宣, (1996) “小舌紫菀化學成分的研究”, 中國中藥雜誌, 21(8): 483-484.
    33.何蘭, 程東亮, 潘宣, (1996) “狹苞紫菀化學成分的研究”, 中草藥 27(3): 142.
    34.Cheng D., Cao X., Wei H. He L., (1993) Kaurane diterpenoids from Aster ageratoides. Phytochemistry, 33: 1181-1183.
    35.潘宣, 程東亮, 何蘭 (1996) “山白菊化學成分的研究”, 中草藥, 27 (1): 55-56.
    36.Guo S. J., Katalinic J. P., He L., Cheng D. L., (1998) A new kaurane diterpene and a new echinocystic acid saponin from Aster ageratoides. Pharmazie, 53: 481-485. CA, 129: 133655.
    37. Kobayashi, S.; Ozawa, T., Imagawa, H. Agric. Biol. Chem. 1982, 46, 845-847.
    38. Pouchert, C. J.; Behnke, J., Eds. 1993, The Aldrich Library of 13C and 1H FT NMR Spectra, Vol. 2. Aldrich Chemical Co., Milwaukee, WI. p. 943, 959, 1115.
    39. Kuo, Y. H.; Li, S. Y.; Shen, C. C.; Yang, L. M.; Huang, H. C.; Liao, W. B.; Chang, C. I. Chin. Pharm. J. 1997, 49, 207-216.
    40. Balde, A. M.; Claeys, M.; Pieters, L. A.; Wray, V.; Vlietinck, A. J. Phytochemistry 1991, 30, 1024-1026.
    41. Deyama, T.; Ikawa, T.; Kitagawa, S.; Nishibe, S. Chem. Pharm. Bull. 1987, 35, 1785-1789.
    42. Pouchert, C. J.; Behnke, J., Eds., 1993. The Aldrich Library of 13C and 1H FT NMR Spectra, Vol. 3. Aldrich Chemical Co., Milwaukee, WI. p. 136, 138.
    43. Nishizawa, M.; Izuhara, R.; Kaneko, K.; Koshihara, Y.; Fujimoto, Y. Chem. Pharm. Bull. 1988, 36, 87-95.
    44. Aoki, T.; Takagi, K.; Hirata, T.; Suga, T. Phytochemistry 1982, 21, 1361-1363.
    45. Bokern, M.; Heuer, S.; Wray, V.; Witte, L.; Macek, T.; Vanek, T.; Strack, D. Phytochemistry 1991, 30, 3261-3265.
    46. Lin, L. C.; Chou, C. J.; Yang, L. M. Chin. Pharm. J. 1999, 51, 299-305.
    47. Agrawal, P. K., Ed., 1989, Carbon-13 NMR of Flavonoids, Elsevier Science, Amsterdam. p. 334-337.
    48. Lin, Y. L.; Wang, C. N.; Shiao, Y. J.; Liu, T. Y.; Wang, W. Y. J. Chin. Chem. Soc. 2003, 50, 1079-1083.
    49. Agrawal, P. K.; Ed., 1989, Carbon-13 NMR of Flavonoids, Elsevier Science, Amsterdam. p. 340-342.
    50. Kwon, H. C.; Jung, C. M.; Shin, C. G.; Lee, J. K.; Choi, S. U. Chem. Pharm. Bull. 2000, 48, 1796-1798.
    51. Xiang, T.; Xiong, Q. B.; Ketut, A. I.; Tezuka, Y.; Nagaoka, T.; Wu, L. J.; Kadota, S. Planta Med. 2001, 67, 322-325.
    52. Maruta, Y.; Kawabata, J.; Niki, R. J. Agric. Food Chem. 1995, 43, 2592-2595.

    6.5 參考文獻

    1. 國家中醫藥管理局《中華本草》編委會,中華本草,第四卷,上海科學技術出版社,上海,1999,p.603-609。
    2. 新編中藥大辭典(下),新文豐出版公司,台北,1981,p.2068-2070。
    3. 林建誠,補骨脂之活性成分當歸素及補骨脂素對大白鼠初代肝細胞之生理活性及黃麴毒素B1誘發中國倉鼠卵巢細胞DNA傷害之影響,國立中興大學食品科學研究所碩士論文,台中,1996。
    4. 黃振昌,補骨脂化學成分之研究,國防大學藥學研究所碩士論文,台北,2001。
    5. Chang, H. M.; But, P. P. H. 1986. Pharmacology and Application of Chinese Materia Medica. pp.634-641. World Scientific : Singapore.
    6. Lin, Y. L.; Kao, Y. H. Heterocyles 1992, 34, 1555-1564.
    7. Mehta, G.; Nayak, U. R.; Sukh, D. Tetrahedron 1966, 29, 1119-1125.
    8. Park, E. J.; Zhao, Y. Z.; Kim, Y. C.; Sohn, D. H. Planta Med. 2005, 71, 508-513.
    9. Tsai, W. J.; Hsin, W. C.; Chen C.C. J. Nat. Prod. 1996, 59, 671-672.
    10. 吉利,徐植靈,補骨脂化學成分的綜述,中國中藥雜誌,1995, 20, 120-122。
    11. 黃泰康,常用中藥成分與藥理手冊,中國醫藥科技出版社,1994,p.1113-1124。
    12. Sun, N. J.; Woo, S. H.; Cassady, J. M.; Snapka, R. M. J. Nat. Prod. 1998, 61, 362-366.
    13. Kondo, Y.; Kato, A.; Kubota, Y.; Eozoe, S. Heterocycles 1990, 31, 187-190.
    14. Knastgir, H. N.; Duttagupta, P. C.; Sengupta, P. Tetrachedron 1961, 14, 275-283.
    15. Gupta, G. K.; Rao, P. R. Indian Journal of Chemistry 1974, 12, 659-660.
    16. Gupta, G. K.; Dhar, K. L.; Atal, Phytochemistry 1977, 16, 403-404.
    17. Gupta, S.; Jha, B. N.; Gupta, G. K.; Ghpta, B. K.; Dhar, K. L. Phytochemistry 1990, 29, 2371-2373.
    18. Gupta, B. K.; Gupta, G. K.; Dhar, K. L.; Atal, C. K. Phytochemistry 1980, 19, 2232-2233.
    19. Lin, Y. L.; Kuo, Y. H. Heterocycles 1992, 34, 1555-1564.
    20. Gupta, G. K.; Dhar, K. L.; Atal, C. K. Phytochemistry 1978, 17, 164.
    21. Bajwa, B. S.; Khanna, P. L.; Seshardri, T. R. Indian Journal of Chemistry 1974, 12, 15-19.
    22. Suri, J. L.; Gupta, G. K.; Dhar, K. L.; Atal C. K. Phytochemistry 1978, 17, 2046.
    23. Gupta, S. R.; Seshadri, T. R.; Sood, G. R. Phytochemistry 1977, 16, 1995-1997.
    24. Suri, J. L.; Gupta, G. K.; Dhar, K. L.; Atal, C. K. Phytochemistry 1980, 19, 336-337.
    25. Gupta, B. K.; Gupta, G. K.; Dhar, K. L.; Atal C. K. Phytochemistry 1980, 19, 2034-2035.
    26. Gupta, G. K.; Suri, J. L.; Gupta, B. K.; Dhar, K. L. Phytochemistry 1982, 21, 2149-2151.
    27. Mehta, G.; NaYak, U. R.; Dev, S. Tetrehedron 1973, 29, 1119-1125.
    28. Shah, C. C.; Bhalla, V. K.; Dev, S. J. Indian Chem. Soc. 1997, 74, 970-973.
    29. Bhalla, V. K.; Nayark, U. R.; Dev, S. Tetrachedron Letters 1968, 20, 2401-2406.
    30. Labbe, C.; Faini, F.; Coll, J.; Connolly, J. D. Phytochemistry 1996, 42, 1299-1303.
    31. Latha, P. G.; Panikkar, K. R. J. Ethnopharmacol. 1999, 68, 295-298.
    32. Adhikari, S.; Joshi, R.; Patro, B.S.; Ghanty, T. K.; Chintalwar, G. J.; Sharma, A.; Chattopadhyay, S.; Mukherjee, T. Chem. Res. Toxicol. 2003, 16, 1062-1069.
    33. Khatune, N. A.; Islam, M. E.; Haque, M. E.; Khondkar, P. K.; Rahman M. M. Fitoterapia, 2004, 75, 228-230.
    34. Boyer, V.; Moustacchi, E.; Sage, E. Biochemistry 1988, 27, 3011-3018.
    35. Tsai, T. W.; Wang, E. C. J. Chin. Chem. Soc. 2004, 51, 1019-1023.
    36. Wu, T. S.; Shi, L. S.; Wang, J. J.; Iou, S. C.; Chang, H. S.; Chen, Y. P.; Kuo, Y. H.; Chang, Y. L.; Teng, C. M. J. Chin. Chem. Soc. 2003, 50, 171-178.
    37. Jiangning, A.; Xinchu, W.; Hou, W.; Qinghua, L.; Kaishun, B. Food Chemistry 2005, 91, 287-292.
    38. Liu, R., Li; A., Sun, L.; Kong, L. J. Chromatogr. A 2004, 1057, 225-228.

    無法下載圖示 本全文未授權公開
    QR CODE